Hochschule Bremerhaven
Fachbereich 2
Modul Handbook
Transportwesen/Logistik
(Bachelor of Engineering)
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Inhalt
Title: Mathematics ........................................................................................................ 4
Title: Technical Physics ............................................................................................... 6
Title: Physical-chemical Safety Engineering .............................................................. 9
Title: Transport Technology ...................................................................................... 12
Title: Business Law .................................................................................................... 15
Title: Informatics I ...................................................................................................... 18
Title: English for Logisticians I .................................................................................. 21
Title: Application of Mathematics in Logistics .......................................................... 24
Title: Technical Mechanics I ...................................................................................... 27
Title: Business Administration I ................................................................................. 29
Title: InformaticsII ...................................................................................................... 31
Title: English for Logisticians II ................................................................................. 34
Title: Technical Mechanics II ..................................................................................... 37
Title: Macroeconomics ............................................................................................... 40
Title: Business Administration II ................................................................................ 43
Title: Informatics III .................................................................................................... 46
Title: Electives 1 – Soft skills .................................................................................... 49
Title: Electives 2 – Transport Engineering and Management .................................. 51
Title: Transport ........................................................................................................... 54
Title: Data processing Systems in Logistics ............................................................. 56
Title: Business Administration III ............................................................................... 58
Title: Traffic Systems ................................................................................................. 61
Title: Production Technology ..................................................................................... 64
Title: Packaging and Transport .................................................................................. 67
Title: Warehouse Management ................................................................................... 71
Title: Transport law and insurance law ..................................................................... 74
Title: Logistics Management ...................................................................................... 77
Title: Production Logistics ......................................................................................... 80
Title: Electives 3 – Materials Handling and Handling Equipment ............................. 83
Title: Internship ........................................................................................................... 85
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Title: Bachelor Thesis ................................................................................................ 87
Title: Negotiations, Strategies and Rhetoric (Electives 1) ....................................... 89
Title: Writing Scientific Papers (Electives 1) ............................................................ 91
Title: Transport of Dangerous Goods by Road and Railway (Electives 2) .............. 93
Title: Customs and Foreign Trade Law (Electives 2) ............................................... 95
Title: Transport of Dangerous Goods by Sea, Inland Waterway and Air (Electives
2) .................................................................................................................................. 97
Title: Dangerous Materials in Industry and Trade (Electives 2) ............................ 100
Title: Combined Transport / Metropolitan area and heavy loads (Electives 2) .... 102
Title: Safety of Intermodal Container Transportation (Electives 2) ...................... 104
Title: Seaport-Terminals (Electives 2) ................................................................... 106
Title: Packaging methods, machines and lines (Electives 3) .................................. 108
Title: Basics of the Material Handling Technology (Electives 3) ........................... 110
Title: Planning of Material Flow Systems (Electives 3) .......................................... 112
Title: Materials engineering (Electives 3) ............................................................... 114
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Title: Mathematics
Code number
11000
Workload
240 h
Credits
8
Semester
1. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Analysis
b) Linear Algebra
Contact time
6 SWS / 90 h
Self-study
150 h
Group size
40 students
Responsible person: Prof. Dr.-Ing. Carsten Dorn
Code number: Course: Analysis
Docent: Dr. Schlüsing
Semester: 1 Course weighting: 0,7 SWS Course: 4
Code number: Course: Linear Algebra
Docent: Herr Fellensiek
Semester: 1 Course weighting: 0,3 SWS Course: 2
2 Learning outcomes / Objectives
In this module students will acquire knowledge and competences that are necessary for gaining deeper understanding of the scientific, technical and economic issues covered in the basic and main course of studies. They will learn to apply linear algebra to explain economic problems.
The module is applicable within the scope of such subjects as: chemistry, physics, technical basics, technical mechanics, statistics/probability calculus, operations research, financial mathematics, business administration, economics, logistics technologies and data-processing applications.
3 Course contents
a) Analysis
Basics of special mathematical symbols, binomial theorem, logarithms, exponential and logarithmic equation etc.
Algebraic and transcendental functions, in section defined functions
Sequences and series with application examples
Limit of a sequence, limit of functions and continuity of functions
Differential calculus and integral calculus with economic, physical and technical application examples
Ordinary differential equation
b) Linear Algebra
Vector algebra - Determinants and matrices
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4 Teaching methods
Lectures
5 Prerequisites for course participation
A-levels/ vocational diploma
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 3
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
4,3 %
10 Lecturer
11 Additional information
Language of teaching: German
Literature:
a) Analysis
- D. Uhlich: Skripte und Klausurensammlung - Bartsch: Taschenbuch mathematischer Formeln, Fachbuchverlag, Leipzig, 2001 - Papula, Lothar: Mathematische Formelsammlung für Ingenieure und Naturwissenschaftler,
Vieweg Verlag, Wiesbaden, 2003 - Preuß, Wernisch: Lehr- und Übungsbuch Mathematik, Band 1-3, Carl Hanser Verlag,
München, 2001 - Garus, Westerheide: Differential- und Integralrechnung, Carl Hanser Verlag, München,
1998
b) Lineare Algebra
1. Köhler: Lineare Algebra, Carl Hanser Verlag, München, 1998 2. Gramlich: Lineare Algebra, Fachbuchverlag, Leipzig, 2003 3. H. Stöcker: Analysis, Band 2, Verlag Harri Deutsch, 1996 - D. Uhlich: Skript Lineare Algebra
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Title: Technical Physics
Code number
11100
Workload
150 h
Credits
5
Semester
1-2. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) Techn. Physics I
b) Techn. Physics II
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Dieter Heimann
Code number: 11110 Course: Technichal Physics I
Docent: Prof. Dr. Dieter Heimann
Semester: 1 Course weighting: SWS Course: 2
Code number: 11120 Course: Technichal Physics I
Docent: Prof. Dr. Dieter Heimann
Semester: 2 Course weighting: SWS Course: 2
2 Learning outcomes / Objectives
According to a technical focus of the course, the students will become acquainted with standard physical quantities, units and relations between them. As certain courses listed in syllabus deal with mechanics, these lectures focus on the physical behavior of liquids and gases (Technical Physics I) and on basic relations in the electrical engineering and the theory of oscillations (Technical Physics II). The target of the module is to familiarize students with the physical-technical subjects (analytic approach), to present application examples and to show the importance of physics with regard to technical procedures in logistics. After successful participation in the Module, the student has basic knowledge to understand the functionality of logistics processes. The module sets the base for advanced courses in the field of technical logistics.
3 Course contents
a) Techn. Physics I
Physical quantities and units and theirs conversion
Force, work, energy and power
Density of solids, liquids and gases
Hydrostatic pressure in liquids and gases, buoyancy
Continuity equation and Bernouilli's equation
Thermal expansion of solids, liquids and gases
Equation of state and changes of state of an ideal gas (Ideal gas law)
Thermodynamic cycles and efficiency of heat engines
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Heat transfer
b) Techn. Physics II
Basic quantities of electrical engineering (electric charge, current intensity, voltage, resistance)
Series and parallel connection of resistance and voltage supply
Calculating electrical circuit using Kirchhoff's voltage law
Electrical work and electrical power
Capacitance and inductance
Direct and alternating current – electrical power generation, electrical parameters, circuit
Basic quantities of oscillation theory (vibration period, vibrational frequency, vibration amplitude)
Equation of motion of simple harmonic oscillator (undammed/dammed) 1. Physical and mathematical pendulum
4 Teaching methods
Lectures
5 Prerequisites for course participation
School knowledge of mathematics and physics
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 3
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Dieter Heimann
11 Additional information
Language of teaching: German
Literature:
1. Kuchling, Horst: Taschenbuch der Physik, 19. Auflage, - München, Carl Hanser Verlag, 2007
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2. Hering, Ekbert; Martin, Rolf; Stohrer, Martin: Physik für Ingenieure, 10. Auflage, Berlin, Springer Verlag, 2008
3. Lindner, Helmut: Physik für Ingenieure, 17. Auflage, - München, Carl Hanser Verlag, 2006
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Title: Physical-chemical Safety Engineering
Code number
11200
Workload
150 h
Credits
5
Semester
1.-2. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) physico-chemical safety engineering I
b) physico-chemical safety engineering II
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. Wolfgang Schwanebeck
Code number: Course: Physico-chemical safety engineering I
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 1 Course weighting: SWS Course: 1
Code number: Course: Physico-chemical safety engineering I Lab
Semester: 1 Course weighting:
SWS Course: 1
Code number: Course: Physico-chemical safety engineering II
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 2 Course weighting: SWS Course: 1
Code number: Course: Physico-chemical safety engineering II Lab
Semester: 2 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
The students know and understand the knowledge base of characteristics and behavior of hazardous materials and goods as well as physico-chemical conditions and can apply them on different situations. They know the material characteristics to classify the materials and goods as “dangerous” as defined by international relevant laws. The students can work with principles to classify hazardous materials for all modes of transport and use European guidelines to classify hazardous materials.
The students gains deepen knowledge over safety engineering key data to characterize and classify hazardous materials and can define elected key data by experiments. Additional the students gain physico-chemical material knowledge on demonstrative descriptions. The students can transfer this knowledge on other safety engineering systems. To get this information, students can read and understand information from hazardous materials out of material data bases and datasheets. Additional they understand basic elements of risk communication (datasheets, instruction papers etc.) to deal with hazardous materials. They learn important
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organizing steps to produce operational safety in chemical laboratories.
As well as functional knowledge the students learn the ability, to link and addict functions and to describe them in mathematical forms. They improve their ability to abstract and think logical as well as analytical thinking. As they work in groups of two, they will as well improve their ability of team work.
3 Course contents
Lecture/ practical practise
- safety engineering characteristics to classify physico-chemical hazardous potential
- important characteristics of hazardous materials and goods
- international hazardous materials classes
- principles to classify hazardous materials
- basics of risk communication in inner processes in logistic and transport
- important safety engineering material characteristics
- aggregate state and phase equilibrium
- fire and explosion protection
- air pollutants
- characteristics of electrolytes in aqueous solution
- comparison of information out of material information systems and critical valuation of the own measurements
- learning and following of the operating workplace instruction in chemical laboratories
4 Teaching methods
Lectures, Laboratories
5 Prerequisites for course participation
Contentwise 1. Semester: school knowledge in mathematics, physics and chemistry
Contenwise 2 Semester: physico-chemistry safety engineering I, technical physics I I
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 0,25 - 0,5
7 Requirements for allocation of Credit points
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Passed examination
Laboratory tutorial
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
11 Additional information
Language of teaching: German
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Title: Transport Technology
Code number
11300
Workload
150 h
Credits
5
Semester
1. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Transport Technology I
b) Transport Technology II
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Ernst-Jürgen Ribbert / Prof. Dr.-Ing. Carsten Dorn
Code number: 11310 Course: Transport technology I
Docent: Prof. Dr. Ernst-Jürgen Ribbert
Semester: 1 Course weighting: 0,5 SWS Course: 2
Code number: 11320 Course: Transport technology II
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 1 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The conveyor and transport techniques are essential elements of transport technology applied in logistics systems and are therefore a major focus of the course. The aim of these lectures is to familiarize students with pros and cons of single conveyor and transport techniques with regard to their practical usage.
The students will be actively involved in the course through certain interactive elements such as seminar-style, visual aids (photos and videos) and specialist talks about the latest technical progress in this field.
3 Course contents
a) Transport Technology I
Introduction to technical logistics
Industrial truck
Forklift truck
Reach truck, high-bay stacker
Special vehicles
Automated guided vehicle systems
Continuous flow conveyor such as: gravity conveyor, power driven conveyor, flow conveyor and vibrating conveyor
Explosion-proof industrial trucks and related devices: types, features and applications
b) Transport Technology II
Introduction
Types of pallet construction
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Transport boxes, types of different containers
Transport rack, Small Load Carrier
Load handling facilities and load lifting devices
Types of hoisting devices, engines and particularities of:
standard hoisting devices
rail-bound hoisting equipment
mobile cranes, crane vehicles
Special types of terminal construction
Special types of continuous flow conveyor
Electrical drives in conveyor and transport techniques
Transport of gases and liquids
4 Teaching methods
Lectures, seminar, videos, specialist talks
5 Prerequisites for course participation
/
6 Art of examination
Transport Technology I
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
Transport Technology II
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
Written examination, presentation
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Carsten Dorn
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Prof. Dr. Ernst-Jürgen Ribbert
11 Additional information
Language of teaching:
- Transport Technology I – German
- Transport Technology II - German
Literature:
a) Transport Technology I:
1. Sortier- und Verteilsysteme - Grundlagen, Aufbau, Berechnung und Realisierung. Jodin, ten Hompel. Berlin 2006. 2. Materialflusssysteme - Förder- und Lagertechnik. Reihe Intralogistik. ten Hompel (Herausgeber und Autor), Jünemann (Herausgeber), Schmidt, Nagel. Berlin 2007.
b) Transport Technology II
1. Dorn, Carsten: Vorlesungsumdruck Transporttechnik II, 2010 2. Scheffler, M., Feyrer, K., Matthias, K.: Fördermaschinen, 1998 3. Dubbel, Handbuch für den Maschinenbau, neuste Auflage 4. DIN-Normen, Beuth Verlag 5. EN-Normen, Beuth Verlag
1. BG-Schriften, Fachberufsgenossenschaften - Arbeitsschutz weitere diverse Fachliteratur
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Title: Business Law
Code number
11400
Workload
150 h
Credits
5
Semester
1.-2. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) Business Law I German Civil Code
b) Business Law II German Commercial Code
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Thomas Wieske
Code number: 11410 Course: Business Law I German Civil Code
Docent: Prof. Dr. Thomas Wieske
Semester: 1 Course weighting: 0,5 SWS Course: 2
Code number: 11420 Course: Business Law II German Commercial Code
Docent: Prof. Dr. Thomas Wieske
Semester: 2 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
In this module basic knowledge of law, statutory sources of law and various fields of application will be taught. The main focus of the course is contract law. The course is designed to prepare students to conclude contracts, carry on negotiations, accept and make offers and estimate legal risks. The students will become acquainted with the basic principles of commercial and corporate law as far as it’s important for logisticians and future managers to estimate legal risks and fulfill their duties and responsibilities.
3 Course contents
a) a) Business Law I:
The nature and tasks of law
Division of law according to statutory sources, field of application and aims of regulation
Difference between private law and public law for logisticians
Introduction to and systematics of the German Civil Code (BGB)
Conclusion of the contract, acting as deputy and agent, limitation of actions
General law of obligations, defective performance, standard form contract; consumer protection
Special law of obligations, contract of sale, contract of employment/ contract of service, contract for work and services
Specific securing means, guarantee, surety ship, partnership
Non-contractual obligation deriving from German Civil Code (BGB) and other statutory
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sources of law e.g. product liability act (PHG) and road traffic act (StVG )
The law of property, possession, ownership, lien
Basic principles of administrative law
Introduction to the European Law
b) Business Law II:
Introduction to commercial law, statutory sources of law, legal case studies
The merchant and other commercial subjects
The company and the Commercial Register
Law of partnerships and corporations: ---private partnership (GbR); general partnership (OHG); limited partnership (KG)
Limited companies: limited partnership with a limited liability company as general partner (die GmbH & Co. KG), limited liability company (GmbH)
Join stock company; limited joint stock partnership (KGaA)
Mandatory accounting
Bankruptcy law
Transactions of the merchant: basic principles of commercial transactions
Commercial payment and securities
Commercial sale and commission business
Protection of the industrial property - European aspects in commercial law
4 Teaching methods
Lectures
5 Prerequisites for course participation
Business Law I: none
Business Law II: Business Law I
6 Art of examination
Business Law I German Civil Code
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
Business Law II German Commercial Code
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
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7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Thomas Wieske
11 Additional information
Language of teaching: German
Literature
a) Business law I:
1. Gesetzestexte: BGB, HGB, EG-Vertrag; 2. Wieske, Thomas, Vorlesungsskript; 3. Katko, Peter, Bürgerliches Recht –schnell erfasst; 4. Wörlen, Rainer, BGB- AT; Schuldrecht, Sachenrecht; 5. Ulrich Norbert, Wirtschaftsrecht für Betriebswirte.
b) Business law II:
1. Gesetzestexte: BGB, HGB, GmbHG, AktG, InsO, EG-Vertrag; 2. Wieske, Thomas, Vorlesungsskript—Handels- und Gesellschaftsrecht; 3. Gruber, Joachim Handelsrecht –schnell erfasst; 4. Wörlen, Rainer, Handelsrecht mit Gesellschaftsrecht; 5. Ulrich Norbert, Wirtschaftsrecht für Betriebswirte; - Klunzinger, Eugen, Grundzüge des Handelsrechts.
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Title: Informatics I
Code number
11500
Workload
150 h
Credits
5
Semester
1. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Basic informatics in logistics
a) b) Spread sheet applications in logistics
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. Walter Fedderwitz
Code number: 11510 Course: Basic informatics in logistics
Docent: Prof. Dr. Walter Fedderwitz
Semester: 1 Course weighting: 0,5 SWS Course: 2
Code number: 11520 Course: Spread sheet applications in logistics
Docent: Prof. Dr. Walter Fedderwitz
Semester: 1 Course weighting:
0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students will become acquainted with basic principles and general context of information technology and its application possibilities in logistics. The Module aims to enabling the student to select computer applications for logistics problems and understand the basic operation principles of these applications.
Spread sheets including graphics for visualization and analysis of data plays a central role for a logistics worker. Also the Module teaches the basic skills in using computers and computer infrastructure in the labs.
3 Course contents
a) Contents of basic informatics in logistics:
Basic user skills in operating a computer
Hardware and components of computers as far as needed to understand functionality visible to the users
Mathematics and theoretical informatics (Number systems and Boolean algebra)
Connection and interoperability between computers and communication systems (mobile phone apps, location based services)
b) Contents of spread sheets in logistics
Basic spread sheet applications
linear and nonlinear optimization using the integrated algorithms in modern spread sheet
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applications - Use of graphics: Visualization of numerically obtained solutions, e.g. Solver
4 Teaching methods
Lectures, Laboratories
5 Prerequisites for course participation
Math and physics courses of Sekundarstufe II
6 Art of examination
Basic informatics in logistics
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1,5
Spread sheet applications in logistics
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
Written examination, laboraty tutorial, 2 separate exams
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr.-Ing. Walter Fedderwitz Prof. Dr. habil. Waldemar Czuchra
11 Additional information
Language of teaching: German
Literature
a) basic informatics in logistics:
1. P. Rechenberg: Was ist Informatik?, Hanser Verlag, 1994 2. Hans J. Petersen, u. a.: IT-Handbuch Westermann Berufsbildung (April 2003)
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3. Heinz-Peter Gumm, u. a.: Einführung in die Informatik Oldenbourg (2002)
b) spread sheets in logistics:
1. Olaf Apel, Stefan Lorscheid, Markus Peters:Handlungsorientierte-Tabellenkalkulation-Schülerbuch-für Büroberufe Bildungsverlag E1ns, 2008 2. Marco Bettner:Mathe! Tabellenkalkulation,Aol im Persen Verlag Neuauflage 2009
1. Uwe Marnowsky:Tabellenkalkulation mit Excel 2007,Cornelsen Verlag, 2007
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Bremerhaven
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Title: English for Logisticians I
Code number
11600
Workload
150 h
Credits
5
Semester
1.-2. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) English for Logisticians 1
b) English for Logisticians 2
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
20 students
Responsible person: Dr. phil. Edmund Voges (FZHB)
Code number: 11610 Course: English for Logisticians 1
Docent: Dr. phil. Edmund Voges / Evelyn Köhnke
Semester: 1 Course weighting: 0,5 SWS Course: 2
Code number: 11620 Course: English for Logisticians 2
Docent: Dr. phil. Edmund Voges
Semester: 2 Course weighting:
0,5 SWS Course: 2
2 Learning outcomes / Objectives
English is the language of international trade. Logisticians not only have to be able to negotiate, make phone calls or generate business correspondence in English but also to understand and describe complex technical issues in English. Apart from basic English the main focus of the course is also Business and Technical English.
At the beginning of the semester an entry-level examination will be carried out in order to identify language proficiency of each student. At the end of the semester the students are supposed to communicate at least at level B1 of the Common European Framework of Reference for Languages.
3 Course contents
During the course students will become acquainted with basic English within business contexts and brush up on the most important grammar structures.
Students with little English knowledge can improve their language competences during the semester breaks by attending private English classes or in self-learning centers.
The course is practice oriented. The students will improve their core competences such as: making phone calls, writing business letters or understanding and describing complex technical processes.
The language module is based on seminar and tutor assisted self-study learning and consists of the following elements:
- Oral proficiency, listening/speaking, reading, writing
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- Learning strategies/ language awareness - Systematic language knowledge (grammar, vocabulary)
Tutor assisted self-study learning part covers:
- Definition of individual learning goals - Working on self-study exercises - Introduction into self-study working groups
4 Teaching methods
Seminar, self-study exercises
5 Prerequisites for course participation
/
6 Art of examination
English for Logisticians 1
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
English for Logisticians 2
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed written examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Dr. phil. Edmund Voges (FZHB)
11 Additional information
Language of teaching: English
Literature:
1. Cullen/Lehninger: B for Business. Hueber 2000.
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2. Kramer/Tompkins/Wolter: Englisch für kaufmännische Berufe. Fachkurs Spedition. Klett 2000.
3. Lau: Freight Matters. Cornelsen & Oxford 1999. 4. Witt: Carry away. Stam 1997. 5. Murphy: English Grammar in Use. Cambridge 1994. 6. Vorlesungsskript Voges
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Title: Application of Mathematics in Logistics
Code number
21000
Workload
210 h
Credits
7
Semester
2. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Statistics
b) Financial Mathematics, Operations Research
Contact time
6 SWS / 90 h
Self-study
120 h
Group size
40 students
Responsible person: Prof. Dr.-Ing. Carsten Dorn
Code number: 21010 Course: Statistics
Docent: Dr. Schlüsing / Prof. Dr.-Ing. Carsten Boll
Semester: 2 Course weighting: 0,7 SWS Course: 4
Code number: 21020 Course: FInancial mathematics, Operations Research
Docent: Herr Fellensiek
Semester: 2 Course weighting: 0,3 SWS Course: 2
2 Learning outcomes / Objectives
The students will acquire basic principles of mathematics in order to apply them later on to economic problems. They will learn mathematical and procedural methods of problem solving in logistics. Moreover they will acquire knowledge of statistics and probability theory in order to analyse and forecast logistics facts and their interrelations. They will also learn to deal with random variables and distribution in the field of strategic planning e.g. using simulation techniques..
3 Course contents
a) Statistics
Basic terminology, description of scattering quantities, statistical units of measurement
Correlation und regression
Combinatory
Probability calculus
Distribution Probability papers
b) Financial Mathematics:
Compound interest calculation
Short term and continuous compounding
Calculation of pension rates
Capital increase and capital decrease through periodic pay-ins and payouts (Savings bank formula)
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Amortization and depreciation
Capital budgeting
Operations Research:
Linear optimization (graphical and analytical)
Transportation and allocation problem
Integer network flow problem
Travelling – Salesman Problem
Chinese – Postman Problem
Heuristic optimization techniques
Shortest path problem (Dijkstra’s – Algorithm)
Vehicle Routing Problem (node-oriented and edge-oriented)
Location optimization o
4 Teaching methods
Lectures
5 Prerequisites for course participation
Module Mathematics
6 Art of examination
Financial Mathematics, Operations Research
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 3
Statistics
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
4,3 %
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10 Lecturer
11 Additional information
Language of teaching: German
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Title: Technical Mechanics I
Code number
21100
Workload
150 h
Credits
5
Semester
2. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Technical Mechanics I
b) Technical Mechanics I tutorial
Contact time
5 SWS / 75 h
Self-study
75 h
Group size
40 students
Responsible person: Prof. Dr.-Ing. Carsten Dorn / Prof. Dr. Ernst-Jürgen Ribbert
Code number: Course: Technical mechanics I
Docent: Prof. Dr.-Ing. Carsten Dorn /
Prof. Dr. Ernst-Jürgen Ribbert
Semester: 2 Course weighting: SWS Course: 2
Code number: Course: Technical mechanics I tutorial
Docent: Prof. Dr.-Ing. Carsten Dorn /
Prof. Dr. Ernst-Jürgen Ribbert
Semester: 2 Course weighting: SWS Course: 3
2 Learning outcomes / Objectives
The aim of the lecture is to teach a mechanical basic understanding in order to solve dynamic engineering problems in the transportation sectors. Lectures and exercises refer directly to different logistic problems.
The themes solved in the lectures are supported by exercise tasks. The students shall apply their mechanics knowledge by solving these exercise tasks
3 Course contents
Introduction to Engineering Mechanics for logistics
Addition of vectors, central force system, decentralized system of forces
Graphical solution method for use in static
Free body images, detection of sub-systems, free up parts
Static of the body, mathematical solution procedures
Statics of trusses, Ritter Sches section method
Third, sliding and rolling friction
driving resistance, power / work
Stability calculations of bodies
4 Teaching methods
Lectures, Laboratories
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5 Prerequisites for course participation
/
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 2
7 Requirements for allocation of Credit points
Written examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr.-Ing. C. Dorn / Prof. Dr. Ernst-Jürgen Ribbert
11 Additional information
Language of teaching: German
Literature:
1. Böge, Alfred: Technische Mechanik, Buch, Übungsaufgaben und Formelsammlung, Vieweg Hannover, letzter Jahrgang, jeweils in der neuesten Auflage.
2. Dankert, Jürgen; Dankert, Helga: Technische Mechanik – Statik, Festigkeitslehre, Kinematik/ Kinetik, Teubner-Verlag, Wiesbaden, letzter Jahrgang, jeweils in der neuesten Auflage.
3. Kabus, Karlheinz: Mechanik und Festigkeitslehre. Verlag Carl Hanser, München, letzter Jahrgang, jeweils in der neuesten Auflage.
4. Vorlesungsumdruck Prof. Dorn, 2010 - Aufgabensammlungen
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Bremerhaven
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Title: Business Administration I
Code number
21200
Workload
150 h
Credits
5
Semester
2. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Business Administration-Organisation
b) Logistical basics
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: 21210 Course: Business Administration - Organisation
Docent: Dr. Schmitt-Prestin
Semester: 2 Course weighting: 0,5 SWS Course: 2
Code number: 21220 Course: Logistical basics
Docent: Prof. Dr. Jochem Piontek
Semester: 2 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The course gains an introduction to Business Administration and shows the basics of organisation in operating processes.
The students should learn specifics of their main study in the field of business administrations in logistics to work with it in all following courses.
3 Course contents
organisationel goals
organisationel aid
organisationel forms
process organisation
Logistical goals
logistical systems
logistical instruments
logistical functions
logistical controlling
4 Teaching methods
Lectures
5 Prerequisites for course participation
/
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6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
11 Additional information
Language of teaching: German
Literatur:
a) Business Administration-Organisation
1. Steinbuch, Pitter A., Organisation, Ludwigshafen, neueste Auflage 2. Wöhe, Günter, Einführung in die Allgemeine Betriebswirtschaftslehre, München,
neueste Auflage
b) Logistical basics
1. Piontek, Jochem: Basusteine des Logistikmanagement, 3. Auflage, Herne/Berlin 2009 2. Ehrmann, Harald: Logistik, Ludwigshafen, neueste Auflage 3. Koether, Reinhard u.a., Handbuch der Logistik, München, neueste Auflage 4. Pfohl, Hans-Christian: Logistiksysteme, Berlin, neueste Auflage
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Bremerhaven
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Title: InformaticsII
Code number
21300
Workload
150 h
Credits
5
Semester
2. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Algorithms, Data Structures, Programming, Lab
b) Database I, Readings and Lab
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. habil. Waldemar Czuchra / Prof. Dr. Walter Fedderwitz
Code number: 21310 Course: Aglorithms, Data Structures, Programming, Lab
Docent: Prof. Dr. habil. Waldemar Czuchra
Semester: 2 Course weighting: 0,5 SWS Course: 2
Code number: 21320 Course: Database I
Docent: Prof. Dr. Walter Fedderwitz
Semester: 2 Course weighting: 0,5 SWS Course: 1
Code number: Course: Database I Lab
Docent: Prof. Dr. Walter Fedderwitz
Semester: 2 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
In the course “Algorithms, Data Structures and Programming” the students will become acquainted with data and algorithms specification and their implementation. They will learn to use source code editor and language compiler and will gain an understanding of such terms as: assembler, linker, loader and a program process. Moreover they will get to know the usage of a RAD-Environment learn programming in one programming language.
In the course “Databases I” the students will learn about the structure of relational databases, data modeling and queries. The course aims at developing competences of using databases especially for statistical analysis, queries and report generation.
3 Course contents
a) Algorithms, Data Structures, Programming
Data types
Theory of algorithms, control structures (flow charts, pseudo code, decision tables)
Implementation in object-oriented programming language (Delphi)
Object-oriented approach
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Software development for Microsoft Windows environment
b) Database I
Requirements for relational database, redundancy-free storage
Relations, referential integrity - Main features of the SQL language and its practical usage (interactive interface)
4 Teaching methods
Readings, Laboratories
5 Prerequisites for course participation
Module Principles of Information Technology in Logistics
6 Art of examination
Algorithms, Data Structures, Programming
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X
Weighting 12 % 78 % 10 %
Duration [h]
Database I
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed examination, Presentation, Student project, 2 separate exams
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. habil. Waldemar Czuchra Prof. Dr.-Ing. Walter Fedderwitz
11 Additional information
Language of teaching: German / English
Literature:
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a) Algorithms, Data Structures, Programming
1. Walter Doberenz, Thomas Kowalski Borland Delphi 7, Kochbuch, m. CD-ROM Hanser Fachbuchverlag, 2002
2. Hans-Georg Schumann: Delphi für Einsteiger. Programmieren leicht gemacht, KnowWare, 2004
3. Wolf-Gert Matthäus: Grundkurs Programmieren mit Delphi: Systematisch programmieren lernen mit Turbo Delphi 2006, Delphi 7 and vielen anderen Delphi-Versionen, Vieweg - Teubner, 2010
b) Database I
1. J. Raasch : Systementwicklung mit strukturierten Methoden, Teubner, 1993 2. Günter Matthiessen and Michael Unterstein: Relationale Datenbanken and SQL, Addison
Wesley, 2008 3. Rene Steiner: Grundkurs relationale Datenbanken, Vieweg+Teubner, 2006 4. Sitansu S. Mittra :Principles of Relational Data Base Systems,Pearson US Imports &
PHIPEs 5. Glenn A. Jackson Relational Data Base Design with Microcomputer Applications,
Prentice-Hall 1. M. Papazoglou, W. Valder: Relational Data Base Management: A Systems Programming
Approach, Pearson Education Limited
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Bremerhaven
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Title: English for Logisticians II
Code number
31000
Workload
150 h
Credits
5
Semester
3.-4. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) English for Logisticians 3
b) English for Logisticians 4
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
20 students
Responsible person: Dr. phil. Edmund Voges (FZHB)
Code number: 31010 Course: English for Logisticians 3
Docent: Dr. phil. Edmund Voges
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 31020 Course: English for Logisticians 4
Docent: Dr. phil. Edmund Voges
Semester: 4 Course weighting:
0,5 SWS Course: 2
2 Learning outcomes / Objectives
English is the language of international trade. Logisticians not only have to be able to negotiate, make phone calls or generate business correspondence in English but also to understand and describe complex technical issues in English. Apart from basic English the main focus of the course is also Business and Technical English.
In this course at least B1 level of the Common European Framework of Reference for Languages is required. The aim of the course is level B2.
After these four semesters of English courses the students should be able to negotiate in English.
3 Course contents
The course contents of the second and third semester are based on English I and II from the first and second semester. The focus of the module is technical English. Special attention is put on difficulties that arise when describing complex technical issues and processes and using technical vocabulary.
The students will broaden their soft skills and improve their language competences.
The course provides students with various examples of everyday conversations, negotiations, presentations and problems that will be practiced in role plays. In this semester the students will improve their core competences by making a presentation (focus on presentation techniques) and writing essays within the context of logistics matters.
4 Teaching methods
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Seminar
5 Prerequisites for course participation
/
6 Art of examination
English for Logisticians 3
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
English for Logisticians 4
Art of examination
Written exam Oral exam Homework / presentation
Referat laboratory
tutorial
Designated X X
Weighting 75 % 25 %
Duration [h] 1,5 0,5
7 Requirements for allocation of Credit points
Passed written examination, presentation
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Dr. phil. Edmund Voges
11 Additional information
Language of teaching: English
Literature:
1. Cullen/Lehninger: B for Business. Hueber 2000. 2. Bauer: English for Technical Purposes. Cornelsen & Oxford 2000. 3. Kramer/Tompkins/Wolter: Englisch für kaufmännische Berufe. Fachkurs Spedition. Klett
2000. 4. Lau: Freight Matters. Cornelsen & Oxford 1999. 5. Witt: Carry away. Stam 1997. 6. Murphy: English Grammar in Use. Cambridge 1994. 7. Dubicka/O’Keefe: Market Leader Advanced Business English Course Book. Longman
2006..
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Bremerhaven
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8. Vorlesungsskript Voges
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Bremerhaven
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Title: Technical Mechanics II
Code number
31100
Workload
180 h
Credits
6
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Techn. Mechanics II, Lecture
b) Techn. Mechanics II
Excercise
Contact time
4 SWS / 60 h
Self-study
120 h
Group size
40 students
Responsible person: Prof. Dr. Ernst-Jürgen Ribbert / Prof. Dr.-Ing. Carsten Dorn
Code number: Course: Technical Mechanics II
Docent: Prof. Dr. Ernst-Jürgen Ribbert /
Prof. Dr.-Ing. Carsten Dorn
Semester: 3 Course weighting: SWS Course: 2
Code number: Course: Technical Mechanics II Tutorial
Docent: Prof. Dr. Ernst-Jürgen Ribbert /
Prof. Dr.-Ing. Carsten Dorn
Semester: 3 Course weighting:
SWS Course: 2
2 Learning outcomes / Objectives
The lecture cares about themes of stability calculation, of kinetics and kinematics. The lectures are the basics for logisticians with technical background.
The aim of the lecture is to teach a mechanical basic understanding in order to solve engineering dynamic problems in the transportation sector. Lectures and exercises refer directly to logistic problems.
The themes solved in the lectures are supported by exercise tasks. The students shall apply their mechanics knowledge by solving these exercise tasks..
3 Course contents
Dynamics: Inertial Force (d’Alembert)
v-t-Diagram
Conservation of Energy rules
Work, Power, Efficiency
Basics of stability calculation
Tension
Deformation
Hook’s Law
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Bremerhaven
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Pull, Pressure and Deformation
Pull and Pressure rods
Tension in selected parts
Bending of even rods
Straight and general bending
Area moments of second degree
Bending tension and bending deformation
Shearing stress by shearing forces Deformation work 1. Torsion of straight rods
4 Teaching methods
Lecture, Exercise
5 Prerequisites for course participation
/
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 2
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
3,2 %
10 Lecturer
Prof. Dr.-Ing. Ribbert
11 Additional information
Language of teaching: German
Literature
1. Böge, Alfred: Technische Mechanik, Buch, Übungsaufgaben und Formelsammlung, Vieweg Hannover, letzter Jahrgang, jeweils in der neuesten Auflage.
2. Dankert, Jürgen; Dankert, Helga: Technische Mechanik – Statik, Festigkeitslehre, Kinematik/ Kinetik, Teubner-Verlag, Wiesbaden, letzter Jahrgang, jeweils in der neuesten Auflage.
3. Kabus, Karlheinz: Mechanik und Festigkeitslehre. Verlag Carl Hanser, München, letzter Jahrgang, jeweils in der neuesten Auflage.Kabus, Karlheinz: Mechanik und Festigkeitslehre.
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Bremerhaven
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Verlag Carl Hanser, München, letzter Jahrgang, jeweils in der neuesten Auflage.
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Bremerhaven
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Title: Macroeconomics
Code number
31200
Workload
180 h
Credits
6
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Economics
b) International Economic Relations
Contact time
4 SWS / 60 h
Self-study
120 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: Course: Economics
Docent: Prof. Dr. Jochem Piontek
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: Course: International Economic Relations
Docent: NN
Semester: 3 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students will gain basic principles of macroeconomics to analyses significant economic and world-economic processes that determine demand services and supply of goods and therefore, influence the distribution of wealth in the population.
The students will learn about the differences between economic and non-economic determinants and the area of responsibility of the economic stabilization policy. Moreover they will be able to distinguish between anti-cyclical demand management, supply-side stabilization policy and structural policy.
The students will become acquainted with economic and structural-political instruments of the acceleration of economic growth as well as fairer distribution of labour and incomes. After the recognition of undesirable economic and structural developments students shall be able to independently weight up opportunities and drawbacks of anti-cyclical monetary and fiscal policy, as well as analyses supply-side position within an international context
3 Course contents
a) Economics
Prosperity and production sources
Price formation processes
The basics of the theory of competition
National accounts
Income distribution
Economic situation
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Bremerhaven
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Functions of money
Government intervention
b) International Economic Relations
Economic growth and international trade
Exchange rates and international payment transactions
Protective duties, contingents, free trade
Industrial economy and developing countries
Intervention of multinational companies
4 Teaching methods
Lectures
5 Prerequisites for course participation
Basics of Business Administration
6 Art of examination
Economics
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
International Economic Relations
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Jochem Piontek
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Bremerhaven
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11 Additional information
Language of teaching: German
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Bremerhaven
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Title: Business Administration II
Code number
31300
Workload
150 h
Credits
5
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Financing/Investment
b) Accounting
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: 31310 Course: Financing / Investment
Docent: Prof. Dr. Uwe Schikorra
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 31320 Course: Accounting
Docent: Prof. Dr. Jochem Piontek
Semester: 3 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The module provides knowledge of financing and investment methods and respective valuation of these instruments. The students will learn how to use tools und methods of accounting to optimize cash flows in companies.
Within the scope of the course “Accounting” the main features of bookkeeping and cost accounting will be presented to the students.
The focus of attention of both courses is decision-oriented instrument relevance. The target of the course is to familiarize students with elements and instruments of financial reporting and management accounting and their practical application. The students will become acquainted with instrument of financing and business accountancy at the strategic and operational level. Development of instrumental competences is the principal focus of the course
3 Course contents
a) Financing/Investment
Sources of internal and external financing
Equity and debt financing
Short and long-term financing
Modern financing instruments
Optimization of treasury instruments
Investment planning and capital expenditure account
Static and dynamic capital expenditure account
Company valuation
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Bremerhaven
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b) Accounting
Bookkeeping
Annual accounts
Balance sheet and a profit and loss statement
Cost accounting
Cost type accounting
Cost centre accounting
Unit-of-output costing
Activity-based costing
4 Teaching methods
Lectures
5 Prerequisites for course participation
/
6 Art of examination
Financing/Investment
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
Accounting
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Jochem Piontek
11 Additional information
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Bremerhaven
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Language of teaching: German
Literature
1. Olfert, Klaus: Einführung in die Betriebswirtschaftslehre 2. Rahn, Horst: Ludwigshaven, neueste Auflage 3. Olfert, Klaus: Rechnungswesen, Ludwigshaven, neuste Auflage 4. Schierenbeck, Henner: Grundzüge der Betriebswirtschaftslehre, München, neueste Auflage 5. Wöhe, Günter: Einführung in die Allgemeine Betriebswirtschaftslehre,
München, neueste Auflage
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Bremerhaven
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Title: Informatics III
Code number
31400
Workload
180 h
Credits
6
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Software Engineering, Readings and Lab
a) b) Database II, Readings and Lab
Contact time
4 SWS / 60 h
Self-study
120 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. habil. Waldemar Czuchra / Prof. Dr. Walter Fedderwitz
Code number: 31410 Course: Software Engineering
Docent: Prof. Dr. habil. Waldemar Czuchra
Semester: 3 Course weighting: 0,5 SWS Course: 1
Code number: Course: Software Engineering Labor
Docent: Prof. Dr. habil. Waldemar Czuchra
Semester: 3 Course weighting: SWS Course: 1
Code number: 31420 Course: Database II
Docent: Prof. Dr. Walter Fedderwitz
Semester: 3 Course weighting: 0,5 SWS Course: 1
Code number: Course: Database II Lab
Docent: Prof. Dr. Walter Fedderwitz
Semester: 3 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
The software engineering course provides profound knowledge of common procedures and methods for the specification and approval of information systems that enables the user to cooperate successfully with the systems developer.
The course data bases II extends the core functionality of a relational database into a fully functioning application with user interfaces. The implementation uses MS Access. Forms will be used for user interfaces as well as macros and/or Visual Basic for procedural programming to implement the control structure.
3 Course contents
a) Software Engineering
Overview of common procedures of the system design
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Introduction to software modeling and designing – Object Modeling Techniques
Introduction to a selected CASE-tool
Selected problems of Software Engineering:
Software specification
Software reliability
Verification und validation
Documentation
b) Database II
Developer view and use of an integrated database application (MS Access 2010)
table design and queries
Use of forms for user interfaces, user interface design - Procedural code – Macros or Visual Basic
4 Teaching methods
Readings, Laboratories
5 Prerequisites for course participation
Module Basics of Informatics,
Module Algorithms, Data Structures an Programming
6 Art of examination
Software Engineering
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 40 % 60 %
Duration [h]
Database II (Es kann alternativ eine Written exam geschrieben werden.)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
Presentation, Student project
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
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Bremerhaven
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10 Lecturer
Prof. Dr. habil. Waldemar Czuchra Prof. Dr.-Ing. Walter Fedderwitz
11 Additional information
Language:
a) Software Engineering: German b) Database II: English
Literature:
a) Software Engineering
1. Eric J. Braude, Michael E. Berstein: Software Engineering. Modern Approaches, J. Wiley, 2011 2. Waldemar Czuchra: UML in logistischen Prozessen, Vieweg – Teubner, 2010 3. Ian Sommerville: Software Engineering, Pearson Studium, 2007
b) Database II
1. Andre Minhorst, Sascha Trowitzsch, Access2007 Das Praxisbuch, Addison-Wesley, 2008 2. Walter Doberenz, Thomas Gewinnus : Microsoft-Office-Access-Programmier-Rezepte-für Access2002 bis Access2007, Microsoft Press Deutschland
1. Eghosa Ugboma: Learn Database Programming Using SQL of MS Access 2007,Booksurge Llc (2007)
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Bremerhaven
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Title: Electives 1 – Soft skills
Code number
31500
Workload
120 h
Credits
4
Semester
3. und/oder 5. Sem.
Frequency of offering
each winter semester
Length
1 oder 2 Semester
1 Course
a) Choice of key qualification subjects from general studies
b) Negotiations, Strategies and Rhetoric
c) Writing Scientific Papers
Contact time
4 SWS / 60 h
Self-study
60 h
Group size
20 or 40 students
Responsible person: Prof. Dr. Thomas Wieske
Code number: 9931501 Course: Negotiations, Strategies and Rhetoric
Strategie u. Rhetorik Docent: Herr Sven Sander
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 9931502 Course: Writing Scientific Papers
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9931503 Course: General studies I
Docent: NN
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 9931504 Course: General studies II
Docent: NN
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
a) General Studies
Students have to choose at least two courses from the current offer of the general studies. The list of courses will be announced in a respective programme of study. The courses (often organized as block seminars) focus on soft skills in the following areas: intercultural communication, intercultural management, rhetoric, presentation techniques, business ethics, business start-up, negotiation and sales techniques, supervision and coaching, trainer’s aptitude test, industrial ecology, additional foreign languages etc.
b) Negotiations, Strategies and Rhetoric / Writing Scientific Papers
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As some students are not prepared for studying at the university and the students’ liberties and challenges overtaxed them increasingly, the course shall help them to develop appropriate learn strategies and positive attitude toward learning, motivate them and help to organize their time. The students will work on business offers and discuss the main items of offers in logistics and transportation, so that they will be able to work out on business features in the future.
The course “Writing Scientific Papers“ provides students with rules and techniques of planning, designing and carrying out scientific projects
3 Course contents
depending on the course
4 Teaching methods
depending on the course
5 Prerequisites for course participation
depending on the course
6 Art of examination (see specific lecture description)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated
Weighting
Duration [h]
7 Requirements for allocation of Credit points
depending on the course
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,1 %
10 Lecturer
Prof. Dr. Thomas Wieske
Prof. Dr. Friedhelm Wesselmannn
11 Additional information
Language of teaching: German / English
Hochschule
Bremerhaven
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Title: Electives 2 – Transport Engineering and Management
Code number
31600
Workload
120 h
Credits
4
Semester
3. and/or 4. and/or 5. semester
Frequency of offering
each winter semester or summer
semester
Length
1 or 2 semester
1 Course
a) Transport of Dangerous Goods by Road and Railway
b) Customs and Foreign Trade Law
c) Transport of Dangerous by Sea, Inland Waterway and Air
d) Dangerous Materials in Industry and Trade
e) International Transport
f) Safety of Intermodal Container Transportation
g) Seaport-Terminals
Contact time
4 SWS / 60 h
Self-study
60 h
Group size
40 students
Responsible person:
Code number: 9931601 Course: Transport of Dangerous Goods by
Road and Railway
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: 9931602 Course: Transport of Dangerous Goods by
Sea, Inland Waterway and Air
Road and Railway Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9931603 Course: Dangerous Materials in Industry and Trade
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 9931604 Course: International Transport
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Bremerhaven
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Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 3 Course weighting: 0,5 SWS Course: 2
Code number: 9931605 Course: Safety of intermodal Container Transportation
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9931606 Course: Seaport-Terminals
Docent: Prof. Dr. Holger Schütt
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9931607 Course: Customs- and Foreign Trade law
Docent: NN
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students, based on the knowledge of the features of dangerous goods and substances acquired in the course “Physical-chemical Safety Engineering I and II” (1st and 2nd term), will develop and implement statutory, technological and organizational based measures required for performing dangerous goods logistics.
The first course covers issues related to the requirements for transport of dangerous goods by road and railway. Other modes of transport will be presented in the second course. Alternatively, the third course focuses on hazards in logistics processes and will serve as the basis for an appropriate security management in the context of transportation, storage and "Added Value Logistics" (dividing into portions, mixing, filling in, packaging of dangerous substances).
Additionally, if the students positively passed their exams of this module and the module "Physical-chemical Safety Engineering" (1st and 2nd term), they may take either a dangerous goods safety advisor examination, according to §2 of the Dangerous Goods Advisor Ordinance, or a security advisor examination, according to the article 5 of the EC directive 96/35, conducted by the local Chamber of Industry and Commerce.
Moreover, the students should get an overview of the European rail freight markets and the intermodal transport chain in use. They will obtain knowledge of markets, market players, production forms, infrastructure and technology..
3 Course contents
depending on the course
4 Teaching methods
Lectures
5 Prerequisites for course participation
Physical-chemical Safety Engineering; Transport of Dangerous Goods by Road and Railway;
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Bremerhaven
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Business Law I
6 Art of examination (see specific lecture description)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Oral examination, written examination, study project, essay, presentation
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,1 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
Prof. Dr. Thomas Wieske
Prof. Dr. Ernst-Jürgen Ribbert
Prof. Dr.-Ing. Carsten Dorn
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Transport
Code number
41000
Workload
150 h
Credits
5
Semester
4. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Modes of transport and transportation
b) Logistics costs and result accounting
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: Course: Modes of Transport and Transportation
Docent: Prof. Dr. Heinz-Jürgen Scheibe
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: Course: Logistics Costs and Result Accounting
Docent: Prof. Dr. Jochem Piontek
Semester: 4 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The main focus of the course is placed on the particularities of the transport economics and the requirements on the cost accounting. The development from transport, to traffic and logistics is of great importance here.
The students will gain knowledge about business impacts on the cost accounting and will learn to apply established methods to estimate operating efficiency and to measure success.
The students will get the general idea of the structure of transportation markets, cost type accounting, cost centre accounting and unit-of-output costing. Moreover they will learn how to effectively manage and control a transportation company.
3 Course contents
a) Modes of transport and transportation
The role of logistics as a rationalization and competition instrument
Macroeconomic aspects of transport and logistics
Modes of transport as a macro logistics system
Transport economics and transport policy
b) Logistics costs and result accounting
Functions and fundamental terms of logistics costs and result accounting
Cost type accounting
Cost centre accounting
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Bremerhaven
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Unit-of-output costing
Income statement - Contribution margin accounting
4 Teaching methods
Lectures
5 Prerequisites for course participation
Business Administration II
6 Art of examination
Modes of transport and transportation
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
Logistics costs and result accounting
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1 1
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Jochem Piontek
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Data processing Systems in Logistics
Code number
41200
Workload
150 h
Credits
5
Semester
4. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Data-processing Systems in Logistics I
b) Data-processing Systems in Logistics II
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. habil. Waldemar Czuchra /Prof. Dr. Walter Fedderwitz
Code number: 41210 Course: Data-processing Systems in Logistics I
Docent: Prof. Dr. habil. Waldemar Czuchra
Semester: 4 Course weighting: 0,5 SWS Course: 1
Code number: Course: Data-processing Systems in Logistics I Lab
Docent: Prof. Dr. habil. Waldemar Czuchra
Semester: 4 Course weighting: SWS Course: 1
Code number: 41220 Course: Data-processing Systems in Logistics II
Docent: Prof. Dr. Walter Fedderwitz
Semester: 4 Course weighting: 0,5 SWS Course: 1
Code number: Course: Data-processing Systems in Logistics II Lab
Docent: Prof. Dr. Walter Fedderwitz
Semester: 4 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
The students will become acquainted with the state of the art in the field of data-processing systems and telematics systems in the transport industry. During laboratory courses students will apply various commercial software products and evaluate their strengths and weaknesses in terms of usability and applicability for the transport and logistics industry..
3 Course contents
Use of commercial data processing systems in logistics
Relationship between system capabilities and workflow requirements
Assessment of the systems
4 Teaching methods
Laboratories
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Bremerhaven
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5 Prerequisites for course participation
Module Basic informatics,
Courses Data Bases I and II.
6 Art of examination
Data-processing Systems in Logistics I
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
Data-processing Systems in Logistics II
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
Presentation, Student project, 2 separate exams
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. habil. Waldemar Czuchra Prof. Dr.-Ing. Walter Fedderwitz
11 Additional information
Language of teaching: German
Literature:
1. Manuals of the systems used 2. Script
Hochschule
Bremerhaven
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Title: Business Administration III
Code number
41300
Workload
150 h
Credits
5
Semester
4. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Human Resources Management
b) Marketing
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: Course: Human Resources Management
Docent: Prof. Dr. Jochem Piontek
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: Course: Marketing
Docent: Prof. Dr. Jochem Piontek
Semester: 4 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students will become familiar with human resources management and marketing functions and their interdependency in context of customer-based business management. The course covers the main areas of responsibilities of HRM and market requirements for marketing and personnel.
The students will become acquainted with marketing instruments and learn prerequisites for their market-oriented and target-group-specific application.
Moreover they will gain knowledge how to deal with personnel matters from planning and implementing up to control function.
3 Course contents
aa) Human Resources Management
Terminology and goals of HRM
The area of responsibilities of HRM
Personnel motivation
Personnel recruitment
Personnel placement
Human resources management
Compensation
Human resources development
Personal leave of absence
Personnel administration
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Bremerhaven
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Human resource development in international context
b) Marketing
Marketing processes and research
Searching for market information
Product policy
Contracting policy
Distribution policy
Communication policy - Marketing planning
4 Teaching methods
Lectures
5 Prerequisites for course participation
Business Administration I and II
6 Art of examination
Human Resources Management
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
Marketing
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Jochem Piontek
Hochschule
Bremerhaven
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11 Additional information
Language of teaching: German
a) Personalwirtschaft:
1. K. Olfert/Steinbuch: Personalwirtschaft, neueste Auflage, Ludwigshafen 2. Berthel, J.: PersonalManagement, neueste Auflage, Stuttgart 3. Hentze, J.: Personalwirtschaftslehre, 2. Bd., neueste Auflage, Bern/Stuttgart
b) Marketing:
1. Weis, Christian: Marketing, Ludwigshafen, neueste Auflage
Hochschule
Bremerhaven
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Title: Traffic Systems
Code number
41400
Workload
150 h
Credits
5
Semester
4.-5. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) Traffic Systems I
b) Traffic Systems II
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr.-Ing. Carsten Dorn
Code number: Course: Traffic Systems I
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 4 Course weighting: SWS Course: 2
Code number: Course: Traffic Systems II
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 5 Course weighting: SWS Course: 1
Code number: Course: Traffic Systems II Lab
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 5 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
The decision, to which traffic and transport system is to be applied, is essential for the design of economical transport chains. One part of the course is getting to know some possible uses and commercial vehicles using various legal and technical constraints limits in the foreground. The basic problem with respect to the vehicle specialization and flexibility in the selection and use of commercial vehicles is discussed in this course.
The lecture transport systems II, the rail mode, including the specific circumstances is presented. Students learn the terminology of the rail technology and the operation of the transport processes in the railways and get an overview of used vehicles, infrastructure, organization and operation types.
The courses are interactive elements, such as lectures, teaching style, many pictures, videos and lectures supplemented by external parties.
3 Course contents
a) Traffic Systems I
- Introduction - System of road vehicles - Key legal requirements
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Bremerhaven
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- Special procedures for collection of tractors and trailers - Design of commercial vehicles - Drive and performance - Suspension Technology - Major vehicle components - Commercial Vehicle Structures and Constructions - Special vehicles - Loading and unloading of commercial vehicles - Securing of cargo on commercial vehicles - Vehicle selection
b) Traffic Systems II
- Introduction - Infrastructure systems, signal boxes - Interaction between wheel and road surface - Movement resistance - Traction and performance - Basic structure of the rail vehicles - Propulsion systems for rail vehicles - Brake systems of rail vehicles - Types of wagons - Maneuvering, formation of trains - Operational processes in production - Securing cargo in rail transport
4 Teaching methods
Lectures, Laboratories
5 Prerequisites for course participation
WLT, Physics, Module technical Mechanics
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 3
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
Hochschule
Bremerhaven
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10 Lecturer
Prof. Dr.-Ing. Carsten Dorn
11 Additional information
Language of teaching: German
Literature:
1. Dorn, Carsten: Vorlesungsumdruck Verkehrssysteme I, 2010 2. Dorn, Carsten: Vorlesungsumdruck Verkehrssysteme II, 2010 3. StVO, StVZO 4. Diverse Fachliteratur 5. Europäische Norm EN 12195-1 (Ladungssicherung auf Nutzfahrzeugen), u.a.
Hochschule
Bremerhaven
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Title: Production Technology
Code number
41500
Workload
150 h
Credits
5
Semester
4.-5. Sem.
Frequency of offering
each summer semester and winter
semester
Length
2 Semester
1 Course
a) Machine elements / CAD for Logisticians
b) Manufacturing technology
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students. Lecture, 14
students Laboratories
Responsible person: Prof. Dr.-Ing. Friedhelm Wesselmann / Prof. Dr.-Ing. Carsten Dorn
Code number: 41510 Course: Machine elements / CAD for Logisticians
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 4 Course weighting: 0,5 SWS Course: 1
Code number: Course: Machine elements / CAD for Logisticians Lab
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 4 Course weighting: SWS Course: 1
Code number: 41520 Course: Manufacturing technology
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
Within the scope of the supply chain network, logisticians are supposed to develop their technical competences, in order to plan and manage technical processes. Very important is here to increase the value-added potential, like the assembly of components or spare parts, particular for logistics service providers.
In the first course the students will gain basic knowledge of industrial design processes and CAD-technology, by the example of the well-known Auto-Cad System. They will learn about design components, especially for transport and conveying parts.
The course “Manufacturing Technologies” aims to describe core elements of production technologies with the corresponding machine tools. The students shall gain competences in analyzing, planning and designing manufacturing processes, which are a must for logisticians with technical background working in the fields of industrial production.
3 Course contents
a) Machine elements / CAD for Logisticians
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Bremerhaven
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Standard specification
Basics of engineering drawing, tolerances
CAD; models and modes of operations – AutoCAD example
stress analysis – basics of dynamic strength
basics of rotating machine parts
basics of detachable connections
b) Manufacturing technology
Introduction
Basic structure of machine tools
Machine tool frames and dynamic behavior of machine tools
Straight-line mechanism in machine tools
Feed drive systems of machine tools
Mechanical drive
Hydraulic drive and hydraulic control
Structure of production and assembly lines
Moulding processes (moulding and casting processes)
Joining (welding, soldering and adhesive process)
Separation (cutting, shavings, abrasive, thermal separation process) - Forming (spin forming, tension-compression forming, bend forming, high pressure forming)
4 Teaching methods
Lectures, Laboratories 5 Prerequisites for course participation
Inhaltlich: Modul Mechanik 1 u. 2 sollten erfolgreich absolviert sein.
6 Art of examination
Machine elements / CAD for Logisticians
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1,5
Manufacturing technology
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed examination, study project
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Bremerhaven
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8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Friedhelm Wesselmannn Prof. Dr. –Ing. Carsten Dorn
11 Additional information
Language of teaching: German
Literature:
1. Dorn, Carsten: Vorlesungsumdruck Fertigungstechnologie, 2010, 2. Tönshoff, Werkzeugmaschinen, Springer Verlag 1998, 3. Fritz, A., Schulze, G., Fertigungstechnik, Sprinter Verlag 2003, 4. König, W., Fertigungsverfahren Band 1, VDI Verlag, neueste Auflage, 5. König, W., Fertigungsverfahren Band 2, VDI Verlag, neueste Auflage. 6. Decker, Kabus (2000): Maschinenelemente; München, Wien; Hanser Verlag. 7. Wesselmann, Friedhelm: Vorlesungsumdruck Maschinenelemente, Umdruck zum CAD-
Labor - Autocad-Handbuch
Hochschule
Bremerhaven
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Title: Packaging and Transport
Code number
41600
Workload
150 h
Credits
5
Semester
4.-5. Sem.
Frequency of offering
each summer semester
Length
2 Semester
1 Course
a) Packaging Technology, lecture and lab
b) Commodity science, cargo care, hazards of transportation, lecture and lab
Contact time
5 SWS / 75 h
Self-study
75 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. Dieter Heimann
Code number: 41610 Course: Packaging, Technology
Docent: Prof. Dr. Dieter Heimann
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: Course: Packaging, Technology Lab
Docent: Prof. Dr. Dieter Heimann
Semester: 4 Course weighting: SWS Course: 1
Code number: 41620 Course: Commodity Science, cargo care, hazards
of transportation
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: 0,5 SWS Course: 1
Code number: Course: Commodity Science, cargo care, hazards
of transportation Lab
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
The module enables the students to gather and develop professional competences to select and design quality securing packages for the requirements of storage and transportation. The students will be qualified to select and design packages and obtain an overview of the necessary measures of cargo care according to commodity properties and hazards in transportation. Case studies and laboratory exercises emphasize the practical aspects of the topics. A requirement of each course is proof of successfully completed laboratory work (experiments and laboratory reports). Hereby the students will enhance social skills like teamwork and self-organization
3 Course contents
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Bremerhaven
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a) Packaging Technology
Packaging functions
Modularization of packages and unit loads
Packaging materials, packaging means and auxiliary packaging means
Design of cushioning materials according to demand
Design of corrugated cardboard boxes according to demand
Unit load formation and palletizing
Means for securing unit loads (Shrinking, stretching, strapping)
Packaging costs
Elements of preshipment package testing
b) Commodity science, cargo care, hazards of transportation
Mechanical, climatic and other transportation stress
Commodity groups, properties and risk factors
Cargo and container sweat, condensation of water
Hygroscopic behavior and sorption isotherm
Methods of temporary corrosion protection
Temperature controlled transportation
Stowage and weight distribution of the load
Positive and non-positive methods of load securing
Indicators of transportation stress - Laboratory simulation of hazards in transportation
4 Teaching methods
Lectures, Laboratory
5 Prerequisites for course participation
It is strongly recommended to attend the preassigned modules “Mathematics”, “Technical Physics” and “Technical Mechanics I”.
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Bremerhaven
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6 Art of examination
Packaging Technology
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1,5
Commodity science, cargo care, hazards of transportation
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Dieter Heimann
11 Additional information
Language of teaching: German
Literature:
1. Eschke, R: Technische Verpackungslogistik – Auslegung von Verpackungen für den globalen Versand, Renningen, Expert Verlag, 2007
2. Kaßmann, Monika: Grundlagen der Verpackung – Leitfaden für die fächerübergreifende Verpackungsausbildung, Beuth-Verlag, 2010
3. Großmann, Gerhard, Kaßmann, Monika: Transportsichere Verpackung und Ladungssicherung, Renningen, Expert Verlag, 2005
4. Nentwig, Joachim: Kunststoff-Folien, 1. Auflage, - München, Carl-Hanser Verlag, 2006 5. Gesamtverband der Deutschen Versicherungswirtschaft e.V. (Hrsg.): Containerhandbuch
Bd 1–III, Berlin, GDV, 2004 6. Fraunhofer Gesellschaft e.V. (Hrsg.): Verpackungstechnik – Mittel und Methoden zur
Lösung der Verpackungsaufgabe, - Heidelberg, Hüthig-Verlag, 2004 7. Reisner, K.: Fachwissen Kältetechnik, 4. Auflage, C.F. Müller Verlag, Heidelberg, 2008 8. Truszkiewitz, Günter; Peilnsteiner, Jan: Handbuch Temperaturgeführte Logistik, 1. Auflage,
Hochschule
Bremerhaven
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- Hamburg, Behrs`Verlag, 2002
Hochschule
Bremerhaven
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Title: Warehouse Management
Code number
41700
Workload
150 h
Credits
5
Semester
4.-5. Sem.
Frequency of offering
each summer semester and winter
semester
Length
2 Semester
1 Course
a) Warehouse Technology
b) Warehouse Organization
Contact time
5 SWS / 75 h
Self-study
75 h
Group size
40 stud. Lecture, 14 stud.
Laboratories
Responsible person: Prof. Dr.-Ing. Friedhelm Wesselmannn
Code number: 41710 Course: Warehouse Technology
Docent: Prof. Dr.-Ing. Friedhelm Wesselmannn
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: Course: Warehouse Technology Lab
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 4 Course weighting: SWS Course: 1
Code number: 41720 Course: Warehouse Organization
Docent: Prof. Dr.-Ing. Friedhelm Wesselmannn
Semester: 5 Course weighting: 0,5 SWS Course: 1
Code number: Course: Warehouse Organization Lab
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 5 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
Within the course “Warehouse Technology” the students will become acquainted with the structure of modern warehouse systems. The course covers the basics of the conveying and storage systems, presents technical relations of modern systems and gives an insight into state of the art of the automation and information systems.
In the laboratory course the students will plan and design a basic warehouse system using a CAD-System. The laboratory provides an operable High bay-Store model with a computer-based control system, which can be used for programming exercise and operating training.
In the second course the students will broaden their knowledge of warehouse organization and warehouse management and get to know the basic functions of modern warehouse systems. An extra section focuses on the elements of order picking, conveyor and handling technology and the high demands of automated and optimized operation.
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In the laboratory course the students will carry out data analysis, calculate store- and restore capacities and worked out strategies on warehouse management.
3 Course contents:
a) Warehouse Technology
Introduction to warehouse and warehouse organization
Storage systems
Conveyor technologies in automated storage systems
Materials handling equipment for racking services (racking truck, high-lift truck, order-picking stacker truck)
Technology of high bay warehouses
Calculation of handling capacity
Throughput of warehouse systems
b) Warehouse Organization
Basics of the warehouse organization (warehouse inventory, strategies and models of inventory management)
Warehouse management system
Planning and optimization strategies
Principles of LVS-Systems - Basics of order picking
4 Teaching methods
Lectures, Laboratories
5 Prerequisites for course participation
Basic understanding of materials handling systems such as industrial trucks, non-continuous and continuous-flow conveyors and loading aids is required. These subjects will be deepened through specific techniques of the warehousing appliances.
For rack-constructions basic knowledge of statics is required and for calculation of store- and restore capacities knowledge of kinematics.
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Bremerhaven
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6 Art of examination
Warehouse Technology
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1
Warehouse Organization
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Friedhelm Wesselmannn
11 Additional information
Language of teaching: German
Literature:
1. F. Wesselmann: Vorlesungsumdruck - Materialien zur Lagertechnik, HS Bremerhaven 2006.
2. Dieter Arnold (2002): Materialflusslehre in Logistiksystemen, Springer-Verlag 3. R. Jünemann; T. Schmidt(1999): Materialflusssysteme, Springer-Verlag 4. Wesselmann: Vorlesungsumdruck - Materialien zur Lagerorganisation, HS Bremerhaven
2005 5. M. Ten Hompel; T. Schmidt (2002): Warehouse Management, Springer-Verlag
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Bremerhaven
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Title: Transport law and insurance law
Code number
41800
Workload
150 h
Credits
5
Semester
4.-5. Sem.
Frequency of offering
each winter semester and
summer semester
Length
2 Semester
1 Course
a) Transport law
b) Insurance law
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Thomas Wieske
Code number: Course: Transport Law
Docent: Prof. Dr. Thomas Wieske
Semester: 4 Course weighting: 0,5 SWS Course: 2
Code number: Course: Insurance Law
Docent: Prof. Dr. Thomas Wieske
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The course is based on the previous business law course. The students will become acquainted with the basics of national and international transport and insurance law as well as sea transportation law. Particularly they will learn about different types of insurance. The students should be therefore able to evaluate logistics contracts and to negotiate.
The students will learn not only, how important the insurance is, especially in logistics, but also that it is often an underestimated cost factor. They will learn methods, how to choose the right insurance and to follow basic duties, in order to secure and optimize an insurance coverage.
3 Course contents
a) Transport law
Introduction, transport law, contract law, contract of sale, dispatch, incoterms, logistics
Conclusion of the contract; obligations of a sender
Rights of a sender and obligations of a carrier
Liability of a carrier
Securing means, deadlines and law enforcement
Multimodal transportation, removal services
Forwarding trade, German Forwarder's General Terms and Conditions of Trading (ADSp)
Warehouse operations, legal terms and legal problems by logistics projects
CMR international road transport
Air transport, Montreal Convention
International rail transport: CIM(99)
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Bremerhaven
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International inland waterway transportation: CMNI/ Budapest Convention
b) Insurance law
Maritime Law, Hague Visby Rules as well as German national maritime law
Introduction to insurance law
Risks, insurance as an economic factor
Types of insurance; national and international insurance
Insurance contract; costs, risks, coinsurance, retention, deductible
The parties involved
Different kinds of insurance, insurance policies and conclusion of an insurance contract
Rights and obligations of the parties and particular obligations
Personal insurance, health insurance and life insurance
Forwarding trade, German Forwarder's General Terms and Conditions of Trading (ADSp) and insurance
Property insurance , third party liability insurance, marine insurance and haulage insurance
Problems pursuant to insurance law by logistics projects
Introduction in to the logistics law, regarding the different fields of logistics - Logistics- AGB/Standard conditions and their usage
4 Teaching methods
Lectures
5 Prerequisites for course participation
Business law
6 Art of examination
Transport law
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
Insurance law
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
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/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Thomas Wieske
11 Additional information
Language of teaching: German
Literature:
1. Gesetzestexte: BGB, HGB, CMR, Warschauer Abkommen, Montrealer Abkommen, CIM, CMNI; VVG:
2. Wieske, Thomas: Transportrecht –schnell erfasst, 2.Auflage, 2008, Springer- Verlag. 3. Koller, Ingo, Transportrecht, 7.Aufl., 2010, C.H. Beck, München. 4. Kerst/Jäckel, Versicherungsrecht, 2010, C.H. Beck, München. 5. Müglich, Andreas: Transport- und Logistikrecht, 2002, Verlag Vahlen. 6. Wieske, Thomas, Probleme und Chancen bei Logistikverträgen, 2006, Euroforum,
Düsseldorf. 7. Dubischar, Roland: Besonderes Versicherungsrecht, 2003. 8. Transportrecht- Zeitschrift, zur Tagesaktualität.
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Bremerhaven
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Title: Logistics Management
Code number
51000
Workload
150 h
Credits
5
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Strategic Logistics Planning
b) Logistics-Controlling
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Responsible person: Prof. Dr. Jochem Piontek
Code number: Course: Strategic Logistics Planning
Docent: Prof. Dr. Heinz-Jürgen Scheibe
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: Course: Logistics Controlling
Docent: Prof. Dr. Jochem Piontek
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
Strategic logistics planning is closely connected with logistics-controlling – the module describes interrelations between both approaches and presents instruments that can limit potential risk factors by strategic decision making.
Logistics-controlling is a aim at supporting logistics management through system supported information gathering and information processing by planning, coordination and control. The course outlines the particular specifications of controlling for logistics affairs and focus on the logistics activity controlling. Students will become acquainted with objectives and tasks of logistics-controlling, costs control and different approaches to costs management in logistics.
Through case studies students learn to apply theory to practice.
3 Course contents
a) Strategic Logistics Planning
Strategic critical success factors
Strategic planning process
Strategic business management analysis
Development and assessment process of logistics strategies
Balanced Scorecard/SCOR-Model
b) Logistics-Controlling
Objectives and tasks of logistics-controlling
Elements of logistics controlling, logistic costs and benefits
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Bremerhaven
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Activity-based costing
Target Costing
Simultaneous Costing
Key performance measurement in logistics
Total Cost-of Ownership
Zero Based Budgeting
Overhead-value analysis
Supply Chain Controlling - Performance Management
4 Teaching methods
Lectures
5 Prerequisites for course participation
Business Administration II
6 Art of examination
Strategic Logistics Planning
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
Logistics-Controlling
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
passed study project, essay, presentation
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,7 %
10 Lecturer
Prof. Dr. Jochem Piontek
11 Additional information
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Bremerhaven
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Language of teaching: German
Literature:
1. Piontek, J.: Controlling, 3. Auflage, München 2005, 2. Piontek, J.: Beschaffungscontrolling, 3. Auflage, München 2004, 3. Weber, J.: Logistik- und Supply Chain Controlling, 5 Aufl., Stuttgart 2002 4. Cooper, J.: Strategy Planning in Logistics and Transportation, London 1993 5. Czenskowsky T./ Piontek, J.: Logistikcontrolling Gernsbach 2008
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Bremerhaven
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Title: Production Logistics
Code number
51200
Workload
150 h
Credits
5
Semester
5. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Methods of Production Logistics, Lecture
b) SAP Logistics Applications, Lecture and Laboratory
Contact time
4 SWS / 60 h
Self-study
90 h
Group size
40 students
Lab: 14 students
Responsible person: Prof. Dr. Ernst-Jürgen Ribbert
Code number: Course: Methods of Production Logistics
Docent: Prof. Dr. Ernst-Jürgen Ribbert
Semester: 5 Course weighting: SWS Course: 2
Code number: Course: SAP Logistics Applications
Docent: Prof. Dr. Ernst-Jürgen Ribbert
Semester: 5 Course weighting: SWS Course: 1
Code number: Course: SAP Logistics Applications Lab
Docent: Prof. Dr. Ernst-Jürgen Ribbert
Semester: 5 Course weighting: SWS Course: 1
2 Learning outcomes / Objectives
These lectures/laboratories give an insight to fulfill processes in logistical production-oriented processes. It points out optimization strategies of production designs and shows instruments and tools for mpcs (material planning and control systems) and mrp (material requirements planning).
In laboratory applications students get an idea how to use SAP software in production logistics. Project work lets production logistics tasks go ahead; this is done in small student-project-groups, combined with discussions and presentations. The laboratory students project activities result from practical projects in industry reality..
3 Course contents
a) Methods of Production Logistics
Introduction to mpcs
basic elements (bill of material, routing plan, work place etc.)
Production Program Planning
Stock-demand-situation
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Bremerhaven
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selected actual mpcs-questions and tasks
Methods of production control
Value added chains
Data capturing and -processing
mpcs elements as basic elements for applications
b) SAP Logistics Applications
SAP company and their software products (R/3 and others)
Introduction into SAP-software-application (Basics for SAP-application activities on computers)
Introduction of SAP-IDES (Internation Demonstration and Education System)
navigation and input-facilities
Basic Data Elements of mpcs (bill of material, routing plan, work place etc.)
Administration of stock data and logistic application (stock-demand-situation) - Projects with selected logistic problems – taking practical cases from production
companies
4 Teaching methods
Lectures, Laboratory
5 Prerequisites for course participation
logistics basics, no SAP-experience required
6 Art of examination
Methods of Production Logistics
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1
SAP Logistics Applications
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 100 %
Duration [h] 0,5
7 Requirements for allocation of Credit points
passed examination, project work
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
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Bremerhaven
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2,7 %
10 Lecturer
Prof. Dr. Ernst-Jürgen Ribbert
11 Additional information
Language of teaching: German
Literature:
1. Ribbert, Ernst-Jürgen: Vorlesungsumdruck Produktionslogistik 2010 2. o.V.: SAP Firmenschrift: Branchenlösungen in SAP, neueste Ausgabe 3. o.V.: Hrsg.: Regionales Rechenzentrum für Niedersachsen: SAP R/3 Grundlagen,
Einführung für Anwender – Version 4.6 C, Universität Hannover, November 2001 4. Keller, G.; Teufel, T.: SAP R/3 prozessorientiert anwenden – iteratives Prozess-
Prototyping zur Bildung von Wertschöpfungsketten. 1st Edition, Addison-Wesley, Bonn 1997
5. Will, L.; Hienger, C.; Straßenburg, F.; Himmer, R.: Administration des SAP-Systems R/3 – Leitfaden zur Systembetreuung und –optimierung. 2nd Edition, Addison-Wesley, Bonn, 1997
6. Kiener, St. u.a.: Produktionsmanagement. Grundlagen der Produktionsplanung und Produktionssteuerung, 9. Auflage, Oldenbourg Verlag, München, 2009.
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Bremerhaven
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Title: Electives 3 – Materials Handling and Handling Equipment
Code number
51100
Workload
120 h
Credits
4
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Packaging methods, machines and lines
b) Basics of the Material Technology
c) Planning of Material Systems
d) Materials engineering
Contact time
4 SWS / 60 h
Self-study
60 h
Group size
60 students
Planning of Material Systems:
20 students
Responsible person:
Code number: 9951101 Course: Packaging methods, machines and lines
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9951102 Course: Basics of the Material Technology
Docent: Prof. Dr. Friedhelm Wesselmann
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9951103 Course: Planning of Material Systems
Docent: Prof. Dr. Friedhelm Wesselmann
Semester: 5 Course weighting: 0,5 SWS Course: 2
Code number: 9951104 Course: Materials Engineering
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
Depending on the course
3 Course contents
Depending on the course
4 Teaching methods
Lectures, exercise
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Bremerhaven
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5 Prerequisites for course participation
Depending on the course
6 Art of examination (see specific lecture description)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Passed examination, essay, study project
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
2,1 %
10 Lecturer
Prof. Dr. Dieter Heimann
Prof. Dr. Friedhelm Wesselmann
11 Additional information
Language of teaching: German / English
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Bremerhaven
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Title: Internship
Code number
61000
Workload
480 h
Credits
16
Semester
6. Sem.
Frequency of offering
Each summer semester
Length
11 weeks
1 Course
a) Seminary
Contact time
1 SWS / 15 h
Self-study
465 h
Group size
20 students
Responsible person: NN
Code number: Course: Seminary
Docent: NN
Semester: 6 Course weighting: 1,0 SWS Course: 1
Code number: Course: Internship
Docent: NN
Semester: 6 Course weighting: 0,0 SWS Course: 11 Wochen
2 Learning outcomes / Objectives
The students should be experienced with the basic processes of logistics in different operational areas. The knowledge gained in the internship puts the students in a position to make the necessary connections between theory and practice.
3 Course contents
The contents are based on the needs of industry.
4 Teaching methods
Praktikum; Seminar
5 Prerequisites for course participation
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
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Bremerhaven
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Passed presentation / letter of recommendation
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
8,6 %
10 Lecturer
Alle Docenten
11 Additional information
Language of teaching: German
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Bremerhaven
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Title: Bachelor Thesis
Code number
69000
Workload
420 h
Credits
14
Semester
6. Sem.
Frequency of offering
summer semester
Length
9 weeks
1 Course
a) Bachelor thesis
Contact time
4 SWS / 60 h
Self-study
360 h
Group size
Responsible person: NN
Code number: 69010 Course: Project for the Bachelor Thesis and Bachelor Thesis
Docent: NN
Semester: 6 Course weighting: 0,8 SWS Course: 4
Code number: 69020 Course: Colloquium
Docent: NN
Semester: 6 Course weighting: 0,2 SWS Course: 0
2 Learning outcomes / Objectives
The Bachelor thesis is there to give students the opportunity to work out a scientific and practice-related problem, to develop their own solutions and to describe in a text work.
3 Course contents
The contents are based on the needs of industry and up-to-date of logistical issues.
4 Teaching methods
Project
5 Prerequisites for course participation
at least 120 CP must be acquired by registration of thesis
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Bremerhaven
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6 Art of examination
Thesis
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
Colloquium
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
Successful Bachelor Thesis / Colloquium
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
10 %
10 Lecturer
All teachers
11 Additional information
Language of teaching: German/English
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Bremerhaven
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Title: Negotiations, Strategies and Rhetoric (Electives 1)
Code number
9931501
Workload
60 h
Credits
2
Semester
3. Semester
Frequency of offering
each winter semester
Length
1 Semester
1 Course
Negotiations, Strategies and Rhetoric
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
max. 25 students
Responsible person: Prof. Dr. Thomas Wieske
Code number: 9931501 Course: Negotiations, Strategies and Rhetoric
Docent: Herr Sven Sander
Semester: 3 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
As some students are not prepared for studying at the university and the students’ liberties and challenges overtaxed them increasingly, the course shall help them to develop appropriate learn strategies and positive attitude toward learning, motivate them and help to organize their time.
3 Course contents
- Locating of arguments - Structure of the presentation - Linguistic design - Memorization - Technical lecture - Public lecture
4 Teaching methods
Lectures, exercise
5 Prerequisites for course participation
/
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X
Weighting 50 % 50 %
Duration [h]
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Bremerhaven
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7 Requirements for allocation of Credit points
presentation, study project
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Thomas Wieske
11 Additional information
Language of teaching: German
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Bremerhaven
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Title: Writing Scientific Papers (Electives 1)
Code number
9931502
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
Writing Scientific Papers
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
40 students
Responsible person: Prof. Dr.-Ing. Friedhelm Wesselmann
Code number: 9931502 Course: Writing Scientific Papers
Docent: Prof. Dr. Friedhelm Wesselmann
Semester: 5 Course weighting: 1 SWS Course: 2
2 Learning outcomes / Objectives
As some students are not prepared for studying at the university and the students’ liberties and challenges overtaxed them increasingly, the course shall help them to develop appropriate learn strategies and positive attitude toward learning, motivate them and help to organize their time.
The students will work on business offers and discuss the main items of offers in logistics and transportation, so that they will be able to work out on business features in the future.
The course “Writing Scientific Papers“ provides students with rules and techniques of planning, designing and carrying out scientific projects.
3 Course contents
What does it mean “studying”? - Learning psychology - Learning methods - Learning and studying effectively - Time management - Structure of a scientific paper - Various forms of scientific papers - Formal criteria - Literature research - Literature-Database systems
4 Teaching methods
Lectures, exercise
5 Prerequisites for course participation
/
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Bremerhaven
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6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h]
7 Requirements for allocation of Credit points
Presentation, study project
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Friedhelm Wesselmannn
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Transport of Dangerous Goods by Road and Railway (Electives 2)
Code number
9931601
Workload
60 h
Credits
2
Semester
4. Sem.
Frequency of offering
each summer semester
Length
1 Semester
1 Course
a) Transport of Dangerous Goods by Road and Railway
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931601 Course: Transport of Dangerous Goods by
Road and Railway
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 4 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students understand the requirements to ensure the safe transportation of hazardous materials by roads and railways. They can analyse concrete supply chains on these purpose. Added on the knowledge of dangerous characteristics of hazardous materials and goods (Physical-chemical Safety Engineering I and II) the students can develop and realize for normal and not usual tasks in the internal logistic the essential rights, technical and organisational measures to handle hazardous materials in the set of regulations.
They students are able as well to pass the external examination to be an officer for the prevention of the risks inherent in the carriage of dangerous goods by Road and Railway (§6 GbV, 25.2.2011) with the parts 1.8.3 ADR/RID/ADN at the chamber of trade.
As well as using knowledge, which is used interdisciplinary, the students learn the competence to work successful with large and complex matters. The students are able to develop new facts and relations. They can structure, identify facts and realtions in judicial texts and use this knowledge to find good solutions to questions with hazardous material in logistic fields. Intellectual competences will be developed (ability to abstract, ability to judge, logical and analytical thinking)
3 Course contents
The course mediates the essential contents and basics to work with the following references, regulations, laws and legal norms to transport hazardous goods by road and railway:
1. Recommendations of the United Nations for the Transport of dangerous goods
2. EU regulations
3. laws to transport hazardous materials
4. Gefahrgut-Ausnahmeverordnung
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Bremerhaven
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5. Convention concerning International Carriage by Rail
6. addition to ADR and RID
7. Durchführungsrichtlinie zur Gefahrgutverordnung Straße, Eisenbahn und Binnenschifffahrt (GGVSEB– Durchführungsrichtlinie RSEB)
-
4 Teaching methods
lecture
5 Prerequisites for course participation
contentwise: sucessful attendance in Physical-chemical Safety Engineering I and II is recommended
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 0,25 - 0,5
7 Requirements for allocation of Credit points
Passed oral examination
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Customs and Foreign Trade Law (Electives 2)
Code number
9931607
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Customs and Foreign Trade Law
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931607 Course: Customs and Foreigb Trade Law
Docent:
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students will learn the basics of the customs and foreign trade law, the legal sources, the different areas of law, ways to achieve laws.
The students should be able, to answer common questions in customs and foreign trade issues on their own and identify the problems in difficult questions.
3 Course contents
a) customs law
basics in customs law
customs clearance
different delivery processes
introduction in European law
b) foreign trade law
Introduction of the foreign trade law, legal sources, juristic case studies
foreign trade regulations
work of the BAFA
trademark protection
European and international aspects
international safety regulations
-
4 Teaching methods
lecture
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Bremerhaven
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5 Prerequisites for course participation
formal: successful attendance of business law I and II
Contentwise: basics in law of contracts, company law and traders law
6 Art of examination (optional)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X X
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Passed examination, presentation, study project
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
NN
11 Additional information
Language of teaching: German
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Bremerhaven
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Title: Transport of Dangerous Goods by Sea, Inland Waterway and Air (Electives 2)
Code number
9931602
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Transport of Dangerous Goods by Sea, Inland Waterway and Air
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931602 Course: Transport of Dangerous Goods by Sea,
Inland Waterway and Air
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students understand the requirements to ensure the safe transportation of hazardous materials by sea, inland waterway and air. They can analyse concrete supply chains on these purpose. Added on the knowledge of dangerous characteristics of hazardous materials and goods (Physical-chemical Safety Engineering I and II) the students can develop and realize for normal and not usual tasks in the internal logistic the essential rights, technical and organizational measures to handle hazardous materials in the set of regulations.
They students are able as well to pass the external examination to be an officer for the prevention of the risks inherent in the carriage of dangerous goods by Road and Railway (§6 GbV, 25.2.2011) with the parts 1.8.3 ADR/RID/ADN at the chamber of trade.
As well as using knowledge, which is used interdisciplinary, the students learn the competence to work successful with large and complex matters. The students are able to develop new facts and relations. They can structure, identify facts and relations in judicial texts and use this knowledge to find good solutions to questions with hazardous material in logistic fields. Intellectual competences will be developed (ability to abstract, ability to judge, logical and analytical thinking). Conditioned by the international character of sea and air transports the basic English knowledge will be depend..
3 Course contents
The course mediates the essential contents and basics to work with the following references, regulations, laws and legal norms to transport hazardous goods by Sea, Inland Waterway and Air:
- development of regulations and competences in the european inland waterway transportation
- GGVSEB – Gefahrgutverordnung Straße, Eisenbahn und Binnenschifffahrt
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- ADN - Verordnung über die Beförderung gefährlicher Güter auf Binnenwasserstraßen
- the role of the IMO in the international sea transport
- SOLAS and MARPOL
- GGVSee - Gefahrgutverordnung See
- IMDG Code
- CTU-packing guidelines - the CTU packing guidelines indicate precise acceleration forces which the cargo has to be secured against.
- Regulations of the BMVBW to transport hazardous materials by sea ind inland ships
- Deutsches Luftverkehrsgesetz
- ICAO Technical Instructions
- IATA Dangerous Goods Regulations
- cooperation with other modes of transports
- other regulations of the Luftfahrtbundesamtes and other Bundesministerien
-
4 Teaching methods
lecture
5 Prerequisites for course participation
contentwise: sucessful attendance in Physical-chemical Safety Engineering I and II is recommended
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 0,25 - 0,5
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
11 Additional information
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Bremerhaven
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Language of teaching: German
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Bremerhaven
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Title: Dangerous Materials in Industry and Trade (Electives 2)
Code number
9931603
Workload
60 h
Credits
2
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Dangerous Materials in Industry and Trade
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931603 Course: Dangerous Materials in Industry and Trade
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 3 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students should understand the requirements to ensure the safety in the use of dangerous materials. They can analyse concrete situations in terms of the requirements. Added on the knowledge of dangerous characteristics of hazardous materials and goods (Physical-chemical Safety Engineering I and II) the students can develop and realize for normal and not usual tasks in the internal logistic the essential rights, technical and organisational measures to handle hazardous materials in the set of regulations.
As well as using knowledge, which is used interdisciplinary, the students learn the competence to work successful with large and complex matters. The students are able to develop new facts and relations. They can structure, identify facts and and realtions in judicial texts and use this knowledge to find good solutions to questions with hazardous material in logistic fields. Intellectual competences will be developed (ability to abstract, ability to judge, logical and analytical thinking)
3 Course contents
The course mediates the essential contents and basics to work with the following references, regulations, laws and legal norms to transport hazardous goods by Dangerous Materials in Industry and Trade:
1. European regulations for the safety use of hazardous materials
2. Chemikaliengesetz, Gefahrstoffverordnung
3. Gefahrstoffrelevante Teile des Geräte- und Produktsicherheitsgesetzes und entsprechender Verordnungen (u. a. Betriebssicherheitsverordnung)
4. Bundesimmissionsschutzgesetz
5. 4. BImSchV - Verordnung über genehmigungsbedürftige Anlagen
6. 9. BImSchV - Verordnung über das Genehmigungsverfahren
7. 12. BImSchV - Störfall-Verordnung
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Bremerhaven
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8. WHG – Wasserhaushaltsgesetz und Landeswassergesetze
9. Verordnungen zum Umgang mit wassergefährdenden Stoffen
10. SprengG – Sprengstoffgesetz
11. 2. SprengV - Zweite Verordnung zum Sprengstoffgesetz
12. Sprengstofflager Richtlinien
13. VCI-Konzept für die Zusammenlagerung von Chemikalien
4 Teaching methods
lecture
5 Prerequisites for course participation
contentwise: sucessful attendance in Physical-chemical Safety Engineering I and II is recommended
6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 0,25 - 0,5
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Combined Transport / Metropolitan area and heavy loads (Electives 2)
Code number
9931604
Workload
60 h
Credits
2
Semester
3. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Combined Transport
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931604 Course: Combined Transport / Metropolitan area and
heavy loads
Docent: Prof. Dr.-Ing. Carsten Dorn
Semester: 3 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
Students learn how it could be possible, that the combined transport has so far not brought the desired results in the context of transport development. They will learn the kinds of transport policies and will then identify the relevant boundary conditions for the economic implementation of the transport. Furthermore, the students learn how to plan a large-capacity as well as a heavy transport. The current standards and the legal and technological aspects are discussed here in detail. The students recognize the execution of the transport related problems. Furthermore, the students have to work at a specific project task. In this way, the acquired specific knowledge in each case is consolidated accordingly.
3 Course contents
It discusses the link between modes. In particular, the combined transport, as well as the respective boundary conditions, is discussed. It shall also consider as part of the lecture in detail to the large volume and heavy traffic. The students learn, how such a transport plan and the legal and technological conditions would be observed in each case.
4 Teaching methods
Lectures
5 Prerequisites for course participation
/
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Bremerhaven
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6 Art of examination (optional)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X X
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Passed examination, presentation
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Carsten Dorn
11 Additional information
Language of teaching: German
Literature:
1. Dorn, Carsten: Vorlesungsumdruck Kombinierter Verkehr / Schwerlast- und Großraumtransporte, 2010
2. VDI- Richtlinie: Großraum- und Schwertransporte 3. StVO, StVZO
Hochschule
Bremerhaven
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Title: Safety of Intermodal Container Transportation (Electives 2)
Code number
9931605
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Safety of Intermodal Container Transportation
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931605 Course: Safety of Intermodal Container Transportation
Docent: Prof. Dr. Wolfgang Schwanebeck
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The students learn the order of intermodal container transports in the way of getting to know the weaknesses of container safety. They learn the basic laws and regulations for the container safety as well as actual initiatives and research projects. The students identify the problems of the vulnerable container transports and develop a valuation for counteractive measures and their efficiency.
3 Course contents
The order of intermodal container transports will be explained in the way of showing the weaknesses of the container safety. The basic principles of laws and regulations will be showed (ISPS-Code). Initiatives and actual research projects as well as technical measures to increase the container safety will be explained. The themes will be deepened in discussions and presentations to look on the efficiency of the different measures to increase the container safety.
4 Teaching methods
lecture
5 Prerequisites for course participation
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Bremerhaven
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6 Art of examination (optional)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X X
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Passed examination, presentation
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Wolfgang Schwanebeck
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Seaport-Terminals (Electives 2)
Code number
9931606
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Seaport-Terminals
b)
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
23 students
Responsible person:
Code number: 9931606 Course: Seaport-Terminals
Docent: Prof. Dr. Holger Schütt
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
The aim of the course is to give the students a basic understanding for the processes of handling plants in harbours and their integration in the worldwide flow of goods. After the successful attendance of the course the students have a big overview over the set-up of a seaport-terminal, their processes and used handling technique. The students are able to evaluate the use of different equipments and find the best solution for the special environment.
In working out part questions on their own and in groups and to present them in a presentation, the students learn team as well as intellectual competences.
3 Course contents
integration of seaport terminals in supply chains
flow of goods worldwide and trade routes
different types of terminals separated in handling of goods and handling techniques
internal set-ups of terminals and the combined transport- and handling techniques and processes
evaluation of different handling systems on the basis of key data (productivity, efficiency and ecological aspects)
comparison of manual and automatic part systems
planning task and their IT realisation
4 Teaching methods
lecture
5 Prerequisites for course participation
Hochschule
Bremerhaven
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6 Art of examination (optional)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X X
Weighting
Duration [h]
7 Requirements for allocation of Credit points
Passed examination, presentation
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr.-Ing. Holger Schütt
11 Additional information
Language of teaching: German Literatur:
Böse, J. W. (Ed), Handbook of Terminal Planning, Springer, Berlin 9781441984074
Hochschule
Bremerhaven
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Title: Packaging methods, machines and lines (Electives 3)
Code number
9951101
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Packaging methods, machines and lines
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
47 students
Responsible person:
Code number: 9951101 Course: Packaging methods, machines and lines
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
Aim off the course is to enable the students to become familiar with the various packaging processes regarding main operations as well as pre- and after treating operations. After successful participation in the course the students have basic knowledge on packaging machines, their functionalities and requirements for use. The students are enabled to compare alternative packaging methods, to define requirements and restrictions for automation and conceptualize packaging machinery solutions.
Due to the fact that the course is held in English, the students will extend their language skills and become a competent conversational partner for suppliers and users of packaging machines
3 Course contents
Basics of manual and automatic packaging
Terms of time, parameters and basics of calculation
Packaging processes
Packaging machines for a production of primary and secondary packaging
Packaging machines for shipping units and unit loads
Chaining of single-purpose-machines, packaging lines
Multifunctional machines and packaging robotics
Planning of automatic packaging processes, performance specification
Practical application examples
4 Teaching methods
Lecture
5 Prerequisites for course participation
It is recommended to attend the preassigned module “English for Logisticians I” and the course “Packaging Technology”.
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Bremerhaven
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6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Dieter Heimann
11 Additional information
Language of teaching: English
Literature:
1. Bückle, J.:Handbuch der Pack- und Palettiertechnik – Der moderne Trockenteil in Theorie und Praxis, Behr`s Verlag, 2005
2. Hanlon, J.; Kelsey, R.; Forcinio, H.: Handbook of Package Engineering, Third Edition, CRC Press, Boca Raton. 1998
3. Rationalisierungs-Gemeinschaft Verpackung (Hrsg.): RGV-Handbuch Verpackung: Expertenwissen für die Praxis, - Berlin, Erich Schmidt Verlag, 1999
4. Fraunhofer Gesellschaft e.V. (Hrsg.): Verpackungstechnik – Mittel und Methoden zur Lösung der Verpackungsaufgabe, - Heidelberg, Hüthig-Verlag, 2004
Hochschule
Bremerhaven
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Title: Basics of the Material Handling Technology (Electives 3)
Code number
9951102
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Basics of the Material Handling Technology
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
47 students
Responsible person:
Code number: 9951102 Course: Basics of the Material Handling Technology
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 5 Course weighting: 1 SWS Course: 2
2 Learning outcomes / Objectives
The course deals with the most important forms of in-plant transport technologies.
The students will get a basic knowledge of these technologies and there application in material handling systems. They should be able to evaluate them under technical and economic aspects.
A second topic is the automation and communication technology in material handling systems.
3 Course contents
Handling equipments for intralogistic processes
Basics of handling devices, kinematics, drive technology
Structure of an automatic material flow system: control engineering, communication, identification
Sensor and Identification Technology
Application of the automatic material flow systems in warehouse management and order picking
Sorter systems in order picking
4 Teaching methods
Lectures, exercise
5 Prerequisites for course participation
Hochschule
Bremerhaven
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6 Art of examination (alternativ)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X
Weighting 100 % 100 % 100 %
Duration [h] 1
7 Requirements for allocation of Credit points
Passed examination, study project, homework
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Friedhelm Wesselmannn
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Planning of Material Flow Systems (Electives 3)
Code number
9951103
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
a) Planning of Material Flow Systems
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
20 students
Responsible person:
Code number: 9951103 Course: Planning of Material Flow Systems
Docent: Prof. Dr.-Ing. Friedhelm Wesselmann
Semester: 5 Course weighting: 1 SWS Course: 2
2 Learning outcomes / Objectives
The first part of the course is focused on the methods of material flow design. The main topic is the application of the discussed methods in realistic case studies. Students will plan and design simple material flow systems to obtain the feeling for real processes and the problems occurring in technical systems, which are close to reality. The focus of the course is placed on the technical aspects of planning and not on project management.
For the planning a 3D-software tool on the basis of virtual-reality-technology will be provided to students. With its help students will be able to plan and design 3D animation of materials handling and storage technology very close to reality.
3 Course contents
- Structures of material handling systems - Processes of material flow research - Methods of material flow design - Project Planning is depending on selected topics, e.g.: - Planning of high bay warehouse – pre-storage area
- Planning of order picking systems for various tasks
4 Teaching methods
Lectures, exercise
5 Prerequisites for course participation
Hochschule
Bremerhaven
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6 Art of examination (alternativ)
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X X X X
Weighting 100 % 100 % 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
Passed examination, study project, homework
8 Application of the module (other courses of studies)
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Friedhelm Wesselmannn
11 Additional information
Language of teaching: German
Hochschule
Bremerhaven
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Title: Materials engineering (Electives 3)
Code number
9951104
Workload
60 h
Credits
2
Semester
5. Sem.
Frequency of offering
each winter semester
Length
1 Semester
1 Course
Materials engineering
Contact time
2 SWS / 30 h
Self-study
30 h
Group size
47 students
Responsible person:
Code number: 9951104 Course: Materials Engineering
Docent: Prof. Dr. Dieter Heimann
Semester: 5 Course weighting: 0,5 SWS Course: 2
2 Learning outcomes / Objectives
After attending the course the students have an overview of alternative materials to be used in logistics applications. The students have basic knowledge on material parameters and are capable of comparing the pros and cons of alternative materials depending on specific requirements. The course sets the base and enables the students to independently study a selected topic in materials engineering.
3 Course contents
Introduction / Use of various materials in logistics
Materials and properties
Material basics (classification, crystalline structure, alloys)
Materials testing (methods of testing, material parameters)
Iron and steel, Iron-carbon phase diagram
Heat treatment
Alloy steels and non-alloy steels
Corrosion
Non-ferrous metals (alloys and industrial applications)
Polymers
Practical application examples (Packages and logistic equipment)
4 Teaching methods
Lecture
5 Prerequisites for course participation
It is recommended to attend the preassigned modules “Technical Physics” and “Technical Mechanics I”.
Hochschule
Bremerhaven
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6 Art of examination
Art of examination
Written exam Oral exam Homework / presentation
Project laboratory
tutorial
Designated X
Weighting 100 %
Duration [h] 1,5
7 Requirements for allocation of Credit points
Passed examination
8 Application of the module (other courses of studies)
/
9 Significance of the mark in the final score
1,1 %
10 Lecturer
Prof. Dr. Dieter Heimann
11 Additional information
Language of teaching: German
Literature:
1. Reissner, J.: Werkstoffkunde für Bachelors, München, Carl-Hanser Verlag, 2010 2. Bergmann, W..: Werkstofftechnik, 4. Auflage, - München, Carl-Hanser Verlag, 2002 3. Riehle, Manfred: Grundlagen der Werkstofftechnik, 2. Auflage,
Dt. Verlag für Grundstoffindustrie, 2000 4. Nentwig, J.: Kunststoff-Folien, 1. Auflage, München, Carl-Hanser Verlag. 2006 5. Truszkiewitz, Günter; Peilnsteiner, Jan: Handbuch Temperaturgeführte Logistik, 1.
Auflage, Behr` s Verlag, Hamburg, 2002 6. Buchner, Norbert : Verpackung von Lebensmitteln, Springer-Verlag 1999
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