Post on 08-Oct-2019
MIN-FakultätFachbereich Informatik
Fusing Camera and LiDAR to Detect andRecognize Motion
Lukas Wendt
Universität HamburgFakultät für Mathematik, Informatik und NaturwissenschaftenFachbereich InformatikTechnische Aspekte Multimodaler Systeme
12. November 2018
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ContentIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
1. IntroductionCameraLiDARLiDAR CalculationMotion Detection & Recognition
2. Sensor FusionCompetitiveComplementaryCooperativeDemoFusion
3. MotionMovementRelative to Absolute
4. Conclusion & Future Works5. ReferencesL. Wendt – Fusion Camera/LiDAR 2 / 27
Introduction / MotivationIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Autonomous Robots/CarsI Multiple Sensors
I CameraI LiDARI ...
I Sensor FusionI Complete View of the WorldI combining advantages of dif. SensorsI Motion Planing
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CameraIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I advantageI cheapI passiveI smallI high resolution
I disadvantageI no depth InformationsI fog / rainI intensive Computing
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LiDARIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I LiDAR (Light detection and Ranging)I LaserI SensorI advantage
I high distanceI depth InformationI density Information
I disadvantageI expensiveI no color InformationsI active
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LiDAR CalculationIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Calculation Distance
LiDAR Distance
I d = c·t2
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LiDAR Calculation (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Calculation Density
LiDAR Density
I A = AmplitudeI higher Amplitude = higher Density
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Motion Detection & RecognitionIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Motion DetectionI Detects if an object is moving
I Motion RecognitionI Detects which moving a Object doing
I Gesture Example
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Sensor FusionIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Combination of Sensor DataI RedundancyI Same or different SensorsI Frequency or Resolution loose
Definition„is the combining of sensory data ... so the resulting information isin some sense better than would be possible when these sourceswere used individually“a
aElmenreich 2001.
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CompetitiveIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Sensor Fusion Competitive
I Airplane →Redundancy
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ComplementaryIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Sensor Fusion Complementary
I Camera in the Front/Back
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CooperativeIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Sensor Fusion Cooperative
I LiDAR Cameras Systems in Cars/RobotsI 2 Sensors to increase accuracy
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A Short Video Demo
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FusionIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Lidar View
Camera View
Fused View
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Fusion (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I First we need to calibrate
Side view of the sensor setup1
1Silva, Roche und Kondoz 2018b.L. Wendt – Fusion Camera/LiDAR 15 / 27
MovementIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
First Picture
Second Picture
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Colliding Picture
I Possible DirectionI Maybe complete WrongI adding LiDAR Data
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Colliding Picture
I represented with a color transitionI green = 0 Speed, blue = negative Speed , red = positive Speed
I speed on AxisI Movement between object
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I trigonometric functionsI Arithmetic
Angle calculation Sphere First
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Angle calculation Sphere
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Angle calculation Sphere Second
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Calcualte Points in Cordinate System
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Movement (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Plot in a GridI (0/0) is the Lidar/Camera Position
Movement between Picture 1 and Picture 2
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ConclusionIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I More complete picture of the environmentI Problems with different Frequencies, Resolutions ..I LiDARs are expensiveI We can build a 3D environmentI Possibly Something data lostI Accurate the Interpolation with higher PolynomsI Tests with a real LiDARI exact Positions of detected Object can calculateI calculation are Simple trigonometric and normal arithmetic
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QuestionsIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
I Thanks for your attentionI Questions ?
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ReferencesIntroduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Cho, H. u. a. (2014). “A multi-sensor fusion system for movingobject detection and tracking in urban driving environments”.In: 2014 IEEE International Conference on Robotics andAutomation (ICRA), S. 1836–1843. doi:10.1109/ICRA.2014.6907100.
Elmenreich, Wilfried (2001). An Introduction to Sensor Fusion.Research Report 47/2001. Treitlstr. 1-3/182-1, 1040 Vienna,Austria: Technische Universität Wien, Institut für TechnischeInformatik. (Besucht am 06. 11. 2018).
ouster (2018a). https://www.ouster.io/. (Besucht am06. 11. 2018).
– (2018b). https://www.youtube.com/watch?v=X7TljH5x2kE.(Besucht am 06. 11. 2018).
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References (cont.)Introduction Sensor Fusion Motion Conclusion & Future Works References Literatur
Silva, Varuna De, Jamie Roche und Ahmet M. Kondoz (2018a).“Robust Fusion of LiDAR and Wide-Angle Camera Data forAutonomous Mobile Robots”. In: Sensors. (Besucht am06. 11. 2018).
– (2018b). “Robust Fusion of LiDAR and Wide-Angle CameraData for Autonomous Mobile Robots”. In: Sensors. (Besuchtam 06. 11. 2018).
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