Lecture 7

1. Lecture 7 The Eye and NeuromorphicVision

2. Outline • The eye and the retina • Artificial Vs biological vision systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

3. Eyeball Cross Section and Retina

4. Retina Cells

5. Schematized Retinal Cells

6. Outline • The eye and the retina • Artificial Vs biological vision systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

7. Frame-based Sensors Vs Biological Vision

8. Notion of Frame Tframe y x Time Tintegration Tintegration<Tframe

9. Dynamic Range The human eye has a dynamic range higher than 10 decades Rüedi et al, JSSC 2003 ”A 128x128 Pixel 120dB Dynamic-Range Vision-Sensor Chip for Image Contrast and Orientation Extraction” Bad choice of the integration time

10. Outline • The eye and the retina • Artificial Vs biological vision systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

11. Depletion Region and Phototransduction

12. Electromagnetic Spectrum Silicon

13. Some Possible Photodetectors in CMOS Technology A. Moini. ‘Vision Chips’. Kluwer Academic Publishers, 2000.

14. Photogates

15. Logarithmic Photoreceptors (b) (a)

16. Photoreceptors with Negative Feedback (a) (b)

17. Classic Active Pixel Sensor (APS)

18. Outline • The eye and the retina • Artificial vision Vs biological systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

19. Read-outStrategies: • Addressing/Scanning • ChargeCoupledDevices (CCD) • AddressEventRepresentation (AER)

20. Addressing/Scanning Token System

21. Charge Coupled Devices (CCD)

22. Address Event Representation (AER) (I)

23. Address Event Representation (AER) (II)

24. Outline • The eye and the retina • Artificial Vs vision biological systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

25. Delbrück’s Adaptative Photo Cell (I)

26. Delbrück’s Adaptative Photo Cell (II) Non-linear element

27. Mahowald’s Pixel

28. Retina Pixel Boahen

29. Dynamic Vision Sensor (DVS) P. Lichtsteiner, C. Posch, and T. Delbrück, “A 128 128 120 dB 15 µs latency asynchronous temporal contrast vision sensor,”IEEE J. Solid-State Circuits, vol. 43, no. 2, pp. 566–576, Feb. 2008.

30. Common Source Amplifier Can used as comparator

31. Examples of Biomorphic Vision Sensors • Spatio-Temporal Contrast Detector: http://folk.uio.no/juanle/Projects/Spatial_contrast_retina.html • Dynamic Vision Sensor: http://folk.uio.no/juanle/Projects/DVS.html

32. Outline • The eye and the retina • Artificial vision Vs biological systems • Fundamentals of photo receptors • Read-out strategies • Examples of neuromorphic vision systems • Further processing

33. Further Image Processing • Motion Detection • Features extraction

34. Token Based Motion Processing: Reichardt Detector

35. Intensity Based

36. Features Extraction

37. ’Difference of Gaussians’ Kernel (I)

38. ’Difference of Gaussians’ Kernel (II)

39. Result of Edge Detection

40. 45 Degrees Edge Kernel (I)

41. 45 Degrees Edge Kernel (II)