论文信息 - A biologically inspired collision detection algorithm using differential optic flow imaging

A biologically inspired collision detection algorithm using differential optic flow imaging

A differential CMOS image sensor to detect collision using 1D binary differential optical flow is presented. The algorithm is inspired by the insects' use of image expansion for saccadic motion and flight landing. The proposed model is simpler in implementation than the conventional Hassenstein-Reichardt elementary motion detectors used in most collision detection models. The binary output for the optic flow is generated at the pixel level, reducing the need for digital hardware and simplifying the process of collision detection. The experimental results show that the collision detection algorithm can trigger as near as 2cm from the object, opening the possibility of using these algorithms in narrow path autonomous agent navigations.

David San Segundo Bello | Mukul Sarkar | Albert Theuwissen | Chris van Hoof

[1] H G Krapp,et al. Neuronal matched filters for optic flow processing in flying insects. , 2000, International review of neurobiology.

[2] Shoji Kawahito,et al. Non-Linearity in Wide Dynamic Range CMOS Image Sensors Utilizing a Partial Charge Transfer Technique , 2009, Sensors.

[3] Svetha Venkatesh,et al. How honeybees make grazing landings on flat surfaces , 2000, Biological Cybernetics.

[4] Tetsuya Yagi,et al. Bio-Inspired Real-Time Robot Vision for Collision Avoidance , 2008, J. Robotics Mechatronics.

[5] Michael B. Reiser,et al. A test bed for insect-inspired robotic control , 2003, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[6] David N. Lee,et al. A Theory of Visual Control of Braking Based on Information about Time-to-Collision , 1976, Perception.

[7] R eid R. H arrison. A Biologically Inspired Analog IC for Visual Collision Detection , .

[8] W. Reichardt,et al. Autocorrelation, a principle for the evaluation of sensory information by the central nervous system , 1961 .