Orthopteran DCMD neuron: a reevaluation of responses to moving objects. I. Selective responses to approaching objects FC Rind, PJ Simmons Journal of neurophysiology 68 (5), 1654-1666, 1992 | 283 | 1992 |
Neural network based on the input organization of an identified neuron signaling impending collision FC Rind, DI Bramwell Journal of neurophysiology 75 (3), 967-985, 1996 | 226 | 1996 |
Seeing what is coming: building collision-sensitive neurones FC Rind, PJ Simmons Trends in neurosciences 22 (5), 215-220, 1999 | 217 | 1999 |
Sensors and sensing in biology and engineering FG Barth, JAC Humphrey, TW Secomb Springer Science & Business Media, 2003 | 200 | 2003 |
Collision avoidance using a model of the locust LGMD neuron M Blanchard, FC Rind, PFMJ Verschure Robotics and Autonomous Systems 30 (1-2), 17-38, 2000 | 145 | 2000 |
Collision detection in complex dynamic scenes using an LGMD-based visual neural network with feature enhancement S Yue, FC Rind IEEE transactions on neural networks 17 (3), 705-716, 2006 | 143 | 2006 |
The locust DCMD, a movement-detecting neurone tightly tuned to collision trajectories SJ Judge, FC Rind Journal of Experimental Biology 200 (16), 2209-2216, 1997 | 140 | 1997 |
From living eyes to seeing machines VV Srinivasan Oxford University Press, Inc., 1997 | 130 | 1997 |
Orthopteran DCMD neuron: a reevaluation of responses to moving objects. II. Critical cues for detecting approaching objects PJ Simmons, FC Rind Journal of neurophysiology 68 (5), 1667-1682, 1992 | 127 | 1992 |
Role of an identified looming-sensitive neuron in triggering a flying locust's escape RD Santer, FC Rind, R Stafford, PJ Simmons Journal of Neurophysiology 95 (6), 3391-3400, 2006 | 120 | 2006 |
A chemical synapse between two motion detecting neurones in the locust brain FC Rind Journal of Experimental Biology 110 (1), 143-167, 1984 | 115 | 1984 |
Gliding behaviour elicited by lateral looming stimuli in flying locusts RD Santer, PJ Simmons, FC Rind Journal of Comparative Physiology A 191, 61-73, 2005 | 108 | 2005 |
A bio-inspired visual collision detection mechanism for cars: Optimisation of a model of a locust neuron to a novel environment S Yue, FC Rind, MS Keil, J Cuadri, R Stafford Neurocomputing 69 (13-15), 1591-1598, 2006 | 89 | 2006 |
Motor activity and trajectory control during escape jumping in the locust Locusta migratoria RD Santer, Y Yamawaki, FC Rind, PJ Simmons Journal of Comparative Physiology A 191, 965-975, 2005 | 85 | 2005 |
Arousal facilitates collision avoidance mediated by a looming sensitive visual neuron in a flying locust FC Rind, RD Santer, GA Wright Journal of neurophysiology 100 (2), 670-680, 2008 | 74 | 2008 |
Non-directional, movement sensitive neurones of the locust optic lobe FC Rind Journal of Comparative Physiology A 161, 477-494, 1987 | 74 | 1987 |
Signaling of object approach by the DCMD neuron of the locust FC Rind, PJ Simmons Journal of neurophysiology 77 (2), 1029-1033, 1997 | 73 | 1997 |
A bio-inspired visual collision detection mechanism for cars: combining insect inspired neurons to create a robust system R Stafford, RD Santer, FC Rind BioSystems 87 (2-3), 164-171, 2007 | 71 | 2007 |
Escapes with and without preparation: the neuroethology of visual startle in locusts PJ Simmons, FC Rind, RD Santer Journal of insect physiology 56 (8), 876-883, 2010 | 68 | 2010 |
Intracellular characterization of neurons in the locust brain signaling impending collision FC Rind Journal of neurophysiology 75 (3), 986-995, 1996 | 67 | 1996 |