the Mantis Head Camera (why the Praying Mantis Is So Good At Catching Its Prey)
The mantis head camera (why the praying mantis is so good at catching its prey).
In ICIAP, 612-617, 2003
Online Version
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Abstract
Inspired by the abilities of the praying mantis to judge distance to its prey before the strike by use of motion based visually mediated odometry, we create miniature model for depth estimation that are similar to the head movements of the Praying Mantis. We develop mathematical models of the praying mantis behavior and describe our implementations and experimental environment. We investigate structure from motion problem when images are taken from a camera whose focal point is translating according to the biological model. This motion is reminiscent of a praying mantis peering its head left and right, apparently to obtain depth perception, hence the moniker “mantis head camera.” We present the performance of the mantis head camera model and provide experimental results and error analysis of the algorithm. The precision of our mathematical model and its implementation is consistent with the experimental facts obtained from various biological experiments.
Co-authors
Bibtex Entry
@inproceedings{KatsmanR03i,
title = {The mantis head camera (why the praying mantis is so good at catching its prey).},
author = {Igor Katsman and Ehud Rivlin},
year = {2003},
booktitle = {ICIAP},
pages = {612-617},
abstract = {Inspired by the abilities of the praying mantis to judge distance to its prey before the strike by use of motion based visually mediated odometry, we create miniature model for depth estimation that are similar to the head movements of the Praying Mantis. We develop mathematical models of the praying mantis behavior and describe our implementations and experimental environment. We investigate structure from motion problem when images are taken from a camera whose focal point is translating according to the biological model. This motion is reminiscent of a praying mantis peering its head left and right, apparently to obtain depth perception, hence the moniker “mantis head camera.” We present the performance of the mantis head camera model and provide experimental results and error analysis of the algorithm. The precision of our mathematical model and its implementation is consistent with the experimental facts obtained from various biological experiments.}
}