Cogal, OmerLeblebici, Yusuf2016-05-312016-05-312016-05-31201710.1109/Tbcas.2016.2547388https://infoscience.epfl.ch/handle/20.500.14299/126399WOS:000395442500020In thiswork,we present aminiaturized high definition vision system inspired by insect eyes, with a distributed illumination method, which can work in dark environments for proximity imaging applications such as endoscopy. Our approach is based on modeling biological systems with off-the-shelf miniaturized cameras combined with digital circuit design for real time image processing. We built a 5 mm radius hemispherical compound eye, imaging a 180◦ × 180◦ degrees field of view while providingmore than 1.1 megapixels (emulated ommatidias) as real-time video with an inter-ommatidial angle Δφ = 0.5◦ at 18 mm radial distance. We made an FPGA implementation of the image processing system which is capable of generating 25 fps video with 1080 × 1080 pixel resolution at a 120 MHz processing clock frequency. When compared to similar size insect eye mimicking systems in literature, the system proposed in this paper features 1000× resolution increase. To the best of our knowledge, this is the first time that a compound eye with built-in illumination idea is reported. We are offering our miniaturized imaging system for endoscopic applications like colonoscopy or laparoscopic surgery where there is a need for large field of view high definition imagery. For that purpose we tested our systeminside a human colonmodel. We also present the resulting images and videos from the human colon model in this paper.ColonoscopyendoscopyFPGAinsect eyeminiaturizationmulti-camerapanoramareal-timetext::journal::journal article::research article