Attitude estimation from polarimetric cameras

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TitreAttitude estimation from polarimetric cameras
Type de publicationConference Paper
Year of Publication2018
AuteursRastgoo M, Demonceaux C, Seulin R, Morel O
EditorMaciejewski AA, Okamura A, Bicchi A, Stachniss C, Song DZ, Lee DH, Chaumette F, Ding H, Li JS, Wen J, Roberts J, Masamune K, Chong NY, Amato N, Tsagwarakis N, Rocco P, Asfour T, Chung WK, Yasuyoshi Y, Sun Y, Maciekeski T, Althoefer K, AndradeCetto J, Chung WK, Demircan E, Dias J, Fraisse P, Gross R, Harada H, Hasegawa Y, Hayashibe M, Kiguchi K, Kim K, Kroeger T, Li Y, Ma S, Mochiyama H, Monje CA, Rekleitis I, Roberts R, Stulp F, Tsai CHD, Zollo L
Conference Name2018 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS (IROS)
PublisherIEEE Robot & Automat Soc; IEEE Ind Elect Soc; Robot Soc Japan; Soc Instrument & Control Engineers; New Technol Fdn; IEEE; Adept MobileRobots; Willow Garage; Aldebaran Robot; Natl Instruments; Reflexxes GmbH; Schunk Intec S L U; Univ Carlos III Madrid; BOS
Conference Location345 E 47TH ST, NEW YORK, NY 10017 USA
ISBN Number978-1-5386-8094-0
Résumé

In the robotic field, navigation and path planning applications benefit from a wide range of visual systems (e.g. perspective cameras, depth cameras, catadioptric cameras, etc.). In outdoor conditions, these systems capture information in which sky regions cover a major segment of the images acquired. However, sky regions are discarded and are not considered as visual cue in vision applications. In this paper, we propose to estimate attitude of Unmanned Aerial Vehicle (UAV) from sky information using a polarimetric camera. Theoretically, we provide a framework estimating the attitude from the skylight polarized patterns. We showcase this formulation on both simulated and real-word data sets which proved the benefit of using polarimetric sensors along with other visual sensors in robotic applications.