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MONOCULAR RECONSTRUCTION OF DYNAMIC VEHICLES ON ARBITRARY ROAD PROFILES FROM A MOVING CAMERAAuthor: Junaid Ahmed Ansari Date: 2019-09-04 Report no: IIIT/TH/2019/106 Advisor:Madhava Krishna AbstractAccurate localization of other traffic participants is a vital task in autonomous driving systems. State-of-the-art systems employ a combination of sensing modalities such as RGB cameras and Li- DARs for localizing traffic participants. However, with the advent and subsequent commercialization of autonomous driving, there has been an increased interest in monocular object localization (and re-construction) for urban driving scenarios. While there have been very interesting attempts to tackle thisproblem using a single monocular camera, most approaches assume that the ego car and the car to belocalized share the same road plane. This condition is often termed as the coplanarity assumption.In this thesis, we relax the aforementioned coplanarity assumption and demonstrate — to the best of our knowledge — the first results for monocular object localization and shape estimation on surfaces that are non-coplanar with the moving ego vehicle mounted with a monocular camera. We approximate road surfaces by local planar patches and use semantic cues from vehicles in the scene to initializea local bundle-adjustment like procedure that simultaneously estimates the 3D pose and shape of thevehicles, and the orientation of the local ground plane on which the vehicle stands. We also demonstrate that our approach transfers from synthetic to real data, without any hyper parameter-/fine-tuning. We evaluate the proposed approach on the KITTI and SYNTHIA-SF benchmarks, for a variety of roadplane configurations. The proposed approach significantly improves the state-of-the-art for monocular object localization on arbitrarily profiled/graded roads. Full thesis: pdf Centre for Robotics |
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