Tsz-Chiu Au scite author profile

Autonomous Drone Racing (ADR) is a challenge for autonomous drones to navigate a cluttered indoor environment without relying on any external sensing in which all the sensing and computing must be done on board. Although no team could complete the whole racing track so far, most successful teams implemented waypoint tracking methods and robust visual recognition of the gates of distinct colors because the complete environmental information was given to participants before the events. In this paper, we introduce the purpose of ADR as a benchmark testing ground for autonomous drone technologies and analyze the challenges and technologies used in the two previous ADRs held in IROS 2016 and IROS 2017. Six teams that participated in these events present their implemented technologies that cover modifyed ORBSLAM, robust alignment method for waypoints deployment, sensor fusion for motion estimation, deep learning for gate detection and motion control, and stereo-vision for gate detection.

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Applications of SHOP and SHOP2

Nau

Ilghami

et al. 2005

IEEE Intell. Syst.

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Dynamic lane reversal in traffic management

Hausknecht

Stone

et al. 2011

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Abstract-Contraflow lane reversal-the reversal of lanes in order to temporarily increase the capacity of congested roadscan effectively mitigate traffic congestion during rush hour and emergency evacuation. However, contraflow lane reversal deployed in several cities are designed for specific traffic patterns at specific hours, and do not adapt to fluctuations in actual traffic. Motivated by recent advances in autonomous vehicle technology, we propose a framework for dynamic lane reversal in which the lane directionality is updated quickly and automatically in response to instantaneous traffic conditions recorded by traffic sensors. We analyze the conditions under which dynamic lane reversal is effective and propose an integer linear programming formulation and a bi-level programming formulation to compute the optimal lane reversal configuration that maximizes the traffic flow. In our experiments, active contraflow increases network efficiency by 72%.

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Bringing simulation to life: A mixed reality autonomous intersection

Quinlan

Zhu

et al. 2010

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Abstract-Fully autonomous vehicles are technologically feasible with the current generation of hardware, as demonstrated by recent robot car competitions. Dresner and Stone proposed a new intersection control protocol called Autonomous Intersection Management (AIM) and showed that with autonomous vehicles it is possible to make intersection control much more efficient than the traditional control mechanisms such as traffic signals and stop signs. The protocol, however, has only been tested in simulation and has not been evaluated with real autonomous vehicles. To realistically test the protocol, we implemented a mixed reality platform on which an autonomous vehicle can interact with multiple virtual vehicles in a simulation at a real intersection in real time. From this platform we validated realistic parameters for our autonomous vehicle to safely traverse an intersection in AIM. We present several techniques to improve efficiency and show that the AIM protocol can still outperform traffic signals and stop signs even if the cars are not as precisely controllable as has been assumed in previous studies.

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Tsz-Chiu Au

SHOP2: An HTN Planning System

Challenges and implemented technologies used in autonomous drone racing

Applications of SHOP and SHOP2

Dynamic lane reversal in traffic management

Bringing simulation to life: A mixed reality autonomous intersection

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