Jim Nickolaou scite author profile

Boss is an autonomous vehicle that uses on-board sensors (global positioning system, lasers, radars, and cameras) to track other vehicles, detect static obstacles, and localize itself relative to a road model. A three-layer planning system combines mission, behavioral, and motion planning to drive in urban environments. The mission planning layer considers which street to take to achieve a mission goal. The behavioral layer determines when to change lanes and precedence at intersections and performs error recovery maneuvers. The motion planning layer selects actions to avoid obstacles while making progress toward local goals. The system was developed from the ground up to address the requirements of the DARPA Urban Challenge using a spiral system development process with a heavy emphasis on regular, regressive system testing. During the National Qualification Event and the 85-km Urban Challenge Final Event, Boss demonstrated some of its capabilities, qualifying first and winning the challenge. C 2008 Wiley Periodicals, Inc.

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Autonomous driving in urban environments: Boss and the Urban Challenge

Urmson

Anhalt

Bagnell

et al. 2008

Journal of Field Robotics

1,269

112

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Requirements for next generation automotive radars

Murad

Bilik

Friesen

et al. 2013

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Next generation short range radar (SRR) for automotive applications

Murad

Nickolaou

Raz

et al. 2012

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Transformational Autonomy and Personal Transportation: Synergies and Differences between Cars and Planes

Goodrich

Nickolaou

Moore

2016

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Highly automated cars have undergone tremendous investment and progress over the past ten years with speculation about fully-driverless cars within the foreseeable, or even near future, becoming common. If a driverless future is realized, what might be the impact on personal aviation? Would self-piloting airplanes be a relatively simple spin-off, possibly making travel by personal aircraft also commonplace? What if the technology for completely removing human drivers turns out to be further in the future rather than sooner; would such a delay suggest that transformational personal aviation is also somewhere over the horizon or can transformation be achieved with less than full automation? This paper presents a preliminary exploration of these questions by comparing the operational, functional, and implementation requirements and constraints of cars and small aircraft for on-demand mobility. In general, we predict that the mission management and perception requirements of self-piloting aircraft differ significantly from self-driving cars and requires the development of aviation specific technologies. We also predict that the highly-reliable control and system automation technology developed for conditionally and highly automated cars can have a significant beneficial effect on personal aviation, even if full automation is not immediately feasible.

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Jim Nickolaou

Autonomous Driving in Urban Environments: Boss and the Urban Challenge

Autonomous driving in urban environments: Boss and the Urban Challenge

Requirements for next generation automotive radars

Next generation short range radar (SRR) for automotive applications

Transformational Autonomy and Personal Transportation: Synergies and Differences between Cars and Planes

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