Petr Štěpán scite author profile

This paper addresses the perception, control and trajectory planning for an aerial platform to identify and land on a moving car at 15 km/h. The hexacopter Unmanned Aerial Vehicle (UAV), equipped with onboard sensors and a computer, detects the car using a monocular camera and predicts the car future movement using a nonlinear motion model. While following the car, the UAV lands on its roof, and it attaches itself using magnetic legs. The proposed system is fully autonomous from takeoff to * http://mrs.felk.cvut.cz † http://www.grasp.upenn.edu This is the author manuscript accepted for publication and has undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record.

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Robust Data Fusion With Occupancy Grid

Štěpán

Kulich

Přeučil

2005

IEEE Trans. Syst., Man, Cybern. C

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Autonomous Firefighting Inside Buildings by an Unmanned Aerial Vehicle

et al. 2021

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This paper presents a novel approach to autonomous extinguishing of indoor fires inside a building by a Micro-scale Unmanned Aerial Vehicle (MAV). In particular, controlling and estimating the MAV state, detection of a building entrance, multi-modal MAV localization during the outdoorindoor transition, interior motion planning and exploration, fire detection and position estimation, and fire extinguishing are discussed. The performance of these elements, as well as of the entire integrated system, are evaluated in simulations and field tests in various demanding real-world conditions. The system presented here is part of a complex multi-MAV solution that won the Mohamed Bin Zayed International Robotics Challenge 2020 (MBZIRC 2020) competition, and is being used as the core of a fire-fighting Unmanned Aerial System (UAS) industrial platform under development. A video attachment to this paper is available at the website http://mrs.felk.cvut.cz/2020firechallenge-insidefires.

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Towards Context Independent Extra-functional Properties Descriptor for Components

Jezek

Brada

Štěpán

2010

Electronic Notes in Theoretical Computer Science

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Integration of Extra-Functional Properties in Component Models

Sentilles

Štěpán

Carlson

et al. 2009

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Autonomous landing on a moving car with unmanned aerial vehicle

Báča

Štěpán

Saska

2017

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MRS Modular UAV Hardware Platforms for Supporting Research in Real-World Outdoor and Indoor Environments

Heřt

Báča

Petráček

et al. 2022

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Autonomous Aerial Filming With Distributed Lighting by a Team of Unmanned Aerial Vehicles

Krátký

Alcántara

Capitán

et al. 2021

IEEE Robot. Autom. Lett.

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This paper describes a method for autonomous aerial cinematography with distributed lighting by a team of unmanned aerial vehicles (UAVs). Although camera-carrying multirotor helicopters have become commonplace in cinematography, their usage is limited to scenarios with sufficient natural light or of lighting provided by static artificial lights. We propose to use a formation of unmanned aerial vehicles as a tool for filming a target under illumination from various directions, which is one of the fundamental techniques of traditional cinematography. We decompose the multi-UAV trajectory optimization problem to tackle non-linear cinematographic aspects and obstacle avoidance at separate stages, which allows us to re-plan in real time and react to changes in dynamic environments. The performance of our method has been evaluated in realistic simulation scenarios and field experiments, where we show how it increases the quality of the shots and that it is capable of planning safe trajectories even in cluttered environments.

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Petr Štěpán

Autonomous landing on a moving vehicle with an unmanned aerial vehicle

Robust Data Fusion With Occupancy Grid

Autonomous Firefighting Inside Buildings by an Unmanned Aerial Vehicle

Towards Context Independent Extra-functional Properties Descriptor for Components

Integration of Extra-Functional Properties in Component Models

Autonomous landing on a moving car with unmanned aerial vehicle

MRS Modular UAV Hardware Platforms for Supporting Research in Real-World Outdoor and Indoor Environments

Autonomous Aerial Filming With Distributed Lighting by a Team of Unmanned Aerial Vehicles

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