Charbel Toumieh scite author profile

Charbel Toumieh

3Publications

20Citation Statements Received

85Citation Statements Given

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Affiliations

Laboratoire de Recherche en Informatique, University of Paris-Saclay, Institut Polytechnique de Paris

Publications

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Decentralized Multi-Agent Planning Using Model Predictive Control and Time-Aware Safe Corridors

Toumieh¹,

Lambert²

2022

IEEE Robot. Autom. Lett.

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There are many industrial, commercial and social applications for multi-agent planning for multirotors such as autonomous agriculture, infrastructure inspection and search and rescue. Thus, improving on the state-of-the-art of multiagent planning to make it a viable real-world solution is of great benefit. In this work, we propose a new method for multi-agent planning in a static environment that improves our previous work by making it fully online as well as robust to communication latency. The proposed framework generates a global path and a Safe Corridor to avoid static obstacles in an online fashion (generated offline in our previous work). It then generates a time-aware Safe Corridor which takes into account the future positions of other agents to avoid intra-agent collisions. The time-aware Safe Corridor is given with a local reference trajectory to an MIQP (Mixed-Integer Quadratic Problem)/MPC (Model Predictive Control) solver that outputs a safe and optimal trajectory. The planning frequency is adapted to account for communication delays. The proposed method is fully online, real-time, decentralized, and synchronous. It is compared to 3 recent state-of-the-art methods in simulations. It outperforms all methods in robustness and safety as well as flight time. It also outperforms the only other state-of-the-art latency robust method in computation time.

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Voxel-Grid Based Convex Decomposition of 3D Space for Safe Corridor Generation

Toumieh

Lambert

2022

J Intell Robot Syst

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High-Speed Planning in Unknown Environments for Multirotors Considering Drag

Toumieh

Lambert

2021

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Coordinated flight of multiple drones allows to achieve tasks faster such as search and rescue and infrastructure inspection. Thus, pushing the state-of-the-art of aerial swarms in navigation speed and robustness is of tremendous benefit. In particular, being able to account for unexplored/unknown environments when planning trajectories allows for safer flight. In this work, we propose the first high-speed, decentralized, and synchronous motion planning framework (HDSM) for an aerial swarm that explicitly takes into account the unknown/undiscovered parts of the environment. The proposed approach generates an optimized trajectory for each planning agent that avoids obstacles and other planning agents while moving and exploring the environment. The only global information that each agent has is the target location. The generated trajectory is high-speed, safe from unexplored spaces, and brings the agent closer to its goal. The proposed method outperforms four recent state-of-the-art methods in success rate (100% success in reaching the target location), flight speed (67% faster), and flight time (42% lower). Finally, the method is validated on a set of Crazyflie nano-drones as a proof of concept.

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Charbel Toumieh

Decentralized Multi-Agent Planning Using Model Predictive Control and Time-Aware Safe Corridors

Voxel-Grid Based Convex Decomposition of 3D Space for Safe Corridor Generation

High-Speed Planning in Unknown Environments for Multirotors Considering Drag

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