Antonio Leccese

ABSTRACT In this work, we address the connectivity maintenance problem for a team of mobile robots which move according to a given collective control objective. In our framework, the interaction among the robots is limited by a given... more

ABSTRACT In this work, we address the connectivity maintenance problem for a team of mobile robots which move according to a given collective control objective. In our framework, the interaction among the robots is limited by a given visibility radius both in terms of sensing and communication. For this scenario, we propose a bounded control law which can provably preserve the connectivity of the multi-robot system over time even in the presence of any desired bounded control objective. Furthermore, we characterize the effects of the connectivity control term on the collective control objective, in terms of robustness of the desired control objective to the disturbance of the connectivity, by resorting to the set Input-to-State Stability framework (set-ISS). For the validation of the proposed bounded connectivity control law we consider the encirclement problem as an example of collective control objective. Simulations are provided to corroborate the theoretical results.

Publisher: IEEE

Publication Date: 2014

Publication Name: 2014 American Control Conference

Research Interests:
Mathematics, Computer Science, Multi Robot Systems, ROBOT, and Control Management

Publisher: IEEE

Publication Date: 2013

Publication Name: 2013 IEEE International Conference on Robotics and Automation

Research Interests:
Engineering, Computer Science, Actuators, Mobile Robots, Swarm Robotics, and 9 moreRobot kinematics, ROBOT, Collision Avoidance, Visibility, Mobile Robot, Obstacle Avoidance, Actuator, Obstacle, and Swarm Behaviour

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Publication Date: Dec 15, 2014

Publication Name: 53Rd Ieee Conference on Decision and Control

ABSTRACT In this paper, a novel decentralized swarm aggregation algorithm for multi-robot systems with an integrated obstacle avoidance is proposed. In this framework, the interaction among robots is limited to their visibility... more

ABSTRACT In this paper, a novel decentralized swarm aggregation algorithm for multi-robot systems with an integrated obstacle avoidance is proposed. In this framework, the interaction among robots is limited to their visibility neighborhood, i.e., robots that are within the visibility range of each other. Furthermore, to better comply with the hardware/software limitations of mobile robotic platforms, robots actuators are assumed to be saturated. A theoretical characterization of the main properties of the proposed swarm aggregation algorithm is provided. Simulations have been carried out to validate the theoretical results and experiments have been performed with a team of low-cost mobile robots to demonstrate the effectiveness of the proposed approach in real scenario.

Publication Date: 2013

Publication Name: 2013 IEEE International Conference on Robotics and Automation

Research Interests:
Convergence, Actuators, and Mobile Robots

ABSTRACT In this work, we address the connectivity maintenance problem for a team of mobile robots which move according to a given collective control objective. In our framework, the interaction among the robots is limited by a given... more

ABSTRACT In this work, we address the connectivity maintenance problem for a team of mobile robots which move according to a given collective control objective. In our framework, the interaction among the robots is limited by a given visibility radius both in terms of sensing and communication. For this scenario, we propose a bounded control law which can provably preserve the connectivity of the multi-robot system over time even in the presence of any desired bounded control objective. Furthermore, we characterize the effects of the connectivity control term on the collective control objective, in terms of robustness of the desired control objective to the disturbance of the connectivity, by resorting to the set Input-to-State Stability framework (set-ISS). For the validation of the proposed bounded connectivity control law we consider the encirclement problem as an example of collective control objective. Simulations are provided to corroborate the theoretical results.

Publisher: IEEE

Publication Date: 2014

Publication Name: 2014 American Control Conference

Research Interests: Mathematics, Computer Science, Multi Robot Systems, ROBOT, and Control Management<div>()</div>

Publisher: IEEE

Publication Date: 2013

Publication Name: 2013 IEEE International Conference on Robotics and Automation

Publication Date: Dec 15, 2014

Publication Name: 53Rd Ieee Conference on Decision and Control

Publication Date: 2013

Publication Name: 2013 IEEE International Conference on Robotics and Automation

Research Interests: Convergence, Actuators, and Mobile Robots<div>()</div>

Publication Date: 2014

Publication Name: 2014 American Control Conference

Publication Date: 2014

Publication Name: 53rd IEEE Conference on Decision and Control

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Research Interests:
Mathematics, Computer Science, Multi Robot Systems, ROBOT, and Control Management

Research Interests:
Convergence, Actuators, and Mobile Robots