Madhav Patil scite author profile

Madhav Patil

5Publications

47Citation Statements Received

111Citation Statements Given

How they've been cited

How they cite others

155

111

Affiliations

University of Bridgeport

Publications

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Hardware Architecture Review of Swarm Robotics System: Self Reconfigurability, Self Reassembly and Self Replication

Patil¹,

Abukhalil²,

Patel³

et al. 2014

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Swarm robotics is one of the most fascinating and new research areas of recent decades, and one of the grand challenges of robotics is the design of swarm robots that are self-sufficient. This can be crucial for robots exposed to environments that are unstructured or not easily accessible for a human operator, such as the inside of a blood vessel, a collapsed building, the deep sea, or the surface of another planet. In this paper, we present a comprehensive study on hardware architecture and several other important aspects of modular swarm robots, such as self-reconfigurability, self-replication, and self-assembly. The key factors in designing and building a group of swarm robots are cost and miniaturization with robustness, flexibility, and scalability. In robotics intelligence, self-assembly and self-reconfigurability are among the most important characteristics as they can add additional capabilities and functionality to swarm robots. Simulation and model design for swarm robotics is highly complex and expensive, especially when attempting to model the behavior of large swarm robot groups.

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UB robot swarm — Design, implementation, and power management

Patil

Abukhalil

Patel

et al. 2016

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Abstract-In this paper we describe the hardware architecture of an inexpensive, heterogeneous robot swarm, designed and developed at the RISC lab, University of Bridgeport. Each swarm robot is equipped with sensors, actuators, control and communication units, power supply, and interconnection mechanism. This article also describes the essential features and design of a power distribution and management system for a dynamically reconfigurable system. It further presents the empirical results of the proposed power management system collected with the real robotic applications.

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Coordinating a heterogeneous robot swarm using Robot Utility-based Task Assignment (RUTA)

Abukhalil

Patil

Patel

et al. 2016

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Hardware Architecture Review of Swarm Robotics System: Self-Reconfigurability, Self-Reassembly, and Self-Replication

2013

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Survey on Decentralized Modular Robots and Control Platforms

Abukhalil

Sobh

Patil

2014

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Madhav Patil

Hardware Architecture Review of Swarm Robotics System: Self Reconfigurability, Self Reassembly and Self Replication

UB robot swarm — Design, implementation, and power management

Coordinating a heterogeneous robot swarm using Robot Utility-based Task Assignment (RUTA)

Hardware Architecture Review of Swarm Robotics System: Self-Reconfigurability, Self-Reassembly, and Self-Replication

Survey on Decentralized Modular Robots and Control Platforms

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