Task Allocation and Route Planning for Robotic Service Networks in Indoor Building Environments

This research work aims at multi objective optimization of integrated route planning and multi-robot task allocation for reconfigurable robot teams. Genetic Algorithm based methodology is used to minimize the overall task completion time for all the multi-robot tasks and to minimize the cumulative running time of all the robots. A modified matrix based chromosome is used to accommodate the robot information and task information for route planning integrated task allocation. The experimental validation is done with 3 robots and 4 tasks. For larger number of robots and tasks were simulated to perform route planning for maximum of 20 robots that would attend the maximum of 40 different multi-robot tasks. The results shows that the average task completion time per robot and average travel time per robot, decreases exponentially with increase in number of robots for fixed number of tasks. This method finds its application in allocating a robot teams to tasks and finding the best sequence for robots that work in coordination for material handling in hospital management, warehouse operations, military operations, cleaning tasks etc.

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Task allocation and route planning of multiple UAVs in a marine environment based on an improved particle swarm optimization algorithm

EURASIP Journal on Advances in Signal Processing ◽

10.1186/s13634-021-00804-9 ◽

2021 ◽

Vol 2021 (1) ◽

Author(s):

Ming Yan ◽

Huimin Yuan ◽

Jie Xu ◽

Ying Yu ◽

Libiao Jin

Keyword(s):

Particle Swarm Optimization ◽

Marine Environment ◽

Task Allocation ◽

Particle Swarm ◽

Route Planning ◽

Pso Algorithm ◽

Offshore Platforms ◽

Swarm Optimization ◽

Improved Particle Swarm Optimization ◽

Multiple Uavs

AbstractUnmanned aerial vehicles (UAVs) are considered a promising example of an automatic emergency task in a dynamic marine environment. However, the maritime communication performance between UAVs and offshore platforms has become a severe challenge. Due to the complex marine environment, the task allocation and route planning efficiency of multiple UAVs in an intelligent ocean are not satisfactory. To address these challenges, this paper proposes an intelligent marine task allocation and route planning scheme for multiple UAVs based on improved particle swarm optimization combined with a genetic algorithm (GA-PSO). Based on the simulation of an intelligent marine control system, the traditional particle swarm optimization (PSO) algorithm is improved by introducing partial matching crossover and secondary transposition mutation. The improved GA-PSO is used to solve the random task allocation problem of multiple UAVs and the two-dimensional route planning of a single UAV. The simulation results show that compared with the traditional scheme, the proposed scheme can significantly improve the task allocation efficiency, and the navigation path planned by the proposed scheme is also optimal.

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