Software Advances using n-agents Wireless Communication Integration for Optimization of Surrounding Recognition and Robotic Group Dead Reckoning

Nowadays artificial intelligence and swarm robotics become wide spread and take their approach in civil tasks. The main purpose of the article is to show the influence of common knowledge about surroundings sharing in the robotic group navigation problem by implementing the data transferring within...

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Bibliographic Details
Published inProgramming and computer software Vol. 45; no. 8; pp. 557 - 569
Main Authors Ivanov, M., Sergiyenko, O., Tyrsa, V., Lindner, L., Rodriguez-Quiñonez, J. C., Flores-Fuentes, W., Rivas-Lopez, M., Hernández-Balbuena, D., Nieto Hipólito, J. I.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.12.2019
Springer Nature B.V
Subjects
Agents (artificial intelligence)
Artificial Intelligence
Communication
Computer Science
Data exchange
Dead reckoning
Lasers
Linguistics
Localization
Navigation
Operating Systems
Path planning
Robot dynamics
Robotics
Robots
Sensors
Software Engineering
Software Engineering/Programming and Operating Systems
Speed control
Trajectories
Triangulation
Vision systems
Wireless communications
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Summary:Nowadays artificial intelligence and swarm robotics become wide spread and take their approach in civil tasks. The main purpose of the article is to show the influence of common knowledge about surroundings sharing in the robotic group navigation problem by implementing the data transferring within the group. Methodology provided in article reviews a set of tasks implementation of which improves the results of robotic group navigation. The main questions for the research are the problems of robotics vision, path planning, data storing and data exchange. Article describes the structure of real-time laser technical vision system as the main environment-sensing tool for robots. The vision system uses dynamic triangulation principle. Article provides examples of obtained data, distance-based methods for resolution and speed control. According to the data obtained by provided vision system were decided to use matrix-based approach for robots path planning, it inflows the tasks of surroundings discretization, and trajectory approximation. Two network structure types for data transferring are compared. Authors are proposing a methodology for dynamic network forming based on leader changing system. For the confirmation of theory were developed an application of robotic group modeling. Obtained results show that common knowledge sharing between robots in-group can significantly decrease individual trajectories length.
ISSN:0361-7688
1608-3261
DOI:10.1134/S0361768819080139