Supplementary Material: Design of Edge-controlled Multisensor Autonomous Robotic Pathfinder with Active Quadrupedal-wheel Drive Suspension System

Citation Author(s):
Mbadiwe
Benyeogor
Fachbereich Physik, Westfälische Wilhelms-Universität Münster, Germany
Kosisochukwu
Nnoli
Jacobs University, 28759 Bremen, Germany
Oladayo
Olakanmi
Dept. of Electrical and Electronics Engineering, University of Ibadan, Nigeria
Eric
Gratton
Robotic Process Automation Division, Arvin Instruments Nigeria Limited (RC - 1839472), Ibadan, Nigeria
Olusegun
Lawal
Advanced Aerospace Engine Laboratory, National Space Research and Development Agency, Abuja, Nigeria
Sopuruchukwu
Okoli
Fachbereich 1 - Physik und Elektrotechnik, Universität Bremen, Germany
Submitted by:
Kosisochukwu Nnoli
Last updated:
Sun, 07/17/2022 - 17:09
DOI:
10.21227/84t8-ja73
Data Format:
*.jpg; *.txt; *.docx; *.zip; *.pdf
License:
Creative Commons Attribution
265 Views
Categories:
Standards Research Data
Keywords:
Active Suspension, Autonomous Robots, Data Fusion, Edge Computing, Exit Path, pathfinding, radar
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Abstract 

This paper introduces an edge-controlled autonomous robot with a gyro-stabilized active suspension system in form of a hybrid quadrupedal wheel drive mechanism, capable of detecting free pathways with an angular resolution of 1 degree and steering the robot in that direction. This features the computer-aided prototyping of the robot as a complete multisensory mechatronic system. Also, several algorithmic models were used in developing the robot’s software, which includes suspension control and pathfinding algorithms. Hence, the concept in this paper is to serve as a miniature model for robotizing off-road vehicles for various applications.

 

Instructions: 

This is a supplementary material for the Paper titled, Design of Edge-controlled Multisensor Autonomous Robotic Pathfinder with Active Quadrupedal-wheel Drive Suspension System. This material encapsulates the mechanical design part of the multisensor robot.

Funding Agency: 
None

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