Modular Omni-directional AGV Developmental Platform with Integrated Suspension, Power-plant and Control Systems

Macfarlane, Alexander B. S

Title: Modular Omni-directional AGV Developmental Platform with Integrated Suspension, Power-plant and Control Systems
Creator: Macfarlane, Alexander B. S
Subject: Automated guided vehicle systems
Subject: Electric automobiles--Batteries--Design and construction
Date Issued: 2022-12
Date: 2022-12
Type: Master's theses
Type: text
Identifier: http://hdl.handle.net/10948/59500
Identifier: vital:62123
Description: The thesis focuses on the development of an industrial automatic guided vehicle (AGV) with omni-directional capabilities. The omni-directional strategy used was the "swerve drive" system, a system whereby a wheel can be rotated about both its y axis (rolling axis) and z axis (vertical axis). Unlike most commonly used swerve drive systems that have swerve capabilities on each wheel attached to the body of the vehicle, this research seeks to reduce cost by only having swerve capabilities on two diagonal wheels. The remaining two wheels will act as castor units. AC drives are used on the system in place of more traditional DC drives, due to their cost vs capability advantage over DC and their prevalence in the industrial environment. Since an AGV is a mobile platform any power source found on it is usually derived from batteries, a DC source. Usage of DC introduces several limitations including difficulty transforming voltage levels for different systems, inability to run AC drives directly from the power source and comparably larger conduction wires. These limitations were overcome by adding a stand-alone power-plant on the AGV in the form of an inverter. The inverter transformed the DC power supplied by a battery bank from 48 volts DC to 230 volts AC. Thus, the primary focus of this research is on the development and validation of a novel two wheel omni-directional drive system that makes use of inexpensive and readily available components that have already been proven to work in industry.
Description: Thesis (PhD) -- Faculty of Engineering, the Built Environment, and Technology, 2022
Format: computer
Format: online resource
Format: application/pdf
Format: 1 online resource (vi, 1347pages)
Format: pdf
Publisher: Nelson Mandela University
Publisher: Faculty of Engineering, the Built Environment, and Technology
Language: English
Rights: Nelson Mandela University
Rights: All Rights Reserved
Rights: Open Access

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