Automotive mechatronics and autonomous systems represent a confluence of disciplines—mechanical engineering, electronics, and computer science—that is reshaping vehicle design and operation. Modern ...

Nature Research Intelligence Topics Topic summaries Engineering Control Engineering, Mechatronics and Robotics Simulation, Modelling, and Programming of Mechatronics Systems The field of mechatronics ...

Mechatronics is where mechanical systems, electronic systems, and computer software overlap. Electromechanical and digital control systems, sensors, actuators, computer processors, software, system ...

This course covers the basics of electrical components in a complex mechatronic system including robotic automation; Based upon a physical system, students will learn the basic functions and physical ...

This course covers the fundamentals of Online logic and an introduction to programmable logic controllers (PLCs) in a complex mechatronic system with a focus on the Siemens automation controller and ...

Most engineers are surprised to learn that the term mechatronics isnearly 40 years old. It was first used in1969 by Tetsuro Mori, anengineer at the Yaskawa Company, to describe a system composed ...

As mechanical systems become more complex to design, build and deliver, OEMs and suppliers need to accelerate innovation, drive efficiencies and adopt the factory of the future. This requires a new ...

Like a well-organized soccer team executing a precisely timed play on the field, linear transport systems deliver the coordinated motion manufacturers need for complex assembly tasks. A good example ...

Responding to a growing need for training in automation systems in Canada and globally, Siemens and Simon Fraser University (SFU) have announced that SFU is the first and only training facility for ...

The Aberdeen Group’s January 2008 benchmark report titled “System Design: New Product Development for Mechatronics” cites that the top challenge for companies’ mechatronic product development is the ...