Study Mechatronic Engineering Degree at the Best Private Universities in Malaysia
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Mechatronic engineering is the combination of mechanical, electrical & electronic, robotics and computing. A Mechatronic Engineer designs smart machines that are aware of their surroundings and can make decisions. It is a new branch of the engineering field with very good job prospects.
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Get a First Rate Mechatronic Engineering Education at Top Private Universities in Malaysia
Students can consider studying Mechatronics Engineering at private universities that are recognised by the Malaysian Ministry of Education. Their courses are accredited by MQA and the Board of Engineers Malaysia (BEM). Choose universities that are established in offering engineering programmes in Malaysia with years of experience.
What is Mechtronics Engineering?
Mechatronics is the efficient and effective integration of mechanical systems, IT and electronics. It is a blend of mechanics and electronics, and uses the following:
- precision engineering
- control theory
- computer science
- sensor technology, to design enhanced or “smart” products, processes and systems.
Mechatronics is the combination of Mechanical, Electronic and Electrical Engineering for the design, manufacture and maintenance of systems that use microprocessors and actuators to control mechanical processes.
The key element is the integration of these different areas into the design process from start to finish. Mechatronics engineers understand how to do this and enable the intelligent operation of mechanical systems. It also involves installing, operating and modifying mechanical and electronic equipment and in areas like manufacturing, aviation, robotics and defense.
Mechatronics engineers also have roles in project engineering where their cross disciplinary knowledge gives them an edge on mechanical or electrical engineers. Mechatronics engineers can work with electrical and mechanical systems together and solve problems that cross discipline boundaries. Their strength in IT, computer hardware and networking as well as software also helps them to be very versatile problem solvers.
Mechatronic systems are almost everywhere you look. For example, it can be applied to the automotive industry in the increasing combination of the mechanical part of the engine with electronics and artificial intelligence.
Another example is the Mars Rover that NASA built to send to planet Mars for research gathering purposes. The Mars Rover was the product of several years of research and development to ensure engineers on earth could effectively control the Rover on the unpredictable terrain of the planet Mars.
It had to be able to negotiate any terrain encountered as well as perform fine motions to grab and sample rock and soil – much like expecting a rugby union prop to also be an accomplished ballet dancer! Of course that call occurred after a brilliant and novel Mars landing strategy was developed.
Another Example: The anti-lock braking system
Cars need brakes. Cars have always had brakes. But the design of brakes has been improved over time, making them better, more responsive and safer. Now, thanks to modern sensing, actuation, computing and control technologies, braking systems are more amazing than ever before. Using technology to adjust the braking system in a split second has meant brakes are more responsive and deliver the greatest coefficient of friction possible.
It may sound a bit far-fetched but Mechatronic engineers create smart machines that are aware of their surroundings and can make decisions. These smart machines are complex beings made up of several parts: the mechanical system itself, the sensing and actuation, the control systems and the software. The opportunities available to develop such intelligent machines are ever evolving.
The future is virtually unlimited for mechatronics, and much of it is here today. Robotic systems and components are already as small as a few microns and researchers are investigating nano-technologies using mechatronic systems for implantation into the human body to repair or replace damaged physiological functions.
The next two decades will see an explosion of automated mechatronic systems infiltrating our lives more and more every year – improving our quality of life and our knowledge of the world and universe we live in. Offices, homes, factories, and more are becoming more and more mechanised to be efficient.
What do Mechatronics Engineers work as in Malaysia?
control of diverse systems used in a range of industries including manufacturing, medicine and the service industries. Examples of mechatronic systems include aircraft, dishwashers, motor vehicles, automated manufacturing plants, medical and surgical devices and systems, robots of all types, many toys, artificial organs and many others.
There is an increasing demand for engineering graduates who are able to work in an interdisciplinary environment. Mechatronics Engineering is a new discipline that is combines electronics, control, software, computer and mechanical engineering.
Modern mechatronics is about the integration of electronics with mechanical design to create intelligent systems. From fuzzy logic controlled washing machines to space exploration, mechatronics and robotic systems are at the forefront of technological developments.
The word ‘mechatronics’ might still not be recognised by some dictionaries even today, but it has been in use for quite a while now. It first surfaced in Japan in the 1980s and represents the discipline of engineering that is associated with robots and automation. Without a doubt, the engineers who choose this field do share an interest in building robots that are able to perform a variety of functions, for one purpose or another.
Mechatronics engineers are therefore involved in almost every possible industry at levels from applications development to manufacturing to advanced research. Some of the products of mechatronic engineering include everyday gadgets like cameras, printers, washing machines and automatic doors. Others include parts of the car and airplane, robotic arm, etc.
Graduates with a Mechatronics degree can take up careers in a wide range of industries including robotics, aerospace, chemical, defence and automotive and manufacturing where complex software plays a major role, as well as in businesses that require extensive computer support, such as banking and commerce.
Contributions can be made to these industries in a variety of roles including design engineer, software engineer, project planner, product designer and project manager.
What will you study in Mechatronics Engineering?
Mechatronics students will find a full project application with hardware and software a piece of cake, but will not be able to give in-depth analysis of the mechanical dynamics/software structure unless they specifically work towards it.
Mechatronic students take courses from across the various fields listed below:
- Mechanical engineering and materials science subjects
- Electronic engineering subjects
- Computer engineering subjects
- Computer science subjects
- Systems and control engineering subjects
- Optomechanics (optical engineering) subjects
- Robotics subjects
Example of subjects at degree level: Electrical Circuits, Computer Programming, Control Systems, Thermodynamics, Kinematics and Dynamics of Machines, Microcomputer Systems and Interfacing, Actuators and Sensors, Digital Control Systems, Robotics and Automation, Mechanical Systems, Microprocessor Systems, Stress Analysis & Design, Instrumentation & Measurements, Electrical Power & Machines, Fluid Power & Drives, etc
What do Mechatronic Engineers do?
In a nutshell, a mechatronic engineer is responsible for combining the elements of mechanical engineering and electronics engineering to design and develop mechatronic products. Elements of electrical engineering and computer science (in the form of software design and software engineering) play a part in the daily work of mechatronic engineers too.
Likewise, a Robotic Arm is a prime example of a mechatronics system because it includes aspects of mechanics, electronics, control and soft-computing to do its day-to-day jobs.
Engineers from different fields of expertise work in teams on projects. For example, in a project, the Electrical & Electronics Engineer will give an in-depth analysis on the Electrical characteristics while the Mechanical engineer focuses on the physical mechanics. The software engineer will provide the software for the machine to function. With knowledge from all areas, the mechatronics engineer will be an ideal project manager.
Here are some things you might be expected to do in your job:
- Develop new solutions to industrial problems using mechanical and electronic processes and computer technology.
- Design and build completely new products by integrating various technologies, for example, developing robotic vehicles for underwater exploration.
- Build and test factory production lines introducing automation to improve existing processes.
- Maintain and improve previous industrial and manufacturing processes and designs, for example, robotic lawn mowers and robot floor cleaners.
- Design, develop, maintain and manage high technology engineering systems for the automation of industrial tasks.
- Apply mechatronic or automated solutions to the transfer of material, components or finished goods.
- Apply advanced control systems, which are usually computer-driven.
- Apply electronic and mechanical processes and computers to tasks where the use of human labour may be dangerous (like underwater exploration, mining or forestry)
- Study the feasibility, cost implications and performance benefits of new mechatronic equipment.
- Carry out modelling, simulation and analysis of complex mechanical, electronic or other engineering systems using computers.
Career Opportunities for Mechatronics Engineering Graduates in Malaysia
The career opportunities for mechatronics engineers in Malaysia is wide and a huge range of applications, from robotics in manufacturing and automation to the automotive, aerospace, medical and leisure and entertainment industries.
With your broad engineering knowledge base, you probably hold technical design and decision-making positions, often overseeing or playing a central role in engineering design teams.
Mechatronic engineers work in companies that require hi-tech input into what they are developing. They may work in a laboratory, a processing plant or an engineering office but are also research opportunities in emerging fields like bioengineering, nanotechnology and robotics.
You will find Mechatronic engineers in large global enterprises developing futuristic vehicles, challenging defence technology and revolutionising consumer products. They may also work in smaller innovative ‘high tech’ companies supplying software, parts and equipment. They could be product developers, work in manufacturing, or mining or defence industries, and in government and industry research groups.
Mechatronic Engineers may be required to travel to present at a conference or view a new design idea or innovative technology.
Mechatronics graduates can work as Systems Engineers, Project Engineers, Industrial Engineers and Control & Instrumentation Engineers within organizations such ABB, Alstom, Dyson, First Solar, GE Intelligent Platforms, Honeywell, Infineon, Intel, Jacobs Engineering, M+W, Petronas, Shell, Siemens, Sunpower, Yokogawa, etc.
Mechatronics – Dyson, Hitachi, Panasonic, Sony, Sime Darby, VS Industry, Bosch, Carsem (M) Sdn. Bhd. (S-Site), , T.A. Furniture Industries Sdn Bhd, Singapore Epson Industrial Pte Ltd., Emerson Process Management Asia Pacific Pte Ltd (Singapore), GLOBALFOUNDRIES Singapore, Cycle & Carriage Industries Pte Ltd (Singapore), Perodua Manufacturing Sdn Bhd, T & T Inspection and Engineering Sdn Bhd, Top Glove Corporation Berhad