Bachelor of Electrical Engineering Technology (Robotic and Automation Technology) with Honours
Ijazah Sarjana Muda Teknologi Kejuruteraan Elektrik (Teknologi Robotik dan Automasi) dengan Kepujian
This programme is a multi-disciplinary field that is synergistic of electrical, mechanical, electronic, control and computer engineering discipline which enables its graduates having good theoretical and practical-oriented knowledge of integrated mechatronic systems to cater for the needs in the robotics and automation industry. The curriculum of the programme is designed to produced graduate professionals who equipped with analytical skills and ability to work in all multidisciplinary engineering fields and industries. In addition to a solid foundation in mechatronics concepts, Engineering Technology Degree students learn the most current relevant topics for today’s advanced technologies. Additionally, the learning environment will be more enjoyable and competitive with good mixture between local and international students.
There is a consistent demand for highly skilled electrical engineer in private and government sector especially in maintenance, operation and electrical services. Career prospect for our graduates are very promising. Among the fields that may be ventured into by the graduates are but not limited to:
1
Vehicle Making and Installation Firms
2
Home Making Appliances Firms
3
Electronic Product Firms
4
Plant Food Processors
5
Oil and Gas Companies
6
High-Tech Firms
7
Consultant Firms
8
Engineering and Product Development Firms
9
Automation System Firms
10
Bio-Medical Engineering Firms
11
Software Development Firms
12
Research and Development Firms
13
Hospitals
14
Companies, Maintenance and Repair Firms of Medical Equipment
15
Companies, Marketing and Sale Firms of Medical Equipment
16
Manufacturing Industry of Medical Instrumentation
17
Education and Training (Universities, Polytechnics And Colleges)
This program is designed to provide students with adequate fundamental knowledge and strong skills that will allow the students to work with current and future engineering technologies. Students in this program gain a solid basic education in electrical-electronic design principles and technical electives to provide some degree of specialization in robotic and automation.
CORE COURSES:
Semester 1
- EMK11003: Computer Programming
- EMK10002: Computer Aided Drafting
- EMK11103: Engineering Science
- EMK10103: Engineering Skills I
Semester 2
- EMK11203: Electric Circuit Theory I
- EMK11403: Digital Electronics
- EMK11303: Electronics I
- EMK10203: Engineering Skills II
Semester 3
- EMK21003: Electromagnetic Field Theory
- EMK21203 : Electric Circuit Theory II
- EMK21103: Measurement & Instrumentation
- EMK21303: Electronics II
Semester 4
- EMK21403: Electrical Machines Technology
- EMK21503: Microcontroller System
- EMK21603: Power Electronics
- EMK21703: Communications System
- EMK21803: Signal & Systems
Semester 5
- EMK31003: Drives & Actuators
- EMK31103: Control System Technology
- EMK36003: Industrial Networking
- EMK36103: Mechanics & Machine Design
- EMK30103: Integrated Design Project
- EMK31303: Engineering Technology Management
Semester 6
- EMK30004: Final Year Project I
- EMK31203: Programmable Logic Controller
- EMK36303: Industrial Robotics
- EMK36203: Industrial Automation
- EMK36403: Modern Control
- EMK36503: Robotics Control (Elective)
- EMK36703: Artificial Intelligence (Elective)
Semester 7
- EMK40006: Final Year Project II
- EMK46003: Materials Handling and Identifications (Elective)
- EMK46103: Automated Guided Vehicles (Elective)
- EMK46203: Mechatronics System (Elective)
- EMK46303: Vision Systems (Elective)
- EMK41003: Engineering Technologist in Society
Semester 8
- PIT 404: Industrial Training
1
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Click button below for more details on education fees and entry requirements.
The educational objectives of the program are to have students that will achieve the following in their professional career after graduation:
1
Engineering technology graduates engaged in the field of electrical engineering technology as demonstrated through career advancement.
2
Engineering technology graduates who are members and contribute to professional society.
3
Engineering technology graduates embracing in life-long learning or pursuing continuing education opportunities.
4
Engineering technology graduates who are techno-preneurs
The program outcomes are applicable to Bachelor Of Electrical Engineering Technology (Hons.) (Robotic and Automation Technology). The student outcomes are the following learned capabilities:
1
Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialisation to defined and applied engineering procedures, processes, systems or methodologies.
2
Identify, formulate, research literature and analyse broadly-defined engineering problems reaching substantiated conclusions using analytical tools appropriate to their discipline or area of specialisation.
3
Design solutions for broadly-defined engineering technology problems and contribute to the design of systems, components or processes to meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations.
4
Conduct investigations of broadly-defined problems; locate, search and select relevant data from codes, data-bases and literature, design and conduct experiments to provide valid conclusions.
5
Select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to broadly-defined engineering problems, with an understanding of the limitations.
6
Demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to engineering technology practice and solutions to broadly-defined engineering problems.
7
Understand the impact of engineering technology solutions of broadly-defined engineering problems in societal and environmental context and demonstrate knowledge of and need for sustainable development.
8
Understand and commit to professional ethics and responsibilities and norms of engineering technology practice.
9
Function effectively as an individual, and as a member or leader in diverse technical teams.
10
Communicate effectively on broadly defined engineering activities with the engineering community and with society at large, by being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
11
Demonstrate knowledge and understanding of engineering management principles and apply these to one’s own work, as a member and leader in a team and to manage projects in multidisciplinary environments.
12
Recognize the need for, and have the ability to engage in independent and life-long learning in specialist technologies.
Quick Points
Campus:
Kampus UniCITI Alam, Padang Besar
Programme Code:
RY32 (intake 2013 – 2019)
UR6523006 (intake 2020 - current)
Specialisation
Robotics and Automation
Study Level:
Undergraduate
Intake:
July
Duration:
4 Years
This programme is a multi-disciplinary field that is synergistic of electrical, mechanical, electronic, control and computer engineering discipline which enables its graduates having good theoretical and practical-oriented knowledge of integrated mechatronic systems to cater for the needs in the robotics and automation industry. The curriculum of the programme is designed to produced graduate professionals who equipped with analytical skills and ability to work in all multidisciplinary engineering fields and industries. In addition to a solid foundation in mechatronics concepts, Engineering Technology Degree students learn the most current relevant topics for today’s advanced technologies. Additionally, the learning environment will be more enjoyable and competitive with good mixture between local and international students.
Career Path
There is a consistent demand for highly skilled electrical engineer in private and government sector especially in maintenance, operation and electrical services. Career prospect for our graduates are very promising. Among the fields that may be ventured into by the graduates are but not limited to:
1
Vehicle Making and Installation Firms
2
Home Making Appliances Firms
3
Electronic Product Firms
4
Plant Food Processors
5
Oil and Gas Companies
6
High-Tech Firms
7
Consultant Firms
8
Engineering and Product Development Firms
9
Automation System Firms
10
Bio-Medical Engineering Firms
11
Software Development Firms
12
Research and Development Firms
13
Hospitals
14
Companies, Maintenance and Repair Firms of Medical Equipment
15
Companies, Marketing and Sale Firms of Medical Equipment
16
Manufacturing Industry of Medical Instrumentation
17
Education and Training (Universities, Polytechnics And Colleges)
Subject
This program is designed to provide students with adequate fundamental knowledge and strong skills that will allow the students to work with current and future engineering technologies. Students in this program gain a solid basic education in electrical-electronic design principles and technical electives to provide some degree of specialization in robotic and automation.
CORE COURSES:
Semester 1
- EMK11003: Computer Programming
- EMK10002: Computer Aided Drafting
- EMK11103: Engineering Science
- EMK10103: Engineering Skills I
Semester 2
- EMK11203: Electric Circuit Theory I
- EMK11403: Digital Electronics
- EMK11303: Electronics I
- EMK10203: Engineering Skills II
Semester 3
- EMK21003: Electromagnetic Field Theory
- EMK21203 : Electric Circuit Theory II
- EMK21103: Measurement & Instrumentation
- EMK21303: Electronics II
Semester 4
- EMK21403: Electrical Machines Technology
- EMK21503: Microcontroller System
- EMK21603: Power Electronics
- EMK21703: Communications System
- EMK21803: Signal & Systems
Semester 5
- EMK31003: Drives & Actuators
- EMK31103: Control System Technology
- EMK36003: Industrial Networking
- EMK36103: Mechanics & Machine Design
- EMK30103: Integrated Design Project
- EMK31303: Engineering Technology Management
Semester 6
- EMK30004: Final Year Project I
- EMK31203: Programmable Logic Controller
- EMK36303: Industrial Robotics
- EMK36203: Industrial Automation
- EMK36403: Modern Control
- EMK36503: Robotics Control (Elective)
- EMK36703: Artificial Intelligence (Elective)
Semester 7
- EMK40006: Final Year Project II
- EMK46003: Materials Handling and Identifications (Elective)
- EMK46103: Automated Guided Vehicles (Elective)
- EMK46203: Mechatronics System (Elective)
- EMK46303: Vision Systems (Elective)
- EMK41003: Engineering Technologist in Society
Semester 8
- PIT 404: Industrial Training
1
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Fees / Entry Requirement
Click button below for more details on education fees and entry requirements.
Programme Objectives (PEO)
The educational objectives of the program are to have students that will achieve the following in their professional career after graduation:
1
Engineering technology graduates engaged in the field of electrical engineering technology as demonstrated through career advancement.
2
Engineering technology graduates who are members and contribute to professional society.
3
Engineering technology graduates embracing in life-long learning or pursuing continuing education opportunities.
4
Engineering technology graduates who are techno-preneurs
Programme Outcome (PO)
The program outcomes are applicable to Bachelor Of Electrical Engineering Technology (Hons.) (Robotic and Automation Technology). The student outcomes are the following learned capabilities:
1
Apply knowledge of mathematics, science, engineering fundamentals and an engineering specialisation to defined and applied engineering procedures, processes, systems or methodologies.
2
Identify, formulate, research literature and analyse broadly-defined engineering problems reaching substantiated conclusions using analytical tools appropriate to their discipline or area of specialisation.
3
Design solutions for broadly-defined engineering technology problems and contribute to the design of systems, components or processes to meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations.
4
Conduct investigations of broadly-defined problems; locate, search and select relevant data from codes, data-bases and literature, design and conduct experiments to provide valid conclusions.
5
Select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to broadly-defined engineering problems, with an understanding of the limitations.
6
Demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to engineering technology practice and solutions to broadly-defined engineering problems.
7
Understand the impact of engineering technology solutions of broadly-defined engineering problems in societal and environmental context and demonstrate knowledge of and need for sustainable development.
8
Understand and commit to professional ethics and responsibilities and norms of engineering technology practice.
9
Function effectively as an individual, and as a member or leader in diverse technical teams.
10
Communicate effectively on broadly defined engineering activities with the engineering community and with society at large, by being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
11
Demonstrate knowledge and understanding of engineering management principles and apply these to one’s own work, as a member and leader in a team and to manage projects in multidisciplinary environments.
12
Recognize the need for, and have the ability to engage in independent and life-long learning in specialist technologies.
