Bachelor's Degree in Engineering in Malaysia

Compare Bachelor Programs in Engineering in Malaysia 2017

Engineering

A bachelor's degree is given to students who fulfill the necessary requirements given by the college or university they are attending. The requirements include three to seven years of focus on a subject, typically referred to as a major or concentration.

Students of a Bachelor’s degree in Engineering will study the general concepts of engineering. This will allow them to choose a degree of their preference in order to specialize. The program is aimed at students who are not sure of what engineering degree they want to study.

If you need the best study environment in Asia, enroll to the tertiary education in Malaysia. This is a country with rich culture and vast activities to leave you entertained and relaxed as you study in the country

Top Bachelor Programs in Engineering in Malaysia 2017

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Bachelor of Electrical and Electronics Engineering

Universiti Putra Malaysia
Campus Full time 8 semesters January 2017 Malaysia Selangor

The Department of Electrical and Electronic Engineering was established in 1996 and has grown rapidly since then. [+]

Best Bachelors in Engineering in Malaysia 2017. The Department of Electrical and Electronic Engineering was established in 1996 and has grown rapidly since then. The bachelor program offered has obtained accreditation from the Engineering Accreditation Council (EAC) Malaysia. The bachelor program prepares the students for work in all major Electrical and Electronic Engineering fields including Electrical Power Engineering, Control Engineering and Microelectronic Engineering. The department also offers programs at Masters and PhD level (with thesis) in various research fields. The research program in the Department of Electrical and Electronic is growing rapidly where research projects are funded by various public and private agencies. The department has more than 100 post graduate students coming from various countries who are pursuing their MSc and PhD studies. Many of the research findings have been patented and have gained national and international awards. [-]

Bachelor of Civil Engineering

Universiti Putra Malaysia
Campus Full time 4 semesters January 2017 Malaysia Selangor

The Department of Civil Engineering was established in 1985, after the Faculty of Agricultural Engineering began to take in undergraduate students for the Bachelor of Engineering (Civil) programme in 1984. [+]

The Department of Civil Engineering was established in 1985, after the Faculty of Agricultural Engineering began to take in undergraduate students for the Bachelor of Engineering (Civil) programme in 1984. Since then the Department has progressed tremendously in the three core services: teaching, research and professional services. The Department has achieved a lot so far and will continue to strive for more in the future for the benefit of the country and society. The Department of Civil Engineering is equipped with 10 laboratories for teaching and research purposes. The laboratories are: 1. Construction Materials 2. Structure 3. Public Health 4. Highway 5. Traffic 6. Geomechanics 7. Geological Engineering 8. Geomatics 9. Hidraulics 10. Civil Engineering Design [-]

BEng in Engineering with Foundation (full-time)

University of Bolton
Campus Full time 4 years

The course is designed to meet the academic requirements leading to Incorporated Engineer (IEng) status and we are seeking academic accreditation from the Institution of Engineering and Technology (IET). Our tutors are experienced professionals and academics who will deliver industry-standard training and education in a friendly and supportive learning environment, along with having excellent industry contacts and links with employers... [+]

Best Bachelors in Engineering in Malaysia 2017. Engineering with Foundation - BEng (Hons) full-time The course is designed to meet the academic requirements leading to Incorporated Engineer (IEng) status and we are seeking academic accreditation from the Institution of Engineering and Technology (IET). Our tutors are experienced professionals and academics who will deliver industry-standard training and education in a friendly and supportive learning environment, along with having excellent industry contacts and links with employers. About the course The Foundation Year is the first year of the course and offers a transitional period of study for those students who do not have the necessary qualifications for direct entry on to the main engineering degree courses. The foundation year is an integral part of many of our four-year engineering-based courses; it will provide you with an excellent grounding in the fundamentals of science and mathematics and prepare you for degree level study. On successful completion of the foundation year you will be able to progress to degree-level study on the following courses (subject to your performance): BEng (Hons) Automotive Performance Engineering BEng (Hons) Civil Engineering BEng (Hons) Engineering BEng (Hons) Mechanical Engineering BSc (Hons) Motorsport Technology BSc (Hons) Architectural Technology BSc (Hons) Building Surveying & Property Management BSc (Hons) Construction Management BSc (Hons) Quantity Surveying & Commercial Management. During your foundation year you will study the key engineering subjects, including Foundation Mathematics, Foundation Mechanics, Electrical & Electronic Principles, Thermal & Environmental Studies, Communications with Information Technology and Engineering Systems & Investigations. International students will have the option to study the English language. In addition to learning about the theories and principles of engineering, you will have the opportunity to develop valuable practical and investigative experience in our specialist engineering laboratories. Special features On the BEng (Hons) Foundation Year: Extensive hands-on work – structures, electronics, mechanisms, electrical machines – to encourage practical investigation of systems; parallel underpinning theory classes which provide background to the practical sessions; high contact hours (84 per module) to enhance the academic and support services we offer to our students at this level. On the BEng (Hons) years 1,2 &3 : Open access and skills development in quality CAD, Analysis, Optimisation, CAM and CAE software. The Project is recognised and supported through grants by Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council. Project-based learning (PBL) at every stage, either in groups or as individuals, linked to ePDP. Group and individual project opportunities include: - The IMechE Design Challenge for Undergraduate Engineers is built into the 1st yr Projects & Systems module – this is a ‘design and make’ competition against other universities in the North West The British Model Flying Association’s University Challenge – another annual challenge, at national level for BEng students. Design, build and fly a large model aircraft. Their will be various activities for this challenge into every year of the programme, including Indoor Gliders (1st Yr), Indoor Electric r/c Aircraft (2nd Yr), Final Competition Aircraft (3rd Yr). Individual and group industrial ‘live’ projects and industrial visits. What you will learn The course will provide you with the necessary background knowledge and skills required to successfully study engineering and technology-related disciplines at degree level. You will also develop transferable skills such as communication, IT, team-working, organisation, time management and problem solving. These skills will be invaluable to you later in your studies and after you graduate, helping you to succeed in your chosen career. What you will study Foundation Year (Level 0): Foundation Mathematics 1; Foundation Mechanics; Electrical and Electronic Principles; Thermal and Environmental Studies; Engineering Principles; Engineering Systems and Investigations; English Language (international students only). Level 1: Engineering Principles 1 / 2; Analytical and Computational Methods; Engineering Environment; Graphical Communications and Computer Modelling; Projects and Systems. Level 2: Engineering Applications; Engineering Modelling and Analysis; Engineering Systems; Engineering Design Technology; Group Project. Level 3: Individual Project; Life Cycle Management; Management and Enterprise in Engineering; Computer Aided Analysis and Simulation; Computer Aided Manufacture. Entry requirements 120 UCAS points from least one A2-level (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including mathematics and science. Applications from students with alternative Level 3 qualifications (e.g. City & Guilds) are welcomed. An interview may be used to assess your suitability or entry point onto the programme. If English is not your first language you will also normally need IELTS 5.5 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]

Bachelor - Engineering

INTI International University & Colleges, Malaysia
Campus Full time January 2017 Malaysia Kuala Lumpur

At the heart of engineering are science and creativity. At INTI, we provide you with the building blocks you need to make a difference in the world and engineer a far better future. [+]

Engineering has played a pivotal role in human civilisation. From man’s first wheel to the latest surgical tools, it has shaped the world as we know it today. Engineers are involved in understanding how and why things work, and innovating to create new technologies. Today, engineering is central to a broad range of industries, from fashion and food, to game consoles and space travel. At the heart of engineering are science and creativity. At INTI, we provide you with the building blocks you need to make a difference in the world and engineer a far better future. EQUIPPED FOR SUCCESS World-class partners Obtain real industry experience and thorough understanding of practical engineering via structured internships with many MNCs and leading players such as Gamuda, Megasteel, Ricoh and TopRank. State-of-the-art facilities Enjoy complete access to one of the largest numbers of engineering laboratories and workshops in Malaysia. Gather data, experiment and conduct all other practical engineering exercises with ease. International collaborations Reap the advantages of having esteemed UK and Australian collaborators. Among our partners are University of Leeds, University of Adelaide, University of Queensland, University of New South Wales and Australian National University. Partnership with the University of Bradford INTI is proud to be one of the very few institutions awarded with the ‘Associate Institution’ status by the University of Bradford, UK. BEYOND THE CLASSROOM STUDY TOURS We regularly organise visits to leading corporations, where our Engineering students can further acquaint themselves with the disciplines and demands of real work environments. INTI students have visited industry giants such as Sharp Manufacturing Corporation (M) Sdn Bhd, one of the world’s top manufacturers of LCD / LED TVs and AUO SunPower Sdn Bhd, a global leader in TFT-LCD and solar technology. INDUSTRY COMPETITIONS One way to put knowledge into practice is to enter national competitions such as the Nehemiah Design Competition, which required participants to solve Kampung Baru’s flood woes using green technology. INTI students won second place with their structurally sound and aesthetically pleasing solution. DISTINGUISHED SPEAKERS Gain greater global awareness and industry insights by attending the talks and lectures presented by our guest speakers here at INTI. One of our invited speakers was Professor Dr. Nowshad Amin of the Department of Electrical Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM), who spoke on solar photovoltaic energy. Programmes Offered 3+0 Bachelor of Engineering (Hons) in Electrical and Electronic Engineering in collaboration with Coventry University, UK Bachelor of Engineering (Hons) in Civil Engineering Bachelor of Engineering (Hons) in Mechanical Engineering BSc (Hons) Quantity Surveying Diploma in Civil Engineering Diploma in Electrical & Electronic Engineering Diploma in Mechanical Engineering Diploma in Quantity Surveying Foundation in Science [-]

American Degree Transfer Program (AUP)

INTI International University & Colleges, Malaysia
Campus Full time 2 - 4 years January 2017 Malaysia Kuala Lumpur

The most established American Degree Transfer Program in Malaysia, and is fully accredited by the Malaysian Qualification Agency (MQA) and the Ministry of Higher Education (MOHE). Students can transfer to over 300 Universities in US and Canada. [+]

Bachelor - American University Program

America is home to some of the world’s top brands and influential companies. Our American University Program can set you on the path to success by giving you the right qualification and skills to adapt and excel in the land of opportunities.

 

You will be nurtured to adjust to the American education system and mentored with skills to live abroad in the US. Our curriculum features a dynamic and interactive learning environment that encourages you to expand your mind and be more out-spoken and curious. We aim to develop well-rounded critical thinkers who are articulate, confident and will graduate a leader in their chosen field.... [-]


Bachelor of Manufacturing Engineering (Manufacturing Process)

Universiti Teknikal Malaysia Melaka UTeM
Campus Full time January 2017 Malaysia Melaka

The program is intended to fulfill the government’s aspiration to produce multi-skilled graduates in the field of science and technology. In this program, students will be educated with mathematical principles, engineering science and manufacturing technology. [+]

Bachelor of Manufacturing Engineering (Manufacturing Process) was the first program offered in November 2001 together with the setting up of the Department of Manufacturing Process. The program is intended to fulfill the government’s aspiration to produce multi-skilled graduates in the field of science and technology. In this program, students will be educated with mathematical principles, engineering science and manufacturing technology. Students will be exposed to various engineering metallic & non-metallic material processing techniques. Graduates from this program are expected to have strong engineering background and skills required to build their career as Process Engineers, Production Engineers, Manufacturing Engineers, Sales Engineers, Machine Tool Designers and Manufacturing Engineering Consultants. [-]

Bachelor of Electronics Engineering (Hons)

Infrastructure University Kuala Lumpur
Campus Full time 4 years March 2017 Malaysia Kajang

Electronics engineering is a rapidly growing field. The programme is enhanced with hands-on experience and industrial placement with established industries. The electronics engineering programme is designed to prepare you for a career anywhere in the world. [+]

Best Bachelors in Engineering in Malaysia 2017. Electronics engineering is a rapidly growing field. The programme is enhanced with hands-on experience and industrial placement with established industries. The electronics engineering programme is designed to prepare you for a career anywhere in the world. Electronics industry being a labour intensive industry provides many job opportunities for skilled job seekers. Increased production and demand by government and businesses for communication equipment, computers and military electronics along with consumer demand and increased research and development of robots and other types of automation contribute to the growth of employment opportunities in this field. Programme Educational Objectives (PEO) To produce graduates with sufficient knowledge and competency in various areas in civil engineering; To produce graduates with professional attributes, and readily adaptable to the global work environment; To produce graduates for work in the development of infrastructure. Graduates of this programme are expected to demonstrate the following abilities ability to acquire and apply knowledge of mathematics, science and civil engineering fundamentals to the solution of complex engineering problems; ability to critically identify, formulate, research literature and analyse complex engineering problems based on first principles of engineering knowledge; ability to design solutions for systems, components or processes for complex engineering problems; ability to conduct research and investigation into complex problems to provide valid conclusions; ability to create, select and apply contemporary skills, tools and techniques in complex civil engineering activities; ability to assess and apply social, health, safety, legal and cultural responsibilities relevant to professional engineering practice; ability to understand the impact of professional engineering solutions in societal and environmental contexts and demonstrate knowledge of and need for sustainable development; ability to acquire and commit professional and ethical responsibilities to the norms of engineering practice; ability to communicate effectively on complex engineering activities with the engineering activities with the engineering community and with society at large; ability to function effectively as an individual or a member or a leader in diverse teams of multi-disciplinary settings to achieve common goals; ability to engage in independent and life-long learning consistent with technological change; and ability to apply engineering and management principles, business acumen and prepared to embark in entrepreneurship; Modules Year 1 BahasaKebangsaan A/B (National Language A/B), Circuit Theory, Circuit Theory Lab, Co-curriculum 1, Co-curriculum 2, Electrical Power System, Engineering Drawing & CAD, Engineering Electronics 2 Lab, Engineering Electronics 1, Engineering Electronics 1 Lab, Engineering Electronics 2, Engineering Mathematics 2, Engineering Mathematics 1, Logic Systems, Logic Systems Lab, Pengajian Islam / Pendidikan Moral (Islamic Studies / Moral Studies) Year 2 Circuit and Signals, Communications Engineering, Computer Programming For Engineer, Control Systems Design, Control Systems Lab, Electromagnetic Field and Waves, Measurement and Instrumentation, Microelectronics, Microelectronics Lab, Microprocessor System, Microprocessors System Lab, Numerical Methods, Semiconductor Devices, Technical and Professional Communication Year 3 Basic Entrepreneurship, Computer Networks, Computer Organization & Architecture, Digital Communications, Digital Systems, Digital Systems Lab, Economics for Engineers, Fabrication Technology, Practical Training, Robotic & Automations, VLSI Design, VLSI Design Lab Year 4 Advanced IC Design, Advanced IC Design Lab, Digital Signal Processing, Engineers and Society, Pengajian Malaysia (Malaysian Studies), Thesis 1, Thesis 2, Technical Electives : - Wireless Networks, - Telecommunication Networks, - Artificial Intelligence, - Power electronics, - Material Engineering Fee Structure MALAYSIAN STUDENTS Tuition Fees RM62,980.00 Deposit (Refundable) RM250.00 Insurance RM70.00/year Other Fees Library RM120.00/Sem or RM60.00/Short Sem Student Club RM60.00/Sem or RM30.00/Short Sem Total Fees (Approximate) RM65,300.00 INTERNATIONAL STUDENTS Tuition Fees RM64,320.00 Caution Fee (Refundable) RM1,500.00 International Student Administrative Fee RM4,000.00 Medical Insurance RM500.00/year Visa Processing RM360.00/year Medical Examination RM250.00/year Other Fees Library RM120.00/Sem or RM60.00/Short Sem Student Club RM60.00/Sem or RM30.00/Short Sem Total Fees (Approximate) RM75,000.00 Entry Requirements STPM Minimum 2 Principal Passes (C)(including Mathematics and Physics subject) A-Level Minimum 2 Principal Passes (D) (including Mathematics and Physics) UEC Minimum 5Bs (including Mathematics and Physics subject) Diploma / HND Minimum CGPA of 2.00 Foundation/Matriculation Minimum CGPA of 2.00 SAM/HSC/AUSMAT TER/UAI: average of 65% or higher in 5 subjects (including Mathematics and Physics) CPU/CIMP Average of 60% or higher in 6 subjects (including Mathematics and a Physical Science subject) IB Minimum 26/42 points from 6 subjects Other Qualifications As recognised by the Senate of IUKL as equivalent to STPM UEC: United Examination Certificate HND: Higher National Diploma SAM: South Australian Matriculation HSC: Higher School Certificate AUSMAT: Australian Matriculation CPU: Canadian Pre-University CIMP: Canadian International Matriculation Programme IB: International Baccalaureate Diploma STPM: Sijil Tinggi Persekolahan Malaysia SPM: Sijil Peperiksaan Malaysia [-]

Bachelor of Computer and Co​mmunication Engineering (Hons)

​Universiti Tenaga Nasional (UNITEN)
Campus Full time 4 years February 2017 Malaysia Selangor

The Department of Electronics and Communication Engineering is now offering a new course called Bachelor of Computer and Communication Engineering (Hons.). It is an engineering degree similar to our other sought after core engineering degrees. This course will set one to embark on a career in the ever dynamic telecommunication industry as well as power industry which converges with the telecommunication industry in materializing "the SMARTGRID". [+]

The Department of Electronics and Communication Engineering is now offering a new course called Bachelor of Computer and Communication Engineering (Hons.). It is an engineering degree similar to our other sought after core engineering degrees. This course will set one to embark on a career in the ever dynamic telecommunication industry as well as power industry which converges with the telecommunication industry in materializing "the SMARTGRID". Please apply online or walk in. If you're from SPM you need to do Foundation in Electrical and Electronics Engineering first for one year. If from STPM or Diploma you can go direct to the BCCE program. The BCCE programme coalesces the fundamentals of electronics, hardware, software and communication engineering to cater for the rapid convergence among all these technologies. By building a strong foundation in mathematics, electrical and electronics, and computing in the early part of the studies, students are then exposed to topics in computer engineering which later enable them to appreciate and understand the challenges in communication engineering. Together with lectures, tutorials and seminar, the programme includes a significant amount of practical laboratory work which develops the students practical design / development skills required by the high-tech companies in the computer and communication industries. The programme is conducted in a full-time, semester basis spanning eight (8) semesters which is equivalent to 4 calendar years. During these times, students follow a series of courses (totally 127 credit hours), inclusive of a Capstone Design Project, an industrial internship and a Final Year Project. The internship takes up one short semester. Program Structure The programme is operated on a semester basis and consists of eight (8) semesters during which students follow a series of modules (127 credits), inclusive of a capstone project (3 credits) and a Final Year Project. The internship takes up one short semester. Lectures will be conducted using latest advances in teaching methods and electronic resources. Career Prospect With the increased demand in the computer and communication sectors, it is envisaged that many of the BCCE graduates will be able to pursue a wide range of careers such as design engineers, project engineers, network engineers, maintenance/operation engineers, consulting engineers, instrumentation & control engineers, electronic system engineers, communication engineers, research/test engineers or academicians. Uniten achieved an over 82% of employability rate for the year 2011 this means more than 82% of the graduates of Uniten managed to secure a job within 6 months after graduation. Academic Advice Each student will be assigned an adviser who will assist the student in his/her academic studies. This includes advice on plan of study such as the selection of courses for the coming semester as well as the student's academic perfomance. The assigned College advisers are available throughout the academic year for consultation and advice. [-]

Bachelor of Mechanical Engineering (Hons)

​Universiti Tenaga Nasional (UNITEN)
Campus Full time 4 years February 2017 Malaysia Selangor

This course is certified by the Malaysian Qualifications Agency. [+]

Best Bachelors in Engineering in Malaysia 2017. This course is certified by the Malaysian Qualifications Agency. Students may opt to attempt more credit hours per semester in order to complete the course earlier. Core Courses : Student has to obtain a CGPA of not less than 2.00 *Note: The 127 credit hours are for those enrolling in the program starting Semester 1 2011-2012 intake onwards. Prior to this intake, students need to complete 124 credit hours which includes MEMB483 Capstone Design and MEMB343 Mechanical Vibration Courses ( Academic Circular No 3 2011 BME Capstone Design And Vibration. ). Students with 124 credit hours still have to follow the old course structure. Requirements for International Students To enter the undergraduate programmes, students need to obtain good Sijil Pelajaran Malaysia (SPM) or equivalent qualifications such as the British General Certificate of Education (GCE) Ordinary (O) or Advanced (A) Levels, the International Baccalaureate or others. Students with qualifications higher than the minimum requirements may be eligible for credit transfer for some courses taken. Graduates of diploma programmes may be exempted from some of the university's degree programme requirements which will be decided upon on a case-by-case basis. To enrol in the graduate programmes, candidates must possess a good bachelor's degree from an institution of higher learning recognised by Universiti Tenaga Nasional. [-]

Bachelor of Electrical Power Engineering (Hons)

​Universiti Tenaga Nasional (UNITEN)
Campus Full time 4 years February 2017 Malaysia Selangor

UNITEN produces Electrical Power Engineering graduates who: Practicing engineers in electrical engineering with the ability to venture energy related business, Hold leadership responsibilities and/or establish their own enterprises, Have professional qualifications/certifications in electrical engineering related areas, Engages in activities to enhance knowledge in their professional works. [+]

Program Educational Objectives (PEOs) UNITEN produces Electrical Power Engineering graduates who: PEO 1 Practicing engineers in electrical engineering with the ability to venture energy related business. PEO 2 Hold leadership responsibilities and/or establish their own enterprises. PEO 3 Have professional qualifications/certifications in electrical engineering related areas. PEO 4 Engages in activities to enhance knowledge in their professional works. Program Outcomes (POs) Students graduating from the Bachelor of Electrical Power Engineering programmes will have the ability to : PO 1 Apply fundamental knowledge of mathematics, science and electrical engineering principles in solving complex problems. PO 2 Identify, formulate, analyse and solve complex electrical engineering problems. PO 3 Design solutions for complex electrical engineering problems that meet specific needs with appropriate consideration for public health and safety, culture, society, and environment. PO 4 Conduct investigations, interpret data and provide conclusions in investigating complex problems related to electrical engineering. PO 5 Create appropriate techniques, select resources, and apply modern engineering tools to execute complex engineering activities. PO 6 Apply reasoning in assessing societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice. PO 7 Demonstrate knowledge of the impact of professional engineering solutions in environmental contexts and the need for sustainable development. PO 8 Demonstrate commitment to professional and ethical principles. PO 9 Communicate effectively on complex engineering activities. PO 10 Function effectively as an individual and in a group with the capacity to be a leader. PO 11 Acknowledge the need for, and be able to engage in life-long learning. PO 12 Demonstrate knowledge on project management principles and entrepreneurship skills. [-]

Bachelor of Electrical and Electronic​s Engineering (Hons)

​Universiti Tenaga Nasional (UNITEN)
Campus Full time 4 years February 2017 Malaysia Selangor

The PEOs are supported by having a programme structure which has a balance distribution of core engineering and elective courses, related non-engineering courses, adequate exposure to laboratory work and professional engineering practice. The BEEE programme is a 4-year or 8-semesters programme, with total of 127 credit hours. [+]

Best Bachelors in Engineering in Malaysia 2017. The Programme Educational Objective (PEO) for Bachelor of Electrical & Electronics Engineering (BEEE) programme is primarily established based on UNITEN's mission and vision. The PEOs are supported by having a programme structure which has a balance distribution of core engineering and elective courses, related non-engineering courses, adequate exposure to laboratory work and professional engineering practice. The BEEE programme is a 4-year or 8-semesters programme, with total of 127 credit hours. The BEEE programme is mainly delivered through taught courses, laboratory work, final year project, industrial training, exposure to professional practice and design project. The courses include such topic as circuit analysis, electronics analysis & design, digital logic design, microprocessors systems, signals & system, electrical machines & drives, digital signal processing and communication systems. During the final year, the students are free to choose several topics from technical electives, to specialize in areas of their interest. Laboratory courses are designed to help students to understand theories learned during the lectures as well as to develop competence in executing experimental works and instrumentation skills. There are five lab courses, namely Electrical/Electronic Measurement Lab, Electronics Design Lab, Digital Logic Design Lab, Micro Processor Lab and Communication Systems Lab. The industrial training module exposes students to actual engineering practice in the industries and gives the opportunity to students to appreciate the various aspects of engineering issues. The final year project introduces the students to research culture and reinforces the aspect of life-long learning. Through Capstone Design course, the students are also exposed to develop solutions for complex electrical engineering problems that meet specific needs with appropriate consideration for public health and safety, culture, society, environment, sustainability and entrepreneurship principles. This course also provides an opportunity for students with multi-disciplinary engineering background to collaborate with industrial partners and faculty members in managing the project and providing the optimal solution. Entry Requirements​ Degrees Universiti Tenaga Nasional Foundation Programme STPM, Matriculation, A-levels or equivalent Matriculation or diploma from recognized institutions or other equivalent qualifications at the diploma-granting institutions and availability of places at Universiti Tenaga Nasional. Have taken the MUET Foundation in Engineering Passed the SPM examination with at least credits in Bahasa Melayu and English. Candidates must also have good credits in four (4) other relevant subjects. The four are Mathematics, Additional Mathematics, Physics and Chemistry. **These are minimum requirements but only the best candidates will be offered places. Career Prospect Graduates are able to pursues a wide range of careers such as maintenance/operation engineer, design engineer, project engineer, consulting engineer, instrumentation & control engineer, electrical/electronic system engineer, manufacturing engineer, communication engineer, research/test engineer or academician. [-]

Bachelor of Civil En​gineering (Hons)

​Universiti Tenaga Nasional (UNITEN)
Campus Full time 4 years February 2017 Malaysia Selangor

The Department of Civil Engineering offers a full-time undergraduate programme leading to the award of Bachelor of Civil Engineering (Honours) which is designed to prepare students to become Civil Engineers who are able to plan, design, construct and maintain civil engineering facilities such as buildings, bridges, foundation, highways, water supply systems, sewerage schemes and other form of infrastructure. The program is also designed to provide students with the educational base to progress to Professional Engineer status as well as to undertake Master of Civil Engineering and Doctor of Philosophy from UNITEN and other reputable institutions of higher learning. [+]

The Department of Civil Engineering offers a full-time undergraduate programme leading to the award of Bachelor of Civil Engineering (Honours) which is designed to prepare students to become Civil Engineers who are able to plan, design, construct and maintain civil engineering facilities such as buildings, bridges, foundation, highways, water supply systems, sewerage schemes and other form of infrastructure. The program is also designed to provide students with the educational base to progress to Professional Engineer status as well as to undertake Master of Civil Engineering and Doctor of Philosophy from UNITEN and other reputable institutions of higher learning. The Bachelor of Civil Engineering (Honours) is a 4-year programme where undergraduate students will study courses in civil engineering in the following areas: Structural Engineering Geotechnical Engineering Transportation & Highway Engineering Water Engineering Environmental Engineering Project Management and Construction In addition to the above, undergraduate students will also study other technical courses such as Engineering Surveying, Engineering Geology, Computer Programming, Engineers in Society and Computer Aided Design and Drafting Technology. The use of computer applications and software is integrated throughout the program. Students will also study English and Malay languages, technical communication, moral/religious studies and humanities in order to produce engineers who are technically competent with strong commitment to ethics and professionalism and able to communicate effectively which are all essential for students to build successful career. Undergraduate students will undertake a capstone design project in their final year. It is a team design project applying engineering and project management principles for a multidisciplinary design which would involve an integration of all aspects of Civil Engineering namely Environmental, Geotechnical, Water Supply, Sewerage, Structural, Transportation and Project Management, with the design process from conceptual and preliminary design to final design for construction purposes. It requires that each student demonstrate the ability to complete a significant engineering design using the knowledge gained as an undergraduate in the Civil Engineering program. Undergraduate students will undergo industrial training at the end of the third year where students will be exposed to the various aspects of industrial practices and ethics and to acquire knowledge and skills of practical nature which are needed for their professional development. Students are also required to undertake research activities in their final year. The Final Year Project courses provide opportunities for students to acquire knowledge through research activities and to apply this knowledge to real life problems. The Department of Civil Engineering has a total of ten (10) undergraduate laboratories which are: Civil Engineering Materials Structural Engineering Soil Mechanics Geotechnical Engineering Engineering Geology Highway Engineering Transportation Engineering Hydrology and Hydraulic Engineering Environmental Engineering Engineering Surveying The Department of Civil Engineering is in an active ​phase of growth and development. The upcoming year will be an exciting one with strategic plans and potential future paths for continued excellence for sta​ff and students alike.​ [-]

B. Eng. (Hons) in Mechatronic Engineering

MAHSA UNIVERSITY
Campus Full time 4 years January 2017 Malaysia Kuala Lumpur

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. [+]

Best Bachelors in Engineering in Malaysia 2017. The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. In line with this the curriculums have been designed to incorporate the required objectives and outcomes. OBJECTIVES OF THE ENGINEERING PROGRAMMES Graduates are able to apply the broaden and in-depth knowledge of Engineering to analyse the practical problems and think creatively to generate innovative solutions using appropriate technologies. Graduates are able to adapt to different roles and responsibilities and demonstrate leaderships in solving emerging engineering problems within the organization and society at national and international levels. Graduates sustain intellectual curiosity and know how to continue to learn not only in areas that are relevant to Engineering, but also that are important to society ENGINEERING PROGRAMME OUTCOMES Ability to apply knowledge of mathematics, science, and engineering fundamentals to engineering problems. Ability to identify and formulate engineering problems and solve by applying basic engineering principles Ability to identify and apply appropriate tools and techniques for engineering practical applications. Ability to apply research based knowledge for analyzing complex engineering problems. Ability to design solutions for complex engineering problems. Ability to prepare reports and communicate effectively and professionally through effective presentations. Ability to follow current good practices of engineering for sustainable development. Ability to demonstrate safety, health, social, cultural and environmental responsibilities relevant to professional engineering practices. Ability to execute the responsibilities of an Engineer professionally and ethically. Ability to function and manage effectively as an individual or in a team. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Entry Requirements Bachelors (Hons) Degree Programme Good principal passes at STPM level in Mathematics and Physical Sciences and 4 credits at SPM; or Good passes at ‘A’ Levels in Mathematics and Physical Sciences and 4 grade C passes at ‘O’ levels / GCE; or The MAHSA Foundation or equivalent; or A qualification that MAHSA accepts as equivalent to the above Direct Entry to Year 2 of the Degree Students with Diploma or Higher National Diploma in Engineering from any college Successful completion of studies in another recognized institute with academic credits equivalent to Year 1 of an Honours degree (Subject to the approval of the MAHSA Academic Board) INTAKES January April July October Career Prospects Engineering is central to an exciting range of businesses and industries, including space, construction, transport, cosmetics, medicine, food, fashion and much more. With engineering, you can follow your interests – if you like sport, you can work as an engineer improving the performance of new tennis rackets. Engineers work in offices, laboratories, film studios, in the outdoors and underground. Engineering today is closely linked with technology, and plays a major role in many technological advances and new device production. You might be reading this on your phone, and that will be thanks to engineers. As an engineer you could be designing colour-matching technology to determine the best make-up for different skin tones or working as part of a team to improve the performance of artificial hip joints. Mechatronics is a new approach to precision engineering, electronic control and information systems, in order to make ‘intelligent’ machine systems ranging from iPods, DVD and CD players, robots and digital cameras, to fully automated factories and manufacturing processes, and smart buildings. It involves the integration of mechanical engineering with electronics and intelligent computer control in the design and manufacture of products and processes. Mechatronic engineers are also involved in the new field of bio mechatronics, concerned with the development of systems for human augmentation and rehabilitation. Examples of these systems include intelligent artificial legs that mimic the person’s good leg and exoskeleton suits that enhance the wearer’s strength and stamina. [-]

B. Eng. (Hons) in Electronics and Communication Engineering

MAHSA UNIVERSITY
Campus Full time 4 years January 2017 Malaysia Kuala Lumpur

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. [+]

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. In line with this the curriculums have been designed to incorporate the required objectives and outcomes. OBJECTIVES OF THE ENGINEERING PROGRAMMES Graduates are able to apply the broaden and in-depth knowledge of Engineering to analyse the practical problems and think creatively to generate innovative solutions using appropriate technologies. Graduates are able to adapt to different roles and responsibilities and demonstrate leaderships in solving emerging engineering problems within the organization and society at national and international levels. Graduates sustain intellectual curiosity and know how to continue to learn not only in areas that are relevant to Engineering, but also that are important to society ENGINEERING PROGRAMME OUTCOMES Ability to apply knowledge of mathematics, science, and engineering fundamentals to engineering problems. Ability to identify and formulate engineering problems and solve by applying basic engineering principles Ability to identify and apply appropriate tools and techniques for engineering practical applications. Ability to apply research based knowledge for analyzing complex engineering problems. Ability to design solutions for complex engineering problems. Ability to prepare reports and communicate effectively and professionally through effective presentations. Ability to follow current good practices of engineering for sustainable development. Ability to demonstrate safety, health, social, cultural and environmental responsibilities relevant to professional engineering practices. Ability to execute the responsibilities of an Engineer professionally and ethically. Ability to function and manage effectively as an individual or in a team. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Entry Requirements Bachelors (Hons) Degree Programme Good principal passes at STPM level in Mathematics and Physical Sciences and 4 credits at SPM; or Good passes at ‘A’ Levels in Mathematics and Physical Sciences and 4 grade C passes at ‘O’ levels / GCE; or The MAHSA Foundation or equivalent; or A qualification that MAHSA accepts as equivalent to the above Direct Entry to Year 2 of the Degree Students with Diploma or Higher National Diploma in Engineering from any college Successful completion of studies in another recognized institute with academic credits equivalent to Year 1 of an Honours degree (Subject to the approval of the MAHSA Academic Board) INTAKES January April July October Career Prospects Engineering is central to an exciting range of businesses and industries, including space, construction, transport, cosmetics, medicine, food, fashion and much more. With engineering, you can follow your interests – if you like sport, you can work as an engineer improving the performance of new tennis rackets. Engineers work in offices, laboratories, film studios, in the outdoors and underground. Engineering today is closely linked with technology, and plays a major role in many technological advances and new device production. You might be reading this on your phone, and that will be thanks to engineers. As an engineer you could be designing colour-matching technology to determine the best make-up for different skin tones or working as part of a team to improve the performance of artificial hip joints. All the technological changes to modern communications, from blogging to pod-casting, video streaming and SMS messaging, are all possible because of the work of telecommunications engineers in providing the methods to transmit and receive data. The transmission of data is changing the way we live and this makes telecoms such an exciting, challenging, and constantly evolving area to work in. People are moving from communications used in a fixed environment, to communications on the move, wherever they are. Engineers must meet the constant challenges of customer demand, but also stay one step ahead to predict and produce new technology that will compete in the marketplace. Telecommunications engineers plan, design, implement and monitor communication systems and services. They work with microprocessor and computer systems, optics and fibre optic cabling, transmission and switching technologies, radio communications and signal processing. This area also deals with the collection and processing of remotely sensed data from satellite, aircraft and ship radars, and it links in with biomedical engineering on development areas such as speech synthesis and recognition systems. [-]

B.Eng. (Hons) in Electronic Engineering (Automotive)

MAHSA UNIVERSITY
Campus Full time 4 years January 2017 Malaysia Kuala Lumpur

The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. [+]

Best Bachelors in Engineering in Malaysia 2017. The above programmes are designed as per the requirements of the Board of Engineers Malaysia and strictly follows the guidelines according to their Engineering Accreditation Manual. The major requirements are the Programme Educational Objectives and the Programme Outcomes. In line with this the curriculums have been designed to incorporate the required objectives and outcomes. OBJECTIVES OF THE ENGINEERING PROGRAMMES Graduates are able to apply the broaden and in-depth knowledge of Engineering to analyse the practical problems and think creatively to generate innovative solutions using appropriate technologies. Graduates are able to adapt to different roles and responsibilities and demonstrate leaderships in solving emerging engineering problems within the organization and society at national and international levels. Graduates sustain intellectual curiosity and know how to continue to learn not only in areas that are relevant to Engineering, but also that are important to society ENGINEERING PROGRAMME OUTCOMES Ability to apply knowledge of mathematics, science, and engineering fundamentals to engineering problems. Ability to identify and formulate engineering problems and solve by applying basic engineering principles Ability to identify and apply appropriate tools and techniques for engineering practical applications. Ability to apply research based knowledge for analyzing complex engineering problems. Ability to design solutions for complex engineering problems. Ability to prepare reports and communicate effectively and professionally through effective presentations. Ability to follow current good practices of engineering for sustainable development. Ability to demonstrate safety, health, social, cultural and environmental responsibilities relevant to professional engineering practices. Ability to execute the responsibilities of an Engineer professionally and ethically. Ability to function and manage effectively as an individual or in a team. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Ability to recognise the need and be able to involve in independent and life-long learning according to technological changes. Entry Requirements Bachelors (Hons) Degree Programme Good principal passes at STPM level in Mathematics and Physical Sciences and 4 credits at SPM; or Good passes at ‘A’ Levels in Mathematics and Physical Sciences and 4 grade C passes at ‘O’ levels / GCE; or The MAHSA Foundation or equivalent; or A qualification that MAHSA accepts as equivalent to the above Direct Entry to Year 2 of the Degree Students with Diploma or Higher National Diploma in Engineering from any college Successful completion of studies in another recognized institute with academic credits equivalent to Year 1 of an Honours degree (Subject to the approval of the MAHSA Academic Board) INTAKES January April July October Career Prospects Engineering is central to an exciting range of businesses and industries, including space, construction, transport, cosmetics, medicine, food, fashion and much more. With engineering, you can follow your interests – if you like sport, you can work as an engineer improving the performance of new tennis rackets. Engineers work in offices, laboratories, film studios, in the outdoors and underground. Engineering today is closely linked with technology, and plays a major role in many technological advances and new device production. You might be reading this on your phone, and that will be thanks to engineers. As an engineer you could be designing colour-matching technology to determine the best make-up for different skin tones or working as part of a team to improve the performance of artificial hip joints. Automotive engineers are involved in the design, manufacture and operation of ground-based vehicles, such as motorcycles, automobiles, buses and trucks and their respective engineering subsystems. They are involved in the whole product design lifecycle from the initial concept through to delivery, but generally work in one of three main areas: design; research and development; production. Automotive engineers need to have a combination of engineering and commercial skills in order to deliver projects within budget. Once established, they usually specialise in a particular area, for example structural design, exhaust systems or engines. [-]