Master of Business Administration in Aviation
Embry-Riddle Aeronautical University, Asia, Singapore, is a premier institution renowne...
Bachelor of Science in Engineering
Singapore
INTAKE: Jan, April, July & Oct
Program Overview
The Bachelor of Science in Engineering at ERAU Asia is designed to build strong foundations in engineering principles while integrating real-world applications from the aerospace and aviation industries. The program emphasizes hands-on learning, analytical thinking, and multidisciplinary problem-solving. Students gain exposure to advanced engineering concepts such as flight mechanics, materials science, propulsion systems, electronics, and systems engineering.
Curriculum: The curriculum combines theoretical coursework with practical laboratory work, project-based assignments, and engineering design challenges. Students begin with fundamental subjects such as mathematics, physics, computer programming, and introductory engineering concepts. As they progress, they explore more specialized topics including thermodynamics, fluid mechanics, aerodynamics, structural analysis, and avionics systems. A signature feature of the curriculum is the capstone engineering project, where students collaborate on designing, building, and testing a functional engineering solution often related to aerospace, robotics, or sustainability. The curriculum also integrates professional skills such as technical communication, project management, and ethical engineering practices.
Research Focus: ERAU Asia encourages a research-driven culture that empowers students to engage in innovative engineering projects aligned with emerging industry needs. Research areas often include unmanned aerial systems (UAS), smart materials, energy efficiency, human factors engineering, and automation technologies. Students work closely with faculty mentors to contribute to ongoing applied research, participate in international competitions, and explore opportunities to publish or present their work. The university’s global network further enables collaborative research with academic and industry partners across the United States, Europe, and Asia-Pacific.
Industry Engagement: A key strength of ERAU Asia is its strong connection with the aerospace and aviation sectors, as well as Singapore’s advanced engineering ecosystem. The university regularly partners with airlines, aerospace manufacturers, engineering firms, and government agencies for internships, industrial visits, collaborative projects, and guest lectures.
Students gain direct exposure to real-world engineering challenges, allowing them to understand industry expectations and develop career-ready competencies. Internship opportunities in Singapore’s vibrant aerospace hub provide practical experience and networking opportunities that significantly enhance employability after graduation.
Global Perspective: As a branch campus of a renowned U.S. university, ERAU Asia integrates a truly global approach into its teaching and learning philosophy. Students benefit from international faculty, multicultural classrooms, and opportunities to participate in overseas programs or transfer pathways to Embry-Riddle campuses in the United States. The global perspective embedded in the curriculum prepares graduates for international careers in engineering, aviation, and technology. Students develop cross-cultural communication skills, global awareness, and the adaptability required to succeed in multinational environments.
Location
Singapore
Score
IELTS 6
Tuition Fee
SGD 22447
Undergraduate Entry Requirements
Application Fee: SGD 75
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 50% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- DET: Overall score of 105 or higher.
Embry-Riddle Aeronautical University – Asia (ERAU Asia) in Singapore offers a range of scholarship opportunities specifically designed to support international students. These scholarships aim to recognize academic excellence, leadership potential, and commitment to the aviation and aerospace fields, making quality education more accessible to students from around the world.
Merit-Based Scholarships: ERAU Asia provides merit-based scholarships to international students who demonstrate outstanding academic performance in their previous studies. These scholarships typically consider high school results for undergraduate applicants and prior academic achievements for graduate students. Recipients may receive partial tuition waivers or financial support for specific programs.
Leadership and Achievement Scholarships: Scholarships are also available for students who have demonstrated exceptional leadership skills, extracurricular achievements, or significant contributions to community or aviation-related projects. These awards encourage international students to actively participate in campus life and develop professional and personal skills.
Graduates from the Bachelor of Science in Engineering program at Embry-Riddle Aeronautical University, Asia, have strong career prospects in aerospace, aviation, manufacturing, and advanced engineering sectors. With practical training and global industry exposure, they are well-prepared for opportunities in Singapore and worldwide.
Aerospace Engineer: Aerospace engineers contribute to the design, development, testing, and continuous improvement of aircraft and spacecraft. Their responsibilities often include evaluating aerodynamics, analyzing propulsion systems, testing structural integrity, and implementing sustainable engineering solutions. They work closely with manufacturers, research institutions, and aviation authorities to enhance flight efficiency, reduce environmental impact, and develop next-generation aerospace technologies.
Systems Engineer: Systems engineers play a key role in coordinating the integration of mechanical, electronic, and digital components within complex engineering systems. They evaluate system performance, troubleshoot operational challenges, and ensure that all subsystems function harmoniously. This career path is highly relevant in aviation systems, defense technologies, smart robotics, air-traffic systems, and large-scale engineering projects that require strong analytical and organizational skills.
Mechanical Engineer: Mechanical engineers design, refine, and optimize machines, engines, and mechanical structures used across robotics, aerospace manufacturing, renewable energy, and industrial automation. Their work involves creating detailed engineering models, running simulations, conducting stress and performance tests, and improving product functionality. This role provides opportunities in both traditional engineering sectors and emerging industries focused on innovation and sustainability.
Avionics Engineer: Avionics engineers specialize in the sophisticated electronic systems that keep aircraft operational and safe. This includes work on navigation systems, automation systems, communication networks, surveillance equipment, and flight-control technologies. These engineers contribute significantly to the development of smart aviation solutions, including modern cockpit systems, unmanned aerial vehicles (UAVs), and digital aircraft innovations.
Aircraft Engineering Support Roles: Engineering support professionals assist with aircraft maintenance operations by providing technical assessments, analyzing performance data, and resolving complex mechanical or electronic issues. They work closely with maintenance crews, safety teams, and regulatory bodies to ensure aircraft meet rigorous safety and operational standards. This role is essential for maintaining fleet reliability and supporting airline engineering operations.
Robotics and Automation Engineer: Robotics and automation engineers design intelligent robotic systems, automated machinery, and autonomous vehicles that support modern manufacturing and aerospace activities. They develop robotic controls, integrate sensors, test automated processes, and implement smart factory solutions. As industries adopt automation at a rapid pace, this role continues to grow in demand across aerospace, logistics, manufacturing, and technology companies.
Research and Development Engineer: R&D engineers focus on exploring new technologies and engineering methods that push the boundaries of current capabilities. Their work may involve experimenting with advanced materials, improving propulsion systems, developing energy-efficient solutions, or creating prototypes for futuristic mobility concepts. This career is ideal for those who enjoy innovation, problem-solving, and contributing to engineering advancements that shape the future of aviation and technology.
Quality and Reliability Engineer: Quality and reliability engineers ensure engineering products, components, and systems meet strict performance, safety, and durability standards. They develop testing procedures, perform root-cause analysis, review manufacturing processes, and implement quality-control improvements. Their work is essential in aerospace production lines, precision engineering facilities, and high-tech industries where reliability is critical.
Manufacturing Engineer: Manufacturing engineers optimize production systems by improving efficiency, automation, and workflow accuracy. They design manufacturing processes, evaluate production lines, apply lean engineering methods, and integrate modern technologies such as robotics and additive manufacturing. Their expertise supports industries such as aircraft component manufacturing, electronics production, and advanced industrial engineering.
Technical Consultant / Engineering Project Coordinator: Technical consultants and project coordinators support engineering teams by managing documentation, coordinating project schedules, conducting technical research, and liaising with clients and stakeholders. They serve as a bridge between engineering knowledge and managerial functions, helping organizations plan, execute, and deliver engineering projects effectively. This role suits graduates with strong analytical abilities, communication skills, and an interest in both technology and project management.
