Curriculum
The curriculum of the Diploma in Civil Engineering program at Government Polytechnic Diglipur Andamans is designed to provide a comprehensive and progressive learning experience. It spans four years and includes core courses, departmental electives, science electives, and laboratory sessions. The program structure is carefully planned to ensure that students build a strong foundation in engineering principles before moving on to advanced specializations.
| Semester | Course Code | Course Title | Credit (L-T-P-C) | Pre-requisites |
|---|---|---|---|---|
| 1 | CE-101 | Engineering Mathematics I | 3-1-0-4 | None |
| 1 | CE-102 | Engineering Physics | 3-1-0-4 | None |
| 1 | CE-103 | Engineering Chemistry | 3-1-0-4 | None |
| 1 | CE-104 | Basic Electrical Engineering | 3-1-0-4 | None |
| 1 | CE-105 | Basic Electronics Engineering | 3-1-0-4 | None |
| 1 | CE-106 | Workshop Practice | 0-0-2-2 | None |
| 2 | CE-201 | Engineering Mathematics II | 3-1-0-4 | CE-101 |
| 2 | CE-202 | Engineering Mechanics | 3-1-0-4 | None |
| 2 | CE-203 | Strength of Materials | 3-1-0-4 | CE-102 |
| 2 | CE-204 | Surveying | 3-1-0-4 | None |
| 2 | CE-205 | Building Materials | 3-1-0-4 | None |
| 2 | CE-206 | Workshop Practice II | 0-0-2-2 | CE-106 |
| 3 | CE-301 | Structural Analysis | 3-1-0-4 | CE-203 |
| 3 | CE-302 | Fluid Mechanics | 3-1-0-4 | CE-201 |
| 3 | CE-303 | Geotechnical Engineering | 3-1-0-4 | CE-203 |
| 3 | CE-304 | Transportation Engineering | 3-1-0-4 | CE-204 |
| 3 | CE-305 | Environmental Engineering | 3-1-0-4 | CE-202 |
| 3 | CE-306 | Construction Technology | 3-1-0-4 | CE-205 |
| 4 | CE-401 | Design of Steel Structures | 3-1-0-4 | CE-301 |
| 4 | CE-402 | Design of Concrete Structures | 3-1-0-4 | CE-301 |
| 4 | CE-403 | Hydraulic Engineering | 3-1-0-4 | CE-302 |
| 4 | CE-404 | Project Planning & Management | 3-1-0-4 | CE-304 |
| 4 | CE-405 | Construction Management | 3-1-0-4 | CE-306 |
| 4 | CE-406 | Capstone Project | 0-0-6-6 | CE-301, CE-302, CE-303, CE-304, CE-305, CE-306 |
Advanced departmental elective courses play a crucial role in the program's curriculum. These courses provide students with specialized knowledge and skills in specific areas of civil engineering. For example, the course Advanced Structural Design focuses on the design of complex structures, including high-rise buildings and bridges. Students learn about structural analysis, load distribution, and design optimization using advanced software tools.
The course Seismic Analysis is designed to teach students how to analyze and design structures to withstand earthquake forces. The course covers topics such as seismic waves, soil-structure interaction, and building codes for seismic design. Students also engage in hands-on laboratory sessions where they simulate earthquake conditions and analyze structural responses.
The Transportation Engineering course delves into the planning, design, and operation of transportation systems. Students learn about traffic flow theory, highway design, and urban transportation planning. The course also includes practical sessions on traffic simulation software and real-world case studies of transportation projects.
Another advanced elective is Environmental Impact Assessment, which teaches students how to evaluate the environmental consequences of civil engineering projects. The course covers topics such as environmental regulations, impact mitigation strategies, and sustainability practices. Students also work on real-world projects to assess the environmental impact of proposed infrastructure.
The Construction Management course provides students with knowledge of project planning, scheduling, and resource allocation. Students learn about construction methods, cost estimation, and risk management. The course includes case studies of successful construction projects and hands-on sessions on project management software.
The Geotechnical Engineering course focuses on the behavior of soil and rock in engineering applications. Students study foundation design, slope stability, and ground improvement techniques. The course includes laboratory sessions on soil testing and analysis, as well as field visits to construction sites.
The Water Resources Engineering course covers the management and utilization of water resources. Students learn about hydrology, water supply systems, and flood control. The course includes practical sessions on water quality testing and water resource modeling.
The Smart Infrastructure course introduces students to the use of technology in infrastructure development. Students learn about sensors, automation, and data analytics in infrastructure projects. The course includes hands-on sessions on smart building systems and urban planning technologies.
The Sustainable Construction course focuses on eco-friendly construction practices and materials. Students learn about green building standards, energy efficiency, and waste reduction in construction. The course includes laboratory sessions on sustainable materials and field visits to green building projects.
The Urban Planning and Development course covers the planning and development of urban areas. Students learn about zoning laws, housing planning, and sustainable urban development. The course includes case studies of successful urban planning projects and hands-on sessions on urban design software.
The Infrastructure Finance course teaches students about the financial aspects of infrastructure projects. Students learn about project financing, cost-benefit analysis, and public-private partnerships. The course includes case studies of infrastructure financing and practical sessions on financial modeling.
The department's philosophy on project-based learning is centered on the belief that students learn best when they are actively engaged in solving real-world problems. The program incorporates project-based learning throughout the curriculum, starting from the first year with small-scale projects and progressing to complex capstone projects in the final year.
Mini-projects are assigned in the second and third years, allowing students to apply their theoretical knowledge to practical scenarios. These projects are evaluated based on design quality, innovation, and presentation skills. Students are encouraged to work in teams and collaborate with industry partners to ensure that their projects meet real-world standards.
The final-year capstone project is a comprehensive project that integrates all the knowledge and skills acquired during the program. Students work on a significant engineering problem, often in collaboration with industry partners or research institutions. The project is supervised by faculty members and evaluated based on technical merit, innovation, and impact.
Students select their projects based on their interests and career goals, with guidance from faculty mentors. The selection process involves a proposal submission, where students present their project idea and methodology. Faculty mentors are assigned based on the project topic and the expertise of the mentors.