Comprehensive Course Structure
The engineering curriculum at Scope Global Skills University Bhopal is designed to provide a balanced mix of theoretical knowledge and practical application. The program spans 8 semesters and includes core subjects, departmental electives, science electives, and laboratory courses. This comprehensive structure ensures that students develop both breadth and depth in their engineering education.
| Semester | Course Code | Course Title | Credits (L-T-P-C) | Prerequisites |
|---|---|---|---|---|
| 1 | ENG101 | Engineering Mathematics I | 3-1-0-4 | None |
| 1 | ENG102 | Engineering Physics | 3-1-0-4 | None |
| 1 | ENG103 | Engineering Chemistry | 3-1-0-4 | None |
| 1 | ENG104 | Engineering Graphics | 2-1-0-3 | None |
| 1 | ENG105 | Programming and Problem Solving | 3-0-2-5 | None |
| 1 | ENG106 | Engineering Mechanics | 3-1-0-4 | None |
| 1 | ENG107 | Workshop Practice | 0-0-2-2 | None |
| 2 | ENG201 | Engineering Mathematics II | 3-1-0-4 | ENG101 |
| 2 | ENG202 | Electrical and Electronic Engineering | 3-1-0-4 | ENG102 |
| 2 | ENG203 | Materials Science and Metallurgy | 3-1-0-4 | ENG103 |
| 2 | ENG204 | Engineering Thermodynamics | 3-1-0-4 | ENG106 |
| 2 | ENG205 | Engineering Economics | 3-1-0-4 | ENG101 |
| 2 | ENG206 | Computer Programming | 3-0-2-5 | ENG105 |
| 2 | ENG207 | Engineering Design and Analysis | 3-1-0-4 | ENG106 |
| 3 | ENG301 | Advanced Mathematics | 3-1-0-4 | ENG201 |
| 3 | ENG302 | Control Systems | 3-1-0-4 | ENG202 |
| 3 | ENG303 | Fluid Mechanics | 3-1-0-4 | ENG204 |
| 3 | ENG304 | Manufacturing Processes | 3-1-0-4 | ENG203 |
| 3 | ENG305 | Signals and Systems | 3-1-0-4 | ENG201 |
| 3 | ENG306 | Electronics Devices and Circuits | 3-1-0-4 | ENG202 |
| 3 | ENG307 | Engineering Management | 3-1-0-4 | ENG205 |
| 4 | ENG401 | Probability and Statistics | 3-1-0-4 | ENG301 |
| 4 | ENG402 | Power Systems | 3-1-0-4 | ENG302 |
| 4 | ENG403 | Heat Transfer | 3-1-0-4 | ENG304 |
| 4 | ENG404 | Computer Architecture | 3-1-0-4 | ENG306 |
| 4 | ENG405 | Communication Systems | 3-1-0-4 | ENG305 |
| 4 | ENG406 | Embedded Systems | 3-1-0-4 | ENG306 |
| 4 | ENG407 | Project Management | 3-1-0-4 | ENG307 |
| 5 | ENG501 | Advanced Control Systems | 3-1-0-4 | ENG402 |
| 5 | ENG502 | Advanced Fluid Mechanics | 3-1-0-4 | ENG403 |
| 5 | ENG503 | Advanced Manufacturing | 3-1-0-4 | ENG404 |
| 5 | ENG504 | Advanced Signal Processing | 3-1-0-4 | ENG405 |
| 5 | ENG505 | Advanced Electronics | 3-1-0-4 | ENG406 |
| 5 | ENG506 | Advanced Power Systems | 3-1-0-4 | ENG402 |
| 5 | ENG507 | Research Methodology | 3-1-0-4 | ENG401 |
| 6 | ENG601 | Machine Learning | 3-1-0-4 | ENG504 |
| 6 | ENG602 | Neural Networks | 3-1-0-4 | ENG601 |
| 6 | ENG603 | Advanced Robotics | 3-1-0-4 | ENG503 |
| 6 | ENG604 | Advanced Data Structures | 3-1-0-4 | ENG404 |
| 6 | ENG605 | Advanced Cybersecurity | 3-1-0-4 | ENG505 |
| 6 | ENG606 | Advanced Embedded Systems | 3-1-0-4 | ENG506 |
| 6 | ENG607 | Advanced Project Management | 3-1-0-4 | ENG507 |
| 7 | ENG701 | Capstone Project I | 3-0-2-5 | ENG601 |
| 7 | ENG702 | Capstone Project II | 3-0-2-5 | ENG701 |
| 7 | ENG703 | Industry Internship | 0-0-6-6 | ENG607 |
| 7 | ENG704 | Advanced Thesis Research | 3-0-0-3 | ENG507 |
| 8 | ENG801 | Final Year Project | 3-0-2-5 | ENG702 |
| 8 | ENG802 | Professional Ethics | 3-1-0-4 | ENG704 |
| 8 | ENG803 | Leadership and Innovation | 3-1-0-4 | ENG801 |
| 8 | ENG804 | Entrepreneurship | 3-1-0-4 | ENG801 |
Detailed Course Descriptions
Advanced Mathematics (ENG301) is a comprehensive course that builds upon the foundational mathematics learned in earlier semesters. The course covers topics such as differential equations, vector calculus, and complex analysis. Students will learn to apply mathematical concepts to solve engineering problems in various domains. The course emphasizes both theoretical understanding and practical application, preparing students for advanced engineering coursework.
Control Systems (ENG302) introduces students to the principles of control theory and its applications in engineering systems. The course covers both time-domain and frequency-domain analysis of control systems, including feedback control, stability analysis, and controller design. Students will gain hands-on experience with control system simulation software and will be able to design and analyze control systems for various applications.
Fluid Mechanics (ENG303) explores the behavior of fluids at rest and in motion. The course covers fundamental principles of fluid statics and dynamics, including conservation of mass, momentum, and energy. Students will learn to analyze fluid flow in pipes, open channels, and around bodies. The course also includes practical applications in areas such as hydraulics, aerodynamics, and turbomachinery.
Manufacturing Processes (ENG304) provides an overview of various manufacturing techniques used in modern industry. The course covers traditional manufacturing methods such as casting, machining, and joining, as well as advanced manufacturing technologies such as 3D printing and laser processing. Students will learn about process selection, material properties, and quality control in manufacturing.
Signals and Systems (ENG305) introduces the fundamental concepts of signal processing and system analysis. The course covers both continuous and discrete time signals, convolution, Fourier transforms, and Laplace transforms. Students will learn to analyze and design systems for signal processing applications, including digital filters and communication systems.
Electronics Devices and Circuits (ENG306) provides a comprehensive introduction to electronic devices and circuit analysis. The course covers semiconductor physics, diodes, transistors, and operational amplifiers. Students will learn to design and analyze electronic circuits, including amplifiers, filters, and power supplies. The course also includes laboratory work to reinforce theoretical concepts.
Engineering Management (ENG307) introduces students to the principles of engineering management and project management. The course covers topics such as project planning, resource allocation, risk management, and quality control. Students will learn to apply management principles to engineering projects and will develop skills in leadership and team management.
Probability and Statistics (ENG401) provides a foundation in statistical methods and probability theory. The course covers probability distributions, hypothesis testing, regression analysis, and statistical inference. Students will learn to apply statistical methods to analyze engineering data and make informed decisions based on data analysis.
Power Systems (ENG402) introduces students to the analysis and design of electrical power systems. The course covers power system components, power flow analysis, and stability studies. Students will learn about power system protection, load forecasting, and renewable energy integration. The course includes practical applications in power system design and operation.
Heat Transfer (ENG403) explores the mechanisms of heat transfer including conduction, convection, and radiation. The course covers heat transfer coefficients, thermal resistance, and heat exchanger design. Students will learn to analyze and design heat transfer systems for various applications in engineering.
Computer Architecture (ENG404) provides an in-depth understanding of computer system design and organization. The course covers processor design, memory hierarchy, input/output systems, and parallel processing. Students will learn to design and analyze computer systems and will understand the principles of modern computer architecture.
Communication Systems (ENG405) introduces students to the principles of communication engineering. The course covers analog and digital communication systems, modulation techniques, and noise analysis. Students will learn to design and analyze communication systems for various applications including wireless communication and data networks.
Embedded Systems (ENG406) focuses on the design and implementation of embedded systems. The course covers microcontroller architecture, real-time operating systems, and embedded software development. Students will learn to design embedded systems for various applications including automotive, industrial, and consumer electronics.
Project Management (ENG407) provides students with a comprehensive understanding of project management principles and practices. The course covers project planning, scheduling, budgeting, and risk management. Students will learn to apply project management methodologies to engineering projects and will develop skills in project leadership and team coordination.
Advanced Control Systems (ENG501) builds upon the foundational knowledge of control systems and introduces advanced topics such as state-space representation, optimal control, and robust control. The course covers advanced control design techniques and their applications in complex engineering systems. Students will learn to analyze and design control systems for advanced applications.
Advanced Fluid Mechanics (ENG502) delves deeper into fluid mechanics with advanced topics such as turbulence, boundary layer theory, and computational fluid dynamics. The course covers advanced analysis techniques and their applications in engineering design. Students will learn to model and analyze complex fluid flow problems.
Advanced Manufacturing (ENG503) explores advanced manufacturing technologies and processes. The course covers topics such as advanced materials processing, precision manufacturing, and automation in manufacturing. Students will learn about the latest trends in manufacturing and their applications in industry.
Advanced Signal Processing (ENG504) introduces advanced techniques in signal processing including digital signal processing, filter design, and spectral analysis. The course covers advanced algorithms and their applications in various engineering fields. Students will learn to implement advanced signal processing techniques in practical applications.
Advanced Electronics (ENG505) provides in-depth knowledge of advanced electronic devices and circuits. The course covers topics such as high-frequency circuits, analog integrated circuits, and advanced semiconductor devices. Students will learn to design and analyze advanced electronic systems.
Advanced Power Systems (ENG506) focuses on advanced topics in power systems including renewable energy integration, smart grids, and power system stability. The course covers advanced power system analysis techniques and their applications in modern power systems. Students will learn to design and analyze advanced power systems.
Research Methodology (ENG507) provides students with a comprehensive understanding of research principles and methodologies. The course covers research design, data collection, and analysis techniques. Students will learn to conduct independent research and will develop skills in scientific writing and presentation.
Machine Learning (ENG601) introduces students to the fundamental concepts and techniques of machine learning. The course covers supervised learning, unsupervised learning, and reinforcement learning. Students will learn to implement machine learning algorithms and will understand their applications in various domains.
Neural Networks (ENG602) provides an in-depth understanding of neural network architectures and learning algorithms. The course covers deep learning techniques, convolutional neural networks, and recurrent neural networks. Students will learn to design and train neural networks for various applications.
Advanced Robotics (ENG603) explores advanced topics in robotics including robot kinematics, dynamics, and control. The course covers advanced robotic systems and their applications in various industries. Students will learn to design and implement advanced robotic systems.
Advanced Data Structures (ENG604) provides students with an in-depth understanding of advanced data structures and algorithms. The course covers topics such as graph algorithms, string algorithms, and advanced data structures. Students will learn to implement and analyze complex algorithms for various applications.
Advanced Cybersecurity (ENG605) introduces students to advanced cybersecurity concepts and techniques. The course covers network security, cryptography, and security management. Students will learn to design and implement secure systems and will understand the latest threats and countermeasures.
Advanced Embedded Systems (ENG606) focuses on advanced topics in embedded systems design and implementation. The course covers real-time systems, embedded software engineering, and advanced microcontroller architectures. Students will learn to design and implement advanced embedded systems for various applications.
Advanced Project Management (ENG607) builds upon the foundational knowledge of project management and introduces advanced topics such as portfolio management, program management, and advanced risk management. The course covers advanced project management methodologies and their applications in complex engineering projects. Students will learn to manage large-scale engineering projects.
Project-Based Learning Philosophy
The department's philosophy on project-based learning is rooted in the belief that practical experience is essential for developing competent engineers. The approach emphasizes hands-on learning, collaboration, and real-world problem-solving. Students are encouraged to apply theoretical knowledge to practical situations and to develop innovative solutions to engineering challenges.
Mini-projects are integrated throughout the curriculum and serve as a bridge between theoretical learning and practical application. These projects are designed to be manageable in scope and duration, allowing students to develop specific skills and competencies. Each mini-project is typically completed within a semester and involves working in teams to solve a particular engineering problem.
The final-year thesis/capstone project is a comprehensive endeavor that represents the culmination of the student's engineering education. Students select a research topic or engineering problem that aligns with their interests and career goals. The project involves extensive literature review, experimental design, data collection and analysis, and presentation of findings.
Project selection is a collaborative process between students and faculty members. Students are encouraged to explore topics that interest them and to seek guidance from faculty mentors. The department provides resources and support for project development, including access to laboratory facilities, research funding, and mentorship.
Evaluation criteria for projects are based on multiple factors including technical merit, innovation, presentation quality, and teamwork. Students are assessed on their ability to apply engineering principles, solve problems creatively, and communicate their findings effectively. The evaluation process is designed to provide constructive feedback and to encourage continuous improvement.