Comprehensive Course Structure
The Logistics program at Itm Skills University Navi Mumbai is structured across eight semesters with a blend of core subjects, departmental electives, science electives, and laboratory components. Each semester carries specific credit structures designed to build upon previous knowledge while introducing advanced concepts.
| Semester | Course Code | Course Title | Credits (L-T-P-C) | Prerequisites |
|---|---|---|---|---|
| 1 | L-101 | Mathematics for Logistics | 3-1-0-4 | None |
| 1 | L-102 | Introduction to Logistics and Supply Chain | 3-0-0-3 | None |
| 1 | L-103 | Computer Programming for Logistics | 2-1-2-5 | None |
| 1 | L-104 | Business Communication and Ethics | 2-0-0-2 | None |
| 1 | L-105 | Statistics for Logistics Applications | 3-1-0-4 | Mathematics for Logistics |
| 2 | L-201 | Transportation Systems Management | 3-1-0-4 | Introduction to Logistics and Supply Chain |
| 2 | L-202 | Inventory Control and Management | 3-1-0-4 | Statistics for Logistics Applications |
| 2 | L-203 | Operations Research in Logistics | 3-1-0-4 | Mathematics for Logistics |
| 2 | L-204 | Warehouse Management Systems | 3-1-0-4 | Introduction to Logistics and Supply Chain |
| 2 | L-205 | Logistics Information Systems | 2-1-2-5 | Computer Programming for Logistics |
| 3 | L-301 | Supply Chain Strategy and Design | 3-1-0-4 | Transportation Systems Management |
| 3 | L-302 | Risk Management in Logistics | 3-1-0-4 | Operations Research in Logistics |
| 3 | L-303 | E-Commerce Logistics and Fulfillment | 3-1-0-4 | Warehouse Management Systems |
| 3 | L-304 | Global Supply Chain Integration | 3-1-0-4 | Supply Chain Strategy and Design |
| 3 | L-305 | Sustainable Logistics Practices | 3-1-0-4 | Risk Management in Logistics |
| 4 | L-401 | Advanced Transportation Planning | 3-1-0-4 | Transportation Systems Management |
| 4 | L-402 | Logistics Data Analytics and Visualization | 3-1-0-4 | Statistics for Logistics Applications |
| 4 | L-403 | Supply Chain Optimization Techniques | 3-1-0-4 | Operations Research in Logistics |
| 4 | L-404 | Logistics Project Management | 3-1-0-4 | Supply Chain Strategy and Design |
| 4 | L-405 | Industry Internship Preparation | 2-0-0-2 | Advanced Transportation Planning |
| 5 | L-501 | Intelligent Transportation Systems | 3-1-0-4 | Transportation Systems Management |
| 5 | L-502 | Blockchain in Supply Chain | 3-1-0-4 | Logistics Information Systems |
| 5 | L-503 | Healthcare Logistics and Medical Supply Chains | 3-1-0-4 | E-Commerce Logistics and Fulfillment |
| 5 | L-504 | International Trade and Customs Procedures | 3-1-0-4 | Global Supply Chain Integration |
| 5 | L-505 | Capstone Project I | 3-0-0-3 | Logistics Project Management |
| 6 | L-601 | Supply Chain Digitization and Automation | 3-1-0-4 | Advanced Transportation Planning |
| 6 | L-602 | Machine Learning Applications in Logistics | 3-1-0-4 | Logistics Data Analytics and Visualization |
| 6 | L-603 | Strategic Sourcing and Supplier Management | 3-1-0-4 | Risk Management in Logistics |
| 6 | L-604 | Capstone Project II | 3-0-0-3 | Capstone Project I |
| 6 | L-605 | Industry Internship - Phase II | 4-0-0-4 | Industry Internship Preparation |
| 7 | L-701 | Research Methodology in Logistics | 3-1-0-4 | Logistics Project Management |
| 7 | L-702 | Logistics Innovation and Entrepreneurship | 3-1-0-4 | Supply Chain Digitization and Automation |
| 7 | L-703 | Advanced Capstone Project | 3-0-0-3 | Capstone Project II |
| 7 | L-704 | Professional Development in Logistics | 2-0-0-2 | Research Methodology in Logistics |
| 8 | L-801 | Graduation Thesis | 6-0-0-6 | Advanced Capstone Project |
Advanced Departmental Elective Courses
These advanced courses are designed to deepen students' understanding of specialized areas within logistics and provide them with cutting-edge knowledge relevant to current industry trends:
Logistics Data Analytics and Visualization
This course explores the application of statistical methods and data visualization tools in analyzing logistics operations. Students learn how to extract meaningful insights from large datasets using techniques such as regression analysis, clustering algorithms, and predictive modeling. The curriculum includes hands-on projects where students work with real-world datasets from major logistics firms.
Supply Chain Digitization and Automation
This course examines the integration of digital technologies in supply chain management. Topics include automation in warehouses, robotics applications, smart inventory systems, and enterprise resource planning (ERP) integration. Students engage in lab sessions using simulation software to model automated logistics environments.
Blockchain in Supply Chain
Students explore how blockchain technology can enhance transparency, traceability, and security in supply chains. The course covers distributed ledger technologies, smart contracts, and case studies from industries such as pharmaceuticals, food safety, and automotive manufacturing where blockchain has been implemented successfully.
Intelligent Transportation Systems
This course focuses on the integration of information technology and transportation systems to improve efficiency and safety. Students study topics such as traffic management systems, GPS navigation, vehicle-to-vehicle communication, and autonomous vehicle technologies. Practical components include simulations and field visits to smart city initiatives.
Machine Learning Applications in Logistics
This course introduces machine learning algorithms specifically tailored for logistics applications. Students learn about neural networks, decision trees, and reinforcement learning models used for demand forecasting, route optimization, and warehouse automation. The course emphasizes practical implementation through coding exercises and real-world case studies.
Strategic Sourcing and Supplier Management
The course addresses the strategic aspects of supplier selection, evaluation, and relationship management. Students learn about supplier risk assessment, ethical sourcing practices, and collaborative planning techniques. Case studies from multinational corporations provide insights into global sourcing strategies and supplier integration challenges.
Healthcare Logistics and Medical Supply Chains
This specialized course focuses on the unique requirements of healthcare logistics including temperature-controlled transportation, regulatory compliance, and pharmaceutical supply chain management. Students examine real-world examples of successful healthcare supply chains and explore emerging trends in medical product distribution.
Sustainable Logistics Practices
Students learn about environmental sustainability in logistics operations through discussions on carbon footprint reduction, green packaging solutions, and eco-friendly transportation methods. The course includes field visits to sustainable logistics facilities and projects that implement circular economy principles.
Global Supply Chain Integration
This course explores how companies integrate global supply chains while managing complexity, cultural differences, and regulatory compliance. Students study cross-border logistics, international trade policies, and coordination strategies used by multinational corporations in global supply chain networks.
Risk Management in Logistics
The course covers identification, assessment, and mitigation of risks in logistics operations including natural disasters, geopolitical events, cyber threats, and operational disruptions. Students develop risk management frameworks and learn how to implement contingency plans in various logistics scenarios.
Project-Based Learning Philosophy
Our department believes that project-based learning is essential for developing practical skills and critical thinking abilities. The program incorporates both mini-projects and a final-year thesis that allow students to apply theoretical knowledge to real-world challenges.
Mini-projects are integrated throughout the curriculum and typically last 2-4 weeks. These projects are designed to reinforce concepts taught in lectures and provide immediate feedback on student understanding. Projects may involve analyzing actual logistics data, designing warehouse layouts, or optimizing transportation routes using simulation tools.
The final-year thesis project is a comprehensive research initiative that spans 6 months. Students select topics related to their area of interest within logistics and work closely with faculty mentors. The process includes proposal development, literature review, methodology design, data collection and analysis, and presentation of findings.
Project selection involves students presenting proposals to the department committee, which evaluates them based on feasibility, relevance to current industry trends, and alignment with student interests. Faculty members from various specializations serve as mentors, ensuring that students receive guidance from experts in their chosen field.