Sustainable Solid Waste Management and Resource Recovery
The course “Sustainable Solid Waste Management and Resource Recovery” provides …
What you'll learn
Introduction to the challenges and importance of sustainable solid waste management.
Understanding the types and characteristics of solid waste generated in various settings.
Techniques for waste reduction, recycling, and resource recovery.
Study of waste treatment methods, including composting, anaerobic digestion, and waste-to-energy processes.
Evaluation of the environmental and economic impacts of different waste management approaches.
Embedded Systems and Internet of Things (IoT)
The course “Embedded Systems and Internet of Things (IoT)” provides …
What you'll learn
Introduction to embedded systems and their applications in various industries.
Understanding the design and development of embedded hardware and software.
Study of microcontrollers, sensors, and actuators used in embedded systems.
Techniques for programming and interfacing with embedded devices.
Integration of communication protocols and networking in IoT applications.
Introduction to Internet of Things (IoT) concepts and its role in connecting embedded devices.
Environmental Impact Assessment and Management
The course “Environmental Impact Assessment and Management” provides students with …
What you'll learn
Understanding the legal and regulatory frameworks related to EIA.
Techniques for identifying, predicting, and assessing the environmental impacts of proposed projects.
Study of mitigation measures and strategies to minimize adverse environmental effects.
Consideration of social, economic, and cultural aspects in environmental impact assessment.
Application of best practices in environmental management and sustainability.
Industrial Systems Analysis and Design
The course “Industrial Systems Analysis and Design” provides students with …
What you'll learn
Introduction to industrial systems and their significance in various sectors.
Understanding the principles of system analysis and design in an industrial context.
Techniques for modeling and analyzing industrial processes and workflows.
Evaluation of system performance and identification of bottlenecks.
Application of tools and methodologies for system optimization and efficiency improvement.
Operations Management and Process Improvement
The course “Operations Management and Process Improvement” provides students with …
What you'll learn
Understanding the design and management of production processes.
Techniques for process analysis, mapping, and optimization.
Study of key performance indicators (KPIs) to measure process efficiency.
Inventory management principles and strategies for effective supply chain operations.
Lean principles and practices for eliminating waste and improving productivity.
Introduction to Six Sigma methodologies for process improvement and defect reduction.
Quality Engineering and Total Quality Management
The course “Quality Engineering and Total Quality Management” provides students …
What you'll learn
Understanding the importance of quality in products and services.
Techniques for measuring and evaluating quality performance.
Methods for identifying and resolving quality issues in manufacturing and service industries.
Application of statistical tools and quality improvement methods like Six Sigma and Lean.
Implementing TQM strategies to enhance organisational efficiency and customer satisfaction.
Biomedical Instrumentation and Measurements
The course “Biomedical Instrumentation and Measurements” provides students with a …
What you'll learn
Study of various medical sensors and transducers used to measure physiological signals.
Understanding the principles of signal acquisition and signal processing in the context of biomedical measurements.
Analysis of bioelectric signals (e.g., ECG, EEG, EMG) and their interpretation.
Measurement techniques for vital signs like heart rate, blood pressure, respiratory rate, and temperature.
Biomechanics and Rehabilitation Engineering
The course “Biomechanics and Rehabilitation Engineering” offers students an in-depth …
What you'll learn
Fundamental principles of biomechanics and their application in understanding human movement.
Analysis of forces and motion in biological systems, such as the musculoskeletal system.
Study of mechanical properties of biological tissues and their response to external forces.
Introduction to rehabilitation engineering and its role in developing assistive devices and technologies.
Evaluation of various rehabilitation techniques and their effectiveness in improving functional outcomes.
