G.C.E. O/L Local or London (Edexcel / Cambridge) Syllabus Passed.

AND  International Certificate in Robotic & Computer Technology - 2 Years Program Completed at M.E.E.T.I. Sri Lanka.

විෂය නිර්දේශය | Syllabus.

1. Computer Engineering

• Computer Science: Basics of algorithms, data structures, and logic programming

• Computer Technology: Hardware troubleshooting, digital systems, and peripheral integration

• Computer Programming: Basic programming in micro C and Python

• Computer System Design: Architecture, hardware-software co-design, and simulation tools

• Computer Networks and Cybersecurity:

  • Networking fundamentals: LAN, WAN, and IoT

  • Cybersecurity principles: Firewalls, encryption, and VPNs

  • Network protocols and troubleshooting

  • Network setup and configuration

  • Implementing secure communication protocols

  • Simulating and mitigating network vulnerabilities

• Internet of Things (IoT) Integration:

  • IoT architecture and protocols

  • IoT applications in robotics and smart systems

  • Cloud integration for IoT devices

  • Data collection and analytics for IoT-enabled sensors

2. Robotic Engineering

• Industrial Automation and Industrial Robots: PLCs, actuators, and production line robotics

• Autonomous Navigation and Mobile Robots: Types of Mobile Robots, Robot Path planning, SLAM, and control algorithms

• Computer-Aided Design and Manufacture (CAD-CAM): 3D modeling, simulations, and CNC interfacing

• AI Systems and Simulations: Machine learning for robotics, AI frameworks, and real-time decision systems

• Cybernetics and Bionic Robots: Bio-inspired robotics, neural control systems, and prosthetics

3. Telecommunication Engineering

• Radio Technology:

  • Basics of radio frequency and modulation techniques

  • Types of radio waves and signal propagation

  • Building and testing RF circuits

  • Antenna design and signal analysis

  • Fault analysis in radio communication systems

• TV Technology:

  • Principles of television systems: Analog and digital

  • Signal transmission and reception in TV systems

  • TV display technologies and signal encoding

  • Antenna design and TV signal analysis

  • Fault analysis in television systems

• PABX and IP-PABX Systems:

  • Basics of PABX systems and their functions

  • IP-PABX technology and VoIP integration

  • Configuration and troubleshooting of PABX systems

• ISDN and DSL:

  • Understanding ISDN technology and its applications in voice and data communication

  • DSL technology: ADSL and VDSL, bandwidth limitations, and installation

  • Troubleshooting and configuring ISDN and DSL systems

• Mobile Communication:

  • Basics of mobile networks: 2G, 3G, 4G, and an introduction to 5G

  • Mobile communication technologies: GSM, CDMA, and LTE

  • Mobile devices, protocols, and data transmission

  • Configuring and testing mobile communication systems

• Radar Systems:

  • Basics of radar: Range, resolution, and frequency bands

  • Types of radar: Pulse, CW, and phased-array systems

  • Applications of radar in navigation and surveillance

• Satellite Systems:

  • Satellite orbits and communication principles

  • Types of satellites: Geostationary, low-earth orbit, etc.

  • Transponder technology and satellite communications

• Satellite TV Systems:

  • Satellite TV broadcasting and reception

  • Setting up satellite TV systems

  • Analyzing satellite signal quality

  • Troubleshooting and configuring satellite TV systems

• Fiber Optics and Laser/Maser Systems:

  • Principles of fiber optics and light transmission

  • Fiber optic cables: Types and applications

  • Fiber optic communication systems and troubleshooting

  • Laser and Maser technologies: Fundamentals and applications

  • Measuring and testing fibre optic systems and components

4. Electrical & Electronic Engineering

• Test Instruments:

  • Usage of multimeters, oscilloscopes, and signal generators

  • Testing and measuring electrical circuits

  • Calibration of instruments

  • Troubleshooting techniques using test equipment

• Electrical Technology:

  • Fundamentals of electricity: Current, voltage, resistance, and power

  • Inductor (L), Resistor (R), Capacitor (C) and LRC Filter Circuits.

  • Circuit theory: Ohm's Law, Kirchhoff's Laws

  • Electrical machines: Transformers, motors, and generators

  • Power distribution and safety

  • Wiring and assembly of electrical circuits

  • Motor testing and maintenance

  • Transformer efficiency experiments

• Electronics Technology:

  • Semiconductor basics: Diodes, transistors, and ICs

  • Vacuum Tubes and Applications.

  • Operational amplifiers and signal processing

  • Transistor Applications: Switches, Oscillators and Amplifiers.

  • Digital electronics: Logic Gates, Flip-flops, counters, and timers

  • Building and testing basic electronic circuits

  • PCB design and fabrication

  • Assembly and troubleshooting of electronic devices

• Mechatronics:

  • Basics of mechanical systems and actuators

  • Integration of mechanical and electronic systems

  • Sensors and control systems in mechatronics

  • Building and programming mechatronic systems

  • Servo and stepper motor control experiments

  • Sensor-based automation projects

5. Robotic Project - Research and Development

• Introduction to Robotic Research:

  • Exploring fundamental concepts of robotics, including kinematics, dynamics, and control systems

  • Research in areas like automation, sensor integration, and robotics in everyday applications

• Robotic Project and Innovation:

  • Project-based Learning:

    • Design and development of small robotic systems (e.g., line-following robot, obstacle-avoiding robot)

    • Integrating sensors (e.g., ultrasonic, infrared) for basic navigation tasks

  • Innovation through Prototyping:

    • Building simple robotic prototypes that solve real-world problems (e.g., assistive robots, delivery robots)

    • Using microcontrollers (Arduino, ESP32) to create functional systems

  • Testing and Iteration:

    • Iterative design process to refine robotic systems

    • Troubleshooting and improving the functionality of robots based on test results

  • Presenting Robotic Projects:

    • Students will create a presentation demonstrating their robotic project, including design decisions, challenges, and solutions.