Summer Internship program at Assam Engineering College

Internship Details:

To Register Follow the link: Registration

Month (40 hours) long Internship

COURSE NAME: Robotics and Embedded System Design and Drone Design:

COURSE OBJECTIVE:

To give a brief idea about how to design an intelligent robotics and drone system using different controller and sensor networks. The main intuition is to develop technical or hardware skills to design an intelligent Robotics and drone system. COURSE OUTCOME: Students will be able to understand how to write program to develop a smart robotics system using different programming language like C, Assembly, Arduino programming etc. in different platform like keil µVision, AVR studio, Arduino IDE etc. Students will also get a very clear knowledge to develop their own embedded robotics system in real time. “FPV Drone and Raptor Flight Engineering with Embedded Control Integration” is a hands on internship topic that guides learners through the complete process of building and understanding modern UAV systems. ELIGIBILITY: Students from Science/Technical background. PRE-REQUISITES (hardware/software required by the participants): Software Hardware Proteus 7.0, Keil uVision5, AVR Studio, Arduino IDE, Nuvoton Software 8051, AVR development board, Arduino UNO, Arduino NANO board, Sensor module etc. COURSE CONTENTS (DAY WISE) for robotics and embedded system design in Annexure-I and related MINI PROJECTS are described in Annexure-II. Annexure III describes the drone design topics. Annexure-I 1. Brief introduction to robotics system, Introduction to LEGO and programming, Introduction to Embedded system designing tools and software. Introduction to 3D printing. 2. Brief introduction to embedded system hardware and basics of electronics components to build a robotics system. 3. Brief introduction of LCD display panel, Interfacing of 16x2 LCD Arduino UNO/Nano. 4. 16x2 4bit and 8bit mode of operation, Interfacing of 8051 with 8051 controllers. 5. Brief introduction to different communication standard-Serial communication, I2C communication etc. 6. Introduction to different communication module- ZigBee, Bluetooth etc. 7. Brief introduction to ADC, ADC0804/0809, Interfacing of analog sensor with 8051 and Arduino. 8. Introduction to GSM communication, different AT commands of GSM, Interfacing GSM with 8051 & Arduino 9. Introduction to DC Motor, types, working of driver circuit, hay’s bridge. 10. Speed control of DC geared motor, Interfacing of DC motor with 8051 using LM293D driver 11. Brief introduction to 7 segment display, interfacing of 7 segment display with 8051 and Arduino. 12. Introduction to ultrasonic senor- HCSR04, working, interfacing with 8051 and Arduino. 13. Brief Introduction to Hex keypad, interfacing with Arduino 14. Interfacing of hex keypad with 8051 15. Brief introduction of digital sensor, Interfacing of DHT11 with Arduino. 16. Interrupt and timer of 8051, Interfacing of DHT11 with 8051. 17. Introduction to Internet of Things (IoT), tools and software to develop IoT based system. 18. Introduction to IoT enable device/SoC, ESP8266, ESP32 etc. 19. Practical application of IoT: Precision agriculture using IOT (Project 1) 20. Practical application of IoT: Smart home automation system using IOT (Project 2) 21. Introduction to servomotor, Different applications, Interfacing with Arduino and 8051 controllers. 22. Introduction to stepper motor, applications, Interfacing with Arduino and 8051 controllers. Annexure II: MINI PROJECTS: 1. Build and program Lego robots. 2. 3D Printing projects. 3. Jetson Nano bot tutorials. 4. Design a magical lightning system using LED’s and switch for festival. (Both in Arduino uno and 8051) 5. Design an automatic fire alarm system using OPAMP/Controller. 6. Design a visitor counter system for a hall using 16x2 LCD and PIR/IR sensor. (Both in Arduino uno and 8051) 7. Design a 3-phase fault detection and analysis system using 16x2 LCD. (Both in Arduino uno and 8051) 8. Design a weather status monitoring system using Zigbee and 16x2 LCD. (Both in Arduino uno and 8051) 9. Design a home automation system using Arduino and different sensor module. 10. Design an automatic fan speed controller system using LM35 and 16x2 LCD. (Both in Arduino uno and 8051) 11. Design a home automation system using GSM. (Both in Arduino uno and 8051) 12. Design a mobile control robot using Arduino and L293D/L298 driver. 13. Design a smart wheel chair for physically disable person using Arduino. 14. Write a program in Arduino and 8051 to display numbers in 7-segment display. 15. Design an obstacle avoiding robot using ultrasonic sensor module. 16. Write a program to interface a hex keypad with 8051/Arduino. 17. Design a password-based security system using 8051 & GSM. 18. Design a wireless system to measure humidity and temperature of air using Arduino. 19. Design a system to measure humidity and temperature of air using 16x2 LCD, DHT11 and 8051 controllers. 20. Write a program to develop a local server to dump data from real world. 21. Design an IoT based smart home automation system using ESP8266 controller. 22. Write a program to interface a servomotor with Arduino and 8051. 23. Write a program to interface a stepper motor with Arduino and 8051. Annexure III: Drone Design: The course covers FPV drone construction, Raptor style fixed wing design, Ardupilot setup, SpeedyBee controller configuration, sensor calibration, PID tuning, and practical mission planning. Students will also learn embedded system integration for onboard control and custom payload development. With focused practical sessions, flight testing, and mini projects, this program helps participants gain strong industry oriented skills in UAV design, flight control, and real world drone applications. Syllabus: Introduction to UAV and FPV systems, FPV drone components and construction workflow, Multirotor aerodynamics and flight principles, Electronics used in FPV platforms, Assembly of FPV drone including wiring and soldering, Introduction to Ardupilot and SpeedyBee configuration, Basic FPV programming and calibration for stable multirotor flight. Raptor fixed wing design and construction, Aerodynamic parameters such as wing loading and center of gravity, Integration of motor, ESC and flight controller for fixed wing aircraft, Servo installation and linkage setup for directional control, Programming for fixed wing operation using Ardupilot, Channel mapping and fine tuning for smooth flight response. Sensor integration for drone applications, Interfacing GPS, LCD, rain sensor, vibration, PIR and ultrasonic sensors, Introduction to Lidar/ultrasonic based obstacle sensing and distance measurement, Embedded programming using ESP32/Arduino UNO or similar microcontrollers. Assignments/Task: 1. Develop a simple obstacle detection script for drone applications Objective: Using ultrasonic or Lidar data, participants program a basic warning or response mechanism. 2. Build a Simple Environmental Monitoring drone Objective: Learners integrate sensors such as temperature, humidity or light and visualize the collected data for potential drone-based applications. 3. Implement a GPS-based Position Monitoring System for drone Objective: Students read GPS data, extract latitude and longitude, and display live coordinates on a serial monitor or OLED screen 4. Building an air pollution monitoring drone Objective: Students read sensors data to find AQI of a particular region (Additional tasks will be provided based on the number of participants)

Internship Details: To Register Follow the link: Registration Month (40 hours) long Internship COURSE NAME: Robotics and Embedded System Design and Drone Design: COURSE OBJECTIVE: To give a brief idea about how to design an intelligent robotics and drone system using different controller and sensor networks. The main intuition is to develop technical or hardware skills to design an intelligent Robotics and drone system. COURSE OUTCOME: Students will be able to understand how to write program to develop a smart robotics system using different programming language like C, Assembly, Arduino programming etc. in different platform like keil µVision, AVR studio, Arduino IDE etc. Students will also get a very clear knowledge to develop their own embedded robotics system in real time. “FPV Drone and Raptor Flight Engineering with Embedded Control Integration” is a hands on internship topic that guides learners through the complete process of building and understanding modern UAV systems. ELIGIBILITY: Students from Science/Technical background. PRE-REQUISITES (hardware/software required by the participants): Software Hardware Proteus 7.0, Keil uVision5, AVR Studio, Arduino IDE, Nuvoton Software 8051, AVR development board, Arduino UNO, Arduino NANO board, Sensor module etc. COURSE CONTENTS (DAY WISE) for robotics and embedded system design in Annexure-I and related MINI PROJECTS are described in Annexure-II. Annexure III describes the drone design topics. Annexure-I 1. Brief introduction to robotics system, Introduction to LEGO and programming, Introduction to Embedded system designing tools and software. Introduction to 3D printing. 2. Brief introduction to embedded system hardware and basics of electronics components to build a robotics system. 3. Brief introduction of LCD display panel, Interfacing of 16x2 LCD Arduino UNO/Nano. 4. 16x2 4bit and 8bit mode of operation, Interfacing of 8051 with 8051 controllers. 5. Brief introduction to different communication standard-Serial communication, I2C communication etc. 6. Introduction to different communication module- ZigBee, Bluetooth etc. 7. Brief introduction to ADC, ADC0804/0809, Interfacing of analog sensor with 8051 and Arduino. 8. Introduction to GSM communication, different AT commands of GSM, Interfacing GSM with 8051 & Arduino 9. Introduction to DC Motor, types, working of driver circuit, hay’s bridge. 10. Speed control of DC geared motor, Interfacing of DC motor with 8051 using LM293D driver 11. Brief introduction to 7 segment display, interfacing of 7 segment display with 8051 and Arduino. 12. Introduction to ultrasonic senor- HCSR04, working, interfacing with 8051 and Arduino. 13. Brief Introduction to Hex keypad, interfacing with Arduino 14. Interfacing of hex keypad with 8051 15. Brief introduction of digital sensor, Interfacing of DHT11 with Arduino. 16. Interrupt and timer of 8051, Interfacing of DHT11 with 8051. 17. Introduction to Internet of Things (IoT), tools and software to develop IoT based system. 18. Introduction to IoT enable device/SoC, ESP8266, ESP32 etc. 19. Practical application of IoT: Precision agriculture using IOT (Project 1) 20. Practical application of IoT: Smart home automation system using IOT (Project 2) 21. Introduction to servomotor, Different applications, Interfacing with Arduino and 8051 controllers. 22. Introduction to stepper motor, applications, Interfacing with Arduino and 8051 controllers. Annexure II: MINI PROJECTS: 1. Build and program Lego robots. 2. 3D Printing projects. 3. Jetson Nano bot tutorials. 4. Design a magical lightning system using LED’s and switch for festival. (Both in Arduino uno and 8051) 5. Design an automatic fire alarm system using OPAMP/Controller. 6. Design a visitor counter system for a hall using 16x2 LCD and PIR/IR sensor. (Both in Arduino uno and 8051) 7. Design a 3-phase fault detection and analysis system using 16x2 LCD. (Both in Arduino uno and 8051) 8. Design a weather status monitoring system using Zigbee and 16x2 LCD. (Both in Arduino uno and 8051) 9. Design a home automation system using Arduino and different sensor module. 10. Design an automatic fan speed controller system using LM35 and 16x2 LCD. (Both in Arduino uno and 8051) 11. Design a home automation system using GSM. (Both in Arduino uno and 8051) 12. Design a mobile control robot using Arduino and L293D/L298 driver. 13. Design a smart wheel chair for physically disable person using Arduino. 14. Write a program in Arduino and 8051 to display numbers in 7-segment display. 15. Design an obstacle avoiding robot using ultrasonic sensor module. 16. Write a program to interface a hex keypad with 8051/Arduino. 17. Design a password-based security system using 8051 & GSM. 18. Design a wireless system to measure humidity and temperature of air using Arduino. 19. Design a system to measure humidity and temperature of air using 16x2 LCD, DHT11 and 8051 controllers. 20. Write a program to develop a local server to dump data from real world. 21. Design an IoT based smart home automation system using ESP8266 controller. 22. Write a program to interface a servomotor with Arduino and 8051. 23. Write a program to interface a stepper motor with Arduino and 8051. Annexure III: Drone Design: The course covers FPV drone construction, Raptor style fixed wing design, Ardupilot setup, SpeedyBee controller configuration, sensor calibration, PID tuning, and practical mission planning. Students will also learn embedded system integration for onboard control and custom payload development. With focused practical sessions, flight testing, and mini projects, this program helps participants gain strong industry oriented skills in UAV design, flight control, and real world drone applications. Syllabus: Introduction to UAV and FPV systems, FPV drone components and construction workflow, Multirotor aerodynamics and flight principles, Electronics used in FPV platforms, Assembly of FPV drone including wiring and soldering, Introduction to Ardupilot and SpeedyBee configuration, Basic FPV programming and calibration for stable multirotor flight. Raptor fixed wing design and construction, Aerodynamic parameters such as wing loading and center of gravity, Integration of motor, ESC and flight controller for fixed wing aircraft, Servo installation and linkage setup for directional control, Programming for fixed wing operation using Ardupilot, Channel mapping and fine tuning for smooth flight response. Sensor integration for drone applications, Interfacing GPS, LCD, rain sensor, vibration, PIR and ultrasonic sensors, Introduction to Lidar/ultrasonic based obstacle sensing and distance measurement, Embedded programming using ESP32/Arduino UNO or similar microcontrollers. Assignments/Task: 1. Develop a simple obstacle detection script for drone applications Objective: Using ultrasonic or Lidar data, participants program a basic warning or response mechanism. 2. Build a Simple Environmental Monitoring drone Objective: Learners integrate sensors such as temperature, humidity or light and visualize the collected data for potential drone-based applications. 3. Implement a GPS-based Position Monitoring System for drone Objective: Students read GPS data, extract latitude and longitude, and display live coordinates on a serial monitor or OLED screen 4. Building an air pollution monitoring drone Objective: Students read sensors data to find AQI of a particular region (Additional tasks will be provided based on the number of participants)

CSL Labs in collaboration with Assam Engineering Colllege is Offering a monthlong summer internship program starting from 16th June, 2025.

To Register please click : Registration Link

1 Month (40 hours) long Internship COURSE NAME: Robotics and Embedded System Design.

COURSE OBJECTIVE: To give a brief idea about how to design an intelligent robotics system using different controller and sensor networks. The main intuition is to develop technical or hardware skills to design a Robotics system.

COURSE OUTCOME: Students will be able to understand how to write program to develop a smart robotics system using different programming language like C, Assembly, Arduino programming etc. in different platform like keil µVision, AVR studio, Arduino IDE etc. Students will also get a very clear knowledge to develop their own embedded robotics system in real time. ELIGIBILITY: Students from Science/Technical background.

PRE-REQUISITES (hardware/software required by the participants): Software Hardware Proteus 7.0, Keil uVision5, AVR Studio, Arduino IDE, Nuvoton Software 8051, AVR development board, Arduino UNO, Arduino NANO board, Sensor module etc.

COURSE CONTENTS (DAY WISE) in Annexuree-I and MINI PROJECTS are described in Annexure-II

Annexure-I

1. Brief introduction to robotics system, Introduction to LEGO and programming, Introduction to Embedded system designing tools and software. Introduction to 3D printing.

2. Brief introduction to embedded system hardware and basics of electronics components to build a robotics system.

3. Brief introduction of LCD display panel, Interfacing of 16x2 LCD Arduino UNO/Nano.

4. 16x2 4bit and 8bit mode of operation, Interfacing of 8051 with 8051 controllers.

5. Brief introduction to different communication standard-Serial communication, I2C communication etc.

6. Introduction to different communication module- ZigBee, Bluetooth etc.

7. Brief introduction to ADC, ADC0804/0809, Interfacing of analog sensor with 8051 and Arduino. 8. Introduction to GSM communication, different AT commands of GSM, Interfacing GSM with 8051 & Arduino

9. Introduction to DC Motor, types, working of driver circuit, hay’s bridge.

10. Speed control of DC geared motor, Interfacing of DC motor with 8051 using LM293D driver

11. Brief introduction to 7 segment display, interfacing of 7 segment display with 8051 and Arduino.

12. Introduction to ultrasonic senor- HCSR04, working, interfacing with 8051 and Arduino.

13. Brief Introduction to Hex keypad, interfacing with Arduino

14. Interfacing of hex keypad with 8051

15. Brief introduction of digital sensor, Interfacing of DHT11 with Arduino.

16. Interrupt and timer of 8051, Interfacing of DHT11 with 8051.

17. Introduction to Internet of Things (IoT), tools and software to develop IoT based system.

18. Introduction to IoT enable device/SoC, ESP8266, ESP32 etc.

19. Practical application of IoT: Precision agriculture using IOT (Project 1)

20. Practical application of IoT: Smart home automation system using IOT (Project 2)

21. Introduction to servomotor, Different applications, Interfacing with Arduino and 8051 controllers.

22. Introduction to stepper motor, applications, Interfacing with Arduino and 8051 controllers.

Annexure II:

MINI PROJECTS

1. Build and program Lego robots.

2. 3D Printing projects.

3. Jetson Nano bot tutorials.

4. Design a magical lightning system using LED’s and switch for festival. (Both in Arduino uno and 8051)

5. Design an automatic fire alarm system using OPAMP/Controller.

6. Design a visitor counter system for a hall using 16x2 LCD and PIR/IR sensor. (Both in Arduino uno and 8051)

7. Design a 3-phase fault detection and analysis system using 16x2 LCD. (Both in Arduino uno and 8051)

8. Design a weather status monitoring system using Zigbee and 16x2 LCD. (Both in Arduino uno and 8051)

9. Design a home automation system using Arduino and different sensor module.

10. Design an automatic fan speed controller system using LM35 and 16x2 LCD. (Both in Arduino uno and 8051)

11. Design a home automation system using GSM. (Both in Arduino uno and 8051)

12. Design a mobile control robot using Arduino and L293D/L298 driver.

13. Design a smart wheel chair for physically disable person using Arduino.

14. Write a program in Arduino and 8051 to display numbers in 7-segment display.

15. Design an obstacle avoiding robot using ultrasonic sensor module.

16. Write a program to interface a hex keypad with 8051/Arduino.

17. Design a password-based security system using 8051 & GSM.

18. Design a wireless system to measure humidity and temperature of air using Arduino.

19. Design a system to measure humidity and temperature of air using 16x2 LCD, DHT11 and 8051 controllers.

20. Write a program to develop a local server to dump data from real world.

21. Design an IoT based smart home automation system using ESP8266 controller.

22. Write a program to interface a servomotor with Arduino and 8051.

23. Write a program to interface a stepper motor with Arduino and 8051.