Smart Engineering Project

Course Code (Credit):

CUTM 1023(0-0-3)

Course Objectives:

  • The main objective of this course is that students from various branches can learn different tools and collaborate together to build a smart live project.
  • To make the centurion's think beyond engineering.
  • To provide the platform to express the imagination to reality.
  • To acculturate the diversity in engineering.
  • To make the centurions industry ready.

Learning Outcomes:

On completion of this course a student will

  • Learn the new tools and use them to solve some current problems in their respective areas.
  • Be able to learn current industry software’s and work on projects based on multidisciplinary fields.
  • Can able to explore the engineering more conceptually manner.
  • Can able to discover the engineering as a quality product outcome.
  • Can able to work with the diversity in present industries scenario.

Course Syllabus:

  • Inter Disciplinary
  • Product Based
  • Industry 4.0
  • Go to Market Based
Project categories:
  • Software/Hardware Based
  • Real-Time
  • Multidisciplinary
Basic Project Requirements:

As per the Project requirements you can select any available boards/software.

Some selected and regular used embedded boards as listed below for your reference.

Hardware

  1. Arduino (Uno, Mega, Nano)
  2. Node MCU/ESp32
  3. Raspberry pi Zero W/Raspberry pi Pico
  4. Micro Python
  5. Raspberry pi 3b+
  6. FPGA Board
  7. STM32

Simulation Software’s

Some selected and regular used software as listed below for your reference.

  1. Proteus Professional
  2. MATLAB/Simulink
  3. LabVIEW
  4. Xilinx ISE
  5. Ansys
  6. Fusion 360
  7. Autodesk
  8. Dymola
  9. Simulia
  10. Maplesoft
  11. Modelica
  12. Python

Project In Track:

  1. Analysis Design of G+10 Building using STAAD Pro
  2. Automated water irrigation controller for rice field
  3. Automatic Microgrid System
  4. Automation in Light and Fan in Classroom
  5. Speed Control Control Of Dc Motor using Arduino
  6. Bench Tapping Machine
  7. Modular E-Rikshaw Design using Catia
  8. Renewable Energy using Compressor
  9. Wireless Control Robotic car through MATLAB GUI
  10. Water Level and Temperature Indicator
  11. Speech Recognition using Python
  12. IOT Based Air Pollution Quality Monitoring with ESP8266
  13. Plant Disease Detection using Image Processing
  14. IOT Based Air Quality and Monitoring By Using Arduino
  15. Automatic agriculture field monitoring device
  16. IOT Based Weather Station Using GY-BME280 Sensor Module and ESP8266-12E Node MCU LUA Wi-Fi Module
  17. Bluetooth Controlled Car Using ARDUINO
  18. Crimes Against Women in India
  19. A Presentation on Analysis of QUAD COPTER
  20. Collecting Data and Visualizing of a Mobile Sensors of Android Device
  21. Manufacturing of Knuller Tool
  22. Smart Product Sanitization and Packaging System

Product In Track:

  1. Insulin Pump Prototype Design
  2. Electronic Controller Design
  3. Battery Management System Design
  4. Poly House
  5. Apparel Tracking using Apriso webserver
  6. Android app development using android studio and Java
  7. Modular E-Rickshaw variant Design
  8. Autonomous Navigating Vehicle
  9. Smart Transformer Control Panel Design
  10. 3-Phase BLDC Motor Driver Design

Session Plan:

Session Topic Reference Link (if any)
Session 1 Allocation of projects.
Session 2 Defined the gate zero process.