Category : IoT

Powering IoT using Arduino/ Raspberry pi

Start Date : January 01, 2023
Course Duration : 45 Hours
Course Type : Facilitated
Course Validity : 180 days
15000
Description

The Internet of Things is transforming our physical world into a Technology reliant and dynamic system of Connected devices on an unprecedent scale. The Internet of Things (IoT) is now omni present. Its significantly assists in collection of data, network and analyze such information received to provide real time information for societal benefits.



The course will focus on important IoT topics, which includes industrial standards, sensor/actuator/data devices, hardware, software, security, system design and performance analysis techniques.


Course Objectives:-  

To impart the fundamental knowledge about Hardware and Software platforms for design and development IOT application

Hardware:-  Prototyping board block diagram, microcontroller programming basics, simple sensors, sensor interfacing with prototyping board and, data acquisition and sensor calibration

Software:- Cloud platform for IOT development, IOT protocols, Embedded system Programming tool, Dashboard design for IOT webpage

  • To educate the students about a simple IOT application and verify its real-time performance by integrating the hardware and software components with LIVE results and interactive GUI.
  • To enable the students to design an IOT based monitoring & control system using a prototyping board, temperature sensor, LED, Buzzer, Stepper Motor, Embedded C / Python based code development, opensource IOT cloud-based dashboard design.
  • To enhance the skill of the students by giving them challenging projects and by providing them guidance through interactive LMS platform.


Prerequisites:

Basic Knowledge in Analog and Digital Electronics, C and Python Programming (Entry-level) For those , not meeting the pre-requisite, a six hours bridge course will be conducted


Course Outcomes: 

After the successful completion of this course, the students will be able to

  1. Apply effectively the various enabling technologies like Embedded Systems including Embedded C for design of End device using ESP32 and network infrastructure protocols.
  2. End design using  Micro python and RPi PICO as well as Edge node design using Single Board Computer like Raspberry Pi and its integration with IoT infrastructure.
  3. Select and design suitable communication technologies like WPAN, WLAN, LPWAN to meet the requirements of End and Edge node connectivity.
  4. Apply various IoT Specific application protocols like CoAP, MQTT and Web Sockets to satisfy the constraint nature of nodes and various resources in IoT System
  5. Integration of Edge and Cloud computing infrastructure with IoT End devices and deployment of closed loop IoT system from Sensing to Reacting (Actuation).
  6. Design and build IoT system for a few interesting Use cases like Smart Water , Smart Energy, Smart waste management in the context of Smart City.

Job Roles associated with this competency (with reference to standard SSCs)

  • IoT - Product Manager
  • IoT - Solution Architect
  • IoT - Hardware Solution Designer
  • IoT - Software Analyst
  • IoT - Test Analyst
  • IoT - Security Specialist
  • IoT - Network Specialist
  • IoT - Control Room Operator
  • IoT - Domain Specialist


Announcements
1_Introduction to Internet of Things (IoT)_1
2_ IoT Applications
3_Enabling Technologies of IoT
4_Things in IoT and Identification
5_Industrial Internet of Things and Industrial IoT Reference Architecture [Autosaved]
6_Sensors and Actuators
Day-1_Session 1 Introduction to Internet of Things(IoT)
Day-1_Session 2 IoT Applications
Day-1_Session 3 Enabling Technologies of IoT
Day-1_Session 4 Sensors and Actuators
Day-1_Session 5 Things in IoT and Identification
Day-1_Session 6 Industrial Internet of Things and Industrial Iot Reference
S7-D2-S1-EmbeddedSystems
S8-D2-S2-CommunicationTechnologies
S9-D2-S3-IoT-Application-Potocols
S10-D2-S4-FundamentalsofnetworkingforIoT
S11-D2-S5-HWandSWplatformforIoT
S12-D2-S6-Arduino-SW-HW-platform
Day-2_Session 1 Embedded Systems
Day-2_Session 2 Communication Technologies
Day-2_Session 3 IoT Application Protocols
Day-2_Session 4 Fundamentals of Networking for IoT
Day-2_Session 5 HW and SW Platform for IoT
Day-2_Session 6 Arduino SW-HW Platform
S12-D2-S6-WebServer and WebSockets
S13-D3-S3-Raspberry Pi HW and Software
S15-D3-S2-CoAP - Introduction, Server and Client Configuration
S16-D3-S1-MQTT -Broker-Client-Config-Implementation
S17-D3-S4-EdgeandCloudComputing
S18-D3-S5-Integration of IoT End devices with Cloud
Day 1 & 2 Topics - Doubt Clearing Session
Day-3_Session 1 MQTT Broker Client Configuration Implementation
Day-3_Session 2 CoAP Introduction, Server and Client Configuration
Day-3_Session 3 Raspberry Pi HW and Software
Day-3_Session 4 Edge and Cloud Computing
Day3_Session 5 Integration of IoT End Devices with Cloud
Day3_Session 6 Web Server and Web Sockets
S19-D4-S1-IoT Data Visualization and Analytics
S20-D4-S2-IoT Use Cases and Conclusion
Day4_Arduino Installation
TinkerCAD_LAB
Day 4_Session 1 IoT Data Visualization and Analytics
Day 4_Session 2 IoT Use Cases and Conclusion
Day 4_Session 3 TinkerCAD Introduction
Day 4_Session 4 & 5 TinkerCAD
Day 4_Session 6 Arduino IDE Introduction
Group 1 - Assessment 1
Group 2 - Assessment 1
Group 3 - Assessment 1
Group 4 - Assessment 1
Group 5 - Assessment 1
Day5_CISCO Packet Tracer
Day 5_Session 1 IFTTT Introduction
Day 5_Session 2 ThinkSpeak Introduction
Day 5_Session 3 Adafruit Introduction
Day 5_Session 4 & 5 Cisco Packet Tracer
Day5_Session 6 Cisco Packet Tracer
Recordings Day 6
Recordings : Day 6 2
Recordings : Day 6 3
Software Requirement
Day 4_Session 3 TinkerCAD Introduction
Day 4_Session 4 & 5 TinkerCAD
Day4_Arduino Installation.pdf
TinkerCAD_LAB
Group 1 - Assessment 2
Group 2 - Assessment 2
Group 3 - Assessment 2
Group 4 - Assessment 2
Group 5 - Assessment 2
ESP 32
IoT lab manual Day8
IoT lab manual Day9
IoT lab mannual Day10
Group 1 - Assessment 3
Group 2 - Assessment 3
Group 3 - Assessment 3
Group 4 - Assessment 3
Group 5 - Assessment 3
Powering IOT using Arduino/ Raspberry pi - Capstone Project
Student Feedback

 

 
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SkillsDA Signs MoU with Naan Mudalvan Hon. CM of TamilNadu to train college students in IoT and Cyber Security Mandatory Courses

SkillsDA Signs MoU with Naan Mudalvan Hon. CM of TamilNadu to train college students in IoT and Cyber Security Mandatory Courses