Subject Name : Sensor & IoT System
Subject Code : 28563
Technology : Computer
Semester : 6th
Subject Aims:
Sensor & IoT System is the most significant area of diploma in Computer Science &
Technology. To work with Sensor & IoT System should have the knowledge, skills and
attitude of Sensor and IoT, IoT Architecture, Raspberry pi and Arduino, IoT Architecture, IoT
devices, Connectivity in IoT, Security in IoT , Data analytics in IoT, IIoT in agriculture, IoT
standards and interoperability, Regulatory and ethical considerations, Future trends in IoT
and IIoT.
Subject Outcome:
After Completing the subject, students will be able to:
1. Interpret Sensor and IoT
2. Illustrate IoT Architecture
3. Interpret Raspberry pi and Arduino.
4. Explain IoT Architecture
5. Explain IoT devices and sensors
6. Describe connectivity in IoT
7. Illustrate security in IoT
8. Describe data analytics in IoT
9. Explain IIoT in agriculture
10. Explain IoT standards and interoperability
11. Explain regulatory and ethical considerations
12. Describe future trends in IoT and IIoT
Learning Outcome(Practical):
After undergoing the subject, students will be able to:
1. Assemble a basic IoT sensor node using Arduino.
2. Assemble a basic IoT sensor node using raspberry pi.
3. Establish a simple wireless IoT network using Wi-Fi or Bluetooth.
4. Use Python or other tools to analyze sensor data.
5. Integrate IoT devices with cloud platforms.
6. Design a basic IIoT solution using a Raspberry Pi as the edge device and the Google
Cloud IoT platform for cloud integration.
7. Develop a system to control and monitor home appliances remotely using IoT
technology.
8. Construct a weather station to collect and shares real-time weather data using IoT
sensors, providing local weather information.
9. Implement an IoT-based solution to monitor soil moisture, temperature, and other
environmental factors for optimizing agricultural practices.
10. Design a smart parking solution to uses IoT sensors to detect and relay information
about available parking spaces in real-time.
11. Implement a system to optimize traffic flow by monitoring and controlling traffic
signals based on real-time data.
12. Create a quality control system in manufacturing that utilizes IIoT sensors to ensure
product consistency and reliability.