MODULE WISE QUESTIONS
MODULE - 1
1. What is IoT? Explain the Genesis of IoT.
2. What does IoT and Digitization mean? Elaborate on this concept.
3. Explain the IoT impact on the following
* Connected Roadways
* Connected Factory
* Smart Connected Buildings
* Smart Creatures
4. Discuss IoT Impact in Real world.
5. Compare Information Technology (IT) and Operational Technology (OT).
6. Discuss IoT Challenges.
7. Explain IoT Architectural Drivers.
8. Compare one M2M and IoT World Forum Standardized Architectures.
9. With a neat diagram, explain architecture of IoT.
10. Explain core IoT functional stack.
11. Compare
* Analytics versus Control Application
* Data versus Network Analytics
12. Explain the Hierarchy of Edge, Fog and Cloud Computing.
13. Explain IoT Data Management and Compute Stack with Fog Computing.
MODULE - 2
1. Explain Different Categories of Sensors.
2. List and explain different types of sensors with examples.
3. With a neat diagram, Explain Actuators classification with examples.
4. Elaborate on small physical objects and small virtual objects.
5. Explain the characteristics of Smart Objects
6. Explain advantages, disadvantages and limitations of Wireless Sensor Networks.
7. Summarize the following Communication Criteria’s for IoT
* Range
* Frequency Bands
* Power Consumption
* Topology
* Constrained Devices
* Constrained Node Networks
8. Outline the Protocol Stacks Utilizing IEEE 802.15.4 Standards.
9. Describe the following protocols in detail
* ZigBee
* ZigBee IP
* LoRaWAN
10. Infer the Main Characteristics of IoT Access Technologies.
11. Compare the Characteristics of LoRaWAN, Sigfox, and Ingenu Onramp
MODULE - 3
1. Outline the Key Advantages of IP Suite for IoT.
2. Explain Adoption versus Adaptation of IP and the factors to determine which model is best suited for last-mile connectivity.
3. Summarize the need for IP Optimization.
4. Explain the following protocols in detail
* 6LoWPAN
* 6TiSCH
* RPL
5. Explain Supervisory Control and Data Acquisition (SCADA) IoT application protocol and their transport method in detail.
6. Explain the following IoT Application Layer Protocols in detail.
* Constrained Application Protocol (CoAP)
* Message Queuing Telemetry Transport (MQTT)
7. Compare Constrained Application Protocol (CoAP) and Message Queuing Telemetry Transport (MQTT) in detail.
MODULE - 4
1. Explain IoT Data Analytics and their Challenges.
2. Outline the four major domains of ML applications for IoT.
3. Summarize the following
* Massively Parallel Processing Databases
* Hadoop
4. Explain the following
* Edge Analytics Core Functions
* Network Analytics
5. Infer the common Challenges in OT security.
6. Explain in detail how IT and OT security practices and systems vary in real time.
7. Explain OCTAVE and FAIR formal risk analysis.
8. Discuss phased application of security in an operational environment
MODULE - 5
1. Explain
* Why Arduino is required?
* Types of Arduino boards
* Demonstrate Arduino UNO learning board
* Functions of Arduino
2. Summarize
* Toolbar options in Arduino IDE
* Technical specifications of Arduino UNO
3. Outline the following fundamentals of Arduino Programming
* Structure
* Functions
* Flow Control Statements
* Digital and Analog input/output pins and their usage
4. Differentiate between analog, digital and PWM pins.
5. Compare Technical Specifications of RaspberryPi Models.
6. Illustrate RaspberryPi Learning Board.
7. Explain RaspberryPi Operating Systems.
8. Explain the following RaspberryPi commands
* General commands
* Directory and File commands
* Networking and Internet commands
* System Information commands
9. Develop a python program which records the current room Temperature.
10. Discuss in detail an IoT strategy for smarter cities.
11. Explain in detail smart city IoT architecture.
12. Discuss in detail smart city security architecture.
13. Explain the following smart city use cases
* Connected street lighting
* Smart parking
* Smart traffic control
* Connected environment