• aku civil Notes
  • Aku EE/EC Notes
  • aku ME Notes
  • Aku Organizer
  • Aku PYQs papers
  • Introduction To Internet Of Things

NPTEL Introduction To Internet Of Things Assignment 9 Answers 2023 (July-Oct)

Welcome to the world of NPTEL's Introduction To Internet Of Things Assignment 9 for 2023 (July-Oct) focusing on Cloud Computing and Sensor-Cloud. In this article, we'll delve deep into this assignment, providing you with answers, insights, and valuable information that will help you navigate through this challenging yet fascinating subject. So, let's embark on this educational journey together.

Unveiling NPTEL Introduction To Internet Of Things Assignment 9

NPTEL Introduction To Internet Of Things Assignment 9 Answers 2023 (July-Oct)

Exploring Cloud Computing in IoT (Internet of Things)

IoT has revolutionized the way we connect and communicate with the world around us. NPTEL's Assignment 9 takes you into the heart of Cloud Computing within the IoT realm. This section will give you a detailed overview of what Cloud Computing entails in IoT and its significance in today's digital landscape.

Here are the answers to your questions:

1. Which component of OpenStack do you use to access all the other components?

   Answer: a. Horizon

2. Which among the following is NOT a component of OpenStack?

   Answer: c. Plasma

3. Sensor cloud is simply dumping and organizing sensor data on cloud computing platforms.

   Answer: b. False

4. Which among the following are limitations of traditional Wireless Sensor Networks (WSNs)?

   Answer: d. All of the given

5. In a typical sensor cloud architecture, the sensor cloud infrastructure that provides the virtualization lies ______________________________

   Answer: c. In between the physical sensor layer and the application layer

6. Generally speaking, Sensor Cloud Service Providers (SCSPs) are also always the owners of the physical sensors.

   Answer: b. No

7. In a typical sensor cloud architecture with virtualization, one virtual sensor can be associated with how many physical sensors?

   Answer: b. One or more than one

8. Sensor virtualization aims to achieve more _________________________ in providing sensor-based services.

   Answer: b. Flexibility

9. Suppose that you want to start a business to provide some IoT-based application, but you do not have the means to develop the application layer logic, neither you have the means to purchase and deploy physical sensors. You can, however, rent cloud servers for use and write interface logic for interfacing with other modules. Which among the following actors will be the most suitable for you?

   Answer: c. Sensor Cloud Service Provider (SCSP)

10. Which among the following is implemented along with sensor cloud to make its services and performance better?

    Answer: b. Caching

11. Which among the following cases is most likely to reduce the overall price of sensor-cloud implementation provided that the data traverses through multiple sensor hops starting from the origin sensor to the sink node, and provided that all owners are honest and charge for only what is required?

    Answer: a. If physical sensors are owned by multiple owners with a high-profit margin

12. Fog computing is aimed to replace cloud computing completely and has no scope for integration with cloud.

    Answer: b. False

13. Suppose data from an IoT device first goes to the Fog layer for some basic processing, after which it goes to the Cloud layer for advanced processing, then the processed data comes back to the Fog layer, and then it finally comes back to the origin sensor node. In the return journey, no processing of data takes place anywhere, just the transfer of data takes place. If ‘Tf’ is the time taken by the data to travel from sensor to fog and vice versa, and ‘Tc’ is the time taken by the data to travel from fog to cloud and vice versa, ‘Tfp’ is the data processing time at fog, and ‘Tcp’ is the data processing time at cloud, what is the total round trip time ‘T’ taken by data starting from the origin sensor node, processing the data, and then back to the sensor node after being processed.

    Answer: c. T = 2(Tf + Tc) + Tfp + Tcp

14. Consider the standard Fog computing architecture. In which of the following layers will 'very time-sensitive data' be processed?

    Answer: a. Nearest fog node

15. "Network, Accelerator, Compute and Storage" constitute the part of which view of fog computing architecture, as defined by OpenFog Consortium Architecture Working Group?

    Answer: a. System View

The Role of Sensor-Cloud

Sensor-Cloud integration is a crucial aspect of IoT that's gaining prominence. Here, we'll discuss how sensors and cloud technology converge to enhance the capabilities of IoT systems. Dive into the specifics and understand the synergy between sensors and the cloud.

## NPTEL Introduction To Internet Of Things Assignment 9 Answers

Now, let's address the key component: the answers to NPTEL's Assignment 9 for 2023. Below, you'll find comprehensive responses to the questions posed in the assignment. 

### Answer 1: Cloud Computing Essentials

**Q:** What are the fundamental concepts of Cloud Computing in IoT?

Cloud Computing in IoT revolves around the provisioning of computing resources and services over the internet. Key concepts include virtualization, scalability, and resource pooling.

**Answer:** In IoT, Cloud Computing encompasses various fundamental concepts. Virtualization, which allows multiple virtual machines to run on a single physical server, enables efficient resource utilization. Scalability ensures that IoT systems can seamlessly adapt to changing workloads, while resource pooling involves the shared use of cloud resources, optimizing cost-efficiency.

### Answer 2: Sensor-Cloud Integration

**Q:** How do sensors and the cloud work together in IoT?

**Answer:** Sensors in IoT collect data from the physical world. This data is then transmitted to the cloud for storage, analysis, and processing. The cloud's computational power and storage capacity enhance the capabilities of IoT applications, enabling real-time insights and informed decision-making.

### Answer 3: Security in Cloud-Based IoT

**Q:** What security measures are crucial in cloud-based IoT systems?

**Answer:** Security is paramount in cloud-based IoT systems. Encryption, access control, and regular updates are essential. Additionally, continuous monitoring and threat detection mechanisms safeguard data and devices from potential breaches.

### Answer 4: Benefits of Sensor-Cloud Integration

**Q:** What are the advantages of integrating sensors with the cloud in IoT?

**Answer:** Integrating sensors with the cloud offers numerous benefits, including enhanced data analytics, remote monitoring, and scalability. It enables businesses to make data-driven decisions, optimize operations, and improve customer experiences.

### Answer 5: Challenges in Sensor-Cloud Integration

**Q:** What challenges should be considered when implementing Sensor-Cloud integration in IoT?

**Answer:** Challenges in Sensor-Cloud integration include data privacy concerns, network latency, and interoperability issues. Addressing these challenges is crucial to ensure the seamless functioning of IoT systems.

### Answer 6: Future Trends in IoT

**Q:** What are the upcoming trends in IoT, particularly in the context of Cloud Computing and Sensor-Cloud integration?

**Answer:** The future of IoT holds exciting prospects, such as edge computing, AI-driven analytics, and 5G connectivity. These advancements will further enhance the capabilities of Cloud Computing and Sensor-Cloud integration, opening up new possibilities in various industries.

In conclusion, NPTEL's Introduction To Internet Of Things Assignment 9 for 2023 (July-Oct) covering Cloud Computing and Sensor-Cloud is a captivating exploration of IoT's cutting-edge technologies. We've uncovered the essentials, discussed answers to key questions, and shed light on the future trends in this field. Embrace the world of IoT, and let these insights guide you to success in your assignment.

**Q:** Can you explain the concept of virtualization in Cloud Computing for IoT?

**A:** Virtualization in Cloud Computing for IoT allows multiple virtual machines to run on a single physical server, optimizing resource utilization.

**Q:** What is the significance of edge computing in IoT's future?

**A:** Edge computing brings processing closer to the data source, reducing latency and enabling real-time decision-making in IoT applications.

**Q:** How can IoT systems ensure data privacy in Sensor-Cloud integration?

**A:** Data privacy in Sensor-Cloud integration is achieved through encryption, access control, and compliance with data protection regulations.

**Q:** What industries can benefit the most from Sensor-Cloud integration in IoT?

**A:** Industries like healthcare, manufacturing, and agriculture can benefit significantly from Sensor-Cloud integration in IoT for improved monitoring and decision-making.

**Q:** Are there any notable challenges in implementing 5G in IoT systems?

**A:** Yes, challenges in 5G implementation for IoT include infrastructure development, network security, and ensuring compatibility with existing devices.

**Q:** How can businesses leverage AI-driven analytics in IoT applications?

**A:** AI-driven analytics in IoT can help businesses derive valuable insights from data, enabling predictive maintenance, product optimization, and enhanced customer experiences.

JOIN OUR TELEGRAM GROUPS 🤗

Popular posts.

Aku Syllabus - Aryabhatta Knowledge University full syllabus, semester wise

Aku Syllabus - Aryabhatta Knowledge University full syllabus, semester wise

BEU B.TECH NOTES FOR Civil Engineering (CE)

BEU B.TECH NOTES FOR Civil Engineering (CE)

BEU B.Tech 1st year notes for All Branches EE,EC,CS,CE,ME

BEU B.Tech 1st year notes for All Branches EE,EC,CS,CE,ME

aku 3rd sem organizer pdf computer science and engineering |  aku organizer pdf 3rd semester

aku 3rd sem organizer pdf computer science and engineering | aku organizer pdf 3rd semester

Beu previous year question paper with answer pdf Download ||  beu previous year question 2023

Beu previous year question paper with answer pdf Download || beu previous year question 2023

  • aku syllabus
  • all semester
  • BAU Question Papers
  • BEU PYQ Ans
  • beu syllabus
  • Btech results
  • Developing Soft Skills And Personality
  • engineering chemistry
  • Introduction To Machine Learning
  • Public Speaking
  • Question Bank
  • Soft Skills

Ad-Blocker Detected!

YOU ARE USING AD LOCKER OR DNS So disable and refresh this page to enjoy our posts

NPTEL Introduction To Internet Of Things Assignment 3 Answers 2023

NPTEL Introduction To Internet Of Things Assignment 3 week 3 Answers 2023:- In this post, We have provided answers of Introduction To Internet Of Things Assignment 3. We provided answers here only for reference. Plz, do your assignment at your own knowledge.

ALSO READ :- NPTEL Registration Steps [July – Dec 2022] NPTEL Exam Pattern Tips & Top Tricks [2022] NPTEL Exam Result 2022 | NPTEL Swayam Result Download

NPTEL Introduction To Internet Of Things Week 3 Assignment Answers 2023

1. State whether the following statement is true or fal s e. Statement: Wired HART lacks a network layer. a. Tru e b. False

2. The HART physical layer is derived from _ protocol and operates only in _ __ GHz ISM band. a. IEEE 802.15.4, 2.4 b. IEEE 802.15.4, 4.8 c. IEEE 802.16.5, 4 . 8 d. None of these

3. State whether the following statement is True or False Statement: Super-frames in HART consist of grouped 2 0 ms wide timeslots. a. True b. False

4. _____ identifies channels consistently affe ct ed by interference and removes them from use. a. Channel hopping b. Channel aggregating c. Channel blacklisting d. Frequency aggregating

5. The _____ supervises each node in t h e network and guides them on when and where to send packets. a. Application manager b. Network manager c. Trust manager d. None of these

6. NFC is designed for use by devices within _ to each other? a. Close proximity b. No near conta c t c. Both (a) and (b) d. None of these

7. _____ __ contain in fo rmation which is readable by other devices, however it cannot read information itself. a. Active NFC devices b. Dumb NFC devices c. Passive NFC devices d. None of these

8. NFC devices work on the p r inciple of _______ ? a. Magnetic introduction b. Magnetic induction c. Both (a) and (b) d. None of these

9. Which of these is NOT a m ode of operation NFC? a. Server-to-Server b. Peer-to-Peer c. Read/Write d. Card emulation

10. State whether the following statement is true or false Statement: Paging in Bluetooth is the process of form i ng a connection between two Bluetooth devices. a. True b. False

11. There are __ modes of operation in Blu e tooth. a. 3 b. 4 c. 5 d. None of these

12. Zwave uses __ for signaling and cont r ol? a. Light b. RF c. Sound d. None of these

13. Which of the following is/are not a const r aint on sensor nodes? a. Must consume high power b. Not be adaptive to the environment c. Both (a) and (b) d. None of these

14. _____ _ are simply those that are unable to perform an o p eration; this could be because of power failure and environmental events. a. Normal nodes b. Failed nodes c. Badly failed nodes d. None of these

15. Dumb behavior of sensor nodes is ___ in nature (as it is dependent on t h e effects of the environmental conditions). a. Temporal b. Spatial c. Both (a) a n d (b) d. None of these

NPTEL Introduction To Internet Of Things Assignment 3 Answers [July 2022]

1. Which of the following handles packets, paging and inquiry in Bluetooth? a. L2CAP b . Baseband c. RFComm d. Physical Radio

2. Which of the following incorporates channel hopping after every packet transmission? a. Zigbee b. WirelessHART c. 6LoWPAN d. None of these

Answers will be Uploaded Shortly and it will be Notified on Telegram, So  JOIN NOW

NPTEL Introduction To Internet Of Things Assignment 3 Answers 2023

3. In “X protocol, a central network controller device sets-up a network with 1 Network ID and multiple node IDs for the devices in it. The nodes with different Network IDs cannot communicate with each other. What is “X*”2 a. Z-wave b. Zigbee c. Bluetooth d. ISA 100.11A

4. In the context of Sensor Web , SensorML stands for a. Sensor Modeling language b. Sensor Machine language c. Sensor Markup language d . None of the above

5. Which of the following protocol is best suited to provide interference-free communication while minimizing latency and ensuring quality of service? a. WirelessHART b. ISA100.11A c. Both WirelessHART and ISA100.11A d. None of these

6. Which of the following solution approach is used to overcome the limitation of ineffective wakeup and sensing under rare event monitoring scenario in social sensing? a. Duty-cycle management b . Sleep-cycle management c. Packet transmission management d. Both duty-cycle and sleep-cycle management

👇 For Week 04 Assignment Answers 👇

7. Which of the following technique Bluetooth master uses to avoid collisions during transmission in a Piconet? a. Frequeney Division Multiplexing d Ou b. Frequency Hopping Spread Spectrum c. Time Division Multiplexing d. Direct Sequence Spread Spectrum

8 . Which of the following limitation is faced by total co-operation in Wireless Ad Hoc and Sensor Networks? a. Decreasing network throughput b. Decreasing energy c. Both (a) and (b) d. No limitation exists

9. Which of the following can function over a reliable packet transfer protocol? a. L2CAP b. Service Discovery Protocol c. RFComm d. Physical Radio

10. In which of the following mode, NFC devices can act as both readers as well as tags? a. Reader/writer b. P2P c. Emulation d. NFC devices can’t act as both readers as well as tags

11. In WSN, Information theoretic self-management (INTSEM) controls the transmission rate of a node by adjusting a node’s a. Duty cycle b. Lifetime c. Sleep time d. Can’t control the transmission rate

12. Which of the following layer of ISA 100.11A supports mesh routing? a. Netwok layer b. Data link layer c. Transport layer d . MAC layer

13. Which of the following is used to avoid interference-prone channels in HART? a. Channel blacklisting b. Channel switching c. Channel hopping d. Super-trames

14. When the devices are not in range, messages are routed through different nodes to bypass obstructions created by household appliances or layouts. Which of the following exhibit such characteristic of avoiding radio dead-spots? a. Bluetooth b. 6LoWPAN c. Z-wave d. Zigbee

15. Which of the following is TRUE in tems of power (in mW) and range (in m) of the classes of Bluetooth devices? a. Class-1: Power=100mW, Range=100m b. Class-2: Power=2.5 mW, Range=100m c. Class-1: Power=2.5 mW, Range=100m d. Class-2: Power=100 mW , Range=100m

For More NPTEL Answers:-  CLICK HERE

Join Our Telegram:-  CLICK HERE

NPTEL Introduction To Internet Of Things Assignment Answers
NPTEL 2022 (July – Dec)
Answer Link
Week 1
Week 2
Week 3
Week 4
Week 5
Week 6
Week 7
Week 8
Week 9
Week 10
Week 11
Week 12

What is Introduction To Internet Of Things?

Introduction to the Internet Of Things is a fun-filled course where Domain Certification helps learners to gain expertise in specific areas/Doman. This can be helpful for learners who wish to work in a particular area as part of their job or research or for those appearing for some competitive exam or becoming job-ready or specializing in an area of study

CRITERIA TO GET A CERTIFICATE

Average assignment score = 25% of the average of best 8 assignments out of the total 12 assignments given in the course. Exam score = 75% of the proctored certification exam score out of 100

Final score = Average assignment score + Exam score

YOU WILL BE ELIGIBLE FOR A CERTIFICATE ONLY IF THE AVERAGE ASSIGNMENT SCORE >=10/25 AND EXAM SCORE >= 30/75. If one of the 2 criteria is not met, you will not get the certificate even if the Final score >= 40/100.

NPTEL Introduction To Internet Of Things Assignment 3 Answers [Jan 2022]

Q1. In general, Z-wave protocol for communication among devices is used for ________.

a. Topology management  b. Home automation  c. Network configuration  d. None of the above

Answer:- b. Home automation 

👇 FOR NEXT WEEK ASSIGNMENT ANSWERS 👇

Q2. Which of the following characteristic of HART Data Link Layer helps it achieve collision-free and deterministic communication? 

a. Super-frames  b. Channel hopping  c. Channel blacklisting  d. All of the above

Answer:- a. Super-frames 

Q3. Which of the following is the basis for Bluetooth technology? 

a. Ad-hoc piconets  b. Ad-hoc technology  c. Both (a) and (b)  d. None of the above

Answer:- c. Both (a) and (b) 

Q4. Which of the following protocol uses healing (message) to bypass radio dead-spots? 

a. HART  b. NFC  c. Z-wave  d. None of the above

Answer:- c. Z-wave 

Q5. Which of the following nodes send false routing messages in the network? 

a. Bad nodes  b. Badly failed nodes  c. Failed nodes  d. All of the above

Answer:- b. Badly failed nodes 

Q6. Which of the following layers provide multiplexing capability in Bluetooth technology? 

a. L2CAP  b. RFComm  c. SDP  d. Baseband

Answer:- a. L2CAP 

Q7. Which of the following component can be considered as optional for a sensor node? 

a. Sensing unit  b. Transceiver  c. Location finding unit  d. None of the above

Answer:- c. Location finding unit 

Q8. Which of the following provide energy to peer-to-peer tags? 

a. Reader  b. Own power source  c. Both (a) and (b)  d. Doesn’t require energy

Answer:- b. Own power source 

Q9. Which of the following schemes re-establish the connectivity between dumb nodes with others? 

a. CoRD  b. CaRAD  c. Both (a) and (b)  d. None of the above

Answers:- a. CoRD 

Q10. Which layer of Bluetooth handles paging? 

Answer:- d. Baseband

Q11. In general, is it advisable to increase the duty cycle of a node in case of rare events for social sensing? 

a. Yes  b. No  c. Not Applicable

Answer:- b. No 

Q12. Is Zigbee Pro compatible with Zigbee RF4CE? 

Q13. Which of the following is True? 

a. Scatternet is a subset of Piconet  b. Piconet is a subset of Scatternet  c. A device can be a master in more than one piconet  d. A piconet can have maximum of 10 scatternets

Answers:- For Answer Click Here

Q14. Which of the following suffers in case of total co-operation in wireless ad hoc and sensor networks? 

a. Network delay  b. Network throughput  c. Node’s lifetime  d.All of the above

Answer:- c. Node’s lifetime 

Q15. Does ISA 100.11A support tunneling mode?

Answer:- a. Yes 

Disclaimer :- We do not claim 100% surety of solutions, these solutions are based on our sole expertise, and by using posting these answers we are simply looking to help students as a reference, so we urge do your assignment on your own.

NPTEL Introduction To Internet Of Things Assignment 3 week 3 Answers 2022:- All the Answers provided here to help the students as a reference, You must submit your assignment at your own knowledge.

6 thoughts on “NPTEL Introduction To Internet Of Things Assignment 3 Answers 2023”

  • Pingback: Introduction To Internet Of Things Assignment 1 Answers 2022
  • Pingback: Introduction To Internet Of Things Assignment 2 Answers 2022
  • Pingback: Introduction To Internet Of Things Assignment 4 Answers 2022
  • Pingback: NPTEL Introduction To Internet Of Things Assignment 5 Answers 2022
  • Pingback: Introduction To Internet Of Things Assignment 6 Answers 2022
  • Pingback: Introduction To Internet Of Things Assignment 7 Answers 2022

Leave a Comment Cancel reply

You must be logged in to post a comment.

Please Enable JavaScript in your Browser to Visit this Site.

  • Computer Science and Engineering
  • NOC:Introduction to internet of things (Video) 
  • Co-ordinated by : IIT Kharagpur
  • Available from : 2017-06-08
  • Intro Video
  • Lecture 1 : Introduction to IoT- Part-I
  • Lecture 2 : Introduction to IoT- Part-II
  • Lecture 3: Sensing
  • Lecture 4 : Actuation
  • Lecture 5 : Basics of IoT Networking- Part- I
  • Lecture 6 : Basics of IoT Networking-Part II
  • Lecture 7 : Basics of IoT Networking-Part- III
  • Lecture 8 : Basics of IoT Networking- Part-IV
  • Lecture 9 : Connectivity Technologies- Part-I
  • Lecture 10 : Connectivity Technologies- Part-II
  • Lecture 11:Connectivity Technologies- Part-III
  • Lecture 12: Connectivity Technologies- Part- IV
  • Lecture 13: Connectivity Technologies- Part- V
  • Lecture 14: Sensor Networks- Part- I
  • Lecture 15: Sensor Networks- Part- II
  • Lecture 16: Sensor Networks- Part-III
  • Lecture 17: Sensor Networks- Part- IV
  • Lecture 18: Sensor Networks- Part- V
  • Lecture 19: UAV Networks
  • Lecture 20: Machine to Machine Communication
  • Lecture 21 : Interoperability in Internet of Things
  • Lecture 22 : Introduction to Arduino- I
  • Lecture 23 : Introduction to Arduino- II
  • Lecture 24 : Integration of Sensors and Actuators with Arduino- I
  • Lecture 25 : Integration of Sensors and Actuators with Arduino- II
  • Lecture 26 : Introduction to Python Programming- I
  • Lecture 27 : Introduction to Python Programming- II
  • Lecture 28 : Introduction to Raspberry Pi- I
  • Lecture 29 : Introduction to Raspberry Pi- II
  • Lecture 30 : Implementation of IoT with Raspberry Pi- I
  • Lecture 31 : Implementation of IoT with Raspberry Pi- II
  • Lecture 32 : Implementation of IoT with Raspberry Pi- III
  • Lecture 33 : Software Defined Networking- Part- I
  • Lecture 34 : Software Defined Networking- Part- II
  • Lecture 35 : Software Defined IoT Networking- Part- I
  • Lecture 36 : Software Defined IoT Networking- II
  • Lecture 37 : Cloud Computing-Fundamental
  • Lecture 38 : Cloud Computing-Service Model
  • Lecture 39 : Cloud Computing-Service Management and Security
  • Lecture 40 : Cloud Computing- Case Studies
  • Lecture 41 : Cloud Computing- Practical
  • Lecture 42 : Sensor-Cloud- I
  • Lecture 43 : Sensor-Cloud- II
  • Lecture 44 : Fog Computing- I
  • Lecture 45 : Fog Computing- II
  • Lecture 46 : Smart Cities and Smart Homes- I
  • Lecture 47 : Smart Cities and Smart Homes- II
  • Lecture 48 : Smart Cities and Smart Homes- III
  • Lecture 49 : Connected Vehicles- I
  • Lecture 50 : Connected Vehicles- II
  • Lecture 51: Smart Grid- I
  • Lecture 52: Smart Grid- II
  • Lecture 53: Industrial Internet of Things- I
  • Lecture 54: Industrial Internet of Things- II
  • Lecture 55: Data Handling and Analytics- I
  • Lecture 56: Data Handling and Analytics- II
  • Lecture 57: Case Study: Agriculture
  • Lecture 58: Case Study: Healthcare
  • Lecture 59: Case Study: Activity Monitoring - I
  • Lecture 60: Case Study: Activity Monitoring - II
  • Live Session 20-09-2021
  • Live Session 20-10-2021
  • Live Session 09-02-2021
  • Live Session 05-03-2021
  • Live Session 01-04-2021
  • Live Session 07-10-2020
  • Live Session 26-11-2020
  • Live Session 10-12-2020
  • Live Session 12-09-2019
  • Live Session 22-10-2019
  • Live Session 25-10-2019
  • Watch on YouTube
  • Assignments
  • Download Videos
  • Transcripts
  • Lecture Notes (1)
NameDownloadDownload Size
Lecture Note 36M
Module NameDownload
noc20_cs22_assigment_1
noc20_cs22_assigment_10
noc20_cs22_assigment_11
noc20_cs22_assigment_12
noc20_cs22_assigment_13
noc20_cs22_assigment_2
noc20_cs22_assigment_3
noc20_cs22_assigment_4
noc20_cs22_assigment_5
noc20_cs22_assigment_6
noc20_cs22_assigment_7
noc20_cs22_assigment_8
noc20_cs22_assigment_9
Sl.No Chapter Name MP4 Download
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name English
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Bengali
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Gujarati
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Hindi
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Malayalam
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Tamil
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Chapter Name Telugu
1Lecture 1 : Introduction to IoT- Part-I
2Lecture 2 : Introduction to IoT- Part-II
3Lecture 3: Sensing
4Lecture 4 : Actuation
5Lecture 5 : Basics of IoT Networking- Part- I
6Lecture 6 : Basics of IoT Networking-Part II
7Lecture 7 : Basics of IoT Networking-Part- III
8Lecture 8 : Basics of IoT Networking- Part-IV
9Lecture 9 : Connectivity Technologies- Part-I
10Lecture 10 : Connectivity Technologies- Part-II
11Lecture 11:Connectivity Technologies- Part-III
12Lecture 12: Connectivity Technologies- Part- IV
13Lecture 13: Connectivity Technologies- Part- V
14Lecture 14: Sensor Networks- Part- I
15Lecture 15: Sensor Networks- Part- II
16Lecture 16: Sensor Networks- Part-III
17Lecture 17: Sensor Networks- Part- IV
18Lecture 18: Sensor Networks- Part- V
19Lecture 19: UAV Networks
20Lecture 20: Machine to Machine Communication
21Lecture 21 : Interoperability in Internet of Things
22Lecture 22 : Introduction to Arduino- I
23Lecture 23 : Introduction to Arduino- II
24Lecture 24 : Integration of Sensors and Actuators with Arduino- I
25Lecture 25 : Integration of Sensors and Actuators with Arduino- II
26Lecture 26 : Introduction to Python Programming- I
27Lecture 27 : Introduction to Python Programming- II
28Lecture 28 : Introduction to Raspberry Pi- I
29Lecture 29 : Introduction to Raspberry Pi- II
30Lecture 30 : Implementation of IoT with Raspberry Pi- I
31Lecture 31 : Implementation of IoT with Raspberry Pi- II
32Lecture 32 : Implementation of IoT with Raspberry Pi- III
33Lecture 33 : Software Defined Networking- Part- I
34Lecture 34 : Software Defined Networking- Part- II
35Lecture 35 : Software Defined IoT Networking- Part- I
36Lecture 36 : Software Defined IoT Networking- II
37Lecture 37 : Cloud Computing-Fundamental
38Lecture 38 : Cloud Computing-Service Model
39Lecture 39 : Cloud Computing-Service Management and Security
40Lecture 40 : Cloud Computing- Case Studies
41Lecture 41 : Cloud Computing- Practical
42Lecture 42 : Sensor-Cloud- I
43Lecture 43 : Sensor-Cloud- II
44Lecture 44 : Fog Computing- I
45Lecture 45 : Fog Computing- II
46Lecture 46 : Smart Cities and Smart Homes- I
47Lecture 47 : Smart Cities and Smart Homes- II
48Lecture 48 : Smart Cities and Smart Homes- III
49Lecture 49 : Connected Vehicles- I
50Lecture 50 : Connected Vehicles- II
51Lecture 51: Smart Grid- I
52Lecture 52: Smart Grid- II
53Lecture 53: Industrial Internet of Things- I
54Lecture 54: Industrial Internet of Things- II
55Lecture 55: Data Handling and Analytics- I
56Lecture 56: Data Handling and Analytics- II
57Lecture 57: Case Study: Agriculture
58Lecture 58: Case Study: Healthcare
59Lecture 59: Case Study: Activity Monitoring - I
60Lecture 60: Case Study: Activity Monitoring - II
Sl.No Language Book link
1English
2Bengali
3Gujarati
4Hindi
5KannadaNot Available
6Malayalam
7MarathiNot Available
8Tamil
9Telugu

swayam-logo

Introduction To Internet Of Things

--> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> --> -->

Note: This exam date is subjected to change based on seat availability. You can check final exam date on your hall ticket.

Page Visits

Course layout, books and references, instructor bio.

nptel introduction to internet of things assignment 9 answers 2023

Prof. Sudip Misra

Course certificate.

nptel introduction to internet of things assignment 9 answers 2023

DOWNLOAD APP

nptel introduction to internet of things assignment 9 answers 2023

SWAYAM SUPPORT

Please choose the SWAYAM National Coordinator for support. * :

Introduction To Internet Of Things Week 3

Session: JAN-APR 2024

Course Name: Introduction To Internet Of Things

Course Link: Click Here

For answers or latest updates join our telegram channel: Click here to join

These are Introduction To Internet Of Things Week 3 Assignment 3 Answers

Q1. State whether the following statement is true or false. Statement: There is no network layer in Wired HART a. True b. False

Answer: a. True

Q2. HART operates only in ________ GHz ISM band. a. 2.4 b. 4.8 c. 4.9 d. 4.4

Answer: a. 2.4

Q3. Super-frames in HART consist of grouped _______ wide timeslots. a. 10ms b. 20ms c. 55ms d. None of these

Answer: a. 10ms

Q4. The process of identifying channels consistently affected by interference and removing them from use is known as _________. a. Channel hopping b. Channel aggregating c. Frequency aggregating d. Channel blacklisting

Answer: d. Channel blacklisting

Q5. State whether the following statement is True or False Statement: Each node is supervised by the application manager and it guides them on when and where to send packets. a. True b. False

Answer: b. False

Q6. FeliCa is commonly found in which country? a. Japan b. India c. USA d. None of these

Answer: a. Japan

Q7. State whether the following state is true or false. Statement: NFC tags found in supermarket products are examples of passive NFC. a. True b. False

Q8. Active NFC devices are able to _____________? a. transmit information b. collect information c. Both (a) and (b) d. None of these

Answer: c. Both (a) and (b)

Q9. A_________ in NFC emits a small electric current which creates a magnetic field that in turn bridges the physical space between the devices. a. reader b. writer c. destroyer d. None of these

Answer: a. reader

Q10. Bluetooth technology is based on ____________. a. WiFi b. LoRa c. Ad-hoc technology d. None of these

Answer: c. Ad-hoc technology

Q11. Bluetooth technology operates in the unlicensed industrial, scientific and medical (ISM) band at _______ to ________ GHz. a. 3.2, 5.6 b. 2.4, 2.485 c. 5.0, 5.89 d. None of these

Answer: b. 2.4, 2.485

Q12. Z-wave operates at ________ MHz in the US and ________ MHz in Europe. a. 1008, 989 b. 908.42, 868.42 c. 767.56, 855.28 d. None of these

Answer: b. 908.42, 868.42

Q13. State whether the following statement is true or false. Statement: Sensor nodes have limited battery life. a. True b. False

Q14. State whether the following statement is true or false. Statement: The Link Manager Protocol in Bluetooth manages the establishment, authentication, link configuration. a. True b. False

Q15. Zigbee commonly uses _________ data rate. a. 250 kbps b. 250 Mbps c. 260 kbps d. 260 Mbps

Answer: a. 250 kbps

More Weeks of Introduction To Internet Of Things: Click here

More Nptel Courses: Click here

Session: JULY-DEC 2023

Q1. State whether the following statement is true or false. Statement: Wired HART lacks a network layer. a. True b. False

Q2. The HART physical layer is derived from _ protocol and operates only in ___ GHz ISM band. a. IEEE 802.15.4, 2.4 b. IEEE 802.15.4, 4.8 c. IEEE 802.16.5, 4.8 d. None of these

Answer: a. IEEE 802.15.4, 2.4

Q3. State whether the following statement is True or False Statement: Super-frames in HART consist of grouped 20ms wide timeslots. a. True b. False

Q4. _____ identifies channels consistently affected by interference and removes them from use. a. Channel hopping b. Channel aggregating c. Channel blacklisting d. Frequency aggregating

Answer: c. Channel blacklisting

Q5. The _____ supervises each node in the network and guides them on when and where to send packets. a. Application manager b. Network manager c. Trust manager d. None of these

Answer: b. Network manager

Q6. NFC is designed for use by devices within _ to each other? a. Close proximity b. No near contact c. Both (a) and (b) d. None of these

Answer: a. Close proximity

Q7. __ contain information which is readable by other devices, however it cannot read information itself. a. Active NFC devices b. Dumb NFC devices c. Passive NFC devices d. None of these

Answer: c. Passive NFC devices

Q8. NFC devices work on the principle of _______ ? a. Magnetic introduction b. Magnetic induction c. Both (a) and (b) d. None of these

Answer: b. Magnetic induction

Q9. Which of these is NOT a mode of operation NFC? a. Server-to-Server b. Peer-to-Peer c. Read/Write d. Card emulation

Answer: a. Server-to-Server

Q10. State whether the following statement is true or false Statement: Paging in Bluetooth is the process of forming a connection between two Bluetooth devices. a. True b. False

Q11. There are __ modes of operation in Bluetooth. a. 3 b. 4 c. 5 d. None of these

Answer: b. 4

Q12. Zwave uses __ for signaling and control? a. Light b. RF c. Sound d. None of these

Answer: b. RF

Q13. Which of the following is/are not a constraint on sensor nodes? a. Must consume high power b. Not be adaptive to the environment c. Both (a) and (b) d. None of these

Q14. _ are simply those that are unable to perform an operation; this could be because of power failure and environmental events. a. Normal nodes b. Failed nodes c. Badly failed nodes d. None of these

Answer: b. Failed nodes

Q15. Dumb behavior of sensor nodes is ___ in nature (as it is dependent on the effects of the environmental conditions). a. Temporal b. Spatial c. Both (a) and (b) d. None of these

Answer: a. Temporal

Session: JAN-APR 2023

Q1. Choose the correct option based on the following two statements on the HART Physical Layer. Statement-I : It is derived from the IEEE 802.15.4 protocol. Statement-II : It operated only in the 2.4 GHz ISM band. a. Statement-I True and Statement-II False b. Statement-I False and Statement-II True c. Both Statements I and II are False d. Both Statements I and II are True

Answer: d. Both Statements I and II are True

Q2. Which of the following characteristic of HART Data Link Layer helps to increase reliability and security? a. Channel Hopping and Channel Blacklisting b. Channel Crunching and Jamming c. Scattering d. All of these

Answer: a. Channel Hopping and Channel Blacklisting

Q3. State True or False Statement : Channel blacklisting in HART identifies channels consistently affected by interference and removes them from use. a. True b. False

Q4. At the MAC layer – Statement-I : WirelessHART utilizes Time Division Multiple Access (TDMA). Statement-II : ZigBee applies Carrier Sense Multiple Access with Collision Detection (CSMA/CD). a. Statement-I True and Statement-II False b. Statement-I False and Statement-II True c. Both Statements I and II are False d. Both Statements I and II are True

Answer: a. Statement-I True and Statement-II False

Q5. NFC works on the principal of a. Pressure b. Magnetic Induction c. Both (a) and (b) d. None of these

Answer: b. Magnetic Induction

Q6. Bluetooth technology is based on Ad-hoc technology also known as? a. Ad-hoc Piconets b. Ad-hoc Micronets c. Ad-hoc Nanonets d. None of these

Answer: a. Ad-hoc Piconets

Q7. Class 2 Bluetooth radios have a range of about? a. 1 m b. 2 m – 5 m c. 10m d. None of these

Answer: c. 10m

Q8. Which of the following is NOT a phase in Bluetooth connection establishment? a. Inquiry b. Booking c. Paging d. Connection

Answer: b. Booking

Q9. Zwave can support ________ number of nodes in a network? a. 232 b. 233 c. 234 d. 235

Answer: a. 232

Q10. Topologies allowed in ISA 100.11A are? a. Ring Only b. Mesh and Hybrid c. Mesh and Ring d. Mesh and Star/Tree

Answer: d. Mesh and Star/Tree

Q11. An example of an Operating System (OS) that a sensor node can have is? a. MicronOS b. TinyoOS c. Both (a) and (b) d. None of these

Answer: b. TinyoOS

Q12. Which of the following is NOT a constraint on sensor nodes? a. Must consume extremely low power b. Be non-autonomous c. Be adaptive to environment d. None of these

Answer: b. Be non-autonomous

Q13. Nodes in WSNs that exhibit features of failed nodes but they can also send false routing messages which are a threat to the integrity of the network are called? a. Normal Nodes b. Badly Failed Nodes c. Failed Nodes d. Selfish Nodes

Answer: b. Badly Failed Nodes

Q14. Which of the following are the two popular schemes to re-establish the connectivity between dumb nodes with others? a. COARD and CORD b. CoRAD and COARD c. CORD and CORAD d. None of these

Answer: c. CORD and CORAD

Q15. Full form of WBAN is? a. Wireless Body Area Network b. Wirelessed Body Area Network c. Wireless Bodily Area Network d. None of these

Answer: a. Wireless Body Area Network

All weeks of Introduction to Internet of Things: Click Here

More Nptel courses: Click Here

Session: Jul-Dec 2022

Link to Enroll: Click Here

Q1. Which of the following handles packets, paging and inquiry in Bluetooth? a. L2CAP b. Baseband c. RFComm d. Physical Radio

Answer: b. Baseband

Q2. Which of the following incorporates channel hopping after every packet transmission? a. Zigbee b. WirelessHART c. 6LoWPAN d. None of these

Answer: b. WirelessHART

Q3. In “X protocol, a central network controller device sets-up a network with 1 Network ID and multiple node IDs for the devices in it. The nodes with different Network IDs cannot communicate with each other. What is “X*”2 a. Z-wave b. Zigbee c. Bluetooth d. ISA 100.11A

Answer: a. Z-wave

Q4. In the context of Sensor Web, SensorML stands for a. Sensor Modeling language b. Sensor Machine language c. Sensor Markup language d. None of the above

Answer: a. Sensor Modeling language

Q5. Which of the following protocol is best suited to provide interference-free communication while minimizing latency and ensuring quality of service? a. WirelessHART b. ISA100.11A c. Both WirelessHART and ISA100.11A d. None of these

Answer: d. None of these

Q6. Which of the following solution approach is used to overcome the limitation of ineffective wakeup and sensing under rare event monitoring scenario in social sensing? a. Duty-cycle management b. Sleep-cycle management c. Packet transmission management d. Both duty-cycle and sleep-cycle management

Answer: a. Duty-cycle management

Q7. Which of the following technique Bluetooth master uses to avoid collisions during transmission in a Piconet? a. Frequeney Division Multiplexing d Ou b. Frequency Hopping Spread Spectrum c. Time Division Multiplexing d. Direct Sequence Spread Spectrum

Answer: c. Time Division Multiplexing

Q8. Which of the following limitation is faced by total co-operation in Wireless Ad Hoc and Sensor Networks? a. Decreasing network throughput b. Decreasing energy c. Both (a) and (b) d. No limitation exists

Q9. Which of the following can function over a reliable packet transfer protocol? a. L2CAP b. Service Discovery Protocol c. RFComm d. Physical Radio

Answer: b. Service Discovery Protocol

Q10. In which of the following mode, NFC devices can act as both readers as well as tags? a. Reader/writer b. P2P c. Emulation d. NFC devices can’t act as both readers as well as tags

Answer: b. P2P

Q11. In WSN, Information theoretic self-management (INTSEM) controls the transmission rate of a node by adjusting a node’s a. Duty cycle b. Lifetime c. Sleep time d. Can’t control the transmission rate

Answer: c. Sleep time

Q12. Which of the following layer of ISA 100.11A supports mesh routing? a. Netwok layer b. Data link layer c. Transport layer d. MAC layer

Answer: b. Data link layer

Q13. Which of the following is used to avoid interference-prone channels in HART? a. Channel blacklisting b. Channel switching c. Channel hopping d. Super-trames

Answer: b. Channel switching

Q14. When the devices are not in range, messages are routed through different nodes to bypass obstructions created by household appliances or layouts. Which of the following exhibit such characteristic of avoiding radio dead-spots? a. Bluetooth b. 6LoWPAN c. Z-wave d. Zigbee

Answer: c. Z-wave

Q15. Which of the following is TRUE in tems of power (in mW) and range (in m) of the classes of Bluetooth devices? a. Class-1: Power=100mW, Range=100m b. Class-2: Power=2.5 mW, Range=100m c. Class-1: Power=2.5 mW, Range=100m d. Class-2: Power=100 mW, Range=100m

Answer: a. Class-1: Power=100mW, Range=100m

More NPTEL Solutions: https://progies.in/answers/nptel

These are Introduction To Internet Of Things Week 3 Assignment 3 Answers

Course Status : Completed
Course Type : Elective
Duration : 12 weeks
Category :
Credit Points : 3
Undergraduate
Start Date : 23 Jan 2023
End Date : 14 Apr 2023
Enrollment Ends : 06 Feb 2023
Exam Registration Ends : 17 Mar 2023
Exam Date : 30 Apr 2023 IST
The content uploaded on this website is for reference purposes only. Please do it yourself first.

IMAGES

  1. Introduction to Internet of Things Week 9 || NPTEL Answers 2023 || MY SWAYAM || Jul

    nptel introduction to internet of things assignment 9 answers 2023

  2. NPTEL Introduction to Internet of Things Week 9 Quiz Assignment

    nptel introduction to internet of things assignment 9 answers 2023

  3. NPTEL

    nptel introduction to internet of things assignment 9 answers 2023

  4. NPTEL Introduction to Internet of Things Week 9 Quiz Assignment Solution

    nptel introduction to internet of things assignment 9 answers 2023

  5. Introduction to Internet Of Things|| WEEK-9 NPTEL Assignment Answers||#iot||#NPTEL||#SKumarEdu||

    nptel introduction to internet of things assignment 9 answers 2023

  6. NPTEL:Introduction to industry 4.0 and Industrial Internet of Things

    nptel introduction to internet of things assignment 9 answers 2023

VIDEO

  1. Introduction To Industry 4.0 And IIoT week 10 assignment answer

  2. Nptel Introduction To Industry 4.0 And Industrial Internet Of Things Week 5 Assignment 5 Answers

  3. Introduction to Internet of Things|| WEEK-10 Quiz assignment Answers 2023||NPTEL||IoT||#SKumarEdu

  4. Introduction to IOT Week 9 Assignment Answers

  5. Introduction To Internet Of Things

  6. Introduction To Industry 4.0 And IIoT week 9 assignment answer

COMMENTS

  1. NPTEL Introduction to Internet of Things Week 9 Quiz Assignment

    🔊#NPTEL Introduction to Internet of Things Week 9 Quiz Assignment Solution | Jan 2023 | IIT Kharagpur | https://techiestalk.in/⛳ABOUT THE COURSE :Internet o...

  2. NPTEL Introduction to Internet of Things Week 9 Assignment Answers

    #iot #internetofthings #iotnptelIntroduction to Internet of ThingsIn this video, we're going to unlock the answers to the Introduction to Internet of Things ...

  3. Introduction To Internet Of Things

    Due to unavoidable circumstances, The Problem solving Session organized tomorrow (March 17, 2023 - Friday) (06.00 PM - 08.00 PM) is Postponed to March 25, 2023 - Saturday. The G-meet link for the session will be shared before the session. -NPTEL Team. Introduction To Internet Of Things Week 9 Feedback form.

  4. NPTEL IOT WEEK-9 ASSIGNMENT-9 ANSWERS 2023

    Dear all,Mark the answer of 14 as "d" instead of c Join this channel to get access to perks:https://www.youtube.com/channel/UCYTShEnB7tKh4s0f071edyQ/joinHi A...

  5. NPTEL Assignment Answers 2024 And Solutions Progiez

    Academic Paper Writing and IPR Become a Business Analytics & Developing Manager Creativity and Critical Thinking Design Thinking and Creativity for Innovation Entrepreneurship Ethics and Gender Equality Interpersonal Skills with Cultural Knowledge & Intrapersonal Awareness Learning and Problem Solving Skills Team Skills Time Management and ways of Thinking

  6. NPTEL Introduction To Internet Of Things Assignment 9 Answers 2023

    In conclusion, NPTEL's Introduction To Internet Of Things Assignment 9 for 2023 (July-Oct) covering Cloud Computing and Sensor-Cloud is a captivating exploration of IoT's cutting-edge technologies. We've uncovered the essentials, discussed answers to key questions, and shed light on the future trends in this field.

  7. Introduction To Internet Of Things IOT Nptel Answers 2023

    Introduction To Internet Of Things Week 3. 1 2 Next page. Introduction to internet of things iot nptel answers 2023 is available now on progiez. these are nptel 2023 answers assignmment for all week.

  8. Introduction To Internet Of Things Week 9 Assignment 9 Ans

    Answer: b. Sensor division. These are Introduction To Internet Of Things Week 9 Assignment 9 Answers. 7) Considering the end-to-end architecture of a WSN, from the physical sensor nodes right up to the users, sensor-cloud supports different entities to have ownership of the different layers and components simultaneously.

  9. NOC

    Course abstract. Internet of Things (IoT) is presently a hot technology worldwide. Government, academia, and industry are involved in different aspects of research, implementation, and business with IoT. IoT cuts across different application domain verticals ranging from civilian to defence sectors. These domains include agriculture, space ...

  10. Introduction to internet of things

    Internet of Things (IoT) is presently a hot technology worldwide. Government, academia, and industry are involved in different aspects of research, implement...

  11. NPTEL Introduction To Internet Of Things Assignment 1 Answers 2023

    a. True b. False. Answer :- a The statement is true.The increasing number of devices in the Internet of Things (IoT) is expected to result in an address crunch. As more and more devices get connected to the internet and the IoT ecosystem grows, there is a concern that the current Internet Protocol version 4 (IPv4) address space may become insufficient to accommodate all these devices.

  12. Introduction To Internet Of Things

    October 2023 NPTEL Exams - Hall Tickets Released! ... Introduction To Internet Of Things - Assignment- 12 Solution Released Dear Learners, The ... Introduction To Internet Of Things - Week 9 Feedback Form Dear Learners, Thank you for enrolling in this NPTEL course and we hope you have gone through the contents for this week and also attempted ...

  13. NPTEL Introduction To Internet Of Things Assignment 3 Answers 2023

    NPTEL Introduction To Internet Of Things Week 3 Assignment Answers 2023. 1. State whether the following statement is true or fal s e. Statement: Wired HART lacks a network layer. a. Tru e. b. False. Answer :- For Answer Click Here.

  14. Introduction To Internet Of Things

    This course is being reoffered in Jan 2023 and we are giving you another chance to write the exam in April 2023 and obtain a certificate based on NPTEL norms. Do not let go of this unique opportunity to earn a certificate from the IITs/IISc. ... Introduction To Internet Of Things - Assignment-9 Solution Released ... Introduction To Internet Of ...

  15. NPTEL Introduction to Internet of Things Week 5 Assignment 5 Solution

    As we step into the realm of Assignment 5, we are met with a confluence of concepts that test our understanding of IoT fundamentals. This section will unravel the assignment's core components, bridging theory and application. NPTEL Introduction To Internet Of Things Assignment 5 Answers 2023 (July-Oct): Interoperability in IoT

  16. Introduction to internet of things

    Learners enrolled: 28320. Internet of Things (IoT) is presently a hot technology worldwide. Government, academia, and industry are involved in different aspects of research, implementation, and business with IoT. IoT cuts across different application domain verticals ranging from civilian to defence sectors. These domains include agriculture ...

  17. NPTEL :: Computer Science and Engineering

    NPTEL :: Computer Science and Engineering - NOC:Introduction to internet of things. Courses. Computer Science and Engineering. NOC:Introduction to internet of things (Video) Syllabus. Co-ordinated by : IIT Kharagpur. Available from : 2017-06-08. Lec : 1. Watch on YouTube.

  18. NPTEL Introduction to Internet of Things Week 1 Assignment ...

    Welcome to our detailed walkthrough of the "NPTEL Introduction to Internet of Things Week 1 Assignment Solution for July 2024," presented by IIT Kharagpur. T...

  19. Introduction To Internet Of Things

    ABOUT THE COURSE : Internet of Things (IoT) is presently a hot technology worldwide. Government, academia, and industry are involved in different aspects of research, implementation, and business with IoT. IoT cuts across different application domain verticals ranging from civilian to defence sectors. These domains include agriculture, space ...

  20. Introduction To Internet Of Things Week 3 Assignment 3 Ans

    These are Introduction To Internet Of Things Week 3 Assignment 3 Answers. Q1. Choose the correct option based on the following two statements on the HART Physical Layer. Statement-I : It is derived from the IEEE 802.15.4 protocol. Statement-II : It operated only in the 2.4 GHz ISM band.

  21. Introduction To Internet Of Things

    Introduction To Internet Of Things NPTEL Assignment Week 5 (2023)#iot #week5 #nptel_assignmentHere in this video, we solve the week 5 assignment of the NPTEL...

  22. Introduction To Internet Of Things week 8 NPTEL assignment answers

    Welcome to our channel! In this video, we provide answers for the Week 8 assignment in Introduction To Internet Of Things. Whether you're a student working o...