nptel introduction to internet of things assignment 9 answers 2023

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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

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.

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Course Name: Introduction to Internet of Things

• About Course
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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, healthcare, manufacturing, construction, water, and mining, which are presently transitioning their legacy infrastructure to support IoT. Today it is possible to envision pervasive connectivity, storage, and computation, which, in turn, gives rise to building different IoT solutions. IoT-based applications such as innovative shopping system, infrastructure management in both urban and rural areas, remote health monitoring and emergency notification systems, and transportation systems, are gradually relying on IoT based systems. Therefore, it is very important to learn the fundamentals of this emerging technology.

Course Instructor

Prof. Sudip Misra

Teaching assistant(s),  course duration : jul-oct 2021,   view course,  syllabus,  enrollment : 20-may-2021 to 02-aug-2021,  exam registration : 17-jun-2021 to 17-sep-2021,  exam date : 24-oct-2021,   course statistics will be published shortly, certificate eligible, certified category count, successfully completed, participation.

Category : Successfully Completed

Category : Elite

Category : Silver

Category : Gold

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• Assignment Score = Average of best 8 out of 12 assignments.
• Final Score(Score on Certificate)= 75% of Exam Score + 25% of Assignment Score Note:We have taken best assignment score from July 2020,jan 2021 and July 2021 courses

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Steel Authority of India Limited

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Total enrollment: 24034, registration statistics, total registration : 5303, assignment statistics, score distribution graph - legend, assignment score: distribution of average scores garnered by students per assignment., exam score : distribution of the final exam score of students., final score : distribution of the combined score of assignments and final exam, based on the score logic..

NPTEL Introduction To Internet Of Things Assignment 9 Answers 2022

NPTEL Introduction To Internet Of Things Assignment 9 Answers 2022:- All the Answers provided here to help the students as a reference, You must submit your assignment at your own knowledge.

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 1 Answers
NPTEL Introduction To Internet Of Things Assignment 2 Answers
NPTEL Introduction To Internet Of Things Assignment 3 Answers
NPTEL Introduction To Internet Of Things Assignment 4 Answers
NPTEL Introduction To Internet Of Things Assignment 5 Answers
NPTEL Introduction To Internet Of Things Assignment 6 Answers
NPTEL Introduction To Internet Of Things Assignment 7 Answers
NPTEL Introduction To Internet Of Things Assignment 8 Answers
NPTEL Introduction To Internet Of Things Assignment 9 Answers
NPTEL Introduction To Internet Of Things Assignment 10 Answers
NPTEL Introduction To Internet Of Things Assignment 11 Answers	NA
NPTEL Introduction To Internet Of Things Assignment 12 Answers	NA

NPTEL Introduction To Internet Of Things Assignment 9 Answers 2022:-

Q1. OpenStack is proprietary and a closed source software that you have to pay and buy.

a. True  b. False

Answer:- b. False

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Q2. In OpenStack which of the following component takes care of user authentication?

• a. Nova 
• b. Horizon 
• c. Keystone 
• d. None of these

Answer: c. Keystone 

Q3. You cannot ping your OpenStack instance from an outside network unless you connect your instance with the public network through a ____________

• a. Router 
• b. Firewall 
• c. Repeater 
• d. Load balancer

Answer: a. Router 

Q4. What is the primary service model for a sensor cloud?

• a. Hardware-as-a-Service 
• b. Platform-as-a-Service 
• c. Data-as-a-Service 
• d. Sensor-as-a-Service

Answer: d. Sensor-as-a-Service

Q5. You can run two logical computers, one Linux machine and one Windows machine on top of the same physical hardware through the use of ________________.

• a. Sharing 
• b. Scaling 
• c. Virtualization 
• d. Inheritance.

Answer: c. Virtualization 

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Q6. In Sensor Cloud, one physical sensor can be abstracted as multiple virtual sensors.

Q7. In a Sensor cloud framework, the end-users have to continuously worry about owning and managing the physical sensor devices.

Q8. Virtual sensors within a sensor cloud have communication interfaces with _______________.

Q9. Which of the following is true?

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Q10. An organization ABC wishes to have environmental monitoring parameters of a particular region, but does not have the resources to deploy its own physical sensors. However, another organization B has some physical sensors that monitor the environment deployed in that region. Can sensor cloud help in achieving A’s objectives?

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Q11. Referring back to Question 10 (above) and based on your answer, determine the roles that organization A and B play in the given scenario.

Q12. Which among the following is a limitation of cloud computing?

Q13. In Fog computing, the Fog layer acts as an intermediary between the data source and the cloud for immediate processing of time critical data.

Q14. Suppose the one-way communication latency from a device to a Fog layer is 20 ms and that from the device to the cloud layer is 50ms. Data processing time at Fog is 10ms and that at Cloud is 5 ms, after which (i.e completion of data processing) a reply is sent back to the device by the Fog or Cloud. What is the difference between total communication latency (two-way round-trip communication plus processing time at Fog/Cloud) between the device and the Cloud and Fog respectively?

Q15. Which among the following is true?

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Introduction to internet of things

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Course Status :	Completed
Course Type :	Elective
Duration :	12 weeks
Category :
Credit Points :	3
Undergraduate
Start Date :	18 Jan 2021
End Date :	09 Apr 2021
Enrollment Ends :	01 Feb 2021
Exam Date :	24 Apr 2021 IST