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⇱ IoT Communications | Coursera


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IoT Communications

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Gain insight into a topic and learn the fundamentals.
4.7

72 reviews

Intermediate level

Recommended experience

Flexible schedule
1 week at 10 hours a week
Learn at your own pace

Gain insight into a topic and learn the fundamentals.
4.7

72 reviews

Intermediate level

Recommended experience

Flexible schedule
1 week at 10 hours a week
Learn at your own pace

Build your subject-matter expertise

This course is part of the Hands-on Internet of Things Specialization
When you enroll in this course, you'll also be enrolled in this Specialization.
  • Learn new concepts from industry experts
  • Gain a foundational understanding of a subject or tool
  • Develop job-relevant skills with hands-on projects
  • Earn a shareable career certificate

There are 4 modules in this course

This course builds on the previous course: IoT Devices. After we have built and programmed a small self-driving vehicle, now it's time get into more advanced territory and enhance the device's connectivity further. To do so you will study radio frequency (RF) communication, the MAC layer, Mesh Networking as well as distributed algorithms for use with geographic locations. These techniques will be applied to your device in the lab, which is composed of four steps, one in each week of the course. In Week 1, after going over some orientation for the course, you will focus on radio frequency (RF) communication, how it fits in with the larger scope of electromagnetism, how RF signals propagate in physical environments, how RF signals can be used to encode data, and how all this information is useful in constructing resilient and high-bandwidth IoT communication substrates.

Welcome to IoT Communications. This course builds on the previous course: IoT Devices. After we have built and programmed a small self-driving vehicle, now it's time get into more advanced territory and enhance the device's connectivity further. To do so you will study radio frequency (RF) communication, the MAC layer, Mesh Networking as well as distributed algorithms for use with geographic locations. As part of the "Honors" activity, these techniques will be applied to your device in the lab, which is composed of four steps, one in each week of the course. In Week 1, after going over some orientation for the course, you will focus on radio frequency (RF) communication, how it fits in with the larger scope of electromagnetism, how RF signals propagate in physical environments, how RF signals can be used to encode data, and how all this information is useful in constructing resilient and high-bandwidth IoT communication substrates.

What's included

7 videos7 readings2 assignments1 discussion prompt

7 videosβ€’Total 97 minutes
  • Lecture 1: Radio Frequency Communicationsβ€’22 minutes
  • Lecture 2: Antenna Designβ€’11 minutes
  • Lecture 3: Signal Propagationβ€’16 minutes
  • Lecture 4: Attenuationβ€’20 minutes
  • Lecture 5: Spectrum Divisionβ€’8 minutes
  • Lecture 6: Overview of Modulationβ€’9 minutes
  • Lecture 7: Modulation in Practiceβ€’11 minutes
7 readingsβ€’Total 70 minutes
  • About this courseβ€’10 minutes
  • Course Communication and Discussion Forumsβ€’10 minutes
  • Updating your Profileβ€’10 minutes
  • Social Mediaβ€’10 minutes
  • Course Slides PDFsβ€’10 minutes
  • Week 1 Overview β€’10 minutes
  • Lab: Iot Communications Step 1β€’10 minutes
2 assignmentsβ€’Total 40 minutes
  • Week 1 Quizβ€’30 minutes
  • Week 1 Honors Checklistβ€’10 minutes
1 discussion promptβ€’Total 10 minutes
  • Week 1 Discussionβ€’10 minutes

We will learn about the lowest level of communication protocols in IoT - the MAC layer. This is the layer that deals with all the unpleasant and challenging situations that come about through the use of RF in challenging environments. We will learn about mechanisms to efficiently send and receive data, with low power, discover and pair with other nodes, deal with transmission collisions, and so on.

What's included

8 videos2 readings2 assignments1 discussion prompt

8 videosβ€’Total 106 minutes
  • Lecture 1: Collision Detection and Resolutionβ€’16 minutes
  • Lecture 2: Power Saving Algorithmsβ€’10 minutes
  • Lecture 3: Cold Supply Chain Auditingβ€’15 minutes
  • Lecture 4: Power MAC Algorithmsβ€’5 minutes
  • Lecture 5: IEEE 802.15.4 Protocolsβ€’16 minutes
  • Lecture 6: Non-beacon trackingβ€’19 minutes
  • Lecture 7: Global Synchronizationβ€’15 minutes
  • Lecture 8: Long Preamble Synchronizationβ€’11 minutes
2 readingsβ€’Total 20 minutes
  • Week 2 Overview β€’10 minutes
  • Lab: Iot Communications Step 2β€’10 minutes
2 assignmentsβ€’Total 10 minutes
  • Week 2 Quizβ€’0 minutes
  • Week 2 Honors Checklistβ€’10 minutes
1 discussion promptβ€’Total 10 minutes
  • Week 2 Discussionβ€’10 minutes

We will talk about mesh networking, a set of techniques that allow wireless devices to work together to discover and maintain working paths to destinations. These techniques enable communication across multiple hops, by having nodes help each other out, routing through multiple layers of intermediate proxies to construct paths to any destination that needs to be reached. The techniques we talk about in this lecture form the foundation for many operations needed to be conducted in IoT, such as dissemination, replication, multicast, service discovery, and so on.

What's included

12 videos2 readings2 assignments1 discussion prompt

12 videosβ€’Total 147 minutes
  • Lecture 1: Neighbor Discoveryβ€’18 minutes
  • Lecture 2: Mesh Networkingβ€’9 minutes
  • Lecture 3: Types of Addressingβ€’8 minutes
  • Lecture 4: Geographic Addressingβ€’5 minutes
  • Lecture 5: Hierarchical Addressingβ€’10 minutes
  • Lecture 6: Stochastic Addressingβ€’7 minutes
  • Lecture 7: Link State Routingβ€’17 minutes
  • Lecture 8: Distance Vector Routingβ€’12 minutes
  • Lecture 9: Mesh Routingβ€’7 minutes
  • Lecture 10: Optimized Link State Routing (OLSR)β€’19 minutes
  • Lecture 11: Dynamic Source Routing (DSR)β€’22 minutes
  • Lecture 12: Ad-hoc On Demand Distance Vector (AODV)β€’13 minutes
2 readingsβ€’Total 20 minutes
  • Week 3 Overviewβ€’10 minutes
  • Lab: Iot Communications Step 3β€’10 minutes
2 assignmentsβ€’Total 10 minutes
  • Week 3 Quizβ€’0 minutes
  • Week 3 Honors Checklistβ€’10 minutes
1 discussion promptβ€’Total 10 minutes
  • Week 3 Discussionβ€’10 minutes

We will study the next layer up of distributed algorithms that are used in IoT networks. We will continue our exploration of mesh routing, and describe how such techniques can be used to place data at geographic locations, forward in "intermittently-connected" setting, perform multicast, and more.

What's included

4 videos2 readings2 assignments1 discussion prompt

4 videosβ€’Total 47 minutes
  • Lecture 1: Hierarchical Routingβ€’5 minutes
  • Lecture 2: Geographic Routingβ€’25 minutes
  • Lecture 3: Delay-Tolerant Networkingβ€’11 minutes
  • Lecture 4: Gossip Algorithmsβ€’7 minutes
2 readingsβ€’Total 20 minutes
  • Week 4 Overview β€’10 minutes
  • Lab: Submission Instructionsβ€’10 minutes
2 assignmentsβ€’Total 10 minutes
  • Week 4 Quizβ€’0 minutes
  • Week 4 Honors Checklistβ€’10 minutes
1 discussion promptβ€’Total 60 minutes
  • Week 4 Discussion and Lab Submissionβ€’60 minutes

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Prepare for a degree

Taking this course by University of Illinois Urbana-Champaign may provide you with a preview of the topics, materials and instructors in a related degree program which can help you decide if the topic or university is right for you.

Instructor

Instructor ratings
4.5 (22 ratings)
University of Illinois Urbana-Champaign
5 Coursesβ€’38,287 learners

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SM
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Reviewed on Mar 30, 2022

i never see like this coursecourse is very and understandable

AA
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Reviewed on Feb 4, 2023

A very detailed course covering a wide range of topics on IOT communications.

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