Coursera
Coursera Logo

IoT Communications and Networks 

  • Offered byCoursera

IoT Communications and Networks
 at 
Coursera 
Overview

Duration

16 hours

Total fee

Free

Mode of learning

Online

Official Website

Explore Free Course External Link Icon

Credential

Certificate

IoT Communications and Networks
 at 
Coursera 
Highlights

  • Earn a Certificate upon completion
Details Icon

IoT Communications and Networks
 at 
Coursera 
Course details

Skills you will learn
More about this course
  • By presenting the building blocks of the IoT network architecture, this MOOC will help learners adapt to the fast changing communications and networking environment of IoT
  • The IoT world represents billions of sophisticated objects, such as sensors, actuators and meters, that are deployed nearly everywhere, in homes, hospitals, factories, cities, and are connected to the Internet
  • That is what you will learn in this course: how we can set up wireless communications and networking in the IoT to achieve these goals

IoT Communications and Networks
 at 
Coursera 
Curriculum

Welcome to the IoT Communications and Networks MOOC

Welcome to the IoT Communications and Networks MOOC

Topologies in IoT Networking

Navigating Coursera

Getting help

Navigating the Forum

Post a new publication

Forum moderation

Meet the Instructors

Introduce yourself

A short story about this MOOC

Course Organisation

For audit learners only

Course Grading Policy

Get a verified certificate of achievement

Low-power Wireless Mesh Networks

The Potential Topologies

The Protocol Stack Overview

Welcome to Week 1: MAC Methods for IoT

Introduction to Week 1: MAC Methods for IoT

An Overview of the TSCH MAC Protocol

MAC Week Presentation

Introduction to Medium Access Control

Random Access and ALOHA

Random Access and CSMA

Controlled Access

Exercise: Study ALOHA in Depth

IEEE Std 802.15.4-2015 TSCH Mode

Evaluation on MAC Protocols

Build your schedule!

Evaluation on TSCH

Week 2: 6TiSCH Adaptation Layer

Welcome to Week 2: 6TiSCH Adaptation Layer

Introduction to Week 2: 6TiSCH Adaptation Layer

Thomas Watteyne interview

Introduction: What needs does the 6TiSCH layer respond to?

Introduction: Resource Management using 6P and MSF

Introduction: How to build an MSF schedule?

Introduction: The connection process

6TiSCH Week Presentation

Responsibilities of the 6TiSCH layer

Explanation of 6P and the MSF

Explanation of the MSF parameters

How a node connects to an existing network

Quiz on the responsibilities of the 6TiSCH layer

Quiz on 6P and the MSF

Quiz on the MSF parameters

Quiz on the connection process

Week 3: 6LoWPAN Adaptation Layer

Welcome to Week 3: 6LoWPAN Adaptation Layer

Introduction to Week 3: 6LoWPAN Adaptation Layer

Interview: Why 6LoWPAN is employed in Enedis facilities

How 6LoWPAN enables to use IPv6 in IoT?

Examples of the IPv6 Header Compression

6LoWPAN Fragmentation and Reassembly Operations

6LoWPAN Frame Delivery Modes

RFC 8930: 6LoWPAN Fragment Forwarding (6LFF)

6LoWPAN Week Presentation

IPv6 Header Format Overview

6LoWPAN Adaptation Layer

6LoWPAN Stacked Headers

RFC 6282: 6LoWPAN Compression Operation

RFC 4944: 6LoWPAN Fragmentation and Reassembly Operations

Introduction

Mesh-Under

Route-Over (Per-hop Fragmentation & Reassembly)

Route Over (Per-hop Fragmentation & Reassembly): Issues

Introduction

RFC 8930: On Forwarding 6LoWPAN Fragments over a Mesh IPv6 Network

Performance Evaluation

RFC 8931: 6LoWPAN Selective Fragment Recovery

Quiz on IPv6 Header Format

Quiz on 6LoWPAN Overview

Quiz on 6LoWPAN Compression Operation

Quiz on 6LoWPAN Fragmentation and Reassembly Operations

Quiz on Mesh-Under and Route-Over

Quiz on 6LFF

Quiz on 6LoWPAN Selective Fragment Recovery

Practice Lab guide and Quiz

Comprehension Quiz

Week 4: RPL Routing Protocol

Welcome to Week 4: RPL Routing Protocol

Introduction to Week 4: RPL Routing Protocol

Principles of routing in the Internet

Pascal Thubert interview

RPL

DoDAG construction

RPL Week Presentation

Relaying in IP networks and in LLNs

RPL: IPv6 Routing Protocol for Low-Power and Lossy Networks

The DODAG creation with RPL

Metrics and shortest path selection

Quiz on routing principles (1/2)

Quiz on routing principles (2/2)

Quiz on RPL

Exercise on RPL

Exercize on the Objective function OF0

Exercise on the Objective function OF0 and ETX

Tell us about your learning experience on this course!

Other courses offered by Coursera

– / –
3 months
Beginner
– / –
20 hours
Beginner
– / –
2 months
Beginner
– / –
3 months
Beginner
View Other 6715 CoursesRight Arrow Icon
qna

IoT Communications and Networks
 at 
Coursera 

Student Forum

chatAnything you would want to ask experts?
Write here...