Graduate School and Research Center in Digital Sciences
 

Iot Communication Protocols

[ProtIOT]
T Technical Teaching


Abstract

This course covers the Low Power Wide Area Network (LPWAN) protocols dedicated to IOT. LPWAN is a technology that intends to offer Internet connectivity to a large number of objects   ("Things") under very strict requirements in terms of cost, power consumption, long distance, battery life, indoor penetration, etc. This course presents two families of LPWA protocols specially developed for IOT: (i) LPWAN for unlicensed spectrum (e.g. LoRa, SigFox ...) and (ii) Cellular LPWAN for licensed spectrum (e.g. 3GPP LTE Cat. M1 or Cat. NB).

Teaching and Learning Methods: The course is organized in 4 lectures and 3 labs.

Course Policies: Labs are Mandatory (attendance + reports)

Bibliography

-          "Cellular Internet of Things, Technologies, Standards, and Performance", Olof Liberg et al., Elsevier 2018.

-          http://www.sharetechnote.com (LTE - M1)

-          https://youtu.be/Wl8HONDZVto  LPWA in an LTE-M and NB-IOT World.

-          https://youtu.be/Xg_T8Q2W-OUIntroduction to the Sigfox LPWAN  Low Power Wide Area Network

-          https://www.youtube.com/playlist?list=PLcw1TnahFRW-EuxL437_6L1RdUGJqELvwIntroduction to the Sigfox technology

-          https://www.youtube.com/watch?v=hMOwbNUpDQA LoRa / LoRaWAN De-Mystified

-          https://www.lora-alliance.org/

Requirements

This course requires basic knowledge on: networking and computer programming.

Description

-          Introduction to LPWAN technologies, requirements and technical approaches

-          Unlicensed spectrum LPWAN: the example of LoRa

-          Licensed spectrum LPWAN: the example of 3GPP LTE cat. M1

-          Hands on sessions with LoRa    

Learning outcomes:  

-          Be able to register LoRa objects to gateways, and install a communication between the objects and the Internet

-          Be able to compare the various technical approaches to meet LPWAN performance requirements

-          Be able to explain the enhancements to LTE in order to address IoT communications

Nb hours: 21

Grading Policy : Labs (50%), Final exams (50%)

Nb hours: 21.00
Nb hours per week: 3.00