Tutorials
The role of the tutorials is to provide a platform for a more intensive scientific exchange amongst researchers interested in a particular topic and as a meeting point for the community. Tutorials complement the depth-oriented technical sessions by providing participants with broad overviews of emerging fields. A tutorial can be scheduled for 1.5 or 3 hours.
Tutorial on
Exploring Emerging Low Power Wireless Technologies for IoT: ZigBee, 6LoWPAN, and LoRaWAN
* CANCELLED *
Instructor
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Ata Elahi
Computer Science, Southern Connecticut State University
United States
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Brief Bio
Ata Elahi is a Professor of Computer Science at Southern Connecticut State University, USA. Dr. Elahi received his Ph.D. in Electrical Engineering from Mississippi State University in 1982. He is the author of the following books:
Computer System: Digital Design, Fundamentals of Computer Architecture and ARM Assembly, Springer, 2018
ARM Assembly Language with Hardware Experiments", Springer, 2015
ZigBee Wireless Sensor and Control Network, published by Prentice Hall, 2010
Data, Network & Internet Communications Technology, published by Thomson Learning 2006
Network Communication Technology published by Delmar Thomson learning 2001
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Abstract
Abstract
The increase of IoT applications has been established in numerous businesses in this field, and their growth is accelerating. According to Fortune Business Inside, the global IoT market is projected to reach $3,352.97 billion by the year 2030.
The Internet of Things (IoT) uses a variety of low-power, long, and short-range wireless network technologies. These include SP100.11 (Wireless Systems for Automation) by the Industrial Standard for Automation (ISA), Wireless HART (Highway Addressable Remote Transducer) by the HART organization, IPv6 over Low Rate Wireless Personal Network (6LoWPAN) by the Internet Engineering Task Force (IETF), Thread Wireless Technology (Thread Group), LoRaWAN by LoRa Alliance, ZigBee by the ZigBee Alliance, and Sigfox. The common applications for wireless sensor and control networks are:
1.Commercial Building Automation
2.Home automation
3.Industrial and process automation
4.Energy and utility automation
5.Health Care
6.Remote Control
Keywords
IoT, Low Power Wireless Networks, ZigBee,LoRa, 6LoWPAN
Aims and Learning Objectives
This tutorial aims to provide a foundational understanding of low power wireless sensor technologies, specifically focusing on ZigBee, LoRa, and 6LoWPAN.
Target Audience
it is intended for educators, researchers, system designers, embedded programmers, and anyone wishing to learn more about Wireless Sensor Technologies.
Prerequisite Knowledge of Audience
Basic knowledge of networking is recommended for participants.
Detailed Outline
A. ZigBee Wireless Network
1.Wireless Sensor and Control Technologies
2.ZigBee Wireless Sensor and Control Network
3.ZigBee Protocol Architecture
4.IEEE 802.15.4 Physical Layer
5.IEEE 802.15.4 Medium Access Control (MAC) Layer
6.Network Layer
7.Application Support Sublayer (APS)
8.Application Layer
9.Security
10.Address Assignment and Routing
11.ZigBee Home Automation and Smart Energy Network
B. IPv6 over Low Rate Wireless Personal Area Networks (6LoWPAN)
1.Introduction
2.6LoWPAN network architecture
3.6LoWPAN Protocol Stack
4.Internet Protocol version6 (IPv6) over IEEE 802.15.4
5.The 6LoWPAN adaptation layer
C. LoRa Wide Area Network (LoRaWAN)
1.Introduction
2.LoRaWAN Features
3.LoRaWAN Applications
4.LoRaWAN Network Architecture
5.LoRaWAN Protocol
6.End Device Operation Modes
7.LoRaWAN Security