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Introduction, Various Platforms, Layered architecture, Planes, Applications in Environment, Military, Healthcare, Physical Layer: RF, Infrared, Magneto Inductive, Acoustic, Unit Disc Graph vs. Statistical Channel Models, IEEE 802.15.4, MAC Layer: Challenges for MAC, Contention-Based Medium Access, Reservation-Based Medium Access, Hybrid Medium Access, Power Control, Error Control Schemes, Network Layer: Routing Challenges, Flat- architecture, Hierarchical Protocol, Geographical Routing Protocol, QoS based Protocol, Transport Layer: Challenges of Transport layer, Transport Layer protocols, Cross Layer Solutions, Time Synchronization: Challenges for Time synchronization, Timing Sync Protocol for Sensor Network, Time Diffusion Synchronization protocol (TDP), Rate Based Diffusion Protocol (RDP).
IOT
Wireless Sensor Network
Introduction, Various Platforms, Layered architecture, Planes, Applications in Environment, Military, Healthcare, Physical Layer: RF, Infrared, Magneto Inductive, Acoustic, Unit Disc Graph vs. Statistical Channel Models, IEEE 802.15.4, MAC Layer: Challenges for MAC, Contention-Based Medium Access, Reservation-Based Medium Access, Hybrid Medium Access, Power Control, Error Control Schemes, Network Layer: Routing Challenges, Flat- architecture, Hierarchical Protocol, Geographical Routing Protocol, QoS based Protocol, Transport Layer: Challenges of Transport layer, Transport Layer protocols, Cross Layer Solutions, Time Synchronization: Challenges for Time synchronization, Timing Sync Protocol for Sensor Network, Time Diffusion Synchronization protocol (TDP), Rate Based Diffusion Protocol (RDP).
Created by Prof. Umesh Ch. Smal
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Prerequisite
Data Communication and Wireless Communication
Data Communication and Wireless Communication
Start Date
18 April 2023
18 April 2023
End Date
27 June 2023
27 June 2023
Level
Beginner
Beginner
Enrollment options
ONLINE/OFFLINE
ONLINE/OFFLINE
Course Description
Learning Outcomes
Learners will be able to
LO 1: find the architecture of WSN and network design factors.
LO 2: interpret the physical and MAC layer issues in WSN.
LO 3: choose routing mechanisms in applicable in specific WSN.
LO 4: analyze logical communication between application processes running on different hosts and inter-layer and cross layer effects and solutions for WSN.
LO 5: adapt the concepts of Time Synchronization and challenges involved therein.
Skills you will gain:
Wireless Sensor Network, Functions of Physical, MAC, Network, Transport Layers, Cross-layer design, Time Synchronization
