UNIT 1:
Overview and Motivations – IPv6 Role
IoT Definitions – Observations
ITU-T Views – Working Definition
Physical Design of IoT – Logical Design of IoT
IoT Frameworks – Basic Nodal Capabilities
Applications: City Automation Automotive Applications
IoT Levels & Deployment Templates
IoT Levels & Deployment Templates
UNIT 2:
Identification of IoT Objects and Services – Structural aspects of IoT
Environment Characteristics-Traffic Characteristics-Scalability-Interoperability – Security and privacy
Key IoT Technologies: Device Intelligence – Communication Capabilities
Mobility Support – Device Power
Sensor Technology – RFID Technology
IoT Enabling Technologies
WSN, Cloud computing, Big data Analytics
Communication Protocols, Embedded Systems
UNIT 3:
IETF IPv6 Routing Protocol for RPL Roll
Constrained Application Protocol (CoAP)
Representational State Transfer (REST)
Third Generation Partnership Project Service Requirements for Machine Type Communications
Over Low Power WPAN (6LoWPAN) – IP in Small Objects (IPSO)
UNIT 4:
Motivations – Address Capabilities – IPv6 Protocol Overview
Motivations – Address Capabilities – IPv6 Protocol Overview
IPv6 Tunnelling – IPsec in IPv6
Header Compression Schemes – Quality of Service in IPv6
MOBILE IPv6 – Protocol Details – Generic Mechanisms
New IPv6 Protocol - Message Types - Destination Option
Modifications to IPv6 Neighbor Discovery –Requirements for Various IPv6 Nodes
Correspondent Node Operation – HA Node Operation–Mobile Node Operation Relationship to IPV4 Mobile IPV4(MIP)
Transmission of IPV6 Packets Over IEEE 802.15.4
IoT Systems Management with NETCONF-YANG –IoT Platforms Design Methodology
UNIT 5:
IoT System Management with NETCONF–YANG: Need for IoT Systems Management
Simple Network Management Protocol (SNMP) –Limitations of SNMP
Network Operator Requirements– NETCONF-YANG
Network Operator Requirements– NETCONF-YANG
IoT Physical Devices & Endpoints
Raspberry Pi–Linux on Raspberry Pi – Raspberry Pi Interfaces