o Embedded Systems:
▪ Application Domain and Characteristic of Embedded System,
▪ Real time systems and Real-time scheduling,
▪ Processor basics and System-On-Chip,
▪ Introduction to ARM processor and its architecture.
o IoT:
▪ Definition and characteristics of IoT,
▪ Internet of Things: Vision, Emerging Trends, Economic Significance,
▪ Technical Building Blocks, Physical design of IoT, Things of IoT, IoT
Protocols, Logical design of IoT, IoT functional blocks,
▪ IoT communication models, IoT Communication APIs,
▪ IoT enabling technologies,
▪ IoT levels and deployment templates,
▪ IoT Issues and Challenges, Applications
B/16, First floor, Sant Tukaram Vyapar Sankul
Nigdi, Pune - 411044
9:30 AM - 9:00 PM
Monday to Saturday
Embedded Systems and Internet of Things
Course Objectives:
- To understand fundamentals of IoT and embedded system including essence, basic design strategy and process modeling.
- To introduce students a set of advanced topics in embedded IoT and lead them to understand research in network.
- To develop comprehensive approach towards building small low cost embedded IoT system.
- To understand fundamentals of security in IoT,
- To learn to implement secure infrastructure for IoT
- To learn real world application scenarios of IoT along with its societal and economic impact using case studies
Course Outcomes
- On completion of the course, student will be able to
- Implement an architectural design for IoT for specified requirement
- Solve the given societal challenge using IoT
- Choose between available technologies and devices for stated IoT challenge
o Purpose and requirement specification, Process specification, Domain model specification, information model specification, Service specifications, IoT level specification, Functional view specification, Operational view specification,
o Device and component integration,
o Application development
o Horizontal, verticals and four pillars of IoT,
o M2M: The internet of devices,
o RFID: The internet of objects,
o WSN: The internet of transducer,
o SCADA: The internet of controllers,
o DCM: Device, Connect and Manage,
o Device: Things that talk, Connect: Pervasive Network,
o IoT Physical Devices and Endpoints: Basic building blocks of and IoT device,
o Exemplary device:
▪ Raspberry Pi, Raspberry Pi interfaces,
▪ Programming Raspberry Pi with Python,
▪ Beagle board and Other IoT Devices.
▪ Protocol Standardization for IoT,
▪ M2M and WSN Protocols,
▪ SCADA and RFID Protocols,
▪ Issues with IoT Standardization,
▪ Unified Data Standards,
▪ Protocols – IEEE 802.15.4,
▪ BACNet Protocol, Modbus, KNX, Zigbee Architecture,
▪ Network layer, APS layer.
▪ IoT Security:
• Vulnerabilities of IoT, Security Requirements,
• Challenges for Secure IoT, Threat Modeling,
• Key elements of IoT Security: Identity establishment, Access control,
Data and message security, Non-repudiation and availability,
• Security model for IoT.
▪ Web of Things versus Internet of Things, Two Pillars of the Web,
▪ Architecture Standardization for WoT, Platform Middleware for WoT, Unified
Multitier WoT Architecture, WoT Portals and Business Intelligence.
▪ Cloud of Things: Grid/SOA and Cloud Computing, Cloud Middleware, Cloud
Standards – Cloud Providers and Systems, Mobile Cloud Computing,
▪ The Cloud of Things Architecture.
• Introduction to Cloud Storage Models, Communication API,
• WAMP: Autobahn for IoT, Xively Cloud for IoT, Python Web Application Framework: Django, Amazon Web Services for IoT, Skynet IoT Messaging Platform. Case Studies: Home Intrusion Detection, Weather Monitoring System, Air Pollution Monitoring, Smart Irrigation.