Page 95 - B.Tech IT Curriculum and Syllabus R2017 - REC
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Department of IT, REC
REFERENCES:
1. Tim Brown, Barry Katz Change by Design - How Design Thinking Transforms Organizations
and Inspires Innovation, First Edition, Happer Collins,2009
2. Thomas Lockwood, Design Thinking – Integrating, Innovation, Customer experience and
Brand value, First Edition, Allworth Press, 2009
3. Jenny Preece , Helen Sharp, Yvonne Rogers, Interaction Design - beyond human-computer
interaction, Fourth Edition, John Wiley & Sons, Inc, 2015
IT17E82 INTERNET OF THINGS L T P C
3 0 0 3
OBJECTIVES:
The student should be able to:
Learn the Fundamentals of IOT.
Know the Design Methodology.
Apply the concept of Internet of Things in real world scenario
Build a small low cost embedded system using present day embedded platforms
Apply the concept of Internet of Things in real world scenario
UNIT I FUNDAMENTALS 9
Introduction to Embedded system- Evolution of IoT- Difference between embedded system and IoT-
IIoT and Industry 4.0- IoT Characteristics – IoT Vs M2M- IoT Levels and Domain Specific IoTs
UNIT II ARCHITECTURE 9
IoT Architecture-State of the Art – Introduction, State of the art, Reference Model and architecture,
IoT reference Model - IoT Reference Architecture- Introduction, Functional View, Information View,
Deployment and Operational View, Other Relevant architectural views. Four important key elements
of IoT- Real-World Design Constraints, Technical Design constraints: Data representation and
visualization, Interaction and remote control.
UNIT III IoT DESIGN AND CHALLENGES 9
Devices and gateways- IoT Edge: Sensors and activators, Communication modules , Zigbee , RFID,
Wi-Fi, Power sources-Local and wide area networking, Data management, Business processes in IoT,
Everything as a Service(XaaS), M2M and IoT Analytics, Knowledge Management- Challenges in
IoT: Design challenges, Development challenges, Security challenges, Other challenges
UNIT IV BUILDING IOT WITH HARDWARE PLATFORMS 9
Present day embedded platforms: Arduino /Intel Galileo/Raspberry Pi- Physical device – IoT
Software – NOOBS/ENERGIA/MQTT -Interfaces – Communications Programming.
UNIT V CASE STUDIES 9
Domain specific applications of IoT Home automation, Industry applications, Surveillance
applications, Other IoT applications -Connecting IoT to cloud- - Software & Management Tools for
IoT
TOTAL: 45 PERIODS
OUTCOMES:
At the end of the course, the students should be able to:
1. Understand the Reference architecture and various IoT levels
2. Design a portable IoT using present day embedded platforms and relevant protocols
3. Develop web services to access/control IoT devices
4. Developing Cloud based applications using IoT
5. Develop applications in Energia/Noobs/MQTT
TEXT BOOK:
Curriculum and Syllabus | B.Tech. Information Technology | R2017 Page 95
