EIE CBCS Syllabus

Page 26

Module 1: Introduction (7 Hours) Wireless Transmission – signal propagation – Free space and two ray models – spread spectrum – Satellite Networks – Capacity Allocation – FDMA –TDMA- SDMA – CDMA Module 2: Mobile Networks (8 Hours) Cellular Wireless Networks – GSM – Architecture – Protocols – Connection Establishment – Frequency Allocation – Handover – Security – GPRA. Module 3: Wireless Networks (8 Hours) Wireless LAN – IEEE 802.11 Standard-Architecture – Services – Hiper LAN, Bluetooth, WiMax, ZigBee, Software Defined Radio Module 4: Routing (8 Hours) Mobile IP- SIP – DHCP – AdHoc Networks – Proactive and Reactive Routing Protocols – Multicast Routing -WSN routing –LEACH- SPIN- PEGASIS Module 5: Transport and Application Layers (8 Hours) TCP over Adhoc Networks – WAP – Architecture – WWW Programming Model – WDP – WTLS – WTP–WSP –WAE –WTA Architecture –WML–WML scripts. Module 6: Mobile and Wireless Security (6 Hours) Security Primer - Creating A Secure Environment - Security Threats - Other Security Measures WAP Security Measures - Smart Client Security - Overview of Smart Client Architecture - Mobile Operating Systems Reference Books 1. Mobile Cellular Telecommunications — W.C.Y. Lee, Mc Graw Hill, 2nd Edn., 1989. 2. Wireless Communications – Theodore. S. Rapport, Pearson Education, 2nd Edn.2002. 3. Mobile Cellular Communication – Gottapu sashibhushana Rao, Pearson, 2012. 4. Modern Wireless Communications-Simon Haykin, Michael Moher,Pearson Education, 2005. 5. Wireless Communications Theory and Techniques, Asrar U. H .Sheikh, Springer, 2004. 6. Wireless Communications and Networking, Vijay Garg, Elsevier Publications, 2007. 7. Wireless Communications —Andrea Goldsmith, Cambridge University Press, 2005. 18EI3013

SMART SYSTEM DESIGN

L 3

T 0

P 0

C 3

Course Objectives 1. To understand about the smart system technologies and its role in real time applications 2. To expose students to different open source platforms and Attributes. 3. To familiarize the design and development of embedded system based system design. Course Outcomes: After the completion of this course the student will be able to: 1. Recall the concepts of smart system design and its present developments. 2. Examine the application of mobile based embedded system. 3. Apply the concept of embedded system in home automation. 4. Analyze the application of smart design in energy management system 5. Summarize the concepts of Smart sensors 6. Understand different Robots and developments Module 1: Introduction (7 Hours) Overview of smart system design and requirements- Hardware and software selection & co-design Communications-smart sensors and actuators-Open-source resources for embedded system- android for embedded system - Embedded system for Ecommerce- Embedded system for Smart card design and development –Recent trends. Module 2: SMART Sensors: (8 Hours) Introduction to Smart Sensors, Integrated Smart sensors and smart systems, MEMS and NEMS devices, Elastic structures in MEMS and NEMS Module 3: Mobile Embedded System (8 Hours) Design requirements-Hardware platform- OS and Software development platform- Mobile Apps development- Applications: heart beat monitoring, blood pressure monitoring, mobile banking and appliances control. Module 4: Home Automation: (8 Hours) Home Automation System Architecture-Essential Components- Linux and Raspberry Pi – design and real time implementation. Module 5: Smart Appliances and energy management (8 Hours) Overview- functional requirements-Embedded and Integrated Platforms for Energy Management Energy Measurement Techniques for Smart Metering-Smart Embedded Appliances Networks – Security Considerations. Instrumentation Engineering


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18EI3025 Entrepreneurship development for embedded system 3:0:0 3

6hr
pages 39-246

18EI3023 Internet of things and protocols 3:0:0 3

1min
page 37

18EI3021 Real Time Operating System 3:0:0 3

2min
page 35

18EI3022 Embedded networking and automation of Electrical Systems

2min
page 36

18EI3020 Advanced course in Embedded C 3:0:0 3

2min
page 34

18EI3019 Python programming and Interfacing Techniques 3:0:0 3

2min
page 33

18EI3018 Embedded Android Programming 3:0:0 3

2min
page 32

18EI3016 Embedded based Image Processing Techniques 3:0:0 3

2min
page 30

18EI3017 Optimization techniques for Embedded Systems 3:0:0 3

2min
page 31

18EI3015 Embedded Product Development 3:0:0 3

2min
page 29

18EI3013 Smart system Design 3:0:0 3

2min
page 27

18EI3014 MEMS Technology for Embedded Design 3:0:0 3

2min
page 28

18EI3012 Wireless and Mobile Communication 3:0:0 3

2min
page 26

18EI3011 Distributed Embedded Computing 3:0:0 3

2min
page 25

18EI3010 Embedded Automotive Systems 3:0:0 3

2min
page 24

18EI3008 IoT Lab 0:0:4 2

1min
page 22

18EI3009 Field programmable Lab 0:0:4 2

1min
page 23

18EI3007 Embedded Based Virtual Instrumentation Lab 0:0:4 2

2min
page 21

18EI2013 Microcontroller and PLC Laboratory 0:0:2 1

2min
page 13

18EI3006 Advanced Embedded System Lab 0:0:4 2

2min
page 20

18EI3005 Embedded Linux 3:0:0 3

2min
page 19

18EI3004 Advanced Embedded Processors 3:0:0 3

2min
page 18

18EI2014 Modelling and Simulation 3:0:0 3

2min
page 14

18EI3002 Embedded system and software design 3:0:0 3

2min
page 16

18EI3003 Programmable Devices for Industrial Automation 3:0:0 3

2min
page 17

18EI3001 Advanced Embedded Signal Processors 3:0:0 3

1min
page 15
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