ES623 NETWORKED EMBEDDED SYSTEMS
Credits:3 Prerequisites: Embedded Systems
THIS PAGE contains information about the subject ES623 Networked Embedded Systems offered in the M.Tech. Second semester of 2012 - 2013. It tells you everything about this course, including its aims, syllabus, and operation.
· What is this course for?
· What you will learn
· Lecture schedule
· Assignments
· Supplementary materials
· References
· What is this course for?
· What you will learn
· Lecture schedule
· Assignments
· Supplementary materials
· References
Suggested Readings
1. H.Kopetz, ‘Real-Time Systems:Design Principles for Distributed Embedded Applications’, Kluwer, 1997.
2. Richard Zurawski, ‘Networked Embedded Systems’, CRC Press, 2009
3. Jan Axelson, ‘Embedded Ethernet and Internet Complete: Designing and Programming Small Devices for Networking”, Lakeview
Research LLC, 2003
4. Don Anderson, ‘Universal Serial Bus System Architecture ‘, MindShare Inc, 2001
2. Richard Zurawski, ‘Networked Embedded Systems’, CRC Press, 2009
3. Jan Axelson, ‘Embedded Ethernet and Internet Complete: Designing and Programming Small Devices for Networking”, Lakeview
Research LLC, 2003
4. Don Anderson, ‘Universal Serial Bus System Architecture ‘, MindShare Inc, 2001
Lecture Schedule
Week1
2 3 4 5 6 7 8 9 10 11 12 |
TopicsIntroduction
Real-time systems
Distributed Systems Time and Order Time measurement
Dense and Sparse time Internal & External clock synchronization Modeling distributed real-time systems
Fault tolerance Real-time Communication Real-time communication CAN Bus architecture USB Architecture Embedded Ethernet |
KeywordsEmbedded system components , real-time embedded systems, Components of networked embedded systems, centralized and distributed embedded systems
Real-time embedded systems, characteristics of real-time systems, classification of real-time systems, Functional, Temporal & dependability requirements
System architecture, communication-network interface, communication systems, Composability, scalability, dependability Global time, different orders, clocks, precision and accuracy, time standards - Time and Order Time measurement, interval measurement, fundamental limits of time measurement
Dense time and sparse time-base, space-time lattice Synchronization condition, central master and distributed synchronization algorithms, external synchronization, time gateway PERIODICAL - I Abstractions, structural elements, interfaces, worst-case execution time, H-state
Failures, errors and faults, error detection, fault tolerant units Requirements, Flow control, Thrashing PERIODICAL - II Communication architecture, OSI protocols for real-time, protocol mechanisms, protocol performance
CAN bus architecture, interface, CAN frame Design goals, device connections, features, USB system implementation Networking basics, elements of networks, Network protocol, TCP/IP layers |
Handouts |
Assignments / Quiz
Downloads
Periodical I Question paper with solution
Periodical II Question paper with solution
Periodical II Question paper with solution