Scheme of examination
Paper Code: ETEC-358 L T/P C
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Paper Code: ETEC-358 L T/P C Paper: Data Communication & Networks Lab 0 2 1 List of Experiments:
*All Practical can be conducted using C-Language and LAN Emulator. NOTE:- At least 8 Experiments out of the list must be done in the semester. WEB ENGINEERING LAB Paper Code: ETCS-356 L T/P C Paper: Web Engineering Lab 0 2 1 Web Engineering Lab experiment based on syllabus of (ETCS-308). NOTE:- At least 8 Experiments from the syllabus must be done in the semester. MICROPROCESSORS AND MICROCONTROLLERS LAB Paper Code: ETEE-358 L T/P C Paper: Microprocessors and Microcontrollers Lab 0 2 1 List of Experiments:
NOTE: - At least 8 Experiments out of the list must be done in the semester. ADVANCED COMPUTER NETWORKS INSTRUCTIONS TO PAPER SETTERS: MAXIMUM MARKS: 75 1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from question no. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be of 12.5 marks Paper Code: ETIT-401 L T/P C Paper: Advanced Computer Networks 3 1 4 Objective: To understand different network protocols with emphasis on TCP/IP protocol suite. UNIT-I Network Layer: ARP,RARP,ICMP,IPv4 Routing Principles, Routing and overview, DVR and LSR, the IGRP and EIGRP, BGP, Routing Information Protocol (RIP), OSPF (IPv4 / IPv6). Multicasting in IP Environments-Broadcasting, Multicasting, IGMP and Multicast Listener Discovery (MLD). The Distance Vector Multicast Routing Protocol (DVMRP), Multicast OSPF (MOSPF), Protocol Independent Multicast (PIM).
Introduction to Optical networking, its benefits and drawbacks, SONET layered architecture, frame format, SONET network configuration, its advantages and benefits. Quality of Service: Introducing QoS, Queue Analysis, QoS Mechanisms, Queue Management algorithms, Resource Reservation, Diffserv and Intserv. [T2] [No. of Hours 10] UNIT-IV Overview of latest concepts: TCP/IP Applications: VoIP, NFS, Telnet ,FTP,SMTP, SNMP, Finger, Whois and WWW, IP v6 and Next Generation Networks, xAAS(PAAS,SAAS,HAAS) and Cloud Computing, Big data, Elements of Social Network. [R2][No. of Hours 12] Text Books: [T1] Douglas E. Comer, "Internet networking with TCP/IP", Pearson. TCP/IP, Vol. 2 [T2] B. A. Forouzan, "TCP/IP Protocol Suite", TMH, 2nd Ed., 2004.
[R1] TCP/IP Illustrated, Volume 1 (The Protocols) by W. Richard Stevens, Pearson Education. [R2] U. Black, "Computer Networks-Protocols, Standards and Interfaces", PHI, 1996. [R3] W. Stallings, "Computer Communication Networks", PHI, 1999. CRYPTOGRAPHY & NETWORK SECURITY Paper Code: ETIT-403 L T/P C Paper: Cryptography & Network Security 3 0 3 INSTRUCTIONS TO PAPER SETTERS: MAXIMUM MARKS: 75 1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question No. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be of 12.5 marks.
Objectives: Syllabus should be proposed so as to be covered in 42 to 45 lectures (assuming 14 or 15 weeks session). Syllabus should be evenly divided into 4 Units only. UNIT- I: Basic Cryptographic Techniques, Computational Complexity, Finite Fields, Number Theory, DES and AES, Public Key Cryptosystems, Traffic Confidentiality ,Cryptanalysis, Intractable (Hard) Problems, Hash Functions, OSI Security Architecture Privacy of Data. [T1, T2][No. of Hrs: 11] UNIT- II: Linear Cryptanalysis, Differential Cryptanalysis, DES, Triple DES, Message Authentication and Digital Signatures, Attacks on Protocols, Elliptic Curve Architecture and Cryptography, Public Key Cryptography and RSA, , Evaluation criteria for AES, Key Management, Authentication requirements Digital forensics including digital evidence handling: Media forensics, Cyber forensics, Software forensics, Mobile forensics. [T1, T2][No. of Hrs: 11] UNIT- III: Buffer Flow attack, Distributed Denial of service attack, Weak authentication, Design of Substitution Boxes (S-Boxes), Hash Functions , Security of Hash Functions, Secure Hash Algorithm, Authentication applications, Kerberos, IP security, Pretty Good Privacy (PGP), Web Security Light weight cryptography for mobile devices, Side channel attacks. [T1, T2][No. of Hrs: 11] UNIT- IV: System security, Security Standards, Intruders, and Viruses, Firewalls, Malicious software, Intrusion Detection System, Intrusion Prevention System, Trusted Systems, Virus Counter measures, Authentication Strategies. [T1, T2][No. of Hrs: 11] Text Book: [T1] William Stallings, "Cryptography And Network Security - Principles and Practices", Prentice Hall of India, Third Edition, 2003. [T2] Wade Trappe, Lawrence C Washington, “ Introduction to Cryptography with coding theory”, 2nd ed, Pearson, 2007.
[R1] R.Rajaram, “Network Security and Cryptography” SciTech Publication, First Edition, 2013. [R2] Atul Kahate, "Cryptography and Network Security", Tata McGraw-Hill, 2003 [R3] Bruce Schneier, "Applied Cryptography", John Wiley & Sons Inc, 2001. [R4] http://www.iiitd.edu.in/~gauravg/
1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question. No. 1 rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be of 12.5 marks.
Objective: The objective of the course is to introduce various wireless networks, mobile networks and their basic architecture starting from 2G through to 3G and 4G. UNIT – I Introduction To Wireless Communication Systems: Evolution of mobile radio communications; examples of wireless comm. systems; paging systems; Cordless telephone systems; overview of generations of cellular systems, comparison of various wireless systems. Introduction to Personal Communication Services (PCS): PCS architecture, Mobility management, Networks signaling. A basic cellular system, multiple access techniques: FDMA, TDMA, CDMA. Introduction to Wireless Channels and Diversity: Fast Fading Wireless Channel Modeling, Rayleigh/Ricean Fading Channels, BER Performance in Fading Channels, Introduction to Diversity modeling for Wireless Communications [T1,T2][No. of Hrs. 11] UNIT - II 2G Networks: Second generation, digital, wireless systems: GSM, IS_136 (D-AMPS), IS-95 CDMA. Global system for Mobile Communication (GSM) system overview: GSM Architecture, Mobility Management, Network signaling, mobile management, voice signal processing and coding. Spread Spectrum Systems- Cellular code Division Access Systems-Principle, Power Control, effects of multipath propagation on code division multiple access. [T1,T2][No. of Hrs. 11] UNIT - III 2.5G Mobile Data Networks: Introduction to Mobile Data Networks, General Packet Radio Services (GPRS): GPRS architecture, GPRS Network nodes, EDGE, Wireless LANs, (IEEE 802.11), Mobile IP. Third Generation (3G) Mobile Services: Introduction to International Mobile Telecommunications 2000 (IMT 2000) vision, Wideband Code Division Multiple Access (W-CDMA), and CDMA 2000, Quality of services in 3G, Introduction to 4G. [T1,T2][No. of Hrs. 11] UNIT – IV Wireless Local Loop (WLL): Introduction to WLL architecture, WLL technologies. Wireless personal area networks (WPAN): Blue tooth, IEEE 802.15, architecture, protocol stack. Wi-Max, introduction to Mobile Adhoc Networks. Global Mobile Satellite Systems, Case studies of IRIDIUM and GLOBALSTAR systems. [T1,T2][No. of Hrs. 11] Text Books: [T1] Raj Pandya, “Mobile & Personnel communication Systems and Services”, Prentice Hall India, 2001. [T2] Theodore S. Rappaport, “Wireless Communication- Principles and practices,” 2nd Ed., Pearson Education Pvt. Ltd, 5th Edition, 2008.
[R2] Jochen Schiller, “Mobile communications,” Pearson Education Pvt. Ltd., 2002. [R3] Yi –Bing Lin & Imrich Chlamatac, “Wireless and Mobile Networks Architecture,” John Wiley & Sons, 2001. [R4] Lee, W.C.Y., “Mobile Cellular Telecommunication”, 2nd Edition, McGraw Hill, 1998. [R5] Smith & Collins, “3G Wireless Networks,” TMH, 2007 [R6] Schiller, Jochen, “Mobile Communications”, 2nd Edition, Addison Wesley Embedded Systems Paper Code: ETEC-401 L T/P C Paper: Embedded Systems 3 0 3 INSTRUCTIONS TO PAPER SETTERS: MAXIMUM MARKS: 75 1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question No. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be of 12.5 marks
Objective: The objective of the paper is to enable a student to design an embedded system for specific tasks. UNIT- I Overview of Embedded Systems: Characteristics of Embedded Systems. Comparison of Embedded Systems with general purpose processors. General architecture and functioning of micro controllers. 8051 micro controllers. PIC Microcontrollers: Architecture, Registers, memory interfacing, interrupts, instructions, programming and peripherals. [T1][No. of hrs. 12] UNIT- II ARM Processors: Comparison of ARM architecture with PIC micro controller, ARM 7 Data Path, Registers, Memory Organization, Instruction set, Programming, Exception programming, Interrupt Handling, Thumb mode Architecture. Bus structure: Time multiplexing, serial, parallel communication bus structure. Bus arbitration, DMA, PCI, AMBA, I2C and SPI Buses. [T2][No. of hrs. 12] UNIT- III Embedded Software, Concept of Real Time Systems, Software Quality Measurement, Compilers for Embedded System. [T3][No. of hrs. 10] UNIT-IV RTOS: Embedded Operating Systems, Multi Tasking, Multi Threading, Real-time Operating Systems, RT-Linux introduction, RTOS kernel, Real-Time Scheduling. [T3][No. of hrs. 10] Text Book: [T1] Design with PIC Microcontrollers, John B. Peatman, Pearson Education Asia, 2002 [T2] ARM System Developer’s Guide: Designing and Optimizing System Software, Andrew N. Sloss, Dominic Symes, Chris Wright, Morgan Kaufman Publication, 2004. [T3] Computers as components: Principles of Embedded Computing System Design, Wayne Wolf, Morgan Kaufman Publication, 2000 References Books: [R1] The Design of Small-Scale embedded systems, Tim Wilmshurst, Palgrave2003 [R2] Embedded System Design, Marwedel, Peter, Kluwer Publishers, 2004.
1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question No. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be 12.5 marks
[T1] J. Gowar, “Optical Communication System”, IEEE Press – 2nd Edition. [T2] R.P.Khare, "Fiber Optics and Opto Electronics" Oxford Publication
[R1] Optical Information Processing – F. T. S. Yu – Wiley, New York, 1983 [R2] G. P. Agrawal, Fiber optic Communication Systems, John Wiley & sons, New York, 1992 [R3] A. Ghatak, K. Thyagarajan, “An Introduction to Fiber Optics”, Cambridge University Press [R4] J. H. Franz & V. K. Jain, “Optical Communication Components & Systems”, Narosa Publish, 2013 [R5] John M. Senior, “Optical Fiber Communications”, Pearson, 3rd Edition, 2010. CLOUD COMPUTING Paper Code: ETIT-407 L T/P C Paper: Cloud Computing 3 0 3 INSTRUCTIONS TO PAPER SETTERS: MAXIMUM MARKS: 75 1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question No. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be 12.5 marks
Objective: To enable students to understand the basic concepts of Cloud Computing and to apply these concepts for designing, evaluating, simulations and comparing various applications in Cloud Computing. UNIT I Introduction to Cloud Computing Overview of Parallel Computing, Grid Computing, Distributed Computing and its Variants (eg. MANETs, Peer to Peer, Cloud), Introduction to Autonomic Computing, Evolution of Cloud Computing and it's vision, Issues and Challenges in Cloud Computing, Applications of Cloud Computing. [T1, T2][No. of Hours: 10] UNIT II Cloud Computing Architecture Cloud Computing Architectures: features of Clouds: components, types, technologies, Service Models (Services: IaaS, PaaS, SaaS), Deployment Models ( Public Cloud, Private Cloud, Hybrid Cloud, Community Cloud) various cloud management platforms and tools. [T1, T2][No. of Hours: 12] UNIT III Virtualization of Clouds Virtualization: Introduction, Evolution, Virtualized Environment characteristics, Server Virtualization, VM Provisioning and Manageability, VM Migration Services, VM Provisioning in the Cloud Context, and Future Research Directions. Cloud Security Mechanisms (Encryption, PKI, SSO, IAM), Service Management in Cloud Computing(SLA, Billing & Accounting etc). [T1, T2][No. of Hours: 12] UNIT IV Advanced Cloud Applications Specialized Cloud Architecture: Direct I/O Access, Load Balanced Virtual Switches, Multipath Resource Access, Federated Clouds, Basics of Cloud Mobility, Enterprise cloud computing: Data, Processes, Components, Architectures, applications, Enterprise Software(ERP, SCM, CRM) Case Studies on Open Source and Commercial available tools and platforms (Microsoft Azure, Google AppEngine, Amazon Web services, Hadoop, Eucalyptus, Cloud SIM etc).
[T1] Rajkumar Buyya, Christian Vecchiola, and Thamarai Selvi, Mastering Cloud Computing, Tata McGraw Hill, New Delhi, India, 2013. [T2] Thomas Erl, Zaigam Mahmood, Ricardo Puttini, Cloud Computing Concepts, Technology & Architecture, 1st Reprint, Pearson India, 2013 (T2) [T3] Kumar Saurabh, Cloud Computing, 2nd Edition, Wiley, 2013 (T3) [T4] Gautam Shroff, "Enterprise Cloud Computing", Cambridge University Press.
[R1] Barrie Sosinsky, Cloud Computing Bible, Wiley [R2] A. Srinivasan and J. Suresh, Cloud computing a pratical approach for learning and Implementation, Pearson India 1st edition [R3] Michael Miller, Cloud Computing, Pearson, 2008. [R4] Mukesh Singhal, Niranjan G.Shivaratri, TMH Edition. (Must be included for the basics of distributed systems basics from which all distributed systems have been originated).
1. Question No. 1 should be compulsory and cover the entire syllabus. This question should have objective or short answer type questions. It should be of 25 marks. 2. Apart from Question No. 1, rest of the paper shall consist of four units as per the syllabus. Every unit should have two questions. However, student may be asked to attempt only 1 question from each unit. Each question should be of 12.5 marks.
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