ELECTRONICS & COMMUNICATION ENGINEERING DEPARTMENT B.E. – ELECTRONICS AND COMPUTER ENGINEERING 2019 SEMESTER-I Sr. No. Course No. TITLE CODE L T P Cr 1 UCB008 APPLIED CHEMISTRY CF 3 1 2 4.5 2 UTA017 COMPUTER PROGRAMMING CF 3 0 2 4 3 UES013 ELECTRICAL ENGINEERING CF 3 1 2 4.5 4 UEN002 ENERGY& ENVIRONMENT CF 3 0 0 3 5 UMA010 MATHEMATICS-I CF 3 1 0 3.5 6 UES009 MECHANICS CF 2 1 0 2.5 TOTAL 17 4 6 22.0 *Student will attend one Lab Session of 2 hrs in a semester for a bridge project in this course. SEMESTER-II Sr. No. Course No. TITLE CODE L T P Cr 1 UPH004 APPLIED PHYSICS CF 3 1 2 4.5 2 UTA018 OBJECT ORIENTED PROGRAMMING CF 3 0 2 4.0 3 UEC001 ELECTRONIC ENGINEERING CF 3 1 2 4.5 4 UTA015 ENGINEERING DRAWING CF 2 0 4 4.0 5 UMA004 MATHEMATICS-II CF 3 1 0 3.5 6 UHU003 PROFESSIONAL COMMUNICATION CF 2 0 2 3.0 TOTAL 16 3 12 23.5 SEMESTER-III Sr. No. Course No. TITLE CODE L T P Cr 1 UES012 ENGINEERING MATERIALS CF 3 1 2 4.5 2 UMA011 NUMERICAL ANALYSIS CF 3 0 2 4.0 COMPUTER AND COMMUNICATION 3 UEC533 NETWORKS CP 3 0 0 3.0 INFORMATION AND 4 UEC310 COMMUNICATION THEORY CF 3 1 0 3.5 5 UEC301 ANALOG ELECTRONIC CIRCUITS CP 3 1 2 4.5 6 UEC612 DIGITAL SYSTEM DESIGN CP 3 1 2 4.5 ENGINEERING DESIGN PROJECT – I 7 UTA013 (including 4 self effort hours) PR 1 0 2 4.0 TOTAL 19 4 10 28.0 SEMESTER-IV Sr. No. Course No. TITLE CODE L T P Cr 1 UTA*** MANUFACTURING TECHNIQUES CF 2 0 2 3.0 2 UMA035 OPTIMIZATION TECHNIQUES CF 3 0 2 4.0 3 UEC404 SIGNALS AND SYSTEMS CP 3 1 2 4.5 4 UEC608 EMBEDDED SYSTEMS CP 3 0 2 4.0 DATA STRUCTURES AND 5 UEC613 ALGORITHMS CP 3 0 2 4.0 INNOVATION AND ENTREPRENEURSHIP (including 2 self 6 UTA025 effort hours) CF 1 0 2* 3.0 ENGINEERING DESIGN PROJECT-II 7 UTA014 (including 2 self effort hours) PR 1 0 4 4.0 TOTAL 16 1 14 26.5 * Alternate Week SEMESTER-V Sr. No. Course No. TITLE CODE L T P Cr 1 UCS303 OPERATING SYSTEMS CP 3 0 2 4.0 DATABASE MANAGEMENT 2 UCS310 SYSTEMS CP 3 0 2 4.0 3 UEC502 DIGITAL SIGNAL PROCESSING CP 3 1 2 4.5 4 UEC516 THEORY OF COMPUTATION CP 3 0 0 3.0 5 UEC607 DIGITAL COMMUNICATION CP 3 0 2 4.0 6 ELECTIVE –I PE 4.0 TOTAL 15 1 8 23.5 SEMESTER-VI Sr. No. Course No. TITLE CODE L T P Cr 1 UEC610 COMPUTER ARCHITECTURE CP 3 0 0 3.0 2 UEC609 MOS CIRCUIT DESIGN CP 3 0 2 4.0 3 UEC713 MACHINE LEARNING CP 3 0 2 4.0 4 UEC797 CAPSTONE PROJECT (STARTS) PR 1* 0 2 - 5 ELECTIVE –II PE 3.0 6 ELECTIVE –III PE 3.0 7 GENERIC ELECTIVE GE 3 0 0 3.0 TOTAL 9 6 20.0 * Alternate Week SEMESTER-VII Sr. No. Course No. TITLE CODE L T P Cr NETWORK VIRTUALIZATION AND 1 UEC707 SOFTWARE DEFINED NETWORKING CP 2 0 2 3.0 2 UEC715 IOT BASED SYSTEMS CP 3 0 2 4.0 3 UHU005 HUMANITIES FOR ENGINEERS CF 2 0 2 3.0 5 ELECTIVE –IV PE 3.0 6 UEC797 CAPSTONE PROJECT PR 1* 0 2 8.0 TOTAL 21.0 * Alternate Week SEMESTER-VIII Sr. No. Course No. TITLE CODE L T P Cr 1 UEC900 PROJECT SEMESTER PR 15 15.0 OR 1 ELECTIVE –V PE 3.0 2 ELECTIVE –VI PE 3.0 3 UEC897 PROJECT PR 9.0 OR 1 UEC901 START-UP SEMESTER PR 15.0 TOTAL 15.0 Elective-I S. N. Course No. Course Name CODE L T P Cr. COMPUTER AND NETWORK 1 UCS523 SECURITY PE 3 0 2 4.0 LINEAR INTEGRATED CIRCUITS 2 UEC512 AND APPLICATIONS PE 3 0 2 4.0 3 UEC709 FIBER OPTIC COMMUNICATION PE 3 0 2 4.0 4 UEC618 DIGITAL IMAGE PROCESSING PE 3 0 2 4.0 ALGORITHM ANALYSIS AND 5 UCS501 DESIGN PE 3 0 2 4.0 6 UCS802 COMPILER CONSTRUCTION PE 3 0 2 4.0 AUGMENTED AND VIRTUAL 7 UCS642 REALITY PE 3 0 2 4.0 8 UCS503 SOFTWARE ENGINEERING PE 3 0 2 4.0 9 VT Data Science-I Elective-II S. N. Course No. Course Name CODE L T P Cr. ELCTROMAGNETIC FIELD THEORY 1 UEC619 AND TRANSMISSION LINES PE 3 0 0 3.0 DEEP LEARNING FOR COMPUTER 2 UEC620 VISION PE 2 0 2 3.0 INTRODUCTION TO CYBER 3 UCS001 SECURITY PE 3 0 0 3.0 4 UEC631 WIRELESS AND MOBILE NETWORKS PE 3 0 0 3.0 ANALOG COMMUNICATION UEC632 SYSTEMS PE 2 0 2 3.0 5 UEC633 CRYPTOGRAPHY PE 2 0 2 3.0 6 UEC634 CLOUD COMPUTING TECHNOLOGY PE 2 0 2 3.0 7 VT Data Science-II Elective-III S. N. Course No. Course Name CODE L T P Cr. GRAPHICS AND VISUAL 1 UEC731 COMPUTING PE 3 0 0 3.0 2 UCS754 BLOCKCHAIN TECHNOLOGY PE 2 0 2 3.0 3 UEC858 MODERN CONTROL THEORY PE 3 0 0 3.0 4 UEC821 VIDEO SIGNAL PROCESSING PE 2 0 2 3.0 NATURAL LANGUAGE PROCESSING 5 UEC732 AND APPLICATIONS PE 2 0 2 3.0 6 UEC733 AUDIO & SPEECH PROCESSING PE 3 0 0 3.0 7 VT Data Science-III Elective-IV S. N. Course No. Course Name CODE L T P Cr. PARALLEL & DISTRIBUTED 1 UEC645 COMPUTING PE 3 0 0 3.0 2 UEC823 SOFT COMPUTING PE 2 0 2 3.0 3 UEC734 QUANTUM COMPUTING PE 3 0 0 3.0 4 UEC735 BIG DATA ANALYTICS PE 2 0 2 3.0 5 UEC736 VLSI SIGNAL PROCESSING PE 3 0 0 3.0 6 VT Data Science-IV Elective-V S. N. Course No. Course Name CODE L T P Cr. 1 UEC857 VLSI INTERCONNECT PE 3 0 0 3.0 2 UEC825 MEMS PE 3 0 0 3.0 3 UEC752 IC FABRICATION PE 3 0 0 3.0 Elective-VI S. N. Course No. Course Name CODE L T P Cr. 1 UEC824 ASIC and FPGA PE 3 0 0 3.0 2 UEC751 DSP PROCESSORS PE 2 0 2 3.0 VIRTUAL INSTRUMENTATION 3 UEC866 ENGINEERING PE 2 0 2 3.0 List of ELC Activities for BE (ENC) – 2019 Batch Semester ELC Activity I PCB Design II PCB Fabrication III IOT based Automation IV Robotic Arm V HDL implementation of Digital Clock SEMESTER WISE CREDITS FOR BE (ELECTRONICS AND COMPUTER ENGINEERING) SEMESTER CREDITS FIRST 22.0 SECOND 23.5 THIRD 28.0 FOURTH 26.5 FIFTH 23.5 SIXTH 20.0 SEVENTH 21.0 EIGHTH 15.0 TOTAL CREDITS 180.5 UCB008: APPLIED CHEMISTRY L T P Cr 3 1 2 4.5 Course objective: The course aims at elucidating principles of applied chemistry in industrial systems, water treatment, engineering materials and analytical techniques. Electrochemistry: Specific, equivalent and molar conductivity of electrolytic solutions, migration of ions, transference number and its determination by Hittorf’s method, conductometric titrations, types of electrodes, concentration cells, liquid junction potential. Phase Rule: States of matter, phase, component and degree of freedom, Gibb’s phase rule, one component and two component systems. Water Treatment and Analysis: Hardness and alkalinity of water: units and determination, external and internal methods of softening of water: carbonate, phosphate, calgon and colloidal conditioning, lime-soda process, zeolite process, ion exchange process, mixed bed deionizer, desalination of brackish water. Fuels: Classification of fuels, calorific value, cetane and octane number, fuel quality, comparison of solid liquid and gaseous fuels, properties of fuel, alternative fuels: biofuels, power alcohol, synthetic petrol. Chemistry of Polymers: Overview of polymers, types of polymerization, molecular weight determination, tacticity of polymers, catalysis in polymerization, conducting, biodegradable and inorganic polymers. Atomic spectroscopy: Introduction to spectroscopy, atomic absorption spectrophotometry and flame photometry, quantitative methods. Molecular Spectroscopy: Beer-Lambert`s Law, molecular spectroscopy, principle, instrumentation and applications of UV-Vis and IR spectroscopy. Laboratory Work Electrochemical measurements: Experiments involving use of pH meter, conductivity meter, potentiometer. Acid and Bases: Determination of mixture of bases. Spectroscopic techniques: Colorimeter, UV-Vis spectrophotometer. Water and its treatment: Determination of hardness, alkalinity, chloride, chromium, iron and copper in aqueous medium. Course Learning Outcomes: The students will be able to reflect on: 1. concepts of electrodes in electrochemical cells, migration of ions, liquid junction potential and conductometric titrations. 2. atomic and molecular spectroscopy fundamentals like Beer`s law, flame photometry, atomic absorption spectrophotometry, UV-Vis and IR. 3. water and its treatment methods like lime soda and ion exchange. 4. concept of phase rule, fuel quality parameters and alternative fuels. 5. polymerization, molecular weight determination and applications as biodegradable and conducting polymers. 6. laboratory techniques like pH metry, potentiometry, colourimetry, conductometry and volumetry. Text Books 1. Ramesh, S. and Vairam S. Engineering Chemistry, Wiley India (2012) 1sted. 2. Puri, B.R., Sharma,L.R., and Pathania, M.S. Principles of Physical Chemistry, Vishal Publishing Co. (2008). 3. Aggarwal, S. Engineering Chemistry: Fundamentals and Applications, Cambridge University Press (2015). Reference Books 1. Brown, H., Chemistry for Engineering Students, Thompson, 1sted 2. Sivasankar, B., Engineering Chemistry, Tata McGraw-Hill Pub. Co.