PSO1: Design, develop and analyse electronic systems through application of relevant electronics, mathematics and engineering principles
PSO2: Design, develop and analyze communication systems through application of fundamentals from communication principles, signal processing, and RF System Design & Electromagnetic.
PSO3: Adapt to emerging electronics and communication technologies and develop innovative solutions for existing and newer problems Faculties
| S.NO | STUDENT NAME | NAME OF THE STUDENT | NATURE OF THE EVENT | DATE(Academic Year) | PRIZE |
|---|---|---|---|---|---|
| 1 | ABINAYA.N | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 2 | AKALYA.M | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 3 | DEVEDARSHINI.S | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 4 | SESHAN.K | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 5 | ARUN C.V | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 6 | BALAJI.N | P.A.COLLEGE OF ENGINEERING AND TECHNOLOGY | JRJSH -2K23 | 16.06.2023 | PARTICIPATE |
| 7 | MADHUSREE | PSG INSTITUTE OF TECHNOLOGY AND APPLIED RESEARCH | YUKTA-2K23 | 20.03.2023 TO 21.03.2023 | 1 st PRIZE |
| 8 | KALAIYARASAN.K | STEEL AUTHORITY OF INDIA LIMITED | CENTRALISED ELECTRICAL MAINTENANCE | 19.07.2023 TO 01.08.2023 | PARTICIPATE |
| 9 | KALAIYARASAN.K | EMGLITZ TECHNOLOGIES | EMBEDDED SYSTEMS | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 10 | KALAIYARASAN.K | EMGLITZ TECHNOLOGIES | CORE PROJECTS | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 11 | KALAIYARASAN.K | EMGLITZ TECHNOLOGIES | VEHICLE ENGINE ON SYSTEM USING EMBEDDED CONTROLLER | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 12 | PARTHASARATHI.T | EMGLITZ TECHNOLOGIES | EMBEDDED SYSTEMS | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 13 | PARTHASARATHI.T | EMGLITZ TECHNOLOGIES | Thermal Power Station, Thoothukudi | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 14 | PARTHASARATHI.T | EMGLITZ TECHNOLOGIES | VEHICLE ENGINE ON SYSTEM USING EMBEDDED CONTROLLER | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 15 | DHAYANITHI.G | EMGLITZ TECHNOLOGIES | EMBEDDED SYSTEMS | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 16 | DHAYANITHI.G | EMGLITZ TECHNOLOGIES | Thermal Power Station, Thoothukudi | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 17 | DHAYANITHI.G | EMGLITZ TECHNOLOGIES | VEHICLE ENGINE ON SYSTEM USING EMBEDDED CONTROLLER | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 18 | MANIYARASU.B | EMGLITZ TECHNOLOGIES | EMBEDDED SYSTEMS | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 19 | MANIYARASU.B | EMGLITZ TECHNOLOGIES | Thermal Power Station, Thoothukudi | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 20 | MANIYARASU.B | EMGLITZ TECHNOLOGIES | VEHICLE ENGINE ON SYSTEM USING EMBEDDED CONTROLLER | 1.07.2023 TO 20.07.2023 | PARTICIPATE |
| 21 | BHUVANESHWARAN | INGU’S KNOWLEDGE ACADEMY PVT LTD | MOBILE PHONE SECURITY & FRAUDS | 02.08.2023 | PARTICIPATE |
| 22 | BHUVANESHWARAN | INGU’S KNOWLEDGE ACADEMY PVT LTD | FINANCIAL FRAUD INVESTIGATION | 06.09.2023 | PARTICIPATE |
| 23 | SAKTHIVEL.M | MARCELLO TECH | WEB DEVELOPMENT IN PHP & MYSQL | 15.07.2023 | PARTICIPATE |
| 24 | MANIYARASU.S | MARCELLO TECH | DEVELOPING INTELLIGENT SOLUTIONS IN MACHINE LEARNING USING PYTHON | 15.07.2023 | PARTICIPATE |
| 25 | RAJKUMAR.S | GUSTOVALLEY TECHNOVATIONS | GUDTOVALLEY TECHNOVATION’S ONLINE INTERNSHIP | 03.02.2022 TO 05.03.2022 | PARTICIPATE |
| 26 | SRIVARSHINI.M | SMART INDIA HACKATHON | SMART INDIA HACKATHON 2022 | 25.08.2022 TO 26.08.2022 | PARTICIPATE |
| 27 | GANESHAMOORTHY. G | SMART INDIA HACKATHON | SMART INDIA HACKATHON 2022 | 25.08.2022 TO 26.08.2022 | PARTICIPATE |
| S.NO | ROLL NO | NAME OF THE STUDENT | COMPANY PLANNED | INPLANT TRAINING INTERNSHIP | DATE |
|---|---|---|---|---|---|
| 1 | 14EC62 | P.Sujitha | Thermal Power Station, Thoothukudi | Inplant Training | Dec 3rd week |
| 2 | 14EC45 | V.Poovizhili | |||
| 3 | 14EC49 | E.Roshini | |||
| 4 | 14EC64 | T.Tamil Alagi | |||
| 5 | 14EC58 | K.M.Shynimol | |||
| 6 | 14EC66 | R.M.Vidhya | |||
| 7 | 14EC52 | D.Sandhiya | |||
| 8 | 14EC36 | N.MaheshPriya | |||
| 9 | 14EC63 | R.Sumithra | |||
| 10 | 14EC43 | R.Naveen Prasanth | BSNL, Coimbatore | Inplant Training | Dec 3rd week |
| 11 | 14EC41 | R.Naveen | |||
| 12 | 14EC67 | R.Vignesh | |||
| 13 | 14EC48 | A.Prem Kumar | |||
| 14 | 14EC61 | S.Siva Sankar | |||
| 15 | 14EC59 | Sabarivelavan S | |||
| 16 | 14EC02 | R.Alagesan | |||
| 17 | 14EC14 | S.Gokul Prasanth | |||
| 18 | 14EC08 | G.Dhanalakshmi | |||
| 19 | 14EC20 | P.Jawahar | |||
| 20 | 14EC10 | J.Dinesh | |||
| 21 | 14EC01 | M.Ajith Kumar | |||
| 22 | 14EC13 | R.Gopinath | |||
| 23 | 14EC17 | S.Harshini | |||
| 24 | 14EC15 | P.S Gopika | |||
| 25 | 14EC57 | N.Shanthini | Kurinji Hospital, Coimbatore | Inplant Training | Dec 4rd week |
| 26 | 14EC54 | N.Saraswati | |||
| 27 | 14EC69 | P.G Nathashaa | BSNL,Chennai | Internship | Dec 3rd week |
| S.NO | NAME | YEAR | EVENT |
|---|---|---|---|
| 1 | Malini S | II ECE | Participated in Volly Ball Tournament at 16.2.18 |
| 2 | Gnana Salome J | II ECE | Participated in Saral 2018 Rotract club event at Dharapuram on 11.2.18 |
| 3 | Sivaranjani B | ||
| 4 | Javani V | III ECE | Attended IBM Conference meet in Brook Fields on 5.1.18 |
| 5 | Aishhwariya | ||
| 6 | Aishhwariya | II ECE | Participated in Volly Ball Tournament at 16.2.18 |
| 7 | Abrar Ahamed S | III ECE | Python Programming on 1.2.18 at Madras Institute of Technology |
| 8 | Mohamed Warish | ||
| 9 | Manoj V | ||
| 10 | Abrar Ahamed S | III ECE | Cryptography and Network Security workshop on 17.2.18 at Karpagam College of Technology |
| 11 | Mohamed Warish | ||
| 12 | Aishhwariya | III ECE | Rotract Women’s Era at TCE in Mar 2018 |
| 13 | All Students of III ECE | III ECE | Embedded Workshop at TCE in March,2018 |
| 14 | Preetha P | II ECE | Participated in Singing Competition at KCT and won II prize on 5.1.18 |
| 15 | Selva Lakshmi R | III ECE | Participated in Ball Bat mitten CENTIES match at UIT, Mettupalayam on 11.2.18 |
| 16 | Malini S | II ECE | Participated in Volly Ball Tournament at 16.2.18 |
| 17 | Sankar A | IV ECE | Participated in the Zonal level handball tournament |
| 18 | V.Raghul | III ECE | Participated in the Zonal level handball tournament |
| 19 | Preetha P | II ECE | Participated in Singing Competition at KCT and won II prize on 5.1.18 |
| 20 | Sivaranjani B | II ECE | Implant Training at Uniq Technologies in Dec 2017 |
| 21 | Preetha P | ||
| 22 | Malini S | ||
| 23 | Gnana Salome J | ||
| 24 | Sivaranjani B | ||
| 25 | Meghavardhini V | ||
| 26 | Pavithra R | ||
| 27 | Deiva Sarathi.C | ||
| 28 | Krishnendu Venugopal | ||
| 29 | Saridha S | ||
| 30 | Dhivya Bharathi S |
| S.NO | NAME | COLLEGE | EVENT | DATE | PRIZE/PARTICIPATION |
|---|---|---|---|---|---|
| 1 | KARTHIK R | Sri Ramakrishna Engineering College | Project Presentation | 23/09/2017 | Participation |
| 2 | RANJITH A P | Dr.N G P Institute Of Technology | Project Presentation | 23/09/2017 | 2nd Prize |
| 3 | SUBASH M | Dr.N G P Institute Of Technology | Project Presentation | 23/09/2017 | 2nd Prize |
| 4 | RAJESH R | Dr.N G P Institute Of Technology | Project Presentation | 26/09/2017 | Participation |
| 5 | RANJITH A P | Jansons Institute Of Technology | Project Presentation | 26/09/2017 | Participation |
| 6 | KARTHIK R | Jansons Institute Of Technology | Project Presentation | 26/09/2017 | Participation |
| 7 | MANOJ A | Jansons Institute Of Technology | Project Presentation | 26/09/2017 | Participation |
| 8 | VIMAL S I | Jansons Institute Of Technology | Project Presentation | 23/09/2017 | 2nd Prize |
| 9 | SELVAM G | Dr.N G P Institute Of Technology | Project Presentation | 23/09/2017 | 2nd Prize |
| S.NO | NAME | YEAR | AREA/TITLE OF THE PROJECT |
|---|---|---|---|
| 1 | Thazhai E Shruthi | III ECE | Atmel Army Guard |
| 2 | Divya M | ||
| 3 | Dhamayanthi M | ||
| 4 | Priya E S | ||
| 5 | Sumithra M | ||
| 6 | Chandru R | III ECE | Prosthetic Arm |
| 7 | Dharani Kanna K V | ||
| 8 | Dharshini N | ||
| 9 | Soundharya S | ||
| 10 | Sree Rag P | ||
| 11 | Jerone Arnald A | III ECE | Complaint Management Application |
| 12 | Vasanth K | ||
| 13 | Nirmal Kumar R | ||
| 14 | Aswin Dev C V | III ECE | Age Calculator(GUI) and Hotel Management(GUI) |
| 15 | Dharani Kumar | ||
| 16 | Kapil Dev V | ||
| 17 | Manoj R | ||
| 18 | Krishna Kumar A | III ECE | [P1]Movie Privacy Blocker(Embedded) [P2]Bank Login System(Python) [P3]User Registration/Login(Html&Sql) [P4]Hair-Pin-Bend Accident Preventor(Hardware) |
| 19 | Sabareeshwaran K | ||
| 20 | Sakthimani S | ||
| 21 | Saravana Kumar I | ||
| 22 | Akshay Kumar K S | II ECE | Armrider |
| 23 | Santhosh K | ||
| 24 | Rewathi S | ||
| 25 | Sujeetha M | ||
| 26 | Gokulkrishnan P | II ECE | Smart Irrigation System |
| 27 | Dileep Kumar D | ||
| 28 | Kirubakaran K | ||
| 29 | Ponraja P | ||
| 29 | Arunkumar N | ||
| 30 | Kalaivani G | II ECE | Techman |
| 31 | Soundarya C | ||
| 32 | Dineshperumal A | ||
| 33 | Manikandan P | ||
| 34 | Mohamed Sabiqe S | II ECE | Automatic Car Wiper |
| 35 | Mounika S | ||
| 36 | Unnikrishnan M | ||
| 37 | Vignesh E | ||
| 38 | Santhiya K | ||
| 39 | Veeramuthu S | II ECE | Smart Street Light |
| S.NO | STUDENT NAME | EVENT & PROGRAM NAME | ORGANISER | DATE/ DURATION | PARTICIAPTION / PRIZE AWARD |
|---|---|---|---|---|---|
| 1 | Makesh M | Handball | Anna University | 15.9.17 to 16.9.17 | PARTICIPATION |
| 2 | Hariharan. S.V | Handball | Anna University | 15.9.17 to 16.9.17 | PARTICIPATION |
| 3 | Sabesh.S | Handball | Anna University | 15.9.17 to 16.9.17 | PARTICIPATION |
| 4 | Harikrishnan.R | Ball Badminton | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 5 | Keerthana L | Volley ball | RVS College | 23.8.17 to 24.8.17 | PARTICIPATION |
| 6 | Samundieswari.S | Ball Badminton | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 7 | Tamilselvi.M | Ball Badminton | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 8 | Shruthi.N | Ball Badminton | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 9 | Prakash.M | Kabadi | RVS College | 26.9.17 to 27.9.17 | PARTICIPATION |
| 10 | Vinoth.M | Kabadi | RVS College | 26.9.17 to 27.9.17 | PARTICIPATION |
| 11 | Ragu.K | Kabadi | RVS College | 26.9.17 to 27.9.17 | PARTICIPATION |
| 12 | Hariharan. S.V | Handball | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 13 | Makesh M | Handball | KPR IET | 4.8.17 to 5.8.17 | PARTICIPATION |
| 14 | Mahendran.P | Volley Ball | KIT | 15.9.17 to 16.9.17 | PARTICIPATION |
| 15 | Mugesh.M | Volley Ball | KIT | 15.9.17 to 16.9.17 | PARTICIPATION |
| 16 | Kabilathasan.B | Chess | Anna University | 21.9.17 | PARTICIPATION |
| 17 | Soundarya.G | Ball Badminton | CIT | 4.8.17 | PARTICIPATION |
| 18 | Priyanka.C | Ball Badminton | CIT | 4.8.17 | PARTICIPATION |
| 19 | Veeramani.P | Basket Ball | SRIT | 20.8.17 | PARTICIPATION |
This laboratory gives the students an excellent opportunity for the students to brush up their practical knowledge in the vast developing field of Microwave Communication and Optical Fiber Communication.
Micrwave technology is being used in many ways as electronic communications have greater influence in our lives. The introduction to Microwave Communications learning program provides you with a ‘hands –on’ introduction to the principles of microwave communications. The program uses a purpose-made microwave training module and a comprehensive student Laboratory Manual that contains both theory and practical microwave experimentation.
Optical Fiber Communication has changed telecommunications all over the world. It is intended to introduce students in the technology of fiber optics.
This lab is well established with equipment like optical fiber kits, Desktop and Portable power meters, A/V Limiter, Professional grade differentiators, and microwave benches to set any experimental arrangement in basic microwave and optics.
The complexity of engineered systems has risen dramatically in recent decades, but conventional system design methods have failed to keep pace, resulting in regular cost and time overruns.
This laboratory exploits intelligence and imaginations, blending each proportionately to bring out innovation and creativity. Extensive facilities for designing Power Supplies, PLCs, AM/FM tranceivers etc. are rendered. Design of any analog, digital circuits for PCB is provided through state-of-the-art software tools like PSPICE, CAD.
Students learn about the interactions between system components and advanced design methods that can fully account for system interactions and capitalize on synergistic relationships to improve system performance and reduce complexity of the design process. Students gain knowledge in better system design which can have positive impact on humanity, such as improving energy efficiency and energy sustainability.
In the field of Radio communication in both analog and digital techniques, students will be getting an exposure comparable to world class institutions. We have the latest equipments to cater the need of training in the ever green field of communication. The Communication Lab is equipped with latest Analog and Signal Communication kits like Sampling and Reconstruction, Time Division Multiplexing. AM & FM Modulator and Dmodulator, Pulse Code Modulation and different types of Antennas.
Students gain more knowledge about the field of Latest Communication Technologies as
Students learn about the interactions between system components and advanced design methods that can fully account for system interactions and capitalize on synergistic relationships to improve system performance and reduce complexity of the design process. Students gain knowledge in better system design which can have positive impact on humanity, such as improving energy efficiency and energy sustainability.
In the field of Radio communication in both analog and digital techniques, students will be getting an exposure comparable to world class institutions. We have the latest equipments to cater the need of training in the ever green field of communication. The Communication Lab is equipped with latest Analog and Signal Communication kits like Sampling and Reconstruction, Time Division Multiplexing. AM & FM Modulator and Dmodulator, Pulse Code Modulation and different types of Antennas.
Students gain more knowledge about the field of Latest Communication Technologies as
Microprocessor and Microcontroller laboratory helps the students to develop their knowledge on processor architecture and the programming skills. This laboratory houses the hardware which includes 8085 Microprocessor trainer kits, 8086 Microprocessor trainer kits, 8051 Microcontroller trainer kits, interfacing cards and software Keil-51. This laboratory provides hand-on experience to interface I/O devices, perform A/D and D/A conversions, design digital clock, traffic light control system etc., The features and facilities available in this laboratory helps the students to do their projects and enhance their knowledge on the latest trends and technologies. Students from other branch of engineering also make use of this laboratory and develop their skills in the field of Microprocessors & Microcontrollers and their applications.
Network & VLSI Laboratory is equipped with hordes of personal computers. LAN Trainer experiments and NS2 simulator environment motivates the students to study and analyze the conceptual and behavioral aspects of wired and wireless networks. In this lab, the students are exposed to various concepts in signal processing through simulation using MATLAB and implementation using DSP processor kits. In VLSI lab, the students are trained to design digital circuits using the various hardware description languages and also their implementation on FPGAs. Lab is well equipped with XILINX , Tanner tools, ORCAD PSPICE package and real time Embedded kits.
Being the most fundamental requirement for electronics and communication engineering, this laboratory paves the way for the students to get a strong exposure in the basics of the field. Further more it encourages designing electronic circuits.
This laboratory also provides strong foundation in digital and analog integrated circuits. An engineer who wants to understand existing analog and digital circuits or to design new ones needs to know the basic operations of electronics circuits. This Laboratory is fully equipped with the required instruments such as C.R.O., Millimeters, signal Generator, consumables etc. Designing circuits using them acts as the basis for the major electronics systems.
Facilities for gaining extensive knowledge on integrated circuits include Standard signal generators, IC testers, state of the art instruments like digital storage Oscilloscope and Digital ICs.
Laboratory work is a prominent feature of education in Science and Technology based on subjects. Electronics Engineering Practices Laboratory provides a basic introduction of electronic hardware. This Laboratory provides familiarization and testing of electronic components that includes Active, Passive, Electrical, Electronic, Electro-mechanical, Wires, Cables, Connectors, Fuses, Switches, Relays, etc., instruments like Multimeter, Function Generator, Power supply, CRO, design and fabrication of a single sided PCB, Inter-connection methods and soldering practice, Assembling of electronic circuit/system on general purpose PCB, test and show the functioning are the experiments conducted in this lab.Engineering practice is a study and practice of the scientific principles underlying the art of manufacture.
Facilities provided for gaining extensive knowledge are
In addition to the Central Library, a well-equipped departmental library is functioning in the department to the needs of the faculty and students with a seating capacity of 10. The ECE Department Library was started from the inception of the department. It has a total of 535 books in 39 different areas like Basic and Integrated Electronics, Analog and Digital Communication, Electromagnetics, Computer Networks, Signal and Image Processing, Radar, Satellite Communication, Microwave and Optical Communication, Wireless Communication, Soft Computing, VLSI, Embedded Systems and Nano Electronics. Apart from this, UG project reports of ECE Department are kept for reference.
| S.NO | DATE | EVENT | TOPIC | CONDUCTED BY |
|---|---|---|---|---|
| 1 | 05.09.2023 | Teacher Day celebration | Celebration and Tamil poem by III year student Ms. Madhusri. M | ECE -Association |
| 2 | 09.05.2023 | Farewell Day | Celebration | Dr. M. Karthikeyan. Principal Dr. S. Latha Shanmuga Vadivu HOD |
| 3 | 22.09.2023 | Technical Quiz | Common Topic | Chairman and Secretary |
| 4 | 22.09.2023 | Project Expo | Common Topic | Chairman and Secretary |
| 5 | 25.09.2023 | Competition (Non Technical) | Connection, Online Games Photography | ECE –Association |
| 6 | 25.09.2023 | Paper Presentation | Common Topic | Chairman and Secretary |
| 7 | 25.09.2023 | MINI-HACKATHON | Common Topic | Chairman and Secretary |
| 8 | 25.09.2023 | Connection | Common Topic | Chairman and Secretary |
| 9 | 25.09.2023 | Online Games | Common Topic | Chairman and Secretary |
| 10 | 25.09.2023 | Photography | Common Topic | Chairman and Secretary |
| 11 | 26.09.2023 | Hertz 23 | Embedded Workshop | Dr. M. Kannan M.E,Ph.d. Chief Technical Officer, Vaaraahi Embedded,Cbe |
| 12 | Emica-2022 | Internal Events/ECE Associations | Mr.M.Satisbabu General Manager Kavin Engineering & Pvt.Ltd,Cbe | ECE –Association |
| 13 | 29.09.2022 | Electronics | SDLC Seminar | R.Manikandan Senior Software Engineer,Barracuda Networks |
| 14 | 14.05.2022 | Emica-2022 | Internal Events/ECE Associations | Mr.M.Satisbabu General Manager Kavin Engineering & Pvt.Ltd,Cbe |
| S.NO | Topic | Course coordinator | Technical person | No. Of students attended | Academic year | Semester | Duration(hours) |
|---|---|---|---|---|---|---|---|
| 1 | Cyber security | Mr. T. Arachelvi | Mr. T. Arachelvi | 72 | 2022-2023 | 3,5,7 | 30 Hours |
| 2 | Android Development | Mr. R. Ponneela Vignesh | Mr. R. Ponneela Vignesh | 50 | 2021-2022 | 3,5,7 | 30 Hours |
| 3 | Introduction to Robotics | Mr. R. Ram Karthick Kumar | Mr. R. Ram Karthick Kumar | 64 | 2020-2021 | 3,5,7 | 30 Hours |
| 4 | Cyber security | Mr. T. Arachelvi | Mr. T. Arachelvi | 37 | 2019-2020 | 7 | 30 Hours |
| 5 | Programming with ARDUINO | Mr. T. Kannan | Mr. T. Kannan | 55 | 2019-2020 | 3,5 | 30 Hours |
| 6 | Cyber security | Mr. T. Arachelvi | Mr. T. Arachelvi | 73 | 2018-2019 | 7 | 30 Hours |
| 7 | Introduction to MATLAB | Mrs. S. LathaShanmugaVadivu | Mrs. S. LathaShanmugaVadivu | 68 | 2018-2019 | 3,5 | 30 Hours |
| 8 | Cyber security | Mr. T. Arachelvi | Mr. T. Arachelvi | 73 | 2017-2018 | 7 | 30 Hours |
| 9 | Introduction to Robotics | Mr. R. Ram Karthick Kumar | Mr. R. Ram Karthick Kumar | 62 | 2017-2018 | 5 | 30 Hours |
| 10 | Android Development | Mr. R. Ponneela Vignesh | Mr. R. Ponneela Vignesh | 33 | 2017-2018 | 3 | 30 Hours |
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| COURSE OUTCOMES FOR THE ACADEMIC YEAR 2022-2023 | ||||||||||||||||||
| SEMESTER III R 2021 | ||||||||||||||||||
| Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
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| III | MA3355 |
Random Processes and Linear Algebra |
CO1 |
Explain the fundamental concepts of
advanced algebra and
their role in modern mathematics and applied contexts. |
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| CO2 | Demonstrate accurate and efficient use of advanced algebraic techniques. |
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| CO3 | Apply the concept of random processes in engineering disciplines. |
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| CO4 |
Understand the fundamental concepts of
probability with a
thorough knowledge of standard distributions that can describe certain real-life phenomenon. |
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| CO5 |
Understand the basic concepts of one
and two dimensional
random variables and apply them to model engineering problems. |
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| CS3353 |
C Programming and
Data Structures |
CO1 | Develop C programs for any real world/technical application. |
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| CO2 | Apply advanced features of C in solving problems. |
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| CO3 | Write functions to implement linear and non–linear data structure operations. |
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| CO4 |
Suggest and use appropriate
linear/non–linear data
structure operations for solving a given problem. |
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| CO5 | Appropriately use sort and search algorithms for a given application. |
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| CO6 |
Apply appropriate hash functions that
result in a collision
free scenario for data storage and retrieval. |
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| III | EC3354 | Signals and Systems | CO1 | Determine if a given system is linear/causal/stable |
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| CO2 | Determine the frequency components present in a deterministic signal |
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| CO3 | Characterize continuous LTI systems in the time domain and frequency domain |
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| CO4 | Characterize continuous LTI systems in the time domain and frequency domain |
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| CO5 | Compute the output of an LTI system in the time and frequency domains |
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| EC3353 |
Electronic Devices
and Circuits |
CO1 | Explain the structure and working operation of basic electronic devices. |
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| CO2 | Design and analyze amplifiers. |
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| CO3 | Analyze frequency response of BJT and MOSFET amplifiers |
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| CO4 | Design and analyze feedback amplifiers and oscillator principles. |
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| CO5 | Design and analyze power amplifiers and supply circuits |
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| III | EC3351 | Control Systems | CO1 | Compute the transfer function of different physical systems. |
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| CO2 | Analyse the time domain specification and calculate the steady state error. |
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| CO3 |
Illustrate the frequency response
characteristics of open
loop and closed loop system response. |
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| CO4 | Analyse the stability using Routh and root locus techniques. |
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| CO5 |
Illustrate the state space model of a
physical system and
discuss the concepts of sampled data control system. |
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| EC3352 | Digital Systems Design | CO1 | Use Boolean algebra and simplification procedures relevant to digital logic. |
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| CO2 | Design various combinational digital circuits using logic gates. |
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| CO3 | Analyse and design synchronous sequential circuits. |
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| CO4 | Analyse and design asynchronous sequential circuits. . |
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| CO5 | Build logic gates and use programmable devices |
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| III | EC3361 |
Electronic Devices
and Circuits Laboratory |
CO1 | Characteristics of PN Junction Diode and Zener diode. |
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| CO2 | Design and Testing of BJT and MOSFET amplifiers. |
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| CO3 | Operation of power amplifiers. |
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| CS3362 | C programming and data structures laboratory | CO1 | Use different constructs of C and develop applications |
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| CO2 | Write functions to implement linear and non-linear data structure operations |
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| CO3 | Suggest and use the appropriate linear / non-linear data structure operations for a given problem |
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| CO4 | Apply appropriate hash functions that result in a collision free scenario for data storage and Retrieval |
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| CO5 | Implement Sorting and searching algorithms for a given application |
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| GE3361 | Professional development | CO1 | Use MS Word to create quality documents, by structuring and organizing content for their day to day technical and academic requirements |
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| CO2 | Use MS EXCEL to perform data operations and analytics, record, retrieve data as per requirements and visualize data for ease of understanding |
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| CO3 | Use MS PowerPoint to create high quality academic presentations by including common tables, charts, graphs, interlinking other elements, and using media objects. |
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||||
| SEMESTER IV R2021 ACADEMIC YEAR 2022-2023 |
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||||
| Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
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|||||
| VI | EC3452 | Electromagnetic Fields | CO1 | Relate the fundamentals of vector, coordinate system to electromagnetic concepts |
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| CO2 | Analyze the characteristics of Electrostatic field |
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| CO3 | Analyze the characteristics of Electrostatic field |
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| CO4 |
Explain the concepts and
characteristics of Magneto Static
field in material space and solve boundary conditions. |
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| CO5 | Determine the significance of time varying fields |
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| EC3401 | Networks and Security | CO1 | Explain the Network Models, layers and functions. |
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| CO2 | Categorize and classify the routing protocols. |
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| CO3 | List the functions of the transport and application layer. |
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| CO4 | Evaluate and choose the network security mechanisms. |
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| CO5 | Discuss the hardware security attacks and countermeasures. |
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| CO6 | Distributed Control System (DCS). |
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| EC3451 |
Linear Integrated
Circuits |
CO1 | Design linear and nonlinear applications of OP – AMPS |
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| CO2 | Design applications using analog multiplier and PLL |
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|||
| CO3 | Design ADC and DAC using OP – AMPS |
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| CO4 | Generate waveforms using OP – AMP Circuits |
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|||
| CO5 | Analyze special function Ics |
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| EC3492 | Digital Signal Processing | CO1 | Apply DFT for the analysis of digital signals and systems |
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| CO2 | Design IIR and FIR filters |
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|||
| CO3 | Characterize the effects of finite precision representation on digital filters |
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|||
| CO4 | Design multirate filters |
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|||
| CO5 | Apply adaptive filters appropriately in communication systems |
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|||
| EC3491 | Communication Systems | CO1 | Gain knowledge in amplitude modulation techniques |
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| CO2 | Understand the concepts of Random Process to the design of communication systems |
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|
|||
| CO3 | Gain knowledge in digital techniques |
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|
|||
| CO4 | Gain knowledge in sampling and quantization |
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|||
| CO5 | Understand the importance of demodulation techniques |
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|||
| GE3451 |
Environmental Sciences
and Sustainability |
CO1 |
To recognize and understand the
functions of environment,
ecosystems and biodiversity and their conservation. |
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| CO2 |
To identify the causes, effects of
environmental pollution
and natural disasters and contribute to the preventive measures in the society. |
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|||
| CO3 |
To identify and apply the understanding
of renewable and
non-renewable resources and contribute to the sustainable measures to preserve them for future generations. |
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|||
| CO4 |
To recognize the different goals of
sustainable development
and apply them for suitable technological advancement and societal development. |
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|||
| CO5 |
To demonstrate the knowledge of
sustainability practices
and identify green materials, energy cycles and the role of sustainable urbanization. |
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|||
| EC3461 |
Communication
Systems Laboratory |
CO1 | Design AM, FM & Digital Modulators for specific applications. |
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| CO2 | Compute the sampling frequency for digital modulation. |
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|||
| CO3 | Simulate & validate the various functional modules of Communication system. |
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|
|||
| CO4 |
Demonstrate their knowledge in base
band signaling schemes
through implementation of digital modulation schemes. |
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|
|||
| CO5 |
Apply various channel coding schemes
& demonstrate
their capabilities towards the improvement of the noise performance of Communication system. |
|
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|
|||
| EC3462 |
Linear Integrated
Circuits Laboratory |
CO1 | Analyze various types of feedback amplifiers |
|
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| CO2 | Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators |
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|
|||
| CO3 |
Design and simulate feedback
amplifiers,oscillators, tuned
amplifiers, wave- shaping circuits and multivibrators, filters using SPICE Tool. |
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|
|||
| CO4 | Design amplifiers, oscillators, D-A converters using operational amplifiers. |
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|
|||
| CO5 | Design filters using op-amp and perform an experiment on frequency response |
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|||
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|
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|
|
|
| SEMESTER V R2017 ACADEMIC YEAR 2022-2023 |
|
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|
||||
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|
|
| Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
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|||||
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|||||
| V | EC8501 | Digital Communication | CO1 | Design PCM systems |
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| CO2 | Design and implement base band transmission scheme |
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|
|||
| CO3 | Design and implement band pass signaling schemes |
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|
|||
| CO4 |
Analyze the spectral characteristics of
band pass signaling
schemes and their noise performance |
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|
|||
| CO5 | Design error control coding schemes |
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|
|||
| EC8553 |
Discrete-Time
Signal Processing |
CO1 | Apply DFT for the analysis of digital signals and systems |
|
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|
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| CO2 | Design IIR and FIR filters |
|
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|
|
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|
|||
| CO3 | Characterize the effects of finite precision representation on digital filters |
|
|
|
|
|
|
|
|
|
|
|
|
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|
|||
| CO4 | Design multirate filters |
|
|
|
|
|
|
|
|
|
|
|
|
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|
|||
| CO5 | Apply adaptive filters appropriately in communication systems |
|
|
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|
|||
| EC8552 |
Computer Architecture
and Organization |
CO1 | Describe data representation, instruction formats and the operation of a digital computer |
|
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|
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| CO2 | Illustrate the fixed point and floating-point arithmetic for ALU operation |
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|
|||
| CO3 | Discuss about implementation schemes of control unit and pipeline performance |
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|
|||
| CO4 | Explain the concept of various memories, interfacing and organization of multiple processors |
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|
|||
| CO5 | Discuss parallel processing technique and unconventional architectures |
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|
|||
| EE8551 | Communication Networks | CO1 | Identify the components required to build different types of networks |
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| CO2 | Choose the required functionality at each layer for given application |
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|
|||
| CO3 | Identify solution for each functionality at each layer |
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|
|||
| CO4 | Trace the flow of information from one node to another node in the network |
|
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|
|||
| OMD551 | Basic of biomedical instruments | CO1 | To Learn the different bio potential and its propagation |
|
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| CO2 |
To get Familiarize the different
electrode placement for
various physiological recording |
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|
|||
| CO3 | Understand the basic operations involved with heat exchangers, Distillation and chemical reactions |
|
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|
|||
| CO4 | Students will be able design bio amplifier for various physiological recording |
|
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|
|||
| CO5 |
Understand the different biochemical
measurements |
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|
|||
| GE8077 | Total Quality Management | CO1 | To facilitate the understanding of Quality Management principles and process. |
|
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| CO2 | Examine the characteristics of air pollutants and their effects |
|
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|
|||
| CO3 | Identify, formulate and solve meteorological effects |
|
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|
|||
| CO4 | ability to design stacks and particulate air pollution control devices to meet applicable standards. A |
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|
|||
| CO5 | Ability to select control equipment |
|
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|
|||
| EC8562 |
Digital Signal
Processing Laboratory |
CO1 | Carryout basic signal processing operations |
|
|
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|
|
| CO2 |
Demonstrate their abilities towards
MATLAB based
implementation of various DSP systems |
|
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|
|||
| CO3 | AAnalyze the architecture of a DSP Processor |
|
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|
|||
| CO4 | Design and Implement the FIR and IIR Filters in DSP Processor for performing |
|
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|
|||
|
|
CO5 | Design a DSP system for various applications of DSP |
|
|
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|
||
| EC8561 |
Communication
Systems Laboratory |
CO1 | Simulate & validate the various functional modules of a communication system |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| CO2 |
Demonstrate their knowledge in base
band signaling schemes
through implementation of digital modulation schemes |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|||
| CO3 |
Apply various channel coding schemes
& demonstrate
their capabilities towards the improvement of the noise performance of communication system |
|
|
|
|
|
|
|
|
|
|
|
|
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|
|||
| CO4 | Simulate end-to-end communication Link |
|
|
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|
|||
|
|
EC8563 | Communication Networks Laboratory | CO1 | Communicate between two desktop computers |
|
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|
|
CO2 | Implement the different protocols |
|
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|
||
|
|
CO3 | Program using sockets. |
|
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|
||
|
|
CO4 | Implement and compare the various routing algorithms |
|
|
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|
||
|
|
CO5 | Use the simulation tool. |
|
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| SEMESTER VI R2017 ACADEMIC YEAR 2022-2023 |
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| Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
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| VI | EC8691 |
Microprocessors
and Microcontrollers |
CO1 | Understand and execute programs based on 8086 microprocessor. |
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| CO2 | Design Memory Interfacing circuits. |
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| CO3 | Design and interface I/O circuits. |
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| CO4 | Design and implement 8051 microcontroller based systems. |
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| EC8095 | VLSI Design | CO1 | Realize the concepts of digital building blocks using MOS transistor. |
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| CO2 | Design combinational MOS circuits and power strategies |
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| CO3 | Design and construct Sequential Circuits and Timing systems. |
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| CO4 | Design arithmetic building blocks and memory subsystems |
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| CO5 | Apply and implement FPGA design flow and testing. |
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| EC8652 | Wireless Communication | CO1 | Characterize a wireless channel and evolve the system design specifications |
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| CO2 | Design a cellular system based on resource availability and traffic demands |
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| CO3 |
Identify suitable signaling and
multipath mitigation
techniques for the wireless channel and system under consideration. |
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| CO4 | Channel and system under consideration. |
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| MG8591 | Principles of Management | CO1 | Upon completion of the course, students will be able to have clear understanding |
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| CO2 |
Managerial functions like planning,
organizing, staffing,
leading & controlling and have same basic knowledge on international aspect of management |
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| CO3 | Same basic knowledge on international aspect of management |
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| CO4 | To enable the students to study the evolution of Management, to study the functions |
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| CO5 | Principles of management and to learn the application of the principles in an organization . |
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| EC8651 |
Transmission Lines and
RF Systems |
CO1 | Explain the characteristics of transmission lines and its losses |
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| CO2 |
Write about the standing wave ratio and
input impedance in
high frequency transmission lines |
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| CO3 | Analyze impedance matching by stubs using smith charts |
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| CO4 | Analyze the characteristics of TE and TM waves |
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| CO5 | Design a RF transceiver system for wireless communication |
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| EC8681 |
Microprocessors
and Microcontrollers Laboratory |
CO1 | Write ALP Programmes for fixed and Floating Point and Arithmetic operations |
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| CO2 | Interface different I/Os with processor |
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| CO3 | Generate waveforms using Microprocessors |
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| CO4 | Execute Programs in 8051 |
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| CO5 | Explain the difference between simulator and Emulator |
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| EC8661 | VLSI Design Laboratory | CO1 | Write HDL code for basic as well as advanced digital integrated circuit |
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| CO2 | Import the logic modules into FPGA Boards |
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| CO3 | Synthesize Place and Route the digital Ips |
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| CO4 |
Design, Simulate and Extract the
layouts of Digital &
Analog IC Blocks using EDA tools |
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| CO5 | To provide hands on design experience with professional design (EDA) platforms |
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| HS8581 | Professional Communication | CO1 | To enhance the learners speaking skill through various activities like group discussion, telephonic conversation, presentation skill etc., |
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| CO2 | To develop listening and speaking skills through communicative functions |
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| CO3 | Enhance the Employability and Career Skills of student |
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| CO4 | Orient the students towards grooming as a professional |
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| CO5 | Make them Employability Graduates |
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| CO6 | Develop their confidence and help them attend interviews successfully |
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| SEMESTER VII R2017 ACADEMIC YEAR 2022-2023 EVEN |
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| VII | EC8701 |
Antennas and
Microwave Engineering |
CO1 | Apply the basic principles and evaluate antenna parameters and link power budgets |
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| CO2 | Design and assess the performance of various antennas |
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| CO3 | Design a microwave system given the application specifications |
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| CO4 | To enhance the student knowledge in the area of various antenna designs. |
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| CO5 |
To enable the student to understand the
basic principles in
antenna and microwave system design |
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| EC8751 | Optical Communication | CO1 | Realize basic elements in optical fibers, different modes and configurations. |
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| CO2 |
Analyze the transmission
characteristics associated with
dispersion and polarization techniques. |
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| CO3 |
Design optical sources and detectors
with their use in
optical communication system. |
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| CO4 | Construct fiber optic receiver systems, measurements and coupling techniques. |
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| CO5 | Design optical communication systems and its networks. |
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| EC8791 |
Embedded and Real
Time Systems |
CO1 | Describe the architecture and programming of ARM processor |
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| CO2 | Outline the concepts of embedded systems |
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| CO3 |
Explain the basic concepts of real time
operating system
design |
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| CO4 | Model real-time applications using embedded-system concepts |
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| CO5 | Be exposed to the basic concepts of embedded programming |
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| EC8702 |
Ad hoc and
Wireless Sensor Networks |
CO1 | Learn Ad hoc network and Sensor Network fundamentals |
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| CO2 | Understand the different routing protocols |
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| CO3 | Have an in-depth knowledge on sensor network architecture and design issues |
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| CO4 |
Understand the transport layer and
security issues possible
in Ad hoc and Sensor networks |
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| CO5 | Have an exposure to mote programming platforms and tools |
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| OCE751 | Environmental and Social Impact Assessment | CO1 | Critically review a world including central Asia countrie3s environmental impact statements. |
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| CO2 | Prepare portions of environmental documents through administractive and legal requirements and standards of professional pratice. |
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| CO3 | Fully participate in intterdisciplinary environmental report preparation teams. |
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| CO4 | Analyze proposed development project plans for possible environmental effects prepare approprite initial studies. |
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| CO5 | Utilize EIA documents for policy development, project planning or for legal or political action planning. |
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| EC8711 | Embedded Laboratory | CO1 | Learn the working of ARM processor |
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| CO2 | Understand the Building Blocks of Embedded Systems |
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| CO3 | Learn the concept of memory map and memory interface |
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| CO4 | Write programs to interface memory, I/Os with processor |
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| CO5 | Study the interrupt performance |
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| EC8761 | Advanced Communication | CO1 | Understand the working principle of optical sources, detector, fibers |
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| CO2 | Develop understanding of simple optical communication link |
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| CO3 | Understand the measurement of BER, Pulse broadening |
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| CO4 | Understand and capture an experimental approach to digital wireless communication |
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| CO5 |
Understand actual communication
waveforms that will be sent
and received across wireless channel |
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| EI8762 |
Instrumentation System Design Laboratory |
CO1 | Design Instrumentation Amplifier practically for sensor output signal amplification. |
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| CO2 | Design active Low pass and High pass filters for filtering the unwanted signals. |
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| CO3 | Develop various signal conditioning circuit, measure the parameters and comment on the linearity. |
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| CO4 | Design Linearization and compensation for Thermocouple output. |
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| CO5 | Design different flow measurement devices. |
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| CO6 | Draw the piping and Instrumentation diagram for various process and prepare project documentation. |
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| SEMESTER VIII R2017 ACADEMIC YEAR 2022-2023 EVEN |
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| Sem | Sub Code | Sub Name | Course Outcome No | Course Outcomes |
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| VIII | EC8094 | Satellite Communication | CO1 | Understand the basics of satellite orbits |
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| CO2 | Understand the satellite segment and earth segment |
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| CO3 | Analyze the various methods of satellite access |
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| CO4 | Understand the applications of satellites |
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| CO5 | Understand the basics of satellite Networks |
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| GE8076 | Professional Ethicks in Engineering | CO1 | Students will be able to apply the principles of human values and ethics. |
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| CO2 | Students will be able to apply the concepts of Professional ideals and virtues. |
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| CO3 | Students will be able to apply the code of ethics. |
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| CO4 | Students will be able to evaluate the consequences of safety and risk. |
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| CO5 | Students will be able to differentiate the responsibility and rights of Engineering professionals. |
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| IC8811 | Project Work | CO1 | Experiment a specific problem right from its identification, formulation and obtaining successful solution for the same using various engineering techniques. |
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| CO2 | Choose any challenging practical problems and find solution by formulating proper methodology. |
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| CO3 | Prepare project reports and to face reviews and viva voce examination. |
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| CO4 | Integrate and work in a team. |
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| CO5 | Summarize the project and prepare the publication of papers and journals to expose to the technical world. |
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