ECL504: Open Source Technology for Communication Lab Syllabus for EC 5th Sem 2018 Pattern Mumbai University

Open Source Technology for Communication Lab detailed syllabus scheme for Electronics & Telecommunication Engineering (EC), 2018 regulation has been taken from the University of Mumbai official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.

For all other Mumbai University Electronics & Telecommunication Engineering 5th Sem Syllabus 2018 Pattern, do visit EC 5th Sem 2018 Pattern Scheme. The detailed syllabus scheme for open source technology for communication lab is as follows.

Open Source Technology for Communication Lab Syllabus for Electronics & Telecommunication Engineering TE 5th Sem 2018 Pattern Mumbai University

Prerequisites:

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdf platform to make students’s lives easier.
.

Course Objectives:

• Introduction to open source tools for communication lab.
• To simulate and analyze the various parameters of communication systems.
• To understand and implement the communication system/sub system.

Course Outcomes:

After successful completion of the course student will be able to

• Learn open source programming tools for communication technology.
• Simulate and analyze the performance of communication system.
• Implement the communication system/subsystem.

Sample List of Experiments:

Note: These are few examples of experiments; teachers may prepare their own list.

1. Installation of
   1. Python, NumPy and commPy or
   2. Octave or
   3. Scilab or
   4. Xilinx using HDL Or
   5. LT SPICE Or
   6. SEQUEL Note: Any one tool or a combination of tools . See the E-resource Links
2. Write a program to represent analog signal to digital signal (A to D conversion. http://www.scilab.in/file s/textbooks/ProfSenthik umar/DC.pdf
3. Write a program to generate basic functions
   1. Unit Impulse Signal
   2. Unit Step Signal
   3. Generate Ramp Signal
   4. Exponential Sequence
   5. Generate Sine Sequence
   6. Cos Sequence See the E-resource Links
4. Write a program to perform convolution and correlation on the given signal. See the E-resource Links
5. Plot the ASK, FSK and PSk Waveforms using scilab/python See the E-resource Links
6. Write a program to apply Low/High Pass Filter on the given signal. See the E-resource Links
7. Write a program to read a speech signal and plot it and play it. See the E-resource Links
8. Write a program to apply Low/High Pass Filter on the given signal. See the E-resource Links
9. Write a code to design Butterworth/Chebyshev filter using Scilab/Octave/Python. See the E-resource Links
10. Write a program to calculate Hamming distance using Scilab/python. See the E-resource Links
11. Encoding and decoding of convolutional codes
    1. https://github.com/vee resht/CommPy/blob/mas ter/commpy/examples/c onv_encode_decode.py
    2. https://media.readthed ocs.org/pdf/commpy/late st/commpy.pdf
12. Design and programming of of 1-bit Full adder and testing using Testbench. See the E-resource Links
13. Design and programming of 4-bit adder using Full adder and testing using Testbench See the E-resource Links
14. Design and programming of 8:1 Mux and testing using Testbench See the E-resource Links
15. Design and programming of 3:8 Decoder and testing using Testbench See the E-resource Links
16. Design and programming of D Latch and D Flip Flop and testing using Testbench See the E-resource Links
17. Design and programming of T FF and testing using Testbench See the E-resource Links
18. Design and programming of Counter and testing using Testbench See the E-resource Links
19. Design and programming of RAM and testing using Testbench See the E-resource Links
20. Design and Programming of FSM and testing using Testbench See the E-resource Links
21. Design and Simulation of Basic diode Circuits like Clipper, Clapper, Voltage Doubler using Sequel or LT Spice See the E-resource Links
22. Design and simulation of single stage and Multistage BJT amplifier using Sequel or LT SPICE See the E-resource Links
23. Design and simulation of Differential amplifier and current mirror circuit using Sequel or LT SPICE See the E-resource Links
24. Design and Simulation of Basic Op-circuits like Inverting amplifier , Non-Inverting amplifier, Difference amplifier, I to V convertor, V to I Convertor etc using Sequel ot LT SPICE. See the E-resource Links
25. Design and Simulation of oscillators and Filters using Op-amp using LT SPICE or Sequel. See the E-resource Links
26. Simulation of non-linear applications of Op-amp like Schmitt Trigger, Window Detector, Precision Rectifier, Square Wave Generator etc using LT SPICE or Sequel. See the E-resource Links

List of Mini projects:

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdf platform to make students’s lives easier.
.

Online Repository Sites:

1. Google Drive
2. GitHub
3. Code Guru

E-Resources:

1. Spoken Tutorial : http://spoken-tutorial.org/
2. Scilab: http://www.scilab.org/
3. Octave: https://www.gnu.org/software/octave/
4. Python: https://www.python.ore/
5. Xilinx using HDL: https://www.xilinx.com/products/design-tools/ise-design-suite/ise-webpack.html
6. LT SPICE : http://www.linear.com/designtools/software/
7. SEQUEL: https://www.ee.iitb.ac.in/~sequel/

Note: Mini Project can be considered as a part of termwork (Topic based on syllabus)

Term Work: At least 08 Experiments covering entire syllabus must be given during the Laboratory session batch wise. Computation/simulation based experiments are also encouraged. The experiments should be students centric and attempt should be made to make experiments more meaningful, interesting and innovative. Application oriented one mini-project can be conducted for maximum batch of four students. Term work assessment must be based on the overall performance of the student with every experiments/tutorials and mini-projects (if included) are graded from time to time. The grades will be converted to marks as per Choice Based Credit and Grading System manual and should be added and averaged. Based on above scheme grading and term work assessment should be done. The practical and oral examination will be based on entire syllabus.

For detail syllabus of all other subjects of Electronics & Telecommunication Engineering (EC) 5th Sem 2018 regulation, visit EC 5th Sem Subjects syllabus for 2018 regulation.