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Lab Incharges/Activities
Lab In-charges
Lab Equipmement
S.No
UG/PG
Lab Name
Room No.
Name of the Lab Incharge
Name of the Lab Technician
1
UG
ELECTRONIC SYSTEM DESIGN LABORATORY-1
R005A
Dr. S. Arun Metha
Mrs. Mery kamala Kolluru
2
UG
ELECTRONIC SYSTEM DESIGN LABORATORY-2
R005B
3
UG
ELECTRONIC SYSTEM AUTOMATION LABORATORY-1
R005C
Dr Athul Kumar
4
UG
ELECTRONIC SYSTEM AUTOMATION LABORATORY-2
R005D
5
UG
ELECTRONIC DEVICES LABORATORY-1
R104A
Dr. Sripathi Siva Prasad
Mr. Shaik Noor Kamili
6
UG
ELECTRONIC DEVICES LABORATORY-2
R104B
7
UG
ELECTRONIC CIRCUITS LABORATORY-1
R104C
Dr. Balaji Ramachandran
8
UG
ELECTRONIC CIRCUITS LABORATORY-2
R104D
9
UG
ANALOG COMMUNICATION LABORATORY-1
R105A
Dr. M. Muzammil Parvez
Mrs. Rajani Kesarapalli
10
UG
ANALOG COMMUNICATION LABORATORY-2
R105B
11
UG
SIGNAL ANALYSIS LABORATORY-1
R105C
Dr. P. Syam Sundar
12
UG
SIGNAL ANALYSIS LABORATORY-2
R105D
13
UG
VLSI DESIGN LABORATORY
R106A
Dr. S. Vamsee Krishna
Mr. M.Yugandhar
14
UG
ASIC AND FPGA LABORATORY
R106B
Dr. Bukya Balaji
15
UG
DIGITAL SIGNAL PROCESSING LABORATORY-1
R204A
Dr. M. Kasi Prasad
Ms. Kunapareddy Parvathi
16
UG
DIGITAL SIGNAL PROCESSING LABORATORY-2
R204B
17
UG
NATURAL LANGUAGE PROCESSING LABORATORY-1
R204C
Dr. E. Kiran Kumar
18
UG
NATURAL LANGUAGE PROCESSING LABORATORY-2
R204D
19
UG
5G AND BEYOND: OPEN INNOVATION LABORATORY
R205A
Dr. Aravindh Kilaru
Mr. G. Dhanaiah
20
UG
DIGITAL COMMUNICATIONS LABORATORY
R205B
Dr. M.Sujatha
Mr. B Vijaya Bhaskar
21
UG
PROCESSORS AND CONTROLLER LABORATORY -1
R206A
Dr. N.Prabhakaran
Mr. Sharif
22
UG
PROCESSORS AND CONTROLLER LABORATORY -2
R206B
23
UG
PROCESSORS AND CONTROLLER LABORATORY -3
R206C
Dr Syed Shameem
24
UG
PROCESSORS AND CONTROLLER LABORATORY -4
R206D
25
UG
EMBEDDED SYSTEMS LABORATORY-1
R207A
Dr A.V.Prabu
Mr. Syed Abid
26
UG
EMBEDDED SYSTEMS LABORATORY-2
R207B
27
UG
IoT LABORATORY-1
R207C
Dr S.R.Srithar
28
UG
IoT LABORATORY-2
R207D
29
UG
NETWORK SECURITY LABORATORY-1
R304A
DrG.V. Ganesh
Mr. K.Raju
30
UG
NETWORK SECURITY LABORATORY-2
R304B
31
UG
DATA NETWORKS AND PROTOCOLS LABORATORY-1
R304C
Dr.R. Revathi
32
UG
DATA NETWORKS AND PROTOCOLS LABORATORY-2
R304D
33
PG
Robotics and Automation Laboratory
R604B
Dr. S. Rooban
Mr. Raghavendra Rao Bhimavarapu
34
PG
Radar and Communication Laboratory
L707
Dr. D. Sreenivasa Rao
Mrs. Perimi Kumari
35
PG
Advanced Embedded System Laboratory
L702
Dr. K. V. Sowmya
Mr. K. Dibbaraju
36
PG
VLSI and MEMS Laboratory
L706
Dr. K. Girija Sravani
Mr. B. Koteswara Rao
Lab Equipmement Details
S.No
UG/PG
Lab Name
Room No.
S.No
Equipment Name
Quantity
1
UG
ELECTRONIC SYSTEM DESIGN AND AUTOMATION LABORATORY
R005
1
HP DESKTOP SYSTEMS (i3 64 bit,256HDD,8Gb RAM)
32
2
Arduino Uno Board
30
3
Raspberry pi 3
10
4
ESP 8266 WI-FI Modules
20
5
GPS Modules
15
6
DHT22
10
7
HC 05 Blue Tooth Modules
15
8
12V DC Fans
10
9
L293 Motor Driver control
10
10
Ultra Sonic Sensors
25
11
UV Sensors
15
12
Servo motors
30
13
Rain sensor Module
20
14
Soil Sensor
10
15
X BEE Module
30
16
5V Relay Modules
25
17
Relay 2 channel
40
18
BMP 180
10
19
1A 9V Power Adapter
10
20
LCD
15
21
I2C Modules
15
2
UG
ELECTRONIC DEVICES LABORATORY
R104A&B
1
Regulated Power Supply
15
2
Digital Storage Oscilloscope
15
3
Function Generator
15
4
Digital Multimeter
23
5
Decade Inductance Box
22
6
Decade Capacitance Box
25
7
Decade Resistance Box
23
8
Basic Trainer Kits
17
9
IC Tester
1
10
LCR Q Meter
2
11
VARIACS
5
12
NI MyDAQs
20
3
UG
ANALOG CIRCUITS LABORATORY
R104C&D
1
Regulated Power Supply
16
2
Digital Storage Oscilloscope
13
3
Function Generator
16
4
Digital Multimeter
23
5
Decade Inductance Box
22
6
Decade Capacitance Box
22
7
Decade Resistance Box
22
8
Basic Trainer Kit
17
9
NI MyDAQs
15
4
UG
ANALOG COMMUNICATION LABORATORY
R105A&B
1
Function generators
57
2
Regulated Power supply
33
3
Digital Storage Oscilloscope
15
4
Digital multi meters
29
5
Decade inductance boxes
29
6
Decade capacitance boxes
28
7
Decade resistance boxes
25
8
Digital trainer kit
3
5
UG
SIGNAL ANALYSIS LABORATORY
R105C&D
1
HP Desktops AMD A10 Processor, 16GB RAM, 1TB HDD
26
6
UG
VLSI DESIGN LABORATORY
R106A
1
DELL Computers(Intel ® Core (TM) i3-8100T, 8GB RAM, 256+512SSD)
72
2
Cadence University Standard Bundle server(50-Users)
1
7
UG
ASIC AND FPGA LABORATORY
R106B
1
DELL Computers(Intel ® Core (TM) i3-8100T, 8GB RAM, 256SSD)
30
2
XILINX Vivado server
1
3
SPARTAN -3E KIT
5
4
NEXYS2 (FPGA)
10
5
BASYS 2 (FPGA) ST.Board
2
6
Basys 3 kit
5
7
CPLD/FPGA TRAINER Kit
5
8
Zed Development kit
6
9
ZYBO 7010 (FPGA)
5
8
UG
DIGITAL SIGNAL PROCESSING AND NATURAL LANGUAGE PROCESSING LABORATORY
R204
1
HP, Intel I7 Processor, 16GB RAM, 1TB HDD
30
2
Lenovo I3 Processor 4GB RAM, 500GB HDD
36
3
MATLAB software
36
9
UG
5G AND BEYOND: OPEN INNOVATION LABORATORY
R205A
1
HP I5 Desktop systems 16GB RAM
1TB Hard Disk
35
2
CN Emulator
1
3
ENB Emulator
1
4
ENB Emulator
1
5
5G Smart Phone
2
6
5G Radio (NSA) - Sub-6 GHz
1
7
5G Software for CN, eNB and gNB
1
8
Wireless RX up 950 MHz
4
9
Wireless transceiver upto 6GHz + Deep Learning Platform
1
10
5G modem and Software + IoT zig bee Network
1
10
UG
COMMUNICATION SYSTEMS
LABORATORY
R205B
1
Acer, AMD A10 Processor, 8GB RAM, 128 SSD
22
2
NI ELVIS-III
25
4
NI LabView software
22
3
MATLAB software
22
11
UG
PROCESSORS AND CONTROLLER LABORATORY
R206
1
HP Prodesk 405G2 desktop (405g2mt, AMD 2.0GhZ,6.0 GB RAM,500GB HDD, HP V193 18.5" LCD Monitor)
75
2
LENOVO (THINK CENTRE) DESKTOP, AMD A10 PRO-7800BR7 3.5GhZ,4GB RAM, 120GB HDD, 18.5" Think Vision E1922S LCD Monitor
5
3
HP PRO AMD PHENON -II DESKTOP SYSTEMS (R&D) AMD Phenom(tm) II X4 830 Processor 2.80GhZ 4.0GB RAM, HP 18.5" LCD Monitor, 500GB HDD
3
4
8051 Microcontroller Trainer kit
20
5
Primary ARM7 Development Kit (LPC-2148)
12
6
Cathode Ray Oscilloscope
10
7
Bluetooth kit
9
8
Wi Fi (Xbee) boards
9
9
Digital multimeters
6
10
PIC16F877A CPU Board with Processor
5
11
AVR M8535 CPU Board with Processor
5
12
Regulated power supply 0-30v,500ma
4
13
Function Generator 1MHZ
4
14
Universal programmer
2
15
AVR ISPMK2 ATMEL USB Programmer
1
16
ISP USB PIC Programmer
1
17
CISC Microcontroller board
1
18
ARM-7 Educational Practice Board
1
19
RISC:PIC 16F877A Microcontrollers board
1
20
DSP Kit (2812) TMS320F2812 Digita Signal Processor 32 bit floating point 18K words RAM 128K words on chip flash ROM 64 KW on board RAM Expansion connectors onboard Embedded IEEE -1149.1JTAG Controller
5 Volt operation with adapter onboard
1
12
UG
EMBEDDED SYSTEMS
LABORATORY
R207A&B
1
LENOVO, AMD A10 Processor, 6GB, 128 SSD.
86
2
8051 Development
Board ( Nuvotam)
30
3
LPC 2148
arm Boards
30
4
LPC 1768
3
5
B-L475E – IoT 01A2
10
6
STM32 F103 Blue Pill Board
10
7
Nucleo L432KC
30
8
ST Link VZ Debugger
30
9
EKTM4L123GXL
30
10
STM 32 Nucleo 64 Development Board
30
11
USB Logic Analyzer
20
12
STM 32 BL475E IOT01A
6
13
KLU Custom Development Boards
50
13
UG
INTERNET OF THINGS LABORATORY
R207C&D
1
Arduino Uno Board
44
2
Raspberry Pie 3
5
3
ESP 8266 WI-FI Modules
10
4
GPS Modules
25
5
DHT22
30
6
HC 05 Blue Tooth Modules
50
7
12V DC Fans
10
8
L293 Motor Driver control
10
9
Ultra Sonic Sensors
50
10
UV Sensors
16
11
Servo motors
30
12
Rain sensor Module
20
13
Soil Sensor
10
14
X BEE Module
30
15
5V Relay Modules
50
16
Relay 2 channel
40
17
BMP 180
10
18
1A 9V Power Adapter
10
14
UG
DATA NETWORKS AND PROTOCOLS & NETWORK SECURITY LABORATORY
R304A&B
1
DELL Computers(Intel ® Core(TM) i3-8100T, 8GB RAM, 256SSD )
30
2
Linksys WRT300N Wireless Router
5
3
Net Gear H150 Wireless Modem
10
4
Wireless Smart Switch Remote Control socket
0
5
CAB CONSOLE USB
10
6
CAB CONSOLE RJ45
10
7
Ethernet Cable Tester-Techfest Rj11 and Rj45 Cable Tester Multifunction Wire Tracker Instrument
5
8
Inditrust Rj45 Rj l l
Crimping, MultiTech cutter, KD-1 Professional Punch Down Tool, Network
Lan Cable Tester, 9V battery and 25 Pcs Connectors
10
9
ez-RJ-45 crimping tool
10
10
wire cutter
8
11
wire stripper
6
12
Cat6 Ethernet Cable, 50 ft - RJ45, LAN, UTP CAT 6. Network. Patch. internet Cable - 1B8
10
13
Ethernet Cable Tester-Techtest Rj11 and Female PC Multifunction Wire Tracker
10
14
Cable Matters 2-Pack Cat 6 / Cat6 Crossover Adapter (Cat6 Crossover Cable Adapter)
5
15
L SB to RJ45 Cisco Serial Rollover Cable, L SB Type-A to RJ45 M/M, 6 ft.
2
15
PG
ROBOTICS AND AUTOMATION LABORATORY
R604B
1
Nvidia
Jetson nano developer kit
2
2
Raspberry Pi 5
8Gb
15
3
Studica world Skills Shanghai Mobile Robotics Collections
1
4
Matlab tool box
10
Simulink
10
Automated driving system tool
10
Computer vision tool
10
Robotics system tool
10
Sencor fusion and tracking tool box
10
5
Custom Quadruped Robot with AI
Voice Assistance
1
16
PG
RADAR AND COMMUNICATION LABORATORY
L707
1
MATLAB Toolbox
10
i. Simulink
10
ii. Signal processing Toolbox
10
iii. Communications Toolbox
10
17
PG
ADVANCED EMBEDDED SYSTEM LABORATORY
L702
1
ESP-32 Boards
3
2
LPC 2148
arm Boards
3
3
2X16 LCD Display
3
4
HC-05 Bluetooth Modules
3
5
DHT11 Sensors
3
6
GSM Modules
3
7
GPS Modules
3
8
Stepper Motor
3
9
2-Channel Relay
3
10
STM-32
3
11
Keil u Versi0n-5
3
18
PG
VLSI AND MEMS LABORATORY
L706
1
ZED Development Board
5
2
Lenovo, Desktop,AMD A10 Processor, 6GB, 128 SSD.
10
Activities
S.No
Name of the Laboratory
Room No
Subject Name
S. No.
Activities In Lab
1
Measurements Laboratory
R-005
Biomedical Electronics & IOT for Healthcare
1
To study various leads for monitoring of electrocardiogram (ECG).
2
Study of various leads and electrode position for monitoring of electroencephalogram (EEG).
3
Monitoring of Electroencephalogram (EEG) signal for different lobes.
4
Design and simulate a Pacemaker Circuit and analyze output signals.
5
Simulate the Hemodialysis Machine to filter the blood creatine.
6
Simulate an Audiometry Instrument using a Standalone Board.
7
Design a IoT Health Application to record the vital sign.
8
Design a wearable device to monitor SPO2 and Heart Rate.
9
Design and simulation of an Elderly Fall Detection circuit.
10
Lab Project Execution and Review-1.
11
Lab Project Execution and Review-2.
12
Lab Project demonstrations.
2
Measurements Laboratory
R-005
Electronic Circuits for Medical Instrumentation
1
Experiment to monitoring of Electrocardiogram (ECG) for bipolar limb leads L1, L2 and L3.
2
Experiment to monitoring of Electrocardiogram (ECG) for augmented leads aVL, aVF and aVR.
3
Experiment to monitoring of Electrocardiogram (ECG) for chest leads V1-V6.
4
Experimental simulation to study the performance of a bio-sensor.
5
Experimental simulation to study the performance of a chemical sensor.
6
Experiment on Bio signal import and channel analysis.
7
Measurement of pH and conductivity.
8
Measurement of blood pressure using sphygmomanometer.
9
Measurement of pulse-rate using Photo transducer.
10
Design a Basic Instrumentation Amplifier on Breadboard and Test the Unit.
11
Design a Notch Filter in Breadboard to Remove 50 Hz Noise from Acquired ECG Signal.
12
Design and measure the CMRR , Input Impedance of a simple differential biopotential amplifier.
3
Signal Processing Laboratory
R-204
Biomedical Signal and Image Processing
1
Representation and analysis of fundamental bio-signals.
2
Analysis of FFT and Inverse FFT of signals.
3
Construction of Digital IIR Butterworth filter-LPF & HPF.
4
Examining Digital IIR chebychev filter-LPF & HPF.
5
Analysing Upsampling and downsampling of signals.
6
Analyze the ECG signal using MATLAB.
7
Analyze the EEG signal using MATLAB.
8
Display of FFT(1-D & 2-D) of an biomedical image.
9
Implementation of Image Intensity slicing technique for image enhancement.
10
Histogram analysis and Histogram Equalization of biomedical images.
11
Binary & Gray Scale analysis of biomedical images.
12
Edge detection in gray scale biomedical images.
4
Electronic Devices Laboratory
R-104
Analog Electronic Circuit Design
1
Analyze BJT Transistor as Switch
2
Analyze BJT Common base characteristic(Input and Output)
3
Analyze Frequency response of BJT Amplifier in common emitter configuration.
4
Design Zener diode as Voltage regulator and transistor as voltage regulator
5
Design of Scalling Amplifer using LM741.
6
Design of Active Low-Pass Filter and High-Pass Filter.
7
Design of Active Band-Pass Filter.
8
Design of Hartley Oscillator
9
Design of Integrator
10
Design of Comparator.
11
Sine to Square Wave Converter
12
Power BJT Switching With Speed-Up Capacitor
5
VLSI Design Laboratory
R-106
Analog VLSI Design
1
Investigate the I-V characteristics of MOSFET
2
Analyze the effect of substrate potential on the threshold voltage.
3
Investigate the gain of a common source amplifier with resistive load by varying the value of RL.
4
Design and analyze the common gate amplifier with Resistive load
5
Analyze the cascade amplifier with the parameters effecting the gain.
6
Design & analyze different current mirrors (Simple &Cascode) with passive loads
7
Design &
analyze supply independent current mirrors.
8
Design & analyze differential amplifier with passive load.
9
Design & analyze of one stage operational amplifier.
10
Investigate the high frequency response of CS amplifier.
11
Analyze the noise effect of operational amplifiers.
12
Design & analyze single balanced mixer.
List of Additional Experiments
1
Design and analyze the common gate amplifier with active load
2
Design and analyze the source follower with resistive load.
3
Design and analyze the source follower with active load.
4
Design & analyze differential amplifier with active load.
5
Design & analyze the folded operational amplifier.
6
Design & analyze the Two stage operational amplifier
7
Investigate the high frequency response and analyze the noise effect of cascode amplifier (CS-CG).
8
Design & analyze double balanced mixer.
6
VLSI Design Laboratory
R-106
Low Power VLSI Design
1
Realize the fundamental logic gates using CMOS-based PTL in cadence virtuoso and calculate the PDP.
2
Design and implement FFs with CMOS-based PTL using 90 nm and 45nm technology with cadence virtuoso and calculate the PDP.
3
Design and implement transmission gate-based combinational circuits using 90 nm and 45nm technology with cadence virtuoso and calculate the PDP.
4
Design and verify the Sleep Transistor Technique with 45nm technology using cadence virtuoso.
5
Design and verify the Inverter Analysis Using Hspice Code.
6
Design and verify Leakage Reduction Approaches for CMOS CS-Amplifier with 45nm technology using cadence virtuoso.
7
Design and verify the read and write operations of SRAM cell with 45/90 nm technology using cadence virtuoso.
8
Design and plot the static (VTC) and dynamic characteristics of a digital CMOS inverter with 45nm technology using cadence virtuoso.
9
Design and plot the characteristics of a master-slave positive and negative edge triggered registers based on multiplexers with 45nm technology using cadence virtuoso.
10
Design and Implementation of 16-Bit Carry Look Ahead Adder with 45nm technology using cadence virtuoso.
11
Design DRAM Memories with 45nm technology using cadence virtuoso.
7
VLSI Design Laboratory
R-106
VLSI Sub system Design and Design for Testability
1
Design a Half adder using 90 nm technology and verify the circuit using transient analysis.
2
Design a Full Adder using 90 nm technology and verify the circuit using transient analysis.
3
Design a 2-Bit Ripple Carry Adder using 90 nm technology and verify the circuit using transient analysis.
4
Design a 2-Bit
Carry Select Adder using 90 nm technology and verify the circuit using transient analysis.
5
Design a 2-Bit
Carry Lookahead Adder using 90 nm technology and verify the circuit using transient analysis.
6
Design a 2-Bit
Magnitude Comparator using 90 nm technology and verify the circuit using transient analysis.
7
Design 3-Bit LFSR using 90 nm technology and verify the circuit using transient analysis.
8
Verification of Basic logic gates using System Verilog Test Bench.
9
Verification of Half/Full Adder Circuit using System Verilog Test Bench.
10
Verification of two bit Magnitude Comparator using System Verilog Test Bench.
11
Verification of Flip Flops using System Verilog Test Bench.
12
Develop the system verilog code for LFSR and verify the functionality of Test pattern generaation
13
Develop and analyze the PODM and verify the functionality of Test pattern generation
8
Robotics & Automation Laboratory
R-604B
Introduction to Robotics
1
Introduction to the SIMULINK toolboxes used for robot implementation.
2
Simulate forward kinematics of a Wheeled robot.
3
Develop an inverse kinematics model for a robot and verify through simulation.
4
Design a Lane Keeping Assist robotic model with Lane Detection.
5
Simulate a Traffic Light Negotiation System.
6
Localization of robot with diffenrent environments.
7
Develop a Collision Avoidance Assistance System.
8
Develop a lane follower robot
9
Develop a lane follower robot with obstacle avoidance.
10
Design and analyse the Remote Control (USAR)
11
Design and analyse Cruise Control System.
12
Write a navigation program to respond to the sensor (stops when an obstacle is detected or turns when a wall is touched).
9
Robotics & Automation Laboratory
R-604B
Computer Vision Applications
1
Perform basic Image Handling and processing operations on the image
2
Perform basic of Image Processing Toolbox, Computer Vision Toolbox and Medical Imaging Toolbox
3
Perform Image Import, Processing, and Export using Image Processing Toolbox
4
Write a program for plotting the Histogram and Texture Analysis of 2 D signal/on the image
5
Write a program to find the edge, line detector and corner detector of different shape image
6
Write a program to apply the different types of filters on image
7
Write a program to calculate and analyze the feature extraction with and without computer vision toolbox
8
Write a program to compute the feature of 3 D signal/video signal
9
Write a program to Classify the 3 D signal/video signal
10
Write a program to texture Segmentation of a video signal
11
Calibrate the camera and extract the intrinsic and extrinsic parameters of the camera
12
Write a program for predict/classify the image using deep learning method
10
Robotics & Automation Laboratory
R-604B
Advanced Robotics
1
Introduction and study of Matlab wih various robotic tool boxes.
2
Study of Robotic Arm (ABB).
3
Interface the physical model of robotic arm to a computer for its control.
4
Develop an algorithm to move the robotic arm to 180 deg
5
Develop an algorithm to move the robotic arm to 180 deg and return back.
6
Pick an object from the base level, lift it and put it back to the base using the robotic arm.
7
Develop a program to move an object from one place to another.
8
Study of Fetch and Freight Robots.
9
Design an optimized path for the robotic arm to move the object from one place to another with energy consumption as the cost function.
10
Moving an object from one place to another using the robotic arm with the minimum distance travelled.
11
Study of Cruise Control System.
12
Robotic Soccer design and analysis.
13
Design a Advanced Cruise Control System.
14
Pick an object from the base level, lift it and put it back to the base 90 degree in the clock wise direction using the robotic arm.
15
Design of Service robots.
16
Liquid spill detector and auto cleaner robot
17
Design of Pancake flipper robot
11
Robotics & Automation Laboratory
R-604B
Autonomous Vehicles & Automotive Electronics
1
Study of various toolboxes required for Autonomous vehicle modeling.
2
Autonomous Vehicle dynamics simulation.
3
Position sensory systems in Autonomous Vehicles.
4
Autonomous Vehicle sensor model based on Doppler effect.
5
Analyze the Effect of uncertainty in the mobile robots.
6
Perception filtering for Autonomous vehicule system.
7
Bayesian method-based localiztion implementation.
8
Design and analyse Kalman method-based estimation.
9
PID controller to maintain the air-fuel ratio.
10
Design and analyse wheel speed model.
11
Modeling an Anti-Lock Braking System.
12
Design Automatic window slider system
12
Robotics & Automation Laboratory
R-604B
Autonomous mobile Robot systems
1
Introduction to MATLAB software and tools related to autonomous mobile robot.
2
Design a single legged robot and verify the design by simulating it.
3
Modeling a Running Robot.
4
Study of centralization and decentralization
5
Simulate and analyse the robot vacuum.
6
Develop a frictionless navigation robot to move from one place to another.
7
Centralization wheeled robot swarms
8
Simulate an Object Tracking System.
9
Path Planning and Obstacle Avoidance with Nonholonomic Robots.
10
Indoor Navigation and Exploration.
11
Decentralization wheeled robot swarms
12
Design and analysis of Advanced Solar Tracker.
13
Develop a Security and Emergency System.
14
Simultaneous localization and mapping (SLAM) based mapping for a mobile robot
15
Implementation of Multi-robot path planning
16
Delivery service via unmanned aerial vehicle.
17
Remote switch
control for Smart Devices in mobile Robot.
18
Eye muscle controlled Wheelchair System to move forward and backward directions.
19
Simulator for autonomous mobile robot with flexibility to change parameters according to the user.
13
Antennas and Microwave Engineering Laboratory
R-205B
Radiating System & Wave Propagation
1
Determine the directive gain, directivity and beam solid angle of an antenna.
2
Analyse variations in radiation strength at a given distance from the antenna with Antenna Trainer kit.
3
Analyse variations in current strength at a given distance from the antenna with Antenna Trainer kit.
4
Plot the radiation pattern of small dipole antenna.
5
Plot the radiation pattern of a Half wave dipole antenna.
6
Plot the radiation pattern of a Broad side array.
7
Plot the radiation pattern of an end-fire array.
8
Perform the polarization test of antenna with Antenna Trainer kit.
9
Analyse folded dipole antenna with Antenna Trainer kit
10
Represent the field patterns of finite length dipole using EM tool.
11
Determine the directivity of broad side array using MATLAB programming.
12
Determine the directivity of
end-fire array using MATLAB programming.
13
Design a Six element optimized Yaggi Uda antenna Using MATLAB
14
Radiation pattern of Binomial array using MATLAB
14
Antennas and Microwave Engineering Laboratory
R-205B
RF Syatem Design
1
Study of RF RLC circuit with lumped and Distributed elements.
2
Study of scattering parameters of 2 port RF network
3
Calculation of input impedance of an open circuited transmission line
4
Calculation of characteristic impedance of RLC circuit
5
study of Transformation of scattering parameters to impedance parameters
6
Analysis of single stub to eliminate the impedance mismatch in a transmission line
7
Design of RF lowpass and High pass filters at desired RF
frequency
8
Analyse Frequency response of bandpass and band stop type filters
9
Design and analyse
RF amplifier at 6GHz
10
Inspect Small signal analysis on RF amplifiers
11
Analyse of RF Oscillator at desired frequency
12
Design and Analyse of RF multistage Amplifier
15
Antennas and Microwave Engineering Laboratory
R-205B
Microwave Engineering
1
Study and Identify various Microwave components and instruments
2
Measurement of scattering parameters of E-plane Tee
3
Measurement of scattering parameters of H-plane Tee
4
Study and measurement of scattering parameters of Magic Tee
5
Measurement of scattering parameters of directional coupler
6
Analyze the characteristics of reflex klystron
7
Study and plot V - I characteristics of Gunn Diode
8
Measurement of wave attenuation attenuation
9
Analyze the
VSWR
of microwave by using test bench
10
Study and measurement of frequency of applied signal with microwave test bench
16
Antennas and Microwave Engineering Laboratory
R-205B
Advanced Antenna Design for Wireless and 5G Applications
1
Design a rectangular patch antenna using EM tools and verify the characteristics
2
Design a Slot antenna using EM tools and verify the characteristics
3
Design a Monopole antenna using EM tools and verify the characteristics
4
Design a Loop antenna using EM tools and verify the characteristics
5
Design an Inverted-F antenna using EM tools and verify the characteristics
6
Design a Planar antenna using EM tools and verify the characteristics
7
Design a Slits antenna using EM tools and verify the characteristics
8
Design a defected antenna using EM tools and verify the characteristics
9
Design an etched patch antenna using EM tools and verify the characteristics
10
Design smartphone antenna using EM tools and verify the characteristics
17
Antennas and Microwave Engineering Laboratory
R-205B
Modern Radar systems & Navigational Aids
1
To study and analyze Linear FM (LFM) pulse waveform
2
To analyze Radar Link Budget
3
Integration of Component RCS and
to verify with the complete RCS of a given target
4
To create and plot an upsweep linear FM pulse waveform
5
To analyze Sea Clutter Simulation for a Maritime Radar System
6
To analyze Radar Network Coverage over Terrain
7
Verifying the stealth design by RCS calculation.
8
To detect a Target Using Stretch Processing
9
To
study and Simulating a Scanning Radar
10
To verify the detection by varying the number of pulses required for integration.
11
To analyze Radar Scenario Clutter Simulation
12
To Search and Track Scheduling for Multifunction Phased Array Radar
13
To Study Adaptive Tracking of Manoeuvring Targets with Managed Radar
14
To designing a Synthetic Aperture radar for a given specific aperture.
18
Antennas and Microwave Engineering Laboratory
R-205B
Satellite Design
1
Case Study 1: Types of satellites which anyone can launch
2
Case Study 2: Orbital perturbations and their effects
3
Case Study 2:
Launch and transfer orbits
4
Case Study 3: Satellite Subsystems- Power subsystem
5
Case Study 4: Types of payloads - requirements and specifications
6
Case Study 4: Payload design considerations
7
Case Study 4:
Payload performance analysis and testing
8
Case Study 5: Structural Design and Analysis and Hands – on Vibration and shock testing
9
Case Study 6: Launch vehicle selection and integration
10
Case Study 7 and Hands-on: Ground station design and operation
11
Case Study 7 and Hands-on: Telemetry, tracking, and command systems -Data processing and storage
12
Case Study 8: Mission requirements and planning - Orbit maintenance and manoeuvre planning
13
Case Study 9 and Hands-on: CubeSat and SmallSat design considerations
14
Case Study 9 and Hands-on: Emerging technologies and future trends in satellite design
15
Case Study 9 and Hands-on: Case studies of successful and failed satellite missions
19
Data Networks and Protocols Laboratory
R-304A
Network Protocols and Security
1
Introduction to the laboratory and the tool used Cisco packet tracer
2
Basic switch setup using Huawei network switch
3
Configure any topology using Huawei network switch
4
Configure a switch to bridge two different networks. Observe how the switch forwards frames between the two networks.
5
Construct the straight through and cross over cable using colour code in the ethernet cable and verify the connectivity
6
Construction of Different VLANS and using Huawei network switch
7
Basic Router setup using Huawei L3 network switch and Static Routing
8
Configuration of RIP and OSPF using cisco packet tracer
9
Configuration of Encapsulation dot 1Q using cisco packet tracer
10
Configuration of VLAN trunking using Cisco packet tracer
11
Configure a topology and analyse the PDU's for TCP and UDP communications using cisco packet tracer
12
Implementation of traffic congestion using cisco packet tracer
13
Configuration of SMTP, DNS, HTTP in Cisco packet tracer
14
Configuration of Network address translation in Cisco packet tracer
15
Calculating and Performing Network Delay, Loss and Throughput in Stream Control Transmission Protocol
16
Implementation of RSA Algorithm
17
Implementation of DES algorithm
18
Implementation of Smart home using Cisco packet tracer
19
Configuring simple network management protocol (SNMP) preferences.
20
Configure network using distance vector routing protocol (RIPV1) with NAT and PAT
20
Data Networks and Protocols Laboratory
R-304A
TCP/IP and other Protocol suites
1
Simulation of ARP in Cisco packet tracer
2
Simulate and Implement
Routing(OSPFv3) in a IPv6 network using cisco packet tracer
3
Simulate and configure DHCPv6 to distribute IPv6 address in a subnet suing cisco packet tracer
4
Simulation of Dual Stack IPv4 and IPv6 configuration and testing in cisco packet tracer
5
Construct a small office network with two subnets in IPv4 and IPv6 and tunnel the traffic between the two subnets.
6
Configuration of DHCP Server using Cisco packet tracer to assign IP Address automatically
7
Simulate DHCP Relay-Agent Configuration in Packet Tracer and verify the functionality.
8
Test various NAT traversal techniques, such as UPnP
or STUN
to enable successful communication across the NAT boundary.
9
Implement network automation using DHCP client - server configuration with a DHCP resolver for a small office network using cisco packet tracer
10
Configure the DHCPv6 server to delegate IPv6 prefixes to the client router, allowing the router to dynamically assign IPv6 addresses to the devices within its subnet.
11
Set up a DNS server in Cisco Packet Tracer and configure basic DNS zone records, such as A (Address) records and CNAME (Canonical Name) records.
12
Configure both forward and reverse DNS lookup zones on the DNS server.
13
Configure DNS caching on a DNS serverby enable caching of DNS records to improve performance and reduce the load on the DNS server.
14
Test the zone transfer functionality by updating a DNS record on one server and verifying that the change propagates to the other DNS server.
15
Configure a DNSSEC-enabled zone on the DNS server and test the validation of DNSSEC signatures.
16
Configure host devices in the network to send ICMPv6 Echo Request (Ping) messages to other host devices and observe the ICMPv6 Echo Reply messages.
17
Simulate the NDP
uses ICMPv6. Configure devices to perform
RS, RA, NS, and NA and examine the ICMPv6 messages.
18
Simulate scenarios where ICMPv6 error messages are generated in response to various IPv6 communication issues and analyse them.
19
Configure devices to join and leave multicast groups and observe the exchange of ICMPv6 Multicast Listener Discovery messages.
20
Configure access control lists (ACLs) on routers to filter or block specific ICMPv6 message types.
21
Data Networks and Protocols Laboratory
R-304A
VoIP and Broadband networks
1
Mated STP-Pair Configuration using cisco packet tracer
2
Implementation of SIP trunking in IP telephoney networks using cisco packet tracer
3
Implementagtion of SS7 (Signaling System 7) is a signaling protocol used in traditional telephony networks.
4
Implementation of potential security vulnerabilities in SS7 signaling networks.
5
Configuration Examples For SIP Out-of-Dialog OPTIONS Ping Group part -1
6
Configuration Examples For SIP dial-in-Peers using CUBE
7
Configuring RTCP Report Generation uinsg wireshark
8
Configuring VoIP with Dial-Peer for Telephony Service
9
Configuration of Network digram for GPON networks using cisco packet tracer
10
Anaysis of Downstream packet walk using wireshark
11
Analysis of Upstream packet walk using wiresahrk
12
Small Office Home Office/SOHO Network Design & Implementation Project
13
Verification if Quality of Service (QoS) in broadband access devices using wireshark
14
Conduct experiments to measure the actual bandwidth of different broadband connections using tools like speed tests or network analyzers.
15
Measurement the latency or delay in data transmission for various broadband connections.
16
Verification of coverage area of wireless broadband technologies like Wi-Fi or cellular networks.
17
SIP CALL FLOW Analyse&Troubleshooting in Wireshark
18
Implementation of SIP basic call flow uisng wireshark
19
Demonstrate SSL/TLS in action with Wireshark
20
Troubleshoot TLS Handshake Failures using Wireshark
22
Analog and Digital Communications Laboratory
R-105
Digital communications
1
Sampling theorem verification
2
Sampling theorem verification
3
Pulse amplitude modulation and demodulation
4
Pulse amplitude modulation and demodulation in virtual lab
5
Pulse width modulation and demodulation
6
Pulse position modulation and demodulation
7
Pulse code modulation
8
Verification of large-scale fading -app
a.understanding the decibel measurement system
b.shadow lab app--gnu
9
Differential pulse code modulation
10
Delta modulation
11
Amplitude shift keying(ask) generation,demodulation
12
Monitoring 4g lte stations
-wg
a.lte
scanner-frequency need to be changed
b.capturing .dat file for python processing--gnu
13
Frequency shift keying(fsk) generation,demodulation
14
Phase shift keying generation
15
Binary phase shift keying(bpsk) generation,demodulation
16
Bit error rate measurement of bpsk
17
Over-the-air transmission and reception of binary data using bpsk modem
a. Deepradio, wi-guy(wg ip address to be entered in exp35) and gnu radio (dr ip address to be entered)
18
Matlab for QPSK data modulation
19
Matlab for DPSK
20
Verification of small-scale fading distribution
-wg
a.autocorrelation of small-scale fading
23
5G & Beyond: Open Innovation Laboratory
R-205A
Wireless Communication
1
To Monitor 2G, 3G, 4G Live Spectrum/Bands.
2
To Monitor
GSM stations and capturing .dat file for python processing
3
To Monitor
4G LTE stations and capturing .dat file for python processing
4
To Analyze Over-the-air transmission and reception of binary data using BPSK Modem
5
To verify
large-scale fading and underatand Decibel measurement system
6
To verify AWGN channel distribution
7
To verify
small-scale fading distribution and understanding Autocorrelation of small-scale fading
8
To Analyze In spectrum and to capture and visualize GSM AND LTE signals
9
To Process GSM AND LTE signals, capture the .dat file from DR and run the code in jupyter notebook
10
To observe FM transmitter signals and understand
Demodulating the FM signals.
11
To analyze Call flow/protocols in 4G cellular network using Wireshark
12
To Analyze Call flow/protocols in 5G cellular network using Wireshark
13
To Examine WLAN Protocol using WIRESHARK
24
5G & Beyond: Open Innovation Laboratory
R-205A
Radio Wave Propagations
1
To Monitor 2G, 3G, 4G Live Spectrum/Bands.
2
To Monitor
GSM stations and capturing .dat file for python processing
3
To Monitor
4G LTE stations and capturing .dat file for python processing
4
To Analyze Over-the-air transmission and reception of binary data using BPSK Modem
5
To verify
large-scale fading and underatand Decibel measurement system
6
To verify AWGN channel distribution
7
To verify
small-scale fading distribution and understanding Autocorrelation of small-scale fading
8
To Analyze In spectrum and to capture and visualize GSM AND LTE signals
9
To Process GSM AND LTE signals, capture the .dat file from DR and run the code in jupyter notebook
10
To observe FM transmitter signals and understand
Demodulating the FM signals.
11
To analyze Call flow/protocols in 4G cellular network using Wireshark
12
To Analyze Call flow/protocols in 5G cellular network using Wireshark
13
To Examine WLAN Protocol using WIRESHARK
25
5G & Beyond: Open Innovation Laboratory
R-205A
4G Wireless Technologies and Cellular Communication
1
Enabling 4G mobile network and registration of User Equipment.
2
Analyzing User Equipment registration process in 4G mobile network.
3
Analyzing PDN connectivity procedure in 4G mobile network.
4
Analyzing
registration process and authentication in 4G mobile network.
5
Capturing of live LTE frames from the nearby mobile tower
6
Capturing the LTE frames from 4G mobile network
7
PSS and SSS generation using Python
8
Extraction of 4G PSS, SSS, and PBSH signals using Python
9
OFDM Transmission using Deep Radio
10
Analysis and evaluation of PAPR
11
Generation of 3GPP MIMO channel coefficients
12
4G path loss model for UMi, Uma, SUMa, and RMa scenarios
13
Distance estimation between UE and base station using Shadowlab App
14
Coherence bandwidth and coherence time calculation with 3GPP channel models
15
Implementation of Milenage algorithm in Python
16
Simulation of PRACH power control
26
5G & Beyond: Open Innovation Laboratory
R-205A
Modern Satellite Communications
1
Build Scenarios
2
Set the Satellite Propagator
3
Design the Satellite Orbit
4
Create a Pass Data Repor
5
Display the Sun Vector
6
Model the Satellite’s Camera
7
Observing Solar Power Generation
8
Create a Solar Panel Power Report & Graph
9
Display the Moon Vector
10
Build the Communication Link
11
Add the Satellite Tracking Station
12
Add the Ground Site’s Tracking Sensor
13
Add the Ground Station Receiver
14
Add the Spacecraft’s Tracking Sensor
15
Adding the Spacecraft Transmitter (downlink)
16
Compute Access Between the Transmitters and Receivers
17
Generate a Link Budget Report
18
Model Environmental Losses
19
Modify the Modulator
20
Create a Walker Constellation
27
5G & Beyond: Open Innovation Laboratory
R-205A
5G Wireless Technologies
1
Enabling 5G mobile network and registration of User Equipment.
2
Analyzing User Equipment registration process in 5G mobile network.
3
Analyzing PDN connectivity procedure in 5G mobile network.
4
Analyzing
registration and authentication process in 5G mobile network.
5
Capturing of live LTE frames from the nearby mobile tower
6
Capturing the LTE frames from 5G mobile network
7
Extraction of 5G PSS, SSS, and PBSH signals
8
Simulation of LDPC coding
9
Latency analysis for end-to-end system
10
Simulation of uplink waveform design
11
Simulation of downlink waveform design
12
Simulation of PDSCH
13
Live video streaming via 5G network
14
Throughput calculation
15
Energy detection-based spectrum sensing
16
Simulation of PBCH
17
Simulation of PUCCH
18
TBS calculation
28
5G & Beyond: Open Innovation Laboratory
R-205A
Machine Learning for Wireless Communications
1
RF signal data collection Using Deep Radio and Wi-Guy-WG,DR,GNU
2
Dataset generation using SDR
3
Data pre-processing for ML and CNN
4
Random Forest based RF signal classification
5
Naive Bayes based RF signal classification
6
KNN based RF signal classification
7
Decision Tree based RF signal classification
8
Support Vector Machine based RF signal classification
9
CNN
based RF signal classification
10
LSTM RNN based RF signal classification
11
Analysis of CNN model using testing dataset
12
Analysis of CNN weight and bias, and feature maps
13
OFDM channel estimation and detection using neural network
29
Data Networks and Protocols Laboratory
R-304A
Cloud Computing and Network Security
1
Installation of fusion compute using eNSP simulator
2
Fusion compute resource configuration part-1 using eNSP simulator
3
Configuring storage resources for using virtual machine’s
4
Creating Virtual Machines to establish communication
5
Configuring and Managing Virtual Networks
6
Configure and test VM Desk Operations
7
Configure and testing of DRS rule group for a cluster
8
Configuring and testing of Availability considerations of VM
9
Configuring and testing of Security groups
10
Configuring and testing common O&M groups and functions
11
Exercise Resource Management and Monitoring in VM's
12
Exercise Patch Management in VM's
13
Network configure Exercise using VM's
14
Exercise Access of Virtualized Data Centre
30
Data Networks and Protocols Laboratory
R-304A
IP Multimedia Subsystems and Emerging Technologies
1
Introduction to Cisco Packet Tracer
2
Implementation of SIP Session Establishment
3
Implementation of IMS Presence using Cisco Packet Tracer
4
Implementation of IMS call flow using Cisco Packet Tracer
5
Implementation of RTP using Cisco Packet Tracer
6
Implementation of RTCP using Cisco Packet Tracer
7
Implementation of Web-mesaging call procedure
using Cisco Packet Tracer
8
Implementation of IMS Security Cisco Packet Tracer
9
Implementation of PSTN call procedure
using Cisco Packet Tracer
10
Implementation of SIP Message Flows using Cisco Packet Tracer
11
Implementation of IMS Multimedia Streaming using Cisco Packet Tracer
12
Implementation of Web messages using Cisco Packet Tracer
13
Implementation of VoLTE using Cisco Packet Tracer
14
Implementation of IMS Call Control using Cisco Packet Tracer
15
Implemnt and test the ability of the IMS network to stream multimedia content, such as audio and video.
16
Case study:
Interoerrabilty of IMS networks
31
Data Networks and Protocols Laboratory
R-304A
IT security : Defense against digital dark arts
1
Capture and analyze network traffic to identify potential security threats.
2
Monitor network traffic to detect unauthorized devices or users.
3
Implementation of Symmectric Key Cryptography using any software
4
Implementation of Public Key Cryptography using any software
5
Implementation of digital signatures using any software
6
Configure a secure remote access solution, such as SSH (Secure Shell) or SSL/TLS VPN..
7
Analyze SSL/TLS traffic to identify potential vulnerabilities or misconfigurations.
8
Configure and verify Firewall Configuration for a campus network
9
Setup of Wi-fi security assistant using CPT or wireshark
10
Perform a DNSSEC key rollover by generating new keys, updating the DNSSEC records, and configuring the zone to use the new keys.
11
Set up a DNS server and enable DNSSEC signing for a domain.
12
Configure a site-to-site VPN between Site 1 and Site 3
13
Configure PAP and CHAP on a deveices for secure communciaiton using cisco packet tracer
14
Implememt differnet encryption techniques on a plain text and analyze the level of security provided by it using any programming language
15
Configure a GRE tunnel using cisco packet tracer.
16
Configure a wireless routers with WPA/WPA2/WPA3 using cisco packet tracer.
17
Construction of different topologies and verification of connetivity between the devices.
32
Data Networks and Protocols Laboratory
R-304A
Communication Networks
1
Construction of two different topologies in hybrid mode and establishing the connectivity between the devices using cisco packet tracer
2
Implementation of basic switch setup using cisco packet tracer.
3
Establishment of VLANS and verification of connetivity between the devices
4
Creating Small Business Network with Network Switches, End users configure and verify the connectives.
5
Establishment VLAN trunking and verification of connetivity between the devices
6
Establishment of interVLAN cmmuncation using dot 1Q encapsualtion
7
Implementation of basic Router setup and static routing using cisco packet tracer.
8
Implementation of RIP and verification of connectivity using cisco packet tracer
9
Implementation of OSPF and verification of connectivity using cisco packet tracer
10
Establishment of connectivity between wired and wireles networks
11
Implementation of NAT and PAT using cisco packet tracer
12
Verification of DHCP and SMTP unig cisco packet tracer
13
Verification fo DNS and HTTP using Cisco packet tracer
14
Implemnetation of smart home with wired and wireless netwoks
15
Observe the TCP handshake process, including the three-way handshake (SYN, SYN-ACK, ACK), and monitor the connection using Packet Tracer's built-in tools.
33
Data Networks and Protocols Laboratory
R-304A
Network Security
1
Capture and analyze network traffic to identify potential security threats or network attacks using wiresahrk
2
Capture and analyze network traffic to identify
Malicious Traffic using Wireshark
3
Implement basic firewall setup using cisco packet tracer
4
Setting up Intrusion Detection and Prevention System (IDPS) using cisco packet traacer
5
Configuring Secure Shell (SSH) uisng cisco packet tracer
6
Configure Web Server, DNS Server, HTTP, and HTTPS in Cisco Packet Tracer
7
Simulatate FTP server using Cisco Packet Tracer
8
Configure IPsec VPN tunnel using cisco packet tracer
9
Intercept and Prevent Server from DoS Attacks on Cisco Router
10
Configuring Adaptive Ssecuirty Appliance Basic Settings and Firewall Using CLI in cisco packet tracer
11
Configuring Port Security using cisco packet tracer
12
Configuring DHCP Snooping using packet tracer
13
Implementing Role-Based Access Control (RBAC) using cisco packet tracer
14
Implementing Port Security and MAC Address Filtering using cisco packet tracer
15
Configuration of Dynamic and Static NAT using ACL on Cisco ASA Firewall
16
Implementation of Border Gateway Protocol(BGP) using Cisco Packet tracer
34
Data Networks and Protocols Laboratory
R-304A
Peer to Peer Networks
1
Configure Peer-to-Peer Network with at least three hosts
2
Create a Physical Network using Computers, Network Connecting Devices and cables
3
Draw the Network Layout with its Topology for Network set-up of your Laboratory
4
Establish a P2P network with devices equipped with voice/video capabilities, such as PCs or smartphones and configure them for the server network.
5
Using a decentralized
architecture construst an unstructured P2P overlay network and connect multiple peers and establish communication between them
6
Simulate the process of peer discovery within the unstructured P2P overlay networks.
7
Configure the peers in the unstructured P2P overlay to support file
8
Interpret the fault tolerance capabilities in node failures or network partitions within the unstructured P2P overlay network
9
Isimulate various P2P network decentralized or hybrid structure and observe the impact
on peer discovery, network resilience, and scalability.
10
Simualte and test network connectivity is restoration by introducing network partitions within the P2P network
11
Implement and test different security measures to understand their impact on P2P network communication and protection against malicious peer
12
Configure NAT traversal in P2P networks to establish the connectivity across NAT devices using cisco packet tracer.
13
Configure peers r to join the overlay and observe how DHTs handle key/value storage and lookup operations.
14
Introduce varying loads on different peers within the structured P2P overlay network and investigate the load balancing in the network
15
Implement resource discovery mechanisms within the structured P2P overlay network using cisco packet tracer
16
Simulate the security mechanisms within the structured P2P overlay network, such as authentication, authorization, and secure routing for protection against malicious peers.
35
Data Networks and Protocols Laboratory
R-304A
Wireless Local area networks
1
Simulate a WLAN at its receptionof a netowrk ensure good internet
access experience for users.
2
Trouble shooting of common faults such as Access Point(AP) join faults, and other caused by incorrect configuration based on typical acces control(AC)
3
Set up multiple APs on different channels in close proximity.
4
Configure different security mechanisms like WEP, WPA, or WPA2 on the wireless network.
5
Set up multiple wireless clients within the coverage area of an AP and observe the exposed node problem, where one client refrains from transmitting due to interference from another client, even though the AP can handle both transmissions.
6
Configure multiple virtual access points (VAPs) on a WLAN switch. Set different SSIDs, security settings, and VLAN assignments for each VAP.
7
Set up WLAN switches in eNSP, configure basic settings such as SSID, channel selection, and security parameters
8
Configure various WLAN security mechanisms such as WEP, WPA, or WPA2 on the WLAN switches.
9
Configure different modulation and coding schemes (MCS) in eNSP to understand their impact on the data rate, range, and robustness of wireless communication.
10
Study the behavior of MAC layer protocols, such as Distributed Coordination Function (DCF), Point Coordination Function (PCF), and Hybrid Coordination Function (HCF).
11
Set up multiple APs with overlapping coverage areas. Observe the handover process as a wireless client moves between APs.
12
Capture wireless packets using tools like Wireshark within eNSP.
36
Embedded and IoT Laboratory
R-207
Processor & Controllers
1
Implement an 8086 Assembly language Program (ALP) to perform the Arithmetic operations a) Addition b) Subtraction c) Multiplication d) Division.
2
Implement an 8086 ALP to find the POSITIVE & NEGATIVE numbers and EVEN & ODD numbers in an array.
3
Implement an 8086 ALP to Sort the Array of Numbers in ascending and descending order
4
Implement an 8051 ALP on the Addition of an array of elements of 8-bit data.
5
Develop an 8051 a Bit/Byte Manipulations to Toggle a LED with random delay (using Set, Clear, and Complement).
6
Implement a Creating Patterns using 8 LEDs without Timers using 8051 microcontroller
7
Develop 8051 ALP to perform the following
(i) to generate a square wave of frequency 5kHz on P2.3, assume that XTAL=11.052 MHz.
(ii) to generate a square wave of frequency 5kHz with ON time on P2.3 and OFF time on P3.3. Assume that XTAL=11.052 MHz (post lab).
8
Develop a system to Display Numbers using a 7-Segment Display and Timers using 8051 microcontroller
9
Interface 16X2 LCD to 8051 microcontrollers, then display your name and ID number
10
Develop a system to count the number of events that occurred and to Display the count on LCD using 8051 microcontroller
11
Develop a system to accept the external interrupt and toggle the LED using 8051 microcontroller
12
Interface the stepper motor with 8051 and control the clockwise and anti-clockwise direction
37
Embedded and IoT Laboratory
R-207
Advanced Embedded Systems
1
Preamble of the LPCLPC2148 microcontroller and interface with system
2
Implement a Blinking of LED using LPC2148 microcontroller
3
Interfacing Buzzer using LPC2148 microcontroller
4
Perform a controllling an LED and buzzer using a switch with LPC2148 microcontroller
5
Perform a display string on LCD using LPC2148 microcontroller
6
Implement a Serial Transmission of data using LPC2148 microcontroller
7
Implement a Serial Communication using LPC2148 microcontroller
8
Interfacing temperature sensor to LPC2148 microcontroller and displaying the values on serial window
9
Interfacing relay to LPC2148 microcontroller to control any peripheral device
10
Interfacing RFID to LPC2148 microcontroller
11
Interfacing a GSM module to LPC2148 microcontroller and perform a process of sending an SMS
12
Interfacing GPS module to LPC2148 microcontroller
38
Embedded and IoT Laboratory
R-207
Embedded Systems For IoT
1
Preamble and setting up THINGSPEAK Cloud and ESP8266 Installation
2
Implement an Interrupts and Timers on ESP 8266 using IDE
3
Implementing Deep Sleep on ESP8266 using IDE
4
Interfacing BMP 180 to ESP8266 using IDE
5
Publishing Sensor Readings (Rain/Barometer) to ThingSpeak using NodeMCU
6
Preamble to Firebase with ESP8266 NodeMCU
7
Develop an Firebase Authentication (Email and Password) with ESP32/ESP8266
8
Implement a Sending Sensor Readings to Realtime Database using ESP32/ESP8266 and Firebase
9
Develop a system to control an Actuator through the BLYNK App
10
Develop a IoT Device Control via ThingSpeak
11
Develop a Home Automation using HTTP Protocol
12
Develop a Home Automation using MQTT Protocol
39
Embedded and IoT Laboratory
R-207
Embedded and Real-Time Systems
1
Preamble to Free RTOS, create an application that creates tasks
2
Create an application that creates two tasks that wait on a timer whilst the main task loops
3
Implement a Blocking semaphores, priority scheduling using RTOS
4
Implement a Test message queues and memory blocks, Test byte queues
5
Implement a Estimation the execution time of real-time tasks
6
Implement and evaluation of the system’s ability of meeting deadlines
7
Implement Sending messages to the mailbox by one task and reading the message from a mailbox by another task.
8
Implement a Creates a task that is scheduled when a button is pressed, which illustrates the use of an event set between an ISR and a task
9
Demonstrates the interruptible ISRs
10
Implement ISRs and analyse higher priority than the external interrupt button
11
Performance measures, dumping RTOS profile data to the PC
12
Real-time operating system kernel (thread switching and synchronization)
40
Embedded and IoT Laboratory
R-207
EDGE Computing & Data Analytics in IOT
1
The preamble to Raspberry Pi 4 and OS
installation
2
Write an Python programming for Raspberry Pi 4
3
Preamble to Node-Red installation and Experiment on Input and output interfaces
4
Implementation of MQTT protocol using Node Red
5
Implementation of MQTT-SN protocol using Node Red
6
Interface an Raspberry Pi 4 into an Edge Gateway
7
Implement an Enabling Analog Sensor for Edge Computing Using EdgeX
8
Implement an Enabling Digital Sensor for Edge Computing Using EdgeX
9
Preamble to Microsoft Azure / AWS
10
Develop
a Type-1 Data analytics using Microsoft Azure / AWS
11
Develop a Type-2 Data analytics using Microsoft Azure / AWS
12
Develop a Type-3 Data analytics using Microsoft Azure / AWS
41
Signal Processing Laboratory
R-204
Natural Langauge Processing and Applications
1
Databases and API's for NLP (NLTK, SpaCY and Tensorflow)
2
Tokenization of Text in different API's and Performance analysis.
3
One - Hot - Encoding and Stop words elimination
4
Implementation of chatbot.
5
Grammar Word Orders using Nltk and SpaCy
6
Parsing_in Nltk
7
TF-IDF Vector Trnasformation of Text
8
ZIPF's Law modelling.
9
Bag-of-Words and Bag of N-Grams Feature Representation
10
PCA on text feature modelling
11
SVD as text feature represnation
12
GloVe model implementation
13
Topic Modelling and Sentiment analysis using RNN
42
Signal Processing Laboratory
R-204
Discrete Time Signal Processing
1
Generation of discrete time signals
2
Effect of sampling rate
3
Operations on signals
4
Properties of Linear time-invariant system.
5
Computation of Z transform
6
Compute the Discrete Fourier Transform and IDFT with and without fft and ifft in MATLAB
7
Discrete Fourier Transform (DFT) and Fast Fourier Transform (FFT)
8
Properties of DFT
9
Linear and Circular Convolution
10
Correlation and Matched filtering using it
11
FIR filter design using window method: Lowpass and highpass filter.
12
FIR filter design using window method: Bandpass and Bandstop filter .
43
Computer Center
R-304B
Deep Network Architectures
1
To implement CNN for image classification and compare it’s performance metrics.
2
To analyze SGD optimizer for object detection and compare it’s performance metrics.
3
To execute ADAM optimizer for object detection and compare it’s performance metrics.
4
To generate the text using RNN
5
To examine and compare the performance of LSTM for speech recognition
6
To test
the performance of GRU for handwriting recognition
7
To construct the DensNet for object detection
8
To develope the AlexNet
for medical images analysis
9
To write
the logic and program for VGG to
segment the images
10
To implement the ResNet
for facial recognition
11
To compare the performance metrics of AlexNet Model for MNIST, Fashion MNIST, Cifar10 and ImageNet datasets
12
To analyze the performance metrics of VGG for MNIST, Fashion MNIST, Cifar10 and ImageNet datasets.
13
To differentiate the performance metrics of ResNet for MNIST, Fashion MNIST, Cifar10 and ImageNet datasets
44
Signal Processing Laboratory
R-204
Speech Signal Processing
1
Speech signal aquisition and recording ussing MATLAB.
2
Demonstration of non-stationarity of signal using spectrogram
3
Identification of voiced/unvoiced/silence regions in speech signal uisng Short term energy and autocorrelation
4
Study of different phonemes in English by plotting the sounds in time-domian
5
Estimation of pitch contour in voiced regions of speech signal.
6
Study of Time-Frequency resolution tradeoff in speech signal using STFT.
7
Estimation LPC coefficients in a speech signal.
8
Estimation Cepstrum
of Speech Signal
9
Demonstration of MFCC feature extraction from a speech signal
10
Demonstration of enhancement of speech signal using wavelet denoising.
11
Study of speaker recognition system modeling.
12
Study of formant analysis and synthesis in speech signal.
45
Computer Center
R-304B
Introduction to quantum computing
1
To design Quantum circuit
2
To perform Quantum measurement
3
To measure experimentally the Accuracy of Quantum Phase Estimation
4
Accuracy of Quantum Phase Estimation and quantum error correction
5
To perform Scalable Shor’s Algorithm
6
To perform Grover’s search with an unknown number of solutions
7
To perform experimentally the Quantum Simulation as a Search Algorithm
8
To explore quantum phenomena by using Quantum simulation as a asearch algorithm
9
To perform Quantum Error Correction
10
To Perform Quantum Teleportation
11
To Perform Quantum key distribution
12
To perform secure transmission of cryptographic keys over long distances
13
To Perform Quantum walks
46
Signal Processing Laboratory
R-204
Digital Signal Processing
1
Generation of Elementary signals
2
Operations on signals
3
Convolution of signals
4
Discrete Time Fourier Transform
5
Discrete Fourier Transform(DFT)
6
Fast Fourier Transform(FFT)
7
Sampling theorem
8
Linear and circular convolution
9
Linear Constant Coefficent Difference Equations
10
Infinite Impulse Response Filters (IIR)
11
Finite Impulse Response Filters(FIR)
12
Fourier Analysis of the signals
47
Computer Center
R-304B
Bio Medical Signal and Image Analysis
1
Generation of Biomedical Signals
2
To observe Registration of medical signals
3
To observe Registration of medical
image
4
To peform time domain analysis techniques
5
To peform frequency domain techniques
6
Detection of medical signals
7
To analyse Sampling and quantization
8
To peform Frequency domain enhancement techniques.
9
Spectral analysis of ECG and its visualization
10
Analyse Wavelet decomposition
11
To peform Speech coding
12
Measures of waveform coding
48
Computer Center
R-304B
Machine Learning with Python
1
Exploring python libraries for Machine learning
2
Understanding of K- Means Clustering
3
Development of Gaussian mixture models for real world data
4
Design of Naïve Bayes classifier
5
Development Support Vector Machines for classification
6
Development Linear Regression for prediction
7
Development of Logistic regression for real time data
8
Modelling Artificial neural networks
9
Design of Convolutional Neural Networks for classfication
10
Develoment Recurrent neural networks for realtime data
11
Principal Component Analysis for data dimensionality reduction
12
Development of Linear Discriminant Analysis
49
Measurements Laboratory
R-005
Electronic System Design (R)
1
Design and Implementation of Temperature Controlled FAN using Comparator
2
Design and Implementation of LED Chaser using IC4017
3
Design and Implementation of DC Motor control using L293D
4
Design and Implementation of FM Receiver
5
Controlling GPIO pins andDC Motor using Node MCU
6
Harmful gas monitoring using NodeMCU and ThingSpeak
7
Designing Weather station by HTTP GET REQUEST-RESPONSE using NodeMCU
8
Communication between Two NodeMCU using ESPNOW
9
Servo Motor Control using NodeMCU
10
PROJECT
50
Measurements Laboratory
R-005
Electronic System Design (A)
1
Design and Implementation of Temperature Controlled FAN using Comparator
2
Design and Implementation of Automatic Street Light using Comparator
3
Design and Implementation of Automatic Day Load Control using Comparator
4
Design and Implementation of ON Timer using Comparator
5
Design and Implementation of OFF Timer using Comparator
6
Design and Implementation of Clock Signal Generator using 555 Timer
7
Design and Implementation of LED Chaser using IC4017
8
Design and Implementation of DC Motor control using L293D
9
Design and Implementation of DC Motor control using L298N
10
Design and Implementation of DC Motor control using DRV8833
11
Design and Implementation of FM Receiver
12
Design and Implementation of FM Transmitter
13
Generating Digital output using Node MCU
14
Controlling GPIO using Node MCU
15
Interfacing Potentiometer as Analog Input with Node MCU
16
DC Motor Control using Node MCU
17
Harmful gas monitoring using NodeMCU and ThingSpeak
18
Barometric Pressure monitoring using Node MCU and ThingSpeak
19
Setting the Date and Time in DS3231 RTC module using Node MCU
20
Designing Weather station by HTTP GET REQUESTRESPONSE using Node MCU
21
Servo Motor Control using Node MCU
22
Communication between Two Node MCU using ESPNOW
23
PROJECT
51
Electronic Devices Laboratory
R-104
Electronic System Design (R)
1
Design and Implementation of Temperature Controlled FAN using Comparator
2
Design and Implementation of LED Chaser using IC4017
3
Design and Implementation of DC Motor control using L293D
4
Design and Implementation of FM Receiver
5
Controlling GPIO pins andDC Motor using Node MCU
6
Harmful gas monitoring using NodeMCU and ThingSpeak
7
Designing Weather station by HTTP GET REQUEST-RESPONSE using NodeMCU
8
Communication between Two NodeMCU using ESPNOW
9
Servo Motor Control using NodeMCU
10
PROJECT
52
Electronic Devices Laboratory
R-104
Electronic System Design (A)
1
Design and Implementation of Temperature Controlled FAN using Comparator
2
Design and Implementation of Automatic Street Light using Comparator
3
Design and Implementation of Automatic Day Load Control using Comparator
4
Design and Implementation of ON Timer using Comparator
5
Design and Implementation of OFF Timer using Comparator
6
Design and Implementation of Clock Signal Generator using 555 Timer
7
Design and Implementation of LED Chaser using IC4017
8
Design and Implementation of DC Motor control using L293D
9
Design and Implementation of DC Motor control using L298N
10
Design and Implementation of DC Motor control using DRV8833
11
Design and Implementation of FM Receiver
12
Design and Implementation of FM Transmitter
13
Generating Digital output using Node MCU
14
Controlling GPIO using Node MCU
15
Interfacing Potentiometer as Analog Input with Node MCU
16
DC Motor Control using Node MCU
17
Harmful gas monitoring using NodeMCU and ThingSpeak
18
Barometric Pressure monitoring using Node MCU and ThingSpeak
19
Setting the Date and Time in DS3231 RTC module using Node MCU
20
Designing Weather station by HTTP GET REQUESTRESPONSE using Node MCU
21
Servo Motor Control using Node MCU
22
Communication between Two Node MCU using ESPNOW
23
PROJECT
53
Analog and Digital Communications Laboratory
R-105
Signals and Communication Systems
1
Signal processing operations
2
Generation of basic signals
3
Complex signals for communication systems
4
Impulse response of Linear Time Invariant (LTI) System
5
FFT and Invest FFT of the given signal
6
Sampling and reconstruction of Signals
7
Magnitude and phase spectrum of a given signal
8
Amplitude Modulation and Demodulation
9
DSB - SC Modulation and Demodulation
10
Balanced Modulator
11
Single sideband (SSB) System
12
Designing an adaptive noise canceller
13
Signal conditioning a real speech signal
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