1. Motor shield interfacing using ARDUINO-MATLAB / SIMULINK
2. DC motor control using ARDUINO-MATLAB / SIMULINK
3. Stepper- Motor control using ARDUINO-MATLAB / SIMULINK
4. Servo motor interfacing using ARDUINO-MATLAB / SIMULINK
5 .Robot designing using ARDUINO-MATLAB / SIMULINK
6. Raspberry pi interfacing with simulink
7. Camera interfacing using Raspberry pi simulink
8. Live video acquisition using Raspberry pi simulink
9. Edge detection using Raspberry pi simulink
10. Image inversion in live video using Raspberry pi simulink
11. Color detection in live video using Raspberry pi simulink
12. Motion detection in live video using Raspberry pi simulink
13. Object detection in live video using Raspberry pi simulink
14. Live signal acquisition using Raspberry pi simulink
15. Filtering in live video using Raspberry pi simulink
16. Audio processing using Raspberry pi simulink
17. Filtering in live audio using Raspberry pi simulink
18. LED interfacing using Raspberry pi simulink
19. Various LED pattern using Raspberry pi simulink
20. Seven Segment display using Raspberry pi simulink
21. Sensors interfacing using Raspberry pi simulink
22. Real time sensors data acquisition & plotting using Raspberry pi simulink
23. Accelerometer interfacing using Raspberry pi simulink
24. Real time accelerometer data acquisition & plotting using Raspberry pi simulink
25. LCD Interfacing using Raspberry pi simulink
26. Motor shield interfacing using Raspberry pi simulink
27. DC motor control using Raspberry pi simulink
28. Stepper- Motor control using Raspberry pi simulink
29. Servo motor interfacing using Raspberry pi Simulink
electrical and electronics specialised projects
1. Load Flow Analysis on IEEE 14, 30, 57 buses System. Using NR method.
2. Voltage Profile Analysis for IEEE 30 Bus System Incorporating with UPFC
3. A Method for Transmission Loss Allocation Using Optimal Power Flow.
4. Studyon the performance of NEWTON – RAPHSON load Flow in DISTRIBUTION SYSTEMS
5. Load Modeling in Optimal Power Flow Studies (analysis with IEEE 14 bus load flow studies.)
6. Transmission Loss Calculation from Load Flow Analysis using incremental load flow approach.
7. Transmission Loss Calculation from Load Flow Analysis using Z bus method approach.
8. Location of statcom in IEEE 14 bus system using genetic algorithm.
Simulink Based Projects
Based on Renewableand other source of Energy. (Wind,Solar,Fuel cell, micro gas turbine, Ultra capacitor)
9. PMSG Based Wind Power Generation System.
10. Modeling and control of a single phase grid connected PV.
11. Grid Connected Battery storage System.
12. Fuel cell electrical energy system Simulink model.
13. Load Flow Analysis on IEEE 14and voltage profile improvement using Statcom .
14. Photovoltaic cell electrical energy system with dc boost and inverter 3ph connected to grid Simulink model.
15. Micro gas turbine connected with Grid system.
16. DFIG based wind power power generation system.
Power Electronics.
17. Zener Diode Regulator Simulink model.
18. Three phase shunt active filter power quality improvement.
19. High Voltage direct current Transmission system with three phase AC-DC-AC PWM power converter.
20. Three Phase Fully Controlled Bridge Rectifier.
21. Three phase inverter using PWM techniques.
22. Thyrister based single phase AC controller.
23. SVPWM control based three phase inverter.
24. Current Controller based 1-Phase Inverter.
25. Z-Converter for maintaining constant voltage at load.
26. SPWM switching pulse based seven, nine, eleven, thirteen, fifteen level H-Bridge inverter.
27. SPWM switching pulse based seven, nine, eleven, thirteen, fifteen level diode clamped inverter.
28. SPWM based open loop Buck Boost Converter.
29. Load Connected by Boost Converter Based 3-Phase Inverter.
30. Load Connected by Open Loop Buck Boost Converter Based 1-Phase Inverter.
31. Half Bridge DC-DC Converter and Full Bridge DC-DC Converter.
32. Dual Bridge Dc to DC Converter.
33. PI Controller Based Closed Loop Dual Bridge Dc to DC Converter.
34. ABC to ALPHA-BEETA to DQ and DQ to ALPHA-BEETA TO ABC.
35. Starting and Speed control of DC motor Simulink model.
36. DC motor drive through a DC chopper using GTO thyristor and a free-wheeling diode.
37. Brushless DC Motor Drive during Speed Regulation Simulink model.
38. SVPWM based Speed Control of Induction Motor with 3-Level Inverter using V/F method.
FACTS DEVICE BASED SIMULINK MODEL. (Statcom,SVC,SSSC,UPFC,UPQC.)
39. IEEE 14and voltage profile improvement using Statcom.
40. Power quality improvement in IEEE 9 BUS system using SSSC(Static Synchronous Series Compensator)
41. Reactive power compensation using SVC (Static var compensator) in transmission Power system.
2. DC motor control using ARDUINO-MATLAB / SIMULINK
3. Stepper- Motor control using ARDUINO-MATLAB / SIMULINK
4. Servo motor interfacing using ARDUINO-MATLAB / SIMULINK
5 .Robot designing using ARDUINO-MATLAB / SIMULINK
6. Raspberry pi interfacing with simulink
7. Camera interfacing using Raspberry pi simulink
8. Live video acquisition using Raspberry pi simulink
9. Edge detection using Raspberry pi simulink
10. Image inversion in live video using Raspberry pi simulink
11. Color detection in live video using Raspberry pi simulink
12. Motion detection in live video using Raspberry pi simulink
13. Object detection in live video using Raspberry pi simulink
14. Live signal acquisition using Raspberry pi simulink
15. Filtering in live video using Raspberry pi simulink
16. Audio processing using Raspberry pi simulink
17. Filtering in live audio using Raspberry pi simulink
18. LED interfacing using Raspberry pi simulink
19. Various LED pattern using Raspberry pi simulink
20. Seven Segment display using Raspberry pi simulink
21. Sensors interfacing using Raspberry pi simulink
22. Real time sensors data acquisition & plotting using Raspberry pi simulink
23. Accelerometer interfacing using Raspberry pi simulink
24. Real time accelerometer data acquisition & plotting using Raspberry pi simulink
25. LCD Interfacing using Raspberry pi simulink
26. Motor shield interfacing using Raspberry pi simulink
27. DC motor control using Raspberry pi simulink
28. Stepper- Motor control using Raspberry pi simulink
29. Servo motor interfacing using Raspberry pi Simulink
electrical and electronics specialised projects
1. Load Flow Analysis on IEEE 14, 30, 57 buses System. Using NR method.
2. Voltage Profile Analysis for IEEE 30 Bus System Incorporating with UPFC
3. A Method for Transmission Loss Allocation Using Optimal Power Flow.
4. Studyon the performance of NEWTON – RAPHSON load Flow in DISTRIBUTION SYSTEMS
5. Load Modeling in Optimal Power Flow Studies (analysis with IEEE 14 bus load flow studies.)
6. Transmission Loss Calculation from Load Flow Analysis using incremental load flow approach.
7. Transmission Loss Calculation from Load Flow Analysis using Z bus method approach.
8. Location of statcom in IEEE 14 bus system using genetic algorithm.
Simulink Based Projects
Based on Renewableand other source of Energy. (Wind,Solar,Fuel cell, micro gas turbine, Ultra capacitor)
9. PMSG Based Wind Power Generation System.
10. Modeling and control of a single phase grid connected PV.
11. Grid Connected Battery storage System.
12. Fuel cell electrical energy system Simulink model.
13. Load Flow Analysis on IEEE 14and voltage profile improvement using Statcom .
14. Photovoltaic cell electrical energy system with dc boost and inverter 3ph connected to grid Simulink model.
15. Micro gas turbine connected with Grid system.
16. DFIG based wind power power generation system.
Power Electronics.
17. Zener Diode Regulator Simulink model.
18. Three phase shunt active filter power quality improvement.
19. High Voltage direct current Transmission system with three phase AC-DC-AC PWM power converter.
20. Three Phase Fully Controlled Bridge Rectifier.
21. Three phase inverter using PWM techniques.
22. Thyrister based single phase AC controller.
23. SVPWM control based three phase inverter.
24. Current Controller based 1-Phase Inverter.
25. Z-Converter for maintaining constant voltage at load.
26. SPWM switching pulse based seven, nine, eleven, thirteen, fifteen level H-Bridge inverter.
27. SPWM switching pulse based seven, nine, eleven, thirteen, fifteen level diode clamped inverter.
28. SPWM based open loop Buck Boost Converter.
29. Load Connected by Boost Converter Based 3-Phase Inverter.
30. Load Connected by Open Loop Buck Boost Converter Based 1-Phase Inverter.
31. Half Bridge DC-DC Converter and Full Bridge DC-DC Converter.
32. Dual Bridge Dc to DC Converter.
33. PI Controller Based Closed Loop Dual Bridge Dc to DC Converter.
34. ABC to ALPHA-BEETA to DQ and DQ to ALPHA-BEETA TO ABC.
35. Starting and Speed control of DC motor Simulink model.
36. DC motor drive through a DC chopper using GTO thyristor and a free-wheeling diode.
37. Brushless DC Motor Drive during Speed Regulation Simulink model.
38. SVPWM based Speed Control of Induction Motor with 3-Level Inverter using V/F method.
FACTS DEVICE BASED SIMULINK MODEL. (Statcom,SVC,SSSC,UPFC,UPQC.)
39. IEEE 14and voltage profile improvement using Statcom.
40. Power quality improvement in IEEE 9 BUS system using SSSC(Static Synchronous Series Compensator)
41. Reactive power compensation using SVC (Static var compensator) in transmission Power system.
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