Faculty Name: Dr. A. Deepak

1. Simulation and comparison of voltage and current characteristics of novel finfet by varying its oxide thickness with single gate mosfet for improved conductivity.

2. Simulation of absorption spectra and comparing efficiency of glass and zno (protective layer) based solar cell for green energy.

3. Simulation and comparison of current voltage characteristics of Si and Ge based Bio Field Effect Transistor by varying oxide thickness to get better sensitivity.

4. Comparison of Piezo resistive property of Graphene based polymer films and Carbon nanotube based polymer films to optimize the Conductivity.Paipalem

5. Simulation of carbon nanotube based field effect transistor by varying gate oxide thickness to explore its electrical property and compare it with standard mosfet. morupuri.

6. Simulation and comparison of dipole and microstrip antenna to optimize gain,

7. Comparative analysis of Gain and return loss of Graphene based patch antenna with varying dielectric substrate (FR4, RT Duroid) for novel applications in gigahertz band.

8. Simulation and Comparison of Current-Voltage characteristics of Advanced MESFET by varying channel materials (Si, Ge, GaAs) and comparing it with single gate MOSFET to optimize conductivity.

9. Simulation and comparison of voltage and current characteristics of dual gate mosfet by varying source/drain length with single gate mosfet for improved conductivity.

10. Simulation and comparison of voltage and current characteristics of finfet by varying its channel dimension with single gate mosfet for improved conductivity.

11. Simulation and comparison of voltage and current characteristics of finfet by varying its channel dimension with single gate mosfet for improved conductivity.

12. Simulation and comparison of dipole and monopole antenna to optimize return loss.

13. Simulation of microstrip antenna and compare its return loss by varying dielectric substrates and dimensions of antenna.

14. Simulation and comparison of yagi and dipole antenna to optimize return loss and gain.

15. Exploring the electrical characteristics of Single walled carbon nanotubes (Armchair and Zigzag) based on chiral vector and compare it with mathematical modelling.

16. Simulation and comparison of current voltage characteristics of Si and Ge based Bio Field Effect Transistor by varying pH level of electrolyte to get better Sensitivity.

17. Simulation and Comparison of Current -Voltage characteristics of Photovoltaic cells by varying Panel Length and Width for Green Energy.

18. Simulation of carbon nanotube based field effect transistor by varying source and drain length to explore its electrical property and compare with standard mosfet.

19. Simulation and Comparison of Graphene based meander slot antenna with Graphene based microstrip patch antenna to optimize antenna performance for wireless applications.

20. Simulation and comparison of conductance of graphene Nanoribbon interconnect structures for different Fermi level by varying its geometry.

21. Simulation of graphene based field effect transistor by varying its gate oxide thickness to explore its electrical property and compare with standard mosfet.

22. Exploring the Tensile strength of mild steel material using Carbon nanotube based composite films and comparing it with Graphene based composite films to optimize Strain sensing.

23. Simulation of density of states of different types of Graphene Nanoribbons and compare it with Carbon nanotubes to optimize Band-gap.

24. Simulation and Comparison of Current-Voltage characteristics of MESFET by varying channel length and comparing it with single gate MOSFET to optimize conductivity.

25. Simulation of carbon nanotube field effect transistor by varying carbon nanotube length to explore itselectrical property and compare it with standard mosfet.

26. Comparative analysis of return loss and gain of graphene based microstrip patch antenna with CNT based microstrip patch antenna

27. Simulation and comparison of current voltage characteristics of Planar biosensor and Extended gate FET biosensor by varying oxide thickness to get better sensitivity.

28. Simulation and comparison of Current-Voltage characteristics of MESFET by varying source and drain length with single gate MOSFET to optimize conductivity.

29. Comparison of absorption spectra and fill factor of solar cells by tuning the glass and ito based protective layer for energy harvesting.

30. Simulation and Comparison of Current-Voltage characteristics of MESFET by varying Substrate thickness and comparing it with single gate MOSFET to optimize conductivity.

31. Simulation of Absorption Spectra and Comparing its efficiency of solar cells by tuning the anti reflection coating material (Glass, Indium Tin Oxide).

32. Simulation Of Stress Strain Curve and Comparison of Mechanical Response of Bio-composites by Varying its Dimensions In Order To Improve The Strength of the Material.

33. Comparison of Current-Voltage Characteristics of Molybdenum ditelluride and Tungsten disulfide Channel Material Based Field Effect Transistor to optimize Conductance.

34. Comparison of Current-Voltage Characteristics of Molybdenum Disulfide and Black Phosphorene Channel Material Based Field Effect Transistor to optimize Conductance.

35. Comparison of Current-Voltage Characteristics of Molybdenum ditelluride and Black phosphorene Channel Material Based Field Effect Transistor to optimize Conductance.

36. Brain Tumor Detection Using Naive Bayes Algorithm In Comparison With Support Vector Machine Algorithm To Measure The Accuracy, Precision And Recall.

37. Brain Tumor Detection Using Random Forest Algorithm In Comparison With K-nearest Neighbors Algorithm To Measure The Accuracy, Precision And Recall.

38. Brain Tumor Detection Using Decision Tree Algorithm In Comparison With Artificial Neural Network Algorithm To Measure Accuracy, Precision And Recall.

39. An Innovative Brain Tumor Detection Technique Using Logistic Regression In Comparison With Rbf_SVM To Measure The Accuracy, Precision and Recall.

40. Performance Evaluation of Destination Sequenced Distance Vector Routing Protocol and Dynamic Source Routing Protocol In Vehicular Ad-hoc Network using NS-2 Simulator

41. Analyzing the effectiveness of Ad-hoc on Demand Distance Vector Routing Protocol in comparison with Destination Sequenced Distance Vector Routing Protocol for Vehicular Ad-hoc Networks using NS-2 simulator

42. Improving the Throughput and efficiency of VANET’s with Ad-hoc On Demand Multipath Distance Vector routing Protocol in comparison with Ad-hoc On Demand Distance Vector Routing Protocol Using NS-2 Simulator

43. Performance Evaluation of VANET’s With Dynamic Source Routing Protocol In Comparison With Ad-hoc On Demand Multipath Distance Vector Routing Protocol Using NS-2 Simulator

Faculty Name: Dr Suresh Kumar M

44. Design of CPW Dual Band Bandpass Filter For C-band and Comparison with Microstrip Dual Band Filter Insertion Loss

45. Design of Dual Band Patch Antenna for Ku-band and Comparison of the VSWRwith Circular Patch Antenna.

46. Design and Analysis of Gain Radiation Pattern and Compare with Frequency Tunable Bandwidth in L Band

47. Design and Analysis of With and Without Slot Correlation Circular Patch Antenna Reflection Coefficient at 2.4 GHz

48. Design of CPW Triple Band Bandpass Filter For C-band And Comparison With Microstrip Triple Band Filter the Insertion Loss

49. Design of Dual Band Antenna for Ka-band (29 GHz and 32 GHz) and Comparison of the Return Loss With Circular Patch Antenna

50. Design and Analysis of With and Without Slot Correlation Circular Patch Antenna Gain Pattern at 2.4 GHz

51. Design and Analysis of With and Without Slot Correlation Circular Patch Antenna Axial Ratio at 2.4 GHz

52. Design and Analysis of Surface Current Distribution for With and Without Slot Circular Patch Correlation at 2.4 GHz

53. Design of CPW Triple Band Bandpass Filter For C-band and Comparison with Microstrip Triple Band Filter Return Loss

54. Design of Dual Band Patch Antenna for Ku-band and Comparison of the VSWR with Circular Patch Antenna

55. Design of CPW Band Pass Filter for C-band and Comparison of the Return Loss With Microstrip Dual Band Filter

56. Design of Microstrip Patch Antenna For Ka-band and Comparison of The Return Loss With Circular Patch Antenna

57. Design of Dual Band Patch Antenna for Ku-band and Comparison of The Return Loss With Circular Patch Antenna.

58. Evaluation of Reflection Coefficient and Comparison Of 3D Gain Pattern For S Band Application

59. Design and Analysis Of Frequency Reconfigurable Antenna Using Varactor Diode and Comparing Reflection Coefficient in L-band

60. Design of Frequency Reconfigurable Antenna and Comparing the Current Distribution in L Band Applications

61. Design and Analysis of 3D Gain Pattern and Comparison With Selected Frequency in L Band Applications

62. Analyzing of Reconfigurable Antenna for Efficiency and Comparison with Substrate Material for S-Band Application

63. Analysis of Surface Current Distribution and Comparison with Substrate Materials for S Band application

64. Analysis of Gain Radiation Pattern and Compared with Substrate Material For S Band Applications

65. Analysis of Reflection Coefficient and Compared With and Without Bias Conditions for S Band (2GHz to 4GHz) Wireless Applications

66. Analysis of Current Distribution in Reconfigurable Antenna And Compare with Diode Switching State

67. Design and Analysis of RLC Switching Frequency Reconfigurable Antenna on Varying Reflection Coefficient

68. Analysis of Gain Radiation Pattern in Reconfigurable antenna and Compare With PIN Diode Switching State

69. Performance Analysis Polarization Reconfigurable Circular Patch Antenna by Comparing Axial Ratio For 5.8 Ghz and Different Polarization

70. Design and analysis of Polarization Reconfigurable Antenna and Comparison of With and Without slot in RT-duroid Substrate at 5.8GHz

71. Comparative Analysis of Surface Current Distribution for Circular Patch Antenna With and Without Slot.

72. Comparative Analysis of Gain Pattern for Circular Patch Antenna With and Without Slot Design and Analysis of Reflection Coefficient and Compare with Frequency for S-band