M.E EXTC (VLSI design An Embedded system) - Pune University - 2014
B.E (EXTC)- Mumbai University - 2012
1 and half years of experience in academics
Microstrip antenna design
IE3D - Used for design of Microstrip antenna and analysis of parameter.
Genesys – This software is used for the Microstrip antenna design and analysis of parameter. This software is useful for analysis of finite ground antenna parameter analysis.
Microwind – this software is used for backend design of system. Xilinx – it is used for front end design using Verilog code for the system.
HSPICE – 'Stimulation Program with Integrated Circuit Emphasis'. It is used in industry because it converges well, support the latest devices and interconnect model. Use for measuring and optimizing circuit.
Also attended the Ni2 company certified workshop for Microwind and Xilinx software.
Ninithi software for study of band structure and behaviour of CNT and Nanoribbon
Tasm software for 8086 programming
MPLAB and Proteus for PIC-18 Practical.
SPJ-31 for 8051 microcontroller.
Mithila R. Ghuge and A.P. Khedkar "A Review on Gain Enhancement Techniques of Microstrip Patch Antenna", International Journal of Engineering Science & Advanced Technology (IJESAT), Volume-4, Issue-1, 064-068, ISSN: 2250-3676, Jan 2014.
Mithila R. Ghuge and A.P. Khedkar "A Comparative Study of Gain Enhancement Techniques for Microstrip Patch Antenna", International Journal of Engineering Science and Innovative Technology (IJESIT), Volume 3, Issue 1, ISSN: 2319-5967, January 2014.
Mithila R. Ghuge and A.P. Khedkar "Analysis of Performance Parameters for Microstrip Antenna using Novel Hybridization Method", International Journal of Computer Applications ( IJCA), Volume 95–No.19, ISSN: 0975 –8887, June 2014.
Mithila R Ghuge has a one and half year experience of teaching. She taught subject such as Microprocessor and microcontroller, Microwave Engineering, Analog Electronics. She design microstrip antenna for high bandwidth as a part of B.E project and also design high gain microstrip antenna as a part of M.E project.