Pramod Rangaiah
Forskare vid Institutionen för elektroteknik; Fasta tillståndets elektronik
- Telefon:
- 018-471 77 36
- Mobiltelefon:
- 076-158 07 66
- E-post:
- pramod.rangaiah@angstrom.uu.se
- Besöksadress:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
75237 UPPSALA - Postadress:
- Box 65
751 03 UPPSALA
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I have awarded with PhD degree from JAIN University, Bangalore in Electronics Engineering in 2017. I have received my B. E degree in Electronics and Communication from Dr. Ambedkar Institute of Technology, Bangalore Visvesvaraya Technological University in 2010, MTech degree in R F Communication from Jain University, Bangalore, in 2012. I worked as R F and microwave circuit Designer at Icon Design and Automation Pvt LtD and also visiting research scholar at University of Concordia, Canada.
Publikationer
Senaste publikationer
- 92 Mb/s Fat-Intrabody Communication (Fat-IBC) With Low-Cost WLAN Hardware (2024)
- Hybrid Foams based on Multi-Walled Carbon Nanotubes and Cellulose Nanocrystals for Anisotropic Electromagnetic Shielding and Heat Transport (2024)
- Metamaterial integrated highly efficient wireless power transfer system for implantable medical devices (2024)
- Intrabody Communication Through Fat Tissue for Brain-Machine Interface Applications (2023)
- Enhancing Medical Image Reclamation for Chest Samples Using B-Coefficients, DT-CWT and EPS Algorithm (2023)
Alla publikationer
Artiklar
- 92 Mb/s Fat-Intrabody Communication (Fat-IBC) With Low-Cost WLAN Hardware (2024)
- Hybrid Foams based on Multi-Walled Carbon Nanotubes and Cellulose Nanocrystals for Anisotropic Electromagnetic Shielding and Heat Transport (2024)
- Metamaterial integrated highly efficient wireless power transfer system for implantable medical devices (2024)
- Enhancing Medical Image Reclamation for Chest Samples Using B-Coefficients, DT-CWT and EPS Algorithm (2023)
- Realization of a Portable Semi-Shielded Chamber for Evaluation of Fat-Intrabody Communication (2023)
- Dielectric Characterization and Statistical Analysis of Ex-Vivo Burnt Human Skin Samples for Microwave Sensor Development (2023)
- Preliminary Analysis of Burn Degree Using Non-invasive Microwave Spiral Resonator Sensor for Clinical Applications (2022)
Konferenser
- Intrabody Communication Through Fat Tissue for Brain-Machine Interface Applications (2023)
- Wireless Power Transfer System Design Using Zero-Index Metamaterial for Implantable Medical Devices (2023)
- Design and Analysis of High Gain Planar Inverted-F Antenna (PIFA) for Wimax and Nomadic Applications (2021)
- Time Reversal Microwave Imaging of Realistic Numerical Head Phantom for Bone Flap Healing Follow-up (2020)
- A Low Profile Button Antenna with Back Radiation Reduced By FSS (2020)
- Clustering of Dielectric and Colour Profiles of an Ex-vivo Burnt Human Skin Sample (2020)
- Design of constant width branch line directional coupler for the microwave sensing application (2020)