Dr. Dhruba Jyoti Bora

Qualification : Ph.D. (NIT, Silchar)

Details of Educational Qualification:

Course Specialization Group College Name/University Year of Passing
Ph.D. Electronics and Instrumentation Engineering Electronics and Instrumentation Engineering National Institute of Technology, Silchar 2021
M.Tech. Electronics and Communication Engineering Electronics and Communication Engineering Tezpur University (Central University) 2014
B.Tech. Electronics and Communication Engineering Electronics and Communication Engineering North Eastern Hill University (Central University), Shillong 2011

 

 

List of Publications

S.No Title of the Paper Full Details of Journal Name / Conference Name, Volume number, page number, Date
1 ” Numerical simulation of iontophoresis for in-silico prediction of transdermal drugs in the dermal layers using skin impedance values” Elsevier Computer Methods and Programs in Biomedicine 214C (2022).
2 "Estimation of skin impedance models with experimental data and a proposed model for human skin impedance." IET Systems Biology 14.5 (2020): 230-240.
3 "Various skin impedance models based on physiological stratification." IET Systems Biology 14.3 (2020): 147-159.
4 "Implementation of wireless MEMS sensor network for detection of gait events." IET Wireless Sensor Systems 9.1 (2019): 48-52.
5 "Development of algorithm for different programmable modes for a prototype of orthotic ambulatory device for gait rehabilitation." International Journal of System Control and Information Processing 2.1 (2017): 51-58.
6 “Visualization of Impedance Spectra of Anatomical finding using Impedance Marks “ 2020 INDICON. IEEE, 11-13th December’2020.
7 "Sensitivity of Montague Model of Skin for predicting physiological variation in skin layers." 2020 International Conference on Contemporary Computing and Applications (IC3A). IEEE, 5-7th February’2020.
8 "Mapping the Impedance Spectrum of Montague Model of Skin Impedance." 2018 4th International Conference for Convergence in Technology (I2CT). IEEE, 27-28th Oct’2018.
9 "Novel Approach to Gait Angle Measurement using Tri-axial MEMS Accelerometer." INROADS-An International Journal of Jaipur National University 3.1s2 (2014): 296-300.