
Pranabesh BhattacharjeeTexas A&M University | TAMU · Electronics and Computer Science Engineering
Pranabesh Bhattacharjee
Master of Technology
About
9
Publications
390
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24
Citations
Introduction
Electronics engineer by profession, having more than six
years of work experience combined of industrial, teaching as
well as research experience. Strong desire to learn new
things and do research or innovation. At present, I am working as JRF under a DST-SERB (Govt. of India) funded research project at UEM, Kolkata. The objective of the project, entitled “Design & Implementation of Equivalent Electrical Gene Model for Genetic Disease Diagnosis”, is to design some biological equivalent sensor.
Additional affiliations
July 2018 - present
Position
- Fellow
Description
- Working on A Central Govt. Funded Research Project Named, ”Design & Implementation of Equivalent Electrical Gene Model for Genetic Disease Diagnosis”. Tools utilized for this Project Work: Mentor Graphics HEP (1,2), NI EWB, and LabVIEW with MyRIO DAQ, XILINX Spartan 6 for Hardware Implementation, and Testing.
July 2017 - May 2018
Dr. Sudhir Chandra Sur Degree Engineering College
Position
- Visiting Faculty
Description
- Guest Lecturer in Electronics and Communication Engineering Dept. (B. Tech. Course).
March 2015 - July 2016
Trident Techlabs Pvt. Ltd.
Position
- Engineer
Description
- Technical Demonstrator, Trainer, and Project Support of VLSI, Embedded and EDA Related Academic and Industrial Solutions like- Tanner Tools, Mentor Graphics, XILINX, NI EWB, NI ELVIS, NI LabVIEW, etc. Worked for Design Support and Development of Research Projects in Different Technical Institutions & Universities in EDA Domain.
Publications
Publications (9)
Triple-negative breast cancer (TNBC) is an aggressive form of breast cancer associated with an early age of onset, greater propensity towards metastasis, and poorer clinical outcomes. It accounts for 10% to 20% of newly diagnosed breast cancer cases and disproportionately affects individuals from the African American race. While TNBC is sensitive t...
Triple-negative breast cancer (TNBC) is an aggressive form of breast cancer associated with an early age of onset, greater propensity towards metastasis, and poorer clinical outcomes. It accounts for 10% to 20% of newly diagnosed breast cancer cases and disproportionately affects individuals from the African American race. While TNBC is sensitive t...
Early-stage cancer detection is very important in providing better treatment facilities to patients. Cancer means abnormal cell growth or mutation in normal gene sequence inside human body. In this paper, several human cancerous and non-cancerous amino acid sequences are analyzed to detect the abnormalities by investigating the electrical character...
An efficient and novel modeling approach is proposed in this paper for identifying proteins or genes involved in melanoma skin cancer. Two types of classifiers are modeled, based on the chemical structure and hydropathy property of amino acids. These classifiers are further implemented using NI LabVIEW–based hardware kit to observe the real-time re...
An Electro-Gene Model employs a particular set of simulated electrical models for the identification of genetic mutation/abnormalities based on amino acid sequences. The invention includes the process of analyzing the FPGA-based real-time responses based on amino acid soft databases collected from tissue samples and investigating the results of the...
Amino acids play a vital role in the field of genomics. In this paper, amino acids are designed and classified using an equivalent micro-electrical model. The main objective of this paper is to design simplified electrical models for individual amino acid by passive and active components based on their physicochemical properties. The network respon...
This paper presents an efficient design of the Type-1 band-pass filter using an improved Sine Cosine Algorithm. For the reduction of parameter dependency in standard SCA and to achieve optimal coefficients in the filter designing problem, a few modifications in the basic SCA are made. The proposed changes result in a better performance in terms of...
Abstract—This paper presents an efficient design of Type-1 band-pass
filter using an improved Sine Cosine Algorithm. For the reduction of parameter dependency in standard SCA and to achieve optimal coefficients in the filter designing problem, a few modifications in the basic SCA are made. The proposed changes results in a better performance in te...