Khandaker Akramul Haque

Khandaker Akramul Haque
  • Doctor of Philosophy
  • Researcher at Texas A&M University

About

14
Publications
927
Reads
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33
Citations
Introduction
Cyber-physical resilience with machine learning
Current institution
Texas A&M University
Current position
  • Researcher
Additional affiliations
June 2021 - January 2023
Dhaka Power Distribution Company Ltd. (DPDC)
Position
  • Engineer
August 2017 - June 2021
North West Power Generation Company Ltd. (NWPGCL)
Position
  • Engineer
February 2016 - July 2017
Stamford University Bangladesh
Position
  • Lecturer
Education
January 2023 - December 2027
Texas A&M University
Field of study
  • Electrical and Computer Engineering
November 2015 - February 2020
Bangladesh University of Engineering and Technology
Field of study
  • Electrical and Electronic Engineering
May 2010 - September 2015
Bangladesh University of Engineering and Technology
Field of study
  • Electrical and Electronic Engineering

Publications

Publications (14)
Article
Full-text available
Modern power systems face increasing operational challenges due to the integration of renewable energy sources (RESs) and evolving demand patterns. Demand flexibility (DF) has emerged as a transformative solution by dynamically adjusting electricity consumption to align with grid conditions. This review systematically investigates DF in distributio...
Preprint
Numerous research studies have been conducted to enhance the resilience of cyber-physical systems (CPSs) by detecting potential cyber or physical disturbances. However, the development of scalable and optimal response measures under power system contingency based on fusing cyber-physical data is still in an early stage. To address this research gap...
Preprint
Full-text available
The shift toward more renewable energy sources and distributed generation in smart grids has underscored the significance of modeling and analyzing modern power systems as cyber-physical systems (CPS). This transformation has highlighted the importance of cyber and cyber-physical properties of modern power systems for their reliable operation. Grap...
Article
Full-text available
Abstract This study presents a numerical analysis to correlate performance characteristics of indoor photovoltaic (PV) devices with those of DC‐to‐DC up‐converters designed for low‐power electronic applications. A theoretical model based on self‐consistent solution of Poisson's equation and continuity equation under optical generation‐recombination...
Article
In this article, we present a detailed theoretical study to predict performance characteristics of single-junction indoor photovoltaic (PV) devices operated under white light emitting diodes (LEDs) having different spectral characteristics. Efficiency limits of both ideal and practical PV converters have been evaluated considering illumination by c...
Article
Full-text available
In this work we present the first systematic study on the prospect of Cu2ZnSn(S,Se)4 or CZTSSe-based thin film photovoltaic devices for indoor energy harvesting applications. Based on numerical analysis, we estimate the performance characteristics of the experimentally reported highest-efficiency CZTSSe device when it is operated under a commercial...

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