LecturerB.Sc. (Engg.) in Information and Communication Technology (ICT), Mawlana Bhashani Science and Technology University (MBSTU)
Md. Faizul Huq Arif
Md. Faizul Huq Arif completed his B.Sc. (Engg.) degree in Information and Communication Technology (ICT) from Mawlana Bhashani Science and Technology University. After that he joined as a lecturer in department of Computer Science and Engineering (CSE), World University of Bangladesh (WUB). He has published a good number of research articles. His research area is focused on Fiber Optics, Photonic Crystal Fiber (PCF), Wireless Sensor Network (WSN), Smart sensing, ZigBee sensor and so on. Arif also participated in many seminars and international conferences. Moreover, Arif was awarded different scholarships at every stages of his studentship. He was awarded Masters fellowship from ICT division, Ministry of Posts Telecommunications and Information Technology (2016-2017). He has been doing research activities actively since 2015. He is also serving as a reviewer of some international journals and conferences.
Research Area: Fiber Optics, Photonic Crystal Fiber (PCF), Wireless Sensor Network (WSN), Smart sensing, ZigBee sensor, Software Defined Network (SDN)
Awards: Best Paper Award of the track Semiconductor Devices, Nano-Technology and Photonics in IEEE WIECON-ECE 2015.
Fellowship: Awarded Masters fellowship from ICT division, Ministry of posts, Telecommunications and Information Technology, Bangladesh. No-56.00.000.028.33.073.16-50 (2016-2017)
Scholarship:Government merit scholarship at Primary, Junior, SSC and HSC from Barisal Education Board
Service in Review Panels:
2018: Reviewer, Journal of European Optical Society - Rapid Publications (EOS), Springer
2017: Reviewer, International Conference on Advanced Information and Communication Technology-2016
Enhancement of relative sensitivity of Photonic Crystal Fiber with high birefringence and low confinement loss.
Design and optimization of photonic crystal fiber for liquid sensing applications
A new structure of photonic crystal fiber with high sensitivity, high nonlinearity, high birefringence and low confinement loss for liquid analyte sensing applications
Optimization and enhancement of liquid analyte sensing performance based on square-cored octagonal photonic crystal fiber.
Design and Optimization of Highly Sensitive Photonic Crystal Fiber with Low Confinement Loss for Ethanol Detection.
Design and characterization of photonic crystal fiber for sensing applications
Mobility Issue on Octagonal Structured ZigBee Network Using Riverbed. International Journal of Communications
Design of Simple Structure Gas Sensor Based on Hybrid Photonic Crystal Fiber
A comparative analysis of two different PCF structures for gas sensing application
Highly sensitive simple structure circular photonic crystal fiber based chemical sensor.
Proposal of a simple structure photonic crystal fiber for lower indexed chemical sensing
Numerical analysis of O-PCF structure for sensing applications with high relative sensitivity
Application of microarray-core based modified photonic crystal fiber in chemical sensing
Proposal of simple gas sensor based on micro structure optical fiber
On the Analysis of RED Algorithm in ZigBee Network for Queue management
High Sensitive PCF based Chemical Sensor for Ethanol Detection
Simulation Based Analysis of Formalin Detection Through Photonic Crystal Fiber
Queue management of RED enabled ZigBee Network based on packet size variations and distribution techniques
Photonic Crystal Fiber Based Sensor for Detecting Binary Liquid Mixture
Optimization of ZigBee Network Parameters for the Improvement of Quality of Service
Associate Member, Bangladesh Computer Society