Ms Shazia Sabir - Cryptography - Best Researcher Award
Birla Institute of Technology Mesra - India
Author Profile:
Early Academic Pursuits:
Shazia Sabir began her academic journey with a strong foundation in mathematics. She completed her Secondary School (X) from Islamia Urdu H/S Phulwarisarif with an impressive score of 80.2% in 2010. Her enthusiasm and dedication continued as she pursued her Senior Secondary (XII) education at BSEB Oriental College, Patna city, Patna, achieving a commendable score of 79.4% in 2012. Shazia's passion for mathematics became evident during her undergraduate studies, where she secured a Gold Medalist position in B.Sc (Mathematics Hons.) from Magadh Mahila College under Patna University, with a remarkable score of 90.25% in 2015.
Professional Endeavors:
Transitioning into the realm of higher education, Shazia continued to excel in her academic pursuits. In 2017, she completed her M.Sc (Mathematics) from Patna University, securing the second-topper position with an impressive percentage of 91.31%. This solid academic foundation laid the groundwork for her Ph.D. research at Birla Institute of Technology, Mesra, where she submitted her thesis in Mathematics. Under the mentorship of Dr. Vandana, Shazia delved deep into areas like cryptography, image security, and image processing, publishing several impactful papers in reputed journals.
Contributions and Research Focus:
Shazia Sabir's research primarily revolves around cryptography, particularly focusing on image security and image processing. Collaborating closely with her research supervisor, Dr. Vandana, she has contributed significantly to the field with multiple publications in renowned journals such as 'Multimedia Tools and Applications' and 'Computers and Electrical Engineering.' Her research encompasses topics like multilayer image encryption techniques, permutationsubstitution operations, and the application of RSA cryptosystems in image security.
Accolades and Recognition:
Shazia's academic achievements have been widely recognized and celebrated. Her exemplary performance during her undergraduate and postgraduate studies earned her the title of Gold Medalist and second-topper, respectively. Furthermore, she was honored as an Inspire Scholar from 2012 to 2017. Additionally, her publications in high-impact journals have solidified her reputation as a promising researcher in the field of cryptography and image security.
Impact and Influence:
Shazia Sabir's research has had a significant impact on the field of cryptography and image security. Her innovative approaches and methodologies have paved the way for enhanced image encryption techniques, ensuring greater security and confidentiality. Collaborative efforts with experts like Dr. Vandana have further amplified the influence of her work, fostering advancements in both theoretical and applied aspects of cryptography.
Legacy and Future Contributions:
As a dedicated Ph.D. Research Scholar at Birla Institute of Technology, Mesra, Shazia Sabir has already left an indelible mark on the academic community. Her legacy encompasses groundbreaking research, impactful publications, and a steadfast commitment to advancing the field of cryptography. Looking ahead, Shazia's future contributions are anticipated to further shape the landscape of image security, cryptography, and computational methods. With her expertise in programming languages like C, C++, and MATLAB, coupled with her profound knowledge of typesetting tools like LATEX and MS OFFICE, Shazia is well-equipped to continue making significant strides in her research endeavors.
Notable Publication:
- Security of multiple RGB images by RSA cryptosystem combined with FrDCT and Arnold transform (23) , 2020
- Multi-layer color image encryption using random matrix affine cipher, RP2DFrHT and 2D Arnold map (12), 2021
- Multi-layer security based multiple image encryption technique (5), 2023
- Security of multiple RGB images in the time domain and frequency domain (4), 2021
- A novel multi-layer color image encryption based on RSA cryptosystem, RP2DFrHT and generalized 2D Arnold map (2), 2023