Atta Ullah | Mathematical Biology | Best Researcher Award

Mr.Atta Ullah | Mathematical Biology | Best Researcher Award

PhD Mathematical and Statistical Sciences, Institute of Autonomous System, Department of Fundamental and Applied Sciences, Universiti Teknologi PETRONAS, 32610, Seri Iskandar, Perak Darul Ridzuan, Malaysia

Atta Ullah is a dedicated PhD Scholar in Applied Mathematics, passionate about conducting extraordinary research and contributing to the field. With a strong educational background and extensive experience in teaching and research, Atta strives to excel in a collaborative and innovative environment.

Profile

Scopus

Education 🎓

  • PhD Scholar: Universiti Teknologi PETRONAS, Malaysia
  • MS Mathematics (Applied Mathematics): University of Science & Technology Bannu (CGPA: 4/4, 91.75%)
  • BS Mathematics (Numerical Sciences): University of Peshawar (CGPA: 2.5/4, 67%)
  • F.Sc: The City College of Arts and Science, Peshawar (75.09%)
  • S.S.C: Govt. High School Matta Qilla (75.02%)
  • Certificate of Teaching: AIOU Islamabad (70.2%)

Experience 🏫

  • Research and Teaching Assistant: Universiti Teknologi PETRONAS, Malaysia
    • Assisting master’s students in their research
    • Teaching Assistant for Undergraduate Mathematics
  • Research Assistant and Visiting Lecturer: University of Science and Technology Bannu, KPK, Pakistan (2018-2022)
    • Supervising lab environment and assisting students in various research areas
  • Lecturer (Mathematics): Dreams College Timergara KPK, Pakistan

Research Interests 🔬

Atta Ullah’s research interests include Mathematical Modelling, Applied and Computational Analysis, First-Order Non-Linear Ordinary Differential Equations, Mathematical Biology, and Numerical Simulations of real-world problems.

Awards 🏆

  • Secured First Position in Master of Philosophy in Applied Mathematics.

Publications 📚

  1. “Sensitivity analysis-based control strategies of a mathematical model for reducing marijuana smoking”. AIMS Bioengineering, 2023. Read here (ISI Index, Q2).
  2. “Sensitivity Analysis-Based Validation of the Modified NERA Model for Improved Performance”. Journal of Advanced Research in Applied Sciences and Engineering Technology, 2023. Read here (Scopus Index, Q2).
  3. “Mathematical Model with Sensitivity Analysis and Control Strategies for Marijuana Consumption”. Partial Differential Equations in Applied Mathematics, 2024. Read here (Scopus Index, Q2).
  4. “A mathematical model with control strategies for marijuana smoking prevention”. Electronic Research Archive, 2024. Read here (ISI Index, Q1).
  5. “Comprehensive Validation: Enhancing the Modified NERAH Model via Rigorous Sensitivity Analysis”. Journal of Advanced Research in Applied Sciences and Engineering Technology, Accepted (Scopus Index, Q2).
  6. “Analyzing the Dynamics of the NERAH Model via Optimal Control Technique”. Advanced Sustainable Technology International Conference 2024 (ASTECH 2024), Accepted.
  7. “A Time-Fractional Model for Brinkman-Type Nanofluid with Variable Heat and Mass Transfer”. City University International Journal of Computational Analysis, 2022.
  8. “Numerical Solution of Heat Equation using Modified Cubic B-spline Collocation Method”. Journal of Advanced Research in Numerical Heat Transfer, 2024. Read here (Scopus Index, Q1).

 

Sanjana Mishra – Bioinformatics – Best Researcher Award

Sanjana Mishra - Bioinformatics - Best Researcher Award

Amity Institute of Biotechnology - India

Professional Profiles

Early Academic Pursuits

Sanjana Mishra's academic journey began with a passion for medical sciences and biotechnology. She completed a summer internship at Dr. Ram Manohar Lohia Institute of Medical Sciences, focusing on the principles and applications of immunopathology in diagnosis. Additionally, she underwent NTCC training at Amity Institute of Biotechnology, where she worked on establishing bromine-conjugated nimbolide as an effective drug against bacterial infection in freshwater fishes.

Professional Endeavors

Mishra's professional endeavors reflect her commitment to advancing knowledge and contributing to the field of biotechnology. She actively participated in various events and conferences, showcasing her leadership and organizational skills. Mishra coordinated events such as the International Girls Child Day, an International Conference on High-Throughput Data Analysis and Artificial Intelligence in Biological Research, and the Basant Bliss event, among others.

Contributions and Research Focus On Bioinformatics

Mishra's contributions extend beyond her academic pursuits to include research and publication activities. She published an article in the BIOHELIX E-Newsletter on the topic of "Bioengineering: Bridging Medicine and Innovation," demonstrating her interest in interdisciplinary approaches to biomedical research. Her research focus encompasses areas such as immunopathology, drug development, and high-throughput data analysis, reflecting her dedication to addressing complex challenges in biotechnology.

Accolades and Recognition In Bioinformatics

Mishra's active involvement in academic and extracurricular activities has earned her recognition and accolades. Her coordination of various events and her publication in the BIOHELIX E-Newsletter highlight her leadership abilities and scholarly achievements. Mishra's contributions to the field of biotechnology have been acknowledged by her peers and mentors, underscoring the significance of her work in advancing scientific knowledge and promoting innovation.

Bioinformatics is an interdisciplinary field that combines biology, computer science, mathematics, and statistics to analyze and interpret biological data. It encompasses a wide range of applications, including genomic sequencing, protein structure prediction, evolutionary analysis, and drug discovery. Bioinformatics tools and techniques enable researchers to decipher complex biological processes, understand genetic variations, and uncover relationships between genes and diseases In bioinformatics, computational methods are used to process large-scale biological datasets, such as DNA sequences, protein sequences, and gene expression profiles.

These data-driven approaches facilitate the identification of biological patterns and the prediction of molecular structures and functions. Bioinformatics plays a crucial role in advancing our understanding of living organisms, from microbes to humans, and in addressing key challenges in healthcare, agriculture, and environmental science.The integration of computational and biological sciences has revolutionized research in fields such as genomics, proteomics, and systems biology. Bioinformatics tools and databases provide valuable resources for storing, analyzing, and sharing biological information, fostering collaboration and accelerating scientific discovery. As technology continues to evolve, bioinformatics remains at the forefront of innovation, driving breakthroughs in biomedical research and personalized medicine.

Impact and Influence

Mishra's involvement in academic events and research activities demonstrates her potential to make a significant impact in the field of biotechnology. Her contributions to conferences, publications, and organizational initiatives have contributed to the dissemination of knowledge and the promotion of scientific discourse. Mishra's leadership and dedication to excellence inspire others in the academic and scientific community, fostering collaboration and driving innovation.

Legacy and Future Contributions For Bioinformatics

As Sanjana Mishra continues her academic and professional journey, her legacy is defined by her passion for biotechnology and her commitment to making meaningful contributions to the field. Her early achievements in research, publication, and event coordination lay the foundation for a promising career in biotechnology. Mishra's future contributions hold the promise of further advancing knowledge and addressing pressing challenges in the field, ultimately shaping the future of biotechnology and biomedical research.

Notable Publications

Br - nanoconjugate enhances the antibacterial efficacy of nimboloide against Flavobacterium columnare infection in Labeo rohita: A nanoinformatics approach 2024