Thatikonda Ragini | Embedded Vision | Best Researcher Award

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Mrs. Thatikonda Ragini | Embedded Vision | Best Researcher Award

PhD Researcher at National Institute of Technology Warangal, India

Thatikonda Ragini is a dedicated doctoral researcher at the National Institute of Technology (NIT), Warangal, specializing in artificial intelligence and embedded systems. Under the supervision of Dr. Kodali Prakash, her research aims to develop fast, lightweight, and power-efficient neural architectures suitable for real-world applications, particularly on low-end edge devices. Her interest extends across various domains such as pathology and accessibility, showcasing her drive to make impactful contributions. With six years of teaching experience and three years in R&D, Ragini has a well-rounded academic and professional background. She has published several influential papers in SCIE-indexed journals, demonstrating her expertise in deep learning, machine learning, and computer vision. Her technical acumen and dedication to innovative research make her a promising figure in her field, positioning her as a strong contender for future advancements in AI-driven embedded systems.

Professional Profile

Education

Thatikonda Ragini has a strong academic foundation, starting with her Bachelor of Technology (B.Tech.) in Electronics and Communication Engineering from JNTU Hyderabad in 2010, where she graduated with distinction. She then pursued a Master of Technology (M.Tech.) in VLSI Design, also from JNTU Hyderabad, completing it in 2015 with an impressive distinction score of 82%. Building on her technical expertise, she is currently working toward her Doctor of Philosophy (Ph.D.) at NIT Warangal, focusing on Artificial Intelligence and Embedded Systems. Having submitted her thesis, she is set to complete her Ph.D. in 2024. Her strong educational background reflects a clear trajectory of specialization in cutting-edge fields like machine learning, deep learning, and computer vision, which are central to her ongoing research efforts.

Professional Experience

Ragini’s professional journey spans both academia and research. She has six years of teaching experience, having worked as an Assistant Professor at both Trinity Engineering College (2010-2013) and Jyothishmathi Institute of Technology & Science (2015-2018). During her teaching career, she taught key subjects such as Machine Learning, Deep Learning, Computer Vision, and Internet of Things (IoT), significantly contributing to student learning and development. Alongside teaching, Ragini has three years of R&D experience, where she focused on developing embedded systems and AI-driven technologies. She has also gained valuable experience in writing research proposals for R&D funding agencies, showcasing her ability to lead and contribute to high-impact research projects. Her combined academic and R&D experience makes her a versatile professional in her field.

Research Interests:

Ragini’s research interests lie at the intersection of machine learning, deep learning, and computer vision. Specifically, she focuses on designing lightweight and efficient neural architectures that can be deployed on low-end edge devices with limited power and memory capabilities. Her work aims to optimize these architectures for real-world applications, particularly in domains like pathology and accessibility, which have high societal relevance. Ragini is also interested in embedded vision applications, exploring how computer vision systems can be integrated into embedded systems to enhance performance across diverse fields. Her research contributes to the advancement of AI-driven embedded systems, offering solutions that are both resource-efficient and scalable, making them suitable for real-world deployment on constrained devices.

Research Skills:

Ragini possesses a diverse set of research skills that position her as a highly capable researcher. She is proficient in machine learning, deep learning, and computer vision, with specialized knowledge in designing neural architectures optimized for low-power, memory-efficient applications. Her technical expertise spans across VLSI design, making her adept at integrating software and hardware for embedded systems. Ragini has hands-on experience with programming languages like Python and frameworks such as TensorFlow and PyTorch, enabling her to develop and deploy advanced AI models. Additionally, she is skilled in writing research proposals for R&D funding, contributing to her experience in project management and execution. Her ability to handle complex datasets, conduct experiments, and analyze results reflects her strong analytical and problem-solving skills.

Awards and Honors:

Ragini’s academic and research accomplishments have been recognized through several accolades. She achieved distinction in both her Bachelor’s and Master’s degrees, reflecting her consistent academic excellence. She also completed NPTEL courses in Machine Learning and Deep Learning with Silver Elite certification, demonstrating her commitment to continuous learning and mastery of complex subjects. Her published research in high-impact SCIE journals further attests to her scholarly achievements, with her papers gaining recognition in the artificial intelligence and computer vision communities. Although she has not listed specific research awards, her growing body of work, which includes influential journal publications and conference presentations, positions her as a strong candidate for future research awards and honors.

Conclusion

Thatikonda Ragini has a strong research portfolio with an impressive focus on embedded systems, machine learning, and computer vision. Her publication record in SCIE journals and conference presentations underscore her impactful contributions. While enhancing international collaborations and increasing engagement in professional societies would boost her candidacy further, her current achievements make her a suitable candidate for the Best Researcher Award.

Publication Top Note

  1. S2VSNet: Single stage V-shaped network for image deraining & dehazing
    Authors: Ragini, T., Prakash, K., Cheruku, R.S.
    Journal: Digital Signal Processing: A Review Journal
    Year: 2025
  2. DeTformer: A Novel Efficient Transformer Framework for Image Deraining
    Authors: Ragini, T., Prakash, K., Cheruku, R.
    Journal: Circuits, Systems, and Signal Processing
    Year: 2024
  3. Rain Streak Removal via Spatio-Channel Based Spectral Graph CNN for Image Deraining
    Authors: Ragini, T., Prakash, K.
    Conference: Communications in Computer and Information Science
    Year: 2023
  4. Progressive Multi-scale Deraining Network
    Authors: Ragini, T., Prakash, K.
    Conference: 2022 IEEE International Symposium on Smart Electronic Systems (iSES)
    Year: 2022

 

Fahd Alharithi | Artificial Intelligence | Best Researcher Award

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Assoc Prof Dr. Fahd Alharithi | Artificial Intelligence | Best Researcher Award

Department chair at Taif University, Saudi Arabia

Dr. Fahd Saad Alharithi is an accomplished researcher and academic with a Ph.D. in Computer Science from Florida Institute of Technology and extensive experience in both teaching and research. Currently an Assistant Professor at Taif University, his research spans a wide array of topics, including medical data categorization, oil spill detection, COVID-19 diagnosis, and IoT security. Dr. Alharithi has published numerous papers in high-impact journals such as Sensors and Remote Sensing, showcasing his innovative approaches and significant contributions to his field. In addition to his research, he has a strong background in teaching, having served as a lecturer and teaching assistant at various institutions. His involvement in volunteer work and leadership roles further highlights his commitment to community service. While his diverse research and impactful publications are noteworthy, highlighting research grants and awards could strengthen his profile for recognition.

Profile

Education

Dr. Fahd Saad Alharithi completed his educational journey with a strong foundation in Computer Science. He earned his Ph.D. from the Florida Institute of Technology, USA, in 2019, where he focused on advanced topics in the field. Prior to that, he obtained his Master of Science degree in Computer Science from the University of New Haven, USA, in 2013. His academic journey began with a Bachelor of Science degree in Computer Science from Taif University, Saudi Arabia, in 2008. This comprehensive educational background, spanning both international and local institutions, has equipped Dr. Alharithi with a robust theoretical and practical understanding of Computer Science, paving the way for his subsequent research and teaching career. His diverse educational experiences contribute significantly to his expertise and innovative approaches in the field.

Professional Experience

Dr. Fahd Saad Alharithi has garnered extensive experience in academia and education, currently serving as an Assistant Professor in the Computer Science Department at Taif University since 2019. His career began with roles as a Lecturer and Teacher Assistant at Taif University and the University of New Haven, where he honed his teaching and research skills. Dr. Alharithi has also contributed as a Trainer at New Horizons Institute, showcasing his versatility in the field. His professional journey is marked by significant research achievements, including innovative publications in medical data categorization, AI-assisted algorithms, and IoT security. His role extends beyond teaching, encompassing volunteer work with the Hemaya Group and leadership positions like President of the Saudi Student Club. Dr. Alharithi’s career reflects a robust blend of research excellence, educational dedication, and active community involvement.

Research Interest

Dr. Fahd Saad Alharithi’s research interests primarily focus on advancing computational methods and applications across various domains. His work explores medical data categorization using flexible mixture models, oil spill detection through SAR image analysis, and the development of hybrid convolutional neural network models for diagnosing diseases from chest X-ray images. Dr. Alharithi is also deeply involved in enhancing IoT security with AI-assisted bio-inspired algorithms and addressing environmental challenges through intelligent garbage detection systems. His research extends to secure communication protocols and energy-efficient solutions for sensor networks, demonstrating a strong emphasis on both practical and theoretical advancements. By integrating innovative methodologies such as deep learning and AI, Dr. Alharithi aims to address complex problems in medical imaging, environmental monitoring, and network security, reflecting a broad and impactful approach to computational science.

Research Skills

Dr. Fahd Saad Alharithi exhibits a robust set of research skills, underscored by his extensive work in computer science and related fields. His proficiency in advanced methodologies, including deep learning, AI-assisted algorithms, and hybrid models, highlights his capacity for innovative problem-solving. Dr. Alharithi’s experience with diverse data types and applications, such as medical data categorization, oil spill detection, and IoT security, demonstrates his ability to tackle complex, interdisciplinary challenges. His strong analytical skills are evident from his impactful publications in high-impact journals like Sensors and Remote Sensing. Additionally, his adeptness in leveraging various computational techniques and his commitment to exploring novel solutions further underscore his research capabilities. Dr. Alharithi’s contributions reflect a deep understanding of both theoretical and practical aspects of his field, positioning him as a skilled researcher with a significant impact on advancing technology and knowledge.

Award and Recognition

Dr. Fahd Saad Alharithi’s research has garnered considerable recognition within the academic community. He has published extensively in high-impact journals, including Sensors, Remote Sensing, and Computers, Materials & Continua, showcasing his significant contributions to fields such as medical data categorization, oil spill detection, and AI-assisted algorithms. His innovative work, particularly in developing hybrid convolutional neural network models and intelligent systems for garbage detection, underscores his leadership in advancing technology. Although specific awards and formal recognitions are not detailed in his resume, Dr. Alharithi’s influential publications and his role in mentoring and educating future researchers highlight his exceptional impact in computer science. His involvement in volunteer activities and community service further demonstrates his commitment to fostering academic and professional excellence.

Conclusion

Dr. Taimoor Asim is a strong candidate for the Best Researcher Award due to his substantial contributions to Mechanical Engineering, particularly in fluid dynamics and renewable energy systems. His extensive research experience, leadership roles, and professional achievements make him a noteworthy contender. To strengthen his candidacy, he could focus on broadening his research impact, exploring diverse research areas, and enhancing community engagement related to his work. Overall, Dr. Asim’s profile reflects a high level of expertise and dedication, aligning well with the criteria for the Best Researcher Award.

Publications Top Notes

  1. Machine learning approaches for advanced detection of rare genetic disorders in whole-genome sequencing
    • Authors: Alzahrani, A.A., Alharithi, F.S.
    • Journal: Alexandria Engineering Journal
    • Year: 2024
    • Volume: 106, pp. 582–593
  2. IoT-enabled healthcare systems using blockchain-dependent adaptable services
    • Authors: Arul, R., Alroobaea, R., Tariq, U., Alharithi, F.S., Shoaib, U.
    • Journal: Personal and Ubiquitous Computing
    • Year: 2024
    • Volume: 28(1), pp. 43–57
    • Citations: 13
  3. A comprehensive cost performance analysis for a QoS-based scheme in network mobility (NEMO)
    • Authors: Hussein, L.F., Abass, I.A.M., Aissa, A.B., Alzahrani, A.A., Alharithi, F.S.
    • Journal: Alexandria Engineering Journal
    • Year: 2023
    • Volume: 76, pp. 349–360
    • Citations: 1
  4. Performance Analysis of Machine Learning Approaches in Automatic Classification of Arabic Language
    • Authors: Alharithi, F.S.
    • Journal: Information Sciences Letters
    • Year: 2023
    • Volume: 12(3), pp. 1563–1578
    • Citations: 1
  5. A blockchain-based hybrid platform for multimedia data processing in IoT-Healthcare
    • Authors: Taloba, A.I., Elhadad, A., Rayan, A., Alharithi, F.S., Park, C.
    • Journal: Alexandria Engineering Journal
    • Year: 2023
    • Volume: 65, pp. 263–274
    • Citations: 74
  6. Optimal Sizing and Deployment of Renewable Energy Generators in Practical Transmission Network Using Grid-Oriented Multiobjective Harmony Search Algorithm for Loss Reduction and Voltage Profile Improvements
    • Authors: Kumar, P., Swarnkar, N.K., Mahela, O.P., Mazon, J.L.V., Alharithi, F.S.
    • Journal: International Transactions on Electrical Energy Systems
    • Year: 2023
    • Volume: 2023, 6315918
    • Citations: 1
  7. Energy-Aware Live VM Migration Using Ballooning in Cloud Data Center
    • Authors: Gupta, N., Gupta, K., Qahtani, A.M., Singh, A., Goyal, N.
    • Journal: Electronics (Switzerland)
    • Year: 2022
    • Volume: 11(23), 3932
    • Citations: 4
  8. NLP-Based Application for Analyzing Private and Public Banks Stocks Reaction to News Events in the Indian Stock Exchange
    • Authors: Dogra, V., Alharithi, F.S., Álvarez, R.M., Singh, A., Qahtani, A.M.
    • Journal: Systems
    • Year: 2022
    • Volume: 10(6), 233
    • Citations: 7
  9. Deep learned BLSTM for online handwriting modeling simulating the Beta-Elliptic approach
    • Authors: Hamdi, Y., Boubaker, H., Rabhi, B., Dhahri, H., Alimi, A.M.
    • Journal: Engineering Science and Technology, an International Journal
    • Year: 2022
    • Volume: 35, 101215
    • Citations: 6
  10. A software for thorax images analysis based on deep learning
    • Authors: Almulihi, A.H., Alharithi, F.S., Mechti, S., Alroobaea, R., Rubaiee, S.
    • Book Chapter: Research Anthology on Improving Medical Imaging Techniques for Analysis and Intervention
    • Year: 2022
    • Pages: 1166–1178