Mahdi S. Hosseini | Computer Vision | Best Researcher Award

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🌟Assist Prof Dr. Mahdi S. Hosseini, Computer Vision, Best Researcher Award🏆

Assistant Professor at Concordia University, Canada

Professional Profiles:

Scopus Profile

Google Scholar Profile

Bio Summary:

Assist Prof Dr. Mahdi S. Hosseini is an accomplished researcher and academician specializing in the intersection of computer vision, computational pathology, and numerical methods. He holds a Ph.D. in Image Processing and Applied Mathematics from the University of Toronto, where he conducted groundbreaking research in Finite Difference Methods in Imaging and Inverse Problems. His contributions extend to Compressed Sensing, Image Processing, and Machine Learning.

Dr. Hosseini has received numerous accolades for his outstanding work, including the prestigious Gina Cody Research and Innovation Fellowship (2024-2025) and the NSERC-Discovery Grant (DG) Early Career Research (ECR) Award (April 2022 – March 2027). His research has been recognized with awards such as the MITACS-Elevate Postdoctoral Fellowship and the NSERC Postdoctoral Fellowship.

Education:

Assist Prof Dr. Mahdi S. Hosseini has an extensive educational background with a focus on image processing, applied mathematics, and electrical and computer engineering. Here is a summary of his academic journey:

Ph.D., University of Toronto, Toronto, ON, Canada (2016)

  • Field: Image Processing, Applied Mathematics, ECE Department
  • Thesis: Finite Difference Methods in Imaging and Inverse Problems
  • Advisor: Professor Konstantinos N. Plataniotis

M.Sc., University of Waterloo, Waterloo, ON, Canada (2010)

  • Field: Compressed Sensing, Image Processing, ECE Department
  • Advisors: Professor Ravi Mazumdar, Professor Oleg Michailovich

M.Sc., University of Tehran, Tehran, Iran (2007)

  • Field: Machine Learning, Pattern Recognition, ECE Department
  • Advisors: Professor Babak N. Araabi and Professor Hamid Soltanian-Zadeh

B.Sc., University of Tabriz, Tabriz, Iran (2004)

  • Field: Control/Communications Engineering, ECE Department
  • Honor: CUM LAUDE, WITH HONORS
  • Advisor: Professor Sohrab Khan-Mohammadi

Professional Experience:

Assist Prof Dr. Mahdi S. Hosseini has accumulated valuable professional experience in academia and research. Here is a summary of his previous professional roles:

Assistant Professor, University of New Brunswick: Fredericton, NB, Canada (October 2020 – May 2022)

  • Tenure-track position in the ECE Department

Multimedia Lab, University of Toronto: Toronto, ON, Canada (Jan 2016 – Sep 2020)

  • Postdoctoral Researcher (Supervised by Professor Konstantinos N. Plataniotis)
  • Research Topic: Theoretical Developments of Deep Learning and Computer Vision Algorithms

Huron Digital Pathology AI Research: Waterloo, ON, Canada (May 2015 – September 2020)

  • Research Scientist (Industrial Advisor: Dr. Savvas Damaskinos, CTO)
  • Research Topic: Digital Pathology and Computational Pathology

Singspiel Inc.: Toronto, ON, Canada (May 2013 – April 2015)

  • AI Research Consultant
  • Research Topic: Mono and polyphonic piano notes detection and recognition

These roles reflect Dr. Hosseini’s contributions to both academic institutions and industry, showcasing his expertise in areas such as deep learning, computer vision algorithms, digital pathology, and artificial intelligence research.

Honors and Awards:

Assist Prof Dr. Mahdi S. Hosseini has received numerous honors and awards throughout his academic and research career, recognizing his outstanding contributions and achievements. Here is a list of his notable honors and awards:

Gina Cody Research and Innovation Fellow: 2024-2025

NSERC-Discovery Grant (DG): Early Career Research (ECR) Award: April 2022 – March 2027

MITACS-Elevate Postdoctoral Fellowship: Ontario government research funding award, September 2019 – August 2021

NSERC Postdoctoral Fellowship: NSERC research funding award, June 2016 – May 2018

International Scanner Contest 2016: 13th European Digital Pathology Congress, Validated Versatility Award for designing image deblurring algorithms with Huron’s team, improving image quality for clinical and research applications

MITACS-Accelerate Research Internship: Research studentship award at Huron Digital Pathology, May 2015 – August 2015

Diploma of Teaching Higher Education (THE500): University of Toronto, 2014 – Completed a full semester graduate course

Ontario Center of Excellence (OCE) Internship: Research studentship award at Singspiel, January 2013 – August 2013

Graduate Research Scholarship Award: University of Toronto, 2010-2014

Graduate Research Scholarship Award: University of Waterloo, 2008-2010

Top 10% High-Scoring Reviewing Award: NeurIPS 2020 Conference on Neural Information Processing Systems

Top 5% Student Paper Award: European Signal Processing Conference (EUSIPCO) 2009, Glasgow, UK

Top 10 Student Paper Award: International Conference in Biometrics (ICB) 2007, Seoul, Korea

M.Sc. Full Scholarship Award: Awarded by the Iranian Ministry of Education to study at the University of Tehran

B.Sc. Student Graduation Award: 3rd rank in 120 undergraduate students in the 2004 convocation

B.Sc. Full Scholarship Award: Awarded by the Iranian Ministry of Education to study at the University of Tabriz

Research Interests:

Assist Prof Dr. Mahdi S. Hosseini has a diverse range of research interests spanning multiple domains. Here are his primary areas of focus:

Computer Vision:

  • Self-supervised learning
  • Deep metric learning
  • Lightweight architecture design
  • eXplainable deep training

Computational Pathology:

  • Cancer diagnostics
  • Foundational modeling
  • Biomarker discovery

Numerical Methods:

  • Numerical difference methods
  • Signal/image processing
  • Computational imaging
  • Convolutional filters

These research interests demonstrate Dr. Hosseini’s involvement in cutting-edge technologies and methodologies, particularly in the fields of computer vision, computational pathology, and numerical methods. His work in these areas contributes to advancements in fields crucial to medical diagnostics, imaging, and artificial intelligence.

Publications Top Noted & Contributions:

Focuslitenn: High efficiency focus quality assessment for digital pathology

  • Authors: Z Wang, MS Hosseini, A Miles, KN Plataniotis, Z Wang
  • Conference: International Conference on Medical Image Computing and Computer-Assisted (MICCAI), 2020
  • Citation Count: 14

On Transferability of Histological Tissue Labels in Computational Pathology

  • Authors: MS Hosseini, L Chan, Y Wang, D Hasan, C Rowsell, S Damaskinos, et al.
  • Conference: European Conference on Computer Vision (ECCV), 2020
  • Citation Count: 12

HistoKT: Cross Knowledge Transfer in Computational Pathology

  • Authors: R Zhang, J Zhu, S Yang, MS Hosseini, A Genovese, L Chen, C Rowsell, et al.
  • Conference: IEEE International Conference on Acoustics, Speech, & Signal Processing (ICASSP), 2022
  • Citation Count: 11

Reconsidering CO2 Emissions from Computer Vision

  • Authors: A Fu, MS Hosseini, KN Plataniotis
  • Conference: Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2021
  • Citation Count: 8

CONet: Channel Optimization for Convolutional Neural Networks

  • Authors: MS Hosseini, JS Zhang, Z Liu, A Fu, J Su, M Tuli, KN Plataniotis
  • Conference: ICCV2021 NeurArch, 2021
  • Citation Count: 7

 

Liuye Yao | The analysis of electroencephalogram (EEG) signals.

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 🏆Dr. Liuye Yao, 🎉Congratulations on being awarded the Young Scientist Award! 🏆

  • Dr. Liuye Yao, Nanjing University of Aeronautics and Astronautics, China:  Leading Researcher in The analysis of electroencephalogram (EEG) signals

🎉👏 Congratulations on receiving the Young Scientist Award! 🌟 by ScienceFather Your outstanding dedication to cutting-edge research and innovative contributions has not only made a significant impact on your field but has also earned you this well-deserved recognition. 🚀

🔬 Your commitment to advancing scientific knowledge at such an early stage in your career is truly commendable. This award not only celebrates your past achievements but also anticipates the promising future impact you’ll continue to make. 🌈

🌱 Your passion for exploration, thirst for knowledge, and unwavering commitment to excellence serve as an inspiration to fellow researchers and aspiring scientists. 🤩 The scientific community is fortunate to have a young mind like yours pushing the boundaries of what’s possible. 🌌

🏆 As you stand on this podium of achievement, remember that this is just the beginning of an incredible journey filled with discoveries and breakthroughs. 🌠 May this award be a symbol of the great things yet to come in your remarkable career. 🌟🎊 Once again, congratulations on this well-deserved honor! 🥳 Your success is a testament to your talent, hard work, and the limitless potential that lies ahead. 🌏 Keep shining bright, Young Scientist! ✨👨‍🔬

Professional Profiles:
Profile Summary:

Yao Liuye is a researcher affiliated with Nanjing University of Aeronautics and Astronautics in Nanjing, China. Specializing in biomedical engineering, Yao’s research focuses on diverse areas such as electromyography (EMG), blood oxygen signal acquisition, muscle fatigue classification, cerebral edema assessment, and the impact of visual stimuli on brain activities.

Several notable publications authored or co-authored by Yao Liuye reflect expertise in the fields of biomedical signal processing, neurology, and visual perception. Noteworthy works include studies on the effects of 3D movie watching on brain activities and energy consumption, the impact of near-infrared light radiation on the forehead, and investigations into visual discomfort during stereoscopic viewing.

Yao Liuye has received recognition for their contributions, including the acceptance of multiple publications in reputable journals with respectable Impact Factors. Additionally, participation in international conferences further underscores Yao’s commitment to advancing scientific knowledge.

While the provided information gives a glimpse into Yao Liuye’s academic contributions and achievements, for a more detailed and comprehensive biography, it would be necessary to refer to additional sources or a complete academic profile.

Education:
  • September 2016 – October 2023:
    • Doctor of Engineering (Master and Doctorate)
    • Instrument Science and Technology (Biomedical Information and Instrumentation)
    • School of Automation, Nanjing University of Aeronautics and Astronautics
    • Research direction: Research on non-invasive brain neuromodulation technology, brain function signal processing, and classification
  • September 2012 – June 2016:
    • Bachelor of Engineering
    • Major in Biomedical Engineering
    • Nanjing University of Aeronautics and Astronautics School of Automation
Research Focus:

The author seems to be involved in research related to biomedical engineering, specifically in areas such as electromyography (EMG), blood oxygen signal acquisition, muscle fatigue classification, cerebral edema assessment, and brain activities associated with various stimuli.

Work Experience:
  • 2017.05 – 2018.11:
    • Project: Stereoscopic visual fatigue degree EEG analysis system and its Visual research
    • Nature and source of funds: Graduate Innovation Base (Laboratory) Open Fund (kfjj20170312)
    • Specific position: Project Hosts
    • Project Budget: ¥7,000
  • 2020.5 – Present:
    • Project: The frequency and duration of near-infrared light flashes are harmful to health. Study on the influence of cerebral blood flow in rats
    • Nature and source of funds: Jiangsu Province Scientific Research and Practice Innovation Plan (KYCX20_0188)
    • Specific position: Project Hosts
    • Project Budget: ¥15,000
  • 2020.01 – 2023.12:
    • Project: Rat brain water based on multimodal optical-electrical information Basic research on neurovascular coupling mechanism in tumor model
    • Nature and source of funds: National Natural Science Foundation of China Project (61875085)
    • Specific position: Main project participants
    • Project Budget: ¥600,000
  • 2022.01 – 2024.12:
    • Project: Resonant frequency of cranial nerve nuclei and its regulation theory basic research
    • Nature and source of funds: Original exploration of the National Natural Sciences 2021 Guidelines The research project “Novel Physical Treatment and Control of Major Diseases” Technology Research
Publications & Contributions,
  1. Exploring the impact of 3D movie watching on the brain source activities and energy consumption by ESI and fNIRS
    • Published in Biomedical Signal Processing and Control, 2021.
    • Accepted with an Impact Factor (IF) of 3.880.
    • DOI link
  2. Effects of stimulating frequency of NIR LEDs light irradiation on forehead as quantified by EEG measurements
    • Published in the Journal of Innovative Optical Health Sciences, 2020.
    • Accepted with an IF of 1.770.
    • DOI link
  3. Excessive Crossed Disparity Detection by Visual Evoked Potentials to Reduce Visual Discomfort in 3D Viewing
    • Published in Computational Intelligence and Neuroscience, 2018.
    • Accepted with an IF of 3.633.
    • DOI link
  4. Effects of disparity on visual discomfort caused by short-term stereoscopic viewing based on electroencephalograph analysis
    • Published in BioMedical Engineering OnLine, 2018.
    • Accepted with an IF of 2.819.
    • DOI link
  5. Stress Assessment of Vestibular Endurance Training for Civil Aviation Flight Students Based on EEG
    • Published in 2020.
    • Accepted with an IF of 3.169.
    • DOI link
  6. Frequency effects of near-infrared light radiation on the forehead as quantified by EEG measurements
    • Presented at Proc. SPIE 11900, Optics in Health Care and Biomedical Optics XI, 2021.
  7. Sleep-inducing EEG θ-band Synchronic Response Evoked by 3Hz Light Stimulation
    • Presented at the 2017 IEEE International Conference on Medical Imaging Physics and Engineering and the 8th Annual Conference of Chinese Medical Imaging Physics.
  8. Research on Multi-parameter Visualization Technology of Brain Function Based on EEG
    • Presented at the 2019 International Conference on Medical Imaging Physics and Engineering (ICMIPE).