Jerzy Montusiewicz | Computer Science and Artificial Intelligence | Best Researcher Award

Jerzy Montusiewicz | Computer Science and Artificial Intelligence | Best Researcher Award

Mr Jerzy Montusiewicz, Lublin University of Technology, Department of Computer Science, Poland

Based on the research achievements of Prof. Jerzy Montusiewicz, he appears to be a strong candidate for the Best Researcher Award. Here’s a summary of his contributions and achievements:

Publication profile

google scholar

Research Summary for Best Researcher Award

1. K-medoids Clustering and Fuzzy Sets for Isolation Forest
Montusiewicz co-authored this 2021 IEEE International Conference on Fuzzy Systems paper on clustering and fuzzy sets, highlighting advanced methodologies in data analysis. This work is cited for its impact on clustering techniques in complex datasets.

2. Preparation of 3D Models of Cultural Heritage Objects to be Recognized by Touch by the Blind—Case Studies
In this 2022 Applied Sciences publication, Montusiewicz contributed to developing 3D models of cultural heritage objects accessible to the visually impaired, showcasing his commitment to inclusivity in digital heritage.

3. Comparative Analysis of Digital Models of Objects of Cultural Heritage Obtained by the “3D SLS” and “SfM” Methods
This 2021 study, published in Applied Sciences, explores the comparative effectiveness of different 3D scanning methods for cultural heritage preservation, reflecting Montusiewicz’s expertise in digital preservation techniques.

4. 3D Scanning and Visualization of Large Monuments of Timurid Architecture in Central Asia—A Methodical Approach
Montusiewicz’s 2020 Journal on Computing and Cultural Heritage article demonstrates innovative methods for scanning large historical monuments, emphasizing his contributions to preserving Central Asian architectural heritage.

5. Virtual and Interactive Museum of Archaeological Artefacts from Afrasiyab—An Ancient City on the Silk Road
This 2020 paper in Digital Applications in Archaeology and Cultural Heritage presents the creation of a virtual museum for archaeological artefacts, illustrating Montusiewicz’s role in advancing digital tools for archaeology.

6. A Decomposition Strategy for Multicriteria Optimization with Application to Machine Tool Design
Montusiewicz’s 1990 publication in Engineering Costs and Production Economics addresses optimization strategies in machine tool design, demonstrating his early contributions to engineering and optimization techniques.

7. Structured-Light 3D Scanning of Exhibited Historical Clothing—A First-Ever Methodical Trial and Its Results
This 2021 Heritage Science study, co-authored by Montusiewicz, represents a pioneering effort in 3D scanning of historical clothing, marking a significant advancement in the field of heritage science.

8. Documenting the Geometry of Large Architectural Monuments Using 3D Scanning—The Case of the Dome of the Golden Mosque of the Tillya-Kori Madrasah in Samarkand
Montusiewicz’s research, published in 2022, focuses on documenting the geometry of significant architectural monuments, highlighting his continued impact on architectural preservation through advanced scanning techniques.

Prof. Montusiewicz’s diverse research, spanning from advanced 3D scanning techniques to the preservation of cultural heritage, underscores his significant contributions to the fields of computer graphics and digital preservation. His innovative approaches and practical applications make him an exemplary candidate for the Best Researcher Award.

Research focus

Based on the provided publications, the research focus appears to be in digital heritage preservation and 3D scanning technologies. The work of J. Montusiewicz and collaborators emphasizes creating and analyzing 3D models of cultural heritage objects, including methods for blind accessibility and the application of scanning technologies for historical artifacts and architecture. This includes comparative studies of different scanning methods and their effectiveness, as well as the development of interactive digital museums. Their research contributes significantly to both the preservation of cultural heritage and the advancement of technological applications in archaeology. 🏛️🔍📏

Publication top notes

K-medoids clustering and fuzzy sets for isolation forest

Preparation of 3D models of cultural heritage objects to be recognised by touch by the blind—case studies

Comparative analysis of digital models of objects of cultural heritage obtained by the “3D SLS” and “SfM” methods

3D Scanning and Visualization of Large Monuments of Timurid Architecture in Central Asia–A Methodical Approach

Virtual and interactive museum of archaeological artefacts from Afrasiyab–an ancient city on the silk road

A decomposition strategy for multicriteria optimization with application to machine tool design

Structured-light 3D scanning of exhibited historical clothing—a first-ever methodical trial and its results

 

ZAIN ANWAR ALI | Computer Science | Best Researcher Award

ZAIN ANWAR ALI | Computer Science | Best Researcher Award

Dr ZAIN ANWAR ALI, MAYNOOTH UNIVERSITY, Ireland

Based on Dr. Zain Anwar Ali’s comprehensive academic and research profile, he is a strong candidate for the Best Researcher Award. Dr. Zain Anwar Ali is a distinguished researcher with a Ph.D. in Control Theory & Control Engineering from Nanjing University of Aeronautics & Astronautics (2017). His expertise spans across Control Theory, Robotics, and Bio-Inspired Computation, with significant contributions to the field of electronic engineering. His extensive academic background includes a Master’s in Industrial Control & Automation and a Bachelor’s in Electronic Engineering.

Publication profile

google scholar

Current Position

Dr. Ali is a Senior Post Doctoral Researcher at the National University of Ireland, Maynooth, working on a cutting-edge project on the control co-design and optimization of wave energy converters funded by prominent institutions including Science Foundation Ireland and the National Science Foundation (USA).

Previous Roles

He has held prominent positions such as Associate Professor at Jiaying University, China, and Sir Syed UET, Pakistan, where he contributed to various courses and led research clusters in bio-inspired computation. His role also included serving as an editor for research journals.

Technical Expertise

Dr. Ali is proficient in multiple programming languages and research methodologies, including computational modeling, experimental design, and data-driven simulations. His technical skills enable him to develop advanced electronic systems and software solutions.

Scholarships and Grants

He has secured substantial funding for his research, including a significant postdoctoral grant from the China Postdoctoral Council and various other research grants totaling over €600K. His research grants support projects in smart agriculture, robotics, and underwater vehicles.

Research Publications

With approximately 35 publications, Dr. Ali has made notable contributions to the field, including studies on UAVs, swarm robotics, and fuzzy-based control algorithms. His work is published in reputable journals and conferences.

Professional Affiliations

Dr. Ali is a Senior Member of IEEE and holds memberships in various international engineering and robotics societies. He is also a representative for the Belt & Road Alliance for Sensing and IoT Collaboration.

Social Responsibility

His involvement extends to social responsibility, including contributions to the Federation of Pakistan Chamber of Commerce and Industry’s Solar Energy standing committee and other engineering associations.

Conclusion

Dr. Ali’s extensive research achievements, innovative contributions, and leadership in the field make him a highly suitable candidate for the Best Researcher Award.

Publication top notes

An overview of various kinds of wind effects on unmanned aerial vehicle

Automatic fish species classification using deep convolutional neural networks

A review of different designs and control models of remotely operated underwater vehicle

Hybrid anomaly detection by using clustering for wireless sensor network

Cooperative path planning of multiple UAVs by using max–min ant colony optimization along with cauchy mutant operator

Optimization methods applied to motion planning of unmanned aerial vehicles: A review

Collective motion and self-organization of a swarm of UAVs: A cluster-based architecture

Multi-unmanned aerial vehicle swarm formation control using hybrid strategy

Fuzzy-based hybrid control algorithm for the stabilization of a tri-rotor UAV