Mr. Anthony Kyung Guzman Leguel | V2X Communication | Best Researcher Award

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Mr. Anthony Kyung Guzman Leguel | V2X Communication | Best Researcher Award

Mr. Anthony Kyung Guzman Leguel, PNU, Mexico

Anthony Kyung Guzmán Leguel, originally from Busan, Korea, is a passionate electrical engineer dedicated to advancing technology for sustainable solutions. With a stellar academic background, he earned his Bachelor’s degree from ITESO (2014-2019) and is currently a GKS Scholar pursuing a Master’s in Electrical Engineering at PNU (2021-2024). Throughout his journey, Anthony has balanced academics with extracurricular activities, including teaching high school students about electrical systems and practicing Soo Bahk Do for 25 years. He has been recognized for his contributions to the field, showcasing an impressive blend of technical expertise and commitment to community engagement.

Professional Profile

Orcid

Recommendation for Anthony Kyung Guzmán Leguel for the Best Researcher Award

Anthony Kyung Guzmán Leguel is an exceptional candidate for the Best Researcher Award due to his extensive academic achievements, innovative research contributions, and significant industry experience in electrical engineering. His current pursuit of a Master’s degree at Pusan National University (PNU) as a GKS Scholar underscores his commitment to academic excellence, evidenced by a remarkable GPA of 9.6/10 during his Bachelor’s studies at ITESO.

🎓  Education 

Anthony began his educational journey at ITESO, where he earned a Bachelor’s degree in Electrical Engineering, graduating with a commendable GPA of 9.6/10 (2014-2019). He then became a GKS Scholar, pursuing a Master’s in Electrical Engineering at PNU from 2021 to 2024. During his Master’s program, he has engaged in cutting-edge research, particularly in areas related to reinforcement learning and V2X communications. This academic path reflects his commitment to both theoretical understanding and practical application, positioning him as a forward-thinking engineer poised to contribute to renewable energy integration. Anthony’s bilingual skills in Spanish and English, along with his intermediate proficiency in Korean and French, further enhance his capacity for collaboration in diverse environments, emphasizing the global nature of modern engineering challenges.

💼  Experience 

Anthony’s professional experience includes significant roles at PNU’s Vialab, where he has worked on developing a V2X beaconing scheme using reinforcement learning. His contributions led to a notable reduction in computation time for CenterPoint 3D Object Detection, showcasing his ability to enhance technological efficiency. Before this, he interned and later became an engineer at Intel, contributing to the development of algorithms for multi-agent autonomous systems, thus significantly impacting the creation of intellectual property. His early career included a role at ITESO, where he reviewed embedded systems master thesis projects and taught high school students about electrical engineering applications. This blend of internships, academic projects, and teaching experiences has equipped Anthony with a robust skill set, allowing him to effectively navigate the challenges of modern electrical engineering and technology development.

🏅Awards and Honors 

Anthony’s dedication and achievements have garnered numerous accolades throughout his academic and extracurricular pursuits. Notably, he was inducted into the Tae Kwon Do Hall of Fame in 2013, reflecting his excellence in martial arts. As a member of the Mexican Technical Advisory Committee for Soo Bahk Do Moo Duk Kwan, he has demonstrated leadership and commitment to martial arts. His participation as a captain of ITESO University’s Tae Kwon Do team from 2017-2019 further showcases his ability to inspire and lead others. Additionally, Anthony’s work in electrical engineering has led to patents that contribute to advancements in autonomous systems and V2X communications. These accomplishments, alongside his role as a GKS Scholar, position him as a prominent figure in both sports and engineering, embodying a well-rounded individual dedicated to excellence in multiple arenas.

🌍 Research Focus 

Anthony’s research focus lies at the intersection of electrical engineering and innovative technology, particularly in the realm of renewable energy integration and autonomous systems. His current work at PNU’s Vialab involves utilizing reinforcement learning to enhance V2X communications, aiming to improve efficiency and reliability in connected vehicle networks. This work not only addresses the growing need for intelligent transportation systems but also aligns with global sustainability goals. Additionally, his research extends to 3D object detection, where he explores methods to reduce computational demands while maintaining accuracy, crucial for autonomous driving applications. By investigating decentralized trajectory planning and human-robot collaboration, Anthony aims to contribute to the development of smarter, more efficient systems that facilitate renewable energy solutions. His interdisciplinary approach, combining advanced algorithms with practical applications, positions him as a forward-thinking researcher poised to make significant impacts in the field of electrical engineering.

📖 Publication Top Notes

Enhancing the Minimum Awareness Failure Distance in V2X Communications: A Deep Reinforcement Learning Approach

Mr. Dongling Liu | Microscale Awards | Best Researcher Award

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Mr. Dongling Liu | Microscale Awards | Best Researcher Award

Mr. Dongling Liu, South China University of Technology, China

Mr. Liu is a dedicated researcher in Energy and Power Engineering, having earned comprehensive scholarships during his studies at Shenyang University of Chemical Technology. He completed his master’s degree in Mechanical and Power Engineering, specializing in phase change heat transfer, with a focus on explosion boiling heat transfer and surface wettability. His innovative research employs molecular dynamics simulation to explore microphysical processes, significantly contributing to the development of advanced cooling technologies for electronic components. Mr. Liu’s practical expertise is underscored by his involvement in a utility model patent for a multi-ring closed pulse heat pipe, reflecting his commitment to addressing real-world engineering challenges and industry needs in effective heat dissipation solutions.

Professional Profile:

Scopus

Suitability for the Award:

Mr. Dongling Liu exemplifies the qualities of a leading researcher through his robust educational foundation, innovative research in phase change heat transfer, and significant contributions to the academic community. His proactive approach to tackling relevant engineering challenges makes him a standout candidate for the Best Researcher Award.

Solid Educational Background:

Mr. Liu began his academic journey in Energy and Power Engineering at Shenyang University of Chemical Technology, where he consistently earned comprehensive scholarships, highlighting his dedication and excellence.

He pursued a master’s degree in Mechanical and Power Engineering, focusing on phase change heat transfer, demonstrating his commitment to advancing knowledge in this critical area.

Research Expertise in Phase Change Heat Transfer:

His specialization in explosion boiling heat transfer and surface wettability showcases his deep understanding of complex thermal phenomena. This area is increasingly important due to its implications for improving cooling technologies, particularly in electronic components.

Mr. Liu’s research on how nanostructures influence phase transition heat emphasizes his innovative approach to solving real-world engineering challenges.

Innovative Research Projects:

His studies utilize molecular dynamics simulation, a powerful tool for investigating microphysical processes, which aligns with current trends in engineering and technology.

He has also contributed to practical applications, evidenced by his involvement in a utility model patent for a multi-ring closed pulse heat pipe, demonstrating his ability to translate research into tangible solutions.

Focus on Real-World Applications:

Mr. Liu’s work addresses the urgent need for effective cooling solutions in electronic components, highlighting the relevance of his research in today’s technology-driven environment. His insights into heat dissipation challenges reflect a strong awareness of industry needs.

Publication Top Notes:

  • Title: Effect of Wetting Surface on Heat Transfer Characteristics of Double Bubbles at Microscale
    • Year: 2024
  • Title: Molecular Dynamics Study of Explosive Boiling on Hybrid Wettability Concave and Convex Surfaces
    • Year: 2023
  • Title: Molecular Dynamics Simulation of Thermophysical Properties of Nanofluids
    • Year: 2023

 

Dr. Xue Zhong | Emerging Trends | Best Scholar Award

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Dr. Xue Zhong | Emerging Trends | Best Scholar Award

Dr. Xue Zhong, South China University of Technology, China

Xue Zhong stands out as a pioneering scholar in landscape architecture and urban climate research. His work integrates multidisciplinary approaches, combining human geography, remote sensing, and AI technologies to address pressing issues in urban thermal environments. His innovative use of UAV-derived multimodal images and high-resolution satellite products marks a significant contribution to the field.

Professional Profile:

Google Scholar

Suitability for the Research for Best Researcher Award

Xue Zhong exemplifies excellence in research with his innovative contributions to landscape architecture and urban climate studies. His groundbreaking work integrates advanced remote sensing technologies and artificial intelligence to address urban thermal environments, showcasing a commitment to both academic rigor and practical impact. His research is not only multidisciplinary but also highly relevant to current environmental challenges.

Academic Background 📚

Xue Zhong’s educational journey is marked by a strong foundation in various fields. As a Ph.D. candidate at South China University of Technology, he has achieved significant recognition for his work on urban micro-scale thermal environments. His studies include advanced coursework at Western University and a dual undergraduate background in Human Geography & Urban-Rural Planning and English Language and Literature. This diverse academic background underpins his innovative approach to research.

Professional Experience 💼

Currently, Xue Zhong is a Ph.D. candidate actively involved in several high-impact research projects. His role in projects funded by prestigious organizations, such as the National Natural Science Foundation of China, highlights his ability to lead and contribute to complex research initiatives. His work as a core member in various research teams underscores his leadership and collaborative skills in advancing knowledge in his field.

Research Interests and Contributions 🔬

Xue Zhong’s research interests are centered on leveraging UAV-derived multimodal images and AI technologies to study urban thermal environments. His work explores the integration of remote sensing and artificial intelligence to enhance the understanding and management of urban climates. This innovative approach positions him at the forefront of research in landscape architecture and urban planning, demonstrating his commitment to advancing both theoretical and practical knowledge.

Awards and Recognitions 🏆

Xue Zhong has garnered notable awards and recognitions for his exceptional research and academic contributions. His work, which bridges multiple disciplines including landscape architecture, urban planning, and remote sensing, has earned him prestigious accolades from academic and research institutions.

Innovations and Impact 🚀

Xue Zhong has made significant strides in integrating advanced technologies with urban climate research, showcasing a blend of innovation and practical application. His work, particularly in utilizing UAV-derived multimodal images for urban thermal environment evaluation, represents a pioneering approach in the field. By leveraging cutting-edge remote sensing technology and AI-driven analysis, Zhong has developed novel methodologies that offer deeper insights into urban heat islands and micro-scale thermal variations.

Publication Top Notes:

  1. “A thermal performance detection method for building envelope based on 3D model generated by UAV thermal imagery”
    Year: 2020
    Journal: Energies
  2. “Empirical models on urban surface emissivity retrieval based on different spectral response functions: A field study”
    Year: 2021
    Journal: Building and Environment
  3. “Investigating the micro-scale thermal effects of natural underlying surfaces on adjacent spaces in a subtropical zone with an optimized method”
    Year: 2022
    Journal: Building and Environment
  4. “Monitoring and diagnostics of buildings’ heat loss based on 3D IR model of multiple buildings”
    Year: 2022
    Journal: Energy and Buildings
  5. “Investigating the effects of surface moisture content on thermal infrared emissivity of urban underlying surfaces”
    Year: 2022
    Journal: Construction and Building Materials
  6. “A retrieval method for land surface temperatures based on UAV broadband thermal infrared images via the three-dimensional look-up table”
    Year: 2022
    Journal: Building and Environment
  7. “An improved model for emissivity retrieval of complex urban surfaces based on spectral indices from UAV”
    Year: 2022
    Journal: Sustainable Cities and Society

 

 

 

 

Mr. Andrew Stewart | Resource Discovery Award | Best Researcher Award

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Mr. Andrew Stewart | Resource Discovery Award | Best Researcher Award

Mr. Andrew Stewart, Museum of New Zealand Te Papa Tongarewa, New Zealand

Mr. Andrew Stewart, a distinguished alumnus of Victoria University of Wellington 🎓, is a prominent figure at the Museum of New Zealand Te Papa Tongarewa. With a robust career spanning from Assistant Curator to his current role as Curator NE (Fishes), Andrew has made remarkable contributions to the museum’s Vertebrates collection, particularly in Fishes. His leadership has seen the expansion of collections, including a pioneering DNA tissue repository and a cutting-edge alcohol storage facility. Andrew’s taxonomic expertise shines through his extensive publications and contributions to “The Fishes of New Zealand,” solidifying his legacy in fish biology and taxonomy. His dedication has earned him prestigious awards, reflecting his profound impact on the field and his effective science communication efforts 🐟.

🌐 Professional Profile:

Orcid

Education and qualifications

Mr. Andrew Stewart is an alumnus of Victoria University of Wellington in Wellington, NZ, where he earned his Bachelor of Science degree 🎓. His educational journey at this esteemed institution equipped him with the foundational knowledge and skills essential for his career path and ongoing professional development.

Employment Summary

  • 2023–present: Curator NE (Fishes), Museum of New Zealand Te Papa Tongarewa
  • 2018–2023: Assistant Curator: Vertebrates (Fishes), Museum of New Zealand Te Papa Tongarewa

Achievements

Andrew has significantly expanded the Fishes collection, developed a large DNA tissue collection, and led the construction of a state-of-the-art alcohol storage facility. He has been a pivotal figure in media interactions related to fish biology and taxonomy, authored substantial sections of “The Fishes of New Zealand,” and published numerous peer-reviewed papers. His taxonomic expertise is widely recognized, and several fish species bear his name in recognition of his contributions.

Awards and Recognition

Andrew has received accolades such as the best oral presentation at the International Biosafety 8th Annual ABSANZ Conference in 2018 and the Royal Zoological Society of N.S.W. Whitley Medal for his book on the Natural History of Australasian Animals. He was also honored with the New Zealand Association of Scientists’ Science Communicator Award in 1996.

Publication Top Notes:

1.  Upside‐down swimming: in situ observations of inverted orientation in Gigantactis, with a new depth record for the Ceratioidei
Year: 2024-03
2.  Dichichthyidae, a New Family of Deepwater Sharks (Carcharhiniformes) from the Indo–West Pacific, with Description of a New Species
Year: 2024-03-28
3.  The first record of Australian flatback mangrove goby Mugilogobius platynotus (Günther 1861) (Gobiidae; Tridentigerinae) from New Zealand
Year: 2022-05-19
4.  A new species of deep-water triplefin (Pisces: Tripterygiidae) in the genus Ruanoho from coastal New Zealand waters
Year: 2021-06-03
5.  First record of male freshwater eels (Anguilla dieffenbachii) caught at sea
Year: 2019-04-03

 

 

 

Dr. María Luisa Soto Montenegro | Neuroimagen Preclínica

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Dr. María Luisa Soto Montenegro : Leading Researcher in Neuroimagen Preclínica

Dr. María Luisa Soto Montenegro, Instituto de Investigación Sanitaria Gregorio Marañón, Spain

🎉 Congratulations, Dr. María Luisa Soto Montenegro! 

🏆 On behalf of ScienceFather, we celebrate your remarkable achievement in winning the prestigious Best Researcher Award! Your dedication, innovative research, and scholarly contributions have left an indelible mark in your field. 🌟 Your commitment to advancing knowledge and pushing the boundaries of research is truly commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field.

🌟 Dr. María Luisa Soto Montenegro is a Senior Researcher currently affiliated with the Fundación para la Investigación Biomédica at Hospital General Gregorio Marañón in Madrid, Spain. She works in the Laboratory of Imaging, specializing in Medicine and Experimental Surgery. Her professional journey began in 2018 at this institution.

Professional Profiles :

Google Scholar

ORCID

Scopus

Loop profile

 

🎓 Education :

~   PhD in Biology : Universidad Complutense Madrid, 2002

~   Master’s Degree in Pharmacy : Universidad Complutense Madrid, 1999

~   Bachelor’s Degree in Biology : Universidad Complutense Madrid, 1992

Main Research Lines:

1.  Brain damage caused by drugs of abuse and psychosis.

2.  Molecular imaging in deep brain stimulation (DBS).

3.  Prevention strategies in the onset of schizophrenia.

📚 Publication Impact and Citations : 

Scopus Metrics:

  • 📝 Publications: 68 documents indexed in Scopus.
  • 📊 Citations: A total of 1,035 citations for his publications, reflecting the widespread impact and recognition of Dr. Soto Montenegro’s research within the academic community.

Google Scholar Metrics:

  • All Time:
    • Citations: 1369
    • h-index: 22
    • i10-index: 36
  • Since 2018:
    • Citations: 764
    • h-index: 16
    • i10-index: 30

These metrics reflect Dr. Soto Montenegro’s substantial impact in the academic community, showcasing the widespread influence of her research. 🌐✨

Publications ( Top Note ) :

1.  The chemokine receptor CXCR4 and the metalloproteinase MT1-MMP are mutually required during melanoma metastasis to lungs

Published  Year : 2009, Cited By : 107

2.  Measurement of cerebral glucose metabolic rates in the anesthetized rat by dynamic scanning with 18F-FDG, the ATLAS small animal PET scanner, and arterial blood sampling

Published  Year : 2004, Cited By : 101

3.  Augmented acquisition of cocaine self-administration and altered brain glucose metabolism in adult female but not male rats exposed to a cannabinoid agonist during adolescence

Published  Year : 2008, Cited By : 93

4.  Using a maternal immune stimulation model of schizophrenia to study behavioral and neurobiological alterations over the developmental course

Published  Year : 2015, Cited By : 76

5.  Constitutive activation of B-Raf in the mouse germ line provides a model for human cardio-facio-cutaneous syndrome

Published  Year : 2011, Cited By : 74

6.  Deep brain stimulation improves behavior and modulates neural circuits in a rodent model of schizophrenia

Published  Year : 2016, Cited By : 58

7.  Differences in response to food stimuli in a rat model of obesity: in-vivo assessment of brain glucose metabolism

Published  Year : 2008, Cited By : 48

8.  Minocycline in neurodegenerative and psychiatric diseases: an update

Published  Year : 2021, Cited By : 47

9.  Monitoring vascular normalization induced by antiangiogenic treatment with 18F-fluoromisonidazole-PET

Published  Year : 2016, Cited By: 42

10.  Early neuromodulation prevents the development of brain and behavioral abnormalities in a rodent model of schizophrenia

Published  Year : 2018, Cited By : 41

 

May your efforts cultivate a future where the skies are not only filled with innovation but are also fortified against the challenges that technological progress may bring.

Wishing you continued success in your endeavors to secure the future of Network Protocols, Technology and Communication.