Francisco Santos Olalla | Structural Systems in Architecture | Best Researcher Award

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Prof. Dr. Francisco Santos Olalla | Structural Systems in Architecture | Best Researcher Award

Dean | Polytechnic University of Madrid | Spain

Francisco Santos Olalla is the Director of the School of Engineering and Industrial Design at the Universidad Politécnica de Madrid, where he serves as a Senior Lecturer in the Department of Mechanical, Chemical, and Industrial Design Engineering, specializing in Continuum Mechanics and Structural Theory. With a background in industrial engineering and extensive experience leading structural control, project assessment, and structural pathology units in major technical institutions, he has built a distinguished career that bridges engineering practice with academic leadership. His scholarly work spans industrial design, structural engineering, quality assurance, and innovative educational methodologies, supported by peer-reviewed publications, collaborative research initiatives, and active involvement in scientific and educational communities. He has held several key management roles that have strengthened institutional planning, academic quality systems, and strategic development. As an evaluator for national quality accreditation programs, a member of the EELISA “Industrial Design 4 Human” community, and a contributor to research and educational innovation groups, he demonstrates sustained commitment to advancing engineering education and professional excellence. His research impact includes 5 citations, 4 publications, and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Cuadra A.G., González A.B., Olalla F.S., Electronic Systems in Competitive Motorcycles: A Systematic Review Following PRISMA Guidelines. Electronics, 2025, 14(19).

2. Alvarez Cabal R., Díaz Lozano J., Moreno Blanes C., Santos Mesa J., … Conclusiones de los ensayos realizados en el Viaducto sobre el Río Tajo en la Línea de Alta Velocidad Madrid–Sevilla. Consideraciones para el proyecto de obras de paso en FF. Hormigón y Acero, 1999, 5.

3. Llauradó P.V., Porres R.C., Blázquez A.S., Olalla F.S., Álvarez F.G., Flexural tests for efficiency evaluation of spike anchors on CFRP-strengthened concrete. Materials, 2022, 16(1), 164.

4. Porres R.C., Llauradó P.V., Olalla F.S., Rubio M.B., Recomendaciones para una correcta información sanitaria que evite confusión e inexactitudes en el conocimiento de la mortalidad provocada por la infección de COVID-19 en España. Rev. Esp. Comun. Salud, 2021, 12(2), 165–181.

5. Santos Olalla F., Metodología de formulación de indicadores para la mejora en la implantación de los programas de calidad: Aplicación al caso de las universidades públicas españolas. ETSI_Diseño, 2016, 2.

The nominee’s work advances structural engineering, industrial design, and educational innovation by integrating rigorous research with practical applications that improve safety, reliability, and quality across engineering systems. His contributions strengthen academic excellence, support data-driven decision-making. He envisions a future where engineering solutions are increasingly sustainable, technology-driven, and aligned with global innovation needs.

Md Biplob Hossain | Smart Cities and Architecture | Best Researcher Award

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Dr. Md Biplob Hossain | Smart Cities and Architecture | Best Researcher Award

Okayama University | Japan

Dr. Md. Biplob Hossain is a researcher in information and Communication Systems specializing in information security, IoT systems, antenna design, and secure network architectures, currently affiliated with Okayama University. His professional journey includes academic roles as Lecturer and Teaching Assistant, where he contributed to curriculum delivery, technical supervision, and student mentoring while engaging in collaborative research initiatives. His work spans secure email communication, blockchain based authentication, VANET security, IoT-enabled monitoring systems, microstrip patch antenna design, and performance optimization, reflected through numerous publications in reputable journals and international conferences. He has contributed to projects involving Kerberos Blockchain integration, scalable ECC based encryption mechanisms, smart contract applications, and wireless antenna engineering, advancing both theoretical models and applied security solutions. His leadership activities include participation in university associations and involvement in collaborative multidisciplinary research teams. Dr. Hossain’s scholarly output includes more than twenty peer-reviewed publications covering blockchain security, cryptographic applications, IoT authentication frameworks, antenna engineering, and wireless communication technologies. He has been honored with the Japanese Government MEXT Scholarship and maintains active engagement with academic communities through memberships and research collaborations. His research impact includes 21 citations, 8 documents, and an h-index of 2.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Rahayu M., Hossain M.B., Huda S., Nogami Y., Integrated authentication server design for efficient Kerberos–Blockchain VANET authentication. Sensors, 2025, 25(21), 6651.

2. Hossain M.B., Rahayu M., Huda S., Ali M.A., Kodera Y., Nogami Y., A blockchain-based approach for secure email encryption with variable ECC key lengths selection. Int. Conf. Mobile Internet Security, 2024, 102–117.

3. Hossain M.B., Hossain M.F., Design of a triple band rectangular slot microstrip patch antenna for wireless applications. IEEE Region 10 Symposium (TENSYMP), 2020, 1832–1835.

4. Huda S., Nogami Y., Akada T., Rahayu M., Hossain M.B., Musthafa M.B., et al., A proposal of IoT application for plant monitoring system with AWS cloud service. Int. Conf. Smart Applications, Communications and Networking, 2023.

5. Hossain M.B., Hossain M.S., Hossain M.M., Haque M.D., Optimization of the feeding point location of rectangular microstrip patch antenna. Adv. Sci. Technol. Eng. Syst. J., 2020, 5(1), 382–384.

Dr. Md. Biplob Hossain’s work advances secure communication architectures by integrating blockchain, cryptography, and IoT systems, strengthening the reliability of next-generation digital infrastructures. His research contributes to safer transportation networks, resilient smart-environment monitoring. He envisions scalable, privacy-preserving technologies that bridge academic innovation and real-world industrial applications to support a more secure and interconnected society.

Peng Wang | AI and Automation in Architecture | Editorial Board Member

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Dr. Peng Wang | AI and Automation in Architecture | Editorial Board Member

Researcher | Inspur Group Co.,Ltd | China

Peng Wang is a computer architecture researcher serving as a doctoral researcher at the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, specializing in GPU rendering optimization, compiler optimization, and microarchitecture-independent performance analysis. He has contributed to multiple high-impact research projects, including the development of RayBench and RenderBench benchmark suites, GPU microarchitecture-independent characteristic profiling tools, and LLVM-based RISC-V vectorization optimizations, demonstrating strong technical leadership in benchmarking, compiler engineering, and heterogeneous computing systems. His research outputs include publications in recognized journals such as Electronics, IEEE Access, and other peer-reviewed venues, along with several patents covering GPU performance optimization, cloud game automation, and feature-analysis methodologies. He has actively supported the scientific community through peer-review service for reputable journals and international conferences, reflecting his growing influence in the fields of computer architecture and intelligent systems. His combined expertise in software-hardware co-design, GPU architecture analysis, and compiler technologies positions him as an emerging leader dedicated to advancing high-performance computing research and innovation.

Profile: ORCID

Featured Publications

1. Wang P., Qu H.L., Latency-Aware and Auto-Migrating Page Tables for ARM NUMA Servers. Electronics, 2025, 14(8), 1685.

2. Wang P., Yu Z.B., LLVM RISC-V RV32X Graphics Extension Support and Characteristics Analysis of Graphics Programs. IEEE Access, 2023, 3291920.

3. Wang P., Yu Z., RenderBench: The CPU Rendering Benchmark Suite Based on Microarchitecture-Independent Characteristics. Electronics, 2023, 12(19), 4153.

4. Wang P., Yu Z., RayBench: An Advanced NVIDIA-Centric GPU Rendering Benchmark Suite for Optimal Performance Analysis. Electronics, 2023, 12(19), 4124.

5. Wang P., Chen Y., Xing M.J., Method for Supporting RISC-V Custom Extension Instructions Based on LLVM. Comput. Syst. Appl., 2021, 31(11), Article 8347.

Peng Wang’s work advances high-performance computing by delivering optimized GPU and CPU rendering benchmark suites, compiler enhancements, and microarchitecture-independent performance tools that strengthen the reliability and efficiency of modern computing systems.He aims to drive global innovation through scalable, energy-efficient, and architecture-aware computing solutions that empower future heterogeneous computing technologies.

Shakil Ahmad | Environmental Design | Editorial Board Member

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Dr. Shakil Ahmad | Environmental Design | Editorial Board Member

University of International Business and Economics | China

Shakil Ahmad is an economist and doctoral graduate from the University of International Business and Economics, Beijing, specializing in applied econometrics, environmental economics, trade relations, and sustainable development. He has served as a Lecturer at the University of Agriculture Peshawar and Abdul Wali Khan University Mardan, teaching econometrics, macroeconomics, microeconomics, international economics, and applied quantitative methods. His professional experience includes contributing to research projects on hospitality sector gaps, crime and justice systems, and socio-economic assessments, where he carried out survey design, field data collection, econometric estimation, and technical proposal development. His research focuses on environmental sustainability, carbon neutrality, energy economy interactions, import demand dynamics, financial inclusion, and foreign direct investment, with publications in recognized journals such as Resources Policy, Journal of Economy and Technology, Asian Journal of Economics and Empirical Research, SAGE Open, Frontiers of Finance, and the Journal of Environmental and Energy Economics. He has served as first or corresponding author on numerous studies addressing China’s environmental policies, Pakistan’s economic sectors, and global trade–environment linkages. His academic trajectory is supported by competitive scholarships throughout his BS, MS, and PhD studies, alongside active involvement in collaborative research, manuscript development, and scholarly engagement. His research impact includes 4 citations, 2 documents, and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar   

Featured Publications

1. Rahman Z.U., Ahmad S., Khan A. Bridging the EPC and IPAT in the presence of natural resources in China: Considering asymmetries in environmental-related technologies and unemployment. Resources Policy, 2025, 105523.

2. Ahmad S. Exploring the nexus of energy consumption, trade openness, CO2 emissions, and economic growth: A time series analysis in Kuwait. SSRN Electronic Journal, 2024, DOI: 10.2139/ssrn.4817593.

3. Mulk W., Ahmad S., Younas W., Ali S.Y. Testing the neutrality of money, labor, and capital in Pakistan’s agriculture sector. Asian Journal of Economics and Empirical Research, 2024, DOI: 10.20448/ajeer.v11i2.6311.

4. Ahmad S., Raihan A., Ridwan M. Role of economy, technology, and renewable energy toward carbon neutrality in China. Journal of Economy and Technology, 2024, DOI: 10.1016/j.ject.2024.04.008.

5. Ahmad S., Maqbool I., Raihan A., Xin L. Analyzing the dynamics of import demand function in Pakistan: Long-term and short-term relationships with key economic factors. Asian Journal of Economics and Empirical Research, 2024, DOI: 10.20448/ajeer.v11i2.5959.

The nominee’s work advances scientific understanding of the energy economy environment nexus by delivering evidence-based insights that support sustainable policy formulation and low-carbon development. Through rigorous econometric modeling and multidisciplinary research, his contributions enhance decision-making in environmental governance, global trade, and long-term economic resilience.

Zenebe Reta Roba | Environmental Design | Editorial Board Member

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Mr. Zenebe Reta Roba | Environmental Design | Editorial Board Member

Lecturer | Mattu University | Ethiopia

Zenebe Reta Roba is a Lecturer and Dean at the College of Natural Resource and Agricultural Economics, Mattu University, specializing in geographic information systems, Remote Sensing, forestry, and environmental and natural resource management. He has extensive academic and administrative experience, leading academic programs, supervising students, coordinating research activities, and contributing to major interdisciplinary projects addressing climate change, land use dynamics, biodiversity conservation, and urban environmental challenges. His scholarly work includes impactful publications on land surface temperature, urban heat island dynamics, forest cover change, soil erosion, carbon stock estimation, rainfall prediction, and geospatial suitability assessments, produced through collaborations with national and international researchers. He also serves as a reviewer for more than thirty Scopus-indexed journals, holds editorial roles including membership on the PLOS ONE board, and contributes to global scientific networks such as the Global Land Program. His professional strengths include advanced geospatial analysis, environmental planning, statistical modeling, and scientific research communication, supported by training in geospatial data science, forest management, and research methodologies. His achievements, leadership, and sustained contributions to environmental science and geospatial research demonstrate a strong record of academic excellence and professional service. His research impact includes 112 citations, 19 publications, and an h-index of 6.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Roba Z.R., Chalchissa F.B., Moisa M.B., Kipkulei H.K., Deribew K.T., Negash D., et al. Synergistic pathways of Great Ethiopian Renascence Dam and Green Legacy initiatives in shaping hydrological stress and land surface temperature in Abay Basin. Trees, Forests and People, 2025, 101039.

2. Moisa M.B., Dejene I.N., Roba Z.R., Gemeda D.O. Impact of urban land use and land cover change on urban heat island and urban thermal comfort level: a case study of Addis Ababa City, Ethiopia. Environmental Monitoring and Assessment, 2022, 194(10), 736.

3. Gemeda D.O., Kenea G., Teshome B., Daba G.L., Argu W., Roba Z.R. Impact of land use and land cover change on land surface temperature: Comparative studies in four cities in southwestern Ethiopia. Environmental Challenges, 2024, 16, 101002.

4. Reta Z., Adgo Y., Mekonnen N. Assessment of contribution of non-timber forest products in the socio-economic status of peoples in Eastern Ethiopia. Open Access Journal of Bioscience & Research, 2020, 4(1).

5. Admasu Y., Tadesse T., Reta Z. Study on prevalence of small ruminant Cysticercus tenuicollis and its monetary loss at Bishoftu ELFORA export abattoir, Oromia, Ethiopia. Journal of Dairy & Veterinary Science, 2019, 9(2), 555759.

Through advanced geospatial analysis and environmental research, the nominee delivers critical insights into land use dynamics, climate resilience, and sustainable natural resource management. His work supports evidence-based policy, urban planning, and forest conservation strategies that strengthen ecological sustainability and community well-being. He envisions a future where integrated geospatial intelligence guides national and global environmental decision-making for resilient and climate-adaptive societies.

Alireza Toloukian | Building Construction Technology | Editorial Board Member

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Assist. Prof. Dr. Alireza Toloukian | Building Construction Technology | Editorial Board Member

Professor | Iran University of Science and Technology | Iran

Dr. Ali Reza Tolou Kian, Assistant Professor of Rail Structure and Track Engineering at the Iran University of Science and Technology, is a specialist in railway track mechanics whose expertise encompasses ballast behavior, sleeper performance, rail corrugation detection, vibration attenuation, and structural connections. His professional background includes university-level teaching, research leadership, and prior experience assisting in construction project management, supported by advanced skills in experimental modal analysis, geotechnical and structural testing, and numerical modeling using FEM-based platforms. Dr. Tolou Kian has made substantial contributions to railway engineering through studies on sand-contaminated ballast, dynamic sleeper behavior, tire-derived aggregate applications, geogrid-reinforced ballast, and large-scale direct shear performance, resulting in numerous publications in high-impact international journals. He has supervised several graduate theses focused on rail corrugation monitoring, structural health assessment, ballast contamination effects, and vibration control, demonstrating strong academic mentorship. His professional activities include membership in the Tehran Construction Engineering Organization, reviewing for multiple international journals and conferences, and contributing to the design and development of specialized laboratory equipment. His research impact includes 310 citations, 13 publications, and an h-index of 10.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Sadeghi J., Toloukian A., Zarei M.A., Khani N., Improvement of ballast behavior by inclusion of tire-derived aggregates with optimum size. Constr. Build. Mater., 2025, 458, 139530.

Sadeghi J., Kian A.R.T., Ghiasinejad H., Moqaddam M.F., Motevalli S., Effectiveness of geogrid reinforcement in improvement of mechanical behavior of sand-contaminated ballast. Geotext. Geomembr., 2020, 48(6), 768–779.

Tolou Kian A.R., Sadeghi J., Zakeri J.A., Large-scale direct shear tests on sand-contaminated ballast. Geotech. Eng., 2018, 171(5), 451–461.

Sadeghi J., Tolou Kian A.R., Shater Khabbazi A., Improvement of mechanical properties of railway track concrete sleepers using steel fibers. J. Mater. Civ. Eng., 2016, 28(11), 04016131.

Tolou Kian A.R., Sadeghi J., Zakeri J.A., Influences of railway ballast sand contamination on loading pattern of pre-stressed concrete sleeper. Constr. Build. Mater., 2020, 233.

Dr. Ali Reza Tolou Kian’s research advances the safety, resilience, and sustainability of railway infrastructure through innovative improvements in ballast behavior, sleeper performance, and track vibration mitigation. His work bridges scientific rigor with industry needs, delivering practical solutions that enhance railway durability, reduce maintenance costs, and support modern transportation development. He envisions railway systems that are smarter, more efficient, and engineered through data-driven experimentation and advanced material technologies.

Getachew Endale | Architectural Education and Pedagogy | Editorial Board Member

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Mr. Getachew Endale | Architectural Education and Pedagogy | Editorial Board Member

Lecturer | Woldia University | Ethiopia

Getachew Endale Reta is a Lecturer at Woldia University specializing in Applied Linguistics, Amharic language teaching, and communicative grammar, where he contributes to the Department of Ethiopian Languages and Literature through teaching, research supervision, and academic leadership. His professional experience includes serving as a lecturer at multiple universities and earlier work in legal documentation, which strengthened his analytical and language‐based competencies. His research focuses on communicative grammar, language pedagogy, linguistic challenges in Amharic orthography, and reading comprehension, reflected in publications addressing grammar exercise evaluation and the relationship between reading attitudes and comprehension among grade-nine learners, alongside additional authored works on Amharic writing systems and research methodology. He actively supports the scholarly community as a reviewer for the Journal of Global Research in Education and Social Science and participates in various institutional academic tasks that advance teaching quality and curriculum standards. His contributions continue to enhance language education and research in Amharic linguistics, demonstrating his dedication to academic excellence and knowledge development.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Yengusie A., Endale G., Akele T., Investigating the relationship between reading attitude and reading comprehension skill of grade nine Amharic speaking students. Soc. Sci. Humanit. Open, 2025, 11, 101375.

2. Endale G., Temesgen A., An evaluation of grammar exercise in grade nine Amharic language textbook based on communicative grammar principles. Soc. Sci. Humanit. Open, 2024, 10, 101164.

The nominee’s work advances the quality of Amharic language education through evidence-based linguistic research, enhancing instructional effectiveness and student learning outcomes. His contributions strengthen the scientific understanding of communicative grammar and reading comprehension while supporting national language development initiatives. By promoting improved pedagogy and linguistic clarity, his work fosters broader social and educational impact across communities and institutions.

 

Rahim Zahedi | Energy and Building | Editorial Board Member

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Assist. Prof. Dr. Rahim Zahedi | Energy and Building | Editorial Board Member

Faculty Member | University of Tehran | Iran

Assist. Prof. Dr. Rahim Zahedi is an Assistant Professor at the University of Tehran, specializing in energy systems engineering with expertise in renewable energy, life cycle assessment, energy optimization, and sustainable building-energy integration. He has contributed extensively to academia and industry through roles in teaching, research leadership, energy system laboratories, technical committees, and large-scale national sustainability initiatives, alongside overseeing patented technologies and directing an energy-focused company. His research spans hybrid multigeneration systems, carbon capture and utilization, life cycle assessment of renewable technologies, smart energy systems, and integrated water energy food environment nexus modeling, supported by more than one hundred peer-reviewed publications, book contributions, and numerous conference papers. Dr. Zahedi has earned prominent distinctions including the JTACC-V4 Young Scientist Award, the Alborz Prize, the National Renewable Energy Award, and several national rankings for academic and industrial excellence. He serves as Guest Editor and Editorial Board Member for multiple international journals and actively contributes to scientific communities through professional memberships, editorial service, and extensive peer review work. His research impact includes 2,400 citations, 109 publications, and an h-index of 26.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Mobaraki M.M., Zahedi R., Yousefi H., Noorollahi Y., Life cycle assessment of mixed-use buildings with varying HVAC systems in different climates for sustainable-responsive design and low-carbon solutions. Build. Environ., 2025, 113801.

2. Alghorayshi S.T.K., Imandoust M., Montazeri A., Ayoubi S., Zahedi R., Enhancing power, water and biofuel multigeneration system through a developed biomass-driven hybrid process with energy, exergy, economic and environmental (4E) analysis. Renew. Energy, 2025, 124131.

3. Imandoust M., Alghorayshi S.T.K., Zahedi R., Aslani A., Khanqah M.Q., Multi-objective optimization of hybrid solar–wind MSF-RO cogeneration desalination systems using NSGA-II to enhance energy efficiency, cost reduction and sustainability. Sep. Purif. Technol., 2025, 134740.

4. Tarhani M., Yousefi H., Zahedi R., Technical and economic analysis of hydrogen production from pre-combustion carbon capture by Rectisol process in combined cycle power plant. Energy Convers. Manag., 2025, 344, 120290.

5. Naziri A., Tahavvor A.R., Shirazi M.A., Zahedi R., Feasibility study on heat recovery from gas turbine exhaust for absorption chiller operation and efficiency enhancement using neural networks. Therm. Sci. Eng. Prog., 2025, 104210.

Dr. Rahim Zahedi’s work advances sustainable energy transitions by integrating renewable technologies, life cycle assessment, and multi-scale energy–environment modeling to deliver practical, low-carbon solutions for buildings, industries, and national energy systems. His research supports evidence-based policymaking, drives innovation in clean energy technologies, and strengthens global efforts toward resilient, efficient, and environmentally responsible development.

Taehyoun Oh | Digital Architecture | Best Researcher Award

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Prof. Dr. Taehyoun Oh | Digital Architecture | Best Researcher Award

Professor | Kwangwoon University | South Korea

Taehyoun Oh is an Associate Professor at Kwangwoon University specializing in high-speed I/O circuit design and advanced mixed-signal integrated systems. He brings extensive experience from both academia and industry, contributing to high-performance SerDes development, MIMO channel equalization, and signal-integrity innovation through impactful roles in major semiconductor organizations. His research focuses on high-speed chip-to-chip communication, MIMO crosstalk cancellation, low-power equalization architectures, and multichannel I/O design, leading to significant advancements in CMOS-based receiver architectures, adaptive calibration algorithms, and prototype implementations. He has authored influential journal papers, contributed to prominent conferences, and published a specialized book on high-speed I/O circuits, demonstrating consistent leadership in circuit innovation. His work has been recognized through best-paper distinctions, competitive research awards, and collaborative contributions across internationally respected research laboratories and design teams. His technical expertise, scholarly output, and continued commitment to advancing high-speed interface technologies position him as a leading contributor in the field. His research impact includes 115 citations, 26 publications, and an h-index of 5.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Cho K.U., Gil J., Park C., Cho K.J., Shin J.W., Kim E.S., Eo Y.S., Harjani R., et al. A 3.5–4.7 GHz Fractional-N ADPLL with a low-power time-interleaved GRO-TDC of 6.2 ps resolution in 65 nm CMOS process. IEEE Access, 2024, 2.

2. Chung G., Cho K., Oh T. 2 Lanes × 2.65–6.4 Gb/s scalable IO transceiver with delay compensation technique in 65 nm CMOS process. J. Semicond. Technol. Sci., 2024, 24(3), 184–190.

3. Ahn J., Kim S., Kwon K., Park M., Gil J., Choi H., Kim N.Y., Kim E.S., Jung Y., et al. A 5.3–6.2 GHz Fractional-N frequency synthesizer with variable-gain automatic frequency calibration using cycle slips in 65 nm CMOS. Electronics, 2024, 14(22), 4368.

4. Oh T., Harjani R. A 12 Gb/s multichannel I/O using MIMO crosstalk cancellation and signal reutilization in 65 nm CMOS. IEEE J. Solid-State Circuits, 2013, 48(6), 1383–1397.

5. Oh T., Harjani R. A 6 Gb/s MIMO crosstalk cancellation scheme for high-speed I/Os. IEEE J. Solid-State Circuits, 2011, 46(8), 1843–1856.

Taehyoun Oh’s work advances the future of high-speed electronic systems by enabling faster, more reliable, and energy-efficient chip-to-chip communication essential for next-generation computing and data-driven technologies. His innovations in MIMO equalization, crosstalk cancellation, and high-speed I/O architecture contribute directly to enhancing semiconductor performance and strengthening the global electronics industry. His vision is to pioneer intelligent, scalable interface solutions that shape the backbone of future digital infrastructure.

Shanlin Yan | Noise Reduction | Best Researcher Award

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Mr. Shanlin Yan | Noise Reduction | Best Researcher Award

Chongqing University | China

Shanlin Yan is a Ph.D. candidate in Mechanical Engineering at Chongqing University, specializing in acoustic metamaterials, low-frequency broadband sound absorption, noise and vibration control, and intelligent optimization design of acoustic structures. He has developed strong experience in advanced acoustic research through roles involving structural design, computational modeling, and collaborative engineering innovation. His work bridges theoretical acoustics with practical applications, contributing notable advances in multi-branch interference resonance, ultra-thin low-frequency muffling structures, AI-driven metamaterial design, and Helmholtz-based broadband absorbers. He has produced a substantial body of scholarly work, including multiple international journal articles and conference papers, reflecting a sustained record of impactful research and technical leadership. His contributions extend to interdisciplinary project participation and active engagement in major acoustics and vibration forums. He has received honors such as national-level scholarships and awards for academic presentation excellence, demonstrating both academic merit and professional promise. His research impact includes 213 citations, 13 publications, and an h-index of 8.

Profiles: Scopus | ORCID

Featured Publications

1. Shanlin Yan, Tong X.N., Wu F., Low-frequency broadband muffler structure with negative equivalent parameters. Physica Scripta, 2025, in press.
2. Shanlin Yan, Wu F., Hao Y.D., Pu H.Y., Luo J., Ultra-thin integrated structure for low-frequency sound absorption and muffling. Journal of Applied Physics, 2025, in press.
3. Shanlin Yan, Wu F., Zhang X., Zhang D.W., Wu Z.Y., Rectangular extended neck Helmholtz resonant acoustic structure for low frequency broadband sound absorption. Physica Scripta, 2024, in press.
4. Zhang X., Wu F., Yan S.L., Zhang D.W., Qin Y., Luo J., Pu H.Y., Hu M., Gao M.Y., A tunable slit-plate absorber with multiparameter cooperative control. Thin-Walled Structures, 2024, 111502.
5. Shanlin Yan, Wu F., Zhang X., Hu M., Ju Z.G., Zhao J., Broaden the sound absorption band by using micro-perforated plate back cavities with different cross-sectional areas. Physica Scripta, 2023, in press.

Shanlin Yan’s work advances next-generation acoustic metamaterials and low-frequency noise-control technologies, offering innovative solutions to long-standing challenges in engineering acoustics. His research delivers practical, ultra-efficient sound absorption and muffling systems that enhance industrial noise control, environmental acoustics, and public well-being. Through intelligent design methodologies and high-impact publications, he is shaping the future of sustainable, high-performance acoustic engineering.