Huaibin Li | 3D Printing in Construction | Best Scholar Award

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Prof. Dr. Huaibin Li | 3D Printing in Construction | Best Scholar Award

Lecturer | Anhui University of Science and Technology | China

Dr. Huaibin Li is a Lecturer in the School of Safety Science and Engineering at Anhui University of Science and Technology, with expertise in rock mechanics, underground engineering, and mining safety engineering. He is actively engaged in teaching and research and has participated in multiple nationally funded scientific programs as well as several industry-commissioned projects focused on rock mass behavior, hydraulic fracturing, and high-strength support systems for underground structures. His research centers on rock mass mechanical properties, fracture propagation mechanisms, tunnel stability, and advanced underground support technologies, and he has authored 25 peer-reviewed publications addressing these areas. His scholarly contributions have been recognized through prestigious national and provincial science and technology awards from leading professional societies in rock mechanics and mining engineering, demonstrating his professional impact and academic standing. His research impact includes 173 citations across 168 documents and an h-index of 8.

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Featured Publications

Tarek Al-Rimawi | Smart Cities and Architecture | Research Excellence Award

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Mr. Tarek Al-Rimawi | Smart Cities and Architecture | Research Excellence Award

Technical University Dortmund | Germany

Tarek Al-Rimawi is a Scientific Research Assistant and PhD Candidate at TU Dortmund University, specializing in smart cities, smart real estate, and digital urban transformation. With extensive experience as an architect, urban planner, and project leader across academia, municipal agencies, and international consultancy firms, he has contributed to major urban development, strategic planning, and design projects in Europe, the Middle East, and Africa. His research advances integrated frameworks for evaluating smart city and smart real estate systems, supported by publications in reputable journals and international conferences. He has produced interdisciplinary tools including lifecycle-oriented technology benefit matrices and comprehensive smartness evaluation models that inform evidence-based urban and real estate planning. His academic and professional profile is strengthened through reviewer roles, collaborations with municipalities and research networks, and active participation in professional bodies such as GIF, USGBC, PMI, and national engineering associations. He holds multiple industry-recognized certifications, including PMP, LEED Green Associate, LEED ND AP, and Smart City Manager, which reinforce his expertise in technology-driven planning and sustainable development. His contributions have been acknowledged through academic excellence awards and international innovation recognitions, reflecting a commitment to impactful research and professional excellence. His research impact includes 24 citations, 2 publications, and an h-index of 2.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Al-Rimawi T., Nadler M., Leveraging smart city technologies for enhanced real estate development: An integrative review. Smart Cities, 2025.

2. Al-Rimawi T.H., Nadler M., Evaluating cities and real estate smartness and integration: Introducing a comprehensive evaluation framework. Sustainability, 2023.

3. Al-Rimawi T., Nadler M., A comprehensive evaluation framework for smarter cities and real estate. REAL CORP, 2025.

4. Al-Rimawi T., Nadler M., Optimizing real estate development with smart city technologies: Added values across life cycle phases. ERES, 2025, Accepted.

Tarek Al-Rimawi’s work advances the scientific understanding of smart cities and smart real estate by transforming abstract concepts into measurable, evidence-based frameworks that guide urban innovation. His research supports more sustainable, efficient, and human-centered cities, bridging technology, planning, and societal needs.

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.

Hakan Yalçıner | Building Construction Technology | Best Researcher Award

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Prof. Hakan Yalçıner | Building Construction Technology | Best Researcher Award

Professor | Erzincan Binali Yıldırım University | Turkey

Professor Hakan Yalciner is Chair of the Department of Civil Engineering at Erzincan University, where he specializes in structural and earthquake engineering. He holds a PhD in Civil Engineering with a specialization in structural and materials engineering from Eastern Mediterranean University, complemented by visiting doctoral research at McMaster University, as well as MSc and BSc degrees in Civil Engineering with a focus on construction management. With extensive academic and leadership experience, he has served in various capacities including head of department, faculty board member, research assistant, and faculty coordinator, contributing significantly to curriculum development and laboratory advancement. His research focuses on the seismic performance and durability of reinforced concrete structures, corrosion effects, bond-slip behavior, and strengthening techniques, resulting in a substantial body of peer-reviewed publications in leading journals such as ACI Structural Journal, Structural Concrete, and Cement and Concrete Research. He has led and participated in numerous national and international research projects funded by prominent institutions, and has presented widely at major conferences. Professor Yalciner has received recognition for his contributions through editorial appointments in multiple journals, including roles as editor, associate editor, and advisory board member, and he serves as a voting member of several American Concrete Institute committees. His professional memberships, editorial leadership, and impactful research establish him as a leading expert in structural engineering and corrosion-related performance of reinforced concrete systems. His scholarly impact is reflected in 773 citations, 24 publications, and an h-index of 14.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Yalciner H., Marar K., Experimental study on the bond strength of different geometries of corroded and uncorroded reinforcement bars. J. Mater. Civ. Eng., 2017, 29(7), 05017002.

2. Yitmen I., Sevay H., Taneri C., Yalciner H., An expert system for quantifying the impact of change orders on project performance. Proceedings of the ICCCBE-ICCC-ASCE-DMUCE-CIB-W78-W102 Joint International Conference on Computing and Decision Making in Civil and Building Engineering, 2006, 1605–1613.

3. Yalciner H., Kumbasaroglu A., Ergun U., Effects of geo-grid and conventional stirrups on reinforced concrete beams with polypropylene fibers. Structures, 2018, 13, 230–242.

4. Turan A.I., Ayaz Y., Yalciner H., Kumbasaroglu A., An experimental evaluation on structural performance level of corroded reinforced concrete frames. Eng. Struct., 2025, 325, 119479.

5. Hedayat A.A., Yalciner H., Assessment of an existing RC building before and after strengthening using nonlinear static procedure and incremental dynamic analysis. Shock Vib., 2010, 17(4–5), 619–629.