Rosamaria Terracciano | Health Sciences | Research Excellence Distinction Award

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Dr. Rosamaria Terracciano | Health Sciences | Research Excellence Distinction Award

Dr. Rosamaria Terracciano | Health Sciences | Università degli Studi di Napoli Federico II | Italy

Dr. Rosa Terracciano is an accomplished biomedical researcher specializing in clinical biochemistry, mass spectrometry-based proteomics/metabolomics, and translational research with significant contributions to male reproductive health and biomarker discovery; she holds advanced academic qualifications in biomedical sciences and has undertaken rigorous training in analytical instrumentation and molecular diagnostics, including high-performance liquid chromatography and tandem mass spectrometry, which form the basis of her expertise in untargeted omics approaches for disease characterization. Dr. Terracciano’s academic foundation was established through comprehensive undergraduate and postgraduate education in the life sciences followed by doctoral and postdoctoral research focused on integrative omics applications in clinical settings, enabling her to bridge cutting-edge laboratory techniques with practical biomedical questions. Over her professional career, she has held research and academic positions at internationally recognized institutions, including the Department of Experimental and Clinical Medicine at Magna Græcia University in Catanzaro, Italy, where she has collaborated extensively with multidisciplinary teams to advance translational research in infertility diagnostics and other metabolic disorders. Dr. Terracciano’s professional experience encompasses leading collaborative projects, supervising junior researchers, and contributing to both experimental design and high-throughput data analysis workflows. Her research interests focus on leveraging untargeted mass spectrometry, metabolomics, lipidomics, and proteomics to identify novel molecular signatures that can improve diagnostic accuracy and deepen understanding of complex pathophysiological mechanisms, particularly in the context of male infertility and seminal plasma biomarker discovery. She has developed strong research skills in omics data acquisition, advanced chromatographic separation, bioinformatics interpretation of large-scale datasets, and clinical sample analysis, all of which support her translational research ethos. Dr. Terracciano’s work has been recognized through multiple peer-reviewed publications and scholarly attention, with several studies cited by other researchers in the field, reflecting her impact on advancing both methodological approaches and clinical insights. Her contributions include original research and comprehensive reviews that integrate methodological innovation with practical clinical relevance. In conclusion, Dr. Rosa Terracciano continues to be a prominent figure in biomedical research, dedicated to the discovery and validation of biomarkers through state-of-the-art mass spectrometry-based platforms, with an emphasis on translating laboratory findings into clinical and diagnostic advancements that benefit patient care and reproductive health research.

Academic Profile: Scopus

Featured Publications:

Tosco, A., Cerchione, R., Gelzo, M., Cimbalo, C., Castaldo, A., Terracciano, R., Raia, V., & Sepe, A. (2025). Hemoglobin levels in children treated for cystic fibrosis with CFTR modulators: A single center retrospective study. Journal of Clinical Medicine, 14(14), 4856. https://doi.org/10.3390/jcm14144856

 

 

 

Gennaro Trancone | Engineering | Research Excellence Award

Published on by Environmental Scientists

Prof. Dr. Gennaro Trancone | Engineering | Research Excellence Award

Prof. Dr. Gennaro Trancone | Engineering | Research Fellow Università degli Studi di Napoli Federico II | Italy

Prof. Dr. Gennaro Trancone is an accomplished civil and environmental engineer with a Ph.D. in Civil Systems Engineering (Dottorato di Ricerca in Ingegneria dei Sistemi Civili) from Università degli Studi di Napoli Federico II, where he also holds research fellow appointments and is actively engaged in academic and professional activities integrating civil, environmental, and sustainable engineering practice; Prof. Dr. Gennaro Trancone completed his doctoral studies at Università degli Studi di Napoli Federico II in 2024 where he specialized in advanced analytical and experimental methods for environmental monitoring, waste treatment processes and sustainable engineered systems, and he is registered with the Order of Engineers in Naples (sector Civil and Environmental) and participates in Italian engineering society committees with roles in environmental and academic commissions, evidencing his commitment to professional governance, interdisciplinary collaboration, and academic leadership in engineering practice and education. Prof. Dr. Gennaro Trancone’s professional experience encompasses research fellow duties in Ingegneria Civile, Ambientale e Edile since 2024, during which he has led and contributed to multiple research projects spanning sediment contamination, waste valorization, anaerobic processes, and infrastructure materials assessment, developing robust quantitative skills in environmental chemistry, bioprocess engineering, materials characterization, and statistical modelling for environmental systems; his work demonstrates expertise in laboratory and field research, experimental design, ecological risk assessment, and process optimization, bridging fundamental science with applied engineering solutions for environmental sustainability challenges. Prof. Dr. Gennaro Trancone’s research interests include environmental contaminant mobility and remediation, sustainable waste treatment and valorization, biofilm reactor systems for renewable energy production, micro- and nano-plastic impacts in infrastructure materials, and the development of innovative treatments for emerging contaminants, reflecting a multidisciplinary approach anchored in engineering, environmental science and sustainability. His research skills encompass sediment and contaminant analysis, reactor design and optimization, chemical treatment parameter optimization, ecological monitoring techniques, and integration of statistical tools for complex environmental datasets. Prof. Dr. Gennaro Trancone has contributed to peer-reviewed journals and edited volumes, earning citations for studies such as assessments of toxic element mobility in sediments and multidisciplinary environmental monitoring, and has been recognized by peers through review invitations and research collaborations; his awards and honors include acknowledgement within professional societies and committee memberships that attest to his academic and professional service, underscoring his influence in the field. In conclusion, Prof. Dr. Gennaro Trancone stands as a dynamic and impactful scholar whose work advances sustainable engineering solutions and fosters interdisciplinary research collaboration, contributing meaningfully to both academic knowledge and practical engineering outcomes.

Academic Profile: ORCID | Scopus

Featured Publications:

  1. Ferraro, A., Siciliano, A., Spampinato, M., Morello, R., Trancone, G., Race, M., Guida, M., Fabbricino, M., Spasiano, D., & Fratino, U. (2024). A multidisciplinary approach based on chemical characterization of foreshore sediments, ecotoxicity assessment and statistical analyses for environmental monitoring of marine-coastal areas. Marine Environmental Research. (Cited ~21) ScienceDirect

  2. Ferraro, A., Marino, E., Trancone, G., Race, M., Mali, M., Pontoni, L., Fabbricino, M., Spasiano, D., & Fratino, U. (2023). Assessment of environmental parameters effect on potentially toxic elements mobility in foreshore sediments to support marine-coastal contamination prediction. Marine Pollution Bulletin. (Cited ~25) ScienceDirect

  3. Muscetta, M., Bianco, F., Trancone, G., Race, M., Siciliano, A., D’Agostino, F., Sprovieri, M., & Clarizia, L. (2023). Washing bottom sediment for the removal of arsenic from contaminated Italian coast. Processes. MDPI

  4. Veropalumbo, R., Oreto, C., Viscione, N., Pirozzi, F., Pontoni, L., Trancone, G., Race, M., & Russo, F. (2023). Exploring the effect on the environment of encapsulated micro- and nano-plastics into asphalt mastics for road pavement. Environmental Research.

  5. Ferraro, A., de Sario, S., Attanasio, A., Di Capua, F., Gorgoglione, A., Fratino, U., Mascolo, M. C., Pirozzi, F., Trancone, G., & Spasiano, D. (2023). Phosphorus recovery as struvite and hydroxyapatite from the liquid fraction of municipal sewage sludge with limited magnesium addition. Journal of Environmental Quality.

 

Surya Deb Chakraborty | Remote sensing | Research Excellence Award

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Dr. Surya Deb Chakraborty | Remote sensing | Research Excellence Award

Dr. Surya Deb Chakraborty | Remote sensing | Senior Analyst at MBRSC lab University | Dubai

Dr. Surya Deb Chakraborty is a remote sensing and geospatial science professional whose work spans urban climate assessment, disaster management, and environmental monitoring, with a strong focus on land surface temperature dynamics and anthropogenic heat influences in rapidly urbanizing regions. He earned his academic training in the fields of Earth observation, geoinformatics, and remote sensing technologies, developing advanced expertise in thermal remote sensing, microwave remote sensing, and urban environmental modelling through both formal education and applied research experiences. Professionally, Dr. Chakraborty has contributed to the scientific community through roles in academic, research, and laboratory environments, including his current engagement with the MBRSC Lab at the University of Dubai, where he applies interdisciplinary geospatial techniques to environmental challenges in arid and semi-arid regions. His research experience includes extensive collaboration with scientists from the Indian Institute of Remote Sensing (ISRO) and other national and international institutions, contributing to studies on land use and land cover change, urban heat island effects, groundwater–heat interactions, sustainable development applications, and geospatial data integration for policy support. Dr. Chakraborty possesses advanced research skills in processing satellite imagery, thermal modelling, GIS-based environmental analysis, urban roughness parameterization, and the integration of in situ and remote-sensing data for environmental assessment. His methodological strengths include the use of multisensor datasets, geospatial modelling frameworks, environmental parameter retrieval, and algorithmic analysis of spatiotemporal patterns related to heat fluxes, land surface temperature, and urban microclimates. Over the course of his career, he has authored and co-authored peer-reviewed research publications that are widely cited within the fields of environmental management and geospatial science, contributing to a growing academic footprint that includes over 200 citations. Awards and honors associated with his work highlight his scientific rigor, collaborative research contributions, and commitment to advancing geospatial applications for sustainable development, although his most significant recognition comes from the widespread academic use of his research findings across multiple environmental and urban studies. In conclusion, Dr. Surya Deb Chakraborty stands as a dedicated researcher whose contributions to thermal remote sensing, geospatial modelling, and urban environmental assessment continue to support scientific understanding and practical solutions for sustainability, urban planning, and environmental resilience.

Academic Profile: Google Scholar

Featured Publications:

  1. Chakraborty, S. D., Kant, Y., & Mitra, D. (2015). Assessment of land surface temperature and heat fluxes over Delhi using remote sensing data. Journal of Environmental Management. Citations: 163

  2. Chakraborty, S. D., Kant, Y., & Bharath, B. D. (2014). Study of land surface temperature in Delhi city to managing the thermal effect on urban developments. International Journal of Advanced Scientific and Technical Research. Citations: 26

  3. Bhatt, M. M., Gupta, K., Danodia, A., Chakroborty, S. D., & Patel, N. R. (2023). Detailed urban roughness parametrization for anthropogenic heat flux estimation using earth observation data. Heliyon. Citations: 6

  4. Das, S., Ganguly, K., Mitran, T., & Chakraborty, S. D. (2023). Applications of geospatial and information technologies toward achieving sustainable development goals. Application of Remote Sensing and GIS in Natural Resources and Built Environments. Citations: 6

  5. Bhatt, M. M., Gupta, K., Danodia, A., Chakroborty, S. D., & Patel, N. R. (2023). Corrigendum to “Detailed urban roughness parametrization for anthropogenic heat flux estimation using earth observation data”. Heliyon. Citations: 1

 

 

Byung-Hyun Shin | Material science | Best Paper Award

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Dr. Byung-Hyun Shin | Material science | Best Paper Award

Dr. Byung-Hyun Shin | Material science | Senior Research Engineer at Pohang Institute of Materials Industry Advancement | South Korea

Dr. Byung-Hyun Shin is a distinguished materials scientist whose work focuses on corrosion science, microstructural evolution, and electrochemical behavior of stainless steels and high-performance alloys, particularly super duplex stainless steels used in advanced industrial and energy applications. Throughout his academic development, Dr. Shin pursued rigorous training in materials science and metallurgical engineering, building a strong foundation in physical metallurgy, heat treatment, corrosion engineering, and alloy design. His professional career spans research roles in academia, industry-collaborative institutes, and specialized materials laboratories where he has contributed to the development of high-corrosion-resistant materials for marine, chemical, and battery-related environments. Dr. Shin’s research interests center on the relationships between microstructure, heat-treatment conditions, electrochemical behavior, and pitting corrosion mechanisms in duplex and super duplex stainless steels, with additional investigations into high-entropy alloys and electroless nickel-plated systems for lithium-ion battery applications. His research skills include advanced electrochemical testing, microstructural characterization, solution annealing optimization, high-temperature treatment evaluation, passivation analysis, and corrosion performance assessment in chloride environments. He is also proficient in welding metallurgy, secondary-phase analysis, and plating behavior studies, enabling him to address both fundamental and application-driven materials challenges. Over his career, Dr. Shin has accumulated numerous achievements, including an h-index of 10 and over 276 citations, reflecting the influence and visibility of his scientific contributions across materials research communities. His award-worthy accomplishments include pioneering studies on pitting corrosion mitigation, innovative nickel-plating approaches for battery applications, and valuable insights into microstructural control of high-performance alloys. Through collaborations with leading scientists and institutions, Dr. Shin has continuously advanced the understanding of corrosion-resistant materials and their practical implementation in demanding industrial settings. In conclusion, Dr. Byung-Hyun Shin stands as a highly accomplished researcher whose integrated expertise in corrosion science, heat treatment, and microstructural engineering has contributed substantially to the development of durable and high-performance stainless-steel systems, and his ongoing work continues to support technological advancements in energy storage, marine engineering, and advanced manufacturing.

Academic Profile: ORCID | Google Scholar

Featured Publications:

  1. The effect of surface roughness on re-passivation and pitting corrosion of super duplex stainless steel UNS S 32760. (2023). Citation count: 37.

  2. Effect of cooling rate after heat treatment on pitting corrosion of super duplex stainless steel UNS S 32750. (2018). Citation count: 34.

  3. Microstructure and corrosion performance of high-entropy alloy and austenite and super duplex stainless steels in 3.5% NaCl solution. (2023). Citation count: 25.

  4. Precipitation condition and effect of volume fraction on corrosion properties of secondary phase on casted super-duplex stainless steel UNS S32750. (2019). Citation count: 21.

  5. Effect of post-weld heat treatment on the corrosion behavior of resistance spot welded super duplex stainless UNS S 32750. (2019). Citation count: 20.

 

Reza Fatahi-Alkouhi | Geology Engineering | Best Researcher Award

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Dr. Reza Fatahi-Alkouhi | Geology Engineering | Best Researcher Award

Dr. Reza Fatahi-Alkouhi | Geology Engineering | Research Assistant at University of Isfahan | Iran

Dr. Reza Fatahi-Alkouhi is a dedicated researcher and scholar in civil and hydraulic engineering whose work centers on hydraulic structures, water resources, and experimental fluid mechanics, with a strong focus on hydraulic ram pumps, plunge-pool hydrodynamics, and machine-learning-based modeling of hydraulic phenomena. Dr. Reza Fatahi-Alkouhi completed his academic training in civil engineering with specialized graduate-level studies in hydraulic engineering, where he developed expertise in experimental hydraulics, pressure flow behavior, energy dissipation systems, and data-driven modeling for complex hydrodynamic processes. His professional experience includes extensive laboratory-based research on hydraulic ram pumps, weirs, and plunge pools, as well as collaborative work with leading academics from the University of Isfahan, Yazd University, the University of Adelaide, and international research groups focusing on fluid mechanics and water engineering. Throughout his career, Dr. Reza Fatahi-Alkouhi has contributed to peer-reviewed journals, conferences, and international congresses, building a strong scholarly presence with over 130 citations, an h-index of 7, and multiple co-authored studies involving machine learning, hybrid statistical methods, and experimental modeling. His research interests include hydraulic structures, pressure wave mechanics, energy dissipation systems, high-velocity jet impact, hydrodynamic pressure modeling, and the integration of artificial intelligence with traditional hydraulic engineering for prediction, optimization, and uncertainty quantification. Dr. Reza Fathi-Alkouhi’s research skills span laboratory instrumentation, pressure measurement, experimental design, machine learning applications in civil engineering, regression-based modeling, hybrid AI algorithms, and physical model testing for flow measurement and energy dissipation. His work has earned recognition through publication in respected journals such as the Journal of Hydraulic Engineering, Stochastic Environmental Research and Risk Assessment, and the Iranian Journal of Science and Technology, Transactions of Civil Engineering, along with honors such as invited conference contributions and collaborative research projects with internationally recognized experts. Overall, Dr. Reza Fatahi-Alkouhi stands out as an active and influential hydraulic engineering researcher whose scientific contributions advance the understanding of water behavior in engineered systems, promote innovation in hydrodynamic modeling, and support practical applications in water resource management and sustainable hydraulic design.

Academic Profile: ORCID | Scopus | Google Scholar

Featured Publications:

  1. Baharvand, S., Jozaghi, A., Fatahi-Alkouhi, R., Karimzadeh, S., Nasiri, R., … (2021). Comparative study on the machine learning and regression-based approaches to predict the hydraulic jump sequent depth ratio. Citations: 43.

  2. Fatahi-Alkouhi, R., Lashkar-Ara, B., & Keramat, A. (2019). On the measurement of ram-pump power by changing in water hammer pressure wave energy. Citations: 25.

  3. Fatahi-Alkouhi, R., Lashkar-Ara, B., & Keramat, A. (2015). Determine the efficiency of hydraulic ram-pumps. Citations: 17.

  4. Fatahi-Alkouhi, R., Afaridegan, E., & Amanian, N. (2024). Discharge coefficient estimation of modified semi-cylindrical weirs using machine learning approaches. Citations: 11.

  5. Fatahi-Alkouhi, R., & Lashkar-Ara, B. (2019). Experimental evaluation of effective parameters on characteristic curves of hydraulic ram pumps. Citations: 9.

 

Romulus Mawa | Engineering | Best Researcher Award

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Dr. Romulus Mawa | Engineering | Best Researcher Award

Dr. Romulus Mawa | Engineering | China University of Geosciences | China

Dr. Romulus Mawa Tuzingila is an emerging researcher and Ph.D. candidate specializing in geological and petroleum engineering with a focus on rock mechanics, geomechanics, shale reservoir characterization, and subsurface energy resources, currently affiliated with the China University of Geosciences in Wuhan, China, where he contributes to experimental, analytical, and computational research within the Department of Petroleum Engineering and related key laboratories; he received his foundational education in earth sciences and petroleum exploration (with preliminary degrees completed prior to his doctoral studies, details are drawn from his extensive research output and academic profiles), and over the course of his academic career he has gained significant research experience working on multidisciplinary projects involving experimental rock physics, petrophysical characterization of organic-rich shale, hydraulic fracturing mechanisms, and CO₂–rock interactions as relevant to unconventional reservoir development and carbon storage strategies, conducting laboratory experiments such as uniaxial and triaxial compression, brittleness modeling, and mineralogical analysis using tools like X-ray diffraction and nuclear magnetic resonance, which have shaped his strong methodological and analytical expertise in geomechanical testing and numerical modeling; Dr. Tuzingila’s professional experience extends to international collaborations with co-authors from China and the Democratic Republic of the Congo and includes contributions to both high-impact scholarly journals and engineering society proceedings, demonstrating his ability to bridge fundamental science with applied energy engineering challenges, and his research interests center on the mechanical behavior of organic-rich marine shales, the effects of mineralogy and anisotropy on fracture propagation, and the implications of CO₂ geological storage and enhanced hydrocarbon recovery, supported by a robust set of research skills that range from experimental design and rock physics modeling to data interpretation and scientific writing; his scholarly contributions have attracted citations in related fields, reflecting peer recognition, and his awards and honors include acknowledgment of his peer-reviewed publications and participation in international research networks, underscoring his commitment to advancing knowledge in geomechanics and energy resources; overall, Dr. Tuzingila’s work continues to impact the understanding of subsurface mechanics and reservoir engineering, positioning him as a notable researcher in earth and energy sciences.

Academic Profile: Scopus

Featured Publications:

Tuzingila, R. M., et al. (2026). Machine learning to estimate the brittleness index of organic shale: Case study of Marcellus Shale formation. Journal of Energy Engineering.

 

Imtiaz Ahmad | Ecosystem | Best Researcher Award

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Dr. Imtiaz Ahmad | Ecosystem | Best Researcher Award

Dr. Imtiaz Ahmad | Ecosystem | Northeast Normal University | China

Dr Imtiaz Ahmad is a dedicated researcher in the field of geography whose work reflects a strong commitment to understanding urban environmental processes, spatial dynamics, and the impacts of human activities on ecological patterns, particularly in rapidly changing regions. With an academic foundation built through rigorous university training and research engagement at the graduate and postgraduate levels, Dr Imtiaz Ahmad has cultivated a solid expertise in geographic information systems, remote sensing, urban climatology, and environmental assessment. His education has equipped him with advanced analytical and methodological skills that enable him to investigate complex spatial phenomena using innovative, data-driven approaches. Professionally, Dr Imtiaz Ahmad has engaged in research roles that emphasize spatial analysis, environmental monitoring, and collaborative scientific inquiry, developing proficiency in satellite-image interpretation, GIS-based modeling, and landscape-level ecological assessment. His scholarly interests include urban heat island effects, thermal field variance, land-use change, climate-related risk mapping, and the application of spatial technologies to support sustainable development and evidence-based environmental planning. In addition, Dr Imtiaz Ahmad demonstrates strong research skills in data collection, quantitative and qualitative spatial analysis, geostatistical techniques, environmental modeling, and scientific writing. His collaborative publication “Assessing Urban Thermal Field Variance and Surface Urban Heat Island Effects: An Ecological Study in Malakand Division, Pakistan” highlights his ability to integrate environmental science with advanced geospatial tools, contributing to ongoing discussions on climate resilience and urban sustainability. Although early in his publication record, the quality of his research is reflected in his citation impact and growing academic visibility. Throughout his academic journey, Dr Imtiaz Ahmad has been recognized for his dedication to rigorous research, methodological precision, and contributions to environmental geography, earning positive acknowledgment and scholarly distinction as his work gains attention. His honors stem primarily from academic excellence, strong research performance, and commitment to advancing scientific understanding within his field. In conclusion, Dr Imtiaz Ahmad stands as a promising and analytically driven researcher whose work contributes meaningful insight into environmental change and spatial processes. With strong technical abilities, emerging scholarly influence, and sustained interest in geospatial research, he is well positioned to continue producing impactful studies that support ecological sustainability, environmental policy, and the advancement of geographic science.

Academic Profile: ORCID | Google Scholar

Featured Publications:

  1. Ahmad, I., Ping, W., Razzaq, A., Muhammad, B. J. H., & Ali, W. (2024). Assessing urban thermal field variance and surface urban heat island effects: An ecological study in Malakand Division, Pakistan. Citations: 2.

 

 

Tuniyazi Abudoureheman | Intelligent Systems | Research Excellence Award

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Dr. Tuniyazi Abudoureheman | Intelligent Systems | Research Excellence Award

Dr. Tuniyazi Abudoureheman | Intelligent Systems | Hiroshima University | Japan

Dr. Tuniyazi Abudoureheman is a dedicated researcher and Ph.D. student at Hiroshima University whose work focuses on advanced sensing, machine vision, and robotic system diagnostics, contributing meaningfully to the fields of high-frame-rate (HFR) imaging, vibration analysis, and automated detection systems. Dr. Tuniyazi Abudoureheman began his academic journey with foundational studies that eventually led him to pursue graduate-level research, culminating in his current doctoral studies where he continues to expand his expertise in robotics and intelligent sensing technology. Throughout his professional experience, Dr. Tuniyazi Abudoureheman has actively engaged in collaborative research projects, working alongside multidisciplinary teams to design, implement, and validate methods involving HFR video, wing-beat frequency detection, and robot health monitoring across multiple postures. His early work also includes contributions to multi-target tracking using Kalman Filtering in complex environments, demonstrating both versatility and technical depth even before entering advanced doctoral research. The core research interests of Dr. Tuniyazi Abudoureheman include high-speed imaging, robotic vibration analysis, automated industrial inspection, bio-inspired detection systems, and machine vision algorithms, all of which align with the evolving demands of next-generation intelligent robotics. His research skills span HFR camera-based data acquisition, signal processing, vibration modeling, robotic motion evaluation, and applied machine learning, supported by strong analytical ability and experience with experimental system design. Dr. Tuniyazi Abudoureheman has also developed valuable competencies in publishing scientific results, presenting at conferences, and contributing to collaborative engineering investigations, which collectively strengthen his academic and professional profile. Although early in his academic career, Dr. Tuniyazi Abudoureheman has already earned recognition through peer-reviewed publications, citations, and participation in reputable conferences such as IEEE SENSORS, positioning him as an emerging scholar in robotics and sensing technology. His work has received growing scholarly attention, reflected in increasing citation counts and inclusion in respected journals covering robotics and mechatronics. In conclusion, Dr. Tuniyazi Abdurrahman continues to advance as a promising researcher whose technical contributions, methodological rigor, and commitment to innovation place him on a strong path toward future academic excellence and impactful scientific discovery.

Academic Profile: ORCID | Google Scholar

Featured Publications:

  1. Li, J., Shimasaki, K., Tuniyazi, A., Ishii, I., & Ogihara, M. (2023). HFR video-based hornet detection approach using wing-beat frequency analysis. 3 citations.

  2. Abudoureheman, T., Wang, F., Shimasaki, K., & Ishii, I. (2025). HFR-video-based vibration analysis of a multi-jointed robot manipulator. 1 citation.

  3. Abudoureheman, T., Otsubo, H., Wang, F., Shimasaki, K., & Ishii, I. (2025). High-frame-rate camera-based vibration analysis for health monitoring of industrial robots across multiple postures.

 

Bilal jan Haji Muhammad | Environmental Science |

Published on by Environmental Scientists

Dr. Bilal jan Haji Muhammad | Environmental Science | Best Researcher Award

Dr. Bilal jan Haji Muhammad | Environmental Science | Ministry of Rural Rehabilitation and Development | Afghanistan

Dr. Bilal Jan Haji Muhammad is an emerging scholar in the fields of Remote Sensing, GIS, Applied Geology, and Petrography, recognized for his growing contributions to land use modeling, environmental assessment, and geological interpretation across diverse landscapes in Afghanistan, Pakistan, and neighboring regions. Dr. Bilal Jan Haji Muhammad earned his academic foundation in geology and advanced his expertise in geospatial sciences through postgraduate research and international academic exposure, including scholarly affiliation with Northeast Normal University, China, where he refined his skills in spatial analysis, satellite image interpretation, and applied earth sciences. His professional experience includes collaborative research with multidisciplinary teams focusing on land surface temperature analysis, morpho-tectonic investigations, land degradation assessment, chromite body characterization, and forest canopy density evaluation, contributing to peer-reviewed journals across geography, environmental science, and geology. Dr. Bilal Jan Haji Muhammad’s research interests span remote sensing applications in ecological monitoring, geospatial modeling of land cover dynamics, environmental hazards, geological mapping, and the integration of geochemical and satellite data for mineral exploration. His research skills include proficiency in GIS-based spatial analysis, LULC prediction modeling, spectral index interpretation, geochemical data integration, petrographic analysis, and advanced image processing using tools such as ArcGIS, ERDAS Imagine, ENVI, and related analytical software. Throughout his academic journey, Dr. Bilal Jan Haji Muhammad has collaborated with international researchers, contributed to applied environmental studies, and produced scientific outputs that collectively reflect his strong analytical capabilities and commitment to addressing regional environmental and geological challenges. Although early in his scholarly career, he has begun receiving citations and recognition for his contributions, demonstrating the increasing academic impact of his work. His collaborative spirit and methodological rigor have enabled him to publish studies addressing key environmental issues such as land degradation, surface urban heat islands, thermal field variance, and tectonic structure identification. Awards and honors associated with his academic development include recognition for his research contributions during his postgraduate studies and acknowledgment by institutional collaborators for his technical competence in remote sensing and geospatial applications. In conclusion, Dr. Bilal Jan Haji Muhammad represents a promising researcher whose interdisciplinary expertise, international collaboration, and growing publication record reflect his dedication to advancing geospatial science and applied geology for environmental understanding and sustainable resource management.

Quoted by
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h-index
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Google Scholar Metrics

Professional Profile:  Google Scholar

✔ Featured Publications:

  1. Muhammad, B. J. H. (2025). Modeling and prediction of land use land cover change dynamics based on the land change modeler in Kunar Province, Eastern Afghanistan. Citations: 2.

  2. Ahmad, I., Ping, W., Razzaq, A., & Muhammad, B. J. H. (2024). Assessing urban thermal field variance and surface urban heat island effects: An ecological study in Malakand Division, Pakistan. Citations: 2.

  3. Muhammad, B. J. H. (2025). Integration of remote sensing and geochemical analysis of chromite bodies in Logar Ophiolitic Complex, Southeast Afghanistan. Citations: 1.

  4. Muhammad, B. J. H. (2024). Morpho-tectonic and satellite image interpretation for identifying Garde fault in Afghanistan. Citations: 1.