Hubei Key Laboratory of Digital Finance Innovation - China
AUTHOR PROFILE
ORCID
EARLY ACADEMIC PURSUITS
Ruiheng Li's academic journey reflects a deep commitment to advancing knowledge in geophysics and electromagnetic modeling. With a focus on transient electromagnetic (TEM) methods, Li has contributed significantly to the development of innovative inversion techniques and their applications in understanding subsurface structures.
PROFESSIONAL ENDEAVORS
From his research on enhancing the Whale Optimization Algorithm for improved electromagnetic inversion to developing denoising methods for ground-penetrating radar signals, Ruiheng Li has established himself as a leading figure in geophysical exploration and modeling. His work spans diverse domains, including geoelectric imaging, seismicity analysis, and hydrogeological characterization.
CONTRIBUTIONS AND RESEARCH FOCUS
Li's research primarily revolves around developing and refining computational algorithms and models to extract meaningful information from geophysical data. His contributions to transient electromagnetic inversion, magnetotelluric imaging, and seismic structure analysis have broad implications for understanding geological processes and resource exploration.
IMPACT AND INFLUENCE
Through his publications in reputable journals and conferences, Ruiheng Li has disseminated valuable insights and methodologies to the scientific community. His research has not only advanced the state-of-the-art in geophysical modeling but also facilitated practical applications in mineral exploration, environmental monitoring, and hazard mitigation.
ACADEMIC CITES
The impact of Li's work is evident from the numerous citations his publications have received, reflecting their significance in the field of geophysics and electromagnetic modeling. His contributions have spurred further research and innovation, shaping the discourse on subsurface imaging and characterization.
LEGACY AND FUTURE CONTRIBUTIONS
As Li continues his academic and professional journey, his focus on environmental sustainable development underscores his commitment to addressing pressing societal and environmental challenges. Through ongoing research and collaborative efforts, he is poised to make enduring contributions to the advancement of geophysics and its applications in sustainable resource management and hazard mitigation.
NOTABLE PUBLICATION
Employing RNN and Petri Nets to Secure Edge Computing Threats in Smart Cities 2024
Using Adaptive Chaotic Grey Wolf Optimization for the daily streamflow prediction 2024 (1)
Neighborhood constraint extraction for rapid modeling of point cloud scenes in large-scale power grid substations 2024
U-shaped convolutional transformer GAN with multi-resolution consistency loss for restoring brain functional time-series and dementia diagnosis 2024
Blend of flue gas from a methane-fueled gas turbine power plant and syngas from biomass gasification process to feed a novel trigeneration application: Thermodynamic-economic study and optimization 2023 (4)