Online Profiles

Oregon State University - 2016

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Subject Areas of Research

Subject Areas

  • o Advanced manufacturing - model-enhanced sensor design and characterization for in-situ monitoring
  • o Advanced materials and advanced manufacturing - high temperature alloys, ceramic-reinforced metal matrix composites, aerospace and energy materials
  • o Healthcare Systems Engineering
  • o High performance energy materials - energy storage, conversion and harvesting; catalysts for electrochemical and chemical reactions; and developmen
  • o Human Systems Engineering - workforce engineering, staffing, scheduling, learning and forgetting, workforce cross-training, human performance in com
  • o Inactivation, growth and persistence of bacterial pathogens in the environment and treatment processes.
  • o Material Science - thermally driven and/or irradiation induced kinetic processes in materials
  • o Simulation, visualization, and automation within the context of construction operations
  • o Virtual design and construction technologies
  • • Advanced Manufacturing: Mechanical design; Engineering mechanics; Fluid dynamics; Heat and mass transfer; Thermodynamics; Mat Sci involving experi
  • • Algorithms/Mixed-Signal - RF - Microwaves: Algorithms, Computational geometry and topology, Cryptography, Complexity, Theoretical foundations of c
  • • Artificial Intelligence, Machine Learning, and Data Science: Decision-making and reinforcement learning; Machine learning and data mining; Pattern
  • • Biomaterials, Diagnostics, & Therapeutics: Biocompatible interfaces and hydrogels, Cryopreservation
  • • Bioprocess Engineering: Bioconversion of biomass materials and algae bioprocessing
  • • Bioremediation & Subsurface Processes: CO2 sequestration, Contaminant flow and transport in porous media, Degradation of toxic substances in soil
  • • Coastal and Ocean: Nearshore hydrodynamics, Remote sensing of coastal areas, Turbulent sediment suspension and transport, Tsunami propagation and
  • • Complex Fluids & Soft Solids: Polymers, Rheology (bulk and interfacial), Fluid Mechanics (Newtonian and non-Newtonian), Biofluids, Biofilms, Compo
  • • Computer Graphics, Visualization, and Vision: Computer animation, Computer graphics, Computer vision, Geometric processing, GPU computing/Parallel
  • • Construction: Alternative contracting techniques, Risk management, Construction safety, Sustainability, construction materials, Lean construction
  • • Design Engineering: Design automation; Design theory and methodology; Complex systems design; Numerical analysis and optimization
  • • Energy Systems: Control and modeling; Electric vehicles; Machines and drives; Power electronics; Power systems; Renewable power; Renewables & thei
  • • Engineering Education (CCE): Eye-tracking to understand critical aspects of engineering problems, Comparison of experts and novices, Social capita
  • • Engineering Education Research (CBEE): Industrial virtual Laboratories, Conceptual Learning in engineering Courses, Engineering thinking and learn
  • • Geomatics: Geospatial hazard analysis, GPS/GNSS technology, Cadastral surveys, Geospatial data management, Geomatics computation and programming,
  • • Geotechnical
  • • Health Physics Research: Radiation detection and dosimetry research group; Radioecology research group; Radioecological benchmarks ; Skin dosimet
  • • Infracture Materials: Fundamental understanding of materials and property relationships, Microstructural development and its impact on long-term p
  • • Materials and Devices: Advanced materials for CMOS, fiber Bragg gratings and strain sensor systems; Applied magnetics; Biosensing and advanced mag
  • • Medical Physics Research: Therapeutic medical physics
  • • Networking - Communications - Computer Science: Cellular and mobile networks; Cloud and mobile computing; Computer architecture; Error control cod
  • • Next Generation Materials & Devices: Computational materials science; Electroceramics research; Mechanical behavior of materials; Multi-functional
  • • Nuclear Engineering Research: Marcum research group; Computational methods; Nuclear reactor hydro-mechanics; Nuclear reactor systems design; Nucle
  • • Pavements, Transportation, and Materials: Traditional transportation engineering (e.g., transportation planning, operations, design, and safety),
  • • Production, Service, & Human Systems: Engineering management, Healthcare system engineering, Human factors engineering, Information systems engine
  • • Radiochemistry Research: Paulenova radiochemistry research group; Analytical chemistry in nuclear technology; Separation methods and fuel cycle ch
  • • Renewable Energy & Energy Sustainability: Energy systems; Energy transport phenomena and conversion; Energy devices and materials; Sustainability
  • • Robotics: Mobile robots; Micro-aerial vehicles and large active sensor networks
  • • Software Engineering -HCI-Programming Languages: End-user software engineering; Software errors; Programming tools, environments, and program anal
  • • Structural
  • • Sustainable Energy: Renewable Fuels, Solar Energy, Electrochemical energy systems (batteries, fuel cells)
  • • Thin Films, Nanomaterials, Nanotechnology, & Environmental Nanotoxicology: Materials for electronic devices, Solar photovoltaics, Nanopatterning,
  • • Water Quality & Treatment: Environmental implications of nanotechnology, Particle removal from drinking water, Anaerobic and aerobic wastewater tr
  • • Water Resources: Problems in groundwater hydrology and contamination, River hydraulics, Multi-phase computational hydraulics, Real-time control of