W
William Kwabla Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
unknown
2 h-index
3 pubs
6 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
William Kwabla's research focuses on the application of virtual reality and cyber-physical systems for simulation and reliability improvement. He has investigated the use of WebRTC in the cloud for surgical simulations, specifically a case study on a virtual rotator cuff arthroscopic skill trainer (ViRCAST). His work also explores real-time bone drilling simulation for anchor placement within VR-based arthroscopic rotator cuff surgery simulations. Additionally, Kwabla has contributed to research on reliability mechanisms for cyber-physical systems, including a solo-checkpointing co-recovery mechanism. His scholarly output includes three publications with a total of six citations and an h-index of 2. Kwabla collaborates with Khalil Oumimoun and Furkan Dinc, both from the University of Central Arkansas, with whom he shares multiple publications.
Metrics
- h-index: 2
- Publications: 3
- Citations: 6
Selected Publications
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Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST) (2023)
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Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation. (2022)2 citations OpenAlex
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Wineinformatics: Can Wine Reviews in Bordeaux Reveal Wine Aging Capability? (2021)
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A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems (2021)
Collaboration Network
Top Collaborators
Khalil Oumimoun
Conway School of Landscape Design
3 shared publications
In database
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
- A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems
Sreekanth Arikatla
Kitware (United States) (US)
3 shared publications
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
- A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems
Tansel Halic
Intuitive Surgical (United States) (US)
3 shared publications
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
- A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems
Furkan Dinc
Conway School of Landscape Design
2 shared publications
In database
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
Sinan Kockara
Lamar University (US)
2 shared publications
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
Shahryar Ahmadi
Memorial Orthopaedic Surgical Group (US)
2 shared publications
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
- Towards Real-time Bone Drilling Simulation for Anchor Placement in VR Based Arthroscopic Rotator Cuff Surgery Simulation.
Brian Eubanks
University of Central Arkansas
1 shared publication
In database
- A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems
Ahmad Patooghy
Conway School of Landscape Design (US)
1 shared publication
- A Solo-Checkpointing Co-Recovery Mechanism for Reliability Improvement of Cyber-Physical Systems
Doga Demirel
Florida Polytechnic University (US)
1 shared publication
- Evaluation of WebRTC in the Cloud for Surgical Simulations: A Case Study on Virtual Rotator Cuff Arthroscopic Skill Trainer (ViRCAST)
Similar Researchers
Based on overlapping research topics
Khalil Oumimoun
University of Central Arkansas
Surgical Simulation and Training
Telemedicine and Telehealth Implementation
Technology Adoption and User Behaviour
Furkan Dinc
University of Central Arkansas
Surgical Simulation and Training
Computer Graphics and Visualization Techniques
Technology Adoption and User Behaviour
Blake E. Pritchett
Arkansas Tech University
Surgical Simulation and Training
Orthopedic Surgery and Rehabilitation
Katherine J. Montoya
University of Arkansas for Medical Sciences
Surgical Simulation and Training
Telemedicine and Telehealth Implementation
Orthopedic Surgery and Rehabilitation
Shinho Kang
University of Arkansas for Medical Sciences
Surgical Simulation and Training
Orthopedic Surgery and Rehabilitation
Jerry Walters
University of Arkansas for Medical Sciences
Surgical Simulation and Training
Orthopedic Surgery and Rehabilitation