A
Alejandro Martin‐Gomez Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Assistant Professor
faculty
11 h-index
55 pubs
421 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Alejandro Martin‐Gomez is an Assistant Professor at the University of Arkansas at Fayetteville. His research focuses on the application of augmented reality (AR) and computer-assisted technologies in medical settings, particularly in surgical navigation and training. He has investigated the use of off-the-shelf AR head-mounted displays for surgical tool tracking and explored the design and validation process for medical AR applications. His work also extends to robotic surgery, including the development of autonomous navigation systems for subretinal injections utilizing real-time imaging and deep learning-based registration. Martin‐Gomez has also studied the impact of visualization techniques on depth perception in optical see-through AR displays and evaluated the feasibility of AR for dental procedures. His scholarly contributions include 57 publications and a citation count of 407, with an h-index of 11.
Metrics
- h-index: 11
- Publications: 55
- Citations: 421
Selected Publications
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Explainable AI for Automated User-Specific Feedback in Surgical Skill Acquisition (2025)
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End-to-end 2D/3D registration from pre-operative MRI to intra-operative fluoroscopy for orthopedic procedures (2025)
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An Image-Guided Robotic System for Transcranial Magnetic Stimulation: System Development and Experimental Evaluation (2025)
Collaboration Network
Top Collaborators
Mehran Armand
18 shared publications
In database
- STTAR: Surgical Tool Tracking Using Off-the-Shelf Augmented Reality Head-Mounted Displays
- Segment any medical model extended
- Towards reducing visual workload in surgical navigation: proof-of-concept of an augmented reality haptic guidance system
- Towards 2D/3D Registration of the Preoperative MRI to Intraoperative Fluoroscopic Images for Visualisation of Bone Defects
- STTAR: Surgical Tool Tracking using off-the-shelf Augmented Reality Head-Mounted Displays
Showing 5 of 18 shared publications
Nassir Navab
Johns Hopkins University (US)
15 shared publications
- STTAR: Surgical Tool Tracking Using Off-the-Shelf Augmented Reality Head-Mounted Displays
- Medical Augmented Reality: Definition, Principle Components, Domain Modeling, and Design-Development-Validation Process
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- The Impact of Focus and Context Visualization Techniques on Depth Perception in Optical See-Through Head-Mounted Displays
- OCT-guided Robotic Subretinal Needle Injections: A Deep Learning-Based Registration Approach
Showing 5 of 15 shared publications
Mathias Unberath
10 shared publications
- The impact of visualization paradigms on the detectability of spatial misalignment in mixed reality surgical guidance
- Injured Avatars: The Impact of Embodied Anatomies and Virtual Injuries on Well-Being and Performance
- Mixed reality interfaces for achieving desired views with robotic X-ray systems
- StraightTrack: Towards mixed reality navigation system for percutaneous K‐wire insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
Showing 5 of 10 shared publications
You Jin Ku
7 shared publications
- StraightTrack: Towards mixed reality navigation system for percutaneous K‐wire insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
- Evaluating the Effectiveness of Visual Guidance for Out-of-View Object Localization using Mixed Reality Head-Mounted Displays
- Explainable AI for Automated User-Specific Feedback in Surgical Skill Acquisition
Showing 5 of 7 shared publications
Ulrich Eck
6 shared publications
- Medical Augmented Reality: Definition, Principle Components, Domain Modeling, and Design-Development-Validation Process
- The Impact of Focus and Context Visualization Techniques on Depth Perception in Optical See-Through Head-Mounted Displays
- Impact of Parameter Disentanglement on Collaborative Alignment
- Medical Visualizations with Dynamic Shape and Depth Cues
- A Closer Look at Dynamic Medical Visualization Techniques
Showing 5 of 6 shared publications
Amir Kheradmand
Johns Hopkins Medicine (US)
6 shared publications
- Segment any medical model extended
- On the Fly Robotic-Assisted Medical Instrument Planning and Execution Using Mixed Reality
- An Image-Guided Robotic System for Transcranial Magnetic Stimulation: System Development and Experimental Evaluation
- Autokinesis Reveals a Threshold for Perception of Visual Motion
- Segment Any Medical Model Extended
Showing 5 of 6 shared publications
Lalithkumar Seenivasan
6 shared publications
- StraightTrack: Towards mixed reality navigation system for percutaneous K‐wire insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
- Explainable AI for Automated User-Specific Feedback in Surgical Skill Acquisition
- DualVision ArthroNav: Investigating Opportunities to Enhance Localization and Reconstruction in Image-based Arthroscopy Navigation via External Cameras
Showing 5 of 6 shared publications
Greg Osgood
Johns Hopkins Medicine (US)
5 shared publications
- The impact of visualization paradigms on the detectability of spatial misalignment in mixed reality surgical guidance
- Mixed reality interfaces for achieving desired views with robotic X-ray systems
- StraightTrack: Towards mixed reality navigation system for percutaneous K‐wire insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
- StraightTrack: Towards Mixed Reality Navigation System for Percutaneous K-wire Insertion
Iulian Iordachita
Johns Hopkins University (US)
5 shared publications
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- OCT-guided Robotic Subretinal Needle Injections: A Deep Learning-Based Registration Approach
- Surgical scene generation and adversarial networks for physics-based iOCT synthesis
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- Region targeted robotic needle guidance using a camera-integrated optical coherence tomography
Tianyu Song
5 shared publications
- STTAR: Surgical Tool Tracking Using Off-the-Shelf Augmented Reality Head-Mounted Displays
- Medical Augmented Reality: Definition, Principle Components, Domain Modeling, and Design-Development-Validation Process
- STTAR: Surgical Tool Tracking using off-the-shelf Augmented Reality Head-Mounted Displays
- Impact of Parameter Disentanglement on Collaborative Alignment
- Medical Visualizations with Dynamic Shape and Depth Cues
Alexander Winkler
Ludwig-Maximilians-Universität München (DE)
5 shared publications
- Medical Augmented Reality: Definition, Principle Components, Domain Modeling, and Design-Development-Validation Process
- Magnifying Augmented Mirrors for Accurate Alignment Tasks
- Medical Visualizations with Dynamic Shape and Depth Cues
- A Closer Look at Dynamic Medical Visualization Techniques
- Complementary Textures. A Novel Approach to Object Alignment in Mixed Reality
Daniel Roth
Klinikum rechts der Isar (DE)
4 shared publications
- The Impact of Focus and Context Visualization Techniques on Depth Perception in Optical See-Through Head-Mounted Displays
- Injured Avatars: The Impact of Embodied Anatomies and Virtual Injuries on Well-Being and Performance
- Impact of Parameter Disentanglement on Collaborative Alignment
- Magnifying Augmented Mirrors for Accurate Alignment Tasks
Michael Sommersperger
4 shared publications
- Medical Augmented Reality: Definition, Principle Components, Domain Modeling, and Design-Development-Validation Process
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- Surgical scene generation and adversarial networks for physics-based iOCT synthesis
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
Peter Gehlbach
Johns Hopkins Hospital (US)
4 shared publications
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- OCT-guided Robotic Subretinal Needle Injections: A Deep Learning-Based Registration Approach
- Surgical scene generation and adversarial networks for physics-based iOCT synthesis
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
Peiyao Zhang
Johns Hopkins University (US)
4 shared publications
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- OCT-guided Robotic Subretinal Needle Injections: A Deep Learning-Based Registration Approach
- Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing
- Region targeted robotic needle guidance using a camera-integrated optical coherence tomography
Similar Researchers
Based on overlapping research topics
Benjamin O. Gunderman
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