Andres E. Pena Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Assistant Research Professor
faculty
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Biography and Research Information
OverviewAI-generated summary
Andres E. Pena's research focuses on the development and application of neurostimulation-based haptic feedback systems. His work investigates methods for creating selective and comfortable sensory experiences through electrical stimulation, particularly for enhancing interactions with virtual environments. Pena has explored channel-hopping techniques to elicit specific, distally referred sensations and has developed novel platforms for grasp interactions. His research also examines strategies for encoding multi-dimensional information within single-channel haptic feedback to improve control in two-dimensional tasks.
Pena collaborates with researchers at the University of Arkansas at Fayetteville, including James J. Abbas, Sathyakumar S. Kuntaegowdanahalli, Ranu Jung, and T R Benigni. He has published nine papers, with a total of 97 citations and an h-index of 4. His recent publications include work on simultaneous modulation of pulse charge and burst period for differentiable referred sensations and enhancing two-dimensional control via single-channel haptic feedback.
Metrics
- h-index: 4
- Publications: 9
- Citations: 97
Selected Publications
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Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy (2025)
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Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy (2024)
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Simultaneous modulation of pulse charge and burst period elicits two differentiable referred sensations (2024)
Collaboration Network
Top Collaborators
- Channel-hopping during surface electrical neurostimulation elicits selective, comfortable, distally referred sensations
- Novel Neurostimulation-Based Haptic Feedback Platform for Grasp Interactions With Virtual Objects
- Simultaneous modulation of pulse charge and burst period elicits two differentiable referred sensations
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Channel-hopping during surface electrical neurostimulation elicits selective, comfortable, distally referred sensations
- Novel Neurostimulation-Based Haptic Feedback Platform for Grasp Interactions With Virtual Objects
- Simultaneous modulation of pulse charge and burst period elicits two differentiable referred sensations
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Simultaneous modulation of pulse charge and burst period elicits two differentiable referred sensations
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Simultaneous modulation of pulse charge and burst period elicits two differentiable referred sensations
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Enhancing Two-Dimensional Control via Single-Channel Haptic Feedback: A Multi-dimensional Encoding Strategy
- Novel Neurostimulation-Based Haptic Feedback Platform for Grasp Interactions With Virtual Objects
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