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ORCIDGregory J. Gerling
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- affiliation: University of Virginia, Charlottesville, USA
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2020 – today
- 2024
[c33]Bingxu Li, Gregory J. Gerling, Tyler Cody:
Estimating Contact Force Rate Using Skin Deformation Cues. EuroHaptics (1) 2024: 464-476- [c32]Bingxu Li, Alton R. Sharpe, Gregory J. Gerling:
A transparent hydraulic actuator to visualize finger pad deformation at programmable material compliances. HAPTICS 2024: 61-66 - [c31]J. Michael Bertsch, Mohammed Ayyat, Tamer Nadeem, Gregory J. Gerling:
NetworkTouch: A vibrotactile check-in device for cyberattack detection and monitoring. HAPTICS 2024: 341-346 - 2023
- [j16]Jan B. F. van Erp, Karon E. MacLean, Gregory J. Gerling, Carey Jewitt
, Alexander Toet:
Editorial: Social touch. Frontiers Comput. Sci. 5 (2023) - [j15]Bingxu Li, Steven Conrad Hauser, Gregory J. Gerling:
Faster Indentation Influences Skin Deformation To Reduce Tactile Discriminability of Compliant Objects. IEEE Trans. Haptics 16(2): 215-227 (2023) - [j14]Shan Xu, Chang Xu, Gregory J. Gerling:
Social and Emotional Touch Between Romantic Partners is Affectively More Pleasant Due to Finely Tuned Contact Interactions. IEEE Trans. Haptics 16(3): 449-454 (2023) - [c30]Zack T. Landsman, Anika R. Kao, Gregory J. Gerling:
Human-Delivered Brushstroke Characterization Using an Instrumented Brush Focused on Torque. WHC 2023: 85-92 - [c29]Anika R. Kao, Zack T. Landsman, Gregory J. Gerling, Mary Terry Loghmani:
Optical Measurements of the Skin Surface to Infer Bilateral Distinctions in Myofascial Tissue Stiffness. WHC 2023: 244-251 - 2022
- [j13]Anika R. Kao, Chang Xu, Gregory J. Gerling:
Using Digital Image Correlation to Quantify Skin Deformation With Von Frey Monofilaments. IEEE Trans. Haptics 15(1): 26-31 (2022) - [j12]Shan Xu, Chang Xu, Sarah McIntyre, Håkan Olausson, Gregory J. Gerling:
Subtle Contact Nuances in the Delivery of Human-to-Human Touch Distinguish Emotional Sentiment. IEEE Trans. Haptics 15(1): 97-102 (2022) - [i3]Shan Xu, Chang Xu, Sarah McIntyre, Håkan Olausson, Gregory J. Gerling:
Subtle Contact Nuances in the Delivery of Human-to-Human Touch Distinguish Emotional Sentiment. CoRR abs/2201.02748 (2022) - [i2]Shan Xu, Chang Xu, Sarah McIntyre, Håkan Olausson, Gregory J. Gerling:
3D Visual Tracking to Quantify Physical Contact Interactions in Human-to-Human Touch. CoRR abs/2204.05954 (2022) - 2021
- [j11]Chang Xu, Yuxiang Wang, Gregory J. Gerling:
An elasticity-curvature illusion decouples cutaneous and proprioceptive cues in active exploration of soft objects. PLoS Comput. Biol. 17(3) (2021) - [c28]Merat Rezaei, Saad S. Nagi, Chang Xu, Sarah McIntyre, Håkan Olausson, Gregory J. Gerling:
Thin Films on the Skin, but not Frictional Agents, Attenuate the Percept of Pleasantness to Brushed Stimuli. WHC 2021: 49-54 - [c27]Bingxu Li, Jaeyeon Lee, Gregory J. Gerling:
A Magnetorheological Elastomer Device for Programmable Actuation and Sensing of Soft Haptic Experiences. WHC 2021: 349 - [c26]Chang Xu, Yuxiang Wang, Gregory J. Gerling:
Individual Performance in Compliance Discrimination is Constrained by Skin Mechanics but Improved under Active Control. WHC 2021: 445-450 - [c25]Bingxu Li, Gregory J. Gerling:
Individual differences impacting skin deformation and tactile discrimination with compliant elastic surfaces. WHC 2021: 721-726 - 2020
- [j10]Chang Xu, Hankun He, Steven Conrad Hauser, Gregory J. Gerling:
Tactile Exploration Strategies With Natural Compliant Objects Elicit Virtual Stiffness Cues. IEEE Trans. Haptics 13(1): 4-10 (2020) - [c24]Chang Xu, Gregory J. Gerling:
Time-dependent Cues Encode the Minimum Exploration Time in Discriminating Naturalistic Compliances. HAPTICS 2020: 22-27 - [c23]Bingxu Li, Steven Conrad Hauser, Gregory J. Gerling:
Identifying 3-D spatiotemporal skin deformation cues evoked in interacting with compliant elastic surfaces. HAPTICS 2020: 35-40
2010 – 2019
- 2019
- [c22]Chang Xu, Steven Conrad Hauser, Yuxiang Wang, Gregory J. Gerling:
Roles of Force Cues and Proprioceptive Joint Angles in Active Exploration of Compliant Objects. WHC 2019: 353-358 - [c21]Steven Conrad Hauser, Sarah McIntyre, Ali Israr, Håkan Olausson, Gregory J. Gerling:
Uncovering Human-to-Human Physical Interactions that Underlie Emotional and Affective Touch Communication. WHC 2019: 407-412 - [c20]Steven Conrad Hauser, Saad S. Nagi, Sarah McIntyre, Ali Israr, Håkan Olausson, Gregory J. Gerling:
From Human-to-Human Touch to Peripheral Nerve Responses. WHC 2019: 592-597 - 2018
- [j9]Gregory J. Gerling, Lingtian Wan, Benjamin U. Hoffman, Yuxiang Wang, Ellen A. Lumpkin:
Computation predicts rapidly adapting mechanotransduction currents cannot account for tactile encoding in Merkel cell-neurite complexes. PLoS Comput. Biol. 14(6) (2018) - [j8]Steven Conrad Hauser, Gregory J. Gerling:
Force-Rate Cues Reduce Object Deformation Necessary to Discriminate Compliances Harder than the Skin. IEEE Trans. Haptics 11(2): 232-240 (2018) - [j7]Gregory J. Gerling, Steven Conrad Hauser, Bryan R. Soltis, Alexis K. Bowen, Kathryn D. Fanta, Yuxiang Wang:
A Standard Methodology to Characterize the Intrinsic Material Properties of Compliant Test Stimuli. IEEE Trans. Haptics 11(4): 498-508 (2018) - [c19]Steven Conrad Hauser, Gregory J. Gerling:
Imaging the 3-D deformation of the finger pad when interacting with compliant materials. HAPTICS 2018: 7-13 - [e2]Katherine J. Kuchenbecker, Gregory J. Gerling, Yon Visell:
2018 IEEE Haptics Symposium, HAPTICS 2018, San Francisco, CA, USA, March 25-28, 2018. IEEE 2018, ISBN 978-1-5386-5424-8 [contents] - 2017
- [c18]Loi Huynh, Seth R. Yarboro, Gregory J. Gerling:
A mobile device to quantify the forces and angles required to overcome knee arthrofibrosis in the clinic. WHC 2017: 207-212 - [c17]Hyojung Kang, Rachel L. Orlowsky, Gregory J. Gerling:
A discrete-event simulation approach to identify rules that govern arbor remodeling for branching cutaneous afferents in hairy skin. WSC 2017: 2662-2671 - 2016
- [j6]Ingvars Birznieks, Gregory J. Gerling, Fabrizio Sergi, Sliman J. Bensmaia:
Haptics in Neuroscience. IEEE Trans. Haptics 9(4): 443-445 (2016) - [c16]Steven Conrad Hauser, Gregory J. Gerling:
Measuring tactile cues at the fingerpad for object compliances harder and softer than the skin. HAPTICS 2016: 247-252 - [e1]Seungmoon Choi, Katherine J. Kuchenbecker, Gregory J. Gerling:
2016 IEEE Haptics Symposium, HAPTICS 2016, Philadelphia, PA, USA, April 8-11, 2016. IEEE 2016, ISBN 978-1-5090-0903-9 [contents] - [i1]Yuxiang Wang, Gregory J. Gerling:
Automatic finite element implementation of hyperelastic material with a double numerical differentiation algorithm. CoRR abs/1606.04987 (2016) - 2014
- [j5]Gregory J. Gerling, Isabelle I. Rivest, Daine R. Lesniak, Jacob R. Scanlon, Lingtian Wan:
Validating a Population Model of TactileMechanotransduction of Slowly AdaptingType I Afferents at Levels of Skin Mechanics, Single-Unit Response and Psychophysics. IEEE Trans. Haptics 7(2): 216-228 (2014) - [c15]Yuxiang Wang, Gregory J. Gerling:
Computational Modeling Reinforces that Proprioceptive Cues May Augment Compliance Discrimination When Elasticity Is Decoupled from Radius of Curvature. EuroHaptics (2) 2014: 360-368 - [c14]Daine R. Lesniak, Gregory J. Gerling:
Mimicking the end organ architecture of slowly adapting type I afferents may increase the durability of artificial touch sensors. HAPTICS 2014: 361-366 - 2013
- [c13]Elmer K. Kim, K. B. Sugg, Nicholas B. Langhals, Sarah M. Lightbody, M. E. Baltrusaitis, Melanie G. Urbanchek, Paul S. Cederna, Gregory J. Gerling:
An engineered tactile afferent modulation platform to elicit compound sensory nerve action potentials in response to force magnitude. World Haptics 2013: 241-246 - [c12]Yuxiang Wang, Kara L. Marshall, Yoshichika Baba, Ellen A. Lumpkin, Gregory J. Gerling:
Natural variation in skin thickness argues for mechanical stimulus control by force instead of displacement. World Haptics 2013: 645-650 - 2012
- [c11]Mark W. Farrington, Gregory J. Gerling, Lynn R. Kohan, Sheryl L. Johnson:
A multisensory illusion with haptic interaction to treat phantom limb pain. HAPTICS 2012: 217-222 - 2011
- [c10]Isabelle I. Rivest, Gregory J. Gerling:
Optimizing populations of SAI tactile mechanoreceptors to enable activities of daily living. World Haptics 2011: 53-58 - 2010
- [j4]Karen Dunn Lopez, Gregory J. Gerling, Michael P. Cary, Mary F. Kanak:
Cognitive work analysis to evaluate the problem of patient falls in an inpatient setting. J. Am. Medical Informatics Assoc. 17(3): 313-321 (2010) - [j3]Ninghuan Wang, Gregory J. Gerling, Reba Moyer Childress, Marcus L. Martin:
Quantifying palpation techniques in relation to performance in a clinical prostate exam. IEEE Trans. Inf. Technol. Biomed. 14(4): 1088-1097 (2010) - [c9]Leigh A. Baumgart, Gregory J. Gerling, Ellen J. Bass:
Psychophysical detection of inclusions with the bare finger amidst softness differentials. HAPTICS 2010: 17-20 - [c8]Isabelle I. Rivest, Gregory J. Gerling:
Evaluating populations of tactile sensors for curvature discrimination. HAPTICS 2010: 59-62 - [c7]Elmer K. Kim, Gregory J. Gerling, Scott A. Wellnitz, Ellen A. Lumpkin:
Using force sensors and neural models to encode tactile stimuli as spike-based responses. HAPTICS 2010: 195-198
2000 – 2009
- 2009
- [j2]Gregory J. Gerling, Sarah Rigsbee, Reba Moyer Childress, Marcus L. Martin:
The Design and Evaluation of a Computerized and Physical Simulator for Training Clinical Prostate Exams. IEEE Trans. Syst. Man Cybern. Part A 39(2): 388-403 (2009) - 2008
- [c6]Matt B. Wagner, Gregory J. Gerling, Jacob R. Scanlon:
Validation of a 3-D Finite Element Human Fingerpad Model Composed of Anatomically Accurate Tissue Layers. HAPTICS 2008: 101-105 - 2007
- [c5]Sarah Rigsbee, Gregory J. Gerling, Reba Moyer Childress, Marcus L. Martin:
A computerized physical simulator for training clinical prostate palpation skills. SMC 2007: 2223-2227 - [c4]Nader S. Raja, John A. Schleser, William P. Norman, Curtis D. Myzie, Gregory J. Gerling, Marcus L. Martin:
Simulation framework for training chest tube insertion using virtual reality and force feedback. SMC 2007: 2261-2266 - 2006
- [c3]Gregory J. Gerling:
The Sampling Position Within, Not the Undulating Geometry of, Fingertip Skin Microstructure May Amplify the Sensation of Edges. HAPTICS 2006: 22 - 2005
- [j1]Gregory J. Gerling, Geb W. Thomas:
Augmented, Pulsating Tactile Feedback Facilitates Simulator Training of Clinical Breast Examinations. Hum. Factors 47(3): 670-681 (2005) - [c2]Gregory J. Gerling, Geb W. Thomas:
The Effect of Fingertip Microstructures on Tactile Edge Perception. WHC 2005: 63-72 - 2003
- [c1]Gregory J. Gerling, Geb W. Thomas:
Effect of augmented visual performance feedback on the effectiveness of clinical breast examination training with a dynamically configurable breast model. SMC 2003: 2095-2100
Coauthor Index
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last updated on 2024-11-11 21:30 CET by the dblp team
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