The Change in Fingertip Contact Area as a Novel Proprioceptive Cue

Moscatelli A, Bianchi M, Serio A, Terekhov A, Hayward V, Ernst MO, Bicchi A (2016)
Current Biology 26(9): 1159-1163.

Zeitschriftenaufsatz | Veröffentlicht| Englisch
 
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Autor*in
Moscatelli, AlessandroUniBi ; Bianchi, Matteo; Serio, Alessandro; Terekhov, Alexander; Hayward, Vincent; Ernst, Marc O.UniBi; Bicchi, Antonio
Erscheinungsjahr
2016
Zeitschriftentitel
Current Biology
Band
26
Ausgabe
9
Seite(n)
1159-1163
ISSN
0960-9822
eISSN
1879-0445
Page URI
https://pub.uni-bielefeld.de/record/2901075

Zitieren

Moscatelli A, Bianchi M, Serio A, et al. The Change in Fingertip Contact Area as a Novel Proprioceptive Cue. Current Biology. 2016;26(9):1159-1163.
Moscatelli, A., Bianchi, M., Serio, A., Terekhov, A., Hayward, V., Ernst, M. O., & Bicchi, A. (2016). The Change in Fingertip Contact Area as a Novel Proprioceptive Cue. Current Biology, 26(9), 1159-1163. doi:10.1016/j.cub.2016.02.052
Moscatelli, A., Bianchi, M., Serio, A., Terekhov, A., Hayward, V., Ernst, M. O., and Bicchi, A. (2016). The Change in Fingertip Contact Area as a Novel Proprioceptive Cue. Current Biology 26, 1159-1163.
Moscatelli, A., et al., 2016. The Change in Fingertip Contact Area as a Novel Proprioceptive Cue. Current Biology, 26(9), p 1159-1163.
A. Moscatelli, et al., “The Change in Fingertip Contact Area as a Novel Proprioceptive Cue”, Current Biology, vol. 26, 2016, pp. 1159-1163.
Moscatelli, A., Bianchi, M., Serio, A., Terekhov, A., Hayward, V., Ernst, M.O., Bicchi, A.: The Change in Fingertip Contact Area as a Novel Proprioceptive Cue. Current Biology. 26, 1159-1163 (2016).
Moscatelli, Alessandro, Bianchi, Matteo, Serio, Alessandro, Terekhov, Alexander, Hayward, Vincent, Ernst, Marc O., and Bicchi, Antonio. “The Change in Fingertip Contact Area as a Novel Proprioceptive Cue”. Current Biology 26.9 (2016): 1159-1163.

11 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Linear Integration of Tactile and Non-tactile Inputs Mediates Estimation of Fingertip Relative Position.
Toma S, Shibata D, Chinello F, Prattichizzo D, Santello M., Front Neurosci 13(), 2019
PMID: 30804743
Touch as an auxiliary proprioceptive cue for movement control.
Moscatelli A, Bianchi M, Ciotti S, Bettelani GC, Parise CV, Lacquaniti F, Bicchi A., Sci Adv 5(6), 2019
PMID: 31183406
Force-Rate Cues Reduce Object Deformation Necessary to Discriminate Compliances Harder than the Skin.
Hauser SC, Gerling GJ, Hauser SC, Gerling GJ, Gerling GJ, Hauser SC., IEEE Trans Haptics 11(2), 2018
PMID: 28641270
W-FYD: A Wearable Fabric-Based Display for Haptic Multi-Cue Delivery and Tactile Augmented Reality.
Fani S, Ciotti S, Battaglia E, Moscatelli A, Bianchi M., IEEE Trans Haptics 11(2), 2018
PMID: 28796622
Artificial tactile and proprioceptive feedback improves performance and confidence on object identification tasks.
Schiefer MA, Graczyk EL, Sidik SM, Tan DW, Tyler DJ., PLoS One 13(12), 2018
PMID: 30517154
Auditory adaptation improves tactile frequency perception.
Crommett LE, Pérez-Bellido A, Yau JM., J Neurophysiol 117(3), 2017
PMID: 28077668
A Human-Robot Interaction Perspective on Assistive and Rehabilitation Robotics.
Beckerle P, Salvietti G, Unal R, Prattichizzo D, Rossi S, Castellini C, Hirche S, Endo S, Amor HB, Ciocarlie M, Mastrogiovanni F, Argall BD, Bianchi M., Front Neurorobot 11(), 2017
PMID: 28588473
Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands.
Santello M, Bianchi M, Gabiccini M, Ricciardi E, Salvietti G, Prattichizzo D, Ernst M, Moscatelli A, Jörntell H, Kappers AM, Kyriakopoulos K, Albu-Schäffer A, Castellini C, Bicchi A., Phys Life Rev 17(), 2016
PMID: 26923030
Towards a synergy framework across neuroscience and robotics: Lessons learned and open questions. Reply to comments on: "Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands".
Santello M, Bianchi M, Gabiccini M, Ricciardi E, Salvietti G, Prattichizzo D, Ernst M, Moscatelli A, Jorntell H, Kappers AM, Kyriakopoulos K, Schaeffer AA, Castellini C, Bicchi A., Phys Life Rev 17(), 2016
PMID: 27344306

33 References

Daten bereitgestellt von Europe PubMed Central.

Dynamics and control of a set of dual fingers with soft tips
Arimoto S., Nguyen P.T.A., Han H.-Y., Doulgeri Z.., 2000
A structural model of the forced compression of the fingertip pulp.
Serina ER, Mockensturm E, Mote CD Jr, Rempel D., J Biomech 31(7), 1998
PMID: 9796686

Palmer S.E.., 1999
Haptic discrimination of softness in teleoperation: the role of the contact area spread rate
Bicchi A., Scilingo E.P., De D.., 2000
The neuroscience of illusion
Martinez-Conde S., Macknik S.L.., 2013
Looming detectors in the human visual pathway.
Regan D, Beverley KI., Vision Res. 18(4), 1978
PMID: 664320
Perceived motion in depth.
Brenner E, Van Den Berg AV, Van Damme WJ., Vision Res. 36(5), 1996
PMID: 8762300
Finger pad friction and its role in grip and touch.
Adams MJ, Johnson SA, Lefevre P, Levesque V, Hayward V, Andre T, Thonnard JL., J R Soc Interface 10(80), 2012
PMID: 23256185
Segregation of tactile input features in neurons of the cuneate nucleus.
Jorntell H, Bengtsson F, Geborek P, Spanne A, Terekhov AV, Hayward V., Neuron 83(6), 2014
PMID: 25175880

AUTHOR UNKNOWN, 2014

AUTHOR UNKNOWN, 0
Design and Characterization of a Fabric-Based Softness Display.
Bianchi M, Serio A., IEEE Trans Haptics 8(2), 2015
PMID: 25720018
Modeling psychophysical data at the population-level: the generalized linear mixed model
Moscatelli A., Mezzetti M., Lacquaniti F.., 2012

AUTHOR UNKNOWN, 0

AUTHOR UNKNOWN, 0

AUTHOR UNKNOWN, 0
Measurement and modeling of depth cue combination: in defense of weak fusion.
Landy MS, Maloney LT, Johnston EB, Young M., Vision Res. 35(3), 1995
PMID: 7892735
Adaptive synergies for the design and control of the Pisa/IIT SoftHand
Catalano M.G., Grioli G., Farnioli E., Serio A., Piazza C., Bicchi A.., 2014
Tactile flow explains haptic counterparts of common visual illusions.
Bicchi A, Scilingo EP, Ricciardi E, Pietrini P., Brain Res. Bull. 75(6), 2008
PMID: 18394519
Path integration in tactile perception of shapes.
Moscatelli A, Naceri A, Ernst MO., Behav. Brain Res. 274(), 2014
PMID: 25151621
Trajectory of contact region on the fingerpad gives the illusion of haptic shape.
Dostmohamed H, Hayward V., Exp Brain Res 164(3), 2005
PMID: 15883809
The brain uses extrasomatic information to estimate limb displacement
Terekhov A.V., Hayward V.., 2015
Sensory integration in the perception of movements at the human metacarpophalangeal joint.
Collins DF, Refshauge KM, Gandevia SC., J. Physiol. (Lond.) 529 Pt 2(), 2000
PMID: 11101658
Skin strain patterns provide kinaesthetic information to the human central nervous system.
Edin BB, Johansson N., J. Physiol. (Lond.) 487(1), 1995
PMID: 7473253
Cutaneous receptors contribute to kinesthesia at the index finger, elbow, and knee.
Collins DF, Refshauge KM, Todd G, Gandevia SC., J. Neurophysiol. 94(3), 2005
PMID: 15917323
Seeing and Feeling Motion: Canonical Computations in Vision and Touch.
Pack CC, Bensmaia SJ., PLoS Biol. 13(9), 2015
PMID: 26418156
Auditory looming perception in rhesus monkeys.
Ghazanfar AA, Neuhoff JG, Logothetis NK., Proc. Natl. Acad. Sci. U.S.A. 99(24), 2002
PMID: 12429855
Looming biases in monkey auditory cortex.
Maier JX, Ghazanfar AA., J. Neurosci. 27(15), 2007
PMID: 17428987

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