Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using a Biofidelic Model of Mechanotransduction

Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using a Biofidelic Model of Mechanotransduction. Kim, S. S., Sripati, A. P., Vogelstein, R. J., Armiger, R., Russell, A. F., & Bensmäia, S. J. IEEE Transactions on Biomedical Circuits and Systems, 3(6):398 -404, 2009.
doi bibtex

@article{ Kim_etal09,
  author = {Kim, S. S. and Sripati, A. P. and Vogelstein, R. J. and Armiger,
	R.S. and Russell, A. F. and {Bensmäia}, S. J.},
  title = {Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using
	a Biofidelic Model of Mechanotransduction},
  journal = {IEEE Transactions on Biomedical Circuits and Systems},
  year = {2009},
  volume = {3},
  pages = {398 -404},
  number = {6},
  doi = {10.1109/TBCAS.2009.2032396},
  keywords = {dynamic stimulus evoked neural activity;hand glabrous skin;integrate
	and fire mechanism;mechanoreceptive afferent;mechanotransduction
	model;residual peripheral nerve electrical stimulation;sensorised
	hand neuroprosthesis;spike train output;stimulus position;tactile
	feedback;bioelectric potentials;feedback;neurophysiology;prosthetics;skin;touch
	(physiological);},
  owner = {doyen},
  timestamp = {2010.05.13}
}

Downloads: 0

{"_id":"4PdTqYhztnMxSdjXc","bibbaseid":"kim-sripati-vogelstein-armiger-russell-bensmaia-conveyingtactilefeedbackinsensorizedhandneuroprosthesesusingabiofidelicmodelofmechanotransduction-2009","downloads":0,"creationDate":"2015-02-08T05:14:47.925Z","title":"Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using a Biofidelic Model of Mechanotransduction","author_short":["Kim, S.<nbsp>S.","Sripati, A.<nbsp>P.","Vogelstein, R.<nbsp>J.","Armiger, R.","Russell, A.<nbsp>F.","Bensmäia, S.<nbsp>J."],"year":2009,"bibtype":"article","biburl":"http://cnslab.mb.jhu.edu/niebase.bib","bibdata":{"author":["Kim, S. S.","Sripati, A. P.","Vogelstein, R. J.","Armiger, R.S.","Russell, A. F.","Bensmäia, S. J."],"author_short":["Kim, S.<nbsp>S.","Sripati, A.<nbsp>P.","Vogelstein, R.<nbsp>J.","Armiger, R.","Russell, A.<nbsp>F.","Bensmäia, S.<nbsp>J."],"bibtex":"@article{ Kim_etal09,\n author = {Kim, S. S. and Sripati, A. P. and Vogelstein, R. J. and Armiger,\n\tR.S. and Russell, A. F. and {Bensmäia}, S. J.},\n title = {Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using\n\ta Biofidelic Model of Mechanotransduction},\n journal = {IEEE Transactions on Biomedical Circuits and Systems},\n year = {2009},\n volume = {3},\n pages = {398 -404},\n number = {6},\n doi = {10.1109/TBCAS.2009.2032396},\n keywords = {dynamic stimulus evoked neural activity;hand glabrous skin;integrate\n\tand fire mechanism;mechanoreceptive afferent;mechanotransduction\n\tmodel;residual peripheral nerve electrical stimulation;sensorised\n\thand neuroprosthesis;spike train output;stimulus position;tactile\n\tfeedback;bioelectric potentials;feedback;neurophysiology;prosthetics;skin;touch\n\t(physiological);},\n owner = {doyen},\n timestamp = {2010.05.13}\n}","bibtype":"article","doi":"10.1109/TBCAS.2009.2032396","id":"Kim_etal09","journal":"IEEE Transactions on Biomedical Circuits and Systems","key":"Kim_etal09","keywords":"dynamic stimulus evoked neural activity;hand glabrous skin;integrate and fire mechanism;mechanoreceptive afferent;mechanotransduction model;residual peripheral nerve electrical stimulation;sensorised hand neuroprosthesis;spike train output;stimulus position;tactile feedback;bioelectric potentials;feedback;neurophysiology;prosthetics;skin;touch (physiological);","number":"6","owner":"doyen","pages":"398 -404","timestamp":"2010.05.13","title":"Conveying Tactile Feedback in Sensorized Hand Neuroprostheses Using a Biofidelic Model of Mechanotransduction","type":"article","volume":"3","year":"2009","bibbaseid":"kim-sripati-vogelstein-armiger-russell-bensmaia-conveyingtactilefeedbackinsensorizedhandneuroprosthesesusingabiofidelicmodelofmechanotransduction-2009","role":"author","urls":{},"keyword":["dynamic stimulus evoked neural activity;hand glabrous skin;integrate and fire mechanism;mechanoreceptive afferent;mechanotransduction model;residual peripheral nerve electrical stimulation;sensorised hand neuroprosthesis;spike train output;stimulus position;tactile feedback;bioelectric potentials;feedback;neurophysiology;prosthetics;skin;touch (physiological);"],"downloads":0},"search_terms":["conveying","tactile","feedback","sensorized","hand","neuroprostheses","using","biofidelic","model","mechanotransduction","kim","sripati","vogelstein","armiger","russell","bensmäia"],"keywords":["dynamic stimulus evoked neural activity;hand glabrous skin;integrate and fire mechanism;mechanoreceptive afferent;mechanotransduction model;residual peripheral nerve electrical stimulation;sensorised hand neuroprosthesis;spike train output;stimulus position;tactile feedback;bioelectric potentials;feedback;neurophysiology;prosthetics;skin;touch (physiological);"],"authorIDs":[],"dataSources":["ErLXoH8mqSjESnrN5"]}