Neurosecurity: security and privacy for neural devices

An increasing number of neural implantable devices will become available in the near future due to advances in neural engineering. This discipline holds the potential to improve many patients' lives dramatically by offering improved-and in some cases entirely new-forms of rehabilitation for con...

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Veröffentlicht in:	Neurosurgical focus 2009-07, Vol.27 (1), p.E7-E7
Hauptverfasser:	Denning, Tamara, Matsuoka, Yoky, Kohno, Tadayoshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Artificial Limbs Brain - physiology Cognition - physiology Computer Security Confidentiality Deep Brain Stimulation - methods Deep Brain Stimulation - trends Equipment Safety Humans Man-Machine Systems Nervous System Physiological Phenomena Privacy Prostheses and Implants Security Measures - trends User-Computer Interface
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creator	Denning, Tamara Matsuoka, Yoky Kohno, Tadayoshi
description	An increasing number of neural implantable devices will become available in the near future due to advances in neural engineering. This discipline holds the potential to improve many patients' lives dramatically by offering improved-and in some cases entirely new-forms of rehabilitation for conditions ranging from missing limbs to degenerative cognitive diseases. The use of standard engineering practices, medical trials, and neuroethical evaluations during the design process can create systems that are safe and that follow ethical guidelines; unfortunately, none of these disciplines currently ensure that neural devices are robust against adversarial entities trying to exploit these devices to alter, block, or eavesdrop on neural signals. The authors define "neurosecurity"-a version of computer science security principles and methods applied to neural engineering-and discuss why neurosecurity should be a critical consideration in the design of future neural devices.
doi_str_mv	10.3171/2009.4.FOCUS0985
format	Article
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subjects	Artificial Limbs Brain - physiology Cognition - physiology Computer Security Confidentiality Deep Brain Stimulation - methods Deep Brain Stimulation - trends Equipment Safety Humans Man-Machine Systems Nervous System Physiological Phenomena Privacy Prostheses and Implants Security Measures - trends User-Computer Interface
title	Neurosecurity: security and privacy for neural devices
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