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DESCRIPTION:PUF-Based Three Factor Authentication System for Internet of Me
 dical Things\n\nWith the advancement of technology\, wireless devices\, wi
 reless communication\, and devices like the Internet of Things (IoT) have 
 managed to imprint in our daily lives. IoT is becoming a part of the inter
 net revolution. Technology is making the possibility of bringing physical 
 devices to the digital realm reachable. IoT systems are impacting in diffe
 rent aspects\, from home monitoring to health monitoring of people’s dai
 ly life. The growing connectivity of medical equipment has obvious implica
 tions for healthcare\, including improved chronic disease diagnosis and ma
 nagement for an aging global population. According to a Deloitte report\, 
 more than 500\,000 medical technologies are currently available. Internet 
 of medical things (IoMT) devices could be wearables and medical/vital moni
 tors\; strictly they are intended to be used on the bodies\, in the househ
 old\, community\, clinic\, or healthcare facilities for medical treatment\
 ; and they may include real-time location\, telemedicine\, and other servi
 ces. With a widespread adaptation of IoMT\, the data handled by the enviro
 nment has become more vulnerable. Sensitive user data will be at risk if a
 n attacker gains access to the environment with an ill intention\, in cert
 ain situations\, the patient life might be at risk. To protect the data an
 d maintain integrity\, the medical devices need to enroll in an authentica
 tion framework and the method needs to be robust to defend against attacks
 . Moreover\, the framework needs to be lightweight so that resource constr
 ain medical devices can handle it. To improve the security system and resi
 st security vulnerabilities\, a physical unclonable function (PUF)-based a
 uthentication protocol (NAHAP) is proposed. The proposed framework needs 6
  ms computation time and 193 bytes for communication which is less than ot
 her existing authentication frameworks\n\nCMU ET112\, Mt Pleasant\, Michig
 an\, United States\, 48858
LOCATION:CMU ET112\, Mt Pleasant\, Michigan\, United States\, 48858
ORGANIZER:abdel1a@cmich.edu
SEQUENCE:4
SUMMARY:PUF-Based Three Factor Authentication System for Internet of Medica
 l Things
URL;VALUE=URI:https://events.vtools.ieee.org/m/324949
X-ALT-DESC:Description: <br /><p>PUF-Based Three Factor Authentication Syst
 em for Internet of Medical Things</p>\n<p>With the advancement of technolo
 gy\, wireless devices\, wireless communication\, and devices like the Inte
 rnet of Things (IoT) have managed to imprint in our daily lives. IoT is be
 coming a part of the internet revolution. Technology is making the possibi
 lity of bringing physical devices to the digital realm reachable. IoT syst
 ems are impacting in different aspects\, from home monitoring to health mo
 nitoring of people&rsquo\;s daily life. The growing connectivity of medica
 l equipment has obvious implications for healthcare\, including improved c
 hronic disease diagnosis and management for an aging global population. Ac
 cording to a Deloitte report\, more than 500\,000 medical technologies are
  currently available. Internet of medical things (IoMT) devices could be w
 earables and medical/vital monitors\; strictly they are intended to be use
 d on the bodies\, in the household\, community\, clinic\, or healthcare fa
 cilities for medical treatment\; and they may include real-time location\,
  telemedicine\, and other services. With a widespread adaptation of IoMT\,
  the data handled by the environment has become more vulnerable. Sensitive
  user data will be at risk if an attacker gains access to the environment 
 with an ill intention\, in certain situations\, the patient life might be 
 at risk. To protect the data and maintain integrity\, the medical devices 
 need to enroll in an authentication framework and the method needs to be r
 obust to defend against attacks. Moreover\, the framework needs to be ligh
 tweight so that resource constrain medical devices can handle it. To impro
 ve the security system and resist security vulnerabilities\, a physical un
 clonable function (PUF)-based authentication protocol (NAHAP) is proposed.
  The proposed framework needs 6 ms computation time and 193 bytes for comm
 unication which is less than other existing authentication frameworks</p>
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