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Main Authors: Li, Andric, Luo, Grace, Tao, Christopher, Zuluaga, Diego
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.07629
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author Li, Andric
Luo, Grace
Tao, Christopher
Zuluaga, Diego
author_facet Li, Andric
Luo, Grace
Tao, Christopher
Zuluaga, Diego
contents Wearable devices like smartwatches, wristbands, and fitness trackers are designed to be lightweight devices to be worn on the human body. With the increased connectivity of wearable devices, they will become integral to remote healthcare solutions. For example, a smartwatch can measure and upload a patient's vital signs to the cloud through a network which is monitored by software backed with Artificial Intelligence. When an anomaly of a patient is detected, it will be alerted to healthcare professionals for proper intervention. Remote healthcare offers substantial benefits for both patients and healthcare providers as patients may avoid expensive in-patient care by choosing the comfort of staying at home while being monitored after a surgery and healthcare providers can resolve challenges between limited resources and a growing population. While remote healthcare through wearable devices is ubiquitous and affordable, it raises concerns about patient privacy. Patients may wonder: Is my data stored in the cloud safe? Can anyone access and manipulate my data for blackmailing? Hence, securing patient private information end-to-end becomes crucial. This paper explores solutions for applying modern cryptography to secure wearable apps and ensure patient data is protected with confidentiality, integrity, and authenticity from wearable edge to cloud.
format Preprint
id arxiv_https___arxiv_org_abs_2410_07629
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Secure Wearable Apps for Remote Healthcare Through Modern Cryptography
Li, Andric
Luo, Grace
Tao, Christopher
Zuluaga, Diego
Cryptography and Security
Wearable devices like smartwatches, wristbands, and fitness trackers are designed to be lightweight devices to be worn on the human body. With the increased connectivity of wearable devices, they will become integral to remote healthcare solutions. For example, a smartwatch can measure and upload a patient's vital signs to the cloud through a network which is monitored by software backed with Artificial Intelligence. When an anomaly of a patient is detected, it will be alerted to healthcare professionals for proper intervention. Remote healthcare offers substantial benefits for both patients and healthcare providers as patients may avoid expensive in-patient care by choosing the comfort of staying at home while being monitored after a surgery and healthcare providers can resolve challenges between limited resources and a growing population. While remote healthcare through wearable devices is ubiquitous and affordable, it raises concerns about patient privacy. Patients may wonder: Is my data stored in the cloud safe? Can anyone access and manipulate my data for blackmailing? Hence, securing patient private information end-to-end becomes crucial. This paper explores solutions for applying modern cryptography to secure wearable apps and ensure patient data is protected with confidentiality, integrity, and authenticity from wearable edge to cloud.
title Secure Wearable Apps for Remote Healthcare Through Modern Cryptography
topic Cryptography and Security
url https://arxiv.org/abs/2410.07629