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A Proxy-Based Solution for Asynchronous Telemedical Systems

Research output: Contribution to journalArticleScientificpeer-review

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A Proxy-Based Solution for Asynchronous Telemedical Systems. / Rauti, Sampsa; Lahtiranta, Janne; Parisod, Heidi; Hyrynsalmi, Sami; Salanterä, Sanna; Aromaa, Minna Elisabeth; Smed, Jouni; Leppänen, Ville.

In: International Journal of E-health and Medical Communication, Vol. 8, No. 3, 5, 01.07.2017, p. 70-83.

Research output: Contribution to journalArticleScientificpeer-review

Harvard

Rauti, S, Lahtiranta, J, Parisod, H, Hyrynsalmi, S, Salanterä, S, Aromaa, ME, Smed, J & Leppänen, V 2017, 'A Proxy-Based Solution for Asynchronous Telemedical Systems', International Journal of E-health and Medical Communication, vol. 8, no. 3, 5, pp. 70-83. https://doi.org/10.4018/IJEHMC.2017070105

APA

Rauti, S., Lahtiranta, J., Parisod, H., Hyrynsalmi, S., Salanterä, S., Aromaa, M. E., ... Leppänen, V. (2017). A Proxy-Based Solution for Asynchronous Telemedical Systems. International Journal of E-health and Medical Communication, 8(3), 70-83. [5]. https://doi.org/10.4018/IJEHMC.2017070105

Vancouver

Rauti S, Lahtiranta J, Parisod H, Hyrynsalmi S, Salanterä S, Aromaa ME et al. A Proxy-Based Solution for Asynchronous Telemedical Systems. International Journal of E-health and Medical Communication. 2017 Jul 1;8(3):70-83. 5. https://doi.org/10.4018/IJEHMC.2017070105

Author

Rauti, Sampsa ; Lahtiranta, Janne ; Parisod, Heidi ; Hyrynsalmi, Sami ; Salanterä, Sanna ; Aromaa, Minna Elisabeth ; Smed, Jouni ; Leppänen, Ville. / A Proxy-Based Solution for Asynchronous Telemedical Systems. In: International Journal of E-health and Medical Communication. 2017 ; Vol. 8, No. 3. pp. 70-83.

Bibtex - Download

@article{4807c0bef71743fa9f12cfa5350fff58,
title = "A Proxy-Based Solution for Asynchronous Telemedical Systems",
abstract = "Asynchronous telemedicine systems face many challenges related to information security as the patient's sensitive information and data on medicine dosage is transmitted over a network when monitoring patients and controlling asynchronous telemedical IoT devices. This information may be modified or spied on by a malicious adversary. To make asynchronous telemedicine systems more secure, the authors present a proxy-based solution against data modification and spying attacks in web-based telemedical applications. By obfuscating the executable code of a web application and by continuously dynamically changing obfuscation, the authors' solution makes it more difficult for a piece of malware to attack its target. They use a constructive research approach. They characterize the threat and present an outline of a proposed solution. The benefits and limitations of the proposed solution are discussed. Cyber-Attacks targeted at the information related to patient's care are a serious threat in today's telemedicine. If disregarded, these attacks have negative implications on patient safety and quality of care.",
keywords = "Asynchronous Telemedicine, Man-in-The-Middle Attacks, Obfuscation, Telemedical IoT Devices, Web Application Security",
author = "Sampsa Rauti and Janne Lahtiranta and Heidi Parisod and Sami Hyrynsalmi and Sanna Salanter{\"a} and Aromaa, {Minna Elisabeth} and Jouni Smed and Ville Lepp{\"a}nen",
year = "2017",
month = "7",
day = "1",
doi = "10.4018/IJEHMC.2017070105",
language = "English",
volume = "8",
pages = "70--83",
journal = "International Journal of E-health and Medical Communication",
issn = "1947-315X",
publisher = "IGI Global",
number = "3",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - A Proxy-Based Solution for Asynchronous Telemedical Systems

AU - Rauti, Sampsa

AU - Lahtiranta, Janne

AU - Parisod, Heidi

AU - Hyrynsalmi, Sami

AU - Salanterä, Sanna

AU - Aromaa, Minna Elisabeth

AU - Smed, Jouni

AU - Leppänen, Ville

PY - 2017/7/1

Y1 - 2017/7/1

N2 - Asynchronous telemedicine systems face many challenges related to information security as the patient's sensitive information and data on medicine dosage is transmitted over a network when monitoring patients and controlling asynchronous telemedical IoT devices. This information may be modified or spied on by a malicious adversary. To make asynchronous telemedicine systems more secure, the authors present a proxy-based solution against data modification and spying attacks in web-based telemedical applications. By obfuscating the executable code of a web application and by continuously dynamically changing obfuscation, the authors' solution makes it more difficult for a piece of malware to attack its target. They use a constructive research approach. They characterize the threat and present an outline of a proposed solution. The benefits and limitations of the proposed solution are discussed. Cyber-Attacks targeted at the information related to patient's care are a serious threat in today's telemedicine. If disregarded, these attacks have negative implications on patient safety and quality of care.

AB - Asynchronous telemedicine systems face many challenges related to information security as the patient's sensitive information and data on medicine dosage is transmitted over a network when monitoring patients and controlling asynchronous telemedical IoT devices. This information may be modified or spied on by a malicious adversary. To make asynchronous telemedicine systems more secure, the authors present a proxy-based solution against data modification and spying attacks in web-based telemedical applications. By obfuscating the executable code of a web application and by continuously dynamically changing obfuscation, the authors' solution makes it more difficult for a piece of malware to attack its target. They use a constructive research approach. They characterize the threat and present an outline of a proposed solution. The benefits and limitations of the proposed solution are discussed. Cyber-Attacks targeted at the information related to patient's care are a serious threat in today's telemedicine. If disregarded, these attacks have negative implications on patient safety and quality of care.

KW - Asynchronous Telemedicine

KW - Man-in-The-Middle Attacks

KW - Obfuscation

KW - Telemedical IoT Devices

KW - Web Application Security

U2 - 10.4018/IJEHMC.2017070105

DO - 10.4018/IJEHMC.2017070105

M3 - Article

VL - 8

SP - 70

EP - 83

JO - International Journal of E-health and Medical Communication

JF - International Journal of E-health and Medical Communication

SN - 1947-315X

IS - 3

M1 - 5

ER -