CKAA: Certificateless key‐agreement authentication scheme in digital twin telemedicine environment

• Published in: Transactions on emerging telecommunications technologies Vol. 35; no. 1
• Main Authors: Zhang, Jianhong, Wei, Jie, Zhang, Jianan, Bo, Cao
• Format: Journal Article
• Language: English
• Published: 01.01.2024
• ISSN: 2161-3915; 2161-3915
• DOI: 10.1002/ett.4922

Digital twin (DT) technology provides accurate and real‐time visualization data. It is increasingly used in telemedicine to enhance medical efficiency and improve the precision of remote diagnosis and treatment. In telemedicine, DT is used to collect patients' biomedical data and transmit it to cloud servers through wearable devices for simulation, enabling remote diagnosis and treatment. However, telemedicine poses security threats due to the risk of medical data leaks. The security of medical data in transit and the authentication of communication entities are two key issues in cryptography. To address these issue, we propose a certificateless key agreement authentication scheme that does not rely on traditional public key infrastructure and certificate management, reducing the storage cost of resource‐limited wearable devices and avoiding the use of bilinear pairings to lower computational costs. Our scheme includes two parts of key agreement: one between the patient and the cloud server and the other between the patient and the hospital. Through these key agreements, we can ensure the privacy and integrity of medical data during transmission. Furthermore, we prove that the security of our scheme is equivalent to the elliptic curve discrete logarithm assumption in the random oracle model. Therefore, we provide a secure and efficient certificateless key agreement authentication solution that is suitable in digital twin telemedicine environments, particularly for client devices with limited functionality. Digital twin technology in telemedicine improves medical efficiency and remote diagnosis. This article addresses security challenges by proposing a certificateless key agreement authentication scheme, ensuring secure data transmission while reducing storage and computational costs for wearable devices in digital twin telemedicine.