@Article{cmc.2020.012441,
AUTHOR = {Gia Nhu Nguyen, Nin Ho Le Viet, Gyanendra Prasad Joshi, Bhanu Shrestha},
TITLE = {Intelligent Tunicate Swarm-Optimization-Algorithm-Based Lightweight Security Mechanism in Internet of Health Things},
JOURNAL = {Computers, Materials \& Continua},
VOLUME = {66},
YEAR = {2021},
NUMBER = {1},
PAGES = {551--562},
URL = {http://www.techscience.com/cmc/v66n1/40464},
ISSN = {1546-2226},
ABSTRACT = {Fog computing in the Internet of Health Things (IoHT) is promising
owing to the increasing need for energy- and latency-optimized health sector provisioning. Additionally, clinical data (particularly, medical image data) are a delicate, highly protected resource that should be utilized in an effective and
responsible manner to fulfil consumer needs. Herein, we propose an energy-effi-
cient fog-based IoHT with a tunicate swarm-optimization-(TSO)-based lightweight Simon cipher to enhance the energy efficiency at the fog layer and the
security of data stored at the cloud server. The proposed Simon cipher uses the
TSO algorithm to select the optimal keys that will minimize the deterioration
of quality between the original and reconstructed (decrypted) images. In this
study, the decrypted image quality is preserved by the peak signal-to-noise ratio
(PSNR) such that consumers can generate precise medical reports from IoHT
devices at the application level. Moreover, a lightweight encryption step is implemented in the fog to improve energy efficiency and reduce additional computations at the cloud server. Experimental results indicate that the TSO-Simon
model achieved a high PSNR of 61.37 dB and a pixel change rate of 95.31.},
DOI = {10.32604/cmc.2020.012441}
}