TY - JOUR
T1 - Preemptive Epidemic Information Transmission Model Using Nonreplication Edge Node Connectivity in Health Care Networks
AU - Thota, Chandu
AU - Mavromoustakis, Constandinos X.
AU - Mastorakis, George
PY - 2024/4/1
Y1 - 2024/4/1
N2 - The reliability in medical data organization and transmission is eased with the inheritance of information and communication technologies in recent years. The growth of digital communication and sharing medium imposes the necessity for optimizing the accessibility and transmission of sensitive medical data to the end-users. In this article, the Preemptive Information Transmission Model (PITM) is introduced for improving the promptness in medical data delivery. This transmission model is designed to acquire the least communication in an epidemic region for seamless information availability. The proposed model makes use of a noncyclic connection procedure and preemptive forwarding inside and outside the epidemic region. The first is responsible for replication-less connection maximization ensuring better availability of the edge nodes. The connection replications are reduced using the pruning tree classifiers based on the communication time and delivery balancing factor. The later process is responsible for the reliable forwarding of the acquired data using a conditional selection of the infrastructure units. Both the processes of PITM are accountable for improving the delivery of observed medical data, over better transmissions, communication time, and achieving fewer delays.
AB - The reliability in medical data organization and transmission is eased with the inheritance of information and communication technologies in recent years. The growth of digital communication and sharing medium imposes the necessity for optimizing the accessibility and transmission of sensitive medical data to the end-users. In this article, the Preemptive Information Transmission Model (PITM) is introduced for improving the promptness in medical data delivery. This transmission model is designed to acquire the least communication in an epidemic region for seamless information availability. The proposed model makes use of a noncyclic connection procedure and preemptive forwarding inside and outside the epidemic region. The first is responsible for replication-less connection maximization ensuring better availability of the edge nodes. The connection replications are reduced using the pruning tree classifiers based on the communication time and delivery balancing factor. The later process is responsible for the reliable forwarding of the acquired data using a conditional selection of the infrastructure units. Both the processes of PITM are accountable for improving the delivery of observed medical data, over better transmissions, communication time, and achieving fewer delays.
KW - conditional reliability
KW - epidemic broadcast
KW - medical data transmission
KW - pruning tree
KW - replication-less connection
UR - http://www.scopus.com/inward/record.url?scp=85189857879&partnerID=8YFLogxK
U2 - 10.1089/big.2022.0278
DO - 10.1089/big.2022.0278
M3 - Article
C2 - 37074400
AN - SCOPUS:85189857879
SN - 2167-647X
VL - 12
SP - 141
EP - 154
JO - Big data
JF - Big data
IS - 2
ER -