Design of Resources Allocation in 6G Cybertwin Technology Using the Fuzzy Neuro Model in Healthcare Systems.
Salman Ali SyedK Sheela Sobana RaniGouse Baig MohammadG Anil KumarKrishna Keerthi ChennamR JaikumarYuvaraj NatarajanSrihari KU Barakkath NishaVenkatesa Prabhu SundramurthyPublished in: Journal of healthcare engineering (2022)
In 6G edge communication networks, the machine learning models play a major role in enabling intelligent decision-making in case of optimal resource allocation in case of the healthcare system. However, it causes a bottleneck, in the form of sophisticated memory calculations, between the hidden layers and the cost of communication between the edge devices/edge nodes and the cloud centres, while transmitting the data from the healthcare management system to the cloud centre via edge nodes. In order to reduce these hurdles, it is important to share workloads to further eliminate the problems related to complicated memory calculations and transmission costs. The effort aims mainly to reduce storage costs and cloud computing associated with neural networks as the complexity of the computations increases with increasing numbers of hidden layers. This study modifies federated teaching to function with distributed assignment resource settings as a distributed deep learning model. It improves the capacity to learn from the data and assigns an ideal workload depending on the limited available resources, slow network connection, and more edge devices. Current network status can be sent to the cloud centre by the edge devices and edge nodes autonomously using cybertwin, meaning that local data are often updated to calculate global data. The simulation shows how effective resource management and allocation is better than standard approaches. It is seen from the results that the proposed method achieves higher resource utilization and success rate than existing methods. Index Terms are fuzzy, healthcare, bioinformatics, 6G wireless communication, cybertwin, machine learning, neural network, and edge.
Keyphrases
- neural network
- healthcare
- machine learning
- big data
- deep learning
- electronic health record
- mental health
- artificial intelligence
- sentinel lymph node
- molecular dynamics simulations
- molecular dynamics
- squamous cell carcinoma
- early stage
- health information
- medical students
- health insurance
- network analysis
- neoadjuvant chemotherapy