Abstract
With advantages such as short and long transmission ranges, D2D communication, low latency, and high node density, the 5G communication standard is a strong contender for smart healthcare. Smart healthcare networks based on 5G are expected to have heterogeneous energy and mobility, requiring them to adapt to the connected environment. As a result, in 5G-based smart healthcare, building a routing protocol that optimizes energy consumption, reduces transmission delay, and extends network lifetime remains a challenge. This paper presents a clustering-based routing protocol to improve the Quality of services (QoS) and energy optimization in 5G-based smart healthcare. QoS and energy optimization are achieved by selecting an energy-efficient clustering head (CH) with the help of game theory (GT) and best multipath route selection with reinforcement learning (RL). The cluster head selection is modeled as a clustering game with a mixed strategy considering various attributes to find equilibrium conditions. The parameters such as distance between nodes, the distance between nodes and base station, the remaining energy and speed of mobility of the nodes were used for cluster head (CH) selection probability. An energy-efficient multipath routing based on reinforcement learning (RL) having (Q-learning) is proposed. The simulation result shows that our proposed clustering-based routing approach improves the QoS and energy optimization compared to existing approaches. The average performances of the proposed schemes CRP-GR and CRP-G are 78% and 71%, respectively, while the existing schemes, such as FBCFP, TEEN and LEACH have average performances of 63%, 48% and 35% accordingly.
Highlights
The Internet of Things (IoT) and 5G have increasingly been integrated into various facets of daily life, from smart cities to smart agriculture and from traditional to smart healthcare applications [1]
The TEEN and Low Energy Adaptive Clustering Hierarchy (LEACH) protocols are selected for comparison because these are the standard routing protocols and many more protocols are created based on these protocols, such as FBCFP [38]
Every cluster group has a cluster head in the proposed scheme based on various factors
Summary
The Internet of Things (IoT) and 5G have increasingly been integrated into various facets of daily life, from smart cities to smart agriculture and from traditional to smart healthcare applications [1]. IoT and 5G-based systems enable the development of more accurate diagnostic tools, more effective treatment, and devices that improve quality of life. When IoT is used in a medical setting, it is referred to as IoMT (Internet of Medical Things). IoMT has changed the medical field by enabling remote healthcare concerning social benefits and discernment by diagnosing diseases and patients monitoring with resourceefficient methods [2,3]. By integrating IoT and machine learning into remote healthcare monitoring, additional efficient medical-care methods can be discovered [4,5,6]
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