Priority-based capacity and power allocation in co-located WBANs using Stackelberg and bargaining games

Wang, Jingxian; Sun, Youxian; Ji, Yuefeng

doi:10.1007/s11227-018-2364-z

Cited by 6 publications

(2 citation statements)

References 49 publications

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“…The data collected by each sensor in a WBAN differs in their delay requirements, for example the emergency medical data require minimum delay, so it has the higher privilege to access the channel. Beside the priority of the sensor, it is necessary to classify the WBAN priority among inter-WBAN in multi-WBANs coexistence scenario [ 59 ]. To select the critical data among multiple sensors in multi WBANs coexistence scenario, researchers define the health critical index [ 52 ] where it considers the sensor priority and the WBAN priority.…”

Section: Wban Overviewmentioning

confidence: 99%

Wireless technologies, medical applications and future challenges in WBAN: a survey

et al. 2021

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Interest and need for Wireless Body Area Networks (WBANs) have significantly increased recently. WBAN consists of miniaturized sensors designed to collect and transmit data through wireless network, enabling medical specialists to monitor patients during their normal daily life and providing real time opinions for medical diagnosis. Many wireless technologies have proved themselves in WBAN applications, while others are still under investigations. The choice of the technology to adopt may depend on the disease to monitor and the performance requirements, i.e. reliability, latency and data rate. In addition, the suitable sensor is essential when seeking to extract the data related to a medical measure. This paper aims at surveying the wireless technologies used in WBAN systems. In addition to a detailed survey on the existing technologies, the use of the emerging Low Power Wide Area Network (LPWAN) technologies, and the future 5G, B5G and 6G is investigated, where the suitability of these technologies to WBAN applications is studied from several perspectives. Furthermore, medical applications of WBAN are discussed by presenting their methodologies, the adopted wireless technologies and the used sensors. Given that each medical application requires the appropriate sensor to extract the data, we highlight a wide range of the sensors used in the market for medical systems. Recent and future challenges in WBAN systems are given related to the power consumption, the emergence of the Internet of Things (IoT) technologies in WBAN and others.

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Section: Wban Overviewmentioning

confidence: 99%

Wireless technologies, medical applications and future challenges in WBAN: a survey

et al. 2021

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“…Taking inter-human interference between closely individuals into consider, they addressed a non-cooperative power control game by using pricing mechanism [64]. To enhance the network capacity and mitigate the interference, Wang et al presented a cooperative Nash bargaining game for inter-human and a Stacklberg game for the network on each human body [65].…”

Section: ) Game Theorymentioning

confidence: 99%

Health Monitoring Based on Internet of Medical Things: Architecture, Enabling Technologies, and Applications

et al. 2020

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Recently, wearable devices have got increasing popularity in wide applications in medical and disaster rescue efforts to ensure the health and safety of users, which facilitates the development of the Internet of Medical Things (IoMT). Due to the posture alteration and mobility of users, the topology of the IoMT changes frequently, which increases the difficulty for resource allocation and routing strategy. In this paper, we respectively probe into the health monitoring architectures of the IoMT for both individual and group, allowing the monitored users to move at will. Furtherly, combined with the diversity of disaster rescuers, we build an IoMT-based disaster rescuer health monitoring system with searchers, doctors and porters. For each application, we point out the enabling technologies and demonstrate the existing researches. It is worth noting that the complexity of environment and high mobility of rescuers increase the probability of route breakage. Thus, this paper creatively addresses effective routing repair solutions for route breakage in IoMT-based disaster rescuer health monitoring system by exploiting the mobility of rescuers. Finally, we forecast three most likely directions in the field of IoMTs. INDEX TERMS IoMT, health monitoring, individual, group, disaster rescuer.

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Reduce energy consumption in sensors using a smartphone, smartwatch, and the use of SFLA algorithms (REC-SSS)

2020

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Priority-based capacity and power allocation in co-located WBANs using Stackelberg and bargaining games

Cited by 6 publications

References 49 publications

Wireless technologies, medical applications and future challenges in WBAN: a survey

Wireless technologies, medical applications and future challenges in WBAN: a survey

Health Monitoring Based on Internet of Medical Things: Architecture, Enabling Technologies, and Applications

Reduce energy consumption in sensors using a smartphone, smartwatch, and the use of SFLA algorithms (REC-SSS)

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