After a large improvement in health care services, Wireless Body Area Sensor Network (WBASN) is used in different fields where health care monitoring can be done continuously and from a distance. Many selected protoco...After a large improvement in health care services, Wireless Body Area Sensor Network (WBASN) is used in different fields where health care monitoring can be done continuously and from a distance. Many selected protocols are given in literature work which can improve the performance of WBASN by focusing on delay, routing and energy efficiency. In our research, we will focus on improving throughput, network life time, and decrease end-to-delay. In given research, the two sink nodes utilized and AnyCasting concept will be used. Dual Sinks based Scheme (DSS) for WBASN will be compared with existing DARE, SIMPLE, LAEEBA and M-ATTEMPT protocols. DSS performance found more efficient than DARE, SIMPLE, LAEEBA and M-ATTEMPT respectively in throughput. From results, DSS network life time is greater than DARE, SIMPLE, LAEEBA and M-ATTEMPT with minimum delay. In DSS, energy parameter is in tradeoff with the improved parameters, because of a computation of RSSI which do more process and utilize more energy.展开更多
IEEE 802.15.4 protocol has attracted much attention in research and industrial communities as candidate technology for wireless body area sensor networks(WBASNs).IEEE 802.15.4 supports the exclusive use of a wireles...IEEE 802.15.4 protocol has attracted much attention in research and industrial communities as candidate technology for wireless body area sensor networks(WBASNs).IEEE 802.15.4 supports the exclusive use of a wireless channel through guaranteed time slot(GTS).However,on one hand,bandwidth underutilization rate may be lower because of the variance between the guaranteed bandwidth and the arrival rate.On the other hand,the waiting time for transmitting emergency notification is getting longer when the GTSs assigned to the nodes increase in WBASNs.To solve these problems,in this article,a new scheme is proposed to reduce transmission delay for the alarm notification in emergent situations.Simulation results are presented to validate the efficiency of the proposed scheme by comparing it with the medium access control(MAC) protocol of IEEE 802.15.4.展开更多
A wearable body area sensor network(WBASN) was designed and implemented to monitor movement information of stroke patients in real time. The sensor system was combined with a previously developed distributed functiona...A wearable body area sensor network(WBASN) was designed and implemented to monitor movement information of stroke patients in real time. The sensor system was combined with a previously developed distributed functional electrical stimulation(d FES) system, which is a promising technology for motor rehabilitation of stroke patients. Movement information could be useful in outcome assessment of rehabilitation, or for closed-loop adaptive stimulation during rehabilitation. In addition,a short-latency, low-power communication protocol was developed to meet the clinical requirements of energy efficiency and high rate of data feed-through. The prototype of the WBASN was tested in preliminary human experiments. Experimental results demonstrate the feasibility of the proposed wearable body area sensor network in monitoring arm movements on healthy subjects.展开更多
文摘After a large improvement in health care services, Wireless Body Area Sensor Network (WBASN) is used in different fields where health care monitoring can be done continuously and from a distance. Many selected protocols are given in literature work which can improve the performance of WBASN by focusing on delay, routing and energy efficiency. In our research, we will focus on improving throughput, network life time, and decrease end-to-delay. In given research, the two sink nodes utilized and AnyCasting concept will be used. Dual Sinks based Scheme (DSS) for WBASN will be compared with existing DARE, SIMPLE, LAEEBA and M-ATTEMPT protocols. DSS performance found more efficient than DARE, SIMPLE, LAEEBA and M-ATTEMPT respectively in throughput. From results, DSS network life time is greater than DARE, SIMPLE, LAEEBA and M-ATTEMPT with minimum delay. In DSS, energy parameter is in tradeoff with the improved parameters, because of a computation of RSSI which do more process and utilize more energy.
基金supported by the National Science and Technology Supporting Project (2008BAH24B02)the Hi-Tech. Research and Development Program of China (2009AA02Z412)+1 种基金Beijing New Star of Science and Technology (2007A046)the Fund for Foreign Scholars in University Research and Teaching Programs (B07005)
文摘IEEE 802.15.4 protocol has attracted much attention in research and industrial communities as candidate technology for wireless body area sensor networks(WBASNs).IEEE 802.15.4 supports the exclusive use of a wireless channel through guaranteed time slot(GTS).However,on one hand,bandwidth underutilization rate may be lower because of the variance between the guaranteed bandwidth and the arrival rate.On the other hand,the waiting time for transmitting emergency notification is getting longer when the GTSs assigned to the nodes increase in WBASNs.To solve these problems,in this article,a new scheme is proposed to reduce transmission delay for the alarm notification in emergent situations.Simulation results are presented to validate the efficiency of the proposed scheme by comparing it with the medium access control(MAC) protocol of IEEE 802.15.4.
基金National Natural Science Foundation of Chinagrant number:31070749,81271684+2 种基金National Basic Research Program of Chinagrant number:2011CB013304Translational Medicine Research Grant of Project 985III from School of Medicine of SJTU
文摘A wearable body area sensor network(WBASN) was designed and implemented to monitor movement information of stroke patients in real time. The sensor system was combined with a previously developed distributed functional electrical stimulation(d FES) system, which is a promising technology for motor rehabilitation of stroke patients. Movement information could be useful in outcome assessment of rehabilitation, or for closed-loop adaptive stimulation during rehabilitation. In addition,a short-latency, low-power communication protocol was developed to meet the clinical requirements of energy efficiency and high rate of data feed-through. The prototype of the WBASN was tested in preliminary human experiments. Experimental results demonstrate the feasibility of the proposed wearable body area sensor network in monitoring arm movements on healthy subjects.
