BS-9-4 Performance analysis of low rate WPAN for wearable medical applications
スポンサーリンク
概要
- 論文の詳細を見る
- 社団法人電子情報通信学会の論文
- 2007-03-07
著者
-
Kohno Ryuji
National Institute Of Information And Communications Technology
-
Kohno Ryuji
National Institute Of Information And Communications Technology (nict):yokohama National University
-
Kohno Ryuji
National Inst. Of Information And Communications Technol. Yokosuka‐shi Jpn
-
LI Huan-Bang
National Institute of Information and Communications Technology
-
Li Huan‐bang
National Inst. Of Information And Communications Technol. Yokosuka‐shi Jpn
-
ZHEN Bin
National Institute of Information and Communications Technology
関連論文
- Clock Offset Compensation in Ultra-Wideband Ranging(Wide Band Systems)
- Reservation-Based Dynamic TDMA Protocol for Medical Body Area Networks
- An Adaptive Superframe Structure Algorithm for IEEE 802.15.4 WPANs
- Development of an Implantable WBAN Path-Loss Model for Capsule Endoscopy
- Channel Model on Various Frequency Bands for Wearable Body Area Network
- Overview of Research, Development, Standardization, and Regulation Activities in NICT UWB Project(Wide Band Systems)
- Development of Ultra-Wideband Short-Range Impulse Radar System for Vehicular Applications(Recent Devices, Circuits, and Systems for Millimeter-wave ITS Applications)
- Clear Channel Assessment in Ultra-Wideband Sensor Networks
- BS-9-4 Performance analysis of low rate WPAN for wearable medical applications
- Body Implanted Medical Device Communications
- Standardization for Body Area Networks
- Low-Complexity Viterbi Equalizer for MBOK DS-UWB Systems(Coding, Ultra Wideband Systems)
- A Prototype Modem with the Capability of Unequal Error Protection Developed for ETS-VIII Experiments(Recent Fundamental Technologies for Broadband Satellite Communications)
- B-1-33 A Dynamic UWB-WBAN Channel Model for Some Medical Applications
- Numerical Simulations for Wearable BAN Propagation Channel during Various Human Movements
- Detection Capability of Downlink Signals in Mobile WiMAX and 3GPP LTE with an FFT-Based UWB Receiver
- A Fundamental Study of Prolonging the Network Lifetime with Route Switching in Energy Constrained Mesh Networks
- A Fundamental Study of Prolonging the Network Lifetime with Route Switching in Energy Constrained Mesh Networks
- A Fundamental Study of Prolonging the Network Lifetime with Route Switching in Energy Constrained Mesh Networks
- An Independent Sleep Scheduling Protocol for Increasing Energy-Efficiency in Wireless Body Area Networks
- B-7-90 A Study of Network Lifetime in Cooperative Wireless Mesh Networks with Energy Constraint(B-7.情報ネットワーク)
- Detection Capability of Downlink Signals in Mobile WiMAX and 3GPP LTE with an FFT-Based UWB Receiver
- An Independent Sleep Scheduling Protocol for Increasing Energy-Efficientcy in Wireless Body Area Networks