Channel Model on Various Frequency Bands for Wearable Body Area Network
スポンサーリンク
概要
- 論文の詳細を見る
Body Area Network (BAN) is considered as a promising technology in supporting medical and healthcare services by combining with various biological sensors. In this paper, we look at wearable BAN, which provides communication links among sensors on body surface. In order to design a BAN that manages biological information with high efficiency and high reliability, the propagation characteristics of BAN must be thoroughly investigated. As a preliminary effort, we measured the propagation characteristics of BAN at frequency bands of 400MHz, 600MHz, 900MHz and 2400MHz respectively. Channel models for wearable BAN based on the measurement were derived. Our results show that the channel model can be described by using a path loss model for all frequency bands investigated.
- (社)電子情報通信学会の論文
- 2009-02-01
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
-
AOYAGI Takahiro
National Institute of Information and Communications Technology
-
TAKIZAWA Kenichi
National Institute of Information and Communications Technology
-
KATAYAMA Norihiko
University of Electro-Communications
-
TAKADA Jun-ichi
National Institute of Information and Communications Technology
-
Li Huan‐bang
National Inst. Of Information And Communications Technol. Yokosuka‐shi Jpn
-
Takada Jun-ichi
Radio Laboratory Aalto University School Of Science And Technology
-
Takada Jun‐ichi
Department Of International Development Engineering Graduate School Of Science And Engineering Tokyo
-
Takizawa Ken-ichi
Medical Ict Institute National Institute Of Information And Communications Technology
-
Takizawa Kenichi
National Institute Of Information And Communication Technology
関連論文
- Development of spectrum sensing system with GNU Radio and USRP to detect emergency radios (ソフトウェア無線)
- Design and implementation of emergency radio information system (ソフトウェア無線)
- B-17-18 Implementation of a Cooperative Spectrum Sensing System using GNU Radio and USRP
- B-17-16 Performance Analysis of A Supervised Learning Based Automatic Modulation Classification Technique
- Design and implementation of a cognitive radio based emergency sensor network in disaster area (ソフトウェア無線)
- Energy detector prototype for cognitive radio system (ソフトウェア無線)
- Implementation of a channel sounder using GNU radio opensource SDR platform (ソフトウェア無線)
- Clock Offset Compensation in Ultra-Wideband Ranging(Wide Band Systems)
- B-17-21 Cooperative Spectrum Sensing in Disaster Affected Area
- B-17-19 Performance Evaluation of Supervised Learning based Automatic Modulation Classification
- 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
- B-1-13 Measurement of Full Polarimetric Path Gain in LOS Microcell Environment
- B-5-180 Investigation of Doppler Frequency Shift of Dynamic BAN Channel through Analysis of On-Body Antenna Movement
- Signal Subspace Interpolation from Discrete Measurement Samples in Constructing a Database for Location Fingerprint Technique
- B-1-46 The Effect of Antenna Pattern Distortion on UWB Ranging Accuracy
- B-1-29 Path-loss Based Threshold for UWB Ranging
- Distance-dependent threshold for UWB ranging (ワイドバンドシステム)
- Analysis of ranging accuracy for UWB localization (アンテナ・伝播)
- B-17-6 Influence of Quantization on Detection Performance of Cognitive Radio Receiver
- Experimental study of energy detector prototype for cognitive radio system (ソフトウェア無線)
- Body Implanted Medical Device Communications
- Standardization for Body Area Networks
- Study on energy detection with diversity receptions (ソフトウェア無線)
- Performance evaluation of a cooperative sensing of OFDM signal based on energy and cyclic detection (ソフトウェア無線)
- Effects of Bragg Scattering on Ultra-Wideband Signal Transmission from Periodic Surfaces
- Accurate Angle-of-Arrival Estimation Method in Real System by Applying Calibration and Spatial Smoothing(Antennas and Propagation)
- Low-Complexity Viterbi Equalizer for MBOK DS-UWB Systems(Coding, Ultra Wideband Systems)
- Modified Array Calibration for Precise Angle-of-Arrival Estimation
- Modified subspace matching localization: a new approach in generating a fingerprinting database (アンテナ・伝播)
- Double Directional Ultra Wideband Channel Characterization in a Line-of-Sight Home Environment(Propagation, 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)
- Laser beam propagation in ground-to-OICETS laser communication links
- Novel Joint Source-Channel Coding of Periodic ECG Signals for Reliable Wireless Patient Monitoring
- B-17-1 Exploitation of Signal Cyclostationarity for Modulation Classification
- B-1-178 Reduction of AOA estimation error due to random phase error in array response by spatial smoothing preprocessing
- Automatic Modulation Classification Based on Cyclostationarity for Software Radios
- Implementation Issues of Automatic Modulation Classification on Software Defined Radio Platform
- Array Antenna Calibration Method by Using Data within Limited Angular Range
- Optimum Threshold for Indoor UWB ToA-Based Ranging
- Numerical Simulations for Wearable BAN Propagation Channel during Various Human Movements
- Performance Evaluation of Wireless Communications for Capsule Endoscopy
- Performance Enhancement of Multi-Cyclic Detector for Cognitive Radios with an OFDM Primary System
- 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