电讯技术
電訊技術
전신기술
TELECOMMUNICATIONS ENGINEERING
2014年
12期
1678-1682
,共5页
徐卫林%吴迪%覃玉良%韦保林%段吉海
徐衛林%吳迪%覃玉良%韋保林%段吉海
서위림%오적%담옥량%위보림%단길해
无线体域网%超宽带%RAKE接收机%误码率分析%人体信道冲激响应
無線體域網%超寬帶%RAKE接收機%誤碼率分析%人體信道遲激響應
무선체역망%초관대%RAKE접수궤%오마솔분석%인체신도충격향응
wireless body area network%UWB%RAKE receiver%BER analysis%impulse response of body channel
为研究不同接收机的架构、收发天线的角度和判决方式对穿戴式超宽带( UWB )信道RAKE接收机误码率( BER)的影响,利用数字抽样示波器获取时域接收信号,使用CLEAN算法去卷积,得到体表-体表和体表-体外环境下人体信道冲激响应;并采用不同结构不同分支数的RAKE接收机对含有加性高斯噪声的跳时信号进行接收,以分析其对BER的影响。仿真结果表明,包含所有分支的RAKE接收机BER最低但结构复杂;在相同分支数下,包含部分分支的RAKE接收机的BER损失要比选择性RAKE接收机高3 dB,但复杂度较低。对收发天线不同角度的研究表明,收发天线应避免垂直,否则体表反射作用带来的多径分量增多,容易出现码间干扰,从而增加BER。在重复编码情况下,软判决的BER性能要优于硬判决0.2~0.4 dB。该信道模型和误码率分析研究可对穿戴式UWB收发机的架构设计和性能研究提供参考。
為研究不同接收機的架構、收髮天線的角度和判決方式對穿戴式超寬帶( UWB )信道RAKE接收機誤碼率( BER)的影響,利用數字抽樣示波器穫取時域接收信號,使用CLEAN算法去捲積,得到體錶-體錶和體錶-體外環境下人體信道遲激響應;併採用不同結構不同分支數的RAKE接收機對含有加性高斯譟聲的跳時信號進行接收,以分析其對BER的影響。倣真結果錶明,包含所有分支的RAKE接收機BER最低但結構複雜;在相同分支數下,包含部分分支的RAKE接收機的BER損失要比選擇性RAKE接收機高3 dB,但複雜度較低。對收髮天線不同角度的研究錶明,收髮天線應避免垂直,否則體錶反射作用帶來的多徑分量增多,容易齣現碼間榦擾,從而增加BER。在重複編碼情況下,軟判決的BER性能要優于硬判決0.2~0.4 dB。該信道模型和誤碼率分析研究可對穿戴式UWB收髮機的架構設計和性能研究提供參攷。
위연구불동접수궤적가구、수발천선적각도화판결방식대천대식초관대( UWB )신도RAKE접수궤오마솔( BER)적영향,이용수자추양시파기획취시역접수신호,사용CLEAN산법거권적,득도체표-체표화체표-체외배경하인체신도충격향응;병채용불동결구불동분지수적RAKE접수궤대함유가성고사조성적도시신호진행접수,이분석기대BER적영향。방진결과표명,포함소유분지적RAKE접수궤BER최저단결구복잡;재상동분지수하,포함부분분지적RAKE접수궤적BER손실요비선택성RAKE접수궤고3 dB,단복잡도교저。대수발천선불동각도적연구표명,수발천선응피면수직,부칙체표반사작용대래적다경분량증다,용역출현마간간우,종이증가BER。재중복편마정황하,연판결적BER성능요우우경판결0.2~0.4 dB。해신도모형화오마솔분석연구가대천대식UWB수발궤적가구설계화성능연구제공삼고。
A method of analyzing bit error rate( BER) based on channel model of on-body Ultra Wideband ( UWB) networks is proposed with consideration of various structures of RAKE receiver,the angle between transmitter's antenna and receiver's antenna and the way of signals' decision. Digital storage oscilloscope is adopted to acquire received signal of time domain and CLEAN deconvolution algorithm is used to get the impulse response of body channel in the line-of-sight condition of body surface to body surface and body surface to external. Various structures and branch number of RAKE receivers are applied to receive the time-hopping signal accompanied with additive white Gaussian noise and so BER can be analyzed. The simulation results show that absolute RAKE receiver has best BER performance while it has the most com-plex structure. For the same branch number,partial RAKE receiver's BER is nearly 3 dB degraded than se-lective RAKE's but it has lower complex structure. In order to reduce multipath components due to body re-flection and get better BER and inter-symbol interference ( ISI ) , results show that vertical angle between transmitter's antenna and receiver's antenna should be avoided. For repetition code,the BER performance of soft decision is 0. 2~0. 4 dB better than hard decision. The channel model and BER performance analy-sis provide references for UWB transceivers design and performance evaluation.
