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开关磁阻电机系统理论与控制技术

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开关磁阻电机系统理论与控制技术,介绍了基本理论,电机设计,Matlab仿真内容提要本书共分为8章分别阐述了开关磁阻电机及其控制系统发展概况,推导了电机线性、准线性和非线性数学模型,给出了开关磁阻电机计算设计程序,讲述了开关磁阻电机有限元分析方法,研究了开关磁阻电机调速系统的控制策略,详细介绍了利用软件建立开关磁阻电机仿真模型的步骤,井进行了稳态性能仿真和动态性能仿真,最后针对DSP对开关磁阻电机有位置传感器和无位置传感器调速系统进行理论分析与设计开本书适用于从事电力电子及电气传动专业高等学院教师和研究生,以及相关专业好、运的科研机构的研究人员和直流关磁阻木空把矿、航功率范本磁阻电图书在版编目(CIP)数据上的拓机线性开关磁阻电机系统理论与控制技术/吴红星编著.一北京:中国了开关电力出版社,20107略,以(现代工业自动化技术应用丛书)电SBN978-7-5123-0336-2行有限:1.①开…Ⅱ.①吴…Ⅲ.①开关控制-磁阻电机-系统理在Max论②开关控制-磁阻电机控制Ⅳ.①TM352线:对车中国版本图书馆CIP数据核字(2010)第070773号系统仿J结构来》电枝该模型E控制器矩分配巨中国电力出版社出版、发行机的发E北京三里河路6号1004htp/www.cspp.com.cn)磁阻电积北京丰源印剧厂印刷电右各地新华书店经售建立开弓2010年8月第一版2010年8月北京第一次印剧统稳态忙787毫米X1092毫米16开本17印张452千字了优化。印数000-3000册定价36.00元电机调这敬告读者法,推毛木书封面贴有防伪标签,加热后中心图案消失各模型过本书如有印装质量问题,我社发行部负责退换电初版权专有翻印必究关磁阻欠压保折前厂言开关磁阻电机调速系统具有结构简单、坚固、工作可靠、成本低、系統控制灵活、调速性能好、运行效率高、温升低等诸多优点,它综合了交流变频调速系统的坚固耐用、适用于恶劣环境和直流调速系统的可控性好等优良特性,被专家视为电气传动系统发展过程中的一个里程碑。开关磁阻电机特别适用在恶劣环境和要求超高速的场合下运行,并可广泛地应用在纺织、造纸、煤矿、航空、机槭等领域的造纸机、浆纱机、采煤机,风机、水泵、家用电器和机器人等负载上,功率范围从几瓦到儿兆瓦,转速范围从几转到儿万转。本书的宗旨是,着眼于实用技术,并兼顾到发展趋势。考虑到实际应用的需要,介绍了开关磁阻电机的几种结构形式,针对新型开关磁阻电机进行论述,总结开关磁阻电机在绕组结构形式上的拓扑结构,论述各种绕组拓扑结构的优缺点。在开关磁阻电机基本方程式的基础上,推导电机线性数学模型和准线性数学模型,具体分析绕组电流、绕组磁链、绕组电感和电磁转矩,给出了开关磁阻电机设计步骤,并分析了转矩脉动产生的原因,研究开关磁阻电机调速系统的控制策略,以DSP为控制芯片,给出了开关磁阻电机调速系统设计方法和基本设计软件。电机本体设计方面:给出计算程序,对128电机进行各类参数的计算:对开关磁阻电机进行有限元分析:利用 Ansoft软件建立开关磁阻电机的有限元模,用 RMxprt得到二维几何模型,在 Maxwell2D的瞬态求模块下进行有限元分析;分析得到的绕组电流、绕组磁链、电磁转矩曲线:对转子极弧系数、轴径、开通角等参数进行优化分析:在分析有限元计算的矩角特性曲线和系统仿真后的转矩输出波形的基础上,得出产生转矩脉动的根本原因,通过改进电机定子磁极的结构来减小气隙磁场的突变,通过修改气隙等参数从而减小和抑制转矩脉动。电机控制策略方面:根据数学模型研究基于永磁磁通控制开关磁阻电机非线性数学模型。在该模型的基础上,研究基于永磁磁通控制开关磁阻电机调速系统的控制策略。设计绕组电流闭环控制器、转速调节控制器,硏究基于永磁磁通控制开关磁阻电机转矩分配的控制策略,推导了转矩分配函数,并设计转矩控制器。分析开关磁阻电机的发电运行机理和能流关系,对开关磁阻电机的发电运行理论进行线性分析,推导基本电路方程和相电流解析式;通过线性模型,分析开关磁阻电机的有效发电条件电机仿真技术方面:用 MATLAB软件建立开关磁阻电机的准非线性动态仿真模型的基础上,建立开关磁阻电机系统的系统模型,并对系统模型进行了稳态性能仿真和动态性能仿真。利用系统稳态性能仿真,综合考虑最大平均转矩和效率这两个优化目标,对升关磁阻电机的开关角进行了优化。针对传统PⅠ控制策略对开关醚阻电机调速系统进行仿真,得到采用传统P控制策略的电机调速系统的电机相电流波形和系统转矩波形。深入研究基于模糊控制的控制理论和控制方法,推导基于模糊控制的搾制算法,提出一种模糊PI相结合的控制方法,并建立仿真模型,对各模型进行比较,以便得到最佳控制策略电机控制系统方面:介绍开关磁阻电机调速特点,分析电机驱动功率电路拓扑结构,介绍开关磁阻电机调速系统转子位置传感器分类及使用方法。设计了驱动电路,过流保护电路、过压和欠压保护电路、电机专用控制电路等硬件。利用T公司的电机专用DsP设计开关磁阻电机有位全书共8章,第1章介绍了开关磁阻电机调速系统的概况、发展趋势及主要应用领域。第2章介绍了开关磁阻电机的线性数学模型、准线性数学模型及非线性数学模型。第3章分析了开关磁阻电机的各类损耗,介绍了开关磁阻电机本体的设计方法。第4章利用 Ansoft软件建立开关磁阻电机的有限元模,用 RMxprt得到二维几何模型,在 Maxwell2D的瞬态模块下进行有限元分析。分析得到的绕组电流、绕组磁链、电磁转矩曲线。对转子极弧系数、轴径、开通角等参数进行优化分析。第5章介绍了开关磁阻电机调速系统在各类调速系统的地位,设计开关磁阻调速控制系统硬件。第6章针对开关磁阻电机调速特性研究开关磁阻电机控制策略和发电机理。第7章用 MATLAB软件建立开关磁阻电机系統的系统模型,并对系统模型进行稳态性能仿真和动态性能仿真。第8章针对DSP对开关磁阻电机有位置传感器和无位置传感器调速系统进行理论分析与设计。前言本书由吴红星编著,各章编写工作有赵晢、嵇恒、刘莹、钱海荣、黄冬林、倪天、郭庆波、第1章叶宇骄等参与。全书由吴红星统稿,寇宝泉教授支持本书的编写并审阅了书稿。编写过程中,参1.1阅和利用了国内外大量文献、资料,在此对原作者一并致谢。1.2限于作者水平,加上时间仓促,缺点、错误在所难免,热忱欢迎广大读者批评指正。1,2,1,2,21,3于14J14.114.214.314.414.514.614.714.81.5开1.6开第2章2.1开22开2.2,122.32,242,2.52.3开24开2,4.124.22.4.324424.5主要应用领域。第2第3章分析了开关soft软件建立开关模块下进行有限元径、开通角等参数最》设计开关磁阻调速略和发电机理。第7态性能仿真和动态速系统进行理论分前言第1章绪论、倪天、郭庆波、11开关磁阻电机的发展概况…编写过程中,参12开关磁阻电机的结构特点…,+…日2…2121开关磁阻电机的优点………者批评指正。1.2.2开关磁阻电机的缺点和和国国面自和“““““国目目围把的和一41.3开关磁阻电机的优化方法141.4开关磁阻电机系统抑制转矩脉动技术…1.4.1基于抑制转矩脉动的传统控制策略…14.2基于抑制转矩脉动的线性化控制…614.3基于抑制转矩脉动的变结构控制61.44基于抑制转矩脉动的智能控制理论…14.5基于抑制转矩脉动的转矩分配策略…………146基于抑制转矩脉动的迭代学习控制…1014.7基于抑制转矩脉动的微步控制策略…………101.4.8其他方法015开关磁阻电机未来研究方向…1.6开关磁阻电机的工业应用………………………2第2章开关磁阻电机的工作原理及数学模型142.1开关磁阻电机基本原理22开关磁阻电机的一些基本结构…1422.1单相开关磁阻电机……………142.22两相开关磁阻电机……………152.2.3三相开关磁阻电机………………52.24四相开关磁阻电机……………………………………1622.5五相以上开关磁阻电机1623开关磁阻电机改进结构…1624开关磁阻电机数学模型……………21224.1电路方程…2.42机械方程2224,3机电联系方程*…,…222.44线性模型……1232,4.5准线性模型25混合励磁开关磁阻电机数学模型…日型道日副上理福2.5混合励磁电机磁路特点………………252混合励磁开关磁阻电机转矩平衡方程……4446i4.4.7孟第3章开关磁阻电机电磁设计……………………3744863.1开关磁阻电机设计及优化方法……………13945有限31.1电机本体结构设计………94.5.R…………393.1.2电机参数优化设计………4.52M32开关磁阻电机损耗分析……45.3有321绕组铜损分析…………42046基于车3.2.2机械损耗分析……404.6.1影3.2.3杂散损耗分析…44.62开…………41324电机铁损分析……………………………………………………414.6.3定33开关磁阻电机参数计算…+45第5章开关331电负荷与磁负荷…51开关磁332主要尺寸4534开关磁阻电机本体设计示例…………475.12电34.1相数,极数和绕组端电压……………5.3电压34.2主要尺寸的选择计计4852开关磁343其他结构尺寸及绕组匝数”5.3开关磁阝48344电流及转矩计算……………………………………5053.1开关34.5绕组设计……………………………………………15053.2开关34.6参数计算533开关51534开关第4章开关磁阻电机性能优化…54开关磁阵41电机电磁场的理论基础………………5454.l标准42有限元法54542其他421有限元法的发展55…555.5迭代学买42.2 Ansoft软件简介……………………………555.1基于423 Ansoft有限元法…55,2迭代424电磁场有限元方法的特点及一般步骤65.6开关磁43 RMxprt软件设计及使用方法………15756.1速度43.1启动软件……………5858562转矩432新建SRM模型563电流4.3.3建模结果……68第6章开关磁434仿真计算61开关磁阳43.5模型导出…1111736.1.1与步44 Maxwell2D软件设计及使用方法…………“环“746.12与反44.1打开工程文件………m…“+t74613与直442模型设置……17614与无44.3材料设置………786.1.5与异444边界及激励源设置806.2功率电子44.6设置仿真参数+,90……34……*34447运动部分设置……………………………………………9544.8仿真运算96+:37…014.5有限元分析结果处理………39451 RMxprt输出的性能曲线………10139452 Maxwell2D的求解结果…394.3有限元后处理………1044046基于转矩波动抑制电机本体优化…1-11054046.1影响转矩波动的因素…404.62开通角、关断角对转矩波动的影响…………………106…41463定子磁极结构对转矩波动的影响……………xx+107414第5章开关磁阻电机的控制策略…5.开关磁阻电机控制方式……,中日副日是…:1045…:4551l角度位置控制(APC)1111045512电流斩波控制(CCC)……………………………1l475.1.3电压斩波控制(CVC)……………4852开关磁阻电机调速特性53开关磁阻电机能量回馈控制…::1:1111248…4853.1开关磁阻电机发电运行机理…50532开关磁阻电机发电运行的励磁过程:50533开关磁阻电机的能量变换理论……………………………1451534开关磁阻电机发电状态工作特点……………”…11654开关磁阻电机PD控制::18*54541标准数字PID算法………………19:54542其他PD方法1120……5555迭代学习控制…121:5551基于模型控制系统和迭代学习控制系统概述…………:121555.52迭代学习控制过程和开环PD迭代学习控制……122“565.6开关磁阻电机的转矩分配控制系统设计…123……*5756.!速度调节器设计……………123585.6.2转矩分配函数的设计………425+58563电流控制器设计……………1265968第6章开关磁阻电机调速系统硬件设计……………128696,1开关磁阻电机调速系统在电机控制中的地位1128…736.L.1与步进电动机驱动系统的比较+++:128…746.1.2与反应式同步电动机的比较…………28746.1.3与直流电动机的比较“…自129a776.14与无换向器直流电动机的比较:1297861.5与异步电动机变频调速系统的比较………1298062功率电子器件…………………130622功率GBT工作特点……1317463PWM控制技术…11137.4.6.3.1传统PWM技术…计计……1347.463.2优化后的PWM技术“国计1347.4633空间电压矢量PWM控制…计………13574.6.34跟踪型PWM控制技术1357464开关磁阻电机控制器功率拓扑结构………-13674641不对称半桥主回路…137第8章642H桥主回路…积+…137643不对称半桥改进型”…1378.2644(n+1)型功率变换器1388264.5电容裂相型…“……1388,264.6电容转储型…+1…:1388365整流及吸收回路设计………1398.36.5.1功率吸收电路设计…………………139836.52吸收电路参数计算…::+140846.53整流电路设计……846.54电流采样与处理电路…道上中中和国和8,46.5.5转子位置信号采集与处理……………………1428.5656系统保护电路设计:1498.66.6功率及驱动电路11518.66.61SKH24驱动模块在SRD系统中的应用…………518.6.62S19976DY—桥式驱动器的原理及应用11528.76.63EXB841工作原理…578.8664FCAS50SN60开关磁阻电机功率模块…………1598.第7章基于DSP开关磁阻电机控制器设计……1658.7.DSP的特点1657.2电动机DSP控制系统基础……………………167参考文721DSP电机控制特点…1677.22数字滤波DSP实现方法…………16873有位置传感器DSP控制++117173.1开关磁阻电机控制机理……“已,171732DSP控制开关磁阻电机硬件设计…………………………17733软件设计x+2:::175734电流控制………………………17773.5位置控制178736速度控制……国+…“……“…“…面,,正重自7.3.7换相控制………………181738速度控制器……………x1837.3.9DSP编程示例………………………8474开关磁阻电机无传感器DSP控制…………………:21674.1调速系统硬件描述………………216…133742无传感器开关磁阻电机驱动系统的控制软件…………216…:134743无传感器换相和速度更新算法………………………………218134744速度环:21135745电流控制回路……213574.6斜坡控制器……136747无传感器开关磁阻电机驱动系统的校准………………2313第8章开关磁阻电机调速系统仿真……22813781引言+*13782基于 MATLAB/Simulink的系统建模与仿真分析……128138821仿真软件 MATLAB/Simulink简介…x:12813882,2电机模型的建立……………………23…13883控制系统P控制策略建模与仿真……23013983.1SRM调速系统的无P控制仿真………30…13983.2电机调速系统的PI控制仿真分析……………31…,……,:14084基于模糊控制器的系统仿真分析……………236…:148.4.1模糊控制器的设计1236142842SRM调速系统的模糊控制仿真及结果分析…………………23814285sRM调速系统模糊P控制仿真……………………242………1498.6开关磁阻电机能量回馈建模与仿真…………24351…………151861发电状态的基本电路方程…86.2发电运行的相电流解析…24315287开关磁阻电机控制系统模型分析……2455788开关磁阻电机发电系统模型的建立….…:2521598.81电流滞环控制模块………………………254,+1658.82电流计算模块………2541658.8.3转矩计算模块…254167参考文献……::::::1256…………16716817117117317577178179181中“183184216

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  • wifi 802.11n 协议标准
    wifi 802.11n 协议标准Contents2. Normative references ........................................................................................................................... 13. Definitions ...........................................................................................................EEE Std802.11n"-2009(Amendment to ieEE Std 802.11-2007as amended by ieee std 802. 11k-2008EEE Std80211r-2008, EE Std802.11y-2008,and IEEE Std 802. 11w-2009)EEE Standard forInformation technology-Telecommunications and informationexchange between systems-Local and metropolitan area networks-Specific requirementsPart 11: Wireless LAN Medium Access Control (MAC)and Physical Layer(PHY SpecificationsAmendment 5: Enhancements for HigherThroughputSponsorLANIMAN Standards committeeof theIEEE Computer SocietyApproved 11 September 2009IEEE-SA Standards boardAbstract: This amendment defines modifications to both the IEEE 802 1 1 physical layer(PHY)andthe IEEE 802 11 medium access control (MAC) sublayer so that modes of operation can be enabledthat are capable of much higher throughputs, with a maximum throughput of at least 100 Mb/s, asmeasured at the Mac data service access point (SAP)Keywords: high throughput, MAC, medium access control, MIMO, MIMO-OFDM, multiple inputmultiple output, PHY, physical layer, radio, wireless local area network, WLANThe Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue New york NY 10016-5997 USACopyright@ 2009 by the Institute of Electrical and Electronics Engineers, IncAll rights reserved. Published 30 October 2009. Printed in the United States of AmericaIEEE is a registered trademark in the U.S. Patent Trademark Office, owned by the Institute of Electrical and ElectronicsEngineers, IncorporatedPDFSBN978-0-7381-60467STD95961Print:|SBN9780-7381-6047-4STDPD95961No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the priorwritten permission of the publisherIEEE Standards documents are developed within the ieee Societies and the standards Coordinating Committees ofthe IEee Standards Association (IEEE-SA) Standards Board. The ieee develops its standards through a consensusdevelopment process, approved by the American National Standards Institute, which brings together volunteersrepresenting varied viewpoints and interests to achieve the final product. Volunteers are not necessarily members of theInstitute and serve without compensation. While the ieee administers the process and establishes rules to promotefairness in the consensus development process, the ieee does not independently evalof any of the information or the soundness of any judgments contained in its standar uate, test, or verify the accuracyUse of an IEEE Standard is wholly voluntary. The ieee disclaims liability for any personal injury, property or otherdamage, of any nature whatsoever, whether special, indirect, consequential, or compensatory, directly or indirectlyresulting from the publication, use of, or reliance upon this, or any other iEFF Standard documentThe ieee does not warrant or represent the accuracy or content of the material contained herein, and expresslydisclaims any express or implied warranty, including any implied warranty of merchantability or fitness for a specificpurpose, or that the use of the material contained herein is free from patent infringement. IEEE Standards docunentsare supplied‘ASIS.The existence of an IEEE Standard does not imply that there are no other ways to produce, test, measure, purchasemarket, or provide other goods and services related to the scope of the ieee Standard. Furthermore, the vintexpressed at the time a standard is approved and issued is subject to change brought about through developments in thetate of the art and comments received from users of the standard. Every ieee standard is subjected to review at leastevery five years for revision or reaffirmation, or every ten years for stabilization. When a document is more than fiverears old and has not been reaffirmed, or more than ten years old and has not been stabilized, it is reasonable toconclude that its contents, although still of some value, do not wholly reflect the present state of the art. Users arecautioned to check to determine that they have the latest edition of any IEEE StandardIn publishing and making this document available, the IEee is not suggesting or rendering professional or othcrservices for, or on behalf of, any person or entity. Nor is the IEEE undertaking to perform any duty owed by any otherperson or entity to another. Any person utilizing this, and any other IEEE Standards document, should rely upon his orher independent judgment in the exercise of reasonable care in any given circumstances or, as appropriate, seek theadvice of a competent professional in deternining the appropriateness of a given IEEE standardInterpretations: Occasionally questions may arise regarding the meaning of portions of standards as they relate tospecific applications. When the need for interpretations is brought to the attention of IEEE, the Institute will initiateaction to prepare appropriate responses. Since IEFF Standards represent a consensus of concerned interests, itimportant to ensure that any interpretation has also received the concurrence of a balance of interests. For this reason,IEEE and the members of its societies and Standards Coordinating Committees are not able to provide an instantresponse to interpretation requests except in those cases where the matter has previously received formal considerationA statement, written or oral, that is not processed in accordance with the IEEE-SA Standards Board Operations Manualshall not be considered the official position of ieee or any of its committees and shall not be considered to be, nor berelied upon as, a formal interprctation of the IEEE. At lectures, symposia, seminars, or educational courses, anindividual presenting information on IEEE standards shall make it clear that his or her views should be considered thepersonal views of that individual rather than the formal position, explanation, or interpretation of the IeEeComments for revision of IEEE Standards are welcome from any interested party, regardless of membership affiliationwith IEEE. Suggestions for changes in documents should be in the form of a proposed change of text, together withappropriate supporting comments. Recommendations to change the status of a stabilized standard should include atonale as to why a revision or withdrawal is required. Comments on standards and requests for interpretations shouldbe submitted to the following addressSecretary, IEEE-SA Standards board445 Hoes lanePiscataway, NJ 08854USAAuthorization to photocopy portions of any individual standard for internal or personal use is granted by The Instituteof Electrical and Electronics Engineers, Inc, provided that the appropriate fee is paid to Copyright Clearance CenterTo arrange for payment of licensing fee, please contact Copyright Clearance Center, Customer Service, 222 RosewoodDrive, Danvers, MA 01923 USA; +1978750 8400 PerImission lo photocopy portions of any individual standard foreducational classroom use can also be obtained through the Copyright Clearance CenterIntroductionThis introduction is not part of IEee Std 802. 11n-2009, IEEE Standard for Information technology-Telecommunications and information exchange between systems--Local and metropolitan networks--Specifirequirements-Part 11: Wireless LAN Medium Access Control(MAC) and Physical Layer(PHY) SpecificationsAmendment 5: Enhancements for Higher ThroughputThis amendment specifies enhancements to IEEE 802. 11 physical layer(PHY)and medium access control(MAC) sublayer to provide modes of operation with useful data rates substantially higher than thosepreviously available. Significantly higher IEEE 802. 11 wireless local area network(WLAN) throughput isexpected to improve user experiences for current applications and to enable new applications and marketsegmentsNotice to usersLaws and requlationsUsers of these documents should consult all applicable laws and regulations. Compliance with theprovisions of this standard does not imply compliance to any applicable regulatory requirementsImplementers of the standard are responsible for observing or referring to the applicable regulatoryrequirements. iEEE does not, by the publication of its standards, intend to urge action that is not incompliance with applicable laws, and these documents may not be construed as doing so on that is not inCopyrightsThis document is copyrighted by the Ieee. It is made available for a wide variety of both public and privateuses.These include both use, by reference, in laws and regulations, and use in private self-regulationstandardization, and the promotion of engineering practices and methods. By making this documentavailable for use and adoption by public authorities and private users, the ieee does not waive any rights incopyright to this documentUpdating of IEEE documentsUsers of ieFF standards should be aware that these documents may be superseded at any time by theissuance of new editions or may be amended from time to time through the issuance of amendments,corrigenda, or errata. An official ieee document at any point in time consists of the current edition of thedocument together with any amendments corrigenda or errata then in effect In order to determine whethera given document is the current edition and whether it has been amended through the issuance ofamendmentscorrigendaorcrrata,visittheIeeEStandardsAssociationwebsiteathttp://ieeexplore. ieee. org/xpl/standards. jsp or contact the iEee at the address listed previously.For more information about the IEEE Standards Association or the Ieee standards development process,visittheIeeE-sawebsiteathttp://standards.ieeeorgErrataErrata,ifanyforthisandallotherstandardscanbeaccessedatthefollowingUrl:http://standards. ieee. org/reading/ieee/updates/errata/index. html. Users are encouraged to check this URL forta periodicallyInterpretationsCurrentinterpretationscanbeaccessedatthefollowingUrl:http://standards.ieeeorg/reading/ieee/interp/index htmlCopyright C 2009 IEEE. All rights reservedPatentsAttention is called to the possibility that implementation of this amendment may require use of subjectmatter covered by patent rights. By publication of this standard, no position is taken with respect to theexistence or validity of any patent rights in connection therewith. a patent holder or patent applicant hasfiled a statement of assurance that it will grant licenses under these rights without compensation or underreasonable rates, with reasonable terms and conditions that are demonstrably free of any unfairdiscrimination to applicants desiring to obtain such licenses. Other Essential Patent Claims may exist forwhich a statement of assurance has not been received. The Ieee is not responsible for identifying EssentialPatent Claims for which a license may be required, for conducting inquiries into the legal validity or scopeof Patents Claims, or determining whether any licensing terms or conditions are reasonable or nondiscriminatory. Users of this standard are expressly advised that determination of the validity of any patentrights, and the risk of infringement of such rights, is entirely their own responsibility. Further informationmay be obtained from the ieee Standards associationParticipantsWhen this amendment was sent to sponsor ballot, the IEEe 802. 11 Working Group had the followingofficersBruce P. Kraemer, ChairJon Walter Rosdahl, Vice Chair; Treasurer; and Chair, Task Group mbAdrian P. Stephens Vice chairStephen McCann, Secretary and Chair, Publicity standing Committee and Task group uTerry L. Cole, Technical Editor and Assigned Number AuthorityTeik-Kheong Tan, Chair, Wireless Next Generation Standing CommitteeDavid Bagby, Chair, Architecture Standing CommitteeBruce p. kraemer Co-Chair IMT-Advanced ad hoc commiteeLee armstrong, Chair, Task Group pDonald E Eastlake Ill, Chair;, Task Group sNeeraj Sharna, Chair, Task group lDorothy V. Stanley, Chair, Task Group v and IETF Ad hoc CommitteeJesse Walker, Chair. cTl Ad hoc committeePeter Ecclesine, Chair, Task group yMenzo Wentink, Chair, Task group zGancsh Venkatesan, Chair, Task Group aaEldad Perahia, Chair, Very High Throughput Study groupDarwin Enger, Co-Chair. IMT-Advanced ad hoc committeeWhen this amendment was sent to sponsor ballot, Task Group n had the following officersBruce P Kraemer. chairSILi. vice chairGarth Hillman and Jon Walter Rosdahl, SecretaryAdrian P. Stephens, Technical editorWhen this amendment was sent to sponsor ballot, the IEeE 802. 1l Working Group had the followingmembershiOsama S. aboulmagdMalik audchAmit bansalTomoko adachiCcrt A, awatoJohn. barrAlok aggarwalDavid bagbGal bassonCarlAldanaMichael bahrussa BavafaThomas AlexanderFan baiTuncer BaykasLee r. ArmstrongGabor BaikoJohn L. BenkoAlex ashleyDennis j. bakerMathilde benvenisteCopyright C 2009 IEEE. All rights reservedBiorn A. berkeRobert Y huangChiu ngoDaniel borgesDavid hunterEero nikulaAnthony braskichYasuhiko inoueRichardH. noensJoseph brennanAkio isoHideaki odagiriDavid britzJunghoon JeeJisung OhG. BumillerHongseok JeonChandra s. olsonNancy Cam-WingetYeonkwon JeongYouko omorNecati CanpolatJorjeta G JetchevaSatoshi oyamaJavier cardonaLusheng jiRichard H. PaineDouglas s ChanDaniel JiangAuld. palaniveluClint F. ChaplinPadam AflChangmin ParkCarl W. KainJungsoo parkMinho CheongNaveen K KakanMinyoung ParkMasato katoⅤ ijaykumar PatelNakjungDouglas KanBcminih. peirisLiwen chuRichard H. KennedyEldad perahiaTerry L. ColeJohn KenneJames e. petranovichRyon K. ColemanStuart 3. KerryAl PetrickCharles IJoonsuk kinFahd pirzadaTodor CooklevKyeongpyo KimJames d. portaroXavier p CostaSeong S. kimHenry s. PtasinskiDavid E CypherYongsan KimRene purnadiMarc de courvilleJarkko kneckChang w. PyoRolf J de vegtMark m. kobayashiEmily H QiTheodorus denteneerFumihide KojimaLuke QianJeremy de vriesTom KolzeHuyu QuSusan DickeyBruccp KJim e raabZhiming DingJohannes P KruysⅤ nuth raiYoshiharu doThomas KuehnelAli RaissiniaJohn dorseyThomas m. KuriharaHarish ramamurthyRoger P durandStephen G raymentSrinivasa duvvuriEdwin kwonLeonid razoumovDonald e. eastlakeZhou lanIvan reePeter Ecclesiaejeremy A landtEdward reussMichael ellisJoseph P. lauerAlex reznikStephen P. EmeottTae H. LeeRandal roebuckMarc emmelmannWooyoung leeJon walter rosdahlDarwin EngwerJoseph levyRichard royJoseph epsteinSheung liAlexander safonovⅤ inko ercegPaul linKazuyuki sakodaLars p. falkIlang liuHemanth sampathRobert fanfcllMichael livshitzKatsuyoshi SatoStefan fechterPeter LocHirokazu sawadaPaul h. feinberDaniel lubarDon schultzMatthew FischerAnthony f. maidaYongho SeokWayne k. FisherJakub majkowskiHuairong shaoRoberta fracchiAlastair MalarkyNeeraj sharmaRyuhei FundaJouni K. malinenStephen J ShellhammerMatthew gastAlexander maltsevlan SherlockJames p gilbBill marshallKai shiJeffrey gilbertRoman m. maslennikovShusaku shimadaReinhard GlogerSudheer mattaFrancois simonDavid goodallStephen Mc cannHarkirat SinghTugrul guenerJustin p mcnewGraham K. SmithJianlin gven meseckeMatt smithMark hamiltonRobert r. millerYoo-Seung SongC.J. HanseMichael monteKapil seBrian d. hartRajendra T. moortiVinay SridharaAmer A haHitoshi moriokaDorothy stanleⅤ egard hasselPeter MurrayAdrian P. StephensRobert f heileAndrew milesDavid S Stephenson〔 undo r. HertzRohit nabarCarl R. StevensonJunling hiJohn stineWendong huKengo nagataGuenaelt strutCopyright C 2009 IEEE. All rights reservedChin s SumGanesh VenkateHarry R. worstellEiji TakagiDalton t.Ⅴ ictorPengfei xiaMineo takaiGeorge A. vlantisAkira yamadaTcik-Khcong TanCssc r. walkerTakeshi yamamotoAllan thomsonunlWangmoya yamauraJerry thrasherngEric okuboCraig d. WarrenSu K. YongAlexander TolpinFujio WatanabeSeiji YoshioJason trachewskyPatrick WayeChristopher YoungSolomon b. traininMenzo m. wentinkArtur zaksRichard D. Van NeeFrank whettenHongyuan zhangAllert van zelstKyle williamsHuimin zhangMathieuⅤ arlet-AndmJames worshamJing zhiPrabodh varshneyJuan ZunigaContributions to this amendment was received from the following individualsBill ablⅵ inko ErcegPatrick labbeSantosh abrahamMustafa rozJoseph lauerTomoko adachiStefan fechterDongjun leeDmitry akhmetovPaul feinbergLin-Nan leeCarlos aldanaMatthew fischereeDave andrusGuido frederiksSok-kyu LeeMicha anholtTakashi FukagawaZhongding leiTsuguhide AokiPatrick FungJoseph levyYusuke asarEdoardo gallizioScott leyonhjelGeert awaterJames gardnerPen liDavid BaDevis gattSheung LiRaja banerjeaDavid HedbergYuan liKaberi banerieeGarth hillmanKevin liaoAmit bansalJin-Meng hoIsaac limGal bassonDale hocevarAlfred linAnui batraLouise hooAlbert liuJohn benkoMuhammad akramDer-Zheng liuMathilde benvenisteYasuhiko inoueMichael livshitzBjorn BjerkeKaz ishidaYufei BlakenshipTakashi ishidoshiroPeter LojkoDaniel borgesLakshmi lyerHui-Ling LouDouglas chanEric JacobsonAdina matacheJerry ChangYuh-Ren jauhLaurent mazetJohn ChangTaehyun JeonWilliam mcfarlandJeng-Hong ChenJari JokelaDarren mcnamaraStephen ChenVKJonesIrina medvedevYi-Ming ChenPadam AflArnaud meylanPei-ju ChiangNaveen KakaniMorgan mikFrancois chinSriniavs kandalaSeungwook minWoon Hau ChinAteet KapurPatrick mo上 mily chouAssaf KasherAndy molischLiwen chuMasato katoR. Tushar moortiKeith ChuggJohn KetchumMike moretonBrian ClassonJoonsuk KYuichi moriokaSean CoffeyPansop KimMarkus muckGabriella convertinoYoungsoo KimSyed Aon mujtabaMarc de courvilleGuenter KleindlAndrew mylesRolf de vegtKiyotaka KobayashiRohit nabarFranz dielacherCenk Koselhasa NagaiYoshiharu doiBruce p KraemerKengo NagataJohn deThomas KuehnelSeigo NakaodouglasTakushi KunihiroSanjiv nandaPeter ecclesiaeJoe KwakChiu nDarwin EngwerJoseph kwakAjit NimbalkerLeonid epsteinEdwin kwonGunnar NitscheCopyright C 2009 IEEE. All rights reservedHuaning NiuErik SchylanderRichard van neeIvan oakesMichael sealsNico van waesYoshihiro ohtanilual-Rong ShaoAllert van zelstEric OjardSuman sharmaAndres vila casadoTakeshi onizawaSteve shellhammerGeorgeⅵ lantisJob oostveenIan SherlockTimothy WakeleyFabio osnatoMasaaki shidaJesse walkerKafle padamTakashi shonoBrad wallacePratima paiSebastien SimoensMark wallaceArul palaniveluMassimiliano sitiRod waltonSubra parameswaraDoug SmithQi WThomas pareMatt smithXiaowen WangJean-Noel PatillonAmjadDeric WatersWei-Chung PengRobert staceyMark WebsterEldad perahiaAdrian P. StephensMenzo WentinkJim petranovichRichard WeseKrishna madhavan pillaiVictor StolpmanMike WilhoyteMadhavan pillaiSumei sunTimothy WongAngelo PoloniXiantao sunJames WoodyattNeeraj poojaryShravan surineniHenry ptasinskiIlan sutskoverAriton XhafaAleksandar PurkovicEiji Takagio xiaLuke oianMasahiro takasTomoya YamauraAli RaissiniaSeiichiro TakahashiEric YangSthanunathan ramakrishnanDaisuke takedaWen-Chang YehHarish RamamurthyTeik-Kheong TanChristopher YoungSridhar rameshYasuhiro TanakaHeejung YuRaffaele rivaStephan ten brinkArtur ZaksJon walter rosdahlGanesan ThiagarajanEldad zeiraStephanie Rouquette-LeveilEric OkuboHongyuan zhaMike rudeTim TowellJin ZhangJohn sadowskiJason trachewskyNing ZhangAtul salhotraSolomon traininQuan ZhouVincenzo scarpaDavid tungJohnny ZweigDonald schultzStefano valleJim syrenThe following members of the individual balloting committee voted on this amendment. Balloters may havevoted for approval, disapproval, or abstentionOsama aboulmagdBill cannonSouray duttaTomoko adachiJing CaoRichard eckardAlok AggarwalEdward CarlesCarl EklundThomas alexandeJames CarloStephen emeottRichard AlvinJuan CarreonMarc emmelmannEdward ChalfDarwin EngwcButch AntonDouglas s ChanJoseph epsteinDanilo antonelliKuor-Hsin ChangRobert fanfelleClint ChaplinShahin FarahaniDavid BagbyWei-Peng ChenShulan FengGabor BaikoYung-Mu ChenOddgeir FikstvedtMatthew ballHong ChengMatthew fischerRaja banerjeaAik ChindapoPrince francisVered BKeith ChowAvraham FreedmanJohn barrLiwen ChuDevon gaylePhilip beecherRyon ColemanMichael GeipelMathilde benvenisteCharles cookTheodore Georgantasharry bimsTodor CookiePieter -Paul giesbertsBjorn BjerkeHelge CowardJames gilbMonique brownJoseph decuirReinhard glogerRussell dietzMariana goldhamerWilliam byrdThomas dineenScrgiu gomaPctcr. calderonJohn dorseyDavid goodallCopyright C 2009 IEEE. All rights reserved
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