BRPI0617901A2 - método e equipamento para pré-codificação em sistema de duplexagem por divisão de freqüência - Google Patents
método e equipamento para pré-codificação em sistema de duplexagem por divisão de freqüência Download PDFInfo
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
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- H04B7/0615—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal
- H04B7/0619—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal using feedback from receiving side
- H04B7/0636—Feedback format
- H04B7/0639—Using selective indices, e.g. of a codebook, e.g. pre-distortion matrix index [PMI] or for beam selection
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
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- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
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Abstract
<B>MéTODO E EQUIPAMENTO PARA PRé-CODIFICAçãO EM SISTEMA DE DUPLEXAGEM POR DIVISãO DE FREQUêNCIA.<D> Por conseguinte um método e equipamento são fornecidos em que um sistema receptor seleciona uma matriz de pré-codificação, compreendendo pesos de autoformação de feixe, a utilizar e fornecer valor de ordem e índice de matriz associado à matriz selecionada para o sistema transmissor. O sistema transmissor, após receber o valor de ordem e índice de matriz, determina se a matriz associada ao índice de matriz fornecido pelo sistema receptor pode ser utilizada. Caso negativo, então o sistema transmissor seleciona outra matriz para determinar pesos de autoformação de feixe.
Description
"MÉTODO E EQUIPAMENTO PARA PRÉ-CODIFICAÇÃO EM SISTEMA OEDUPLEXAGEM POR DIVISÃO DE FREQÜÊNCIA"
CAMPO DA INVENÇÃO
A presente invenção refere-se genericamente a umatécnica de pré-codificação, mais particularmente, pré-codificação para sistema de múltiplas-entradas e múltiplas-saídas (MIMO) que utiliza uma duplexagem por divisão defreqüência (FDD).
DESCRIÇÃO DA TÉCNICA ANTERIOR
Sistemas de comunicação sem fio são usadosamplamente para fornecer vários tipos de conteúdo decomunicação como voz, dados e assim por diante. Essessistemas podem ser sistemas de acesso múltiplo capazes desuportar comunicação com múltiplos usuários por compartilhar os recursos de sistema disponíveis (porexemplo, largura de banda e potência de transmissão). Osexemplos de tais sistemas de acesso múltiplo incluemsistemas de acesso múltiplo por divisão de código (CDMA),sistemas de acesso múltiplo por divisão de tempo (TDMA), sistemas de acesso múltiplo por divisão de freqüência(FDMA) e sistemas de acesso múltiplo por divisão defreqüência ortogonal (OFDMA).
Genericamente, um sistema de comunicação deacesso múltiplo sem fio pode suportar simultaneamente comunicação para múltiplos terminais sem fio. Cada terminalse comunica com uma ou mais estações base através detransmissões nos links direto e reverso. 0 link direto (oudownlink) se refere ao link de comunicação a partir dasestações base para os terminais, e o link reverso (ou uplink) se refere ao link de comunicação a partir dosterminais para as estações base. Esse link de comunicaçãopode ser estabelecido através de um sistema de única-entrada e única-saída, múltiplas-entradas e única-saída oumúltiplas-entradas e múltiplas-saidas (MIMO).
Um sistema MIMO emprega múltiplas antenastransmissoras (Nt) e múltiplas antenas receptoras (Nr) paratransmissão de dados. Um canal MIMO formado pelas Ntantenas transmissoras e Nr antenas receptoras pode serdecomposto em Ns canais independentes, que são tambémmencionados como canais espaciais, onde Ns < min {Nt, NR}.Cada um dos Ns canais independentes corresponde a umadimensão. 0 sistema MIMO pode fornecer desempenhoaperfeiçoado (por exemplo, capacidade de transmissão maiselevada, maior confiabilidade, melhor eficiência espectral,etc.) se as dimensionalidades adicionais criadas pelasmúltiplas antenas transmissoras e recepção foremutilizadas.
Um sistema MIMO. suporta sistemas de duplex pordivisão de tempo (TDD) e duplex por divisão de freqüência.Em um sistema TDD, as transmissões de link direto e reversosão na mesma região de freqüência de modo que o principiode reciprocidade permite a estimação do canal de linkdireto a partir do canal de link reverso. Isso permite queo ponto de acesso extraia ganho de autóformação de feixe detransmissão no link direto quando múltiplas antenas estãodisponíveis no ponto de acesso. Entretanto, em um sistemaduplex por divisão de freqüência (FDD), as transmissões delink direto e reverso estão em freqüências amplamenteseparadas. Como resultado, o canal de link direto e o canalde link reverso podem desvanecer independentemente. Umaconseqüência direta é que as estimativas de canal de linkreverso não fornecem conhecimento de canal instantâneo dolink direto. Esse problema é adicionalmente complicado emum sistema com múltiplas antenas transmissoras e múltiplasantenas receptoras, também conhecido como MIMO.
Desse modo, há necessidade de um método de pré-codificação onde o receptor transmite informações de vetorde feixe através do link reverso e então o transmissorutiliza essa informação para transmitir dados na direçãopreferida para o receptor.
RESUMO DA INVENÇÃO
Em uma modalidade, um equipamento compreende umapluralidade de dispositivos eletrônicos, cada um tendo umalógica, em que o equipamento configurado utiliza um ou maisdispositivos eletrônicos para determinar um valor de ordempreferido e um índice de matriz. O equipamento éadicionalmente configurado para transmitir o valor de ordeme o índice de matriz para outro dispositivo eletrônico.
Em uma modalidade, um equipamento compreende umapluralidade de dispositivos eletrônicos, cada um tendo umalógica, em que o equipamento configurado utiliza um ou maisdispositivos eletrônicos para receber uma mensagem quecompreende um valor de ordem e um índice de matriz. .0equipamento é adicionalmente configurado para determinar sea matriz recebida pode ser utilizada ou descartada.
Uma apreciação mais completa de todas asvantagens e escopo da invenção pode ser obtida a partir dosdesenhos em anexo, descrição e reivindicações apensas.
BREVE DESCRIÇÃO DAS FIGURAS
As características, natureza e vantagens dapresente revelação tornar-se-ão mais evidentes a partir dadescrição detalhada exposta abaixo quando tomada emcombinação com os desenhos nos quais caracteres dereferência similares identificam de forma correspondente doinicio ao fim, e em que:
A figura 1 ilustra um sistema de comunicação semfio de acesso múltiplo de acordo com uma modalidade;
A figura 2 é um diagrama de blocos de um sistemade comunicação;A figura 3 ilustra um processo executado peloterminal de acesso; e
A figura 4 ilustra um processo executado peloponto de acesso.
DESCRIÇÃO DETALHADA DA INVENÇÃO
Com referência à figura 1, é ilustrado um sistemade comunicação sem fio de acesso múltiplo, de acordo comuma modalidade. Um ponto de acesso 100 (AP) incluimúltiplos grupos de antenas, um incluindo 104 e 106, outroincluindo 108 e 110, e um adicional incluindo 112 e 114. Nafigura 1, somente duas antenas são mostradas para cadagrupo de antenas, entretanto, um número maior ou menor deantenas pode ser utilizado para cada grupo de antenas. Oterminal de acesso 116 (AT) está em comunicação com asantenas 112 e 114, onde as antenas 112 e 114 transmiteminformações para o terminal de acesso 16 através do linkdireto 120 e recebem informações a partir do terminal deacesso 116 através do link reverso 118. O terminal deacesso 122 está em comunicação com antenas 106 e 108, ondeantenas 106 e 108 transmite informações para o terminal deacesso 122 através do link direto 126 e recebem informaçõesa partir do terminal de acesso 122 através, do link reverso124. Em um sistema FDD, links de comunicação 118, 120, 124e 126 podem utilizar freqüência portadora diferente paracomunicação. Por exemplo, o link direto 120 pode utilizaruma freqüência portadora diferente do que aquela utilizadapelo link reverso 118.
Cada grupo de antenas e/ou a área na qual osmesmos são projetados para comunicarem é freqüentementemencionado como um setor do ponto de acesso. Na modalidade,grupos de antena são individualmente designados paracomunicarem com terminais de acesso em um setor, das.áreascobertas pelo ponto de acesso 100.Em comunicações através de links diretos 120 e126, as antenas transmissoras do ponto de acesso 100utilizam autoformação de feixe para melhorar a eficiênciaespectral de links diretos para os terminais de acessodiferentes 116 e 124. Além disso, um ponto de acessoutilizando autoformação de feixe para transmitir paraterminais de acesso dispersos aleatoriamente através de suacobertura causa menos interferência para os terminais deacesso em células vizinhas do que um ponto de acesso quetransmite através de uma antena única para todos os seusterminais de acesso.
Um ponto de acesso pode ser uma estação fixautilizada para comunicar com os terminais e também pode sermencionado como um ponto de acesso, um Nó B, ou algumaoutra terminologia. Um terminal de acesso pode ser tambémdenominado um terminal móvel, um equipamento de usuário(EU), um dispositivo de comunicação sem fio, terminal,terminal de acesso ou alguma outra terminologia.
A figura 2 é um diagrama de blocos de umamodalidade de um sistema transmissor 210 (também conhecidocomo o ponto de acesso) e um sistema receptor 250 (tambémconhecido como terminal de acesso) em um sistema MIMO 200.No sistema transmissor 210, dados de tráfego para um númerode fluxos de dados são fornecidos a partir de uma fonte dedados 212 para um processador de dados de transmissão (TX)214.
Em uma modalidade, cada fluxo de dados étransmitido através de uma antena transmissora respectiva.0 processador de dados TX 214 formata, codifica, eintercala os dados de tráfego para cada fluxo de dadós combase em um esquema de codificação especifico selecionadopara aquele fluxo de dados para fornecer dados codificados.Em algumas modalidades, o processador de dados TX 214aplica pesos de autoformação de feixe aos símbolos dosfluxos de dados utilizando uma matriz de pré-codificação.
Os dados codificados para cada fluxo de dadospodem ser multiplexados com dados pilotos utilizandotécnicas OFDM. Os dados pilotos são tipicamente um padrãode dados conhecido que é processado em um modo conhecido epodem ser utilizados no sistema receptor para estimar aresposta de canal. Os dados codificados e pilotomultiplexados para cada fluxo de dados são então modulados(isto é, mapeados em símbolos) com base em um esquema demodulação específico (por exemplo, BPSK, QSPK, M-PSK ou M-QAM) selecionado para aquele fluxo de dados a fim defornecer símbolos de modulação. A taxa de dados,codificação e modulação para cada fluxo de dados pode serdeterminada por instruções executadas pelo processador 230.
Os símbolos de modulação para todos os fluxos dedados são então fornecidos a um processador MIMO TX 220,que pode ainda processar os símbolos de modulação (porexemplo, para 0FDM) . 0 processador MIMO TX 220 provê entãofluxos de símbolos de modulação Nt para transmissores Nt(TMTR) 222a até 222t. Em certas modalidades, o processadorMIMO TX 220 aplica pesos de autoformação de feixe aossímbolos dos fluxos de dados e a antena a partir da qual osímbolo está sendo transmitido. Esses pesos de autoformaçãode feixe são determinados utilizando uma da pluralidade deantena por matriz de camada, que pode ser recuperada apartir da memória 232.
Cada transmissor 222 recebe e processa um fluxode símbolos respectivo para . fornecer um ou mais sinaisanalógicos, e condiciona adicionalmente (por exemplo,amplifica, filtra e converte ascendentemente) os sinaisanalógicos para fornecer um sinal modulado apropriado paratransmissão através do canal MIMO. Sinais modulados Nt apartir dos transmissores 222a até 222t são entãotransmitidos a partir das antenas Nt 224a até 224t,respectivamente.
No sistema receptor 250, os sinais modulados transmitidos são recebidos por antenas Nr 252a até 252r e osinal recebido a partir de cada antena 252 é fornecido a umreceptor respectivo (RCVR) 254a até 254r. Cada receptor 254condiciona (por exemplo, filtra, amplifica, e convertedescendentemente) um sinal recebido respectivo, digitaliza o sinal condicionado para fornecer amostras, e processaadicionalmente as amostras para fornecer um fluxo desímbolos "recebidos" correspondente.
Um processador de dados RX 260 recebe então eprocessa os fluxos de símbolos recebidos Nr a partir dos receptores Nr 254 com base em uma técnica de processamentode receptor específica para fornecer aproximadamente fluxosde símbolos "detectados" Nt. O processador de dados RX 260demodula então, desintercala e decodifica cada fluxo désímbolos detectado para recuperar os dados de, tráfego para o fluxo de dados. O processamento pelo processador de dadosRX 260 é complementar àquele executado pelo processadorMIMO TX 220 e processador de dados TX 214 no sistematransmissor 210.
Um processador 270 determina periodicamente qual matriz de pré-codificação deve utilizar (discutido abaixo).O processador 270 formula uma mensagem de link reversocompreendendo uma porção de índice de matriz e uma porçãode valor de ordem. A mensagem de link reverso podecompreender vários tipos de informações referentes ao linkde comunicação e/ou ao fluxo de dados recebidos. A mensagemdé link reverso é então processada por um processador dedados TX 238, que também recebe dados de tráfego para umnúmero de fluxos de dados a partir de uma fonte de dados236, modulada por um modulador 280, condicionada pelostransmissores 254a até 254r, e transmitida de volta para osistema transmissor 210.
No sistema transmissor 210, os sinais modulados apartir do sistema receptor 250 são recebidos pelas antenas224, condicionados pelos receptores 222, demodulados por umdemodulador 240, e processados por um processador de dadosRX 242 para extrair a mensagem de link reverso transmitidapelo sistema receptor 250. 0 processador 230 entãodetermina qual matriz de pré-codificação deve utilizar paradeterminar os pesos de autoformação de feixe a seguirprocessa a mensagem extraída.
Embora a figura 2 discuta um sistema MIMO, omesmo sistema pode ser aplicado a um sistema de múltiplasentradas múltiplas saídas onde múltiplas antenastransmissoras, por exemplo, aquelas em uma estação base,transmitem um fluxo de símbolos para um dispositivo deantena único, por exemplo, uma estação móvel. Além disso,um sistema de antena de saída única para entrada única podeser utilizado do mesmo modo como descrito com relação àfigura 2.
Em um sistema MIMO que permite pré-codificação,üm conjunto de matrizes de pré-codificação é utilizado paraautoformação de feixe. Matrizes 2N são geradas (N é onúmero de bits utilizado, por exemplo 6), cada matriz sendoMxL onde M é o número de antena e L é o número de camadas(também mencionado como uma ordem) . Cada entrada MxLapresenta peso de autoformação de feixe . utilizado pelosistema transmissor (também referido para o ponto deacesso). Genericamente, antes do uso do sistema, essasmatrizes são calculadas e armazenadas em ambos, terminal deacesso e memória de ponto de acesso. Em um aspecto, essasmatrizes podem ser atualizadas em tempo real durante operíodo de tempo. Além disso, cada matriz é dada um númerode índice. Quando o AT 116 deseja solicitar uso de matriz,o AT 116 simplesmente transmite o índice de matriz.Dependendo do sistema usado, 6 bits podem ser utilizadospara indexar a matriz, desse modo indexando 64 matrizes.Deve ser observado que o número de bits utilizado paraindexar varia com base no desejo do operador de sistemautiliza um número maior ou menor do que 64 matrizes.
A figura 3 ilustra iam processo 300, executadopelo processador do AT, 270. No bloco 302, uma lógica dedeterminar ordem é executada pelo processador paradeterminar o valor de ordem para fornecer ao AP. Esse valorde ordem é determinado com base em vários fatores, porexemplo, medições de estimação de canal, quantidade deinterferência ou a geometria de AT 116 (isto é, o número deantenas, disposições das antenas, etc.). Em 304, uma lógicade determinar matriz é executada pelo processador 270 paradeterminar uma matriz de pré-codificação. Essa matriz édeterminada com base, por exemplo, na eficiência espectralsuportável mais elevada. Tanto o valor de ordem como amatriz de pré-codificação pode ser determinada também emcombinação mútua. Por exemplo, o processador cicla atravésde todas as ordens possíveis e computa a eficiênciaespectral possível com base em uma matriz específicaassociada a cada ordem. A seguir o processador seleciona aordem e matriz que fornecem a eficiência espectral maiselevada.
No bloco 306, o processador 270 executa umalógica de construção de mensagem para gerar uma mensagemque tem uma porção de índice de matriz (por exemplo, 6bits) e uma porção de ordem (por exemplo, 2 bits para 4x4MIMO) . A porção de índice de matriz é utilizada parafornecer o índice de matriz associado à matriz selecionada.A porção de ordem é utilizada para fornecer valor de ordempreferido a ser utilizado pelo AT. Dependendo do sistemausado, se iam valor de ordem mais baixo for utilizado, entãoos índices para matrizes associadas ao valor de ordem maisbaixo serão tais que nem todos os 6 bits da porção deíndice de matriz são utilizados. Por exemplo, isso pode serobtido por indexar as matrizes de pré-codificação de talmodo que um grupo selecionado de matrizes que ocuparásomente a porção de índice de matriz de 3 bits para umacamada 1. 0 que significa que para a camada 1 a faixa parao índice de matriz é 0 - 2**3 - 1. Se esse tipo de sistemafor usado, então o AP 100 determinará primeiramente o valorde ordem e somente processará aqueles bits que sãonecessários para determinar o índice de matriz de pré-codificação. No bloco 308, o processador 270 executa umalógica de transmissão para transmitir a construção demensagem no bloco 306 no link reverso.
A figura 4 ilustra um processo 400, executadopelo processador 230 do AP. No bloco 402, o processador 230executa uma lógica de processamento de mensagem de pré-codificação para processar uma mensagem recebida no linkreverso que compreende uma porção de índice de matriz e umaporção de ordem. Essa mensagem é recebida periodicamente,desse modo a lógica de processamento de mensagem de pré-codificação é executada periodicamente. No bloco 404, oprocessador 230 determina se um índice de matriz e um valorde ordem adequados foram recebidos no link reverso.Dependendo da condição de ambiente, a mensagem contendoíndice de matriz e valor de ordem pode ter sido apagada ounão atingiu adequadamente o AP ou foi corrompida. Váriosmétodos podem ser utilizados para autenticar que o AP 100recebeu uma mensagem adequada no link reverso. Sedeterminado no bloco 404 que a mensagem não foi autenticadaou a porção de índice de matriz não foi autenticada, entãono bloco 406 o AP 100 seleciona uma matriz de pré-codificação apropriada. 0 AP 100 continuará a utilizar amatriz atual ou selecionará uma nova matriz se oprocessador 230 determinar que a matriz atual não mais éválida. O processador 230 pode utilizar algunsmétodos/limites predeterminados armazenados na memória 232para selecionar uma matriz ou aleatoriamente selecionar umamatriz a partir da memória 232.
Entretanto, se determinado no bloco 404, que umamensagem compreendendo índice de matriz e informação deordem foi recebida e autenticada, então no bloco 408, oprocessador 230 executa lógica de extração para extrair ainformação de ordem e determina o valor de ordem. No bloco410, o processador 230 executa a lógica de extração demensagem para extrair os bits de índice de matriz de pré-codificação. Em uma modalidade, após extração, demodulartodos os bits que compõem a porção de índice de matriz paradeterminar o índice de matriz. Em outra modalidade, oprocessador 230 utiliza o valor de ordem, determinado nobloco 408, para determinar o número de bits da porção deíndice de matriz â demodular. Por exemplo, se o. valor deordem for 1 e todas as matrizes associadas ao valor deordem 1 podem variar de 0 a 3 (por exemplo, 00000 a000011). Desse modo, somente bits que são necessários parainterpretar o valor de faixa elevada, aqui 3, sãodemodulados. Nesse exemplo somente os dois bits menossignificativos da porção de índice de matriz necessitariamser demodulados. Outros bits são ignorados de uso paravárias outras finalidades, como provisão de dados. Após osbits adequados serem demodulados e um índice de matriz serderivado, no bloco 412, o processador 230 executa lógica deuso de matriz para determinar se a matriz associada aoindice de matriz derivada pode ser utilizada. Em iam sistemade multi-usuários, o AP 100 recebe as solicitações de pré-codificação a partir de vários usuários. O AP 100 é dotadode critérios predeterminados para determinar o uso de umamatriz específica. Em um aspecto, o AP 100 pode determinarse uma matriz solicitada pode ser utilizada ou não com baseem condição atual de cada usuário. No bloco 414, se fordeterminado que a matriz associada ao índice de matrizrecebido não pode ser utilizado, então o processador 230executa lógica de seleção de matriz alternada paraselecionar outra matriz para autoformação de feixe. Deoutro modo, no bloco 416, o processador 230 utiliza amatriz associada ao índice de matriz extraída paraautoformação de feixe.
As técnicas descritas aqui podem serimplementadas por vários meios. Por exemplo, essas técnicaspodem ser implementadas em hardware, software ou umacombinação dos mesmos. Para uma implementação de hardware,as unidades de processamento (por exemplo, processador 230e 270, processadores TX e RX 214 e 260, e assim por diante)para essas técnicas podem ser implementadas em vim ou maisdispositivos eletrônicos como circuitos integrados deaplicação específica (ASICs), processadores de sinaisdigitais (DSPs), dispositivos de processamento de sinaisdigitais (DSPDs), dispositivos de lógica programável(PLDs), disposições de porta programáveis em campo (FPGAs),processadores, controladores, microcontroladores,
microprocessadores, outras unidades eletrônicas projetadaspara executar as funções descritas aqui, ou uma combinaçãodas mesmas.
Para uma implementação de software, as técnicasdescritas aqui podem ser implementadas com módulos (porexemplo, procedimentos, funções, e assim por diante) queexecutam as funções descritas aqui. Os códigos de softwarepodem ser armazenados em unidades de memória (por exemplo,memória 232 e 272 na figura 2) e executados porprocessadores (por exemplo, controladores 230). A unidadede memória pode ser implementada no processador ou externaao processador, em cujo caso pode ser acoplada de formacomunicativa ao processador através de vários meios comoconhecido na técnica.
Os cabeçalhos são incluídos aqui para referênciae para auxiliar a localizar certas seções. Esses cabeçalhosnão se destinam a limitar o escopo dos conceitos descritossob os mesmos, e esses conceitos podem ter aplicabilidadeem outras seções por todo relatório descritivo.
A descrição anterior das modalidades reveladas éfornecida para permitir que qualquer pessoa versada natécnica faça ou utilize a presente invenção. Váriasmodificações nessas modalidades serão prontamente evidentespara aqueles versados na técnica, e os princípios genéricosdefinidos aqui podem ser aplicados em outras modalidadessem se afastar do espírito ou escopo da invenção. Dessemodo, a presente invenção não pretende ser limitada àsmodalidades mostradas aqui, porém deve ser acordada oescopo mais amplo compatível com os princípios ecaracterísticas novas aqui reveladas.
Claims (35)
1. Equipamento operável em um sistema decomunicação sem fio, o equipamento compreendendo:meios para determinar um valor de ordem;meios para determinar um índice de matriz; emeios para transmitir a mensagem de link reversocompreendendo um índice de matriz e valor de ordem.
2. Equipamento, de acordo com a reivindicação 1,em que os meios para determinar o valor de ordemcompreendem meios para medir estimativas de canal.
3. Equipamento, de acordo com a reivindicação 1,em que os meios para determinar o valor de ordemcompreendem meios para medir a quantidade de interferência.
4. Equipamento, de acordo com a reivindicação 1,em que os meios para determinar o índice de matrizcompreendem meios para utilizar o valor de ordemdeterminado.
5. Equipamento, de acordo com a reivindicação 1,em que os meios para determinar o índice de matrizcompreendem meios para analisar cada matriz de umapluralidade de matrizes armazenadas em memória.
6. Equipamento, de acordo com a reivindicação 1,em que os meios para determinar o índice de matrizcompreendem meios para selecionar eficiência espectral maiselevada.
7. Equipamento operável em um sistema decomunicação sem fio, o equipamento compreendendo:receber um valor de ordem e um índice de matriz;extrair uma matriz compreendendo valores de pesode formação de feixe utilizando o valor de ordem e índicede matriz; edeterminar se a matriz extraída deve serutilizada.
8. Equipamento, de acordo com a reivindicação 7,compreendendo ainda meios para extrair o indice de matrizutilizando o valor de ordem recebido.
9. Equipamento, de acordo com a reivindicação 7,compreendendo ainda meios para determinar número de bitspara demodular a fim de determinar o índice de matriz.
10. Equipamento, de acordo com a reivindicação 9,em que os meios para determinar número de bits parademodular compreendem meios para analisar o valor de ordem.
11. Método de pré-codificação em um sistema decomunicação sem fio, o método compreendendo:determinar um valor de ordem;determinar um índice de matriz; etransmitir a mensagem de link reversocompreendendo um índice de matriz e valor de ordem.
12. Método, de acordo com a reivindicação 11, emque a determinação do valor de ordem compreende medirestimativas de canal.
13. Método, de acordo com a reivindicação 11, emque a determinação do valor de ordem compreende medir aquantidade de interferência.
14. Método, de acordo com a reivindicação 11 emque a determinação do índice de matriz compreende utilizaro valor de ordem determinado.
15. Método, de acordo com a reivindicação 11, emque a determinação do índice de matriz compreende analisarcada matriz de uma pluralidade de matrizes armazenadas emmemória.
16. Método, de acordo com a reivindicação 11, emque a determinação do índice de matriz compreendeselecionar eficiência espectral mais elevada.
17. Método de pré-codificação em um sistema decomunicação sem fio, o método compreendendo:receber um valor de ordem e um índice de matriz;extrair uma matriz compreendendo valores de pesode formação de feixe utilizando o valor de ordem e índicede matriz; edeterminar se a matriz extraída deve serutilizada.
18. Método, de acordo com a reivindicação 17,compreendendo ainda extrair o índice de matriz utilizando ovalor de ordem recebido.
19. Método, de acordo com a reivindicação 17,compreendendo ainda determinar número de bits parademodular a fim de determinar o índice de matriz.
20. Método, de acordo com a reivindicação 19, emque a determinação do número de bits para, demodularcompreende analisar o valor de ordem.
21. Em uma comunicação sem fio, iam equipamentocompreendendo:um processador, o processador configurado paradeterminar . um valor de ordem; o processador configuradoainda para determinar um índice de matriz; e o processadorconfigurado ainda para transmitir a mensagem de linkreverso compreendendo um índice de matriz e valor de ordem.
22. Equipamento, de acordo com a reivindicação 21, em que o processador é configurado ainda para medirestimativas de canal em que as estimativas de canal medidosão utilizadas para determinar o valor de ordem.
23. Equipamento, de acordo com a reivindicação 21, em que o processador configurado ainda para medir aquantidade de interferência em que as estimativas de canalmedido são utilizadas para determinar valor de ordem.
24. Equipamento, de acordo com a reivindicação 21, em que o processador configurado ainda para utilizar ovalor de ordem determinado para determinar o índice dematriz.
25. Equipamento, de acordo com a reivindicação21, em que o processador configurado ainda para analisarcada matriz de uma pluralidade de matrizes armazenadas emmemória para determinar o índice de matriz.
26. Equipamento, de acordo com a reivindicação21, em que o processador configurado ainda para selecionareficiência espectral mais elevada para determinar o índicede matriz.
27. Em uma comunicação sem fio, um equipamentocompreendendo:um processador, o processador configurado parareceber um valor de ordem e um índice de matriz; oprocessador configurado ainda para extrair uma matriz quecompreende valores de peso de formação de feixe utilizandoo valor de ordem e o índice de matriz; e o processadorconfigurado ainda para determinar se a matriz extraída deveser utilizada.
28. Equipamento,, de acordo com a reivindicação27, o processador configurado ainda para extrair o índicede matriz utilizando o valor de ordem recebido.
29. Equipamento, de acordo com a reivindicação27, o processador configurado ainda para determinaradicionalmente o número de bits a demodular para determinaro índice de matriz.
30. Equipamento, de acordo com a reivindicação29, o processador configurado ainda para analisar o valorde ordem para determinar o número de bits a demodular.
31. Meio legível por máquina compreendendoinstruções que quando executadas por uma máquina, fazem comque a máquina execute operações incluindo:meios para determinar um valor de ordem;meios para determinar um índice de matriz; emeios para transmitir a mensagem de link reversocompreendendo um indice de matriz e valor de ordem.
32. Meio legível por máquina, de acordo com areivindicação 31, em que os meios para determinar o índicede matriz compreendem meios para utilizar o valor de ordemdeterminado.
33. Meio legível por máquina, de acordo com areivindicação 31, em que os meios para determinar o índicede matriz compreendem meios para analisar cada matriz deuma pluralidade de matrizes armazenadas em memória.
34. Equipamento operável em um sistema decomunicação sem fio, o equipamento compreendendo:receber um valor de ordem e um índice de matriz;extrair uma matriz compreendendo valores de pesode formação de feixe utilizando valor de ordem e índice dematriz; edeterminar se a matriz extraída deve serutilizada.
35. Meio legível por máquina, dè acordo com areivindicação 34, em que os meios para determinar número debits à demodular compreendem meios para analisar o valor deordem.
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2008
- 2008-05-23 NO NO20082360A patent/NO20082360L/no not_active Application Discontinuation
Also Published As
| Publication number | Publication date |
|---|---|
| MY150252A (en) | 2013-12-31 |
| CN101346903B (zh) | 2013-01-23 |
| EP1949560B1 (en) | 2020-03-11 |
| RU2008121216A (ru) | 2009-12-10 |
| CA2627381C (en) | 2012-05-01 |
| TWI338481B (en) | 2011-03-01 |
| AU2006305739A1 (en) | 2007-05-03 |
| NZ567739A (en) | 2010-10-29 |
| NO20082360L (no) | 2008-07-02 |
| RU2390937C2 (ru) | 2010-05-27 |
| CN101346903A (zh) | 2009-01-14 |
| TW200729867A (en) | 2007-08-01 |
| HUE049153T2 (hu) | 2020-09-28 |
| JP2009514446A (ja) | 2009-04-02 |
| ES2791292T3 (es) | 2020-11-03 |
| US20070097889A1 (en) | 2007-05-03 |
| JP4763797B2 (ja) | 2011-08-31 |
| KR100995789B1 (ko) | 2010-11-22 |
| EP1949560A2 (en) | 2008-07-30 |
| UA92509C2 (ru) | 2010-11-10 |
| WO2007051154A2 (en) | 2007-05-03 |
| WO2007051154A3 (en) | 2007-06-28 |
| CA2627381A1 (en) | 2007-05-03 |
| US9172453B2 (en) | 2015-10-27 |
| BRPI0617901B1 (pt) | 2019-12-10 |
| KR20080068894A (ko) | 2008-07-24 |
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