TWI517624B - 用於無線系統之混合自動重傳請求緩衝器管理及回饋設計 - Google Patents
用於無線系統之混合自動重傳請求緩衝器管理及回饋設計 Download PDFInfo
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- H—ELECTRICITY
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- H04W72/00—Local resource management
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- H04L1/00—Arrangements for detecting or preventing errors in the information received
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- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/18—Automatic repetition systems, e.g. Van Duuren systems
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Description
本申請案係有關在先進空中介面標準(advanced air interface standard)下之混合自動重傳請求(Hybrid Automatic Repeat Request;簡稱HARQ)緩衝器管理。
IEEE 802.16是由電機及電子工程師協會(Institute of Electrical and Electronic Engineers;簡稱IEEE)發佈的一組無線寬頻標準。IEEE 802.16m被稱為先進空中介面標準。現階段最高技術的無線通訊標準廣泛地支援混合自動重傳要求(HARQ)。在自動重傳要求(Automatic Repeat Request;簡稱ARQ)下,錯誤偵測資訊先被加入資料,然後才被傳輸,因而保證接收器能夠將該資料解碼。使用HARQ時,額外的前向錯誤校正(Forward Error Correction;簡稱FEC)位元也被加入資料中。
電機及電子工程師協會(IEEE)界定了數種無線通訊標準,其中包括802.16e(寬頻無線存取(broadband wireless access))及802.16m(先進空中介面標準)。本說明書中將IEEE 802.16e稱為"802.16e"或"寬頻無線存取標準";本說明書中將IEEE 802.16m稱為"802.16m"或"先進空中介面標準"。
在該標準之下,也有兩種類型的上鏈快速回饋通道:一主要快速回饋通道(Primary Fast Feedback Channel;簡稱PFBCH),最多支援到六位元的資訊;以及一輔助快速回饋通道(secondary Fast Feedback Channel;簡稱SFBCH),最多支援到二十四位元的資訊。SFBCH可能最多有PFBCH三倍的儲存容量。將根據一些準則而改變PFBCH、SFBCH、或以上兩種快速回饋通道之可用性。
在實際的實施中,行動台將未被正確地解碼的來自叢訊(burst)之資訊儲存在被稱為HARQ緩衝器之一緩衝器中。該緩衝器具有一有限的大小,且當該緩衝器已被填滿時,無法進一步儲存額外的叢訊。該緩衝器的大小及管理機制將影響到行動台的最大傳輸率(throughput)及HARQ之效能兩者。因為需要大的緩衝器以便處理802.16m中支援的流量速率(traffic rate),所以緩衝器管理機制應平衡緩衝器利用率與HARQ效能。
根據本發明所述之實施例,揭示了一種執行HARQ緩衝器管理之方法。該HARQ緩衝器管理可讓行動台(而非基地台)控制其本身緩衝器的大小。該HARQ緩衝器管理將緩衝器溢流(buffer overflow)、緩衝器佔用狀態、及緩衝器大小回報給該基地台,以便促進該基地台與該行動台間之有效率的通訊。
第1圖是根據某些實施例的一HARQ緩衝器管理方法100之一方塊圖。HARQ緩衝器管理方法100包含緩衝器溢流管理及緩衝器佔用回饋報告。HARQ緩衝器管理方法100係由一行動台60將緩衝器溢流30、緩衝器佔用40、及緩衝器大小50回報給一基地台70。下文中將更詳細地說明HARQ緩衝器管理方法100之操作。
行動台60包含一HARQ緩衝器200。因為基地台70可在多個區塊中傳輸被編碼的資料,所以行動台60儲存該等區塊中之某些區塊,直到自該基地台接收到所有的區塊為止。行動台60然後將該等區塊一起解碼。如果該等區塊中之一區塊被錯誤地傳輸,則行動台60向基地台70請求重新傳輸該被錯誤地傳輸之區塊。
根據某些實施例而在第2圖中以示意圖示出這些操作。在第2圖中,一資料傳輸包含四個獨立的區塊80A、80B、80C、及80D(全體地被稱為"區塊80")或部分傳輸,該等區塊之大小可能有所不同。該等區塊80先在基地台70中被編碼,然後才被傳輸到行動台60。該等四個區塊中之三個區塊80A、80B、及80D被成功地傳輸到行動台60,且行動台60針對每一成功的傳輸而將一確認訊息("ACK")傳輸到該基地台。然而,區塊80C被錯誤地傳輸,且行動台60傳輸一否定的確認訊息("NACK"),以便通知基地台70重新傳輸區塊80C。因此,基地台70將區塊80C重新傳輸到行動台60,然後行動台60確認該成功的傳輸。
當自基地台70接收到區塊80時,被設置在行動台60中之HARQ緩衝器200儲存該等區塊80。在第2圖中,HARQ緩衝器200是一先進先出(First-In First-Out;簡稱FIFO)記憶體緩衝器,但是該行動台也可具有其他類型的緩衝儲存單元。在接收到原始資料傳輸的所有區塊80之前,並不將該四區塊的資料傳輸解碼。因此,在接收到所有的區塊之前(區塊80C),HARQ緩衝器200儲存該傳輸中被成功地接收的一些部分(區塊80A、80B、及80D)。然後,行動台60可將該資料解碼。
第2圖示出使用HARQ緩衝器200的一般性原則。只要還有可用於被傳輸的區塊80之儲存容量,則當一區塊被錯誤地傳輸時,行動台60將只需請求重新傳輸("NACK")。需要重新傳輸之另一種方式是在緩衝器200溢流而使行動台60無法儲存部分傳輸時。當HARQ緩衝器200被填滿資料,因而無法在該緩衝器中儲存額外的資料時,HARQ緩衝器200被稱為溢流。在緩衝器200可被用來儲存自基地台70接收的區塊80(未溢流)之前,行動台60被迫請求重新傳輸。
行動台60中具有足夠大小的一緩衝器之可用性與該行動台與基地台70間之傳輸的傳輸通量直接相關。如果HARQ緩衝器200的大小(由HARQ緩衝器大小50提供)太小,則該緩衝器將被迅速地填滿,且行動台60將迫使基地台70執行重新傳輸。因此,傳統上,係保守地管理該緩衝器,即以基地台70控制行動台60中之HARQ緩衝器200。
HARQ緩衝器管理方法100採用一種與傳統緩衝器管理方法不同的方法。在某些實施例中,HARQ緩衝器管理方法100將對緩衝器大小的控制轉移給行動台60,而行動台60則將與HARQ緩衝器200有關的充分之狀態資訊提供給基地台70,使該基地台能夠明智地將資料傳輸到該行動台。
緩衝器溢流管理
在本說明書的用法中,緩衝器溢流被定義為接收了比HARQ緩衝器200能夠處理的更多的(被錯誤解碼)之資料到該緩衝器中。當緩衝器溢流時,HARQ效能將下降。換言之,當HARQ緩衝器200溢流時,基地台70與行動台60間之傳輸的傳輸通量將降低。
由於兩個理由,當採用增量冗餘HARQ(Incremental Redundancy HARQ;簡稱IR-HARQ或HARQ-IR)及適應性HARQ時,此種傳輸通量的問題將變得更嚴重。首先,在HARQ-IR中,重新傳輸可能只包含同位檢查位元(parity bit)。通道至通道(Channel-To-Channel;簡稱CTC)解碼器效能在缺少系統位元(systematic bit)上的一些初始資訊時是吾人所不想要的。此外,在某些情形中,縱然沒有雜訊(信號雜訊比(SNR)趨近於無限大),也無法在不使用原始傳輸之情形下將一重新傳輸解碼。此外,在適應性HARQ中,假定在先前傳輸中已接收到解碼所需的大部分資訊,因而重新傳輸的大小可能是相當小的。
因此,在某些實施例中,在HARQ緩衝器管理方法100下,由管理對行動台60的資料傳輸之該基地台的排程器管理HARQ緩衝器200之溢流。行動台60將其HARQ緩衝器大小50回報給基地台70,且該基地台然後追蹤該行動台的緩衝器200中之佔用程度(直到下一次回報該HARQ緩衝器大小為止)。在某些實施例中,藉由知道緩衝器大小50且追蹤對行動台60的傳輸,基地台70控制將資料傳輸到行動台60,因而實現了較高的傳輸通量。
第3圖以示意圖示出根據某些實施例而由HARQ緩衝器管理方法100執行之緩衝器溢流管理。行動台60將HARQ緩衝器大小50回報給基地台70。基地台70設有一排程器300,用以追蹤該基地台執行的各種資料及操作,其中包括與由該基地台服務之每一行動台有關之資料。排程器300也設有一處理器90,用以追蹤將影響到HARQ緩衝器200的大小之對行動台60的資料傳輸。(處理器90可以是用來追蹤對該行動台的傳輸之一簡單的計數器或定時器。)因為行動台60只自基地台70(被稱為其"服務基地台")接收傳輸,所以該基地台藉由先自行動台60取得該大小資訊(緩衝器大小50),然後追蹤該基地台對該行動台執行的傳輸(亦即,將影響到該緩衝器的被填滿或空出之傳輸),而能夠追蹤HARQ緩衝器200的大小。在某些實施例中,行動台60將緩衝器大小50週期性地傳輸到基地台70。每當行動台60將緩衝器大小50傳輸到基地台70時,排程器300即重新啟動處理器90。
最大傳輸通量及HARQ緩衝器佔用
避免溢流之保守的緩衝器管理機制將限制具有某一HARQ緩衝器大小的行動台60可實現的最大傳輸通量。先進空中介面標準(802.16m)的一項目標是在20 MHz的頻寬下針對2 x 2多輸入及多輸出(Multiple-Input,Multiple-Output;簡稱MIMO)體系而支援大約180 M位元/秒之高傳輸通量流量。可將諸如行動寬頻無線標準(802.16e)中使用的保守之設計用於802.16m,但是如下文中之計算所示出的,此種實施方式可能要使用大緩衝器,以便支援該傳輸通量。然而,大緩衝器將增加行動台的成本,且在大緩衝器未被完全利用時將是無效率的。
下式示出所支援的最大傳輸通量:
其中Rmax是最大編碼率(code-rate)(例如,5/6),且RTT(來回時間(round trip time))是自一傳輸至其重新傳輸或新的傳輸之時間。在802.16m中,新的傳輸包括接收器處理時間、(N)ACK通道發信、重新傳輸/新的傳輸之排程,且該新的傳輸至少為一子訊框(5毫秒),且BufferSize是緩衝器中之軟性位元(soft bit)或量度(metric)之數目。
對該傳輸通量的較高限制之理由在於:在基地台70接收到某些叢訊已被接收到且被正確地解碼的一確認訊息且空出給新資訊的空間之前,基地台70無法傳送比行動台60的緩衝器大小更多的被編碼之位元。
此種最差狀況法保證該HARQ緩衝器不會溢流(除非控制發信中有錯誤)。然而,實際上,該方法對緩衝能力的利用很差。假定:一訊框中之資訊被分成十六個相同大小的叢訊,每一叢訊在一不同的HARQ通道上,且每一叢訊的錯誤機率為0.3且係獨立的。則在該訊框終止時,具有一被完全佔用的緩衝器之機率小到4*10-9。因而證明:有更多的資訊可能已在可忽略不計的錯誤機率下被傳送到行動台60。第4圖是十六個試驗中有x個錯誤時具有一被完全佔用的緩衝器的機率之一圖形,其中假定每一傳輸中之錯誤機率為0.3(0≦x≦16)。第4圖示出:於訊框終止時,該緩衝器的一半(八個叢訊)被佔用之機率為10-2。
避免溢流的保守之緩衝器管理協定浪費了資源且限制了最大使用者傳輸通量。因此,在使用對訊框中之(不造成緩衝器溢流的)最大錯誤數目的統計假設之情況下,基地台70可能傳輸了比宣告的行動台緩衝器大小更多的資訊,而過度使用了行動台60緩衝器。然而,對緩衝器過度使用之統計假設係取決於行動台緩衝器管理。
與基地台70控制HARQ緩衝器200的大小之先前技術之解決方案相比之下,HARQ緩衝器管理方法100可讓行動台60將其緩衝器大小控制成較大或較小,因而可實現更有效率的緩衝器使用。
在某些實施例中,HARQ緩衝器管理方法100使行動台60能夠以數種方式擴大其緩衝器大小50。根據某些實施例而在第5圖中以示意圖示出不同的選項,其中係使用虛線表示緩衝器200中不包含的項目。例如,行動台60可自緩衝器200清空被正確解碼的前向錯誤校正(FEC)區塊82。前向錯誤校正編碼體系將"資料位元"以及諸如循環冗餘查核(Cyclic Redundancy Check;簡稱CRC)或核對和位元等的錯誤偵測位元編碼。因此,FEC編碼增加了被傳輸位元的數目。例如,如果編碼率為1/2,則將以200個"被編碼的位元"傳輸100個"資料位元"。在行動台60的解調期間得到通常具有許多錯誤之被編碼的位元。係以"量度"("metric")之形式儲存該等被編碼的位元,其中每一量度是對所傳輸之被編碼的位元以及其可靠性之一猜測。例如,∞的量度意指被編碼的位元確定是"0",而-∞的量度意指被編碼的位元確定是"1"。零的量度意指被編碼的位元在相等的機率下可能是"1"或"0"。這些量度有時被稱為"軟性位元"。舉例而言,係以8位元之形式量化且儲存該等量度。
例如,如果有100個資料位元,且編碼率是,則行動台60將需要儲存100/或200個軟性位元(每一被編碼的位元有一軟性位元),因而緩衝器200中需要200乘以8個(或1600個)位元(用於現行解碼以及HARQ合倂)。然而,如果只有資料位元被儲存在緩衝器200,則該緩衝器中只需要100位元的空間。此外,如果資料位元包含錯誤偵測位元(例如,CRC),則錯誤偵測位元的儲存不是必要的,但是可能的儲存是較小的。
或者,如第5圖所示,行動台60可使用緩衝器溢流處理程式210而以諸如即時分配更多的緩衝資源之方式明智地處理緩衝器溢流事件。在某些實施例中,如果行動台60因緩衝器溢流而被卡住且必須被重定,或者如果緩衝器200已滿,則啟用緩衝器溢流處理程式210。或者,緩衝器溢流處理程式210可藉由按照隨機的順序或根據某些準則清空舊的傳輸,而保證緩衝器200必然有用來將新的傳輸解碼之空間。例如,緩衝器200可先刪除最舊的傳輸(FIFO緩衝器),這是因為基地台70可能不再重新傳輸較舊的資料。
在一更複雜的方法下,緩衝器溢流處理程式210可只清空同位檢查軟性位元,且嘗試儲存系統位元的量度。系統位元是在解碼器效能上比其他位元更重要之被編碼的位元。因此,在清空系統位元之前先清空其他位元是合理的。在另一種選項中,緩衝器溢流處理程式210可利用較少的位元儲存每一量度,例如,以每一量度有兩個位元取代每一量度有八個位元,而重新獲得緩衝器200中之更多的空間。這些選項是在效能(HARQ合倂增益)與有限的緩衝器大小之間折衷的方式。
在另一選項中,行動台60可避免將緩衝器空間保留給母碼(mother code)位元84,且只儲存所實際接收之被編碼的位元86之量度。在增量冗餘HARQ中,在一重新傳輸中傳輸了新的被編碼的位元,因而在重新傳輸之後需要較大的緩衝器大小。一種原生的實施方式是在第一傳輸的接收期間將充分的緩衝器大小分配給所有後續的傳輸。根據一最小有效編碼率或"母編碼率"而決定該緩衝器大小。在802.16m系統中,母編碼率是1/3,而傳輸的實際編碼率可能是諸如1/2或5/6,且使用一明顯較小的緩衝器。在HARQ緩衝器管理方法100下,母碼位元84(亦即,被用於重新傳輸之新的被編碼的位元)將不被儲存在HARQ緩衝器200中,這是與先前技術的實施方式不同之處。
或者,可在效能與緩衝器大小之間折衷(對被接收的資訊執行有損壓縮(lossy compression))。
自前文中列出的可知,可能難以且不宜將對行動台的內部緩衝器管理完全標準化。例如,要對基地台70完全指定自緩衝器200移除各FEC區塊82時,行動台60需要將軟性位元緩衝器的大小、被解碼位元緩衝器的大小、以及與清空被正確接收的區塊的延遲有關之某些參數回報給該基地台。縱使有了該資訊,基地台70也缺少用來決定最大傳輸流量之足夠資訊,這是因為這些緩衝器的利用最終將取決於通道的狀態。
因此,HARQ緩衝器管理方法100係在一不同的方式下操作。基地台70不接觸行動台的內部緩衝器管理。基地台70反而自行動台60接收可讓基地台70管理流量速率之量度。這些量度將包含通道狀態以及特定的行動台實施方式。
在某些實施例中,根據HARQ緩衝器管理方法100,行動台60將位元明智地儲存在HARQ緩衝器200中。當某些被接收的位元被正確地解碼,但是其他被接收的位元無法被解碼時,啟動HARQ重新傳輸。在先前技術之解決方案中,所有的軟性位元都被儲存在緩衝器200中,以供與該HARQ重新傳輸合倂。在HARQ緩衝器管理方法100中,行動台60將被正確解碼的FEC區塊儲存為資料位元,而自緩衝器200清空被編碼的軟性位元。只有未被正確解碼的FEC區塊係以軟性位元之方式被儲存。
緩衝器佔用回饋
為了可讓基地台70以最佳的方式使用HARQ緩衝器200,HARQ緩衝器管理方法100使用第1圖所示的自行動台60至基地台70之兩種回饋。首先,行動台60將HARQ緩衝器大小50回報給該基地台。在某些實施例中,行動台60以可被儲存在其HARQ緩衝器200的被編碼的軟性位元的數目之能力的方式回報。此外,行動台60將緩衝器佔用通知40回報給基地台70。緩衝器佔用40是緩衝器使用效率之一衡量。在某些實施例中,係於有要求時(於需要時)或週期性地將緩衝器佔用40回報給基地台70。
於需要時緩衝器佔用回饋回報機制
因為HARQ緩衝器溢流不規則地發生,所以於有要求時回饋與緩衝器管理相關的資訊是較有效率的。在某些實施例中,HARQ緩衝器管理方法100回報兩種狀態。為緩衝器佔用40預先界定了一比率臨界值BufThr。當緩衝器佔用40超過該BufThr臨界值時,行動台60將一通知傳送到基地台70。
例如,假定緩衝器臨界值BufThr是40%。當緩衝器佔用40超過40%時(意指緩衝器200的至少40%被佔用或充滿資料),行動台60將通知基地台70。在某些實施例中,可因而以一單一位元完成該通知。當緩衝器佔用40小於40%時,將不傳送任何通知。
第二,HARQ緩衝器管理方法100將緩衝器溢流資訊30回饋到基地台70。在此種情形中,當HARQ緩衝器200自上次回報之後溢流時,行動台60將一通知傳送到基地台70。
有一些不同的方式於需要時回報前文所述之緩衝器佔用40及緩衝器大小50。在某些實施例中,HARQ緩衝器管理方法100將一主要快速回饋通道(PFBCH)用來於需要時回饋緩衝器佔用40及溢流通知,其方式為在該PFBCH中保留兩個字碼,其中一個字碼用來代表緩衝器佔用,且另一字碼用來代表於需要時提供之緩衝器溢流。
第6圖示出根據某些實施例而由HARQ緩衝器管理方法100使用PFBCH以回報緩衝器溢流30及緩衝器佔用40的一可能碼字序列之一表24。某些序列保留給通道品質指標(Channel Quality Indicator;簡稱CQI)回報。以X+1及X+2表示之兩個碼字被界定成由行動台60將緩衝器資訊回報給基地台70。碼字X+1指示緩衝器200之緩衝器佔用40是否超過預先界定的臨界值BufThr。碼字X+2將HARQ緩衝器200之一溢流(緩衝器溢流30)通知基地台70。
在另一選項中,可將一頻寬要求通道(Bandwidth Request Channel;簡稱BWRCH)用來於需要時傳送代表緩衝器佔用40及緩衝器溢流30之一位元訊息。因此,並不使用表24(第6圖)中界定的該等碼字,而是可為這些緩衝器狀態指標中之每一緩衝器狀態指標界定單一位元。此外,可將輔助快速回饋通道(SFBCH)用來回饋緩衝器大小50。第7圖示出由行動台60將該資料回報給基地台70的各種選項之一表。
因此,可使用諸如PFBCH、SFBCH、BWRCH、或其他通道等的一上鏈回饋通道回報緩衝器大小50、緩衝器溢流指標30、及緩衝器佔用狀態40。在其他實施例中,可使用諸如長期演進技術(Long-Term Evolution;簡稱LTE)系統中之實體上鏈控制通道(Physical Uplink Control Channel;簡稱PUCCH)等的單一類型的回饋通道回報緩衝器大小50、緩衝器溢流指標30、及緩衝器佔用狀態40。
雖然以與有限數目的實施例有關之方式說明了本申請案,但是熟悉本門技術者當可了解本申請案的許多修改及變化。最後的申請專利範圍將涵蓋在本發明的真實精神及範圍內之所有此類修改及變化。
100...混合自動重傳請求緩衝器管理方法
30...緩衝器溢流
40...緩衝器佔用
50...緩衝器大小
60...行動台
70...基地台
200...混合自動重傳請求緩衝器
80,80A,80B,80C,80D...區塊
300...排程器
90...處理器
82...前向錯誤校正區塊
210...緩衝器溢流處理程式
84...母碼位元
86...所實際接收之被編碼的位元
若參照前文中之詳細說明,並配合各附圖,將可更佳地了解且因而更易於理解本文件的前文所述之觀點及許多伴隨之優點,而在所有各附圖中,除非另有指定,否則類似的元件符號將參照到類似的部分。
第1圖是根據某些實施例的一HARQ緩衝器管理方法之一示意圖;
第2圖是根據某些實施例的一行動台如何緩衝自一基地台接收的區塊之一示意圖;
第3圖是根據某些實施例的一基地台如何可追蹤行動台的緩衝器大小之一示意圖;
第4圖是根據某些實施例的十六個試驗中有x個錯誤時具有一被完全佔用的緩衝器的機率之一圖形,其中假定每一傳輸之錯誤機率為0.3;
第5圖示出根據某些實施例的一行動台增加其緩衝器的大小之四種方式;
第6圖是根據某些實施例而將為了使用第1圖所示之HARQ緩衝器管理方法將HARQ緩衝器狀態回報給基地台而界定的一可能字碼序列之一表;以及
第7圖是根據某些實施例而由第1圖所示之HARQ緩衝器管理方法回報緩衝器溢流、緩衝器佔用狀態、及緩衝器大小的可能通道之一表。
100...混合自動重傳請求緩衝器管理方法
30...緩衝器溢流
40...緩衝器佔用
50...緩衝器大小
60...行動台
70...基地台
200...混合自動重傳請求緩衝器
Claims (19)
- 一種管理混合自動重傳請求(HARQ)緩衝器之方法,該方法包含:將一緩衝器容量大小傳輸到一基地台,該緩衝器容量大小指示該HARQ緩衝器之容量大小,其中回應於該緩衝器容量大小之改變,傳輸該緩衝器容量大小;如果該HARQ緩衝器溢流,則將一緩衝器溢流指標傳輸到該基地台;以及在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小,其中在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:以一種能夠在使用較少記憶體位元之情形下得到HARQ合併增益之被壓縮方式,將自該基地台接收的某些區塊儲存到該HARQ緩衝器中;以及不將自該基地台接收的某些其他區塊儲存到該HARQ緩衝器中;其中該等被儲存的區塊足夠以有損之方式將該基地台傳輸的資料解碼。
- 如申請專利範圍第1項之方法,進一步包含:如果該緩衝器之佔用超過一預定臨界值,則將一緩衝器佔用通知傳輸到該基地台。
- 如申請專利範圍第1項之方法,其中將一緩衝器容量大小傳輸到一基地台進一步包含:在一輔助快速回饋通道中將該緩衝器容量大小傳輸到 該基地台。
- 如申請專利範圍第2項之方法,其中將一緩衝器佔用通知傳輸到該基地台進一步包含:使用一主要快速回饋通道而以一字碼之形式將該緩衝器佔用通知傳輸到該基地台。
- 如申請專利範圍第2項之方法,其中將一緩衝器佔用通知傳輸到該基地台進一步包含:使用一頻寬要求通道而以一位元之形式傳輸該緩衝器佔用通知。
- 如申請專利範圍第2項之方法,進一步包含:使用一主要快速回饋通道而以一字碼之形式將該緩衝器佔用通知及緩衝器溢流指標傳輸到該基地台。
- 如申請專利範圍第2項之方法,進一步包含:使用一上鏈回饋通道傳輸該緩衝器容量大小、緩衝器佔用通知、及緩衝器溢流指標。
- 如申請專利範圍第1項之方法,其中在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:自該HARQ緩衝器清空被正確解碼的前向錯誤校正區塊。
- 如申請專利範圍第1項之方法,其中在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:自該HARQ緩衝器清空軟性同位檢查位元;以及 將系統位元儲存在該HARQ緩衝器中,其中該等系統位元明確地影響解碼器效能。
- 如申請專利範圍第1項之方法,其中在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:不將母碼位元儲存在該HARQ緩衝器中。
- 一種管理混合自動重傳請求(HARQ)緩衝器之方法,該方法包含:自一行動台接收一緩衝器容量大小,該緩衝器容量大小指示該行動台內之該HARQ緩衝器之容量大小,其中回應於該緩衝器容量大小之改變,接收該緩衝器容量大小;如果該HARQ緩衝器溢流,則自該行動台接收一緩衝器溢流指標;在不管理該HARQ緩衝器之情形下管理至該行動台之流量速率;以及在無須來自該行動台的輸入之情形下管理該HARQ緩衝器之容量大小,其中在無須來自該行動台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:以一種能夠在使用較少記憶體位元之情形下得到HARQ合併增益之被壓縮方式,將自該行動台接收的某些區塊儲存到該HARQ緩衝器中;以及不將自該行動台接收的某些其他區塊儲存到該 HARQ緩衝器中;其中該等被儲存的區塊足夠以有損之方式將該行動台傳輸的資料解碼。
- 如申請專利範圍第11項之方法,進一步包含:如果該HARQ緩衝器之佔用超過一預定臨界值,則自該行動台接收一緩衝器佔用通知。
- 如申請專利範圍第11項之方法,其中自一行動台接收一緩衝器容量大小進一步包含:自一輔助快速回饋通道接收一緩衝器容量大小,其中該輔助快速回饋通道包含多達二十四個位元。
- 如申請專利範圍第12項之方法,進一步包含:在一主要快速回饋通道中以一字碼之形式接收該緩衝器溢流指標及緩衝器佔用通知。
- 如申請專利範圍第11項之方法,進一步包含:在一頻寬要求通道中以一位元之形式接收該緩衝器溢流指標。
- 如申請專利範圍第12項之方法,進一步包含:在一頻寬要求通道中以一位元之形式接收該緩衝器佔用通知。
- 一種管理混合自動重傳請求(HARQ)緩衝器之方法,該方法包含: 管理被用於一無線系統之一混合自動重傳請求(HARQ)緩衝器,其中該管理包含:回應於該HARQ緩衝器之容量大小的改變,將該HARQ緩衝器之容量大小傳送到一服務基地台;如果該緩衝器被填滿,則將一緩衝器溢流指示傳送到該基地台;如果該緩衝器之內容超過一預定臨界值,則將一緩衝器佔用指標傳送到該基地台;以及在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小,其中在無須來自該基地台的輸入之情形下管理該HARQ緩衝器之容量大小進一步包含:以一種能夠在使用較少記憶體位元之情形下得到HARQ合併增益之被壓縮方式,將自該基地台接收的某些區塊儲存到該HARQ緩衝器中;以及不將自該基地台接收的某些其他區塊儲存到該HARQ緩衝器中;其中該等被儲存的區塊足夠以有損之方式將該基地台傳輸的資料解碼。
- 如申請專利範圍第17項之方法,其中管理一HARQ緩衝器進一步包含:自該基地台接收區塊,該等區塊包含解碼位元及接收位元兩者;將該等解碼位元儲存在該HARQ緩衝器中;以及不將該等接收位元儲存在該HARQ緩衝器中。
- 如申請專利範圍第18項之方法,其中不將該等接收位元儲存在該HARQ緩衝器中進一步包含:不將前向錯誤校正位元儲存在該HARQ緩衝器中。
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