1321937 九、發明說明: 發明所屬之技術領域 關 本發明係有關無線通信系統。更特日 經加強專用頻道(E-DCH)控制傳輪方法及^置本發明係有 先前技術 改良上鏈(UL)涵蓋,產出及傳輪潛 於第三代夥伴計劃(3GPP)中。為了達=目可被調查 (E U)傳輪已於第三代夥伴計劃中被提出,^々’加強上鏈 :是實體頻道)控制(也就是排程 ;二 器(RNC)被移至B節點。 ,、、、、泉,.罔路控制 第1目顯示傳統無線傳送/接收單元(WTRU)(如行動 站),侧媒體存取控制(MAC)架構1〇〇。無線傳送/接收單元 取控制架構獅係包含—媒體存取控制媒體存 =控制-e實體1()5,其包含媒體存取控制内不同獨立子層實 奴。媒體存取控制_es/_e功能性分割係為媒體存取控制功能 如何被刀割於通用陸地無線存取網路内之結 ^ "、、、、康傳送/接收單元侧媒體存取控制架構1 〇〇進一步包 S问速媒體存取控制(媒體存取控制-hs)實體110,一共 旱媒體存取控制(媒體存取控制·Μ)115,—專用頻道 衣奴存取控制(MAC_d)12〇及—媒體存取控制服務存取點 =Ρ)125。媒體存取控制_c/sh 115可控制存取除了高速下鏈 :子頻if(HS_DSCH)145外之所有制傳輸頻道。專用頻道 讀存取控制W可控制存取所有專用傳輸頻道,媒體存取 1321937 控制-c/sh 115及媒體存取控制-hs實體110。媒體存取控制-hs 實體110可控制存取高速下鏈共享頻道145。 媒體存取控制-es/媒體存取控制-e實體105可控制存取 加強專用頻道130,藉此專用頻道媒體存取控制120可經由 連接135存取加強專用頻道130,而媒體存取控制服務存取 點125可經由連接140存取加強專用頻道130。 第2圖顯示第1圖傳統無線傳送/接收單元中之媒體存 取控制交互運作。如第2圖所示,無線鏈路控制(RLC)協定 資料單元(PDU)係於邏辑頻道上進入媒體存取控制-d。媒體 存取控制-e標頭中,資料說明指示器CDDI)欄位(6位元)係可 識別邏輯頻道,媒體存取控制-d流及媒體存取控制-d協定 資料單元大小。映射表係於無線資源控制(RRC)信號發送上 被傳送促使無線傳送/接收單元設定資料說明指示器值。N 欄位(6位元固定大小)係標示對應相同資料說明指示器值之 連續媒體存取控制-d協定資料單元數。資料說明指示器欄位 特殊值係標示無任何資料被包含於媒體存取控制-e協定資 料單元剩餘部分中。傳輸序號(TSN)欄位(6位元)係提供傳輸 序號於第1圖所示加強專用頻道130上。媒體存取控制-e 協定資料單元被轉送至混合自動重複要求(H-ARQ)實體,其 接著轉送該媒體存取控制-e協定資料單元至層1以便於一 傳輸時間區段(TTI)中傳送。 預期一加強專用頻道資料傳輸排程之有效媒體存取控 制架構。 發明内容 本發明係有關經加強專用頻道控制傳輪 用傳輪格式組合(TFCs)表列係以複數媒=及裝置、。可 基礎被產生。媒體存取控制協定資料w _ 担制-d流為 該可用傳輸格式組合表列之傳輸格式組早合^用被選擇自 接制-e協定資料單元係被轉送至混合自 生。媒體存取 元以便傳輸。該可用傳輪格(组合表列神^要求處理單 類道功率,加強傳輸格式組合組具乘】餘加強專用 資料供傳送之最高優先性媒體存取控制力°強專用頻道 各傳輸格式組合之增益因予為基礎 U功率偏移,及 合被連續更新。 陝復傳輸格式組 貧旅方式 此後,,,兴線傳送/接收單元”名詞係包含但 WB) ’行動站’固定或行動用戶單元,呼叫哭 於使用者設傷 ,中之任何其他類型使用者裝置。此後,被‘,=操作於無線環 匕含但不限於基地台,位址控制器,存取I 名詞者係 他接介裝置。 次"、,、泉衣境中之任何其 此後,”媒體存取控制矽,名 控制-e及媒體存取控制-es。 Ί、问用來參考媒體存取 本發明特性可被併入積體電路 互連組件中之電 路中。…路(IQ或被配置於包含多 第3圖顯示依據本發明被 _控制,。無線傳送/接收軍 8 1321937 架構300係包含-加強傳輸格式組合選擇及多工單元奶, -混合自動重複要求處理單幻1Q及—Ty|f理單元315。 加強傳輸格式組合選擇及多工單元3〇5可接收排程許 可2 320=標,被排程媒體存取控制韻使用之傳輸 功料二朽L號32G所標示之傳輪功率量係可被識別 為對專財體㈣頻道轉或可被料排程媒體存取控制 -d流325之下層管理單元315所提供之最大允許功率· 之比率。 、、無線傳送/接收單元依據排程許可傳送排程媒體存取控制_d 流325 ’且料任何時間以達到配置位元速率傳送非排程媒 體存取控制_d流3 3 5。 加強傳輪格式組合選擇及多工單元3〇5係包含一傳輸 組合恢復及消除單元355,一多工器360及一傳輸格式 、’f。選擇及填補單元365。加強傳輸格式組合選擇及多工單 元、305可接收排程及非排程媒體存取控制-d流325,335, 針對媒體存取控制-e協定資料單元348選擇傳輸格式 =後產生一媒體存取控制-e協定資料單元348。傳輸格 ^、且0陝復及消除單元355可接收部份以最大允許功率330 為基楚之剩餘加強專用頻道功率信號34〇。多工器36〇可接 $來自速率要求單元370之速率要求位元345,其係部份以 二不來自服務胞元之混合自動重複要求失敗之混合自動重 故要求處理單元310所輸出之信號350為基礎被產生。 耠傳^格式組合恢復及消除單元355可計算允許加強傳 '、、δ、、且予組。加強傳瑜格式組合組子組以剩餘加強專 91321937 IX. INSTRUCTIONS: TECHNICAL FIELD OF THE INVENTION The present invention relates to wireless communication systems. More special day-enhanced dedicated channel (E-DCH) control method and the present invention are prior art improved uplink (UL) coverage, output and transmission are potential in the 3rd Generation Partnership Project (3GPP). In order to reach the target, the investigation (EU) has been proposed in the third generation of the partnership program, ^ 々 'enhance the winding: is the physical channel) control (that is, the scheduling; the second (RNC) is moved to B Node, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The control architecture lion system includes - media access control media storage = control - e entity 1 () 5, which contains different independent sub-layer slaves in the media access control. The media access control _es / _ functional partition is How the media access control function is cut into the general terrestrial wireless access network? ",,,, and the transmission/reception unit side media access control architecture 1 〇〇 further package S-question media access control (Media Access Control - hs) entity 110, a total of dry media access control (media access control Μ) 115, - dedicated channel clothing slave access control (MAC_d) 12 〇 and - media access control service access point =Ρ)125. The media access control _c/sh 115 can control access to the transmission channel other than the high speed downlink: sub-frequency if (HS_DSCH) 145. Dedicated Channel Read Access Control W controls access to all dedicated transport channels, Media Access 1321937 Control-c/sh 115 and Media Access Control-hs Entity 110. The media access control-hs entity 110 can control access to the high speed downlink shared channel 145. The Media Access Control-es/Media Access Control-e entity 105 can control access to the enhanced dedicated channel 130, whereby the dedicated channel media access control 120 can access the enhanced dedicated channel 130 via the connection 135, while the media access control service Access point 125 can access enhanced dedicated channel 130 via connection 140. Fig. 2 is a view showing the interactive operation of the media access control in the conventional wireless transmitting/receiving unit of Fig. 1. As shown in Figure 2, the Radio Link Control (RLC) Protocol Data Unit (PDU) is connected to the Media Access Control -d on the logical channel. In the Media Access Control-e header, the Data Description Indicator (CDDI) field (6-bit) identifies the logical channel, media access control-d stream, and media access control-d protocol data unit size. The mapping table is transmitted on the Radio Resource Control (RRC) signal transmission to cause the WTRU to set the data description indicator value. The N field (6-bit fixed size) indicates the number of consecutive media access control-d protocol data units corresponding to the same data description indicator value. Data Description Indicator Field The special value indicates that no data is included in the remainder of the Media Access Control-e Agreement data unit. The Transmission Sequence Number (TSN) field (6-bit) provides the transmission number on the enhanced dedicated channel 130 shown in Figure 1. The Media Access Control-e protocol data unit is forwarded to a hybrid automatic repeat request (H-ARQ) entity, which then forwards the media access control-e protocol data unit to layer 1 for use in a transmission time zone (TTI) Transfer. An effective media access control architecture that enhances the scheduling of dedicated channel data transmissions is expected. SUMMARY OF THE INVENTION The present invention is directed to a multi-media medium and device for the enhanced dedicated channel control transmission wheel format combination (TFCs). The foundation can be generated. The media access control protocol data w _ bearer-d stream is the transport format group of the available transport format combination table list. The selected data system unit is forwarded to the hybrid self-generated. Media access elements for transmission. The available transmission wheel grid (combined table column God ^ requires processing single class channel power, strengthens the transmission format combination group multiplication), and strengthens the dedicated data for transmission of the highest priority media access control force. Strong dedicated channel transmission format combination The gain is based on the U power offset, and the combination is continuously updated. The Shaanxi-transportation format group is the poor mode. After that, the Hing line transmission/receiving unit "nouns include but WB) 'Mobile Station' fixed or mobile subscriber unit The call is crying to the user to set up any other type of user device in the injury. After that, it is operated by the wireless ring, but not limited to the base station, the address controller, and the access to the I noun. Device. Any of the following, "media access control", name control - e and media access control - es.用来, 问 for reference media access The features of the present invention can be incorporated into circuitry in an integrated circuit interconnect assembly. ... Road (IQ or is configured to contain more Figure 3 shows that it is controlled according to the invention. Wireless Transmit/Receive Army 8 1321937 Architecture 300 Series includes - Enhanced Transport Format Combination Selection and Multiplex Unit Milk, - Hybrid Automatic Repeat Requirement Handling single magic 1Q and -Ty|f unit 315. Enhanced transmission format combination selection and multiplex unit 3〇5 can receive scheduling permission 2 320=standard, the transmission material used by the scheduled media access control rhyme The amount of transmission power indicated by L No. 32G can be identified as the ratio of the maximum allowable power provided by the layer management unit 315 to the special resource (four) channel transfer or the scheduleable medium access control-d stream 325. The wireless transmitting/receiving unit transmits the scheduled media access control_d stream 325' according to the scheduling permission and transmits the non-scheduled media access control_d stream 3 3 5 at any time to reach the configured bit rate. The transport format combination selection and multiplex unit 3〇5 includes a transport combination recovery and elimination unit 355, a multiplexer 360 and a transport format, 'f. selection and padding unit 365. Enhanced transmission format combination selection and multiplexing Unit, 305 can be connected The scheduled and non-scheduled media access control-d stream 325, 335, selects the transport format for the media access control-e protocol data unit 348 = generates a media access control - e protocol data unit 348. The transport cell ^, and 0 The SHARP and cancellation unit 355 can receive a portion of the remaining enhanced dedicated channel power signal 34 为 based on the maximum allowed power 330. The multiplexer 36 can receive the rate request bit 345 from the rate request unit 370. The part is generated based on the signal 350 outputted by the hybrid automatic repetitive request processing unit 310 which is not caused by the hybrid automatic repeat request failure of the service cell. The ^ ^ format combination recovery and elimination unit 355 can calculate the allow for enhanced transmission , δ, and and group. Strengthen the sub-group of the Yuyu format combination group to reinforce the remaining 9
用顏道功率34。,加強傳輪格式組合組342,具有加 頻遏資料供傳送之最高優先性媒體存取控制流之皋 移(以媒體存取控制_d流功率偏移為基礎)344,^ T 組合之增益因子(從媒體存取控制·d流功率偏二= 論),及加強專用頻道最小組速率(被包含於加強傳輸格 合組342中)為基礎消除及恢復傳輸格式組合被連嘖更^、且 參考第4圖,依據本發明之傳輸格式組合恢復^肖除^ ^ 400係被解釋如下。加強專用頻道建立時,有關傳輸格= 、:且合選擇之參數係被初始化(步驟嫩)。針對各被以唯 ^偏移配置之媒體存取㈣韻,各加強傳輸格式組合所兩 =輪功率係以目前專用實體控制頻道傳輪功率,各加強傳輪 格式組合中之位元數及加強傳輪格式組合之增益因子為= 礎被計算。藉由功率要求被分類之傳輸格式組合表列接著^ 駕存。表列中各人口係以相關媒體存取控流功率偏移識 别傳輪格式組合之功率要求。可替代是,具有指標之所有^ fla存取控制_d流之一完整列表可被儲存。如加強專用頻遒傳 輪頻道(TrCH)最小組資料速率之無線資源控制器信號發送 參數及其他參數亦被設定。 針對各傳輸時間區段,加強傳輪格式組合恢復及消除程 序可被初始化。當加強傳輸格式組合恢復及消除程序被初始 化時,傳輪格式組合恢復及消除單元355可接收及儲存剩餘 加強專用頻道功率340(步驟404)。以緩衝佔用及被映射至 加強專用頻道之各邏輯頻道及媒體存取控制—d流優先性為 基礎,具最高優先性資料之媒體存取控制_d流係被決定於被 映射土包含具有非零緩衝佔用之邏辑頻道之加強專用 (所有媒體存取控制‘d流之間(步驟傷)。此媒體存取控 -d泥之功率偏移係被用於接續步驟中。 二 糸*針對“優先性媒體存取控制~d流之功率偏移,藉由功 傳輪輪格式組合相關表列係被歧(步驟4〇8)。 ,J ^ 1,1 5列接著被以剩餘加強專用頻道功率要求傲 心標(步驟41G)。若力σ強傳輪格式組合所要求之傳輪功 ^ ^專;1|頻道之剩餘功率,則加強傳輪格 =且5被消除,若加強傳輸格式組合所要求之傳輸 2 ^相頻道之·功率支援,則純騎格式組合被恢^ =圭疋’加強傳輪格式組合最小組係被定義使該最小組 匕專用頻道傳輪格式組合永不因傳輸功率限制而被阻 組== 復3及:除單元355可輸出傳輸格式组合 、、及358 土夕工為36〇(步驟4Μ)。 為媒取控=協定資料單元串聯 制-協定资料單:巧 將—或多媒雜存取控 八 疋夕工為單媒體存取控制_e協定资料 多工器36〇亦可針對各媒體存取控制_ 凡 Π及設定每邏辑頻道傳輸序號剛。多工器謝it ” ^頻,考慮排程許可信號32。所標示之 也 疋對專用實體控制頻道功率之比率),非排程媒體 =成〈速率許可3S2,加強專用頻道剩餘功率所、二 專輪格式組合,允許媒體存取控制^流 道相對優先性及速率要求位元標頭345(若速 UZ1937 於此傳輪時間區段中)。 第5八及π圖一起描緣依據本發明多路傳送媒體存取 控制-d流至媒體存取控制_e協定資料單元州之處理⑽ 流程圖。多1E36G可以功率偏移及_功率為基礎計算可 於即將到來傳輪時間區段被無線傳送潘收單元傳送之最大支 =载(也就是被包含於被域加_祕式組合(傳輸格式组 a,,且子組)表财之最大媒體存取㈣ < 協定倾單元大小 (步驟5G2)。若即將到來傳輪時間區段中具有速率要求 ^要求料係被保留。可用酬載被設U最大支援酬術牛 =,。以排程許可信號32〇所標示之傳輸功率為基礎^ 為烟可計算針對此傳輪被以選擇功率偏移傳送 夕 步驟506)。可用排裎酬载係被設定為最大排程= (步霖观)。針對具有非排程許可之各媒體存取控I氧 可用非排程酬載係被設定為非排程許可值(步驟?, Μ ^下步驟係時先性順序針對各邏額道被執行。最< =先性係被選擇(步驟512)。決定是否具有包含被 Ρ 性(允許媒體存取㈣_d “合之資料之至少^先 ^否,該處理前進至步緣536以決定該被選先^ 口、為瑕低優先性。若#最低優先性,則次優先性係^ 騄^),而處理湖返回步驟514。若優先性最低,目擇(步 結東。 Ί處硬 1於步驟5M處決定具有包含倾之邏辑 邏料《這若大於-(步驟516)係被任意選擇,且進」任何 是否具有可用酬載(歩驟518)。若無可用酬载=定 12 1321937 結束。若有可用酬載,則進一步決定邏辑頻道是屬於具有非 排程許可亦或排程許可之媒體存取控制-d流(步驟520)。 若邏辑頻道屬於具有非排程許可之媒體存取控制-d 流,則進一步決定是否具有用於此媒體存取控制-d流之非排 程酬載(步驟522)。若是,媒體存取控制-e協定資料單元348 被填充至邏辑頻道之最小可用酬載,可用非排程酬載及可用 資料(步驟524)。可用酬载及可用非排程酬載係藉由該被填 充資料位元及相關標頭位元降低(步驟526),而處理500前 進至步驟534。 於步驟534,決定是否具有包含允許媒體存取控制-d流 組合之資料之另一此優先性之邏辑頻道。若無其他邏辑頻 道,則處理500前進至步驟536來選擇次優先性。若具有相 同優先性之邏辑頻道,則處理500返回步驟516。 傳輸格式組合選擇及填補單元365替媒體存取控制-e 協定資料單元348選擇適當加強傳輸格式組合及施加填補 來配適該被選擇加強傳輸格式組合。傳輸格式組合選擇及填 補單元365可決定媒體存取控制-e協定資料單元大小並從 被支援此功率偏移之傳輸格式組合表列選擇最小傳輸格式 組合,其大於多工後之媒體存取控制-e協定資料單元大小。 傳輸格式組合選擇及填補單元365接著添加填補至媒體存 取控制-e協定資料單元348以配適該被選擇傳輸格式組 合。加強傳輸格式組合選擇及多工單元305可輸出媒體存取 控制-e協定資料單元376,傳輸格式組合378,功率偏移 380,再傳輸最大數382,速率要求標示384及快樂位元386 13 1321937 昆合自動重複要求處理單元310。 混合自動重複要求處理單元310係負貴管理各混合自 動重複要求處理。混合自動重複要求處理單元31〇可同步操 作傳输及再傳輸。混合自動重複要求回授處理於混合自動重 複要求資訊頻道(HICH)上(也就是ACK(確認)/NACK(否 認)),及追蹤每混合自動重複要求處理之再傳輸最大數。當 來自服務胞元之混合自動重複要求失敗發生時,混合自動重 複要求處理單元310可輸出信號350。當混合自動重複要求 處理邛用時,混合自動重複要求處理可用性標示388係被傳 送至加強傳輪格式組合選擇及多工單元3〇5。 雖然本發明之特性及元件被以特定組合說明於較佳會施 :,但各特性及元件係不需較佳實施例之其他特性及元件 辨本發他特性及元狀各_合中被翔使用 林或 14 1321937 圖式簡單說明 本發明可從以下較佳實施例結合附圖說明得到更詳細了 解,其中: 第1圖顯示傳統無線傳送/接收單元侧媒體存取控制架 構; 第2圖顯示第1圖之傳統無線傳送/接收單元中之先前 技術媒體存取控制交互運作; 第3圖顯示依據本發明被配置之無線傳送/接收單元媒 體存取控制-e架構; 第4圖係為依據本發明之傳輸格式組合恢復及消除處 理流程圖;及 第5A及5B圖一起描繪依據本發明多路傳送媒體存取 控制-d流至媒體存取控制_e協定資料單元之處理流程圖。 媒體存取控制-e s /媒體存取控制-e 媒體存取控制-hs.實體 媒體存取控制-c/sh 專用頻道媒體存取控制 媒體存取控制服務存取點 加強專用頻道 高速下鏈共享頻道 元件符號說明 105 110 115 120 125 130 145 348、376 媒體存取控制-e協定貧料單元 加強專用頻道傳輸格式組合組 15 342 E-TFC 加強傳輸格式組合 H-ARQ 混合自動重複要求可用性指標 TFC 傳輸格式組合 MAC-d 媒體存取控制-d WTRU 無線傳送/接收單元 MAC-e 媒體存取控制-e RLC 無線鏈路控制 1321937 HARQ PROCESS混合自動重複要求 TSN 傳輸序號 DDI 資料說明指示器 PDU 協定資料單元 RLC PDU 無線鏈路控制協定資料單元 16Use the power of the eye 34. The enhanced transport format combination group 342 has the highest priority media access control flow for the transmission of the data to be transmitted (based on the media access control _d stream power offset) 344, ^ T combination gain The factor (from the media access control · d stream power bias = = theory), and the enhanced dedicated channel minimum group rate (included in the enhanced transmission group 342) based on the elimination and recovery of the transport format combination is connected to the ^ Referring to Fig. 4, the transport format combination recovery according to the present invention is explained as follows. When the dedicated channel is established, the parameters related to the transmission grid = , and : are initialized (steps are tender). For each medium access (four) rhyme configured by the offset, each of the enhanced transmission format combinations is controlled by the current dedicated entity to control the channel transmission power, and the number of bits in each combination of the enhanced transmission format is enhanced. The gain factor of the combination of the transmission format is = the basis is calculated. The transport format combination list that is classified by the power requirement is then stored. Each population in the table identifies the power requirements for the combination of the transport format with the associated media access control flow offset. Alternatively, a complete list of all of the fla access control_d streams with metrics can be stored. For example, the radio resource controller signal transmission parameters and other parameters that enhance the minimum group data rate of the dedicated frequency channel (TrCH) are also set. The enhanced transport format combination recovery and cancellation procedures can be initialized for each transmission time segment. When the enhanced transport format combination recovery and cancellation procedure is initialized, the transport format combination recovery and cancellation unit 355 can receive and store the remaining enhanced dedicated channel power 340 (step 404). Based on the buffer occupancy and the logical channels mapped to the enhanced dedicated channel and the media access control-d stream priority, the medium access control_d flow system with the highest priority data is determined by the mapped soil containing the non- The zero-buffer-occupied logical channel is dedicated (all media access control 'd between streams (step damage). This media access control-d mud power offset is used in the connection step. "Priority media access control ~ d flow power offset, by the power transmission wheel format combination related table column is disambiguated (step 4 〇 8). J ^ 1, 1 5 column is then used for the remaining enhancement The channel power requirement is proud of the target (step 41G). If the force of the σ strong transmission wheel format combination is required, the remaining power of the channel will be enhanced and the 5 will be eliminated if the transmission is enhanced. The format of the combination of 2 ^ phase channel power support, the pure riding format combination is restored ^ 疋 疋 'Enhanced transmission format combination minimum group is defined so that the minimum group 匕 dedicated channel transmission format combination never Blocked due to transmission power limitation == complex 3 and: except unit 355 The output transmission format combination, and 358 Te Xigong is 36〇 (step 4Μ). For the media acquisition control = agreement data unit serial system - agreement information sheet: coincidence - or multi-media miscellaneous access control gossip The media access control_e-protocol data multiplexer 36 can also be used for each media access control _ Π 设定 设定 设定 设定 设定 设定 。 。 。 。 。 。 多 多 多 多 多 多 多 多 ” ” ” ” ” ” ” 考虑 考虑 考虑 考虑 考虑 考虑. The ratio of the indicated power to the control channel power of the dedicated entity), non-scheduled media = < rate permission 3S2, enhanced dedicated channel residual power, two special wheel format combination, allowing media access control ^ flow channel relative priority And the rate requires the bit header 345 (if the speed UZ1937 is in this pass time section). The fifth and third figures together describe the processing (10) of the multiplex media access control-d flow to media access control_e protocol data unit state in accordance with the present invention. The multi-1E36G can calculate the maximum load that can be transmitted by the wireless transmission unit in the upcoming transmission time section based on the power offset and _power (that is, it is included in the domain plus _ secret combination (transport format group). a,, and subgroups) maximum media access (4) < agreement tilt unit size (step 5G2). If there is a rate requirement in the upcoming transit time section, the required material is retained. The U maximum support reward cow =, based on the transmission power indicated by the schedule permission signal 32 ^ ^ can be calculated for the transmission to be selected for the power offset transmission step 506). The available levy load is set to the maximum schedule = (Step Lin Guan). For each media access control I have a non-scheduled license, the non-scheduled payload is set to a non-scheduled license value (step?, 步骤 ^ The next step is the preemptive order is executed for each logical lane. The most < = pre-existing system is selected (step 512). Decide whether or not there is a inclusion of a beneficiary (allowing media access (four)_d "combined data at least ^ first ^ no, the process proceeds to step edge 536 to determine the selected First, the port is low priority. If #lowest priority, the second priority is ^ 騄 ^), and the processing lake returns to step 514. If the priority is the lowest, the choice is (step to the east. At step 5M, it is decided to have a logical logic containing the dumping. If this is greater than - (step 516), it is arbitrarily selected, and if any of the available payloads are available (step 518). If no payload is available = 12 1321937 If there is a payload available, it is further determined that the logical channel belongs to a media access control-d stream with a non-scheduled license or schedule permission (step 520). If the logical channel belongs to a non-scheduled license Media access control -d stream, then further decide whether there is a media access control for this -d The non-scheduled payload (step 522). If so, the media access control-e-protocol data unit 348 is populated with the minimum available payload of the logical channel, the non-scheduled payload and the available data are available (step 524). The payload and the available non-scheduled payload are reduced by the padded data bit and associated header bits (step 526), and process 500 proceeds to step 534. At step 534, a determination is made as to whether or not the media access is permitted. Another logical channel of this priority that controls the data of the -d stream combination. If there are no other logical channels, then process 500 proceeds to step 536 to select the secondary priority. If there is a logical channel of the same priority, then processing 500 returns to step 516. The transport format combination selection and padding unit 365 selects the appropriate enhanced transport format combination and applies padding for the media access control-e-protocol data unit 348 to match the selected enhanced transport format combination. Transport format combination selection and padding Unit 365 can determine the media access control-e protocol data unit size and select a minimum transport format combination from the transport format combination table list that supports the power offset, which is greater than The multiplexed media access control-e-protocol data unit size. The transport format combination selection and padding unit 365 then adds padding to the media access control-e-protocol data unit 348 to accommodate the selected transport format combination. The combined selection and multiplex unit 305 can output a media access control-e protocol data unit 376, a transport format combination 378, a power offset 380, a maximum transmission number 382, a rate requirement flag 384, and a happy bit 386 13 1321937. The processing request processing unit 310 is repeated. The hybrid automatic repeat request processing unit 310 is responsible for managing each hybrid automatic repeat request processing. The hybrid automatic repeat request processing unit 31 can synchronously operate the transmission and retransmission. The hybrid automatic repeat request feedback processing is performed on the hybrid automatic repeat request information channel (HICH) (i.e., ACK (acknowledgement)/NACK (no acknowledge)), and the maximum number of retransmissions per hybrid automatic repeat request processing is tracked. Hybrid automatic repeat request processing unit 310 may output signal 350 when a hybrid automatic repeat request failure from the serving cell occurs. When the hybrid automatic repeat request processing is used, the hybrid automatic repeat request processing availability flag 388 is transmitted to the enhanced transport format combination selection and multiplex unit 3〇5. Although the features and elements of the present invention are described in a preferred combination, the various features and elements do not require the other features of the preferred embodiment and the features of the elements and the features of the elements. BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be understood in more detail from the following description of the preferred embodiments, in which: FIG. 1 shows a conventional wireless transmitting/receiving unit side media access control architecture; The prior art media access control interaction operation in the conventional wireless transmitting/receiving unit of FIG. 1; FIG. 3 shows the wireless transmission/reception unit media access control-e architecture configured according to the present invention; FIG. 4 is based on A flowchart of a transport format combination recovery and cancellation process of the present invention; and Figures 5A and 5B together depict a process flow diagram of a multiplexed medium access control-d flow to media access control_e protocol data unit in accordance with the present invention. Media access control-es/media access control-e media access control-hs. physical media access control-c/sh dedicated channel media access control media access control service access point enhanced dedicated channel high speed downlink sharing Channel Element Symbol Description 105 110 115 120 125 130 145 348, 376 Media Access Control - e Protocol Barrier Unit Enhanced Dedicated Channel Transport Format Combination Group 15 342 E-TFC Enhanced Transport Format Combination H-ARQ Hybrid Automatic Repeat Requirement Availability Indicator TFC Transport format combination MAC-d media access control-d WTRU radio transmission/reception unit MAC-e media access control-e RLC radio link control 1321937 HARQ PROCESS hybrid automatic repeat request TSN transmission sequence number DDI data description indicator PDU protocol data Unit RLC PDU Radio Link Control Protocol Data Unit 16