201242406 六、發明說明: 【發明所屬之技術領域】 本發明主要關於在載波聚合(Carrier Aggregation,CA ) 技術,特別係有關於官理多分量載波(C〇mp0nent Carrier, CC)之啟動(activate)與停用(deactivate)之方法以及 適用之無線通訊裝置與無線存取網路。 【先前技術0 為了因應對高傳輸速率之需求,目前在無線通訊市場 中所需提供之無線頻寬隨著日漸提升,為此,便發展出一 種可稱作載波聚合之技術,可藉由整合跨分量載波之無線 電資源有效地提供更高的頻寬給使用者,尤其在難以取得 連續且廣闊的頻寬的情形下,载波聚合技術可達到最高之 效益。簡單來說’載波聚合技術係指整合兩個或兩個以上 的頻帶’以提供較高的傳輸/接收頻寬,一般來說,可將進 行整合的每個頻帶稱為一分量載波,意即為整合後的頻寬 中的其中一個分量。 明確來說,每個分量載波都需要先經過設定與啟動才 月b用於負料傳輸/接收’以長期演進(Long Term Evolution, LTE)技術為例’一長期演進系統可先傳送一無線資源控 制(Radio Resource Contro卜RRC)信息以設定供使用者 端使用之分量載波,再透過專用信令(例如:媒體存取控 制(Medium Access Control,MAC)之控制元素(Control Element ’ CE))來啟動該分量載波。之後,如果該使用者 PNA!-AQ~0150~ TWXX/Q% 14-A42786TW-f 4 201242406 端所需之頻寬減少了,則長期演進系統可傳送另一媒體存 取控制之控制元素給該使用者端,以停用該分量載波之一 者。或者’可於系統端以及/或使用者端各自使用一停用計 時器(或可稱之為解除計時器),用以計時對應之分量載 波可持續在啟動狀態之一預定時間區間,待停用計時器屆 期(expire)時,系統端以及/或使用者端便可停用對應之 分量載波。由於使用者端不需在停用的分量載波上監聽實 體下行分享通道(Physical Downlink Shared Channel, PDSCH)與實體下行控制通道(PhysicalDownlinkC〇ntr〇1201242406 VI. Description of the Invention: [Technical Field] The present invention relates to Carrier Aggregation (CA) technology, in particular to the activation of a multi-component carrier (CC) of a government. And deactivated methods and applicable wireless communication devices and wireless access networks. [Prior Art 0 In order to cope with the demand for high transmission rate, the wireless bandwidth required in the wireless communication market is increasing day by day. For this reason, a technology called carrier aggregation can be developed, which can be integrated. The radio resources across component carriers effectively provide higher bandwidth to the user, especially in the case where it is difficult to achieve continuous and wide bandwidth, carrier aggregation technology can achieve the highest efficiency. Simply put, 'carrier aggregation technology refers to the integration of two or more frequency bands' to provide higher transmission/reception bandwidth. In general, each frequency band to be integrated can be referred to as a component carrier, that is, Is one of the components of the integrated bandwidth. Specifically, each component carrier needs to be set and started before it is used for negative transmission/reception. Take Long Term Evolution (LTE) technology as an example. A long-term evolution system can transmit a radio resource first. Control (Radio Resource Contro RRC) information to set the component carrier for the user to use, and then through dedicated signaling (for example, Medium Access Control (MAC) control element (Control Element 'CE)) The component carrier is activated. Thereafter, if the required bandwidth of the user PNA!-AQ~0150~TWXX/Q% 14-A42786TW-f 4 201242406 is reduced, the Long Term Evolution system can transmit another media access control control element to the The user end to deactivate one of the component carriers. Alternatively, a deactivation timer (or may be referred to as a de-timer) may be used on the system side and/or the user end to time the corresponding component carrier to be in a predetermined time interval of the startup state, to be stopped. When the timer expires, the system component and/or the user end can disable the corresponding component carrier. The user terminal does not need to monitor the physical downlink shared channel (PDSCH) and the physical downlink control channel (PhysicalDownlinkC〇ntr〇1) on the deactivated component carrier.
Channel ’ PDCCH) ’所以可有效節省使用者端所耗費之電 力。 【發明内容】 本發明之一實施例提供了 一種無線通訊裝置,適用於 官理多分量載波,包括一無線模組與一控制器模組。上述 無線模組係用以執行與一無線存取網路之間之無線傳輸與 接收。上述控制器模組係用以透過上述無線模組從上述無 線存取網路接收包括一分量載波指標之一前文(preamble) 配置信息,透過上述無線模組在對應至上述分量載波指標 之一分量載波上傳送一隨機存取先佔(Rand〇m Access Preamble)信息至上述無線存取網路,透過上述無線模組 從上述無線存取網路接收對應至上述隨機存取先佔信息之 一隨機存取回應(Random Access Response)信息,以及根 據上述前文配置信息、上述隨機存取先佔信息、以及上述 隨機存取回應信息之一者決定是否啟動(activate)上述分 PNAI-AQ-0150- TWXX/OS14-A42786TW-f 5 201242406 量載波。 本發明之另一實施例提供了一種管理多八息 法,適用於無線連接至一無線存取網路量載波之方 置,包括以下步驟:從上述無線存 1線通訊裝 載波指標之一前文配置信息;在對應至上、=包括一分量 之一分量載波上傳送一隨機存取先佔信息=分量载波指標 網路;從上述無線存取網路接收對應至上、,〔上述無線存取 信息之一隨機存取回應信息;以及根據^隨f存取先佔 息、上述隨機存取先佔信息、以及上=前文配置信 之一者決定是否啟動上述分量載^ 轉取回應信息 於管===;==-,適, 存取節點係用以執行與-無線軌裝置之^㈣。上i 上述控制節點係用以透過上述存取二 为置載波指標之m置信息至上述通ί " 過上述存取節點在對應至上衫量錢二^裝置’ ^ 述無線通訊裝置之一隨機心=载: 點傳送對應至上述隨機存取先佔信息之 Π Γ至上述錄独裝置,以及_上述前; =、==先佔信息、以及上述隨機存: 二者“疋否啟動上述分量載波以供上述輸 法 本發明之另一實施例提供 適用於一無線存取網路, 了一種管理多分量載波之方 包括以下步驟:傳送包括— PNAI-AQ^0150. TWXX/QZ14-A42786T W-f 6 201242406 應至上之、則文配置信息至一無線通訊裝置;在對 載波指標之—分量載波上接㈣自上述無線 一隨機存取先佔信息;傳送對應至上述隨機存 以及相二隨機存取回應信息至上述無線通訊裝置; 及上文配置信息、上述隨機存取先佔信息、以 及上述隨機存取回應 波以供上述無線通者決定是否啟動上述分量載 於二實了-種無線通訊裝置’適用 匕括—無線模組與一控制写、桓組。il 模組係用以執行與—無線存取網路U線 量載波上傳送-隨機存取先佔"至上組在刀 透過上述無線模組從上;:地、線存取網路’ 機存取先佔信息之-隨:存上, 取回應信息而透過上述無線模二示 收對應至上述排程傳輸之—競爭解殊麟接 pi-η)信息,以及根據上^1_1 動或重啟一啟動時間區間之計時。 疋疋否啟 本發明之另一實施例提供了一種八θ 法,適用於無線連接至—無線存取網路之之方 信息至上述無線存取網路;二=隨機存取先佔 從上述無線存取網路接收對應 PNAI-A Q-0150- TWXX/Q% 14-A42786TW-f 201242406 至上述隨機存取先佔信息之—隨機存取回應信牵、 述隨機存取回應信息而執行指示_使用者^置 = 基地台無線電網路暫時標識之一排程傳輪至上述 無線存取網路接收對應至上述排程傳 或重啟一啟動時間區間之計時。 欠動 μ本發明之另—實施例提供了—種無線存 於管理多分量載波,包括—存取節點與—控制節點^用 存取節點係用以執行與—無線通訊裝置之 ^上述 接收。上述控制節# # ”,、線傳輸與 過上述存取節點在-分H 波上接收來自上述無線通訊裝置之一 載 因應上述隨機麵先佔信息㈣ ^先佔信息, 機存取回應信息至上述無線通訊裝置點傳送一隨 從上述無線通訊裝置接收指示一使用者裝取:點 點傳送對應至上述排程傳輸之一競二 =上述存取節 通訊裝置’以及根據上述競爭解決信息決。; 啟一啟動時間區間之計時。 否啟動或重 本發明之另一實施例提供了一種 法,適用於-無線存取網路’包括以下步= : 波上接收來自上述無線通訊裝置之—隨 为直. 因應上述隨機存取先佔信息而傳送一隨機口至 上述無線通訊裝置;從上述無線通訊装 ^應仏心 者裝置識別碼或一基地台無線電網路暫時標識= PNAI-AQ-0150- TWXm% 14-A42786TW-f 8 201242406 輸;傳送對應至上述排程傳輸之—競爭解決信息至上述無 線通訊裝置;錢根據切競爭解決信息蚊是否啟動或 重啟一啟動時間區間之計時。 /關於本發明其他附加的特徵與優點,此領域之熟習技 術人士、’在*雜本發明之精神和範圍内,當可根據本案 方法中所揭路之無線通訊裝置、無線存取網路、以及 管理夕$ ^:載波之方法做些許的更動㈣飾而得到。 【實施方式】 本早節所欽述的是實施本發明之範例,以下範例係以 所附圖式配合說明。然而,以下實施例僅為實施本發明之 代表庫巳例,並非代表實施I發明之所有方式,A中述及之 第一代δ作筹夕伴。十劃組織(3r(j Generati〇n partnership Project ’ 3GPP)所制訂之規格標準書係僅肖以協助表達本 發明之精神,而非用以限制本發明之範圍。 本發明提出使用非競爭式(non_contention based)與 競爭式(contention based )隨機存取程序以啟動分量載波。 第1圖係根據本發明一實施例所述之無線通訊系統之示意 圖。在無線通訊系統100中,無線通訊裝置丨丨0係透過空 中介面(air interface)無線連接至無線存取網路12〇以取 得無線服務。無線存取網路120包括至少一存取節點121 與一控制節點122,一般而言,存取節點πι可為一無線 站台、一基站、或一存取站台,或者可為寬頻分碼多重存 取(Wideband Code Division Multiple Access,WCDMA) 網路之一基地台、或長期演進網路之一進化式基地台,且 PNAMQ-0150-TWXX/O^ 14-A42786TW-f 9 201242406 由控制節點122控制以提供無線存取網路12〇之無線傳輸 與接收之功能。無線存取網路12〇可進一步連接至一核心 網路130以介接至電路交換(Circuit Switched,cs)領域 之外部網路(例如:公眾交換電話網路(Publie Switched Telephone Network,PSTN))與封包交換(Packet Switched, PS)領域之IP網路(例如:網際網路)。無線存取網路 120與核心網路130之結合通常可被稱為所謂的服務網 路。無線通訊裝置110包括了用以執行無線傳輸與接收功 能之無線模組111,進一步說明,無線模組U1可包括一 基頻(baseband )單元(未繪示)與一射頻(Radi〇 Frequency ’ RF)模組(未繪示),基頻單元可包括多個硬 體裝置以執彳亍基頻彳§说處理’包括類比數位轉換(anal〇g digital conversion,ADC) /數位類比轉換(digital t〇 anal〇g conversion,DAC)、增益(gain)調整、調變與解調變、 以及編碼/解碼等。射頻模組可接收射頻無線信號,並將射 頻無線信號轉換為基頻信號以交由基頻模組進一步處理, 或自基頻信號模組接收基頻信號,並將基頻信號轉換為射 頻無線信號以進行傳送。射頻模組亦可包括多個硬體裝置 以執行上述射頻轉換,舉例來說,射頻模组可包括一混頻 器(mixer)以將基頻信號乘上無線通訊系統之射頻中之一 震盪載波’其中該射頻可為寬頻分碼多重存取系統所使用 之900兆赫、1900兆赫、或2100兆赫,或長期演進系統 所使用之900死赫、2100死赫、或2.6千兆赫,或視其它 無線接取技術之標準而定。另外,無線通訊裝置11〇還包 PNAI-AQ-0150- TWXX/Q% 14-A42786TW-f 201242406 括控制器模組112,用以控制無線模組in以及其它功能 模組(例如.用以提供人機介面之顯示單元以及/或按鍵 (keypad)、用以儲存應用程式與通訊協定之程式碼之儲存單 元等)之運作狀態。在一實施例中,無線存取網路12〇可 為長期演進網路之一進化式通用陸地無線存取網路 (Evolved Universal Terrestrial Radio Access Network ^ EUTRAN),而無線通訊裝置no可為一使用者裝置 Equipment ’ UE)依循第三代合作夥伴計劃組織所制訂之 第9版規格標準書TS 36.331與36.321、第10版規格標準 書TS 36.300、以及/或長期演進技術之其它規格標準書。 明確來說’控制器模組112係控制無線模組π〗以執 行與無線存取網路120之間之非競爭式與競爭式隨機存取 程序,將已設定但未啟動之分量載波啟動。第2圖係根據 本發明一實施例所述之非競爭式隨機存取程序之信息序列 圖。在此實施例,無線存取網路120為一進化式通用陸地 無線存取網路,而無線通訊裝置110為一使用者裝置。首 先’對無線通訊裝置110而言,已存在設定好的第一分量 載波(文中通稱為CC#1)與第二分量載波(文中通稱為 CC#2),其中CC#1被設定為主要分量載波(圖中別稱為 PCC ),而CC#2被設定為次要分量載波(圖中別稱為 SCC)。無線存取網路120可傳送一無線資源控制信息(例 如:無線資源控制之連線重設(RRC Connection Reconfiguration)信息)至無線通訊裝置110以進行上述 CC#1、CC#2之設定。需注意的是,由於CC#1為主要分 PNAI-AQ-0150- TWXX/^% 14-A42786TW-f 201242406 量載波,所以CC#1已在啟動狀態,而cc#2在非啟動狀態。 為了啟動CC#2,無線存取網路120先傳送一前文 (preamble)配置信息至無線通訊裝置11〇 (步驟S210), 明確來說,該前文配置信息包括了配置之前文、以及一分 量載波指標(例如:載波指示攔位(Carrier Indicator Field, CIF)) ’其中該分量載波指標係用以指示欲啟動之分量載 波(意即CC#2 )。當接收到該前文配置信息時,控制器模 組112透過無線模組111在CC#2上傳送一隨機存取先佔 (Random Access Preamble,RAP)信息至無線存取網路 120(步驟S220),其中該隨機存取先佔信息係使用上述 被配置之前文進行傳送。接著,當接收到該隨機存取先佔 信息時,無線存取網路120在CC#2上回覆一隨機存取回 應(Random Access Response,RAR)信息給無線通訊裴置 11〇(步驟S230),以通知該隨機存取先佔信息已確收。 當無線通訊裝置110接收到該隨機存取回應信息時,表示 非競爭式隨機存取程序已完成,i cc#2已在啟動狀態。 對無線通訊裝置11G而言,在接收職賴存取回應作幸 之前,即可視CC#2為已啟動。在一實施例,控制 112可在接收到前文配置信息時就把cc#2當作已啟動;在 另-實施例,控制器模組112可在傳送完隨機存取先佔 息時就把CC#2當作已啟動;或者在又—實施例,由於: 接接收到隨機存取回應信息之後可能會需要—段時間來 理該隨機存取回應信息,所以控制賴組112可在1 隨機存取回應信息之後的—預定時間區間後才視為 PNAI-AQ-0150-TWXX/QZ14-A42786TW-f 201242406 已啟動。在CC#2已啟動之後,無線通訊裝置110可在CC#2 上分別從實體下行分享通道與實體下行控制通道接收資料 與控制訊號,且可執行通道品質指標(Channd Quamy Indicator ’ CQI)之量測。除了啟動cc#2之外,本發明之 非競爭式隨機存取料亦可供減存取_ 12G在上行鍊 1方向調校與無線觀裝置110之間所進行的無線通訊的 %序(timing)。也就是說,無線存取網路12〇可根據隨 機存取先佔信息決定與無線通訊裝置u〇之間所進行的無 線通Λ的犄序位移,然後使用該時序位移去調整上述無線 通訊在上行鍊路方向的時序。 需注意的是’隨機存取回應信息亦可於已啟動且非 CC#2之其它分量載波(意即除了用來傳送隨機存取先佔信 息的分量載波之外的其它分量載波)上進行傳送,且隨機 存取回應彳s息可包括針對複數無線通訊裝置之確認資訊。 在另一實軛例,隨機存取回應信息可傳送於CC#1或已啟 動之另一分里載波上,然而,在某些情況下,可能會有多 個^線通訊裝置都分別在不同的分量餘上被配置了同樣 的則文’且這些無線通訊裝置都在—樣的分量載波上接接 收到使用該敎所傳送之隨機存取回應信息,舉例來說. 第一無線通城置被配置H文,且使用第一前文在 CC#2上傳送_存取先佔信息’而第二無線通訊裝置也被 配置了第一前文,且使用第一前文在cc#1上傳送隨機存 取先佔信息,稍後,第一與第二無線通訊裝置都在CC#1 接接收到使用第一前文傳送之隨機存取回應信息。因此, PNAI-AQ-0150- TWXX/Q% \ 4-A42786TW-f 13 201242406 多個無線通訊裝置使用同樣的前文進行隨機存取先佔信息 之傳送,此情形將造成隨機存取回應信息中的確認資訊存 在不明確之問題,也就是說,該等無線通訊裝置都會認為 隨機存取回應信息係用以確認其先前所傳送之隨機存取先 佔信息,但其實隨機存取回應信息是用以確認第一無線通 訊裝置在CC#2上傳送之隨機存取先佔信息。為了解決此 不明確之問題,當第一與第二無線通訊裝置被設定有相同 之分量載波或已啟動之分量載波時,則無線存取網路120 可避免配置相同之前文給第一與第二無線通訊裝置,使無 線通訊裝置都能使用獨一無二的前文進行隨機存取先佔信 息之傳送,同樣地,亦將使用獨一無二的前文進行隨機存 取回應信息之傳送。另外一個解決不明確問題之方法是可 由無線存取網路120使用無線通訊裝置11 〇之使用者裝置 識別碼(User Equipment Identification,!^ ID)或基地台 無線電網路暫時標識(Cell-Radio network Temporary Identifier ’ C-RNTI )對隨機存取回應信息進行擾亂 (scramble)處理,明確來說,該擾亂處理係指將隨機存 取回應k息之下行控制資訊格式(Downlink ControlChannel ' PDCCH ) ' can effectively save the power consumed by the user side. SUMMARY OF THE INVENTION An embodiment of the present invention provides a wireless communication device suitable for a multi-component carrier of a government, including a wireless module and a controller module. The wireless module is configured to perform wireless transmission and reception with a wireless access network. The controller module is configured to receive, by using the wireless module, a preamble configuration information including a component carrier indicator from the wireless access network, and corresponding to a component of the component carrier indicator by using the wireless module. Transmitting a random access pre-emption (Rand〇m Access Preamble) information to the wireless access network, and receiving, by the wireless module, a random one corresponding to the random access preemption information from the wireless access network And accessing the PNAI-AQ-0150-TWXX according to the foregoing configuration information, the random access preemption information, and the random access response information. /OS14-A42786TW-f 5 201242406 Volume carrier. Another embodiment of the present invention provides a method for managing a multi-octave method, which is suitable for wirelessly connecting to a radio access network carrier, and includes the following steps: loading one of the wave indicators from the wireless storage 1 line communication Configuring information; transmitting a random access preemptive information = component carrier indicator network on a corresponding one of the component carriers including a component; receiving corresponding to the above wireless access network, (the above wireless access information a random access response message; and determining, according to the access to the preemptive information, the random access preemption information, and the upper=previous configuration information, whether to activate the component loading response information in the tube === ;==-, appropriate, the access node is used to perform the - wireless track device ^ (four). The above control node is configured to use the above-mentioned access two to set the carrier index m information to the above-mentioned ί quot quot 过 上述 上述 上述 上述 上述 上述 上述 上述 上述 上述 上述 上述 上述 上述 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机 随机Heart=Load: Point transfer corresponding to the random access preemption information to the above-mentioned recording device, and _ preceding;;, == preemptive information, and the above random storage: "Do not activate the above components Carrier for the above-described transmission method Another embodiment of the present invention is applicable to a radio access network. A method for managing a multi-component carrier includes the following steps: transmission includes - PNAI-AQ^0150. TWXX/QZ14-A42786T Wf 6 201242406 The information should be configured to a wireless communication device; the carrier component is connected to the component carrier (4) from the wireless random access preemptive information; the transmission corresponds to the random access and phase 2 random access response Information to the wireless communication device; and the above configuration information, the random access preemption information, and the random access response wave for the wireless communication provider to determine whether to activate the component In the second real - wireless communication device 'applicable to the wireless module and a control write, 桓 group. il module is used to perform - wireless access network U line volume carrier transmission - random access preemption "The supremacy group passes the above wireless module from above; the ground and the line access network 'machine access preemptive information--with: save, take the response information and pass the above wireless module 2 to correspond to the above The scheduling transmission-competition resolution pi-η information, and the timing of the start time interval according to the upper or lower restarting operation. Another embodiment of the present invention provides an eight-θ method, which is applicable. Wirelessly connecting to the wireless access network to the wireless access network; 2 = random access preemption receiving the corresponding PNAI-A from the wireless access network Q-0150-TWXX/Q% 14 -A42786TW-f 201242406 to the above random access preemptive information - random access response message, said random access response information and execution instructions _ user ^ set = base station radio network temporary identification one of the schedule passes to the above WLAN reception corresponds to the above schedule or heavy The timing of a start time interval. Underacting μ Another embodiment of the present invention provides a wireless storage for managing multi-component carriers, including - access nodes and control nodes for performing and wireless The communication device receives the above-mentioned control section ##", the line transmission and the access node receive the one-bit H-wave from the wireless communication device, and the random surface preemption information (4) The machine accesses the response information to the wireless communication device for transmitting, and the following wireless communication device receives the indication that the user is loaded: the point-to-point transmission corresponds to one of the scheduled transmissions, and the access node communication device is The above competition resolves information. ; Start the time interval of the start time interval. Whether to activate or emphasize another embodiment of the present invention provides a method for a wireless access network that includes the following steps: : receiving on the wave from the wireless communication device - followed by the direct. Transmitting a random port to the wireless communication device; taking the wireless communication device identifier or a base station radio network temporary identification = PNAI-AQ-0150- TWXm% 14-A42786TW-f 8 201242406 Transmitting; transmitting the competition resolution information corresponding to the above scheduled transmission to the wireless communication device; the money is based on the competition to resolve whether the information mosquito is activated or restarted for a start time interval. With regard to other additional features and advantages of the present invention, those skilled in the art, in the spirit and scope of the present invention, may be able to use the wireless communication device, wireless access network, And the management of the evening $ ^: carrier method to make a little change (four) decorated and get. [Embodiment] The examples of the present invention are described in the foregoing section, and the following examples are described in conjunction with the drawings. However, the following examples are merely representative of the embodiments of the present invention, and do not represent all the ways in which the invention of the invention is implemented, and the first generation of delta as described in A. The specification of the standard is based on the spirit of the present invention, and is not intended to limit the scope of the present invention. The present invention proposes to use non-competitive ( Non-contention based) and contention based random access procedure to start component carrier. Fig. 1 is a schematic diagram of a wireless communication system according to an embodiment of the invention. In the wireless communication system 100, a wireless communication device 0 is wirelessly connected to the wireless access network 12 via an air interface to obtain wireless services. The wireless access network 120 includes at least one access node 121 and a control node 122, in general, an access node Πι can be a wireless station, a base station, or an access station, or can be a base station of a Wideband Code Division Multiple Access (WCDMA) network, or an evolution of a long-term evolution network. Base station, and PNAMQ-0150-TWXX/O^ 14-A42786TW-f 9 201242406 is controlled by the control node 122 to provide wireless transmission and reception of the wireless access network 12 The wireless access network 12 can be further connected to a core network 130 for interfacing to an external network in the circuit switched (cs) domain (eg, the Public Switched Telephone Network (Publie Switched Telephone Network). PSTN)) IP networks (e.g., the Internet) in the field of Packet Switched (PS). The combination of the wireless access network 120 and the core network 130 can be generally referred to as a so-called service network. The communication device 110 includes a wireless module 111 for performing wireless transmission and reception functions. Further, the wireless module U1 may include a baseband unit (not shown) and a radio frequency (Radi〇Frequency 'RF). Module (not shown), the baseband unit may include a plurality of hardware devices to perform the fundamental frequency processing, including analog digital conversion (ADC) / digital analog conversion (digital t〇 Anal〇g conversion, DAC), gain adjustment, modulation and demodulation, and encoding/decoding, etc. RF module can receive RF wireless signals and convert RF wireless signals to baseband The signal is further processed by the baseband module, or the baseband signal is received from the baseband signal module, and the baseband signal is converted into a radio frequency wireless signal for transmission. The RF module may also include a plurality of hardware devices to perform the above RF conversion. For example, the RF module may include a mixer to multiply the baseband signal by one of the RF carriers of the wireless communication system. 'The radio frequency can be 900 MHz, 1900 MHz, or 2100 MHz used by the wideband code division multiple access system, or 900 dead, 2100 dead, or 2.6 GHz used by the long term evolution system, or other wireless It depends on the standard of the technology. In addition, the wireless communication device 11 further includes a PNAI-AQ-0150-TWXX/Q% 14-A42786TW-f 201242406 controller module 112 for controlling the wireless module in and other functional modules (for example, for providing The operating status of the display unit and/or keypad of the human interface, the storage unit for storing the code of the application and the protocol, and the like. In an embodiment, the wireless access network 12 can be an Evolved Universal Terrestrial Radio Access Network (EUTRAN), and the wireless communication device no can be used. The Equipment 'UE' follows the version 9 specification standards TS 36.331 and 36.321 developed by the 3rd Generation Partnership Project, the 10th edition of the specification standard TS 36.300, and/or other specifications of the Long Term Evolution. Specifically, the controller module 112 controls the wireless module π to perform a non-competitive and competitive random access procedure with the wireless access network 120 to initiate a component carrier that has been set but not activated. Figure 2 is a sequence of information of a non-competitive random access procedure according to an embodiment of the present invention. In this embodiment, the wireless access network 120 is an evolved universal terrestrial wireless access network, and the wireless communication device 110 is a user device. First, for the wireless communication device 110, there is already a set first component carrier (referred to as CC#1 in the text) and a second component carrier (referred to as CC#2 in the text), where CC#1 is set as the main component. The carrier (also referred to as PCC in the figure) and CC#2 are set as the secondary component carrier (also referred to as SCC in the figure). The wireless access network 120 can transmit a radio resource control message (e.g., RRC Connection Reconfiguration information) to the wireless communication device 110 for setting the CC#1 and CC#2. It should be noted that since CC#1 is the main sub-portion PNAI-AQ-0150-TWXX/^% 14-A42786TW-f 201242406, CC#1 is already in the startup state, and cc#2 is in the non-starting state. In order to activate CC#2, the wireless access network 120 first transmits a preamble configuration information to the wireless communication device 11 (step S210). Specifically, the foregoing configuration information includes the configuration text and a component carrier. Indicator (eg, Carrier Indicator Field (CIF)) 'The component carrier indicator is used to indicate the component carrier to be activated (ie CC#2). When receiving the foregoing configuration information, the controller module 112 transmits a Random Access Preamble (RAP) information to the wireless access network 120 on the CC#2 via the wireless module 111 (step S220). , wherein the random access preemptive information is transmitted using the above configured context. Then, when receiving the random access preemption information, the wireless access network 120 replies a random access response (RAR) message to the wireless communication device 11 at CC#2 (step S230). To notify that the random access preemptive information has been acknowledged. When the wireless communication device 110 receives the random access response information, it indicates that the non-contention random access procedure has been completed, and i cc#2 is already in the startup state. For the wireless communication device 11G, CC#2 can be activated before receiving the response to the response. In an embodiment, the control 112 may treat cc#2 as activated when receiving the previous configuration information; in another embodiment, the controller module 112 may take the CC when the random access preemption is transmitted. #2 is deemed to have been started; or in another embodiment, since: after receiving the random access response information, it may be necessary to process the random access response information for a period of time, so the control group 112 can be stored at 1 The PNAI-AQ-0150-TWXX/QZ14-A42786TW-f 201242406 is activated after the response time is taken after the predetermined time interval. After CC#2 has been started, the wireless communication device 110 can receive data and control signals from the physical downlink sharing channel and the physical downlink control channel on CC#2, and can execute the channel quality indicator (Chand Quamy Indicator 'CQI). Measurement. In addition to initiating cc#2, the non-competitive random access material of the present invention is also available for subtractive access _ 12G in the uplink 1 direction alignment and wireless viewing device 110 between the wireless communication sequence (timing) ). That is, the wireless access network 12 can determine the order of the wireless communication between the wireless communication device and the wireless communication device based on the random access preemptive information, and then use the timing shift to adjust the wireless communication. Timing in the uplink direction. It should be noted that the 'random access response information may also be transmitted on other component carriers that are activated and not other than CC#2 (that is, other component carriers than the component carriers used to transmit random access preemption information). And the random access response message may include confirmation information for the plurality of wireless communication devices. In another embodiment, the random access response information may be transmitted to CC#1 or another divided carrier that has been activated. However, in some cases, there may be multiple communication devices that are different. The remaining components are configured with the same text' and the wireless communication devices receive the random access response information transmitted by the device on the component carrier, for example, the first wireless communication device is The H text is configured, and the first preamble is used to transmit the preemption information on CC#2 and the second wireless communication device is also configured with the first preamble, and the first preamble is used to transmit the random access on cc#1. Preemptive information, later, both the first and second wireless communication devices receive the random access response information transmitted using the first preamble at CC#1. Therefore, PNAI-AQ-0150- TWXX/Q% \ 4-A42786TW-f 13 201242406 Multiple wireless communication devices use the same preamble for random access preemptive information transmission, which will result in random access response information. Confirmation that the information is ambiguous, that is, the wireless communication device will consider the random access response information to confirm the previously transmitted random access preemptive information, but in fact, the random access response information is used to The random access preemption information transmitted by the first wireless communication device on CC#2 is confirmed. In order to solve the problem of ambiguity, when the first and second wireless communication devices are configured with the same component carrier or the activated component carrier, the wireless access network 120 can avoid the same configuration before the first and the first The second wireless communication device enables the wireless communication device to perform the transmission of the random access preemptive information using the unique preamble. Similarly, the transmission of the random access response information will be performed using the unique preamble. Another method for solving the ambiguity problem is that the wireless access network 120 can use the user equipment identification code (User Equipment Identification, !^ ID) or the base station radio network temporary identifier (Cell-Radio network). Temporary Identifier 'C-RNTI) scrambles the random access response information. Specifically, the scrambling process refers to the random access response k message under the control information format (Downlink Control)
Information ’ DCI)之循環冗餘檢查碼(Cyclic RedundantCyclic Redundant Check Code for Information ’ DCI
Check ’ CRC)加以擾亂。由於使用者裝置識別碼或基地台 無線電網路暫時標識可用以明確辨識一無線通訊裝置,所 以接接收到隨機存取回應信息之無線通訊裝置便可明確地 辨識出該隨機存取回應信息是否用以確認其先前所傳送之 隨機存取先佔信息,也就是說,無線通訊裝置只有在可使 PNA/-AQ-0150- TWXX/Q% \ 4-A42786TW-f 14 201242406 用其使用者裝置識別碼或基地台無線電網路暫時標識成功 將接收到的隨機存取回應信息進行解擾亂處理,才表示該 隨機存取回應信息是用以確認其先前所傳送之隨機存取先 佔信息;否則,如果使用其使用者裝^識別碼或基地台無 線電網路暫時標識無法成功將接收到的隨機存取回應信息 進行解擾亂處理,則表示該隨機存取回應信息不是用以確 認其先剛所傳送之隨機存取先佔信息’故無線通訊裝置可 忽略該隨機存取回應信息。 第3圖係根據本發明一實施例所述之競爭式隨機存取 程序之信息序列圖。類似第2圖所示之實施例,無線存取 網路120為一進化式通用陸地無線存取網路,而無線通訊 裝置110為一使用者裝置。首先,對無線通訊裝置11〇而 言’已存在設定好的CC#1與CC#2,其中CC#1被設定為 主要分量載波(圖中別稱為PCC),而CC#2被設定為次 要分量載波(圖中別稱為SCC)。需注意的是,由於CC#1 為主要分量載波’所以CC#1已在啟動狀態,而CC#2在非 啟動狀態。為了啟動CC#2,無線通訊裝置110在CC#2上 傳送一隨機存取先佔信息至無線存取網路120 (步驟 S310) ’其中該隨機存取先佔信息係使用由無線存取網路 120所廣播之前文集(prearnble pool)中之一前文進行傳 送。特別是’在傳送該隨機存取先佔信息之後,無線通訊 裝置110可視CC#2為已啟動,並啟動一停用計時器以計 時CC#2之一啟動時間區間(步驟S320 )。當接收到隨機 存取先佔信息時,無線存取網路120在CC#2上回覆一隨 PNAI-AQ.〇15〇-TWXX/0%\A-M2lUTyN.i 201242406 機存取回應信息給無線通訊裝置⑽(步驟s =::::=。:=範_ 之無‘ 取先無 線通訊裝置110進-步執行指示其使 無 :=電網路暫時標識之一排程傳^ 乂驟S340)。當接收到 =在C⑽上回覆一競爭解決信息給二通;^ S350),其中該競爭解決信息為包括無線通 之使用錢置制料基地# =置 ;=取控制之控制元素。在另-實施例,該二:: 啟動之另―分量毅上。在傳送競爭解決 σ心後,無線存取網路120啟動CC#2並啟動一作田二 時益以計時CC#2之-啟動時間區間(步驟S36〇 )。; °十 當接收到該財解決信息時,無線通訊裝置1H)再根摅社 競=解決信息重新啟動其停用計時器(步驟S37())= 來說,該停用計時器之重新啟動步驟制應該媒體 制之控制it素包括了無線通訊裝置11()之使用者裝置識ς 碼或基地台無線電網路暫時標識而執行,也就是說,如果 該媒體存取控制之控制元素包括了無線通訊裝置u〇之使 用者裴置識別碼或基地台無線電網路暫時標識,則表示步 驟S350中的競爭解決信息是針對無線通訊裝置11〇而傳送 的,所以本發明之競爭式隨機存取程序已完成。同時,無 線存取網路120亦於傳送競爭解決信息之後啟動cc#2之 ΡΝΑ!-Α〇^〇15〇~ 7WXX/0S ] 4-A42786TW-f 16 201242406 枭裝置110與無線存取網路120之間維持同步。在另一實 施例,無線通訊裝置110與無線存取網路12() =度後再啟動或重啟上述停用計時器,讓無線通訊 裝置110能有足夠的時間處理所接收到的競爭解決"。 或者’無線通訊裝置11G可在舰完隨機存取先佔^之 後先不啟動上述停料㈣,等到魏到媒體存取控制之 控制凡素㈣媒體存取控制之控制元素包括有其使用者裝 置識別碼或基地台無線電網路暫時標識時,再啟動上述停 用計時器。 第4圖係根據本發明另一實施例所述之競爭式隨機存 取程序之信息序列圖。類似第3圖所示之實施例,無線存 取網路120為一進化式通用陸地無線存取網路,而無線通 訊裝置110為一使用者裝置。首先,對無線通訊裝置】1〇 而言’已存在設定好的CC#1與CC#2,其中CC#1被設定 為主要分量載波(圖中別稱為PCC),而CC#2被設定為 次要分量載波(圖中別稱為See)。需注意的是,由於CC#1 為主要分量載波,所以CC#1已在啟動狀態,而cc#2在非 啟動狀態。為了啟動CC#2,無線通訊裝置110在CC#2上 傳送一隨機存取先佔信息至無線存取網路120 (步驟 S410) ’其中該隨機存取先佔信息係使用由無線存取網路 120所廣播之前文集中之一前文進行傳送。特別是,在傳 送該隨機存取先佔信息之後,無線通訊裝置 110 可視 CC#2 為已啟動,並啟動一停用計時器以計時CC#2之一啟動時 PNAI-AQ-0150-TWXX/Q% 14-A42786TW-f 201242406 間區間(步驟S420)。當接收 線存取網路120在CC#2上回隨機存取先佔信息時,無 線通訊裝置11〇 (步驟S43〇)°覆〜隨機存取回應信息給無 網路120的訊號涵蓋範圍内之敘然而,因為位於無線存取 前文集,所以可能會有多個無^線通訊裝置皆可取得上述 行隨機存取先佔信息之傳送了因通訊裝置使用相同前文進 一步執行指示其使用者裝置識另,此’無線通訊裝置110進 時標識之一排程傳輸至無線或基地台無線電網路暫 當接收到該排程傳輸時,無線螂路12〇 (步驟S440)。 覆一競爭解決信息給無線通訊^取網路120在CC#2上回 中該競爭解決信息為透過實體U〇 (步'驟S450),其 行控制信息,且該下行控制控制通道所傳送之-下 之使用者裝置識別碼或基地經由無線通訊裝置110 擾亂處理。需注意的是,無線路暫時標識進行過 控制信息配置在cc#2上的下t網路120可透過該下行 置可據以接收下行資料。=源^鬼,使無線通訊裝 _, _., 在另一實施例,該競爭解決 u為包括-分量錢指標之—下行㈣信息,且 行控制信息係傳送於已啟動之另—分量載波上,其中在該 另-分量載波上的下行資源區塊係透過該下行控制信息配 置給無線通訊裝置U0。明確來說,可❹❹載波指示 攔位之-分量餘指標來a上述在另—分量載波上的下 行資源區塊。在傳送鮮解決信息之後,無線存取網路120 啟動C C # 2並啟動-停用計時ϋ以計時c c # 2之—啟動時間 區間(步驟S46G)。接著’當接收到該競爭解決信息時, ΡΝΑ!-ΑΟ-0150- TWXX/Q^ \ 4-A42786TW-f 18 201242406 無線通訊裝置110再根據該競爭解決信息重新啟動其停用 計時器,以與無線存取網路120端的停用計時器達到同步 (步驟S470)。明確來說,該停用計時器之重新啟動步驟 係因應經由無線通訊裝置110之使用者裝置識別碼或基地 台無線電網路暫時標識成功將該下行控制信息進行解擾亂 處理而執行,或者係因應該下行控制信息包括了指示CC#2 之一分量載波指標而執行,也就是說,如果無線通訊裝置 110使用其使用者裝置識別碼或基地台無線電網路暫時標 識將該下行控制信息成功進行解擾亂處理、或無線通訊裝 置110成功地解碼了在已啟動之另一分量載波上所接收到 的該下行控制信息且該下行控制信息包括有指示CC#2之 一分量載波指標,則表示步驟S450中的競爭解決信息是針 對無線通訊裝置110而傳送的,所以本發明之競爭式隨機 存取程序已完成。在另一實施例,無線通訊裝置110與無 線存取網路120可等待一預定時間長度後再啟動或重啟上 述停用計時器,讓無線通訊裝置110能有足夠的時間處理 所接收到的競爭解決信息。或者,無線通訊裝置110可在 傳送完隨機存取先佔信息之後先不啟動上述停用計時器, 等到接收到的下行控制信息包括有其使用者裝置識別碼或 基地台無線電網路暫時標識時、或包括有指示CC#2之一 分量載波指標時,再啟動上述停用計時器。 第5圖係根據本發明又一實施例所述之競爭式隨機存 取程序之信息序列圖。類似第3圖所示之實施例,無線存 取網路120為一進化式通用陸地無線存取網路,而無線通 PNAI-AQ-0150-TWXX/0% 14-A42786TW-f 19 201242406 訊裝置110為一使用者裝置。首先,對無線通訊裝置110 而吕,已存在設定好的CC#1與cc#2,其中CC#1被設定 為主要分量載波(圖中別稱為PCC ),而cc#2被設定為 次要分量載波(圖中別稱為SCC)。需注意的是,由於CC#1 為主要分量載波,所以cc#l已在啟動狀態’而cc#2在非 啟動狀態。為了啟動CC#2,無線通訊裝置110在cc#2上 傳送一隨機存取先佔信息至無線存取網路12〇 (步驟 S510),其中該隨機存取先佔信息係使用由無線存取網路 ⑽所廣播之前文财之—前文進行傳送。特別是,在傳 送-亥Ik機存取先佔k息之後,無線通訊裝置11Q可視 為已啟動’並啟動-停料時器以計時cc#2之―啟動時 =間(步驟㈣)。當接收到隨機存取先佔信息時,無 12(3在⑽2上回覆-隨機存取回應信息給無 網路m的職涵絲線存取 前文集,所以可能會有多齡線置皆可取得上述 行隨機存取先健息之傳送訊裝置㈣相同前文進 一步執行㈣其使歸裝置朗t無線通訊裝置110進 時標識之-排程傳輸至無線存取=基地台無線電網路暫 當接收到該排程傳輸時,盔 120(步驟S540)。 覆一競爭解決信息給無線通路咖在⑽2上回 中該競爭解決信息為透過—控制=、110(步驟S550),其 統中的實體下行控制通道、戈其=道(例如:長期演進系 通道)所傳狀-上行切^自4線存取技術中的控制 °心’且該上行允諾信息係經 PNAI-AQ-0150- TWXX/OB14-A42786TW-f 201242406 由無線通訊裝置110之使用者裝置識別碼或基地台無線電 網路暫時標識進行過擾亂處理。需注意的是,無線存取網 路120可透過該上行允諾信息配置在CC#2上的上行資源 區塊,或可透過該上行允諾信息中之一分量載波指標配置 在對應至該分量載波指標之分量載波上的上行資源區塊, 使無線通訊裝置110可據以傳送上行之資料或控制信號。 在另一實施例,該競爭解決信息可為包括一分量載波指標 之一上行允諾信息,且該上行允諾信息係透過一控制通道 (例如:長期演進系統中的實體下行控制通道、或其它無 線存取技術中的控制通道)傳送於已啟動之另一分量載波 上,其中在該另一分量載波上的上行資源區塊係透過該上 行允諾信息配置給無線通訊裝置110。明確來說,可使用 例如載波指示爛位之一分量載波指標來指示上述在另一分 量載波上的上行資源區塊。在傳送競爭解決信息之後,無 線存取網路120啟動CC#2並啟動一停用計時器以計時 CC#2之一啟動時間區間(步驟S560)。接著,當接收到 該競爭解決信息時,無線通訊裝置110再根據該競爭解決 信息重新啟動其停用計時器,以與無線存取網路120端的 停用計時器達到同步(步驟S570)。明確來說,該停用計 時器之重新啟動步驟係因應經由無線通訊裝置110之使用 者裝置識別碼或基地台無線電網路暫時標識成功將該上行 允諾信息進行解擾亂處理而執行,或者係因應該上行允諾 信息包括了指示CC#2之一分量載波指標而執行,也就是 說,如果無線通訊裝置110使用其使用者裝置識別碼或基 PNAI-AQ-OWO-TWXX/mA-kAllUT^-i 201242406 地台無線電網路暫時標識將該 亂處理、或無線通訊展置11〇成功地= 功進行解擾 -分量載波上雜_㈣上行允 已啟動之另 息包括有指示CC#2之〜八吾. 心以上行允諾信 中的競爭解決信息是針‘線通訊步驟S550 1發明之競爭式隨機存取程序U成。在Π的例所 =1:2存取網路12。可等待;: 長度俊丹啟動或重啟上述停用, -能有足夠的時間處理所接收到;;競=== 者’無線核裝f 110可在傳送級機 先不啟動上述停用計時器,等到接收到的上行允 括有其使用者裝置識別碼或基地台無線電網路暫日^識 時、或包括有指不cc#2之-分量載波指標時,再啟動上 述停用計時器。 第6圖係根據本發明再一實施例所述之競爭式隨機存 取程序之信息序列圖。類似第3圖所示之實施例,無線存 取網路120為一進化式通用陸地無線存取網路,而無線通 訊裝置110為一使用者裝置。首先,對無線通訊裝置110 而言’已存在設定好的CC#1與CC#2,其中cc#l被設定 為主要分量載波(圖中別稱為PCC),而cc#2被設定為 次要分量载波(圖中別稱為SCC)。需注意的是,由於CC#1 為主要分量載波,所以CC#1已在啟動狀態,而cc#2在非 啟動狀態。為了啟動CC#2,無線通訊裝置no在CC#2上 傳送一隨機存取先佔信息至無線存取網路120 (步驟 PNAI-AQ-0150- TWXX/Q% \ 4-A42786T W-f 22 201242406 S6KO ’其㈣隨機存取先佔 120所廣播之前文集中 1 宁、使用由無線存取網路 送該隨機存取先佔信息之後m㈣送° _是’在傳 為已啟動,並啟動-停用^時考線通喊置⑽可視⑽2 間區間(步驟S620)。舍接收十時CC#2之一啟動時 線存取網路U0在〇:#2田機存取先佔信息時,無 網路⑽的訊號涵蓋範圍 ^ ^位於無線存取 it令隹κ無線通訊裝置皆可取得上述 1左”,1 α月b a有多個無線通訊裝置使用相同前文進 打隨機存取先佔信息之傳送。因此, f 一步執行指示其使用者裝 :線通訊裝置110進 時“識之-排程傳輸至鱗存取财m f 當接收到該排程傳輸時,無線存 。 覆一競爭職“給無線軌裝置11G #上回 中該競爭解決信息為包括無線通職置m之使用者^ 識別碼或基地台無線電網路暫時標識之裳置 Γ元素。在另一實施例,該競爭解決信息==之 動之另-分篁載波上。在接收到該競爭解決作 '已啟 通訊裝置110發現該競爭解決信息為包括 ^ ’無線 識別石馬或基地台無線電網路暫時標識之一媒體者敦置 控制元素,表示步驟S650中的競爭解決信息:控制之 訊裝置110而傳送的,所以無線通訊裝^ 無線通 上傳送一確認(acknowiedgement)信A 考^在Cc#2 120 ’以表示成功接收到該競爭解決信息(步驟略 PNAI-AQ-〇 15〇_ T^x^/og λ 4-A42786TW-f 23 201242406 或者,該確認信息可傳送於已啟動之另一分量載波上。在 傳送確認信息之後’無線通訊裝置110再重新啟動其停用 計時器(步驟S670)。同時,為因應接收到該確認信息, 無線存取網路Π0啟動CC#2並啟動一停用計時器以計時 CC#2之一啟動時間區間(步驟S680)。由於無線通訊裝 置110與無線存取網路120都因為該確認信息之傳送或接 收而重啟動或啟動其停用計時器,所以能夠使CC#2之啟 動時間區間之計時保持同步。在另一實施例,無線通訊裝 置110與無線存取網路120可等待一預定時間長度後再啟 動或重啟上述停用計時器,讓無線通訊裝置110能有足夠 的時間處理所接收到的競爭解決信息。 除了如第2〜6圖所述之啟動次要分量載波之方法,本 發明亦提供了停用次要分量載波之方法。第7圖係根據本 發明一實施例所述之停用次要分量載波之信息序列圖。需 注意的是’由於CC# 1為主要分量載波,所以CC# 1已在啟 動狀態,而CC#2則透過如第2圖所述之非競爭式隨機存 取程序、或透過如第3〜6圖所述之競爭式隨機存取程序而 被啟動。首先,為因應在如第2圖所述之非競爭式隨機存 取程序、或如第3〜6圖所述之競爭式隨機存取程序中接收 到來自無線存取網路120之一隨機存取回應信息,而在無 線通訊裝置110中針對CC#2啟動一時序對齊計時器(Time Alignment Timer’ TAT);相應地,為因應該隨機存取回 應信息之傳送,亦在無線存取網路120中針對cc#2啟動 一時序對齊計時器。該時序對齊計時器係用以給定一預定 ^AMQ^〇15O-7WXX/0S\4-A42neT^f 24 201242406 時間區間,在該預定時間區間内可視無線通訊裝置110在 CC#2上與無線存取網路120是上行鍊路對齊的 (uplink-timing aligned)。在該時序對齊計時器屆期前, 無線通訊裝置110可監聽下行控制通道(例如:長期演進 系統中的實體下行控制通道、或其它無線存取技術中的控 制通道)以及下行分享通道(例如:長期演進系統中的實 體分享控制通道、或其它無線存取技術中的分享通道), 以於對應之分量載波上分別接收下行控制信息或上行允諾 信息、以及下行資料,然後在對應之分量載波上傳送確認 信息至無線存取網路120,以告知已分別透過下行控制通 道與下行分享通道接收到下行控制信息或上行允諾信息、 以及下行資料。在另一實施例,該時序對齊計時器可為因 應接收到來自無線存取網路120之一時序提前指令 (Timing Advance Command,TAC )信息而啟動。猶後, 當該時序對齊計時器屆期時,無線通訊裝置110將對應至 CC#2之停用計時器停止(步驟S710),接著,無線通訊 裝置110停止在CC#2上監聽下行控制通道與下行分享通 道(步驟S720)。最後,無線通訊裝置110再停用CC#2 (步驟S730)。同樣地,在無線存取網路120端,當其時 序對齊計時器屆期時,會停用CC#2並將對應至CC#2之停 用計時器停止(步驟S740),如此一來,便成功完成CC#2 的停用程序。 第8圖係根據本發明一實施例所述適用於無線通訊裝 置之非競爭式管理多分量載波之方法流程圖。該非競爭式 PNAMQ-O15O-TIA/XX/0S14-A42786TW-f 25 201242406 Π多分量載波之方法係用以啟動已設定但未啟動之分量 =取通訊裝置係無線連接至-無線存取網 传…線服務,特別是,對該無線通訊裝置而+ 主要分!載波為啟動狀態。在該非競爭式i理多 接收包括-分量載波指標之線一通 其中齡量錢純料了m量載波1在 ^ ’該分量載波指標可為—驗指*廳 :疋舉:::=Γ過任-已啟動之分量載波來: Η? 貫苑例,如果只有CCW為已啟動狀 該前文配置信息可透過⑽i來傳送。 通訊裝置在對應至該分量載 ”,、,”% 隨機存取先佔作自至益绩3 分置載波上傳送一 無線存取網路= = (步驟_),然後從 取回應信息(步驟;該==息之-隨機存 對岸至今八〃中該隨機存取回應信息可在 載分量載波、或任—已啟動之分量 載波上傳运。之後,無線通訊裝置根據上述前文 隨機存取先佔信息、以及隨機存取回應信息之一者決。定' :啟該分量載波指標之分量载波(步驟_广 …一 在貫施例’無線通訊裝置可於接 Γ=置:Γ’即視該分量載波為已啟動;或者: 時,==訊裝置可於傳送完隨機存取先佔信息 于視这刀置載波為已啟動;又哎去力 —Check ’ CRC) is disturbed. Since the user device identification code or the base station radio network temporary identifier can be used to clearly identify a wireless communication device, the wireless communication device receiving the random access response information can clearly identify whether the random access response information is used. To confirm the previously transmitted random access preemptive information, that is, the wireless communication device can only identify the PNA/-AQ-0150-TWXX/Q%\4-A42786TW-f 14 201242406 with its user device. The code or base station radio network temporarily identifies that the received random access response information is descrambled, indicating that the random access response information is used to confirm the previously transmitted random access preemption information; otherwise, If the user's device identification code or the base station radio network temporary identifier cannot successfully descramble the received random access response information, it indicates that the random access response information is not used to confirm that it has just been transmitted. The random access preemption information 'so the wireless communication device can ignore the random access response information. Figure 3 is a sequence diagram of information of a contention random access procedure according to an embodiment of the present invention. Similar to the embodiment shown in Figure 2, the wireless access network 120 is an evolved universal terrestrial wireless access network, and the wireless communication device 110 is a user device. First, for the wireless communication device 11', there are already existing CC#1 and CC#2, wherein CC#1 is set as the main component carrier (also referred to as PCC in the figure), and CC#2 is set as the second. The component carrier (also referred to as SCC in the figure). It should be noted that since CC#1 is the primary component carrier', CC#1 is already in the startup state, and CC#2 is in the non-starting state. In order to activate CC#2, the wireless communication device 110 transmits a random access preemption information to the wireless access network 120 on CC#2 (step S310) 'where the random access preemptive information is used by the wireless access network The road 120 broadcasts one of the previous versions of the prearnble pool for transmission. Specifically, after transmitting the random access preemption information, the wireless communication device 110 can be activated by CC#2, and activates a disable timer to count one of the CC#2 start time intervals (step S320). When receiving the random access preemption information, the wireless access network 120 replies with a PNAI-AQ.〇15〇-TWXX/0%\A-M2lUTyN.i 201242406 machine access response message to CC#2. Wireless communication device (10) (step s =::::=.:=fan_no] The first wireless communication device 110 advances to indicate that it is not: = one of the grid road temporary identification schedules step S340 ). When receiving = on C (10), replying to a contention resolution information to the second pass; ^ S350), wherein the contention resolution information is a control element including the use of the wireless communication source base == ; In another embodiment, the second:: is activated by another component. After transmitting the contention resolution σ heart, the wireless access network 120 activates CC#2 and starts a time zone of the time CC#2 (step S36〇). ° ° When receiving the financial settlement information, the wireless communication device 1H) restarts its deactivation timer (step S37()) = the restart timer is restarted. The control system of the media system includes the user device identification code of the wireless communication device 11 () or the temporary identification of the base station radio network, that is, if the control element of the media access control includes If the user identifier of the wireless communication device or the temporary identifier of the base station radio network indicates that the contention resolution information in step S350 is transmitted for the wireless communication device, the competitive random access of the present invention. The program has been completed. At the same time, the wireless access network 120 also starts the cc#2 after transmitting the contention resolution information! -Α〇^〇15〇~ 7WXX/0S] 4-A42786TW-f 16 201242406 枭 device 110 and wireless access network Maintain synchronization between 120. In another embodiment, the wireless communication device 110 and the wireless access network 12() = then restart or restart the above-mentioned deactivation timer, so that the wireless communication device 110 can have enough time to process the received contention resolution. ; Or 'the wireless communication device 11G can not start the above-mentioned stop material after the ship completes the random access preemption ^ (4), and waits until the control of the media access control (IV) media access control control element includes its user device. The above-mentioned deactivation timer is activated when the identification code or the base station radio network is temporarily identified. Figure 4 is a message sequence chart of a competitive random access procedure according to another embodiment of the present invention. Similar to the embodiment shown in Figure 3, the wireless access network 120 is an evolved universal terrestrial wireless access network, and the wireless communication device 110 is a user device. First, for the wireless communication device, 'there are already configured CC#1 and CC#2, where CC#1 is set as the main component carrier (not referred to as PCC in the figure), and CC#2 is set to The secondary component carrier (also referred to as See in the figure). It should be noted that since CC#1 is the primary component carrier, CC#1 is already in the startup state, and cc#2 is in the non-boot state. In order to activate CC#2, the wireless communication device 110 transmits a random access preemption information to the wireless access network 120 on CC#2 (step S410). [The random access preemptive information is used by the wireless access network. The road 120 broadcasts one of the previous episodes in the previous episode. In particular, after transmitting the random access preemption information, the wireless communication device 110 can be activated by CC#2, and activates a disable timer to time PNAI-AQ-0150-TWXX/ when one of CC#2 is started. Q% 14-A42786TW-f 201242406 interval (step S420). When the receiving line access network 120 returns the random access preemptive information on CC#2, the wireless communication device 11 (step S43 〇) 覆 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到 到However, because it is located in the pre-wire access corpus, there may be multiple wireless communication devices that can obtain the transmission of the random access preemptive information. The communication device uses the same preamble to further instruct the user device. In addition, when one of the 'wireless communication device 110' IDs is transmitted to the wireless or base station radio network for temporary reception of the scheduled transmission, the wireless network 12 is terminated (step S440). The contention control information is sent to the wireless communication network 120. In the CC#2, the contention resolution information is transmitted through the entity U〇 (step S450), and the line control information is transmitted by the downlink control channel. - The user device identification code or base underneath is disturbed by the wireless communication device 110. It should be noted that the wireless channel temporarily identifies the downlink information that the control information is configured on the cc#2, and the downlink network 120 can receive the downlink data through the downlink. = source ghost, so that the wireless communication device _, _., in another embodiment, the contention resolution u is - including the - component money indicator - downlink (four) information, and the line control information is transmitted on the activated other component carrier The downlink resource block on the other component carrier is configured to the wireless communication device U0 by using the downlink control information. Specifically, the carrier can indicate the - component residual indicator of the block to a downstream resource block on the other component carrier. After transmitting the fresh resolution information, the wireless access network 120 activates C C # 2 and starts-deactivates the timer to count c c # 2 - the start time interval (step S46G). Then, 'when the contention resolution information is received, ΡΝΑ!-ΑΟ-0150- TWXX/Q^ \ 4-A42786TW-f 18 201242406 The wireless communication device 110 restarts its deactivation timer according to the contention resolution information to The deactivation timer at the end of the wireless access network 120 is synchronized (step S470). Specifically, the restarting step of the deactivation timer is performed because the user device identification code of the wireless communication device 110 or the base station radio network temporarily identifies the downlink control information to be descrambled, or The downlink control information should be performed by indicating one of the component carrier indicators of CC#2, that is, if the wireless communication device 110 uses its user device identification code or the base station radio network temporary identifier to successfully solve the downlink control information. After the scrambling process, or the wireless communication device 110 successfully decodes the downlink control information received on another component carrier that has been activated, and the downlink control information includes a component carrier indicator indicating CC#2, the step S450 is indicated. The contention resolution information in the message is transmitted for the wireless communication device 110, so the competitive random access procedure of the present invention has been completed. In another embodiment, the wireless communication device 110 and the wireless access network 120 can wait for a predetermined length of time before starting or restarting the disable timer, so that the wireless communication device 110 can have sufficient time to process the received competition. Solve the information. Alternatively, the wireless communication device 110 may not activate the deactivation timer after transmitting the random access preemption information, and wait until the received downlink control information includes the user device identification code or the base station radio network temporary identifier. When the indicator component of one of CC#2 is included, the above-mentioned deactivation timer is restarted. Figure 5 is a message sequence chart of a competitive random access procedure according to still another embodiment of the present invention. Similar to the embodiment shown in FIG. 3, the wireless access network 120 is an evolved universal terrestrial wireless access network, and the wireless communication PNAI-AQ-0150-TWXX/0% 14-A42786TW-f 19 201242406 110 is a user device. First, for the wireless communication device 110, there are already established CC#1 and cc#2, where CC#1 is set as the primary component carrier (also referred to as PCC in the figure), and cc#2 is set as the secondary. Component carrier (also referred to as SCC in the figure). It should be noted that since CC#1 is the primary component carrier, cc#1 is already in the startup state' and cc#2 is in the non-boot state. In order to activate CC#2, the wireless communication device 110 transmits a random access preemption information to the wireless access network 12〇 on cc#2 (step S510), wherein the random access preemptive information is used by wireless access. The network (10) broadcasts the previous text—the previous text is transmitted. In particular, after the transmission-Hi-Ik machine accesses the preemptive interest rate, the wireless communication device 11Q can be regarded as having started and starts-stopping the timer to count the start time of the cc#2 = (step (4)). When receiving the random access preemptive information, there is no 12 (3 on (10) 2 reply - random access response information to the network without the network m before the wire access pre-array, so there may be multiple age lines available The above-mentioned random access first-time mobile communication device (4) is further executed in the same manner as in the foregoing (4), and the device is forwarded to the wireless communication device 110. The scheduled transmission to the wireless access = the base station radio network is temporarily received. When the schedule is transmitted, the helmet 120 (step S540). Override the contention resolution information to the wireless channel in the (10)2 up, the contention resolution information is transparent-control=, 110 (step S550), and the entity downlink control in the system The channel, the Goqi = channel (for example: the Long Term Evolution channel) is transmitted - the uplink is controlled from the control of the 4-wire access technology and the uplink promise information is via PNAI-AQ-0150- TWXX/OB14- A42786TW-f 201242406 is interfered by the user device identifier of the wireless communication device 110 or the temporary identifier of the base station radio network. It should be noted that the wireless access network 120 can be configured in CC#2 through the uplink promise information. Upstream resource block Alternatively, the uplink resource block corresponding to the component carrier of the component carrier indicator may be configured by one component carrier indicator in the uplink grant information, so that the wireless communication device 110 can transmit the uplink data or control signal according to the other. In an embodiment, the contention resolution information may be an uplink grant information including one component carrier indicator, and the uplink grant information is transmitted through a control channel (for example, a physical downlink control channel in a long term evolution system, or other radio access technologies) The control channel is transmitted on another component carrier that has been activated, wherein the uplink resource block on the other component carrier is configured to the wireless communication device 110 through the uplink grant information. Specifically, for example, a carrier indication can be used. One of the rotten bits of the component carrier indicator indicates the uplink resource block on the other component carrier. After transmitting the contention resolution information, the radio access network 120 starts CC#2 and starts a deactivation timer to time CC# One of the start time intervals (step S560). Next, when the contention resolution information is received, the wireless communication device 11 0, according to the contention resolution information, restarting its deactivation timer to synchronize with the deactivation timer of the radio access network 120 (step S570). Specifically, the restarting step of the deactivation timer is in response to Performing the user device identification code of the wireless communication device 110 or the base station radio network temporary identification to perform the descrambling process successfully, or because the uplink promise information includes a component carrier indicator indicating CC#2 And execution, that is, if the wireless communication device 110 uses its user device identification code or base PNAI-AQ-OWO-TWXX/mA-kAllUT^-i 201242406, the ground radio network temporarily identifies the mess, or wireless The communication exhibition set 11〇 successfully = the work is descrambled - the component carrier is mixed _ (four) the uplink permission has been activated, including the indication CC#2 ~ 八吾. The competition resolution information in the promise letter is the needle' The line communication step S550 1 invented the competitive random access procedure U. In the example of Π = 1: 2 access to network 12. Can wait;: Length Jundan starts or restarts the above-mentioned deactivation, - can have enough time to process the received;; === The 'Wireless nuclear installation f 110 can not start the above-mentioned deactivation timer in the transmission level The above-mentioned deactivation timer is restarted when the received uplink includes its user device identification code or the base station radio network temporary identification, or includes a component carrier indicator that does not refer to cc#2. Figure 6 is a message sequence chart of a competitive random access procedure according to still another embodiment of the present invention. Similar to the embodiment shown in Figure 3, the wireless access network 120 is an evolved universal terrestrial wireless access network, and the wireless communication device 110 is a user device. First, for the wireless communication device 110, 'set CC#1 and CC#2 already exist, where cc#1 is set as the main component carrier (also referred to as PCC in the figure), and cc#2 is set as the secondary. Component carrier (also referred to as SCC in the figure). It should be noted that since CC#1 is the primary component carrier, CC#1 is already in the startup state, and cc#2 is in the non-boot state. In order to activate CC#2, the wireless communication device no transmits a random access preemption information to the wireless access network 120 on CC#2 (step PNAI-AQ-0150-TWXX/Q%\4-A42786T Wf 22 201242406 S6KO 'The (four) random access preemption 120 broadcasts before the corpus 1 Ning, using the random access preemption information sent by the wireless access network after m (four) send ° _ is 'transmitted as started, and started - deactivated ^ When the test line is arbitrarily set (10) visible (10) 2 interval (step S620). When receiving one of CC#2, the line access network U0 is activated when the #2 field machine accesses the preemptive information, no network The signal coverage of the road (10) ^ ^ is located in the wireless access it makes the 隹 κ wireless communication device can obtain the above 1 left", 1 α month ba has multiple wireless communication devices using the same preamble to enter the random access preemptive information transmission Therefore, f is executed in one step to instruct its user to install: the line communication device 110 enters the time to "sense-schedule transmission to the scale access mf. When receiving the scheduled transmission, the wireless storage. Overwrite a competitive position" to the wireless In the track device 11G #上回中, the contention resolution information is a user including the wireless communication device m. The base station radio network temporarily identifies the device element. In another embodiment, the contention resolution information == the other-branch carrier. Upon receiving the contention resolution, the activated communication device 110 finds that The contention information is a media holder control element including a wireless identification stone horse or a base station radio network temporary identifier, and the competition resolution information in step S650 is transmitted by the control device 110, so the wireless communication device is installed. ^ On the wireless communication, an acknowledgment letter A is tested at Cc#2 120' to indicate that the contention resolution information is successfully received (step PNAI-AQ-〇15〇_T^x^/og λ 4-A42786TW -f 23 201242406 Alternatively, the acknowledgment message may be transmitted on another component carrier that has been activated. After transmitting the acknowledgment message, the wireless communication device 110 restarts its deactivation timer (step S670). At the same time, in response to receiving The confirmation message, the wireless access network 启动0 starts CC#2 and starts a disable timer to count one of the startup time intervals of CC#2 (step S680). Since the wireless communication device 110 and the wireless access network 120 Since the deactivation timer is restarted or activated by the transmission or reception of the confirmation information, the timing of the startup time interval of CC #2 can be synchronized. In another embodiment, the wireless communication device 110 and the wireless access network 120 may wait for a predetermined length of time before starting or restarting the deactivation timer to allow the wireless communication device 110 to have sufficient time to process the received contention resolution information. In addition to the startup secondary as described in Figures 2-6. The method of component carrier, the present invention also provides a method of deactivating a secondary component carrier. Figure 7 is a message sequence diagram of a disabled secondary component carrier in accordance with an embodiment of the present invention. It should be noted that 'because CC# 1 is the main component carrier, CC# 1 is already in the startup state, and CC#2 is through the non-competitive random access procedure as shown in Figure 2, or through the third. The competitive random access procedure described in Figure 6 is initiated. First, a random access from one of the wireless access networks 120 is received in response to a non-contention random access procedure as described in FIG. 2 or a contention random access procedure as described in FIGS. 3-6. Retrieving the response information, and in the wireless communication device 110, start a Time Alignment Timer (TAT) for CC#2; correspondingly, in response to the transmission of the random access response information, also in the wireless access network In 120, a timing alignment timer is started for cc#2. The timing alignment timer is used to give a predetermined time interval of 0AM-7 〇 15O-7WXX/0S\4-A42neT^f 24 201242406, in which the wireless communication device 110 is visible on CC#2 and wireless. Access network 120 is uplink-timing aligned. Before the timing alignment timer expires, the wireless communication device 110 can monitor the downlink control channel (eg, a physical downlink control channel in a long term evolution system, or a control channel in other wireless access technologies) and a downlink shared channel (eg, The entity sharing control channel in the long-term evolution system or the sharing channel in other radio access technologies) respectively receives downlink control information, uplink grant information, and downlink data on the corresponding component carrier, and then on the corresponding component carrier. The confirmation information is transmitted to the wireless access network 120 to notify that the downlink control information or the uplink promise information and the downlink data have been received through the downlink control channel and the downlink shared channel, respectively. In another embodiment, the timing alignment timer can be initiated in response to receiving Timing Advance Command (TAC) information from the wireless access network 120. After that, when the timing alignment timer expires, the wireless communication device 110 stops the deactivation timer corresponding to CC#2 (step S710), and then, the wireless communication device 110 stops monitoring the downlink control channel on CC#2. The channel is shared with the downlink (step S720). Finally, the wireless communication device 110 disables CC#2 again (step S730). Similarly, at the wireless access network 120 end, when its timing alignment timer expires, CC#2 is deactivated and the deactivation timer corresponding to CC#2 is stopped (step S740), thus, The CC#2 deactivation process was successfully completed. Figure 8 is a flow chart of a method for non-competitive management of multi-component carriers suitable for use in a wireless communication device in accordance with an embodiment of the present invention. The non-competitive PNAMQ-O15O-TIA/XX/0S14-A42786TW-f 25 201242406 Π Multi-component carrier method is used to activate the component that has been set but not activated. = The communication device is wirelessly connected to the wireless access network... Line service, in particular, + main points for this wireless communication device! The carrier is in the startup state. In the non-competitive i-received line including the -component carrier index, the middle-aged money is purely m-quantity carrier 1 in ^ 'the component carrier index can be - the test finger * hall: 疋:::=Γ Any-initiated component carrier comes from: Η? Example, if only CCW is activated, the previous configuration information can be transmitted through (10)i. The communication device transmits a radio access network == (step _) on the carrier corresponding to the component ",,," % random access preemption from the performance of the sub-distribution carrier, and then receives the response information (step The =================================================================================================== One of the information and the random access response information is determined. ': The component carrier of the component carrier indicator is turned on (step _ wide... one example is that the wireless communication device can be connected to Γ=置:Γ) The component carrier is activated; or: When, the == device can transmit the random access preemptive information to see that the carrier is activated;
通訊裝置可於接收到隨機存取回應信息時 PNAI-AQ-〇150-TWXXm\‘M2im^M 26 201242406 波為已啟動。由於該分量載波為已啟動狀態,無線通訊裝 置可分別透過下行分享通道(例如:長期演進系統中的實 體分享控制通道、或其它無線存取技術中的分享通道)與 下行控制通道(例如:長期演進系統中的實體下行控制通 道、或其它無線存取技術中的控制通道)接收下行資料以 及下行控制信號,並執行通道品質指標之量測。另外,當 該分量載波為已啟動狀態,無線通訊裝置可啟動一停用計 時器以計時一預定時間區間,該預定時間區間係用以指示 該分量載波可保持在啟動狀態之一時間長度,也就是說, 當該停用計時器屆期時,則需停用該分量載波。此外,仍 需注意的是,如果隨機存取回應信息是從對應至該分量載 波指標之分量載波上所接收到,將會產生如第2圖之實施 例所提及的不明確問題,因此,無線通訊裝置可於接收到 隨機存取回應信息時,判斷該隨機存取回應信息是否經由 其使用者裝置識別碼或基地台無線電網路暫時標識進行過 擾亂處理,若是,無線通訊裝置才能啟動對應至該分量載 波指標之分量載波。 第9圖係根據本發明一實施例所述適用於無線存取網 路之非競爭式管理多分量載波之方法流程圖。該非競爭式 管理多分量載波之方法係用以啟動已設定但未啟動之分量 載波,且適用之無線存取網路係提供無線連接給一無線通 訊裝置,特別是,類似於第8圖之實施例,對該無線通訊 裝置而言,已設定了一主要分量載波為啟動狀態。在該非 競爭式管理多分量載波之方法中,首先,無線存取網路傳 PNAI-AQ-0150-TWXX/mA-AA2lUl^4 27 201242406 送包括一分量載波指標之一前文配置信 (步驟S91。)’其中該分量載波指標指;了:= ί二:施二該分量載波指標可為-载波指示;:戟 而庄思的疋,该刖文配置信拿、 到位。 波來傳送’舉例來說,在一實施例,如:二之:量載 啟動狀感,則該前文配置信息可透過⑽ 為已 無線存取魄絲應域分«波純之―傳量著, 收到來自线料裝置之—隨機 ^㈣上接 s咖,然後傳送對應至該隨機存取先佔,自驟 取回應信息至無線通訊裝置(步驟s 存 取回應信息可在對應至該分量載波 =該隨機存 -已啟動之分量载波上傳送。之後,曰:線波、或任 述:文配置信息、隨機存_信息:、以::據上 信息之-者決定是否啟動對應至該分隨^取回應 =步驟糊)。進一步說明步驟测量載 線存取網路可於傳送完前文配置信息時 無 =…或者在另—實施例c ,取先佔信息時,視該分量載波為已啟== 網路可於傳送完隨機存取二 狀態,無線二於,载波為已啟動 r 系' 次〃…、線存取技術中的控制通道) PAM/-/»0-0750-ri4W〇8l4-A42786TW-f 28 201242406 傳送下行資料以及下行控制信號,並要求無線通訊裝置執 行通道品質指標之量測。另外,當該分量載波為已啟動狀 態,無線存取網路可啟動一停用計時器以計時一預定時間 區間,該預定時間區間係用以指示該分量載波可保持在啟 動狀態之一時間長度,也就是說,當該停用計時器屆期時, 則需停用該分量載波。此外,仍需注意的是,如果隨機存 取回應信息是傳送於對應至該分量載波指標之分量載波 上,將會產生如第2圖之實施例所提及的不明確問題,因 此,無線存取網路可使用無線通訊裝置之使用者裝置識別 碼或基地台無線電網路暫時標識將該隨機存取回應信息進 行擾亂處理,以使無線通訊裝置透過使用其使用者裝置識 別碼或基地台無線電網路暫時標識將該隨機存取回應信息 進行解擾亂處理來判斷該隨機存取回應信息是否對應至先 前所傳送之隨機存取先佔信息,且無線通訊裝置僅能於解 擾亂處理成功完成時才啟動對應至該分量載波指標之分量 載波。另外一種解決不明確問題的方法是,當一無線通訊 裝置與另一無線通訊裝置被設定有至少一相同之分量載波 (不論其為已啟動或未啟動)時,無線存取網路不要配置 相同的前文給這該等無線通訊裝置,如此一來,才能確保 每個無線通訊裝置用來傳送隨機存取先佔信息與接收隨機 存取回應信息所使用的前文是獨一無二的。 第10圖係根據本發明一實施例所述適用於無線通訊 裝置之競爭式管理多分量載波之方法流程圖。該競爭式管 理多分量載波之方法係用以啟動已設定但未啟動之分量載 PNA/-AQ-0150- TWXX/0% 14-A42786TW-f 29 201242406 波,且適用之無線祕裝置係無線 — ㈣得無線服務,特別是,對該無線通訊裝置$取網路 :I主要刀里載波為啟動狀態。在該競爭式管理Ί: 載波之方法中,首先’無線通訊裝置在—分 夕/刀量 中該隨機存取先姑信息係使用由無線存取網路所卢^ ’其 文集中之-前文進行傳送。接著,益 $播之則 取網路接收對應至該隨機存取先㈣息之從無線存 “否㈣)。為步確認該隨機存取回庫ί 心疋否對應至先前所傳送之隨機存取先佔 裝置執行指示-使用者t置識別碼或—基訊 暫時標識之-排程傳輸至無線存取網路(步驟训3、,、祠路 之後’無線通訊裝置再從無線存取網路接”應 傳輸之-競爭解決信息(步驟Sl〇4〇),然後根;? 解決信息決定是否啟動或重啟對應至註八旦 §Α观争 時間區間之計時(步驟S1050)。需、、主立里波之啟動 決信息可有多種實施範例,在第-種實施例中,該= 決信息為包括無線通訊裝置之㈣者裝置朗碼或=地台 無線電網路暫時標識之一媒體存取控制之抑制元素且二 定是否啟動或重啟該啟動時間區間之計時;驟:因應= 體存取控制之控制元素包括無線通訊裝置之使用者裝置識 別碼或基地台無線電網路暫時標識而執行;在第_ = 例中,該㈣解決信息為透過控制通道(例如:1期= 系統中的實體下行控制通道、或其它無線存取技術中的控 PNAI-AQ-0150· TWXX/QZ14-A42786TW-f 201242406 制通道)所傳送之一下行控制信息,且該下行控制信ι係 經由無線通訊裝置之使用者裝置識別碼或基地台無網 路暫時標識進行過擾亂處理,或者,該競爭解決信阜為在 已啟動之另一分量載波上傳送之—下行控制信息,且該下 行控制信息包括了對應至欲啟動之分量載波之—分量載波 指標。其中決定是否啟動或重啟該啟動時間區間之計時步 驟係因應使用無線通訊裝置之使用者裝置識別碼或基地a 無線電網路暫時標識將該下行控制信息成功進行過解σ 處理、應該下行控繼息包括了誠至欲啟動之分旦 載波之-分量載波指標而執行;在第三種實施例中,= 爭解決信息為透過下行控制通道(例如:長_ = 的實體下行控制通道、或其它無線存取技術中的控制通中 在欲啟動之分量載波上所傳送之—上行允諾信息,且气上 打允諾信息係經由無線通訊裝置之使用者裝置識別碼或基 地台無線電網路暫時標識進行過擾亂處理,相應地, 通訊裝置在触義上行允諾信“,㈣使用其使用者 裝置識別碼絲地台無線電·暫時標識將該上行允諾信 息進修解擾亂處理,或者,錢爭解決信息為在已啟動之 另一分量載波上傳送之-上行允騎息,且該上行允諾信 息包括了對應至欲啟動之分量載波之一分量載波指標。其 中決定是否啟動或重啟該啟動時間區間之計時步驟係因應 使用無線通訊裝置之使用者裝置識㈣或基地台無線電網 路暫時標識將該上彳τ允諾信息成功進行過解擾亂處理、或 因應該上行允諾信息包括了對應至欲啟動之分量載波之一 PNAI-AQ-0150- TWXX/0Z14-A42786TW-f 201242406 分量载波指標而執行。 置之使用者裳置識別信息可為包括無線通訊裝 時間區間之計時步驟_延後^疋否啟動或重啟該啟動 之使用者震置識別㈣= 到經由無線通訊裝置 擾IL處理< 冑=:、、,.電崎料標識進行過 中該下行控制信息或1=允或^行4允錯信息時才執行,其 如:長期演進系統中的實體下係透過控制通道(例 取技術中的控制通 制通道、或其它無線存 忠句)攸無線存取網路所接^s, 來^無線通訊裝置可使用其使用者斤2到的。明確 無線電網路暫時標識 、㉟别碼或基地台 行解魏處理,且„右=丁控麻息或上行允諾作自進 祕動時間區間之計時步驟。在又 才啟動或重啟 置可在接收到該競爭解決信息之後,進—步傳無線通訊裝 f至無線存取網路,以告知已接收到該競爭^〜確認信 中,確認信息可傳送於欲啟動之分量載波或^信息,其 分罝載波上’且決定是否啟動或重啟該啟動=之另-時步驟可延後至因應接收到該確認信息而執行間區間之計 第11圖係根據本發明—實施例所述適 網路之競爭式管理多分量載波之方法流程圖。j線存取 理多分量載波之方法係用以啟動已設定但未啟 波’且適狀無線存取網路係提供無線連接給刀直-裝置’特別是’類似於第則之實施例,對該無線= P/^MO-0/5^-7WAX/0814-A42786TW-f 32 201242406 置而言,已設定了 一主要分量載波為啟動狀態。在該非競 爭式方法中,首先,無線存取網路在一分量載波上接收到 來自無線通訊裝置之一隨機存取先佔信息(步驟S1110), 接著,為因應該隨機存取先佔信息,無線存取網路便傳送 一隨機存取回應信息至無線通訊裝置(步驟S1120)。之 後,無線存取網路從無線通訊裝置接收到指示一其使用者 裝置識別碼或一基地台無線電網路暫時標識之一排程傳輸 (步驟S1130),其中該排程傳輸係由無線通訊裝置所執 行以確認上述隨機存取回應信息是否對應至其先前所傳送 之隨機存取先佔信息。在接收到該排程傳輸時,無線存取 網路再傳送對應至該排程傳輸之一競爭解決信息至無線通 訊裝置(步驟S1140),然後根據該競爭解決信息決定是 否啟動或重啟對應至該分量載波之一啟動時間區間之計時 (步驟S1150)。需注意的是,該競爭解決信息可有多種 實施範例,在第一種實施例中,該競爭解決信息為包括無 線通訊裝置之使用者裝置識別碼或基地台無線電網路暫時 標識之一媒體存取控制之控制元素,且決定是否啟動或重 啟該啟動時間區間之計時步驟係因應該媒體存取控制之控 制元素之傳送而執行;在第二種實施例中,該競爭解決信 息為經由無線通訊裝置之使用者裝置識別碼或基地台無線 電網路暫時標識進行過擾亂處理之一下行控制信息,或 者,該競爭解決信息為在已啟動之另一分量載波上傳送之 一下行控制信息,且該下行控制信息包括了對應至欲啟動 之分量載波之一分量載波指標,也就是說,無線存取網路 PNAI-AQ-0150- TWXX/QZ14-A42786TW-f 33 201242406 會使用無線通訊裝置之使用者裝置識叫絲地台無線電 網路暫時標識將該下行控制信息進行擾亂處理、或準備該 下行控制信息以包括對應至欲啟動之分量載波i分量載 波指標並於已啟動之另-分量載波上進行傳送,豆中決定 是否啟動或重啟該啟動時間區間之計時步驟係因應該下行 控制信息之傳送而執行;在第三種實施例中,該競爭解決 信息為透過控制通道(例如:長期演進系統中的實體下行 控制通道、或其它無線存取技射的控㈣道)在欲啟動 之分量載波上所傳送之-上行允諾信息,且該上行允諸信 息係經由無線通訊裝置之❹者裝置,碼或基地台無線 電網路暫時標識進行過擾亂處理,或者,該競爭解決信息 為在已啟動之另-分量載波上傳送之—上行允諾信息,且 該上行允諾信息包括了對應至欲簡之分量載波之二分量 載波指標’也就是說,無線存取網路會使心㈣訊裝置 之使用者裝置削碼或基地台㈣電_料標識將該上 行允諾信息進行擾亂處理、或準_切允諾信息以包括 對應至欲啟動之分量載波之-分量錢指標並於已啟動之 另:分量載波上進行傳送,其中決定是否啟動或重啟該啟 動時間區間之計時步_因賴上行切信息之傳送而執 行0 在另-實施例’該競爭解決信息可為包括無線通訊崩 置之使用者裝置識別碼或基地台無線電_路暫時桿識之〆 媒體存取控制之控制it素’但決定是否啟動或重啟該啟f 時間區間之計時步驟則需延後到無線存 ’ 子取網路透過控制i| PNAMQ-O15O-TWXX/0i\4-A42n6T^f 34 201242406 道(例如:長期演進系統中的實體下行控制通道、或其它 無線存取技術中的控制通道)傳送經由無線通訊裝置之使 用者裝置識別碼或基地台無線電網路暫時標識進行過擾亂 處理之一下行控制信息或上行允諾信息時才執行。明確來 說,無線存取網路係使用無線通訊裝置之使用者裝置識別 碼或基地台無線電網路暫時標識對該下行控制信息或上行 允諾信息進行擾亂處理,且只有當傳送完下行控制信息或 上行允諾信息時才啟動或重啟該啟動時間區間之計時步 驟,之後,無線通訊裝置再使用其使用者裝置識別碼或基 地台無線電網路暫時標識對該下行控制信息或上行允諾信 息進行解擾亂處理。在又一實施例,無線存取網路可在傳 送完該競爭解決信息之後,進一步從無線通訊裝置接收一 確認信息,以知悉無線通訊裝置已接收到該競爭解決信 息,其中該確認信息可傳送於欲啟動之分量載波或已啟動 之另一分量載波上,且決定是否啟動或重啟該啟動時間區 間之計時步驟可延後至因應傳送該確認信息而執行。 第12圖係根據本發明一實施例所述適用於無線通訊 裝置之停用次要分量載波之方法流程圖。該停用次要分量 載波之方法係用以管空次要分量載波之啟動時間區間,且 適用之無線通訊裝置係無線連接至一無線存取網路以取得 無線服務。對無線通訊裝置而言,初步設定有一主要分量 載波與一次要分量載波,且兩個分量載波皆為啟動狀態。 明確來說,該次要分量載波係透過如第2圖所述之非競爭 式隨機存取程序、或透過如第3〜6圖所述之競爭式隨機存 PNA!-AQ-0150-TWXX/^ 14-A42786TW-f 35 201242406 取程序而被啟動。在該 為因應在如第2圖所述之^;要Λ量載波之方法中,首先, 3〜6圖所述之競爭式隨機存存取程序、或如第 網路之-隨機存取回應信息 自無線存取 動-時序對齊計時器以▲“;、、良、訊裝置針對cc#2啟 snio)。在另一實施例,無線㈣間區間(步驟 無線存取網路之一時序提二二、置可因應接收到來自 計時器。接著,無線通鮮再啟動上料序對齊 查其是否屆期(㈣Sl=置監控該時序對齊計時器以檢 期了’則無線通訊裝置停止在==齊計時器屆 分享通道(例如:長期演進系统中波々監聽下行 戎豆它益砼六%从"丄 于、、元〒的貫體下仃分享通道、 如了長期、=Γ的分享通道)與下行控制通道(例 進糸、,先中的實體下行控 取技術中的控制通道〕t匕無線存 w 11〇i^ (^驟S1230),然後,無線通訊 裝置U0再停用該次要分量載波(步驟μ·)。 本發明雖以各種實施例揭露如上,然而其僅為範例參 而与用以限疋本發明的範圍,任何熟習此項技藝者,在 不脫離本發明之精神和範_,當可做些許的更動與潤 飾。例如·本發明戶斤提出之非競爭式與競爭式隨機存取程 序亦T應用在支挺進階版長期演進(Lte_Advanced )技 術、或支援長期演進/寬頻分碼多重存取之其它進階發展技 術之無線通訊裝置與無線存取網路。因此上述實施例並非 用以限定本發明之範圍’本發明之保護範圍當視後附之申 請專利範圍所界定者為準。 PNA1-AQ-0150- TWXX/^% \ 4-A42786TW-f 36 201242406 【圖式簡單說明】 第1圖係根據本發明一實施例所述之無線通訊系統之 示意圖。 第2圖係根據本發明一實施例所述之非競爭式隨機存 取程序之信息序列圖。 第3圖係根據本發明一實施例所述之競爭式隨機存取 程序之信息序列圖。 第4圖係根據本發明另一實施例所述之競爭式隨機存 取程序之信息序列圖。 第5圖係根據本發明又一實施例所述之競爭式隨機存 取程序之信息序列圖。 第6圖係根據本發明再一實施例所述之競爭式隨機存 取程序之信息序列圖。 第7圖係根據本發明一實施例所述之停用次要分量載 波之信息序列圖。 第8圖係根據本發明一實施例所述適用於無線通訊裝 置之非競爭式管理多分量載波之方法流程圖。 第9圖係根據本發明一實施例所述適用於無線存取網 路之非競爭式管理多分量載波之方法流程圖。 第10圖係根據本發明一實施例所述適用於無線通訊 裝置之競爭式管理多分量載波之方法流程圖。 第11圖係根據本發明一實施例所述適用於無線存取 網路之競爭式管理多分量載波之方法流程圖。 PNAMO-0150- TWXX/0^ 14-A42786TW-f 37 201242406 第12圖係根據本發明一實施例所述適用於無線通訊 裝置之停用次要分量載波之方法流程圖。 【主要元件符號說明】 100, -無線通訊系統; 110, -無線通訊裝置; 11卜 -無線模組; 112- -控制器模組; 120- -無線存取網路; 121- -存取節點; 122- -控制節點; 130〜核心網路。 PNA/-AQ-0150- TWXX/0S14-A42786TW-f 38The communication device can receive the random access response message when the PNAI-AQ-〇150-TWXXm\‘M2im^M 26 201242406 wave is activated. Since the component carrier is in an activated state, the wireless communication device can respectively pass through a downlink sharing channel (for example, an entity sharing control channel in a long term evolution system or a sharing channel in other wireless access technologies) and a downlink control channel (for example: long term) The physical downlink control channel in the evolved system, or the control channel in other wireless access technologies, receives the downlink data and the downlink control signal, and performs measurement of the channel quality indicator. In addition, when the component carrier is in an activated state, the wireless communication device can activate a deactivation timer to time a predetermined time interval, which is used to indicate that the component carrier can remain in the startup state for a certain length of time. That is to say, when the deactivation timer expires, the component carrier needs to be deactivated. In addition, it should be noted that if the random access response information is received from the component carrier corresponding to the component carrier indicator, an ambiguity problem as mentioned in the embodiment of FIG. 2 will occur, and therefore, When receiving the random access response information, the wireless communication device can determine whether the random access response information is scrambled via its user device identification code or the base station radio network temporary identifier, and if so, the wireless communication device can initiate the corresponding Component carrier to the component carrier indicator. Figure 9 is a flow chart of a method for non-competitive management of multi-component carriers for a wireless access network, in accordance with an embodiment of the present invention. The non-competitive method of managing a multi-component carrier is to activate a component carrier that is set but not activated, and the applicable wireless access network provides a wireless connection to a wireless communication device, in particular, similar to the implementation of FIG. For example, for the wireless communication device, a primary component carrier has been set to an active state. In the non-competitive method for managing a multi-component carrier, first, the WLAN transmission PNAI-AQ-0150-TWXX/mA-AA2lUl^4 27 201242406 sends a pre-configuration letter including one component carrier indicator (step S91). ) 'The component carrier index refers to; = ί 2: Shi 2 the component carrier indicator can be - carrier indication;: 戟 and Zhuang Si's 疋, the 配置 configuration letter, in place. Wave-transmitting, for example, in an embodiment, such as: two: the load-sensing sense, then the previous configuration information can be transmitted through (10) for the wireless access 魄 应 _ _ _ _ _ _ _ Receiving a random (4) connection from the line device, and then transmitting the corresponding to the random access preemption, and extracting the response information to the wireless communication device (step s access response information may correspond to the component Carrier = the random-storage component carrier is transmitted. After that, 曰: line wave, or any: text configuration information, random memory_information:, with:: according to the information of the person to decide whether to initiate corresponding to the The score is followed by the response = step paste). Further, the step of measuring the load line access network may be performed when the previous configuration information is transmitted, or in another embodiment c, when the preemptive information is taken, the component carrier is turned on == the network can be transmitted. Random access two state, wireless two, the carrier is activated r system 'secondary ..., the control channel in the line access technology) PAM/-/»0-0750-ri4W〇8l4-A42786TW-f 28 201242406 transmission downlink Data and downlink control signals, and require the wireless communication device to perform measurement of channel quality indicators. In addition, when the component carrier is in an activated state, the wireless access network may activate a deactivation timer to time a predetermined time interval, which is used to indicate that the component carrier can remain in the startup state for a length of time. That is, when the deactivation timer expires, the component carrier needs to be deactivated. In addition, it should be noted that if the random access response information is transmitted on the component carrier corresponding to the component carrier index, an ambiguity problem as mentioned in the embodiment of FIG. 2 is generated, and therefore, the wireless memory is stored. The network may use the user device identification code of the wireless communication device or the base station radio network temporary identifier to scramble the random access response information so that the wireless communication device transmits the user device identification code or the base station radio The network temporarily identifies the random access response information to be descrambled to determine whether the random access response information corresponds to the previously transmitted random access preemption information, and the wireless communication device can only successfully complete the descrambling process. The component carrier corresponding to the component carrier indicator is activated. Another way to solve the ambiguity problem is when the wireless communication device and another wireless communication device are set to have at least one identical component carrier (whether it is activated or not activated), the wireless access network is not configured the same. The foregoing provides the wireless communication devices such that it is unique to ensure that each wireless communication device is used to transmit random access preemption information and receive random access response information. Figure 10 is a flow chart of a method for competingly managing a multi-component carrier of a wireless communication device in accordance with an embodiment of the present invention. The method for competingly managing a multi-component carrier is to activate a component-loaded PNA/-AQ-0150-TWXX/0% 14-A42786TW-f 29 201242406 wave that has been set but not activated, and the wireless device is wirelessly- (4) A wireless service, in particular, a network for the wireless communication device: I: the main knife carrier is activated. In the method of competitive management: carrier, firstly, the wireless communication device uses the wireless access network in the _ _ _ _ _ _ _ _ _ _ _ _ Transfer. Then, the benefit of the broadcast is to receive the network access corresponding to the random access first (four) interest from the wireless memory "No (four)). In order to confirm the random access back to the library, the heart does not correspond to the previously transmitted random memory Take the preemptive device execution indication - the user t sets the identification code or - the temporary information of the base message - the schedule is transmitted to the wireless access network (step 3, after the road), the wireless communication device then goes from the wireless access network The road connection should be transmitted - the competition resolution information (step S1〇4〇), and then the root; the resolution information determines whether to start or restart the timing corresponding to the time interval (step S1050). There may be a plurality of implementation examples for the activation information of the main Liribo. In the first embodiment, the information is a media storage device including a wireless device (4) device or a temporary radio network identifier. Taking the suppression element of the control and determining whether to start or restart the timing of the startup time interval; Step: The control element of the physical access control includes the user device identification code of the wireless communication device or the temporary identification of the base station radio network In the _ = example, the (4) resolution information is transmitted through the control channel (eg, phase 1 = physical downlink control channel in the system, or other PNAI-AQ-0150·TWXX/QZ14-A42786TW in the RAT). f 201242406 system channel) transmitting one downlink control information, and the downlink control signal is subjected to scrambling processing via a user device identification code of the wireless communication device or a base station without a network temporary identifier, or the contention resolution signal The downlink control information is transmitted on another component carrier that has been activated, and the downlink control information includes a component carrier indicator corresponding to the component carrier to be activated. The timing step of determining whether to start or restart the startup time interval is The downlink control information is successfully subjected to sigma processing according to the user device identification code of the wireless communication device or the temporary identification of the base a radio network, and the downlink control message should include the component of the decentralized carrier to be activated. Executed by the carrier indicator; in the third embodiment, the contention resolution information is transmitted through the downlink control channel (for example, an entity with a long _= a control channel in a row control channel or other wireless access technology that transmits the uplink grant information on the component carrier to be activated, and the message on the gas is transmitted via the user device identification code or base station of the wireless communication device. The radio network temporary identification is subjected to the disturbance processing, and accordingly, the communication device transmits the promise message in the tactile uplink ", (4) using the user device identification code grid radio/temporary identification to repair the uplink promise information, or The money dispute resolution information is an uplink grant ride on another component carrier that has been activated, and the uplink grant information includes a component carrier indicator corresponding to one of the component carriers to be activated, wherein determining whether to start or restart the boot The timing step of the time interval is based on the use of the user device of the wireless communication device (4) or the temporary identification of the base station radio network to successfully perform the descrambling processing of the information on the upper 彳 τ, or the corresponding information is included in the response information. One of the component carriers activated PNAI-AQ-0150- TWXX/0Z14-A42786TW-f 201242406 Component carrier Standard and execution. The user's identification information may be a timing step including a wireless communication time interval. _ Post-delay ^ 疋 No start or restart the user to activate the identification (4) = to interfere with the IL via the wireless communication device < 胄 = :,,,. The electric resistance flag is executed when the downlink control information or the 1=allow or the line 4 error-correcting information is performed, such as: the entity in the long-term evolution system passes through the control channel (in the example of the technology) The control channel, or other wireless loyalty sentence) 攸 wireless access network connected ^s, to ^ wireless communication device can use its users. Defining the radio network temporary identification, 35 code or base station line processing, and „Right=Ding control or uplink promise to make the timing step of the self-initiation secret time interval. Only after starting or restarting can receive After the contention resolution information, the wireless communication device is forwarded to the wireless access network to notify that the contention message has been received, and the confirmation information can be transmitted to the component carrier or information to be activated. Stepping on the carrier and determining whether to start or restart the activation = the other step can be postponed until the interval is executed in response to receiving the confirmation message. FIG. 11 is a network according to the present invention - an embodiment A flow chart of a method for competitively managing a multi-component carrier. The method of accessing a multi-component carrier by a j-line is used to initiate a set but not oscillating wave and the compliant wireless access network provides a wireless connection to the knife-to-device 'Specially' is similar to the embodiment of the first embodiment. For the wireless = P/^MO-0/5^-7WAX/0814-A42786TW-f 32 201242406, a primary component carrier has been set to the active state. In this non-competitive approach, first The wireless access network receives random access preemption information from one of the wireless communication devices on a component carrier (step S1110), and then, in response to random access to the preemptive information, the wireless access network transmits a random Accessing the response information to the wireless communication device (step S1120). Thereafter, the wireless access network receives a scheduled transmission from the wireless communication device indicating a user device identification code or a base station radio network temporary identification (step S1130), wherein the scheduled transmission is performed by the wireless communication device to confirm whether the random access response information corresponds to the previously transmitted random access preemption information. When the scheduled transmission is received, the wireless access The network retransmits the contention resolution information corresponding to the one of the scheduled transmissions to the wireless communication device (step S1140), and then determines, according to the contention resolution information, whether to start or restart the timing corresponding to one of the component carrier start time intervals (step S1150). It should be noted that the contention resolution information may have multiple implementation examples. In the first embodiment, the contention resolution information is The user device identification code of the wireless communication device or the control element of the media access control of the base station radio network temporary identifier, and the timing step of determining whether to start or restart the startup time interval is due to the control of the media access control Performing the transmission of the element; in the second embodiment, the contention resolution information is one of downlink control information that has been scrambled by the user device identifier of the wireless communication device or the temporary identification of the base station radio network, or The contention resolution information is one downlink control information transmitted on another component carrier that has been activated, and the downlink control information includes one component carrier indicator corresponding to the component carrier to be activated, that is, the wireless access network PNAI -AQ-0150- TWXX/QZ14-A42786TW-f 33 201242406 The user device of the wireless communication device is used to identify the wireless network of the wireless network to temporarily identify the downlink control information, or prepare the downlink control information to include Corresponding to the component carrier i component carrier indicator to be activated and on the activated other component carrier In the transmission, the timing step of determining whether to start or restart the startup time interval is performed by the transmission of the downlink control information; in the third embodiment, the contention resolution information is transmitted through the control channel (for example, the long term evolution system) The physical downlink control channel, or the control (four) of other radio access technologies, transmits the uplink grant information on the component carrier to be activated, and the uplink allows the information to pass through the device of the wireless communication device. The code or base station radio network temporary identity is subjected to scrambling processing, or the contention resolution information is uplink grant information transmitted on the activated other component carrier, and the uplink promise information includes a component corresponding to the simplicity The two-component carrier indicator of the carrier 'that is, the wireless access network will cause the user device of the heart (four) device to be coded or the base station (4) to identify the uplink promise information, or to arbitrarily The information is transmitted on the other component carrier that has been activated by including the component-weight indicator corresponding to the component carrier to be activated. The step of determining whether to start or restart the start time interval is performed according to the transmission of the uplink cut information. In another embodiment, the contention resolution information may be a user device identifier or a base station including a wireless communication collapse. Radio _ _ 暂时 暂时 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 〆 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' -TWXX/0i\4-A42n6T^f 34 201242406 Channel (eg, physical downlink control channel in a long term evolution system, or control channel in other wireless access technologies) transmits a user device identifier or base via a wireless communication device The radio network temporary identification is performed only when one of the downlink control information or the uplink promise information is subjected to the scrambling process. Specifically, the WTRU uses the user equipment identifier of the wireless communication device or the base station radio network temporary identifier to perform the scrambling process on the downlink control information or the uplink promise information, and only when the downlink control information is transmitted or The timing step of starting the time interval is started or restarted when the uplink promises information, and then the wireless communication device uses the user device identification code or the base station radio network temporary identifier to descramble the downlink control information or the uplink promise information. . In still another embodiment, the wireless access network may further receive a confirmation message from the wireless communication device after transmitting the contention resolution information to know that the wireless communication device has received the contention resolution information, wherein the confirmation information may be transmitted. The step of deciding whether to start or restart the start time interval may be postponed to the component carrier to be activated or another component carrier that has been activated, and may be executed in response to transmitting the acknowledgement information. Figure 12 is a flow diagram of a method for deactivating a secondary component carrier for a wireless communication device in accordance with an embodiment of the present invention. The method of deactivating the secondary component carrier is used to control the start time interval of the secondary component carrier, and the applicable wireless communication device is wirelessly connected to a wireless access network to obtain wireless service. For the wireless communication device, a primary component carrier and a primary component carrier are initially set, and both component carriers are in an activated state. Specifically, the secondary component carrier is transmitted through a non-competitive random access procedure as described in FIG. 2 or through a competitive random access PNA as described in Figures 3 to 6!-AQ-0150-TWXX/ ^ 14-A42786TW-f 35 201242406 The program was started. In the method of measuring the carrier as described in FIG. 2, first, the contention random access program described in FIG. 3~6, or the network-random access response The information from the wireless access-timing alignment timer is ▲ ";,, good, the device is snio for cc#2. In another embodiment, the wireless (four) interval (step of the wireless access network timing Second, the receiver can receive the timer from the timer. Then, the wireless communication restarts the loading sequence alignment to check whether it is expired ((4) Sl=Set the timing alignment timer to check the period] then the wireless communication device stops at = = Qi timer sharing channel (for example: in the long-term evolution system, the wave 々 戎 戎 戎 它 它 它 砼 砼 砼 砼 砼 砼 砼 砼 砼 砼 砼 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 Channel) and the downlink control channel (for example, the control channel in the physical downlink control technology of the first medium) t匕 wireless memory w〇1^i^ (^S1230), and then the wireless communication device U0 disables the channel again Secondary component carrier (step μ·). The present invention has been disclosed above in various embodiments. The present invention is only intended to be limited to the scope of the present invention, and any person skilled in the art can make some changes and refinements without departing from the spirit and scope of the present invention. For example, the present invention proposes Non-competitive and competitive random access programs are also used in advanced advanced (Lte_Advanced) technologies, or other advanced development technologies that support long-term evolution/bandwidth code division multiple access. The present invention is not intended to limit the scope of the invention. The scope of the invention is defined by the scope of the appended claims. PNA1-AQ-0150- TWXX/^% \ 4- A42786TW-f 36 201242406 [Simplified Schematic] FIG. 1 is a schematic diagram of a wireless communication system according to an embodiment of the present invention. FIG. 2 is a non-competitive random access procedure according to an embodiment of the present invention. FIG. 3 is an information sequence diagram of a contention random access procedure according to an embodiment of the invention. FIG. 4 is a competitive random access procedure according to another embodiment of the present invention. 5 is an information sequence diagram of a contention random access procedure according to still another embodiment of the present invention. FIG. 6 is a competitive random access procedure according to still another embodiment of the present invention. Figure 7 is a sequence of information for disabling a secondary component carrier according to an embodiment of the invention. Figure 8 is a non-competitive application for a wireless communication device according to an embodiment of the invention. A flowchart of a method for managing a multi-component carrier. FIG. 9 is a flowchart of a method for non-competitive management of a multi-component carrier applicable to a wireless access network according to an embodiment of the present invention. FIG. 10 is an embodiment of the present invention. A flow chart of a method for competingly managing a multi-component carrier of a wireless communication device is described. Figure 11 is a flow diagram of a method for competingly managing a multi-component carrier for a wireless access network, in accordance with an embodiment of the present invention. PNAMO-0150-TWXX/0^14-A42786TW-f 37 201242406 FIG. 12 is a flow chart of a method for deactivating a secondary component carrier for a wireless communication device in accordance with an embodiment of the present invention. [Main component symbol description] 100, - wireless communication system; 110, - wireless communication device; 11 - wireless module; 112 - - controller module; 120 - - wireless access network; 121 - - access node 122- - control node; 130 ~ core network. PNA/-AQ-0150- TWXX/0S14-A42786TW-f 38