TWI508483B - Power saving - Google Patents

Power saving Download PDF

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TWI508483B
TWI508483B TW101112470A TW101112470A TWI508483B TW I508483 B TWI508483 B TW I508483B TW 101112470 A TW101112470 A TW 101112470A TW 101112470 A TW101112470 A TW 101112470A TW I508483 B TWI508483 B TW I508483B
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indication
user equipment
radio
radio condition
feedback
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TW101112470A
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TW201304449A (en
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Vikas Dhingra
Shin Horng Wong
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Alcatel Lucent
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Description

功率節省之技術Power saving technology

本發明係有關一種獲得無線電狀況之指示的方法,及可操作以執行該方法之電腦程式產品和網路節點。The present invention relates to a method of obtaining an indication of a radio condition, and a computer program product and network node operable to perform the method.

無線電訊網路為已知的。於蜂巢式系統中,無線電覆蓋係由區域所提供。無線電覆蓋之那些區域係已知為細胞(cell)。基地站係位於各細胞中以提供無線電覆蓋。各細胞中之使用者設備從基地站接收資訊及資料並將資訊及資料傳輸至基地站。The radio network is known. In a cellular system, radio coverage is provided by the area. Those areas covered by radio are known as cells. The base station is located in each cell to provide radio coverage. The user equipment in each cell receives information and information from the base station and transmits the information and data to the base station.

由基地站所傳輸至使用者設備之資訊及資料係發生於已知為下行鏈路載波之無線電載波的頻道上。由使用者設備傳輸至基地站所之資訊及資料係發生於已知為上行鏈路載波之無線電載波的上行鏈路資料頻道上。The information and data transmitted by the base station to the user equipment occurs on the channel of the radio carrier known as the downlink carrier. The information and data transmitted by the user equipment to the base station occurs on the uplink data channel of the radio carrier known as the uplink carrier.

有各種無線電狀態,其中使用者設備可操作於UMTS電訊網路中。於一細胞中之使用者設備的初始開啟時,其通常將處於「閒置模式」。一旦其將本身同步化並裝附至一基地站,則其便獲得無線電資源控制(RRC)連接且被稱為處於連接模式。閒置模式下之使用者設備不具有無線電資源控制(RRC)連接。There are various radio states in which the user device can operate in a UMTS telecommunications network. When the user device in a cell is initially turned on, it will typically be in "idle mode." Once it synchronizes itself and attaches to a base station, it obtains a Radio Resource Control (RRC) connection and is said to be in connected mode. The user equipment in idle mode does not have a Radio Resource Control (RRC) connection.

假如使用者設備被RRC連接,則其通常可處於下列五個不同RRC狀態之一:Cell_DCH、Cell_FACH、增強Cell_FACH、Cell_PCH或URA_PCH。If the user equipment is RRC connected, it can typically be in one of five different RRC states: Cell_DCH, Cell_FACH, Enhanced Cell_FACH, Cell_PCH, or URA_PCH.

使用者設備通常在當其資料流量高時移入Cell_DCH狀態,因為於此一狀態下使用者設備被配置一專屬頻道以便於其上傳輸及接收來自基地站之資料。於UMTS網路架構中,使用者設備可處於Cell_DCH狀態,其中預期將具有高的資料流量。The user equipment typically moves into the Cell_DCH state when its data traffic is high because in this state the user equipment is configured with a dedicated channel to facilitate transmission and reception of data from the base station. In the UMTS network architecture, the user equipment may be in the Cell_DCH state, where it is expected to have high data traffic.

容許使用者設備暫時地傳送並接收資料流量於一非Cell_DCH狀態(例如,當使用者設備處於Cell_FACH或增強Cell_FACH狀態時)可提供相較於恆定Cell_DCH狀態使用之功率節省,因為無須專屬的發信(signalling)。結果,使用者設備能夠作用以一部分停機時間(down time),而非處於專屬的發信狀態且因此能夠使用較少的功率。於通訊網路內使用非Cell_DCH狀態以供通訊可因而提供某些功率節省但不是沒有實施困難度。Allowing the user equipment to temporarily transmit and receive data traffic in a non-Cell_DCH state (eg, when the user equipment is in the Cell_FACH or Enhanced Cell_FACH state) may provide power savings compared to the constant Cell_DCH state usage, since no dedicated signaling is required (signalling). As a result, the user device can act with a portion of the down time, rather than being in a dedicated signaling state and thus being able to use less power. The use of a non-Cell_DCH state for communication within a communication network may thus provide some power savings but not without implementation difficulties.

希望提出一種提供增進功率效率之無線電訊網路。It is desirable to propose a radio network that provides increased power efficiency.

第一形態係提供一種獲得無線通訊網路中正由操作於Cell_FACH或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示之方法,該方法包含下列步驟:決定一回饋循環之參數,該使用者設備係依據該回饋循環而可操作以週期性地傳輸該使用者設備上之無線電狀況的指示;傳輸該些回饋循環參數之指示至該使用者設備;及監督無線電狀況之該週期性傳輸的指示之接收。The first aspect provides a method of obtaining an indication of a radio condition experienced by a user equipment operating in a Cell_FACH or Enhanced Cell_FACH state in a wireless communication network, the method comprising the steps of: determining a parameter of a feedback loop, the user equipment Determining, according to the feedback loop, an indication of periodically transmitting a radio condition on the user equipment; transmitting an indication of the feedback loop parameters to the user equipment; and supervising an indication of the periodic transmission of the radio condition receive.

使用者設備可操作於(例如)UMTS電訊網路中之各種模式。於一細胞中之使用者設備的初始開啟時,其通常將處於「閒置模式」。一旦其將本身同步化並裝附至一基地站,則其便獲得無線電資源控制(RRC)連接且被稱為處於連接模式。閒置模式下之使用者設備不具有無線電資源控制(RRC)連接。The user device can operate in various modes, for example, in a UMTS telecommunications network. When the user device in a cell is initially turned on, it will typically be in "idle mode." Once it synchronizes itself and attaches to a base station, it obtains a Radio Resource Control (RRC) connection and is said to be in connected mode. The user equipment in idle mode does not have a Radio Resource Control (RRC) connection.

假如使用者設備被RRC連接,則其通常可處於下列五個不同RRC狀態之一:Cell_DCH、Cell_FACH、增強Cell_FACH、Cell_PCH或URA_PCH狀態。If the user equipment is RRC connected, it can typically be in one of five different RRC states: Cell_DCH, Cell_FACH, Enhanced Cell_FACH, Cell_PCH, or URA_PCH state.

使用者設備通常在當其資料流量高時移入Cell_DCH狀態,因為於此一狀態下使用者設備被配置一專屬頻道以便於其上傳輸及接收來自基地站之資料。於UMTS網路架構中,使用者設備可處於Cell_DCH狀態,其中預期將具有高的資料流量。The user equipment typically moves into the Cell_DCH state when its data traffic is high because in this state the user equipment is configured with a dedicated channel to facilitate transmission and reception of data from the base station. In the UMTS network architecture, the user equipment may be in the Cell_DCH state, where it is expected to have high data traffic.

歷史上,當非處於Cell_DCH狀態時,使用上行鏈路上之隨機存取頻道(RACH)而操作的使用者設備及基地站將操作以通訊與其使用前向存取頻道(FACH)的使用者設備。RACH與FACH具有極小的資料攜載能力;且於W-CDMA或UMTS系統中,已經由增強Cell_FACH及Cell_FACH中之EUL而被引入一種能力讓使用者設備及基地站得以使用下行鏈路和上行鏈路上之共用或共同的資源來操作及傳遞資料流量於其間,當使用者設備處於Cell_FACH狀態時。於上行鏈路中,資料流量傳輸係使用增強專屬頻道(EDCH)而發生;而於下行鏈路中,流量 則傳送於高速下行鏈路共用頻道(HS-DSCH)上。那些頻道容許使用者設備及基地站傳遞和傳輸較大的資料封包於其本身之間一段時間,而無須使用者設備進入Cell_DCH狀態。此一配置容許使用者設備於Cell_FACH狀態下保持較長時間而不轉變至「更專屬的」狀態,因此容許功率耗損節省。Historically, when not in the Cell_DCH state, user equipment and base stations operating using the Random Access Channel (RACH) on the uplink will operate to communicate with the user equipment using the Forward Access Channel (FACH). RACH and FACH have minimal data carrying capacity; and in W-CDMA or UMTS systems, an ability has been introduced to enhance the EUL in Cell_FACH and Cell_FACH to enable user equipment and base stations to use the downlink and uplink. Shared or common resources on the road to operate and deliver data traffic between them while the user equipment is in the Cell_FACH state. In the uplink, data traffic transmission occurs using Enhanced Derivative Channel (EDCH); in the downlink, traffic Then it is transmitted on the high speed downlink shared channel (HS-DSCH). Those channels allow the user equipment and the base station to transmit and transmit larger data packets between themselves for a period of time without requiring the user equipment to enter the Cell_DCH state. This configuration allows the user equipment to remain in the Cell_FACH state for a longer period of time without transitioning to a "more exclusive" state, thus allowing for power consumption savings.

再者,供由Cell_FACH狀態下之使用者設備使用而引入的HS-DSCH DRX(間斷接收)能力容許使用者設備達成進一步的操作性功率節省。Furthermore, the HS-DSCH DRX (intermittent reception) capability introduced for use by the user equipment in the Cell_FACH state allows the user equipment to achieve further operational power savings.

對於Cell_FACH狀態之這些增強特徵的部署可容許「永遠開啟」型服務,例如,透過蜂巢系統之按鍵通話(PoC)、Push email及VPN連接(其係傳輸頻繁但小的封包於UE與伺服器之間),其係支援Cell_FACH狀態而無須進入Cell_DCH狀態。The deployment of these enhanced features for the Cell_FACH state allows for "always on" services, such as push-to-talk (PoC), push email, and VPN connections through the cellular system (which are frequent but small packets are transmitted to the UE and the server). In the meantime, it supports the Cell_FACH state without entering the Cell_DCH state.

雖然Cell_FACH狀態之增強功能容許當使用者設備處於Cell_FACH狀態下時資料封包被傳送於基地站與使用者設備(或反之)之間,但此一配置可能是浪費資源的,因為其在完全專屬發信模式(例如,Cell_DCH)下通常為基地站永遠可用的資訊不再是永遠可用的。結果,可於基地站上進行猜測和近似以嘗試並確保其與使用者設備之通訊可發生。因此基地站發信至使用者設備之操作被放棄。例如,基地站通常將得以存取來自專屬發信模式下操作的使用者設備而有關由該使用者設備所經歷之無線電狀況(亦已知為無線電頻道傳播狀況)的直接資訊。有關無線電狀 況之此類資訊可(例如)包含頻道品質資訊(CQI)及/或回饋協定資訊,諸如ACK/NACK資訊。該資訊可由基地站所使用以決定用來傳送至使用者設備之適當的資料封包尺寸。假如使用者設備正經歷良好的無線電狀況,則大的資料封包可被傳送以成功接收的高可能性。假如不良的無線電狀況正被經歷,則基地站可傳送較小的資料封包至該使用者設備,以嘗試並確保資料流量被成功地接收。Although the enhancement of the Cell_FACH state allows data packets to be transmitted between the base station and the user equipment (or vice versa) when the user equipment is in the Cell_FACH state, this configuration may be a waste of resources because it is completely exclusive. Information that is normally available to the base station in the letter mode (eg, Cell_DCH) is no longer always available. As a result, guessing and approximation can be performed on the base station to try and ensure that communication with the user equipment can occur. Therefore, the operation of the base station to send a message to the user equipment is abandoned. For example, a base station will typically have access to direct information from the user equipment operating in the proprietary messaging mode regarding the radio conditions experienced by the user equipment (also known as radio channel propagation conditions). Radio related Such information may, for example, include channel quality information (CQI) and/or feedback agreement information, such as ACK/NACK information. This information can be used by the base station to determine the appropriate data packet size for transmission to the user equipment. If the user equipment is experiencing good radio conditions, then a large data packet can be transmitted with a high probability of successful reception. If a poor radio condition is being experienced, the base station can transmit a smaller data packet to the user equipment to try and ensure that the data traffic is successfully received.

於此方面,針對Cell_FACH或增強Cell_FACH狀態下之使用者設備,上行鏈路HS-DPCCH(高速專屬實體控制頻道)回饋頻道對於支援HS頻道上之有效下行鏈路傳輸是關鍵的。當缺乏無線電狀況指標(indicator),諸如(例如)透過HS-DPCCH頻道而攜載之頻道品質資訊(CQI)及/或ACK/NACK資訊,時,於高速下行鏈路封包存取(HSDPA)頻道上由基地站所進行之盲目再傳輸可能導致HSDPA傳輸量(throughput)之顯著流失及對於可用的HSDPA資源之無效率使用。In this regard, for user equipment in the Cell_FACH or Enhanced Cell_FACH state, the uplink HS-DPCCH (High Speed Dedicated Entity Control Channel) feedback channel is critical to supporting efficient downlink transmissions on the HS channel. High Speed Downlink Packet Access (HSDPA) channel when there is a lack of radio status indicators such as, for example, channel quality information (CQI) and/or ACK/NACK information carried over the HS-DPCCH channel The blind retransmission by the base station may result in significant loss of HSDPA throughput and inefficient use of available HSDPA resources.

第一形態係揭示一種方法,其容許間斷的HS-DPCCH傳輸;提供由UE所經歷之無線電狀況的指示,藉由容許間斷的、或週期性間斷的回饋循環發生於DL HSDPA不活動之週期期間。換言之,雖然沒有資料流量從基地站被傳送至UE,該UE仍可操作以持續將所經歷之無線電狀況的指示提供給基地站,該回饋係從使用者設備被週期性地傳送至基地站。再者,回饋繼續由使用者設備所傳送,即使並無資料流量被使用者設備傳送至基地站。依據實施例, 由基地站指示UE根據特定的間斷循環以傳輸HS-DPCCH(CQI),例如,用於UL HS-DPCCH之傳輸的特定時序槽可適當地由基地站(節點B)配合RNC而被傳遞至UE;替代地,介於傳輸之間的週期可由基地站配合RNC而被指定給UE。於某些實施例中,使用者設備亦可操作以傳送非間斷回饋,當有資料流量於上行鏈路時。因此,基地站可確保由UE所經歷之無線電狀況的某最近相關指示較佳地估計一種其中傳送下行鏈路資料封包之適當方式。The first modality discloses a method that allows for intermittent HS-DPCCH transmission; provides an indication of the radio condition experienced by the UE, by allowing a discontinuous, or periodically intermittent feedback loop to occur during the period of DL HSDPA inactivity . In other words, although no data traffic is transmitted from the base station to the UE, the UE is still operable to continuously provide an indication of the experienced radio condition to the base station, the feedback being periodically transmitted from the user equipment to the base station. Furthermore, the feedback continues to be transmitted by the user device even if no data traffic is transmitted by the user device to the base station. According to an embodiment, The base station instructs the UE to transmit HS-DPCCH (CQI) according to a specific discontinuous cycle, for example, a specific timing slot for transmission of the UL HS-DPCCH may be appropriately transmitted by the base station (Node B) to the UE in cooperation with the RNC. Alternatively, the period between transmissions may be assigned to the UE by the base station in conjunction with the RNC. In some embodiments, the user equipment is also operable to transmit non-interruptive feedback when there is data traffic on the uplink. Thus, the base station can ensure that some recent correlation indication of the radio conditions experienced by the UE preferably estimates an appropriate manner in which the downlink data packets are transmitted.

於一實施例中,該些參數包含無線電狀況指示的相鄰傳輸之間的週期之指示。因此,該些參數指示無線電狀況回饋可多麼頻繁地被網路所請求以及可依據各種UE環境狀況而被設定。於一實施例中,該決定之步驟包含:核對有關該使用者設備是否操作於快速或緩慢頻道上的資訊,及依據該頻道速度以決定該些回饋頻道參數之至少一者。該些參數可包括有關週期性無線電狀況回饋報告循環之本質的資訊。例如,相較於緩慢頻道,快速頻道將需要CQI之頻繁更新,而因此,控制一已實施之週期性無線電狀況回饋機制(regime)容許一基地站控制CQI更新之頻率。In an embodiment, the parameters include an indication of a period between adjacent transmissions of the radio condition indication. Thus, the parameters indicate how often radio status feedback can be requested by the network and can be set according to various UE environmental conditions. In an embodiment, the determining step includes: checking information about whether the user equipment operates on a fast or slow channel, and determining at least one of the feedback channel parameters according to the channel speed. These parameters may include information about the nature of the periodic radio condition feedback reporting loop. For example, a fast channel would require frequent updates of CQI compared to a slow channel, and thus, controlling a implemented periodic radio condition feedback mechanism allows a base station to control the frequency of CQI updates.

於一實施例中,該些參數包含關於無線電狀況指示的相鄰傳輸之間的週期之該指示的上限之指示。應理解假如無線電狀況回饋(例如,CQI更新)太不頻繁,則來自回饋傳訊(當UE最後醒來時之HS-DPCCH傳輸)之先前無線電狀況指示(例如,COI更新)通常將不再代表當即將在下行鏈路頻道上進行資料封包傳輸時之無線電狀況。有 可能先前CQI更新可提供無線電頻道之樂觀狀況,導致高HS-DSCH運輸區塊被傳送至UE而導致錯誤。依據某些實施例,臨限值可由基地站或RNC根據(例如)最後已知的UE速度(亦即,都卜勒)而被設定。於一實施例中,該上限是根據該使用者設備之實體移動的速度之指示而決定。In an embodiment, the parameters include an indication of an upper limit of the indication of a period between adjacent transmissions of the radio condition indication. It should be understood that if the radio status feedback (eg, CQI update) is too infrequent, the previous radio status indication (eg, COI update) from the feedback communication (HS-DPCCH transmission when the UE finally wakes up) will generally no longer be representative. The radio condition at the time of data packet transmission on the downlink channel. Have It is possible that the previous CQI update may provide an optimistic condition for the radio channel, causing the high HS-DSCH transport block to be transmitted to the UE causing an error. According to some embodiments, the threshold may be set by the base station or RNC based on, for example, the last known UE speed (i.e., Doppler). In one embodiment, the upper limit is determined based on an indication of the speed at which the user device moves.

於一實施例中,該些回饋循環參數之該指示被提示給使用者設備之一族群。HS-DPCCH之傳輸可(於某些實施例中)被連結至一UE獨特識別符,諸如(例如)H-RNTI;或者一族群識別符,諸如(例如)族群H-RNTI。此類實施例可確保一細胞內之無線電狀況回饋訊息被分散以避免發信流量中之不必要的高峰。此分散係藉由將操作於週期性回饋模式之指示適當地提示給一或一以上的UE而達成,如一種類似於CPC及傳呼時機(Paging Occasion)中所使用之循環的方式中已達成者。此類實施例目的在於避免HS-DPCCH之同時傳輸於一細胞中的所有UE之間。In an embodiment, the indication of the feedback loop parameters is prompted to a group of user devices. The transmission of the HS-DPCCH may (in some embodiments) be linked to a UE unique identifier, such as, for example, an H-RNTI; or a family identifier such as, for example, a group H-RNTI. Such an embodiment ensures that a radio status feedback message within a cell is dispersed to avoid unnecessary peaks in the signaling traffic. This dispersion is achieved by appropriately presenting an indication of the operation in the periodic feedback mode to one or more UEs, such as a way similar to the loop used in CPC and paging aging (Paging Occasion). . Such an embodiment aims to avoid simultaneous transmission of HS-DPCCH between all UEs in a cell.

第二形態提供一種電腦程式產品,當執行於電腦上時該電腦程式產品可操作以實行該第一形態之方法。The second aspect provides a computer program product that, when executed on a computer, is operable to perform the method of the first form.

第三形態提供一種基地站,其可操作以獲得無線通訊網路中正由操作於Cell_FACH或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示,該基地站包含:決定邏輯,其可操作以決定一回饋循環之參數,該使用者設備係依據該回饋循環而可操作以週期性地傳輸該使用者設備上之無線電狀況的指示; 傳輸邏輯,其可操作以傳輸該些回饋循環參數之指示至該使用者設備;及監督邏輯,其可操作以監督無線電狀況之該週期性傳輸的指示之接收。A third aspect provides a base station operable to obtain an indication of a radio condition in a wireless communication network being experienced by a user equipment operating in a Cell_FACH or enhanced Cell_FACH state, the base station comprising: decision logic operable to determine a parameter of a feedback loop, the user equipment being operable to periodically transmit an indication of a radio condition on the user equipment in accordance with the feedback loop; Transmission logic operable to transmit an indication of the feedback loop parameters to the user equipment; and supervisory logic operable to monitor receipt of the indication of the periodic transmission of the radio condition.

於一實施例中,該些參數包含無線電狀況指示的相鄰傳輸之間的週期之指示。In an embodiment, the parameters include an indication of a period between adjacent transmissions of the radio condition indication.

於一實施例中,該決定邏輯可操作以核對有關該使用者設備是否操作於快速或緩慢頻道上的資訊,及依據該頻道速度以決定該些回饋頻道參數之至少一者。In one embodiment, the decision logic is operable to check information about whether the user device is operating on a fast or slow channel and to determine at least one of the feedback channel parameters based on the channel speed.

於一實施例中,該些參數包含關於無線電狀況指示的相鄰傳輸之間的週期之該指示的上限之指示。In an embodiment, the parameters include an indication of an upper limit of the indication of a period between adjacent transmissions of the radio condition indication.

於一實施例中,該上限是根據該使用者設備之實體移動的速度之指示而決定。In one embodiment, the upper limit is determined based on an indication of the speed at which the user device moves.

於一實施例中,該些回饋循環參數之該指示被提示給使用者設備之一族群。In an embodiment, the indication of the feedback loop parameters is prompted to a group of user devices.

第四形態提供一種傳輸無線通訊網路中正由操作於Cell_FACH或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示之方法,該方法包含下列步驟:監督回饋循環參數之指示的接收;及依據回饋循環參數之該接收的指示以週期性地傳輸正由該使用者設備所經歷之無線電狀況的指示。A fourth aspect provides a method of transmitting an indication of a radio condition experienced by a user equipment operating in a Cell_FACH or enhanced Cell_FACH state in a wireless communication network, the method comprising the steps of: supervising reception of an indication of a feedback loop parameter; and relying on feedback The received indication of the loop parameter is to periodically transmit an indication of the radio condition being experienced by the user equipment.

因此,使用者設備可操作以將正經歷之無線電狀況的指示週期性地傳輸至基地站。該指示可被週期性地傳送且此一傳輸之頻率係依據由無線通訊網路所設定之參數而決 定。Thus, the user equipment is operable to periodically transmit an indication of the radio condition being experienced to the base station. The indication can be transmitted periodically and the frequency of this transmission is determined by the parameters set by the wireless communication network. set.

於一實施例中,該方法包含下列步驟:監督下行鏈路資料流量之接收;及假如接收到下行鏈路資料流量的話,便在接收該下行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。因此,除了週期性地傳輸回饋資訊以致下行鏈路流量可於任何時刻以某程度的效率來傳送之外,此一方法容許當可能是最希望時(亦即,當有下行鏈路流量時)將於網路內傳送的無線電狀況資訊之特定且針對性的更新,因而確保特定且針對性的資訊到達一基地站以容許下行鏈路資料流量訊息被有效率地傳送。In an embodiment, the method includes the steps of: supervising the reception of downlink data traffic; and if receiving downlink data traffic, performing the downlink data traffic while performing the radio data frame Transmission of indications of radio conditions. Thus, in addition to periodically transmitting feedback information such that downlink traffic can be transmitted with some degree of efficiency at any time, this method allows for when it is most desirable (ie, when there is downlink traffic) A specific and targeted update of the radio status information to be transmitted within the network, thereby ensuring that specific and targeted information arrives at a base station to allow downlink data traffic messages to be efficiently transmitted.

於一實施例中,該方法包含以下步驟:決定有待傳輸之上行鏈路資料流量並在傳輸該上行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。因此,除了週期性地傳輸回饋資訊以致下行鏈路流量可於任何時刻以某程度的效率來傳送之外,此一方法容許當使用者設備可能已是作用中且於網路內傳輸訊息及/或資料時將於網路內傳送的無線電狀況資訊之特定且針對性的更新,因而確保特定且針對性的資訊到達一基地站以容許下行鏈路資料流量訊息被有效率地傳送。In one embodiment, the method includes the steps of determining uplink data traffic to be transmitted and transmitting the indication of radio conditions in each radio frame while transmitting the uplink data traffic. Thus, in addition to periodically transmitting feedback information such that downlink traffic can be transmitted with some degree of efficiency at any time, this method allows for the user equipment to be active and transmitting information within the network and/or Or a specific and targeted update of the radio status information that will be transmitted over the network, thereby ensuring that specific and targeted information arrives at a base station to allow downlink data traffic messages to be efficiently transmitted.

於一實施例中,該方法包含以下步驟:決定該使用者設備是否操作於間斷接收模式並調整該些回饋參數內之該回饋循環以符合該間斷接收模式之操作參數。In one embodiment, the method includes the steps of determining whether the user equipment is operating in the discontinuous reception mode and adjusting the feedback loop within the feedback parameters to conform to the operational parameters of the intermittent reception mode.

目前,具有低流量活動之Cell_FACH中的UE將移入DRX以節省電池功率。雖然此UE得以繼續傳輸週期性無 線電狀況回饋報告循環,例如,於完整DRX期間之HS-DPCCH DTX(根據其預設循環),但此一配置減少了DRX中可節省之電池功率的量。Currently, UEs in Cell_FACH with low traffic activity will move into DRX to conserve battery power. Although this UE can continue to transmit periodically without The line condition feedback loop, for example, HS-DPCCH DTX during full DRX (according to its preset cycle), but this configuration reduces the amount of battery power that can be saved in DRX.

因此,於某些實施例中,週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)為Cell_FACH中之UE DRX的函數。於某些實施例中,假如週期性無線電狀況回饋報告較UE DRX循環更長,則該UE可操作以維持其間斷回饋循環活動。DTX與報告無線電狀況循環可被同步以致UE僅需醒來一次以收聽可能的接收並傳輸無線電狀況回饋資訊,例如,HS-DPCCH。(注意:根據DTX循環,UE於某些醒來週期無法傳輸HS-DPCCH)。因此,於某些實施例中,UE DRX循環不會被週期性回饋循環傳輸所中斷。因為週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX循環)被維持,所以此等實施例可確保可接受的無線電狀況指標(例如,CQI更新)之提供,以供有效率的基地站及網路操作。於某些實施例中,UE或基地站可操作以便縮短週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX),以致其傳輸DRX期間之每一醒來週期上的無線電狀況回饋。Thus, in some embodiments, the periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX) is a function of UE DRX in Cell_FACH. In some embodiments, if the periodic radio condition feedback report is longer than the UE DRX cycle, the UE is operable to maintain its intermittent feedback loop activity. The DTX and reporting radio status cycles can be synchronized such that the UE only needs to wake up once to listen to possible reception and transmit radio status feedback information, such as HS-DPCCH. (Note: According to the DTX cycle, the UE cannot transmit HS-DPCCH during some wake-up cycles). Thus, in some embodiments, the UE DRX cycle is not interrupted by periodic feedback loop transmissions. Because periodic radio condition feedback reporting loops (eg, HS-DPCCH DTX cycles) are maintained, these embodiments can ensure that acceptable radio condition indicators (eg, CQI updates) are provided for efficient base stations and Network operation. In some embodiments, the UE or base station is operable to shorten the periodic radio condition feedback reporting loop (e.g., HS-DPCCH DTX) such that it transmits radio status feedback on each wake cycle during DRX.

應理解,於某些實施例中,無須確保其週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)與UE DRX循環總是被同步。因此,於某些實施例中,容許具有異步的循環。然而,如上所述,此類配置無法提供從UE電池節省觀點而言之最優的最佳化解答。It should be understood that in certain embodiments, there is no need to ensure that its periodic radio condition feedback reporting loop (e.g., HS-DPCCH DTX) is always synchronized with the UE DRX loop. Thus, in some embodiments, an asynchronous loop is allowed. However, as noted above, such configurations do not provide an optimal optimization solution from the perspective of UE battery savings.

於某些實施例中,假如週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX循環)較UE DRX循環更短,則UE可操作以根據UE DRX循環而停止其回饋活動或者移入較長週期性無線電狀況回饋循環之使用。In some embodiments, if the periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX loop) is shorter than the UE DRX cycle, the UE is operable to stop its feedback activity or move into a longer period according to the UE DRX cycle. Use of the sexual radio status feedback loop.

於某些實施例中,UE週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX及DRX循環)是使得其必須同步與UE DRX循環,而因此於其中回饋循環較DRX循環更短的情境下,UE僅可傳輸無線電狀況回饋資訊在當其醒來於其DRX循環期間時。此係有效地造成UE移入更長的HS-DPCCH DTX循環。In some embodiments, the UE periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX and DRX cycles) is such that it must synchronize with the UE DRX cycle, and thus in a scenario where the feedback loop is shorter than the DRX cycle The UE can only transmit radio status feedback information when it wakes up during its DRX cycle. This effectively causes the UE to move into a longer HS-DPCCH DTX cycle.

於某些實施例中,UE可完全地停止週期性無線電狀況回饋活動,例如,假如UE DRX循環被決定為較一預定臨限值更長,則應理解假如無線電狀況回饋(例如,CQI更新)太不頻繁,則來自回饋傳訊(當UE最後醒來時之HS-DPCCH傳輸)之先前無線電狀況指示(例如,CQI更新)通常將不再代表當即將在下行鏈路頻道上進行資料封包傳輸時之無線電狀況。有可能先前CQI更新可提供無線電頻道之樂觀狀況,導致高HS-DSCH運輸區塊被傳送至UE而導致錯誤。依據某些實施例,臨限值可由基地站或RNC根據(例如)最後已知的UE速度(亦即,都卜勒)而被設定。In some embodiments, the UE may completely stop periodic radio condition feedback activities, for example, if the UE DRX cycle is determined to be longer than a predetermined threshold, it should be understood that if the radio status feedback (eg, CQI update) Too infrequent, the previous radio status indication (eg, CQI update) from the feedback message (HS-DPCCH transmission when the UE finally wakes up) will usually no longer represent when data packet transmission is about to occur on the downlink channel. Radio condition. It is possible that a previous CQI update may provide an optimistic condition for the radio channel, resulting in a high HS-DSCH transport block being transmitted to the UE resulting in an error. According to some embodiments, the threshold may be set by the base station or RNC based on, for example, the last known UE speed (i.e., Doppler).

於某些實施例中,UE可操作以重新開始週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX),當其離開DRX模式時。也就是說,UE可操作以使用週期性無線 電狀況回饋報告循環(例如,HS-DPCCH DTX循環)在其移入DRX之前,以及(於離開時)DRX可回復至該回饋報告循環。注意:於某些實施例中,假如UE係由於HS-DSCH(亦即,下行鏈路)接收而離開DRX,則其可連續地傳輸無線電狀況回饋。於某些實施例中,假如UE係由於E-DCH(亦即,上行鏈路)傳輸而離開DRX,則其可繼續原始的週期性無線電狀況回饋循環。In some embodiments, the UE is operable to resume a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX) when it leaves the DRX mode. That is, the UE is operable to use periodic wireless The electrical status feedback reporting loop (eg, HS-DPCCH DTX loop) may be reverted to the feedback reporting loop before it moves into DRX and (on departure) DRX. Note: In some embodiments, if the UE leaves the DRX due to HS-DSCH (ie, downlink) reception, it can continuously transmit radio status feedback. In some embodiments, if the UE leaves the DRX due to E-DCH (ie, uplink) transmission, it may continue the original periodic radio condition feedback loop.

於一實施例中,無線電狀況之該指示被測量且被傳輸一次以上於該回饋循環之各傳輸。In an embodiment, the indication of the radio condition is measured and transmitted more than once for each transmission of the feedback loop.

於某些實施例中,當UE依據週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)而傳輸無線電狀況回饋指標於(例如)HS-DPCCH時,其可操作以傳輸無線電狀況回饋指標(例如,CQI)以多於一子訊框。此一配置可容許基地站針對各回饋突發(burst)期間之少數無線電狀況回饋指標(例如,CQI值)執行平均,而因此獲得正由UE所經歷之無線電頻道狀況之更可靠的非瞬間估計。In some embodiments, when the UE transmits a radio condition feedback indicator (eg, HS-DPCCH) according to a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX), it is operable to transmit a radio condition feedback indicator ( For example, CQI) takes more than one sub-frame. This configuration may allow the base station to perform averaging for a few radio condition feedback metrics (e.g., CQI values) during each feedback burst, thereby obtaining a more reliable non-instantaneous estimate of the radio channel conditions being experienced by the UE. .

第五形態提供一種電腦程式產品,當執行於電腦上時該電腦程式產品可操作以實行該第四形態之方法。The fifth aspect provides a computer program product operable to perform the fourth aspect when executed on a computer.

第六形態提供一種使用者設備,其可操作以傳輸無線通訊網路中正由操作於Cell_FACH或增強Cell_FACH狀態之該使用者設備所經歷之無線電狀況的指示,該使用者設備包含:監督邏輯,其可操作以監督回饋循環參數的指示之接收;及 傳輸邏輯,其可操作以依據回饋循環參數之該接收的指示而週期性地傳輸正由該使用者設備所經歷之無線電狀況的指示。A sixth aspect provides a user equipment operable to transmit an indication of a radio condition in a wireless communication network being experienced by the user equipment operating in a Cell_FACH or enhanced Cell_FACH state, the user equipment comprising: supervisory logic, Operation to monitor receipt of an indication of feedback loop parameters; and Transmission logic operable to periodically transmit an indication of the radio condition being experienced by the user equipment in accordance with the received indication of the feedback loop parameter.

於一實施例中,該監督邏輯可操作以監督下行鏈路資料流量之接收;及假如接收到下行鏈路資料流量的話,則該傳輸邏輯可操作以在接收該下行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。In one embodiment, the supervisory logic is operative to monitor receipt of downlink data traffic; and if downlink data traffic is received, the transport logic is operative to implement while receiving the downlink data traffic Transmission of indications of radio conditions in each radio frame.

於一實施例中,該使用者設備進一步包含決定邏輯,其可操作以決定有待傳輸之上行鏈路資料流量,且該傳輸邏輯進一步可操作以在傳輸該上行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。In an embodiment, the user equipment further includes decision logic operable to determine uplink data traffic to be transmitted, and the transmission logic is further operable to implement each radio while transmitting the uplink data traffic The transmission of the indication of the radio condition in the frame.

於一實施例中,該使用者設備進一步包含:決定邏輯,其可操作以決定該使用者設備是否操作於間斷接收模式、及調整邏輯,其可操作以調整該些回饋參數內之該回饋循環以符合該間斷接收模式之操作參數。In an embodiment, the user equipment further includes: decision logic operable to determine whether the user equipment is operating in a discontinuous reception mode, and adjustment logic operable to adjust the feedback loop within the feedback parameters In order to comply with the operating parameters of the intermittent receiving mode.

於一實施例中,其中無線電狀況之該指示被測量且被傳輸一次以上於該回饋循環之各傳輸。In an embodiment, the indication of the radio condition is measured and transmitted more than once for each transmission of the feedback loop.

進一步的特定及較佳形態被描述於後附的獨立項及附屬項申請專利範圍中。附屬項之特徵可適當地結合與獨立項申請專利範圍之特徵,以及結合那些申請專利範圍中所明確地描述的特徵以外的特徵。Further specific and preferred aspects are described in the appended dependent and dependent claims. The features of the sub-items may be combined as appropriate with the features of the scope of the independent patent application, as well as features in addition to those specifically described in the scope of the patent application.

圖1概要地說明依據一實施例之無線電訊系統10的 主要組件。使用者設備50漫遊遍及無線電訊系統。提供其支援無線電覆蓋之區域30的基地站20。數個此類基地站20被提供且地理上地分佈,以提供對使用者設備50之廣泛的覆蓋區域。當使用者設備位於一由基地站所服務之區域30內時,則可透過相關的無線電鏈路以建立通訊於使用者設備與基地站之間。各基地站通常支援服務之地理區域30內的數個區段。1 schematically illustrates a radio system 10 in accordance with an embodiment. Main components. User device 50 roams throughout the telecommunications system. A base station 20 is provided for its area 30 that supports radio coverage. A number of such base stations 20 are provided and geographically distributed to provide a wide coverage area for user equipment 50. When the user equipment is located in an area 30 served by the base station, communication can be established between the user equipment and the base station via the associated radio link. Each base station typically supports several sections within the geographic area 30 of the service.

通常一基地站內之不同天線係支援各相關的區段。各基地站20具有多數天線。應理解圖1係說明其可能出現在典型通訊系統中之使用者設備和基地站的總數之一小子集。Usually different antennas within a base station support each relevant segment. Each base station 20 has a plurality of antennas. It should be understood that Figure 1 illustrates a small subset of the total number of user equipment and base stations that may be present in a typical communication system.

無線通訊系統係由無線電網路控制器(RNC)40所管理。無線電網路控制器40係藉由透過回載通訊鏈路60而與複數基地站通訊來控制無線電訊系統之操作。RNC亦經由各基地站以通訊與使用者設備50,而因此有效率地管理整個無線通訊系統之區。The wireless communication system is managed by a Radio Network Controller (RNC) 40. The radio network controller 40 controls the operation of the radio system by communicating with the plurality of base stations via the backhaul communication link 60. The RNC also communicates with the user equipment 50 via the base stations, thereby efficiently managing the area of the entire wireless communication system.

使用者設備藉由在已知為「上行鏈路」或「反向」頻道之頻道上傳輸資料及資訊以通訊與基地站20,而基地站20藉由在已知為「下行鏈路」或「前向」頻道之無線電頻道上傳輸資料及資訊以通訊與使用者設備50。The user equipment communicates with the base station 20 by transmitting data and information on a channel known as an "uplink" or "reverse" channel, and the base station 20 is known as "downlink" or The data and information are transmitted on the radio channel of the "forward" channel to the communication and user equipment 50.

除了「持續開」操作之外,使用者設備50可操作於「間斷接收」(DRx)或「間斷傳輸」(DTx)模式。此類模式容許使用者設備50節省電池功率在當UE處於不活動(inactive)週期時(例如,當使用者設備處於閒置狀 態時)。In addition to the "continuous on" operation, the user device 50 can operate in a "discontinuous reception" (DRx) or "discontinuous transmission" (DTx) mode. Such a mode allows the user device 50 to conserve battery power when the UE is in an inactive cycle (eg, when the user device is idle) State).

於間斷接收期間,使用者設備50關閉其接收天線並週期性地醒來以從無線電訊網路10接收可能的資料流量及資訊(例如,傳呼訊息),經由從基地站20至使用者設備50之下行鏈路頻道上所傳送的資料。假如於醒來週期中由使用者設備50所接收之訊息被認為超過一臨限值,或者指示其基地站20希望傳送更多的資訊至使用者設備50,則使用者設備可操作以從間斷接收模式離開。During intermittent reception, the user device 50 turns off its receiving antenna and periodically wakes up to receive possible data traffic and information (eg, paging messages) from the radio network 10 via the slave base station 20 to the user device 50. The data transmitted on the downlink channel. If the message received by the user device 50 during the wake-up cycle is considered to exceed a threshold, or if the base station 20 wishes to transmit more information to the user device 50, the user device is operable to interrupt The receive mode leaves.

類似地,間斷傳輸(DTx)模式可由使用者設備來實施。於此一情況下,當於實質上閒置模式時,使用者設備便關閉其傳輸器並且僅週期性地醒來以經由通到基地站20之上行鏈路頻道而傳輸資料之封包至網路10。Similarly, the discontinuous transmission (DTx) mode can be implemented by the user equipment. In this case, when in the substantially idle mode, the user equipment turns off its transmitter and only wakes up periodically to transmit packets of data to the network 10 via the uplink channel to the base station 20. .

為了使一由基地站20所服務之細胞30中的使用者設備50之操作同步,基地站20具有其本身參考時間訊框,並將系統時間訊框指示給使用者設備在當其首次連接時。參考時間訊框未被相關(correlated)於基地站之間。已知無線電訊系統(例如,UMTS及LTE架構系統)中之參考時間訊框係藉由使用系統訊框數而獲得。系統訊框數(SFN)被用於識別由基地站所服務之細胞的定框(framing)及時序。系統訊框數係涵蓋從0至4095(於UMTS)及0至1023(於LTE)之值的範圍而循環。In order to synchronize the operation of the user equipment 50 in the cells 30 served by the base station 20, the base station 20 has its own reference time frame and indicates the system time frame to the user equipment when it is first connected. . The reference time frame is not correlated between the base stations. It is known that reference time frames in radio systems (eg, UMTS and LTE architecture systems) are obtained by using the number of system frames. The number of system frames (SFN) is used to identify the framing and timing of the cells served by the base station. The number of system frames covers the range from 0 to 4095 (in UMTS) and 0 to 1023 (in LTE).

DTx及DRx循環可藉由參考SFN而被指定。使用SFN以控制間斷傳輸或接收循環為4096無線電訊框之最大循環長度。因為一無線電訊框持續10ms(毫秒),所 以這表示UMTS網路之最大循環長度為40.96秒。The DTx and DRx cycles can be specified by reference to the SFN. The SFN is used to control the maximum loop length of the 4096 radio frame for intermittent transmission or reception loops. Because a radio frame lasts 10ms (milliseconds), This means that the maximum loop length of the UMTS network is 40.96 seconds.

藉由背景,圖2概略地說明各種無線電狀態,其中使用者設備50可操作於UMTS電訊網路中。於一細胞30中之使用者設備的初始開啟時,其通常將處於「閒置模式」100。一旦其將本身同步並裝附至一基地站20,則其獲得無線電資源控制(RRC)連接且被稱為處於連接模式200。閒置模式下之使用者設備不具有無線電資源控制(RRC)連接。By way of background, Figure 2 illustrates diagrammatically various radio states in which user equipment 50 is operable in a UMTS telecommunications network. When the user device in a cell 30 is initially turned on, it will typically be in "idle mode" 100. Once it synchronizes itself and attaches to a base station 20, it obtains a Radio Resource Control (RRC) connection and is said to be in connected mode 200. The user equipment in idle mode does not have a Radio Resource Control (RRC) connection.

假如使用者設備為RRC連接200,則其將處於以下五個RRC狀態之一:Cell_DCH(201)、Cell_FACH(202)、增強Cell_FACH(203)、Cell_PCH(204)及URA_PCH(205)狀態。If the user equipment is an RRC connection 200, it will be in one of five RRC states: Cell_DCH (201), Cell_FACH (202), Enhanced Cell_FACH (203), Cell_PCH (204), and URA_PCH (205) states.

使用者設備通常在當其流量高時移入Cell_DCH(201)狀態,因為於此一狀態下使用者設備被配置一專屬頻道以供於其上從基地站20傳輸並接收資料。於UMTS網路架構中,使用者設備可處於Cell_DCH狀態,其中其預期具有高的流量。The user equipment typically moves into the Cell_DCH (201) state when its traffic is high because in this state the user equipment is configured with a dedicated channel for transmission and reception of data from the base station 20. In the UMTS network architecture, the user equipment may be in the Cell_DCH state where it is expected to have high traffic.

當非處於Cell_DCH狀態時,傳統上使用者設備係使用上行鏈路上之隨機存取頻道(RACH)而操作,且基地站將使用前向存取頻道(FACH)而通訊與使用者設備。RACH和FACH具有極小的資料攜載能力;且於W-CDMA或UMTS系統中,已透過增強Cell_FACH及Cell_FACH中之EUL來引入一種使用者設備及基地站之能力,以在當使用者設備處於Cell_FACH狀態下時於下行鏈路及上行 鏈路上使用一共用的或共同的資源而操作並傳遞資料流量於其間。於上行鏈路中,資料流量傳輸係使用增強專屬頻道(EDCH)而發生;而於下行鏈路中,流量係傳送於高速下行鏈路共用頻道(HS-DSCH)。那些頻道容許使用者設備及基地站一時地傳遞並傳輸較大的資料封包於其本身之間,而無須使用者設備進入Cell_DCH狀態。此一配置容許使用者設備較久地保留於Cell_FACH狀態而不轉變至「更專屬的」狀態,因而容許功率耗損節省。When not in the Cell_DCH state, traditionally the user equipment operates using a random access channel (RACH) on the uplink, and the base station will communicate with the user equipment using a forward access channel (FACH). RACH and FACH have very small data carrying capacity; and in W-CDMA or UMTS systems, the capability of a user equipment and a base station has been introduced by enhancing the EUL in Cell_FACH and Cell_FACH, so that when the user equipment is in Cell_FACH In the downlink and uplink A shared or common resource is used on the link to operate and deliver data traffic therebetween. In the uplink, data traffic transmission occurs using Enhanced Derivative Channel (EDCH); in the downlink, traffic is transmitted on the High Speed Downlink Shared Channel (HS-DSCH). Those channels allow the user equipment and the base station to temporarily transfer and transmit larger data packets between themselves without requiring the user equipment to enter the Cell_DCH state. This configuration allows the user equipment to remain in the Cell_FACH state for a longer period of time without transitioning to the "more exclusive" state, thus allowing for power consumption savings.

再者,供由Cell_FACH狀態下之使用者設備使用而引入的HS-DSCH DRX(間斷接收)能力容許使用者設備達成進一步的操作性功率節省。Furthermore, the HS-DSCH DRX (intermittent reception) capability introduced for use by the user equipment in the Cell_FACH state allows the user equipment to achieve further operational power savings.

對於Cell_FACH狀態之這些增強特徵的部署可容許「永遠開啟」型服務,例如,透過蜂巢系統之按鍵通話(PoC)、Push email及VPN連接(其係傳輸頻繁但小的封包於UE與伺服器之間),其係支援Cell_FACH狀態而無須進入Cell_DCH狀態。The deployment of these enhanced features for the Cell_FACH state allows for "always on" services, such as push-to-talk (PoC), push email, and VPN connections through the cellular system (which are frequent but small packets are transmitted to the UE and the server). In the meantime, it supports the Cell_FACH state without entering the Cell_DCH state.

雖然Cell_FACH狀態之增強功能容許當使用者設備處於Cell_FACH狀態下時資料封包被傳送於基地站與使用者設備(或反之)之間,但此一配置可能是浪費資源的,因為其在完全專屬發信模式(例如,Cell_DCH)下通常為基地站永遠可用的資訊不再是永遠可用的。結果,可於基地站上進行猜測和近似以嘗試並確保其與使用者設備之通訊可發生。因此基地站發信至使用者設備之操作被放棄。例如,基地站通常將得以存取來自專屬發信模式下操作的使 用者設備而有關由該使用者設備所經歷之無線電狀況(亦已知為無線電頻道傳播狀況)的直接資訊。有關無線電狀況之此類資訊可(例如)包含頻道品質資訊(CQI)及/或回饋協定資訊,諸如ACK/NACK資訊。該資訊可由基地站所使用以決定用來傳送至使用者設備之適當的資料封包尺寸。假如使用者設備正經歷良好的無線電狀況,則大的資料封包可被傳送以成功接收的高可能性。假如不良的無線電狀況正被經歷,則基地站可傳送較小的資料封包至該使用者設備,以嘗試並確保資料流量被成功地接收。Although the enhancement of the Cell_FACH state allows data packets to be transmitted between the base station and the user equipment (or vice versa) when the user equipment is in the Cell_FACH state, this configuration may be a waste of resources because it is completely exclusive. Information that is normally available to the base station in the letter mode (eg, Cell_DCH) is no longer always available. As a result, guessing and approximation can be performed on the base station to try and ensure that communication with the user equipment can occur. Therefore, the operation of the base station to send a message to the user equipment is abandoned. For example, a base station will typically have access to operations from a proprietary messaging mode. Direct information about the user's device and the radio conditions experienced by the user device (also known as radio channel propagation conditions). Such information regarding radio conditions may, for example, include channel quality information (CQI) and/or feedback agreement information, such as ACK/NACK information. This information can be used by the base station to determine the appropriate data packet size for transmission to the user equipment. If the user equipment is experiencing good radio conditions, then a large data packet can be transmitted with a high probability of successful reception. If a poor radio condition is being experienced, the base station can transmit a smaller data packet to the user equipment to try and ensure that the data traffic is successfully received.

於此方面,針對Cell_FACH或增強Cell_FACH狀態下之使用者設備,上行鏈路HS-DPCCH(高速專屬實體控制頻道)回饋頻道對於支援HS頻道上之有效下行鏈路傳輸是關鍵的。當缺乏無線電狀況指標,諸如(例如)透過HS-DPCCH頻道而攜載之頻道品質資訊(CQI)及/或ACK/NACK資訊,時,於高速下行鏈路封包存取(HSDPA)頻道上由基地站所進行之盲目再傳輸可能導致HSDPA傳輸量之顯著流失及對於可用的HSDPA資源之高度無效率使用。In this regard, for user equipment in the Cell_FACH or Enhanced Cell_FACH state, the uplink HS-DPCCH (High Speed Dedicated Entity Control Channel) feedback channel is critical to supporting efficient downlink transmissions on the HS channel. When there is a lack of radio status indicators, such as, for example, channel quality information (CQI) and/or ACK/NACK information carried over the HS-DPCCH channel, the base is on the High Speed Downlink Packet Access (HSDPA) channel. The blind retransmission by the station may result in a significant loss of HSDPA transmissions and a highly inefficient use of available HSDPA resources.

以投機方式之HS-DPCCH的傳輸於Cell_FACH下是可行的,以致無線電狀況資訊僅在當UE具有供傳送於E-DCH(增強專屬頻道)上之資料時被傳送至基地站。亦即,得以實施一種系統,藉此無線電狀況回饋資訊僅在當有待傳送於上行鏈路上之資料封包時被傳送至基地站。應理解此一系統可表示其於大部分情況下,當HS-DPCCH被傳 送時,可能無下行鏈路資料從基地站被傳送回至使用者設備。於此一情況下,應理解其無線電狀況回饋資訊(或HS-DPCCH)可能為極少或者無用處。再者,假如HS頻道上之HS傳輸不重疊與E-DCH上之UL傳輸,則在缺乏ACK/NACK或CQI資訊時HS傳輸通常將經由盲目再傳輸而發生。The transmission of the HS-DPCCH in a speculative manner is feasible under Cell_FACH, so that the radio status information is transmitted to the base station only when the UE has the information for transmission on the E-DCH (Enhanced Exclusive Channel). That is, a system can be implemented whereby radio status feedback information is transmitted to the base station only when there is a data packet to be transmitted on the uplink. It should be understood that this system can be expressed in most cases when HS-DPCCH is transmitted At the time of delivery, no downlink data may be transmitted back from the base station to the user equipment. In this case, it should be understood that its radio status feedback information (or HS-DPCCH) may be minimal or useless. Furthermore, if the HS transmissions on the HS channel do not overlap with the UL transmission on the E-DCH, the HS transmission will typically occur via blind retransmission in the absence of ACK/NACK or CQI information.

可以從E-DCH上之上行鏈路資料封包傳輸移除HS-DPCCH傳輸(回饋資訊)之依存性。某些移除該依存性之配置係假定藉由UE之連續HS-DPCCH傳輸,亦即回饋訊息之每TTI的傳輸,當UE處於增強Cell_FACH狀態時。應理解此一系統導致無線電狀況回饋,例如,其中將進行下行鏈路HSDPA傳輸之CQI及ACK/NACK傳輸、以及當並無下行鏈路HSDPA傳輸時藉由UE之此類回饋傳輸。此一配置係類似於由依據Cell_DCH狀態下之3GPP而操作的UE所依循的典型回饋技術。The dependency of the HS-DPCCH transmission (feedback information) can be removed from the uplink data packet transmission on the E-DCH. Some configurations that remove this dependency assume a continuous HS-DPCCH transmission by the UE, that is, every TTI transmission of the feedback message when the UE is in the enhanced Cell_FACH state. It should be understood that this system results in radio condition feedback, for example, CQI and ACK/NACK transmissions in which downlink HSDPA transmissions will be made, and such feedback transmissions by the UE when there is no downlink HSDPA transmission. This configuration is similar to the typical feedback technique followed by UEs operating in accordance with 3GPP in the Cell_DCH state.

然而,此一技術之明顯缺點在於從UE電池功率節省之觀點而言是無效率的。因為預期UE將連續地傳輸HS-DPCCH(CQI)即使於其中無DL傳輸之週期期間,且UE可能無法進入其容許電池功率節省之間斷傳輸或接收(DTX/DRX)狀態。However, a significant disadvantage of this technique is that it is inefficient from the standpoint of UE battery power savings. Since the UE is expected to continuously transmit the HS-DPCCH (CQI) even during the period in which there is no DL transmission, and the UE may not be able to enter its Allowed Battery Power Saving Intermittent Transmission or Reception (DTX/DRX) state.

針對完全獨立於增強Cell_FACH之UL E-DCH傳輸以傳輸HS-DPCCH(無線電狀況回饋)的提議傾向於解決有關HSDPA資訊之無效率利用以及HSDPA傳輸量之流失的問題,但由於HS-DPCCH之連續傳輸即使於DL不活動之 週期期間,其可能在UE電池損耗方面是累贅的。The proposal to transmit HS-DPCCH (Radio Condition Feedback) for UL E-DCH transmission completely independent of Enhanced Cell_FACH tends to solve the problem of inefficient use of HSDPA information and loss of HSDPA transmission, but due to the continuity of HS-DPCCH Transmission even if DL is inactive During the cycle, it may be cumbersome in terms of UE battery drain.

進一步提議的技術係使用由基地站所傳送之高速共用控制頻道(HS-SCCH)順序以指示UE開始HS-DPCCH傳輸,隨著以及當由一節點B(基地站)所請求時。此一技術可能具有如下缺點:將有一延遲介於HS-SCCH與HSDPA傳輸的開始之間以供實際酬載,因為節點B通常將需要把少數CQI值、或由UE所經歷之其他指標平均,以便在開始實際的HSPDA傳輸之前具有UE上之無線電頻道品質的足夠估計。在開始實際的HSPDA傳輸之前,節點B傳送HS-SCCH順序至UE以指示UE開始HS-DPCCH(CQI)傳輸。UE開始回饋傳輸且基地站等待以接收預定數目的回饋CQI值。基地站把CQI回饋值平均以獲得DL頻道品質之估計。資料封包接著根據所估計的頻道品質而被傳送(DL HSDPA傳輸)。A further proposed technique uses the High Speed Shared Control Channel (HS-SCCH) sequence transmitted by the base station to instruct the UE to initiate HS-DPCCH transmissions, as well as when requested by a Node B (Base Station). This technique may have the disadvantage that there will be a delay between the HS-SCCH and the beginning of the HSDPA transmission for the actual payload, since the Node B will typically need to average a small number of CQI values, or other indicators experienced by the UE, In order to have a sufficient estimate of the radio channel quality on the UE before starting the actual HSPDA transmission. Before starting the actual HSPDA transmission, the Node B transmits the HS-SCCH sequence to the UE to instruct the UE to start HS-DPCCH (CQI) transmission. The UE starts the feedback transmission and the base station waits to receive a predetermined number of feedback CQI values. The base station averages the CQI feedback values to obtain an estimate of the DL channel quality. The data packet is then transmitted according to the estimated channel quality (DL HSDPA transmission).

依據此一方法,HS-SCCH順序將開始UE上之HS-DPCCH的連續傳輸,亦即每TTI之回饋傳輸。假定Cell_FACH中之預期流量的突發性本質,則為了節省UE電池功率及避免HS-DPCCH之過量傳輸,可能需要額外的順序以停止UE上之HS-DPCCH傳輸,在DL資料傳輸之後。隨著增加增強Cell_FACH狀態下之UE操作的數目(假定用以處理突發性流量之Cell_FACH的適當性),此一方法可能需要大量的HS-SCCH順序由其涵蓋區域內之使用者設備的基地站所傳送(例如,在資料之突發以前及以後)。一基地站所傳輸之各HS-SCCH順序係損耗可用的 DL電池功率之一部分。該電池功率是有限的。再者,正傳送HS-SCCH順序之各UE均佔據一HS-SCCH實體頻道。那些頻道被共用於一細胞中的所有UE之間而因此為一有限的資源。依據某些方法以開始及停止無線電狀況回饋之HS-SCCH順序的使用因此提供操作之有限的可擴充性。因為對於HS-SCCH順序之傳輸並無UL回饋,所以此等方法亦可能導致為了確保藉由UE之可靠接收而進行之HS-SCCH順序的盲目再傳輸。According to this method, the HS-SCCH sequence will start the continuous transmission of the HS-DPCCH on the UE, that is, the feedback transmission per TTI. Assuming the bursty nature of the expected traffic in Cell_FACH, in order to save UE battery power and avoid excessive transmission of HS-DPCCH, an additional sequence may be required to stop HS-DPCCH transmission on the UE after DL data transmission. As the number of UE operations in the enhanced Cell_FACH state is increased (assuming the appropriateness of Cell_FACH to handle bursty traffic), this method may require a large number of HS-SCCH sequences from the base of the user equipment within its coverage area. Transfer by the station (for example, before and after the burst of data). Each HS-SCCH sequence transmitted by a base station is available for loss. One part of the DL battery power. The battery power is limited. Furthermore, each UE that is transmitting the HS-SCCH sequence occupies an HS-SCCH physical channel. Those channels are shared among all UEs in a cell and are therefore a limited resource. The use of the HS-SCCH sequence to initiate and stop radio condition feedback in accordance with certain methods thus provides limited scalability of operation. Since there is no UL feedback for the transmission of the HS-SCCH sequence, such methods may also result in blind retransmission of the HS-SCCH sequence to ensure reliable reception by the UE.

上述實施例係操作以容許間斷的HS-DPCCH傳輸,其提供由UE所經歷之無線電狀況的指示,該間斷的或週期性間斷的回饋係發生於DL HSDPA不活動之週期期間。換言之,雖然並無資料流量將從基地站被傳送至UE,該UE仍可操作以繼續將所經歷之無線電狀況的指示提供給基地站,該回饋被週期性地從使用者設備傳送至基地站。再者,回饋繼續由使用者設備所傳送,即使並無資料流量將被使用者設備傳送至基地站。依據實施例,UE係由基地站所指示以根據特定的間斷循環來傳輸HS-DPCCH(CQI),例如,用於UL HS-DPCCH之傳輸的特定時序槽可適當地由基地站(節點B)配合RNC而被傳遞至UE;替代地,介於傳輸之間的週期可由基地站配合RNC而被指定給UE。於某些實施例中,使用者設備亦可操作以傳送非間斷回饋,當有資料流量於上行鏈路時。因此,基地站可確保由UE所經歷之無線電狀況的某最近相關指示較佳地估計一種其中傳送下行鏈路資料封包之適當方式。The above described embodiments operate to permit intermittent HS-DPCCH transmissions that provide an indication of the radio conditions experienced by the UE, which occur during the period of DL HSDPA inactivity. In other words, although no data traffic will be transmitted from the base station to the UE, the UE is still operable to continue to provide an indication of the experienced radio condition to the base station, the feedback being periodically transmitted from the user equipment to the base station . Furthermore, the feedback continues to be transmitted by the user device even if no data traffic will be transmitted by the user device to the base station. According to an embodiment, the UE is instructed by the base station to transmit HS-DPCCH (CQI) according to a particular discontinuous cycle, eg, a particular timing slot for transmission of the UL HS-DPCCH may be suitably by the base station (Node B) The UE is delivered to the UE in conjunction with the RNC; alternatively, the period between transmissions can be assigned to the UE by the base station in conjunction with the RNC. In some embodiments, the user equipment is also operable to transmit non-interruptive feedback when there is data traffic on the uplink. Thus, the base station can ensure that some recent correlation indication of the radio conditions experienced by the UE preferably estimates an appropriate manner in which the downlink data packets are transmitted.

實施例可容許UE操作於完全DTX/DRX狀態,因而確保進一步的功率節省。DTX/DRX模式可被實施於某些實施例以致UE能夠操作於此類間斷模式下,除了當其必須傳輸HS-DPCCH(或無線電狀況回饋)時以外。於某些實施例中,HS-DPCCH週期性回饋循環可由網路所控制以提供介於UE電池節省與在節點B上所維持的頻道品質回饋可靠性之間的平衡。Embodiments may allow the UE to operate in a full DTX/DRX state, thus ensuring further power savings. The DTX/DRX mode can be implemented in certain embodiments such that the UE can operate in such discontinuous mode except when it must transmit HS-DPCCH (or radio status feedback). In some embodiments, the HS-DPCCH periodic feedback loop can be controlled by the network to provide a balance between UE battery savings and channel quality feedback reliability maintained on Node B.

HS-DPCCH之傳輸可(於某些實施例中)被連結至一UE獨特識別符,諸如(例如)H-RNTI;或者一族群識別符,諸如(例如)族群H-RNTI。此類實施例可確保一細胞內之無線電狀況回饋訊息被分散以避免發信流量中之不必要的高峰。此分散係藉由將操作於週期性回饋模式之指示適當地提示給一或一以上的UE而達成,如一種類似於CPC及傳呼時機(Paging Occasion)中所使用之循環的方式中已達成者。此類實施例目的在於避免HS-DPCCH之同時傳輸於一細胞中的所有UE之間。The transmission of the HS-DPCCH may (in some embodiments) be linked to a UE unique identifier, such as, for example, an H-RNTI; or a family identifier such as, for example, a group H-RNTI. Such an embodiment ensures that a radio status feedback message within a cell is dispersed to avoid unnecessary peaks in the signaling traffic. This dispersion is achieved by appropriately presenting an indication of the operation in the periodic feedback mode to one or more UEs, such as a way similar to the loop used in CPC and paging aging (Paging Occasion). . Such an embodiment aims to avoid simultaneous transmission of HS-DPCCH between all UEs in a cell.

於某些實施例中,在HS-DSCH之突發後的不活動計時器可由基地站或RNC上所產生的順序或指示來設定、或者可由UE本身來設定。此一不活動計時器可被設定以致UE之操作係使得當計時器屆期時、以及當無進一步下行鏈路資料流量被接收於不活動週期期間時,無線電狀況回饋(HS-DPCCH)被接著以一間斷的、週期性的循環傳輸至基地站。於某些實施例中,此一不活動計時器可被設定以致UE之操作係使得當計時器屆期時、以及當無進一 步上行鏈路資料流量被傳輸於不活動週期期間時,無線電狀況回饋(HS-DPCCH)被接著以一間斷的、週期性的循環傳輸至基地站。In some embodiments, the inactivity timer after the burst of HS-DSCH may be set by a sequence or indication generated on the base station or RNC, or may be set by the UE itself. This inactivity timer can be set such that the UE's operating system is such that when the timer expires, and when no further downlink data traffic is received during the inactivity period, the radio condition feedback (HS-DPCCH) is followed. It is transmitted to the base station in a broken, periodic cycle. In some embodiments, this inactivity timer can be set such that the UE's operating system is such that when the timer expires, and when there is no further When the uplink data traffic is transmitted during the inactive period, the radio condition feedback (HS-DPCCH) is then transmitted to the base station in an intermittent, periodic loop.

於某些此類實施例中,當UE已執行週期性回饋報告循環時,則由於此操作之無線電狀況回饋(HS-DPCCH)的傳輸不應被視為該週期內之活動。否則,UE可能永不移入週期性回饋報告技術。In some such embodiments, when the UE has performed a periodic feedback reporting loop, then the transmission of radio status feedback (HS-DPCCH) due to this operation should not be considered an activity within the period. Otherwise, the UE may never move into the periodic feedback reporting technique.

於某些實施例中,週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)可使用由基地站所傳輸之HS-SCCH族群順序而被啟動或撤銷。於實施例中,HS-SCCH順序之使用上述方法的差異在於:In some embodiments, a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX) may be initiated or revoked using the HS-SCCH population order transmitted by the base station. In an embodiment, the difference in the use of the HS-SCCH sequence described above is:

1)該順序指示週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)之開始,而不會導致藉由無線電狀況回饋訊息(例如,HS-DPCCH)之UE的連續傳輸。1) The sequence indicates the beginning of a periodic radio condition feedback reporting loop (e.g., HS-DPCCH DTX) without causing continuous transmission of UEs by radio status feedback messages (e.g., HS-DPCCH).

2)該順序被傳輸至UE之族群(使用Cell_FACH中之共同H-RNTI)而非特定UE。注意:如此不會排除對於一特定UE之順序。2) The sequence is transmitted to the UE's community (using the common H-RNTI in Cell_FACH) instead of the specific UE. Note: This does not preclude the order for a particular UE.

3)該順序必定包括有關週期性無線電狀況回饋報告循環之本質的資訊。注意:相較於較緩慢的頻道,快速頻道將需要CQI之頻繁更新,而因此:控制一已實施之週期性無線電狀況回饋機制的本質係容許基地站控制CQI更新之頻率。3) The sequence must include information about the nature of the periodic radio condition feedback reporting loop. Note: Fast channels will require frequent updates of CQI compared to slower channels, and therefore: controlling the nature of an implemented periodic radio condition feedback mechanism allows the base station to control the frequency of CQI updates.

4)HS-SCCH可立即開始週期性無線電狀況回饋報告 循環(例如,HS-DPCCH DTX)(例如,HS-DPCCH DTX程序),或者在不活動計時器(如以上所述者)之後開始。4) HS-SCCH can immediately start periodic radio status feedback report Loop (eg, HS-DPCCH DTX) (eg, HS-DPCCH DTX program), or after an inactivity timer (as described above).

目前,具有低流量活動之Cell_FACH中的UE將移入DRX以節省電池功率。雖然此UE有可能繼續傳輸週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)(根據其預設循環)於完整DRX期間,但此一配置可能減少其可於DRX中所節省之電池功率的量。Currently, UEs in Cell_FACH with low traffic activity will move into DRX to conserve battery power. Although this UE may continue to transmit periodic radio condition feedback reporting loops (eg, HS-DPCCH DTX) (according to its preset cycle) during the full DRX period, this configuration may reduce the battery power it can save in DRX. The amount.

因此,於某些實施例中,週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)為Cell_FACH中之UE DRX的函數。於某些實施例中,假如週期性無線電狀況回饋報告較UE DRX循環更長,則該UE可操作以維持其間斷回饋循環活動。DTX與報告無線電狀況循環可被同步以致UE僅需醒來一次以收聽可能的接收並傳輸無線電狀況回饋資訊,例如,HS-DPCCH。(注意:根據DTX循環,UE於某些醒來週期可能無法傳輸HS-DPCCH)。因此,於某些實施例中,UE DRX循環不會被週期性回饋循環傳輸所中斷。因為週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX循環)被維持,所以此等實施例可確保可接受的無線電狀況指標(例如,CQI更新)之提供,以供有效率的基地站及網路操作。於某些實施例中,UE或基地站可操作以便縮短週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX),以致其傳輸DRX期間之每一醒來週期上的無線電狀況回饋。Thus, in some embodiments, the periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX) is a function of UE DRX in Cell_FACH. In some embodiments, if the periodic radio condition feedback report is longer than the UE DRX cycle, the UE is operable to maintain its intermittent feedback loop activity. The DTX and reporting radio status cycles can be synchronized such that the UE only needs to wake up once to listen to possible reception and transmit radio status feedback information, such as HS-DPCCH. (Note: According to the DTX cycle, the UE may not be able to transmit HS-DPCCH during some wake-up cycles). Thus, in some embodiments, the UE DRX cycle is not interrupted by periodic feedback loop transmissions. Because periodic radio condition feedback reporting loops (eg, HS-DPCCH DTX cycles) are maintained, these embodiments can ensure that acceptable radio condition indicators (eg, CQI updates) are provided for efficient base stations and Network operation. In some embodiments, the UE or base station is operable to shorten the periodic radio condition feedback reporting loop (e.g., HS-DPCCH DTX) such that it transmits radio status feedback on each wake cycle during DRX.

應理解,於某些實施例中,無須確保其週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)與UE DRX循環總是被同步。因此,於某些實施例中,容許具有異步的循環。然而,如上所述,此類配置無法提供從UE電池節省觀點而言之最優的最佳化解答。It should be understood that in certain embodiments, there is no need to ensure that its periodic radio condition feedback reporting loop (e.g., HS-DPCCH DTX) is always synchronized with the UE DRX loop. Thus, in some embodiments, an asynchronous loop is allowed. However, as noted above, such configurations do not provide an optimal optimization solution from the perspective of UE battery savings.

於某些實施例中,假如週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX循環)較UE DRX循環更短,則UE可操作以根據UE DRX循環而停止其回饋活動或者移入較長週期性無線電狀況回饋循環之使用。In some embodiments, if the periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX loop) is shorter than the UE DRX cycle, the UE is operable to stop its feedback activity or move into a longer period according to the UE DRX cycle. Use of the sexual radio status feedback loop.

於某些實施例中,UE週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX及DRX循環)是使得其必須同步與UE DRX循環,而因此於其中回饋循環較DRX循環更短的情境下,UE僅可傳輸無線電狀況回饋資訊在當其醒來於其DRX循環期間時。此係有效地造成UE移入更長的HS-DPCCH DTX循環。In some embodiments, the UE periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX and DRX cycles) is such that it must synchronize with the UE DRX cycle, and thus in a scenario where the feedback loop is shorter than the DRX cycle The UE can only transmit radio status feedback information when it wakes up during its DRX cycle. This effectively causes the UE to move into a longer HS-DPCCH DTX cycle.

於某些實施例中,UE可完全地停止週期性無線電狀況回饋活動,例如,假如UE DRX循環被決定為較一預定臨限值更長,則應理解假如無線電狀況回饋(例如,CQI更新)太不頻繁,則來自回饋傳訊(當UE最後醒來時之HS-DPCCH傳輸)之先前無線電狀況指示(例如,CQI更新)通常將不再代表當即將在下行鏈路頻道上進行資料封包傳輸時之無線電狀況。有可能先前CQI更新可提供無線電頻道之樂觀狀況,導致高HS-DSCH運輸區塊被傳送至UE而導致錯誤。依據某些實施例,臨限值可由基地站或 RNC根據(例如)最後已知的UE速度(亦即,都卜勒)而被設定。In some embodiments, the UE may completely stop periodic radio condition feedback activities, for example, if the UE DRX cycle is determined to be longer than a predetermined threshold, it should be understood that if the radio status feedback (eg, CQI update) Too infrequent, the previous radio status indication (eg, CQI update) from the feedback message (HS-DPCCH transmission when the UE finally wakes up) will usually no longer represent when data packet transmission is about to occur on the downlink channel. Radio condition. It is possible that a previous CQI update may provide an optimistic condition for the radio channel, resulting in a high HS-DSCH transport block being transmitted to the UE resulting in an error. According to some embodiments, the threshold may be by a base station or The RNC is set according to, for example, the last known UE speed (i.e., Doppler).

於某些實施例中,UE可操作以重新開始週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX),當其離開DRX模式時。也就是說,UE可操作以使用週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX循環)在其移入DRX之前,以及(於離開時)DRX可回復至該回饋報告循環。注意:於某些實施例中,假如UE係由於HS-DSCH(亦即,下行鏈路)接收而離開DRX,則其可連續地傳輸無線電狀況回饋。於某些實施例中,假如UE係由於E-DCH(亦即,上行鏈路)傳輸而離開DRX,則其可繼續原始的週期性無線電狀況回饋循環。In some embodiments, the UE is operable to resume a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX) when it leaves the DRX mode. That is, the UE is operable to use a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX loop) before it moves into DRX, and (on departure) DRX may revert to the feedback reporting loop. Note: In some embodiments, if the UE leaves the DRX due to HS-DSCH (ie, downlink) reception, it can continuously transmit radio status feedback. In some embodiments, if the UE leaves the DRX due to E-DCH (ie, uplink) transmission, it may continue the original periodic radio condition feedback loop.

於某些實施例中,當UE依據週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)而傳輸無線電狀況回饋指標於(例如)HS-DPCCH時,其可操作以傳輸無線電狀況回饋指標(例如,CQI)以多於一子訊框。此一配置可容許基地站針對各回饋突發(burst)期間之少數無線電狀況指標(例如,CQI值)執行平均,而因此獲得正由UE所經歷之無線電頻道狀況之更可靠的非瞬間估計。In some embodiments, when the UE transmits a radio condition feedback indicator (eg, HS-DPCCH) according to a periodic radio condition feedback reporting loop (eg, HS-DPCCH DTX), it is operable to transmit a radio condition feedback indicator ( For example, CQI) takes more than one sub-frame. This configuration may allow the base station to perform averaging for a few radio condition indicators (e.g., CQI values) during each feedback burst, and thus obtain a more reliable non-instantaneous estimate of the radio channel conditions being experienced by the UE.

概述Overview

1)週期性無線電狀況回饋報告循環(例如,HS-DPCCH DTX)係針對操作於Cell_FACH狀態下之UE而定義,具有由網路所定義之週期性回饋 循環。不同的UE可具有不同的循環。1) Periodic radio status feedback reporting loop (eg, HS-DPCCH DTX) is defined for UEs operating in the Cell_FACH state, with periodic feedback defined by the network cycle. Different UEs can have different cycles.

2)UE可在不活動計時器之後移入週期性無線電狀況回饋報告循環(例如,無HS-DSCH傳輸)2) The UE may move into the periodic radio status feedback reporting loop after the inactivity timer (eg, no HS-DSCH transmission)

3)UE可在當由網路通知時移入週期性無線電狀況回饋報告循環(例如,藉由使用HS-SCCH順序或HS-SCCH族群順序)3) The UE may move into the periodic radio status feedback reporting loop when notified by the network (eg, by using HS-SCCH order or HS-SCCH group order)

4)無線電狀況回饋訊息在當決定不活動計時器時無法被視為活動。(注意:不同的不活動計時器可被用於週期性回饋循環和UE DRX操作之實施,那些不活動計時器無需為相同的)4) The radio status feedback message cannot be considered active when the inactivity timer is determined. (Note: different inactivity timers can be used for periodic feedback loops and implementation of UE DRX operations, those inactivity timers need not be the same)

5)網路可操作以通知UE停止週期性無線電狀況回饋(例如,經由HS-SCCH順序)5) The network is operable to inform the UE to stop periodic radio condition feedback (eg, via HS-SCCH order)

6)週期性無線電狀況回饋報告循環與UE上之DRX的循環可為異步的6) The cyclic radio status feedback reporting loop and the DRX loop on the UE can be asynchronous

7)週期性無線電狀況回饋報告循環與UE上之DRX可為同步的7) The periodic radio status feedback reporting loop and the DRX on the UE can be synchronized

8)當UE移入DRX且假如所實施的週期性無線電狀況回饋報告循環長於或等於DRX循環時,則UE可使其週期性無線電狀況回饋報告循環與DRX同步並維持(或縮短)其週期性無線電狀況回饋報告循環8) When the UE moves into DRX and if the implemented periodic radio condition feedback reporting loop is longer than or equal to the DRX cycle, then the UE may synchronize its periodic radio condition feedback reporting loop with DRX and maintain (or shorten) its periodic radio Status feedback report loop

9)當UE移入DRX且假如其週期性無線電狀況回饋報告循環短於DRX循環時,則UE可使其週期性無線電狀況回饋報告循環與DRX同步並延長其 週期性無線電狀況回饋報告循環9) When the UE moves into DRX and if its periodic radio condition feedback reporting loop is shorter than the DRX cycle, the UE may synchronize its periodic radio status feedback reporting loop with DRX and extend its Periodic radio status feedback reporting loop

10)當UE移入DRX且假如其週期性無線電狀況回饋報告循環短於DRX循環而DRX循環長於一預定臨限值時,假如UE需使其週期性無線電狀況回饋報告循環與DRX循環同步,則UE將停止其週期性無線電狀況回饋。此臨限值可由網路所決定。10) When the UE moves into DRX and if its periodic radio condition feedback reporting loop is shorter than the DRX cycle and the DRX cycle is longer than a predetermined threshold, if the UE needs to synchronize its periodic radio condition feedback reporting loop with the DRX cycle, then the UE Its periodic radio status feedback will be stopped. This threshold can be determined by the network.

11)UE可在當其離開DRX狀態時重新開始其原本的週期性無線電狀況回饋報告循環11) The UE may resume its original periodic radio status feedback reporting loop when it leaves the DRX state.

12)UE可於其DTX循環中之各傳輸週期期間傳輸一以上的無線電狀況回饋指標,以容許網路具有正由UE所經歷之無線電狀況的平均。12) The UE may transmit more than one radio condition feedback indicator during each transmission cycle in its DTX cycle to allow the network to have an average of the radio conditions being experienced by the UE.

範例1Example 1

於本範例中,網路係組態如下:In this example, the network configuration is as follows:

1)16無線電訊框之HS-DPCCH DTX循環(亦即,UE於每160 ms傳輸一HS-DPCCH)1) HS-DPCCH DTX cycle of 16 radio frames (ie, UE transmits an HS-DPCCH every 160 ms)

2)8無線電訊框之DRX循環(亦即,當UE移入DRX時,其於每80 ms醒來以收聽接收)2) 8 radio frame DRX cycle (ie, when the UE moves into DRX, it wakes up every 80 ms to listen to receive)

3)移入100 ms之DRX的不活動時間3) Inactivity time of DRX moved into 100 ms

NB將週期性無線電狀況回饋報告循環參數通知UE,例如,經由HS-SCCH順序(或族群順序)或透過Layer3發信。依據該指示,UE經由HS-DPCCH傳輸以傳送CQI更新於每16訊框,如圖3中所示。在兩次HS-DPCCH接 收後,NB將HS-DSCH封包傳送至UE。於此範例中,NB可使用在2次HS-DPCCH中從UE傳送之CQI所獲得的資訊。在接收HS-DSCH時,UE亦可操作以傳送HS-DPCCH。當NB停止傳送HS-DSCH時,UE可操作以重新開始其週期性回饋活動並回復至其中UE在每16無線電訊框後傳送一更新的操作。The NB informs the UE of the periodic radio status feedback reporting loop parameters, for example, via HS-SCCH order (or ethnic order) or via Layer 3. According to the indication, the UE transmits via the HS-DPCCH to transmit the CQI update every 16 frames, as shown in FIG. In two HS-DPCCH connections After receiving, the NB transmits the HS-DSCH packet to the UE. In this example, the NB can use the information obtained from the CQI transmitted by the UE in the HS-DPCCH twice. Upon receiving the HS-DSCH, the UE may also operate to transmit the HS-DPCCH. When the NB stops transmitting the HS-DSCH, the UE is operable to resume its periodic feedback activity and revert to an operation in which the UE transmits an update after every 16 radio frames.

假如無UE或網路活動100 ms,則UE移入DRX。注意:HS-DPCCH DTX不被視為活動,否則,UE將永不移入DRX。DRX及HS-DPCCH DTX活動係如圖4中所示。HS-DPCCH僅被傳送在當UE從DRX醒來時,亦即,HS-DPCCH DTX現在被同步與DRX。於所示之範例中,最後HS-DPCCH DTX循環被斷裂,以致代替在DRX開始前及最後HS-DPCCH傳輸後傳輸16 ms,UE卻在DRX開始後以16訊框傳輸。CQI之更新率則不受影響(亦即,維持於每16訊框之CQI更新)。If there is no UE or network activity for 100 ms, the UE moves into DRX. Note: HS-DPCCH DTX is not considered active, otherwise the UE will never move into DRX. The DRX and HS-DPCCH DTX activities are shown in Figure 4. The HS-DPCCH is only transmitted when the UE wakes up from the DRX, ie, the HS-DPCCH DTX is now synchronized with the DRX. In the example shown, the last HS-DPCCH DTX cycle is broken so that instead of transmitting 16 ms before the start of the DRX and after the last HS-DPCCH transmission, the UE transmits in 16 frames after the DRX starts. The CQI update rate is unaffected (ie, maintained at every 16 frames of CQI updates).

假如UTRAN已組態UE於各CQI突發期間傳送兩(或更多)子訊框之CQI,則UE因此將傳輸HS-DPCCH,藉此容許節點B具有無線電頻道狀況之平均估計。此係如圖5中所示,其中如圖所示之UE可操作以當其醒來時傳輸兩連續HS-DPCCH。If the UTRAN has configured the UE to transmit the CQI of two (or more) subframes during each CQI burst, the UE will therefore transmit the HS-DPCCH, thereby allowing the Node B to have an average estimate of the radio channel conditions. This is shown in Figure 5, where the UE as shown is operable to transmit two consecutive HS-DPCCHs when it wakes up.

注意:HS-DPCCH DTX可藉由使用相同的UE ID(例如,H-RNTI)以計算醒來時間而被形成同步與DRX循環(但具有不同的循環長度)。Note: HS-DPCCH DTX can be synchronized and DRX cycles (but with different cycle lengths) by using the same UE ID (eg, H-RNTI) to calculate the wake-up time.

範例2Example 2

於本範例中,網路係組態如下:In this example, the network configuration is as follows:

1)16無線電訊框之HS-DPCCH DTX循環(亦即,UE於每160 ms傳輸一HS-DPCCH)1) HS-DPCCH DTX cycle of 16 radio frames (ie, UE transmits an HS-DPCCH every 160 ms)

2)32無線電訊框之DRX循環2) 32 radio frame DRX cycle

3)移入100 ms之DRX的不活動時間3) Inactivity time of DRX moved into 100 ms

4)500 ms之第二不活動時間,其中UE移入延伸的DRX4) Second inactivity time of 500 ms, where the UE moves into the extended DRX

5)128訊框之延伸的DRX循環5) Extended DRX cycle of 128 frames

6)400 ms之最大的CQI更新週期臨限值(亦即,其被隔離400 ms以上的CQI更新是不可接受的)6) The maximum CQI update period threshold of 400 ms (ie, CQI updates that are isolated more than 400 ms are unacceptable)

如範例1中所示,NB以16訊框之DTX循環開始HS-DPCCH DTX,如圖3中所示。在不活動計時器之後,UE移入DRX,如圖6中所示,其中UE於每32訊框醒來以收聽可能的接收。為了縮小UE醒來時間以傳輸及/或接收(並使電池節省最大化),UE可操作以使其HS-DPCCH DTX循環同步與DRX之循環,而因此每當UE從DRX循環醒來時僅傳輸一HS-DPCCH。於此所述之實施例中,UE HS-DPCCH DTX循環從16訊框增加至32訊框。注意:UE可移入更長的DTX循環(例如,64訊框),但於本範例中,UE具有盡可能接近於16訊框之原始循環的DTX循環被認為較有利的。As shown in Example 1, NB starts HS-DPCCH DTX with a 16-frame DTX cycle, as shown in FIG. After the inactivity timer, the UE moves into DRX, as shown in Figure 6, where the UE wakes up every 32 frames to listen for possible reception. In order to reduce UE wake-up time for transmission and/or reception (and maximize battery savings), the UE can operate to cycle its HS-DPCCH DTX cycle with DRX, and thus whenever the UE wakes up from the DRX cycle only Transfer an HS-DPCCH. In the embodiment described herein, the UE HS-DPCCH DTX cycle is increased from 16 frames to 32 frames. Note that the UE can move into a longer DTX cycle (eg, a 64 frame), but in this example, it is considered advantageous for the UE to have a DTX cycle that is as close as possible to the original cycle of the 16 frames.

有500 ms之不活動且UE移入延伸的DRX循環,如圖7中所示。為了同步與UE DRX循環,HS-DPCCH DTX 循環需為128訊框或1280 ms。此較400 ms之最大預定CQI更新週期更長。因為1280 ms之CQI更新不提供對於網路之任何利益,所以UE停止HS-DPCCH傳輸(亦即,停止HS-DPCCH活動)。在一些時間後,E-DCH上行鏈路傳輸(如圖7中之箭號所示)被傳送,且如此造成UE離開DRX狀態。因為無下行鏈路傳輸,所以UE無須於此實施方式中以HS-DPCCH來回應。然而,UE將重新開始其原本的HS-DPCCH DTX狀態並於每16訊框傳輸HS-DPCCH。There is 500 ms inactivity and the UE moves into the extended DRX cycle, as shown in Figure 7. In order to synchronize with the UE DRX cycle, HS-DPCCH DTX The loop needs to be 128 frames or 1280 ms. This is longer than the maximum scheduled CQI update period of 400 ms. Since the 1280 ms CQI update does not provide any benefit to the network, the UE stops HS-DPCCH transmission (ie, stops HS-DPCCH activity). After some time, the E-DCH uplink transmission (shown by the arrow in Figure 7) is transmitted and this causes the UE to leave the DRX state. Since there is no downlink transmission, the UE does not need to respond with HS-DPCCH in this embodiment. However, the UE will resume its original HS-DPCCH DTX state and transmit the HS-DPCCH every 16 frames.

應理解其實施例提供用以獲得增強Cell_FACH狀態下之UE的無線電狀況回饋之可能解決方式,而不減損UE電池節省以及頻道品質估計之可靠性。所提議之實施例不需要任何額外的DL頻道及功率,而因此可能更適於一細胞中之更多數目的UE操作於增強Cell_FACH狀態下。It will be appreciated that embodiments thereof provide a possible solution to obtain enhanced radio status feedback for UEs in the Cell_FACH state without detracting from UE battery savings and channel quality estimation reliability. The proposed embodiment does not require any additional DL channels and power, and thus may be more suitable for a greater number of UEs in a cell operating in an enhanced Cell_FACH state.

實施例可協助減少其利用起始HSDPA傳輸之最佳現存解決方式所需的延伸。如此增進系統之潛時。再者,實施例不需要任何新的碼或DL細胞功率,而因此可更佳地執行於其中一細胞中之大量UE使用增強Cell_FACH的情況。Embodiments may assist in reducing the extensions required to utilize the best existing solution for initial HSDPA transmission. This enhances the potential of the system. Furthermore, the embodiment does not require any new code or DL cell power, and thus can be better performed in the case where a large number of UEs in one of the cells use Enhanced Cell_FACH.

實施例提供HS-DPCCH之傳輸的解決方式,於增強Cell_FACH狀態下之UE的DL HSDPA不活動週期期間。Embodiments provide a solution for transmission of HS-DPCCH during enhanced DL HSDPA inactivity periods for UEs in the Cell_FACH state.

實施例可能需要對於3GPP標準之改變。此一對於標準之改變可包含依據如下之改變:Embodiments may require changes to the 3GPP standard. This change to the standard may include changes based on the following:

1 介紹1 Introduction

WI被同意於(1)中以進一步增強Cell_FACH狀態。增進之部分係如下:The WI is agreed to in (1) to further enhance the Cell_FACH state. The enhancements are as follows:

。資源利用、傳輸量、潛時及覆蓋之下行鏈路相關的增進. Link-related enhancements in resource utilization, throughput, latency and coverage

。資源利用、傳輸量、潛時及覆蓋之上行鏈路相關的增進. Uplink related enhancements in resource utilization, throughput, latency and coverage

。UE電池壽命增進及發信減少. UE battery life improvement and signaling reduction

此貢獻將集中在下行鏈路相關的增進,特別是在HS-DPCCH之有效率傳輸。This contribution will focus on downlink-related enhancements, especially in the efficient transmission of HS-DPCCH.

2 討論2 Discussion

HS-DPCCH實體頻道攜載關於HS-DSCH流量之CQI、PCI及HARQ ACK/NACK。因為MIMO未被使用於Cell_FACH,所以只有CQI及HARQ ACK/NACK相關於此WI。於Rel-8,HS-DPCCH回饋被引入Cell_FACH,以達成頻繁的CQI及HARQ ACK/NACK。如此容許NB排程其吻合頻道RF狀況之HS-DSCH運輸區塊,並致能HARQ程序更有效率地作用(相較於Cell_FACH中之預Rel-8 HS-DSCH實施)。The HS-DPCCH physical channel carries CQI, PCI and HARQ ACK/NACK for HS-DSCH traffic. Since MIMO is not used for Cell_FACH, only CQI and HARQ ACK/NACK are associated with this WI. At Rel-8, HS-DPCCH feedback is introduced into Cell_FACH to achieve frequent CQI and HARQ ACK/NACK. This allows the NB to schedule the HS-DSCH transport block that matches the channel RF condition and enables the HARQ procedure to function more efficiently (compared to the pre-Rel-8 HS-DSCH implementation in Cell_FACH).

於Rel-8,HS-DPCCH僅在假如有關於共同E-DCH資源之UL DCCH或DTCH傳輸時被傳輸。因為UL DCCH/DTCH之傳輸不一定遵循DL DCCH/DTCH傳輸(特別是假如DL傳輸處於RLC UM模式時),所以如此導致 HARQ ACK/NACK之缺乏及CQI之不足,其減少HS-DSCH資源之有效率的使用。同時,HS-DSCH傳輸可能發生在UL DCCH/DTCH傳輸前(或在長時期的UL不活動之後),而若無CQI,則使用根據無線電狀況之不良(或盲目)且通常樂觀的估計之HS-DSCH運輸區塊尺寸。再者,UL DCCH/DTCH之傳輸不一定導致HS-DSCH之傳輸而因此不使用HS-DPCCH封包(用於CQI傳輸)。At Rel-8, the HS-DPCCH is transmitted only if there is a UL DCCH or DTCH transmission for a common E-DCH resource. Because the transmission of UL DCCH/DTCH does not necessarily follow the DL DCCH/DTCH transmission (especially if the DL transmission is in RLC UM mode), this leads to The lack of HARQ ACK/NACK and the lack of CQI reduce the efficient use of HS-DSCH resources. At the same time, the HS-DSCH transmission may occur before the UL DCCH/DTCH transmission (or after a long period of UL inactivity), and if there is no CQI, the HS based on the bad (or blind) and usually optimistic estimate of the radio condition is used. -DSCH transport block size. Furthermore, the transmission of the UL DCCH/DTCH does not necessarily result in the transmission of the HS-DSCH and therefore does not use the HS-DPCCH packet (for CQI transmission).

於(2)中提議移除HS-DPCCH傳輸與UL DCCH/DTCH傳輸之依存性。反之,HS-DPCCH應被傳輸在每當下行鏈路HS-DSCH封包被傳輸時。如此確保HARQ ACK/NACK總是被傳輸於每一HS-DSCH封包,且CQI被提供給後續封包。The dependency of the HS-DPCCH transmission and the UL DCCH/DTCH transmission is proposed to be removed in (2). Conversely, the HS-DPCCH should be transmitted whenever the downlink HS-DSCH packet is transmitted. This ensures that the HARQ ACK/NACK is always transmitted to each HS-DSCH packet and the CQI is provided to subsequent packets.

提議1:HS-DPCCH傳輸應獨立於UL DCCH/DTCH傳輸Proposal 1: HS-DPCCH transmission should be independent of UL DCCH/DTCH transmission 提議2:送至UE之HS-DSCH傳輸應接續以一來自UE之HS-DPCCH傳輸Proposal 2: HS-DSCH transmission to the UE shall be followed by an HS-DPCCH transmission from the UE

在一段不活動時期後之第一HS-DSCH封包可能需根據舊CQI或根據無線電狀況之盲目估計而被傳輸。之後,HS-DPCCH將被傳輸如上述之提議2。此對低流量活動而言是可接受的。因為智慧型手機流量在本質上可能是突發的,所以其將可能被置於增強Cell_FACH。隨著Cell_FACH中之UE的數目增加及其流量活動增加,突發流量之本質將導致許多(第一)HS-DSCH傳輸而無準確的CQI。再者,NB通常需要一些CQI更新以平均即時無線 電頻道狀況,而因此,最佳地以適當的運輸區塊尺寸來排程UE。於(3)中,提議其HS-DPCCH被傳輸所有時刻且此係使用HS-SCCH順序。此方式應被進一步調查且應避免傳輸過量的HS-DPCCH。The first HS-DSCH packet after a period of inactivity may need to be transmitted according to the old CQI or blind estimation based on radio conditions. Thereafter, the HS-DPCCH will be transmitted as proposed in the above proposal 2. This is acceptable for low traffic activities. Because smart phone traffic may be bursty in nature, it will likely be placed in Enhanced Cell_FACH. As the number of UEs in Cell_FACH increases and their traffic activity increases, the nature of burst traffic will result in many (first) HS-DSCH transmissions without accurate CQI. Furthermore, NB usually needs some CQI updates to average instant wireless The electrical channel condition, and therefore, the UE is optimally scheduled with the appropriate transport block size. In (3), it is proposed that its HS-DPCCH is transmitted all the time and this is the HS-SCCH sequence. This approach should be investigated further and excessive HS-DPCCH should be avoided.

3 結論3 Conclusion

於此貢獻中,係討論增進HS-DPCCH傳輸之效率。In this contribution, we discuss the efficiency of improving HS-DPCCH transmission.

其提議:Its proposal:

提議1:HS-DPCCH傳輸應獨立於UL DCCH/DTCH傳輸Proposal 1: HS-DPCCH transmission should be independent of UL DCCH/DTCH transmission

提議2:一送至UE之HS-DSCH傳輸應接續以一來自UE之HS-DPCCH傳輸Proposal 2: The HS-DSCH transmission sent to the UE should be followed by an HS-DPCCH transmission from the UE.

參考文獻references

[1] R2-110436, “Further Enhancements to CELL_FACH,” Ericsson, ST-Ericsson, Qualcomm Inc., RAN#51[1] R2-110436, “Further Enhancements to CELL_FACH,” Ericsson, ST-Ericsson, Qualcomm Inc., RAN#51

[2] R1-105979, “HS-DPCCH Transmission in Enhanced CELL_FACH,” Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, RAN1#63[2] R1-105979, “HS-DPCCH Transmission in Enhanced CELL_FACH,” Alcatel-Lucent, Alcatel-Lucent Shanghai Bell, RAN1#63

[3] R2-110890, “Introducing further enhancements to CELL_FACH operation,” Qualcomm Inc., RAN2#73[3] R2-110890, “Introducing further enhancements to CELL_FACH operation,” Qualcomm Inc., RAN2#73

熟悉本項技術人士將輕易地理解其各種上述方法之步驟可由編程的電腦來執行。於此,一些實施例亦應涵蓋程 式儲存裝置,例如,數位資料儲存媒體,其為機器或電腦可讀的並且係將指令之機器可執行或電腦可執行程式編碼,其中該些指令係執行該些上述方法之某些或所有步驟。程式儲存裝置可為(例如)數位記憶體、磁性儲存媒體(諸如磁碟及磁帶)、硬碟驅動器、或光學可讀式數位資料儲存媒體。實施例亦應涵蓋其被編程以執行上述方法之該些步驟的電腦。Those skilled in the art will readily appreciate that the steps of the various methods described above can be performed by a programmed computer. Here, some embodiments should also cover the process. Storage device, for example, a digital data storage medium readable by a machine or computer and encoded by a machine executable or computer executable program of instructions, wherein the instructions perform some or all of the steps of the above methods . The program storage device can be, for example, a digital memory, a magnetic storage medium (such as a magnetic disk and a magnetic tape), a hard disk drive, or an optically readable digital data storage medium. Embodiments should also encompass computers that are programmed to perform these steps of the above methods.

圖形中所示之各種元件的功能(包括標示為「處理器」或「邏輯」之任何功能性區塊)可透過使用專屬硬體以及能夠執行與適當軟體關聯之軟體的硬體而提供。當由處理器提供時,該些功能可由單一專屬處理器、由單一共用處理器、或者由複數個別處理器(其可為共用的)所提供。再者,術語「處理器」或「控制器」或「邏輯」之明確使用不應被視為專指能夠執行軟體之硬體,而可隱含地包括(非限制)數位信號處理器(DSP)硬體、網路處理器、應用特定的積體電路(ASIC)、場可編程閘極陣列(FPGA)、用於儲存軟體之唯讀記憶體(ROM)、隨機存取記憶體(RAM)、及非揮發性儲存。其他硬體(傳統的及/或訂製的)亦可被含入。類似地,圖形中所示之任何開關僅為概念上的。其功能可透過程式邏輯之操作、透過專屬邏輯、透過程式控制與專屬邏輯之互動、或甚至手動地而被執行,隨著從上下文更明確地理解則特定技術可由實施者所選擇。The functions of the various components shown in the figures, including any functional blocks labeled "processor" or "logic", may be provided through the use of proprietary hardware and hardware capable of executing software associated with the appropriate software. When provided by a processor, the functions may be provided by a single dedicated processor, by a single shared processor, or by a plurality of individual processors (which may be common). Furthermore, the explicit use of the terms "processor" or "controller" or "logic" shall not be taken to mean a hardware capable of executing software, but may implicitly include (non-limiting) digital signal processors (DSPs). Hardware, network processor, application-specific integrated circuit (ASIC), field programmable gate array (FPGA), read-only memory (ROM) for storing software, random access memory (RAM) And non-volatile storage. Other hardware (traditional and/or custom) may also be included. Similarly, any of the switches shown in the figures are conceptual only. Its functions can be performed through the operation of the program logic, through the exclusive logic, through the interaction of the program control with the exclusive logic, or even manually. The specific techniques can be selected by the implementer as the context is more clearly understood.

那些熟悉本項技術人士應理解此處之任何方塊圖代表 其實施本發明之原理的說明性電路之概念視圖。類似地,應理解任何流程圖、程序圖、狀態轉變圖、虛擬碼等等代表其可實質上表示於電腦可讀式媒體中且由電腦或處理器所執行之各種程序,無論此電腦或處理器是否明確地顯示。Anyone familiar with this technology should understand that any block diagram here represents A conceptual view of an illustrative circuit that implements the principles of the present invention. Similarly, it should be understood that any flowchart, program diagram, state transition diagram, virtual code, etc., represent various programs that can be substantially represented in a computer readable medium and executed by a computer or processor, whether or not the computer or processing Whether the device is explicitly displayed.

發明說明及圖式僅顯示本發明之原理。因此應理解那些熟悉本項技術人士將能夠設想各種配置,其(雖未明確地說明或顯示於此)實施本發明之原理且被包括於其精神和範圍內。再者,此處所引述之所有範例主要是明確地想要僅供教導的目的以協助讀者瞭解本發明之原理及發明人所貢獻之概念而增進本技術,且應被視為不限於此處明確描述的範例及條件。此外,此處描述本發明之原理、形態、及實施例的所有聲明、以及其特定的範例是為了包含其同等物。The description and drawings are merely illustrative of the principles of the invention. It will thus be appreciated that those skilled in the art will be able to devise various embodiments, which are not intended to be Furthermore, all of the examples cited herein are intended to be illustrative only and to assist the reader in understanding the principles of the present invention and the concepts of the inventors. Examples and conditions described. Moreover, all statements herein reciting principles, aspects, and embodiments of the invention, as well as specific examples thereof, are intended to include equivalents thereof.

10‧‧‧無線電訊系統10‧‧‧Telecom system

20‧‧‧基地站20‧‧‧Base Station

30‧‧‧區域30‧‧‧Area

40‧‧‧無線電網路控制器40‧‧‧ Radio Network Controller

50‧‧‧使用者設備50‧‧‧User equipment

60‧‧‧回載通訊鏈路60‧‧‧Return communication link

現在將參考後附圖形以進一步描述本發明之實施例,其中:圖1說明依據一實施例之無線電訊網路的主要組件;圖2說明適用於圖1之無線電訊網路的使用者設備之一組無線電資源控制狀態;及圖3至7圖式地說明用於圖1之無線電訊網路的無線電狀況詢問方法之各種範例實施方式。The embodiments of the present invention will now be further described with reference to the following drawings in which: FIG. 1 illustrates the main components of a radio network in accordance with an embodiment; FIG. 2 illustrates a user equipment suitable for use in the radio network of FIG. A set of radio resource control states; and Figures 3 through 7 illustrate various example implementations of radio condition interrogation methods for the radio network of Figure 1.

Claims (15)

一種獲得無線通訊網路中正由操作於Cell_FACH(forward access channel,前存取式通道)或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示之方法,該方法包含下列步驟:決定回饋循環之參數,該使用者設備係依據該回饋循環而可操作以週期性地傳輸該使用者設備上之無線電狀況的指示;傳輸該些回饋循環參數之指示至該使用者設備;及監督無線電狀況之該週期性傳輸的指示之接收。 A method for obtaining an indication of a radio condition experienced by a user equipment operating in a Cell_FACH (forward access channel) or enhanced Cell_FACH state in a wireless communication network, the method comprising the steps of: determining a parameter of a feedback loop The user equipment is operable to periodically transmit an indication of a radio condition on the user equipment in accordance with the feedback loop; transmit an indication of the feedback loop parameters to the user equipment; and monitor the period of the radio condition Reception of instructions for sexual transmission. 如申請專利範圍第1項之方法,其中該些參數包含無線電狀況指示的相鄰傳輸之間的週期之指示。 The method of claim 1, wherein the parameters include an indication of a period between adjacent transmissions of the radio condition indication. 如申請專利範圍第1項之方法,其中該決定之步驟包含:核對有關該使用者設備是否操作於快速或緩慢頻道上的資訊、及依據該頻道速度以決定該些回饋頻道參數之至少一者的步驟。 The method of claim 1, wherein the determining step comprises: checking information about whether the user equipment operates on a fast or slow channel, and determining at least one of the feedback channel parameters according to the channel speed A step of. 如申請專利範圍第1項的方法,其中該些參數包含關於無線電狀況指示的相鄰傳輸之間的週期之該指示的上限之指示。 The method of claim 1, wherein the parameters include an indication of an upper limit of the indication of a period between adjacent transmissions of the radio condition indication. 如申請專利範圍第4項之方法,其中該上限是根據該使用者設備之實體移動的速度之指示而決定。 The method of claim 4, wherein the upper limit is determined based on an indication of a speed at which the user device moves. 如申請專利範圍第1項的方法,其中該些回饋循環參數之該指示被提示給使用者設備之一族群。 The method of claim 1, wherein the indication of the feedback loop parameters is prompted to a group of user devices. 一種當執行於電腦上時可操作以實行申請專利範圍 第1至6項之任一項的方法的電腦程式產品。 An operation that can be performed to implement a patent application when executed on a computer A computer program product of the method of any one of items 1 to 6. 一種可操作以獲得無線通訊網路中正由操作於Cell_FACH(forward access channel,前存取式通道)或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示之基地站,該基地站包含:決定邏輯,其可操作以決定一回饋循環之參數,該使用者設備係依據該回饋循環而可操作以週期性地傳輸該使用者設備上之無線電狀況的指示;傳輸邏輯,其可操作以傳輸該些回饋循環參數之指示至該使用者設備;及監督邏輯,其可操作以監督無線電狀況之該週期性傳輸的指示之接收。 A base station operable to obtain an indication of a radio condition experienced by a user equipment operating in a Cell_FACH (forward access channel) or enhanced Cell_FACH state in a wireless communication network, the base station comprising: decision logic Operative to determine a parameter of a feedback loop operative according to the feedback loop to periodically transmit an indication of a radio condition on the user equipment; transmission logic operable to transmit the An indication of the loop parameter is fed back to the user equipment; and supervisory logic operable to monitor receipt of the indication of the periodic transmission of the radio condition. 一種傳輸無線通訊網路中正由操作於Cell_FACH(forward access channel,前存取式通道)或增強Cell_FACH狀態之使用者設備所經歷之無線電狀況的指示之方法,該方法包含下列步驟:監督回饋循環參數之指示的接收;及依據回饋循環參數之該接收的指示以週期性地傳輸正由該使用者設備所經歷之無線電狀況的指示。 A method of transmitting an indication of a radio condition experienced by a user equipment operating in a Cell_FACH (forward access channel) or enhanced Cell_FACH state in a wireless communication network, the method comprising the steps of: supervising feedback loop parameters Receiving the indication; and indicating the receipt of the feedback loop parameter to periodically transmit an indication of the radio condition being experienced by the user equipment. 如申請專利範圍第9項之方法,包含以下步驟:監督下行鏈路資料流量之接收;及假如接收到下行鏈路資料流量的話,便在接收該下行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。 The method of claim 9, comprising the steps of: supervising the reception of downlink data traffic; and if receiving downlink data traffic, implementing the radio frame while receiving the downlink data traffic The transmission of the indication of the radio condition in the medium. 如申請專利範圍第9項之方法,包含以下步驟: 決定有待傳輸之上行鏈路資料流量並在傳輸該上行鏈路資料流量的同時實施各無線電訊框中的無線電狀況之指示的傳輸。 For example, the method of claim 9 includes the following steps: The uplink data traffic to be transmitted is determined and the transmission of the indication of the radio condition in each radio frame is carried out while transmitting the uplink data traffic. 如申請專利範圍第9項之方法,包含以下步驟:決定該使用者設備是否操作於間斷接收模式並調整該些回饋參數內之該回饋循環以符合該間斷接收模式之操作參數。 The method of claim 9, comprising the steps of: determining whether the user equipment operates in the discontinuous reception mode and adjusting the feedback loop within the feedback parameters to conform to the operational parameters of the intermittent reception mode. 如申請專利範圍第9項之方法,其中無線電狀況之該指示被測量且被傳輸一次以上於該回饋循環之各傳輸。 The method of claim 9, wherein the indication of the radio condition is measured and transmitted more than once for each transmission of the feedback loop. 一種當執行於電腦上時可操作以實行申請專利範圍第9至13項之任一項的方法之電腦程式產品。 A computer program product that is operable to perform the method of any one of claims 9 to 13 when executed on a computer. 一種可操作以傳輸無線通訊網路中正由操作於Cell_FACH(forward access channel,前存取式通道)或增強Cell_FACH狀態之該使用者設備所經歷之無線電狀況的指示之使用者設備,該使用者設備包含:監督邏輯,其可操作以監督回饋循環參數的指示之接收;及傳輸邏輯,其可操作以依據回饋循環參數之該接收的指示而週期性地傳輸正由該使用者設備所經歷之無線電狀況的指示。A user equipment operable to transmit an indication of a radio condition experienced by the user equipment operating in a Cell_FACH (forward access channel) or enhanced Cell_FACH state in a wireless communication network, the user equipment comprising : supervisory logic operable to supervise receipt of an indication of a feedback loop parameter; and transmission logic operable to periodically transmit a radio condition being experienced by the user equipment in accordance with the received indication of the feedback loop parameter Instructions.
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