TWI337030B - Method for scheduling transmissions via an enhanced dedicated channel - Google Patents

Description

9.April revised replacement page IX. Description of the invention: ^--- [Technical field to which the invention pertains] The present invention relates to a wireless communication system. More particularly, the present invention relates to an enhanced dedicated channel (E-DCH) scheduling method and apparatus. [Prior Art] The method of improving the uplink (UL) coverage, output and transmission latency is currently being investigated in the 3rd Generation Partnership Project (3GPP). In order to achieve these goals, Enhanced Uplink (EU) transmission has been proposed in the Third Generation Partnership Project, where the uplink resource (ie physical channel) control (ie scheduling and dispatching) is from the wireless network controller ( RNC) is moved to the Β node. ....叮V~, '小叮w Μ人普通(ί), side media access control (MAC) architecture 100. Wireless Transmit/Receive Unit-side Media Access Control Architecture 100 includes - / -es/Media Access Control_e Entity 1〇5, which includes two different independent sub-layer entities for media access control. Media access control _es/_e Functional media access control functionality is split into applicable land helmet line access networks (UTRA_wire. Wireless transmission/pure unit side media access control architecture (10) step-by-step - High Speed Media Access Control Entity (10) '-Media Access Control - c/sh 115, - Dedicated Walker Media Access Control (MAC-d) 120 and a Media Access Control Service Access Media Access (4) _e/ Shll5 can control access to all shared transmission channels except for the high speed: chain common channel (HS-DSCH) 145. The access control 120 can control access to all dedicated transmission frequencies = ^ body access control · e / sh 115 and Media access control · hsll0. Media access control 0 0 can (4) access high-speed τ chain shared channel 145., 1337030 叶 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日 日The control access enhanced special (four) track 13G 'by this media access control capture dm can be accessed by the connection 135 access enhanced dedicated channel 13G, and the media access control SAP 125 can access the enhanced dedicated channel 丨% via the connection 14〇.

Fig. 1B shows a conventional wireless transmission/reception unit access f to perform interworking. As shown in Figure 1B, the no-route (four) (RLC) Association Unit (PDU) is on the logical channel to take control of -d. Media access control _e header, data description indicator sub-field (6-bit) shooting logic touch, media / / media access control - d agreement data unit size. Map two-machine and source control (RRC) money transmission on the secret to enable the wireless transmission ten receiving funds to set the data description indicator value. The N field (6-bit solid early 兀 corresponds to the same data to indicate the indicator value of the continuous media storage data unit number. The data description indicator block special value system ^ Association data is included in the media access control · 6 agreement :,7"not without

:. The Transmission Sequence Number (TSN) field (6-bit) provides the transmission sequence = 2 shown on the enhanced dedicated channel 13G. The media access control, e-association; 2 is forwarded to the hybrid automatic repeat request (H_ARQ) entity, and the media access control < protocol data unit to layer i is transmitted in the T1 time zone (TTI) .一 = = 构 构 构 构 专用 专用 专用 专用 专用 专用 专用 专用 专用 专用 专用 专用 专用 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 The scheduling power is calculated for the scheduled data stream. Remaining transmission work ^ 6 months / 4 曰 correction replacement page Ϊ The needle pass wheel is calculated. The rate requirement message is generated, and the remaining transmission power and rate requirement messages are used to enhance the TFCS and multiplex scheduling. The remaining transmission power is controlled by the maximum allowable power channel (DPDCH), the dedicated entity controls the channel dedicated physical entity control channel (to the fee), and the power and power margin of the enhanced channel ((C) CCH). Embodiments] Hereinafter, the 'wireless transmitting/receiving unit' includes, but is not limited to, a User Equipment (UE), a mobile station, a fixed or mobile subscriber unit, a pager, or any other type of user operable in a wireless environment. Device. Thereafter, % is a '’B node, and the noun includes, but is not limited to, a base station, a location controller, an access point, or any other interface device in a wireless environment. Thereafter, the 'media access control_e' noun will be used in conjunction with the physical access control-e and media access control. The characteristics of the present invention can be incorporated into the integrated circuit (1C) or configured. In a circuit comprising a plurality of interconnected components. _ Figure 2 shows a wireless transmit/receive single-chip media access control _e architecture 2 configured in accordance with the present invention. Wireless transmit/receive unit media storage e yji The 200 series includes a schedule license processing unit 210, a callback power calculation unit 215 and a rate request processing unit 22. The exhaust license processing unit 21 can be at least one row from at least one radio link group (RLS). The license and driver currently schedules the license. The license can be used to enhance the dedicated channel of the service with the primary and secondary identifiers. The replacement page is accepted as an absolute license 225 (that is, enhanced dedicated channel wireless) The Network Temporary Identifier (E-RNTI) is used to determine whether the absolute license is primary or - the person wants to be ''Service-Enhanced Private Channels. The wireless-key group is received by the relative-quot; T 23 0 or from the non-service hardening Dedicated channel wireless link is connected The relative permission 235 ^ scheduling permission processing unit 210 may output a signal 240 indicating the scheduled power amount used for the enhanced transmission format combination selection and the multiplex function for scheduling the data medium access control-d stream. The amount of power can be identified as the ratio of the channel power to the dedicated entity. For example, if the dedicated entity controls the channel power to be p, the scheduled power amount has a ratio of 2 to the dedicated entity control channel power. The scheduled power amount is 2P. Alternatively, the scheduled power amount can be identified as the maximum transmission power for the scheduled format control selection and multiplex function for the dedicated format control channel power measurement for the scheduling data. If the dedicated entity controls the channel power must be propagated Different entities within the media access control have processing expenditures because of their rapid changes. Moreover, synchronizing the time points is complicated. Therefore, because other scheduling related functions require the purpose of cutting the dedicated channel control channel power knowledge, Therefore, only one of the media access control _e that is aware of the power of the dedicated entity to control the channel is better. When the media access control When the -e entity 105 motivates the media access control function, the schedule license processing unit 21 may determine the current service license. The entity layer may provide an absolute license 225 received from the AGCH, indicating the license to be used primarily or secondaryly. The channel wireless network temporary identifier is received. The physical layer also provides a relative permission 230 ' 235 received from each wireless link group, indicating that the wireless link group is a service enhanced dedicated channel wireless 97 year 邺曰 邺曰 替换 correction replacement page key The road group also or non-service enhanced dedicated channel radio link. Absolute permission 225>f is sent as the ratio of the control channel power to the current uplink dedicated entity. It is mainly used to strengthen the dedicated channel wireless network temporary identifier. License 225 always resets the current service license. If the previous temporary f-specific private channel wireless network temporary identifier or license setting is zero, then the absolute permission of the secondary enhanced private channel wireless network temporary identifier is only valid for the current service license. The service license is adjusted by the relative license of the non-service enhanced dedicated channel wireless link 230 ^ step or step down. Non-service enhanced dedicated channel ^ The relative license of the service group can only reduce the service license. When the relative permission of the radio link group from the dedicated channel is downwardly connected, the hysteresis (four) is detected during the period when the other relative permissions are ignored. The round power calculation unit 215 can receive the estimated physical layer. Take the signal 245 of the channel power control channel, mark the combination of the special (four) channel transmission format selected by the media two system-d or the signal heart of the dedicated entity data channel power measured by the physical sound, which can be used as a high speed The dedicated entity controls the channel active signal 2 2 standard: T MF; The source controller (the RRQ configures the lower layer management entity (LLME) to take the large allowable power (with power margin) letter ^ two-speed dedicated entity control channel For active, its power (and power from other frequencies = must be calculated from the maximum power drawn to determine the remaining = 245, 250, 255 and 260, the remaining transmission power can be outputted according to the following equation (1) is calculated = Correction of the replacement page rate (Premain) signal 265 in the afternoon/now of 1997:

Premain _ Pallowed — PDPDCH — PDPCCH — PHS-DPCCH P e-dpcch — Margin ; Equation (1) where Pdpcch 5 Pdpdch > Phs-dpcch and Pe-DPCCH represent dedicated entity control channels, dedicated entity data channels, high-speed dedicated The entity controls the channel and strengthens the power requirements of the uplink dedicated entity control channel. The rate requirement processing unit 220 can monitor the triggering of the rate requirement and trigger the scheduling information rate request when the triggering event occurs. The rate requirement processing unit 220 can provide logic to trigger rate requirements and logic to construct a rate requirement message 270 containing rate requirement bits. When there is no current scheduling permission and is received when new data is mapped to the logical channel of the enhanced dedicated channel, the rate requirement can be triggered, and the higher priority and the last reported new data is received and mapped. To the logical channel of the enhanced dedicated channel, when there is no current scheduling permission and the rate requirement is updated and periodically generated (which is configured by the radio resource controller), and when the serving radio link group acknowledgement (ACK) is not due to the previous When received by the transmission rate request, an updated rate requirement is generated. The rate requirement includes the total buffer occupancy of all scheduled media access control-d streams, the highest priority data buffer usage of any media access control-d stream, and the enhanced power headroom available for dedicated channel transmission. Referring to Fig. 3, the media access control-e scheduling process 300 is explained as follows. The enhanced dedicated channel transmission time zone is monitored, and it determines whether the scheduled information rate request triggers the occurrence and/or whether there is an enhanced dedicated channel material with a 9 V·month/noon correction replacement page license (step 3〇2) . If no rate request triggers or does not enhance dedicated channel data, then the process waits until the next transmission time segment. If the decision at step 3〇2 is affirmative, then further decide whether there is available hybrid automatic repeat request processing (step 3〇4). Before enhancing the transport format combination selection and enhancing the transmission of dedicated channel data, it is necessary to mix automatic repeat requirements to handle availability. If no hybrid automatic repeat request processing is available, then process 300 waits until the next transmission time segment. If the hybrid automatic repeat request processing is determined to be available at step 3〇4, the current schedule permission and remaining transmission power calculation are respectively requested from the exclusive license processing unit 21 and the remaining transmission power calculation unit 215 (step 3〇6). ). In step 308, the media access control control function illuminates the schedule and enhances the transport format combination selection function to generate a media access control protocol data unit. In step 310, the media access control < protocol data unit is then forwarded to the available hybrid automatic repeat request processing with the unique power offset and retransmission maximum number. In a separate embodiment that satisfies the media access control protocol data unit forming point requirements, the possible media access control protocol data units that speed up the forming process are pre-calculated. When the media access control entity is required to perform enhanced dedicated channel transmission with the remaining power budget, the forming process searches for the pre-formed media access control <agreement data unit table (ie, its (four) body access control m (four) unit header And the appropriate data block block data unit), providing ready-made information to the hybrid automatic repeat request / physical layer. There are several ways to do this depending on the point of time requirements. 1337030 _ * ‘9 辨月兮曰 correction replacement page Fig. 4 shows an example of a pre-processed media access control-e protocol data unit format configured in accordance with the present invention. The pre-processed media access control-e-protocol data unit format contains a power budget that enhances the dedicated channel or equivalent, and is best suited to the fully formatted media access control-e-protocol data unit header of the budget or equivalent. Transmission Sequence Number (TSNs) and data block indicator list, schedule information and padding bits. The power budget for enhanced dedicated channels contains several expected powers or equivalents based on the final transmission power and current possible predictions. The media access control-e-protocol data unit header is formatted based on the budget and the priority of the tribute on the same column. The fully formatted media access control-e-protocol data unit header is described in terms of logical channel prioritization, and is considered for scheduled and non-scheduled data and budget to describe the media access control-e protocol data unit. The header contains a data description indicator, N and a data description indicator terminator. The media access control-es protocol data unit description containing the transmission sequence number and the data index of the media access control-es is corresponding to the same column preformatted protocol data unit header. If the schedule information exists, it can be combined with the Media Access Control-e Agreement Data Unit. The padding bit indicates the number of bits that are filled at the end of the media access control-e protocol data unit for that particular column. Full formatting allows you to use some of the following information: Enhance the power budget for dedicated channels or equivalents, data description indicators, scheduled or non-scheduled. Such lists are based on data prioritization. Each column is a media access control-d stream (Media Access Control - es protocol data unit). The power budget is listed for the expected power budget. The data description indicator represents the media access control - d stream identification, the logical channel 12 9 and the next day correction replacement page identifies and agrees the size of the data unit. Scheduled or Non-Scheduled Intercept Indications The data unit consumes a non-scheduled power budget or a scheduled power budget. Non-scheduled data can also be used with the scheduling information in the Media Access Control_e Agreement Data Unit. - While the features and elements of the present invention are described in a preferred embodiment in the preferred embodiments, the features and components are not required to be preferred of the preferred embodiments. Yuan ^ is used separately.丨丁心分,,,口口 [Simple description] Fine; ^ = Town is better _Combined _ Description to get more detailed frame @Show traditional wireless transmission / receiving unit _ body access control prior art media access Controlling the interactive operation, the media in the line transmitting/receiving unit is stored in the second embodiment of the present invention, and the wireless access is arranged in the flowchart of FIG. 3; and is the media access control-e scheduling processing according to the present invention. Prior Processing Media Access FIG. 4 shows an example of a format of a data unit that is controlled in accordance with the present invention. [Main component symbol description] DCH dedicated channel

DDI DPCCH Data Description Indicator Dedicated Entity Control Channel 1337030 Doosue Correction Replacement Page E Enhanced DPDCH Dedicated Entity Data Channel HS High Speed DSCH Downlink Shared Channel ID Identifier HARQ Hybrid Automatic Repeat Requirement N Field LLME Lower Management Entity • Opt Optional MAC Media Access Control P Power MAC-d Dedicated Channel Media Access Control PCCH Entity Control Channel PDU Protocol Data Unit RLC Radio Link Control RLS Wireless Link Group • RRC Radio Resource Control SAP Media Access Control TFC Transport Format Combination TSN Transmission Sequence number TTI transmission time section WTRU wireless transmission/reception unit 14

Claims (1)

...... _l »! ι·ι 外年,月勹日改本本Λ _ _ tj X. Patent application scope: Kind of in the wireless communication (four) system towel through - strengthen the special (four) road to schedule the data to lose The financial method includes: calculating one of the scheduled data streams; Ten different enhancements (four) channel transmission - residual transmission power; generating a rate requirement message; providing logic for triggering the rate requirement message; providing logic for constructing the rate requirement message, wherein the rate request message includes plural The rate requires a bit. ^ For example, the method of claiming the scope of the patent, wherein the scheduling power, the remaining transmission rate, and the rate requirement m are used to select a transmission format combination and multiplex data of the scheduling of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The method of claim 2, wherein the at least one scheduling license received from the at least one wireless link group is calculated to calculate the scheduling power. The method of claim 3, wherein the method At least one schedule permission is an absolute permission received by an enhanced dedicated channel cell having a ± or a secondary identifier. 5 from the method of claim 3, wherein the at least one The schedule license is a relative license received by the & service enhanced dedicated channel radio link group. For example, the method of claim 3, wherein the at least one schedule license is a slave-non-service enhanced gateway wireless Chain-connected (four)-relative license. λ ^申^ Patent 1_ Item 2's method's towel_remaining transmission power is reduced by 攸-taken large allowable power-specific (four) material channel, - dedicated entity 15 1-337030 control channel, - idle dedicated entity control side channel, - strengthen the power and power tolerance of the uplink dedicated entity control channel to calculate. 8. For example, U Lifan (4) 2, wherein the rate request message indicates Any, read the special (four) road Body access channel data stream and the total buffer occupancy strengthening designed guandao available for transmission of information - such as the power headroom space domain application "Method 2 patentable scope month, wherein the reinforcing mapped to special The rate request message is triggered when the data is received in the face of the frequency C without the current schedule permission. ^If the method of claim 2 of the patent city is called, the transmission power of the fiber is: _ _ dedicated entity control _ channel power, - maximum allowable power, one input: cross-body control channel active identification and - enhanced dedicated channel transmission The format group a or - the estimated dedicated entity data channel power is calculated. 11. If you receive the _ last two high-quality ^^__ on a logical channel of the ancient and soil-specific channels in the second paragraph of the patent application scope, the rate will be triggered by the rate ^ 12. If you apply for the patent track 2 If the item is large, the torman = the request is updated and the situation is generated regularly, the method of triggering the second side of the method is triggered, in which the service is not received for the transmission rate request message for the first cutting. Next, an update rate request message is generated. Condition 16 1337030 ______ • r Correction of replacement page VII. Designation of representative map: (1) The representative representative figure of this case is: Figure 2. • (b) A brief description of the symbol of the representative figure: 8. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention: DCH dedicated channel DPCCH dedicated entity control channel DPDCH dedicated entity data channel 强化 enhanced HS high-speed LLME lower layer Management entity MAC media access control MAC-d dedicated channel media access control P power RLS wireless link group TFC transport format combination WTRU wireless transmit/receive unit 4