AU2015201196A1 - Method and System for Providing Channel Assignment Information used to Support Uplink and Downlink Channels - Google Patents

Abstract

A method and wireless communication system for providing channel assignment information used to support an uplink (UL) channel and a downlink (DL) channel. The system includes at least one Node-B and at least one wireless transmit/receive unit (WTRU). The WTRU communicates with the Node-B via a common control channel, the UL channel and the DL channel. The WTRU receives a message from the Node-B via the common control channel. The message includes an indication of whether the message is intended for assigning radio resources to the UL channel or the DL channel. The WTRU determines whether the message is intended for the WTRU and, if so, the WTRU determines whether the message is for assigning radio resources to the UL channel or the DL channel. The WTRU takes an appropriate action based on whether the message is for assigning radio resources to the UL channel or the DL channel.

Description

1 [0001] METHOD AND SYSTEM FOR PROVIDING CHANNEL ASSIGNMENT INFORMATION USED TO SUPPORT UPLINK AND DOWNLINK CHANNELS [0002] FIELD OF INVENTION [00031 The present invention is related to a wireless communication system. More particularly, the present invention is related to a method and system for providing channel assignment information to support uplink and downlink transmissions. (0004] BACKGROUND 10005) High speed downlink packet access (HSDPA) has been developed to increase downlink (DL) efficiency and throughput in universal mobile telecommunication system (UMTS) Release 5 (R5) wideband code division multiple access (W-CDMA) systems. The key advantages ofISDPA as compared to UMTS R99/R4 are fast and dynamic link adaptation in the DL and a fast layer 1 hybrid automatic repeat request (H-ARQ). Fast link adaptation is achieved by fast scheduling DL transmissions in a base station, coupled with fast layer 1 DL signaling channels. The signaling channel, a high speed shared control channel (HS-SCCH), conveys radio resource allocation information to a plurality of wireless transmit/receive units (WTRUs). [00061 In frequency division duplex (FDD), an HS-SC0H is sent by means of a spreading factor (SF) = 128 channelization code during a three (3) time slot transmission time interval (TTI). The HS-SCCH indicates that data would be transmitted to a WTRU on a high speed downlink shared channel (HS-DSCH) after a particular time offset. The HS-SCCH carries the following information: 1) channelization-code-set information (7 bits); 2) modulation scheme information (1 bit); 3) transport-block size information (6 bits); 4) H-ARQ process information (3 bits); 5) redundancy and constellation version (3 bits); 6) new data indicator (1 bit); and 7) a WTRU identity (16 bits). [00071 The HS-SCCH is sent over three (3) time slots (2 ms TTI), but consists of two (2) fields. Field 1 (first time slot) contains channelization code mapping and modulation format information; and field 2 (second and third time 2 slots) contains transport block size, H-ARQ information, redundancy version and a new data indicator along with a WTRU-specific cyclic redundancy check (CRC). [0008] Alternatively, an enhanced uplink (EU) increases uplink (UL) efficiency and throughput. H-ARQ and Node-B scheduling is part of the EU. Similar to an HSDPA, a new shared DL control channel for EU operation provides fast and dynamic allocation of UL radio resources for UL transmissions. The shared DL control channel for the EU needs to ensure low allocation latencies and efficient radio resources management for UL transmissions. Hereinafter, the shared DL control channel for the purposes of an EU is simply referred to as a UL resource assignment channel. [0009] In order to implement an EU along with an HSDPA, another UL resource assignment channel for the EU could be introduced on top of an existing HSSCCH for an HSDPA. Thus, it is possible to introduce a separate set of SF=128 DL channels as UL resource assignment channels. With this approach, a WTRU would be required to monitor one or more UL resource assignment channels in addition to the HS-SCCHs for an HSDPA operation. Although this approach is conceptually simple, there are many disadvantages with this scheme, such as WTRU complexity, WTRU battery efficiency, and DL spreading code usage. [0010] Therefore, an efficient EU channel assignment scheme is necessary for supporting both an EU and an HSDPA operation. SUMMARY OF THE INVENTION [0011] In accordance with the first aspect the present invention provides a method for utilizing channel control information associated with enhanced uplink (EU) transmission, implemented by a wireless transmit/receive unit (WTRU), the method including: receiving information via radio resource control (RRC) signaling; 3 slots) contains transport block size, H-ARQ information, redundancy version and a new data indicator along with a WTRU-specific cyclic redundancy check (CRC). [0008] Alternatively, an enhanced uplink (EU) increases uplink (UL) efficiency and throughput. H-ARQ and Node-B scheduling is part of the EU. Similar to an HSDPA, a new shared DL control channel for EU operation provides fast and dynamic allocation of UL radio resources for UL transmissions. The shared DL control channel for the EU needs to ensure low allocation latencies and efficient radio resources management for UL transmissions. Hereinafter, the shared DL control channel for the purposes of an EU is simply referred to as a UL resource assignment channel. [0009] In order to implement an EU along with an HSDPA, another UL resource assignment channel for the EU could be introduced on top of an existing HSSCCH for an HSDPA. Thus, it is possible to introduce a separate set of SF=128 DL channels as UL resource assignment channels. With this approach, a WTRU would be required to monitor one or more UL resource assignment channels in addition to the HS-SCCHs for an HSDPA operation. Although this approach is conceptually simple, there are many disadvantages with this scheme, such as WTRU complexity, WTRU battery efficiency, and DL spreading code usage. [0010] Therefore, an efficient EU channel assignment scheme is necessary for supporting both an EU and an HSDPA operation. [0011] SUMMARY OF THE INVENTION [0012] In accordance with a first aspect the present invention provides a wireless transmit/receive unit (WTRU) including: circuitry configured to receive control information over a physical downlink control channel; circuitry configured to determine whether the control information is intended for the WTRU based on WTRU identity-masked (ID-masked) cyclic redundancy check (CRC) bits; 3a circuitry configured to determine whether the control information is for assigning radio resources for an uplink shared channel or a downlink shared channel; and circuitry configured on a condition that the control information is determined to be for assigning radio resources for the uplink shared channel, to utilize the control information to transmit data over the uplink shared channel a predetermined number of time slots after reception of the control information. [0013] In accordance with a further aspect the present invention provides a method implemented by a wireless transmit/receive unit (WTRU) including: receiving control information over a physical downlink control channel; determining whether the control information is intended for the WTRU based on WTRU identity-masked (ID-masked) cyclic redundancy check (CRC) bits; determining whether the control information is for assigning radio resources for an uplink shared channel or a downlink shared channel; and on a condition that the control information is determined to be for assigning radio resources for the uplink shared channel, utilizing the control information for transmitting data over the uplink shared channel a predetermined number of time slots after reception of the control information. [0013a] In accordance with a further aspect the present invention provides a wireless transmit/receive unit (WTRU) including: circuitry configured to receive resource assignment information with a masked cyclic redundancy check (CRC) appended to the resource assignment information; circuitry configured to determine whether the masked CRC is derived from a first identifier or a second identifier, wherein the first identifier and the second identifier are associated with the WTRU, wherein the first identifier is associated with at least uplink resource assignment information and the second identifier is associated with only downlink resource assignment information; and circuitry configured, in response to the determination whether the masked CRC is derived from the first identifier or the second identifier, to utilize the 3b resource assignment information to initiate a data reception procedure or a data transmission procedure. [0013b] In accordance with yet another aspect of the present invention provides a method implemented by a wireless transmit/receive unit (WTRU) including: receiving resource assignment information with a masked cyclic redundancy check (CRC) appended to the resource assignment information; determining whether the masked CRC is derived from a first identifier or a second identifier, wherein the first identifier and the second identifier are associated with the WTRU, wherein the first identifier is associated with at least uplink resource assignment information and the second identifier is associated with only downlink resource assignment information; and in response to the determining whether the masked CRC is derived from the first identifier or the second identifier, utilizing the resource assignment information for initiating a data reception procedure or a data transmission procedure. [0014] BRIEF DESCRIPTION OF THE DRAWINGS [0015] A more detailed understanding of the invention may be had from the following description of a preferred example, given by way of example and to be understood in conjunction with the accompanying drawing wherein: [0016] Figure 1 is a block diagram of a wireless communication system operating in accordance with the present invention; [0017] Figure 2 is a look-up table for channelization code set mapping in an HSDPA, which is utilized in conjunction with the system of Figure 1; and [0018] Figure 3 is a flowchart of a process including method steps for implementing uplink channel assignment signaling in accordance with the present invention. [0019] DESCRIPTION OF PREFERRED EMBODIMENT [0020] The present invention will be described with reference to the drawing figures wherein like numerals represent like elements throughout.

3c [0021] Hereafter, the terminology "WTRU" includes but is not limited to a user equipment, a mobile station, a fixed or mobile subscriber unit, a pager, or another type of device capable of operating in a wireless environment. When referred to hereafter, the terminology "Node-B" includes but is not limited to a base station, a site controller, an access point or any other type of interfacing device in a wireless environment.

[0022] The present invention is applicable to any type of wireless communication systems such as UMTS-time division duplex (TDD) and FDD, time division synchronous code division multiple access (TDSCDMA), code division multiple access 2000 (CDMA 2000), and CDMA in general or any other type of wireless communication system. [00231 The features of the present invention may be incorporated into an integrated circuit (IC) or be configured in a circuit comprising a multitude of interconnecting components. [0024) The present invention will be described in reference to an HSDPA and an EU, and the terms HSDPA and EU are used interchangeably with DL and UL, respectively. However, it should be understood that the reference to an HSDPA and an EU is just for describing the preferred embodiment of the present invention, and the teachings of the present invention may be applied to any system for utilizing a common control channel for transmitting channel assignment information for both UL andDL transmissions simultaneously. [0025] Figure 1 is a block diagram of a system 100 for supporting UL and DL operations in accordance with the present invention. The system 100 includes an RNC 102, a Node-B 104, and a WTRU 106. The Node-B 104 is controlled by the RNC 102, and dynamically allocates radio resources for both UL and DL transmissions from and to the WTRU 106. Three channels are established between the Node-B 104 and the WTRU 106. The channels are a DL channel 108, a UL channel 110, and a common control channel 112. The common control channel 112 is utilized for transmission of channel assignment information for both UL and DL transmissions. [0026] The Node-B 104 is configured to support an HSDPA and EU operation. Therefore, each Node-B 104 dynamically allocates radio resources for DL and UL transmissions to and from the WTRU 106 through an HS-DSCH and an EU channel, respectively. The radio resources assignment information for both the HS-DSCH and the EU is transmitted through the common control channel 112. [00271 In accordance with the present invention, the common control channel 112 is utilized for the transmission of radio resources assignment -4information for both IL and DL transmissions and a specific indication is provided to distinguish whether the radio resource assignment is'for either UL or DL transmission. Therefore, the common control channel 112 occupies a shared DL radio resource space, as defined by a set of SF=128 channelization codes, for both DL and UL transmissions simultaneously, and the WTRU 106 is configured to recognize whether a particular transmission is intended for assigning radio resources for the DL or the UL transmissions. [0028] In accordance with a first embodiment of the present invention, an indication that a particular radio resource is assigned for a UL transmission is provided by means of one or more of the impossible combinations in the channelization code set mapping in a current HSDPA. Figure 2 is a look-up table for channelization code set mapping currently used in the HSDPA. An HS-SCCH uses seven (7) bits to inform the WTRU 106 which SF=16 channelization codes are used for the corresponding HS-DSCH. Out of the 128 possible combinations, eight (8) combinations are not currently used in an HSDPA (see the labeled "redundant area" in Figure 2). One or nore of the eight (8) unused combinations is used for assigning radio resources or indicating that the demodulated transmission is for LL transmission, not DL transmission. Therefore, if the WTRU 106 determines that a channelization-code-set corresponds to one of the impossible combinations of Figure 2, the WTRU 106 recognizes that the transmission is for assignment of radio resources for UL transmission, rather than DL transmission, or that the codes corresponding to the channelization code-set are assigned to UL transmissions. [00291 In accordance with a second embodiment of the present invention, an indication that a particular radio resource is assigned for UL transmission is provided by means of a WTRU-specific CRC. Under current HSDPA specifications, a WTRU-specific CRC is contained in an HS-SCCH field 2. A 16 bit CRC is computed from the information to be transmitted, and the computed CRC is masked with a unique 16-bit WTRU identity (ID). The masked CRC is transmitted to a WTRU 106 as a WTRU-specific CRC. [0030] In accordance with the second embodiment of the present invention, this WTRU-specific CRC is modified in a unique and deterministic way to -5indicate that the demodulated transmission is for UL transmission, rather than DL tnmission. For example, a WTRU-specific CRC computed for an HSDPA is inverted for an EU before performing a channel coding. A WTRU 106 performs two (2) different comparisons, preferably simultaneously, in performing a CRC of the received transmission. If the WTRU 106 succeeds in decoding the received transmission with a WTRU-specific CRC, the WTRU 106 recognizes that the transmission is intended for an HSDPA, and if the WTRU 106 succeeds in decoding the received transmission with an inverted WTRU-specific CRC, the WTRU 106 recognizes that the transmission is intended for an EU. [00311 In accordance with a third embodiment of the present invention, an indication that a particular radio resource is assigned for an EU is provided by means of a WTRU-specific masking sequence. Under current HSDPA specifications, a 40-bit sequence offleld 1 is masked with a 40-bit WTRU-specific intermediate code sequence which is generated from a 16-bit WTRU ID. [00321 In accordance with the third embodiment, the WTRU-specific masking on field 1 is modified in a uniqne and deterministic way to indicate that a transmission is intended for an EU, not for an HSDPA. For example, the inverted 16-bit CRC generated in the second embodiment may be used to derive the 40-bit long masking sequence. If the WTRU 106 succeeds in decoding the received transmission with a WTRU-specific masking sequence, the WTRU 106 recognizes that the transmission is intended for an HSDPA, and if the WTRU 106 succeeds in decoding the received transmission with an inverted WTRU specific masking sequence, the WTRU 106 recognizes that the transmission is intended for an EU. [0033f With this method, the WTRU 106 can make the distinction whether an EU or an HSDPA channel assignment has been transmitted after having received only field I of the HS-SCOCH transmission. 100341 Alternatively, WTRU Is are allocated by the network in such a way that a particular WTRU ID does not collide with another WTRU ID. For example, a first WTRU's inverted ID for EU may be used to indicate a second WTRTYs HSDPA service. Therefore, simultaneous detection of presence of a UL resource assignment channel and an HS-SCCH is facilitated. -6- [00351 In accordance with a fourth embodiment of the present invention, an indication that a particular radio resource is assigned for an EU is provided by means of radio resource control (RRC5 context signaling. Preferably, a Node-B 104 allocates separate radio resources for transmission of UL radio resources assignment and DL radio resources assignment. Alternatively, an RNC 102 allocates separate radio' resources for transmission of UL radio resources assignment and DL radio resources assignment by using RRC signaling messages. [00361 For example, an RRC signaling message from the RNC 102 may inform a WTRU 106 in which TTIs to expect an HS-SCCH or a UL resource assignment channel. Under current R5 HSDPA specifications, fifteen (15) time slots include one (1) frame, and three (3) time slots include one (1) TTI. "Even" TTIs may include, for example, time slots 2,4,6,8, 10, 12 and 14, and "odd" TTIs may include, for example, time slots 1, 3, 5, 7, 9, 11, 13 and 15. [0037] In accordance with the present invention, an RRC transmits signals indicating that a transmission in "even" TTIs is for an HS-SCCH and a transmission in "odd" TTIs is for a UL resource assignment channel. By not allowing a transmission for an HS-SCCH to be transmitted in "odd" TTIs, backwards compatibility with R5 WTRUs can be ensured. The same set of SF=128 resources can be used for an HS-SCCH and a UL resource assignment channel. [00381 In accordance with a fifth embodiment of the present invention, an indication that a particular radio resource is assigned for an EU is provided by means of layer 1 indication on an associated DL dedicated channel (DCH). One or more bits on the associated DL DCH are used to indicate imminent occurrence of a UTL resource assignment channel as opposed to an HS-SCCH by means of a fixed and pre-determined timing relationship, [0039] Figure 3 is a flowchart of a process 200 including method steps for implementing UL channel assignment signaling in accordance with the present invention. After the process 200 is initiated (step 202), a message for radio resource assignment is transmitted via a common control channel from a Node-B 104 to a WTRU 106. The WTRU 106 receives and demodulates the message -7using predetermined codes every predetermined TTI, for example, every 2 m. (step 204). The WTRU 106 then determines if the message is intended for the WTRU 106 (step 206). AWTRU-specijc CRC may be utilized for this purpose. If the WTRU 106 determines that the message is intended for the WTRU 106, the WTRU 106 determines whether the message is for the assignment of radio resources for DL transmission or UL transmission implementing one of the embodiments of the present invention described above (step 208). The WTRU 106 then takes appropriate actions (step 210) depending on the decision in step 208 to receive or transmit data packet via DL or UL channels. For example, the WTRU 106 -may recognize exactly when to initialize a data reception procedure via the DL channel 108 or when to initialize a data transmission procedure via the UL channel 110. Currently, an HS-SCCH for an HSDPA announces an incoming data packet for the WTRU with a fixed two (2) slot ofset, whereas the present invention can inform the WTRU when it has an opportunity to transmit a packet via the UTL, (e.g., four slots from now). [0040] While this invention has been particularly shown and described with reference to preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may he made therein without departing from the scope of the invention described hereinabove.

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Claims (40)

1. A wireless transmit/receive unit (WTRU) including: circuitry configured to receive control information over a physical downlink control channel; circuitry configured to determine whether the control information is intended for the WTRU based on WTRU identity-masked (ID-masked) cyclic redundancy check (CRC) bits; circuitry configured to determine whether the control information is for assigning radio resources for an uplink shared channel or a downlink shared channel; and circuitry configured on a condition that the control information is determined to be for assigning radio resources for the uplink shared channel, to utilize the control information to transmit data over the uplink shared channel a predetermined number of time slots after reception of the control information.

2. The WTRU of claim 1 further including circuitry configured on a condition that the control information is determined to be for assigning radio resources for the downlink shared channel, to perform a data reception procedure that is based on the control information.

3. The WTRU of claim 1, wherein the downlink shared channel is a physical downlink shared channel (PDSCH).

4. The WTRU of claim 3, wherein the PDSCH is a high speed downlink shared channel (HS-DSCH).

5. The WTRU of claim 1, wherein the uplink shared channel is an enhanced uplink channel.

6. The WTRU of claim 1, wherein the control information includes a physical resource assignment. 10

7. The WTRU of claim 1, wherein the WTRU is configured to determine whether the control information is for assigning radio resources for the uplink shared channel or the downlink shared channel on a condition that the control information is intended for the WTRU.

8. The WTRU of claim 1, wherein the control information includes an indication of whether the control information is for assigning radio resources for the uplink shared channel or whether the control information is for assigning radio resources for the downlink shared channel.

9. The WTRU of claim 1, wherein the physical downlink control channel is in a shared radio resource space.

10. The WTRU of claim 1, wherein the data is a data packet.

11. The WTRU of claim 1, wherein the predetermined number of time slots is a fixed number of time slots.

12. A method implemented by a wireless transmit/receive unit (WTRU) including: receiving control information over a physical downlink control channel; determining whether the control information is intended for the WTRU based on WTRU identity-masked (ID-masked) cyclic redundancy check (CRC) bits; determining whether the control information is for assigning radio resources for an uplink shared channel or a downlink shared channel; and on a condition that the control information is determined to be for assigning radio resources for the uplink shared channel, utilizing the control information for transmitting data over the uplink shared channel a predetermined number of time slots after reception of the control information. 11

13. The method of claim 12 further including on a condition that the control information is determined to be for assigning radio resources for the downlink shared channel, performing a data reception procedure that is based on the control information.

14. The method of claim 12, wherein the downlink shared channel is a physical downlink shared channel (PDSCH).

15. The method of claim 14, wherein the PDSCH is a high speed downlink shared channel (HS-DSCH).

16. The method of claim 12, wherein the uplink shared channel is an enhanced uplink channel.

17. The method of claim 12, wherein the control information includes a physical resource assignment.

18. The method of claim 12, further including determining whether the control information is for assigning radio resources for the uplink shared channel or the downlink shared channel on a condition that the control information is intended for the WTRU.

19. The method of claim 12, wherein the control information includes an indication of whether the control information is for assigning radio resources for the uplink shared channel or whether the control information is for assigning radio resources for the downlink shared channel.

20. The method of claim 12, wherein the physical downlink control channel is in a shared radio resource space.

21. The method of claim 12, wherein the data is a data packet. 12

22. The method of claim 12, wherein the predetermined number of time slots is a fixed number of time slots.

23. A wireless transmit/receive unit (WTRU) including: circuitry configured to receive resource assignment information with a masked cyclic redundancy check (CRC) appended to the resource assignment information; circuitry configured to determine whether the masked CRC is derived from a first identifier or a second identifier, wherein the first identifier and the second identifier are associated with the WTRU, wherein the first identifier is associated with at least uplink resource assignment information and the second identifier is associated with only downlink resource assignment information; and circuitry configured, in response to the determination whether the masked CRC is derived from the first identifier or the second identifier, to utilize the resource assignment information to initiate a data reception procedure or a data transmission procedure.

24. The WTRU of claim 23 further including circuitry configured to determine whether the resource assignment information includes uplink resource assignment information or downlink resource assignment information in response to the masked CRC being derived from the first identifier or the second identifier.

25. The WTRU of claim 23, wherein both downlink resource assignment information and uplink resource assignment information are received via a physical downlink control channel.

26. The WTRU of claim 23, wherein both downlink resource assignment information and uplink resource assignment information are received via a same physical downlink control channel.

27. The WTRU of claim 23, wherein the WTRU is configured to receive a plurality of physical downlink control channels. 13

28. The WTRU of claim 27, wherein the physical downlink control channels carry both downlink and uplink resource assignment information simultaneously.

29. The WTRU of claim 23, wherein the downlink resource assignment information is received in one time interval and the uplink resource assignment information is received in another time interval.

30. The WTRU of claim 23, wherein the data transmission procedure is over an uplink shared channel.

31. The WTRU of claim 23, wherein the data reception procedure is over a downlink shared channel.

32. A method implemented by a wireless transmit/receive unit (WTRU) including: receiving resource assignment information with a masked cyclic redundancy check (CRC) appended to the resource assignment information; determining whether the masked CRC is derived from a first identifier or a second identifier, wherein the first identifier and the second identifier are associated with the WTRU, wherein the first identifier is associated with at least uplink resource assignment information and the second identifier is associated with only downlink resource assignment information; and in response to the determining whether the masked CRC is derived from the first identifier or the second identifier, utilizing the resource assignment information for initiating a data reception procedure or a data transmission procedure.

33. The method of claim 32, further including determining whether the resource assignment information includes uplink resource assignment information or downlink resource assignment information in response to the masked CRC being derived from the first identifier or the second identifier. 14

34. The method of claim 32, wherein both downlink resource assignment information and uplink resource assignment information are received via a physical downlink control channel.

35. The method of claim 32, wherein both downlink resource assignment information and uplink resource assignment information are received via a same physical downlink control channel.

36. The method of claim 32, further including receiving a plurality of physical downlink control channels.

37. The method of claim 36, wherein the physical downlink control channels carry both downlink and uplink resource assignment information simultaneously.

38. The method of claim 32, wherein the downlink resource assignment information is received in one time interval and the uplink resource assignment information is received in another time interval.

39. The method of claim 32, wherein the data transmission procedure is over an uplink shared channel.

40. The method of claim 32, wherein the data reception procedure is over a downlink shared channel. INTERDIGITAL TECHNOLOGY CORPORATION WATERMARK PATENT AND TRADE MARKS ATTORNEYS P26845AU04