CN101365167A - Method for transmitting uncontinuous sending and unicontinuous receiving parameter of packet connection - Google Patents
Method for transmitting uncontinuous sending and unicontinuous receiving parameter of packet connection Download PDFInfo
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- CN101365167A CN101365167A CNA2007101404125A CN200710140412A CN101365167A CN 101365167 A CN101365167 A CN 101365167A CN A2007101404125 A CNA2007101404125 A CN A2007101404125A CN 200710140412 A CN200710140412 A CN 200710140412A CN 101365167 A CN101365167 A CN 101365167A
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Abstract
The invention relates to a wireless communication system, and discloses a method for transferring discontinuously sent and received parameters of a continuous block chaining. An active radio access network system informs a discontinuously sent and received related parameter message of a target wireless access network continuous block chaining directly through a signaling message or through the transparent forwarding of a core network. Through the addition of the discontinuously sent and received parameter of the continuous block chaining through 'a wireless control container', the parameter is directly sent by the active wireless access network system through 'relocation request' signaling carrying to the target wireless access network system, or transparently forwarded to the target access network system through the 'relocation request' of the core network signaling carrying, so as to allow the target wireless access network system to use.
Description
Technical Field
The present invention relates to a parameter transfer method in a wireless communication system, and more particularly, to a method for discontinuous transmission and discontinuous reception parameters of a continuous packet connection.
Background
In order to reduce the transmission delay of packet domain data, the 3GPP protocol standard evolves the protocol architecture of the third generation mobile communication, i.e. the Radio Network Controller (RNC) moves down to the node B (nodeb), which has the functions of serving the radio network controller, controlling the radio network controller, and drifting the radio network controller, and this node B may be referred to as an enhanced node B for short.
The downward shift of the radio network controller causes the interface definition between different nodes to change, an Iur interface is adopted between the enhanced node B and the enhanced node B, an Iur interface is also adopted between the enhanced node B and the traditional Radio Network Controller (RNC), an Iu interface is adopted between the enhanced node B and the core network node, and only the Iu interface of the packet domain is supported.
In the current protocol, for the relocation process, the source wireless access network system needs to send out information through a ' relocation requirement ' signaling carried by a ' transparent container ' from a ' source wireless network controller to a target wireless network controller, and then transparently forwards the information to the target wireless access network system through a ' relocation request ' signaling carried by a core network for use by the target wireless access network system. The "transparent container from the source radio network controller to the target radio network controller" does not contain information of the physical channel, that is, after the target radio access network controller receives the relocation request, the target radio access network controller needs to reconfigure the parameters of the physical layer according to the resource allocation condition of the target radio access network controller.
Based on the architecture shown in FIG. 1, the following scenarios require relocation to occur:
(1) RRC connection is established between the user equipment and the enhanced node B or the service of the packet domain exists, but the subsequent user equipment calls the service of the circuit domain, so the enhanced node B needs to initiate the relocation process;
(2) the user equipment has the concurrence of circuit domain and packet domain services, so that the control right of the user equipment is in the traditional radio network controller RNC, but along with the release of the circuit domain services, the traditional RNC needs to initiate a relocation process to the enhanced node B because of load balancing;
(3) when the enhanced node B is used as a serving node B of a ue, the serving node B generally has the best signal strength, and has the function of serving RNC and the function of combining uplink packet data, but due to the movement of the ue, the serving node B needs to make frequent updates, and then the function of the serving RNC needs to be frequently transferred, so that a frequent relocation process is also needed.
Then, based on the new architecture that a Radio Network Controller (RNC) is moved down to a node B (node B), a deployed network may have an enhanced node B that is a node B with a carrier frequency shared by a circuit domain and a packet domain, that is, a service of the circuit domain and a service of the packet domain may use the same radio resource pool in a cell under the control of the node B, but as long as a user equipment has a service of the circuit domain, a controller connected to the RRC is in a conventional RNC, so that there is a case that the control right of the RRC is in different nodes but only one set of physical resources exists.
In order to avoid the situation that the user equipment is communicated in the same cell but the physical resource is reconfigured due to the relocation in the above-mentioned (1) and (2) situations, the source radio access network system is required to notify the target radio access network controller (or enhanced node B) of the physical channel parameter information currently configured to the user equipment.
However, the discontinuous transmission and discontinuous reception parameters are control parameters for determining the MAC layer and the physical layer of the ue to perform discontinuous transmission and discontinuous reception, and the related parameters include:
● Enabling Delay (Enabling Delay): the UE judges to enter the DTX _ DRX state to really activate the number of the wireless frames to be delayed;
● discontinuous transmission discontinuous reception Offset (UE DTX DRX Offset): is used for staggering the interval time of discontinuous transmission and discontinuous reception of different user equipment;
● user equipment discontinuous transmission cycle period 1(UE DTX cycle 1): discontinuous cycle period used by uplink discontinuous transmission mode 1;
● discontinuous transmission cycle period 2(UE DTX cycle 2) for user equipment: discontinuous cycle period used by uplink discontinuous transmission mode 2;
● discontinuous transmission cycle (MAC DTX cycle) of the medium access layer: the UE enters a cycle period of E-TFC selection after entering a period selection E-TFC state;
● Inactivity Threshold for UE DTX cycle 2 controlled by the UE entering discontinuous transmission cycle 2: UE enters an inactive threshold of a discontinuous transmission state controlled by UE DTXcycle 2;
● user equipment discontinuous transmission long prefix length (UE DTX long preamble length): the time slot number of the DPCCH is required to be sent preferentially when the UE needs to send data after entering the discontinuous sending state controlled by the UE DTX cycle 2;
● Inactivity Threshold of the media access layer (MAC Inactivity Threshold): the UE enters an MAC non-activation threshold for carrying out E-TFC selection periodically every MAC DTX cycle subframes;
● channel quality indication discontinuous transmission Timer (CQI DTX Timer): channel Quality Indication (CQI) reporting the timer length that may prioritize DTX transmission mode;
● burst 1 of user equipment dedicated physical control channel (UE DPCCH burst _ 1): when UE is in discontinuous transmission state controlled by UE DTX Cycle1, carrying out DPCCH subframe number used by wireless link synchronization;
● burst 2 of user equipment dedicated physical control channel (UE DPCCH burst _ 2): when UE is in discontinuous transmission state controlled by UE DTX Cycle 2, carrying out DPCCH subframe number used by wireless link synchronization;
● user equipment discontinuous reception cycle (UE DRX cycle): the UE monitors a cycle period of a control channel (HS-SCCH) for a high-speed physical downlink shared channel;
● the UE enters an Inactivity Threshold for discontinuous reception (UEDRX cycle): UE switches to the period of every UE DRX cycle subframe to monitor the non-activation threshold of the HS-SCCH state;
● Inactivity Threshold for ue grant Monitoring: after data transmission on an E-DCH, UE needs to monitor an inactive threshold of a complete reinforcement absolute grant channel (E-AGCH) of a service reinforcement dedicated channel (E-DCH) cell and a complete reinforcement relative grant channel (E-RGCH) of an E-DCH active set;
● authorized Monitoring of discontinuous reception by user equipment (UE DRX Grant Monitoring): when the starting of discontinuous reception of the E-AGCH, the E-RGCH and the HS-SCCH is overlapped, indicating whether the UE monitors a complete E-AGCH channel of an E-DCH service cell;
● time slot format information (Uplink DPCCH slot format information) of the dedicated physical control channel for Uplink connection.
These parameters all belong to physical channel parameters, so in order to ensure data connectivity between the user equipment and the target radio access network, the source radio access network also needs to notify the target radio access network of the parameters of discontinuous transmission and discontinuous reception.
Disclosure of Invention
The technical problem to be solved by the present invention is to provide a method for transferring discontinuous transmission and discontinuous reception parameters of continuous packet connectivity, wherein the discontinuous transmission and discontinuous reception parameters are transferred to a target wireless access network system by a source wireless access network system for use by the target wireless access network system.
The invention provides a method for transferring discontinuous transmission and discontinuous reception parameters of continuous packet connection, which comprises the following steps:
when relocation is carried out, the source wireless access network system carries discontinuous sending and discontinuous receiving parameters of continuous grouping connection through signaling and sends the parameters to the target wireless access network system.
The method further comprises:
and after receiving the signaling carrying the discontinuous sending and discontinuous receiving parameters of the continuous packet connection, the target wireless access network system returns a confirmation response signaling to the source wireless access network system.
The mode of informing the target wireless access network system of the discontinuous transmission and discontinuous reception parameters of the continuous packet connection by the source wireless access network system is any one or the combination of the following modes:
the source wireless access network system directly sends the discontinuous sending and discontinuous receiving parameters carrying continuous grouping connection to the target wireless access network system through signaling; or,
discontinuous transmission and discontinuous reception parameters of continuous packet connection carried by signaling by the source wireless access network system are transparently forwarded to the target wireless access network system carried by signaling via the core network.
The signaling conveying the discontinuous transmission and discontinuous reception parameters of the continuous packet connection is a relocation request message, or a relocation required message, or a handover request message, or a combination thereof.
The carrying method of discontinuous transmission and discontinuous reception parameters carried by the signaling for transferring the discontinuous transmission and discontinuous reception parameters of the continuous packet connection is realized by adding the discontinuous transmission and discontinuous reception parameters in a radio resource control container. The signaling for transferring the discontinuous transmission and discontinuous reception parameters comprises a transparent container from the source radio network controller to the target radio network controller, and the transparent container from the source radio network controller to the target radio network controller comprises a radio resource control container added with the discontinuous transmission and discontinuous reception parameters.
The carrying method of discontinuous transmission and discontinuous reception parameters carried by the signaling for transmitting the discontinuous transmission and discontinuous reception parameters of the continuous packet connection is realized by adding cells related to the discontinuous transmission and discontinuous reception parameters in the signaling message.
The source wireless access network system and the target wireless access network system are any one of the following wireless access network systems: a radio access network system composed of a radio access network controller and a node B, or a radio access network system composed of an enhanced node B.
The parameters of discontinuous transmission and discontinuous reception of the continuous packet connection comprise any one or a combination of the following parameters:
enabling delay, discontinuous transmission discontinuous reception deviation of user equipment, discontinuous transmission cycle period 1 of the user equipment, discontinuous transmission cycle period 2 of the user equipment, discontinuous transmission cycle period of a media access layer, an inactive threshold controlled by the user equipment entering the discontinuous transmission cycle period 2, discontinuous transmission long prefix length of the user equipment, an inactive threshold of the media access layer, a channel quality indication discontinuous transmission timer, burst 1 of a user equipment dedicated physical control channel, burst 2 of the user equipment dedicated physical control channel, discontinuous reception cycle period of the user equipment, an inactive threshold for the user equipment to enter discontinuous reception, an inactive threshold of user equipment authorization monitoring, authorization monitoring of user equipment discontinuous reception, and slot format information of an uplink connected dedicated physical control channel.
The invention can realize that the source wireless access network informs the target wireless access network of the parameters of discontinuous transmission and discontinuous reception for the target side to use, thereby ensuring the data continuity of the user equipment and the target wireless access network.
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FIG. 1 is example 1 of the present invention;
fig. 2 is embodiment 2 of the present invention.
Detailed Description
The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.
The invention relates in particular to a method for designing parameters relating to discontinuous transmission and discontinuous reception for transferring a continuous packet connection during the relocation preparation and resource allocation phases.
The invention relates to a method for transmitting discontinuous transmission and discontinuous reception parameters of continuous packet connection.A source wireless access network system informs a target wireless access network system of parameter information related to discontinuous transmission and discontinuous reception of continuous packet connection through a signaling message.
In the specific implementation, the discontinuous transmission and discontinuous reception parameters of continuous packet connection are added in a radio resource control container, and are sent out by a source radio access network system through a relocation request signaling, and are directly sent to a target radio access network system or are transparently forwarded to the target radio access network system through a core network relocation request signaling, so as to be used by the target radio access network system.
Wherein the signaling comprises any one or a combination of the following: a relocation request message, a relocation required message, or a handover request message, or a combination thereof.
The method for the source radio access network system to notify the target radio access network system of the parameter information related to discontinuous transmission and discontinuous reception of the continuous packet connection may be any one or a combination of the following:
the source wireless access network system directly sends the target wireless access network system through the signaling carrying, or transparently forwards the target wireless access network system through the signaling carrying of the core network.
In the invention, the method for carrying the discontinuous transmission and discontinuous reception parameters of the continuous packet connection is realized by adding the discontinuous transmission and discontinuous reception parameters of the continuous packet connection in a radio resource control container.
Embodiment 1 is a flowchart of a method for directly performing message interaction between a source wireless access network system and a target wireless access network system, where the method carries discontinuous transmission and discontinuous reception parameters, and is shown in fig. 1:
step 101: a source wireless access network system decides that a relocation process needs to be initiated;
step 102: a source wireless access network system initiates a relocation request message to a target wireless access network system, wherein the relocation request message carries a transparent container from a source wireless network controller to a target wireless network controller, the transparent container from the source wireless network controller to the target wireless network controller also contains information of a wireless resource control container, and the wireless resource control container contains parameter information related to discontinuous transmission and discontinuous reception;
step 103: the target wireless access network system returns a relocation response to the source wireless access network system.
Embodiment 2 is a flowchart of a method for a source wireless access network system to directly perform message interaction through a core network and a target wireless access network system, and carry discontinuous transmission and discontinuous reception parameters, as shown in fig. 2:
step 201: a source wireless access network system decides that a relocation process needs to be initiated;
step 202: a source wireless access network system initiates a relocation required message to a core network, wherein the relocation required message carries a transparent container from a source wireless network controller to a target wireless network controller, the transparent container from the source wireless network controller to the target wireless network controller also contains information of a wireless resource control container, and the wireless resource control container contains parameter information related to discontinuous transmission and discontinuous reception;
step 203: a core network sends a relocation request message to a target wireless access network system, wherein the relocation request message carries a transparent container from a source wireless network controller to a target wireless network controller, the transparent container from the source wireless network controller to the target wireless network controller also contains information of a wireless resource control container, and the wireless resource control container contains parameter information related to discontinuous sending and discontinuous receiving;
step 204: the target wireless access network system returns a relocation confirmation message to the core network;
step 205: the core network initiates a relocation command to the source radio access network system.
In the above two embodiments, the source wireless access network system and the target wireless access network system may be any one of the following wireless access network systems: a radio access network system composed of a radio network controller and a node B, or a radio access network system composed of an enhanced node B.
In the above two embodiments, the method for carrying discontinuous transmission and discontinuous reception parameters by signaling for transferring discontinuous transmission and discontinuous reception parameters of the continuous packet connection may also be implemented by adding information elements related to discontinuous transmission and discontinuous reception parameters to the signaling message.
The above-mentioned parameter information related to discontinuous transmission and discontinuous reception of continuous packet connections includes any one or combination of the following parameters:
enable Delay (Enabling Delay), UE discontinuous transmission discontinuous reception Offset (UE DTX DRX Offset), UE discontinuous transmission cycle period 1(UE DTX cycle1), UE discontinuous transmission cycle period 2(UE DTX cycle 2), discontinuous transmission cycle period of the media access layer (MAC DTX cycle), Inactivity Threshold controlled by UE entering discontinuous transmission cycle period 2 (Inactivity Threshold for UE DTX cycle 2), UE discontinuous transmission long prefix length (UE DTX preamble), Inactivity Threshold of the media access layer (MAC Inactivity Threshold), channel quality indication discontinuous transmission Timer (CQI DTX Timer), burst 1 of the UE-specific physical control channel (UE DPCburst _1), burst 2 of the UE-specific physical control channel (UE DPCCH _2), The UE receives a discontinuous reception cycle (UE DRX cycle), an Inactivity Threshold for the UE to enter discontinuous reception (Inactivity Threshold for UE DRX cycle), an Inactivity Threshold for UE Grant Monitoring (Inactivity Threshold for UE Grant Monitoring), an Grant Monitoring for UE discontinuous reception (UE DRX Grant Monitoring), and slot format information (Uplink DPCCH slot format information) of an Uplink dedicated physical control channel.
Claims (9)
1. A method of communicating discontinuous transmission and discontinuous reception parameters for a continuous packet connection, comprising the steps of:
when relocation is carried out, the source wireless access network system carries discontinuous sending and discontinuous receiving parameters of continuous grouping connection through signaling and sends the parameters to the target wireless access network system.
2. The method of claim 1, wherein the method further comprises:
and after receiving the signaling carrying the discontinuous sending and discontinuous receiving parameters of the continuous packet connection, the target wireless access network system returns a confirmation response signaling to the source wireless access network system.
3. The method of claim 1, wherein the source radio access network system informs the target radio access network system of discontinuous transmission and discontinuous reception parameters of continuous packet connection in any one or a combination of the following ways:
the source wireless access network system directly sends the discontinuous sending and discontinuous receiving parameters carrying continuous grouping connection to the target wireless access network system through signaling; or,
discontinuous transmission and discontinuous reception parameters of continuous packet connection carried by signaling by the source wireless access network system are transparently forwarded to the target wireless access network system carried by signaling via the core network.
4. The method according to claim 1 or 3, wherein said signaling conveying discontinuous transmission and discontinuous reception parameters of the continuous packet connection is a relocation request message, or a relocation required message, or a handover request message, or a combination thereof.
5. The method of claim 4, wherein the method for carrying the discontinuous transmission and discontinuous reception parameters in the signaling for transferring the discontinuous transmission and discontinuous reception parameters of the continuous packet connection is implemented by adding the discontinuous transmission and discontinuous reception parameters in a radio resource control container.
6. The method of claim 5, wherein the signaling for transferring the discontinuous transmission and discontinuous reception parameters comprises a transparent container from the source radio network controller to the target radio network controller, and the transparent container from the source radio network controller to the target radio network controller contains a radio resource control container with the discontinuous transmission and discontinuous reception parameters added.
7. The method of claim 4, wherein the method for carrying discontinuous transmission and discontinuous reception parameters for signaling to transfer discontinuous transmission and discontinuous reception parameters of the continuous packet connection is implemented by adding information elements related to discontinuous transmission and discontinuous reception parameters to the signaling message.
8. A method according to any of claims 1-3, wherein the source and target radio access network systems are any of the following radio access network systems: a radio access network system composed of a radio access network controller and a node B, or a radio access network system composed of an enhanced node B.
9. The method according to any of claims 1-3, 5 or 6, wherein the parameters for discontinuous transmission and discontinuous reception of a continuous packet connection comprise any one or a combination of the following parameters:
enabling delay, discontinuous transmission discontinuous reception deviation of user equipment, a first discontinuous transmission cyclic period of the user equipment, a second discontinuous transmission cyclic period of the user equipment, a discontinuous transmission cyclic period of a media access layer, an inactive threshold controlled by the user equipment entering the second discontinuous transmission cyclic period, a discontinuous transmission long prefix length of the user equipment, an inactive threshold of the media access layer, the method comprises the steps of indicating discontinuous sending timer by channel quality, a first burst of a special physical control channel of user equipment, a second burst of the special physical control channel of the user equipment, a discontinuous receiving cycle period of the user equipment, an inactive threshold of the user equipment entering discontinuous receiving, an inactive threshold of authorized monitoring of the user equipment, authorized monitoring of the discontinuous receiving of the user equipment and time slot format information of the special physical control channel connected in an uplink.
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Cited By (4)
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CN106160961A (en) * | 2009-10-12 | 2016-11-23 | 中兴通讯股份有限公司 | The method and system that a kind of frame protocol control frame of wireless link transmits |
CN107409356A (en) * | 2015-03-06 | 2017-11-28 | 索尼公司 | Message processing device and information processing method |
CN108495334A (en) * | 2012-08-03 | 2018-09-04 | 英特尔公司 | The device and computer readable storage medium of user equipment |
WO2024168544A1 (en) * | 2023-02-14 | 2024-08-22 | 北京小米移动软件有限公司 | Method and apparatus for sending indication information, method and apparatus for receiving indication information, and readable storage medium |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN100556182C (en) * | 2005-11-30 | 2009-10-28 | 展讯通信(上海)有限公司 | Mobile subscriber terminal adopts the cycle change method of discontinuous receive mode |
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2007
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106160961A (en) * | 2009-10-12 | 2016-11-23 | 中兴通讯股份有限公司 | The method and system that a kind of frame protocol control frame of wireless link transmits |
CN108495334A (en) * | 2012-08-03 | 2018-09-04 | 英特尔公司 | The device and computer readable storage medium of user equipment |
CN108495334B (en) * | 2012-08-03 | 2021-06-25 | 苹果公司 | Apparatus of user equipment and computer-readable storage medium |
US11122647B2 (en) | 2012-08-03 | 2021-09-14 | Apple Inc. | Enhanced node B, user equipment and methods for discontinuous reception in inter-eNB carrier aggregation |
CN107409356A (en) * | 2015-03-06 | 2017-11-28 | 索尼公司 | Message processing device and information processing method |
WO2024168544A1 (en) * | 2023-02-14 | 2024-08-22 | 北京小米移动软件有限公司 | Method and apparatus for sending indication information, method and apparatus for receiving indication information, and readable storage medium |
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