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CN101242349A - Method for transmitting data between terminal and network and system, network and terminal - Google Patents

Method for transmitting data between terminal and network and system, network and terminal Download PDF

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Publication number
CN101242349A
CN101242349A CNA2007100075991A CN200710007599A CN101242349A CN 101242349 A CN101242349 A CN 101242349A CN A2007100075991 A CNA2007100075991 A CN A2007100075991A CN 200710007599 A CN200710007599 A CN 200710007599A CN 101242349 A CN101242349 A CN 101242349A
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China
Prior art keywords
terminal
network
data transmission
target cell
transmission channel
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CNA2007100075991A
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Chinese (zh)
Inventor
赵刚
耿风华
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Priority to CNA2007100075991A priority Critical patent/CN101242349A/en
Priority to PCT/CN2008/070204 priority patent/WO2008095437A1/en
Publication of CN101242349A publication Critical patent/CN101242349A/en
Pending legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/16Performing reselection for specific purposes
    • H04W36/22Performing reselection for specific purposes for handling the traffic

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

Abstract

The inventive embodiment discloses a method for data transmission between a terminal and a network, including: when creating a data transmission channel, emitting a switch command from the network to the terminal, the said terminal transmitting data with a data transmission channel assigned to a target subdistrict by the switch command. When the switch command includes newly-create data transmission information not contained in the terminal, the terminal also creates new data transmission channel corresponding to the target subdistrict before transmitting data. Further, the inventive embodiment discloses a system, network and terminal for data transmission between a terminal and a network. The invention improves success rate of user data transmission, and maximally meets the requirement of a user for data transmission.

Description

Method, system, network and terminal for transmitting data between terminal and network
Technical Field
The embodiment of the invention relates to the technical field of wireless communication, in particular to a method, a system, a network and a terminal for transmitting data between the terminal and the network.
Background
A Temporary Block Flow (TBF) in a Radio communication technology is a communication transport Channel for supporting an uplink (Data Flow from a mobile Unit to a mobile communication system) and a downlink (Data Flow from the mobile communication system to the mobile Unit), and is a Physical connection used between two Radio Resource (RR, Radio Resource) entities to support unidirectional transmission of a Protocol Data Unit (PDU) on a Packet Data Physical Channel (PDPCH).
Please refer to fig. 1, which is a flowchart illustrating a method for uplink data transmission in the prior art. In the prior art, the process of sending uplink service data to a network by a terminal is generally as follows: the terminal sends request information for establishing one or more uplink TBFs to the network, wherein the request information comprises the uplink TBFs and Packet Flow Identifiers (PFIs) which the terminal wants to establish with the current cell. The PFI is used to mark radio resources related to Service data transmission, and a Quality of Service (QoS) parameter required for Service data transmission can be known according to the PFI.
After receiving the request information for establishing one or more uplink data transmission channels from the terminal in the uplink direction, the network knows the QoS required by the terminal for service data transmission according to the PFI in the request information. The network judges whether the current cell to be established by the terminal has enough resources to meet the requirement of the QoS parameter related to the terminal service. If yes, the network distributes the wireless resource aiming at the terminal service in the current cell and sends one or more TBF UPLINK ASSIGNMENT messages (PACKET UPLINK ASSIGNMENT/MULTIPLE TBF UPLINKASSIGNENT) to the terminal; otherwise, the network sends an access REJECT message (PACKET ACCESS REJECT) to the terminal.
Similarly, for the transmission of downlink data, after receiving the frame of establishing downlink service data, the network determines whether there are enough resources to satisfy the requirements of QoS parameters related to the terminal service in the current cell according to the PFI in the service data frame. If the current cell has not enough resources, the network sends access rejection information (PACKET access request) to the downlink data initiator, rejects the establishment, and discards the downlink data frame.
In the course of the invention, the inventor finds that at least the following problems exist in the prior art: in the prior art, when a data transmission channel is established, a terminal can only perform data transmission in a current cell, and if the current cell does not have enough resources to meet the data transmission requirement, a network can only cancel the transmission of the group of data. This affects the transmission of a large amount of service data, and thus cannot satisfy the service data transmission needs of users to the maximum, reducing the efficiency of data transmission in the network.
Disclosure of Invention
In view of this, embodiments of the present invention provide a method, a system, a network, and a terminal for transmitting data between a terminal and a network, so as to maximally meet a requirement of a user for transmitting service data, and improve efficiency of data transmission in the network.
To solve the above problem, an embodiment of the present invention provides a method for transmitting data between a terminal and a network, including:
when a data transmission channel is established, a network sends a switching command to a terminal, and the terminal transmits data by using the data transmission channel allocated to the specified target cell in the switching command.
Based on the technical scheme, the embodiment of the invention also provides a system for transmitting data between the terminal and the network, which comprises the terminal and the network; wherein,
the network is further used for sending a switching command to the terminal when a data transmission channel is established;
and the terminal is further used for transmitting data by using a data transmission channel allocated to the specified target cell in the switching command after receiving the switching command sent by the network.
Based on the above technical solution, an embodiment of the present invention further provides a terminal for transmitting data between a terminal and a network, where the terminal further includes:
a receiving unit, configured to receive a handover command sent by a network;
and the transmission unit is used for transmitting data by using the data transmission channel allocated to the specified target cell in the switching command.
Based on the above technical solution, an embodiment of the present invention further provides a network for transmitting data between a terminal and a network, including a sending unit,
the sending unit is further configured to send a handover command to the terminal when the data transmission channel is established.
Compared with the prior art, when a data transmission channel is established between a terminal and a network, the network can send a switching command to the terminal to command the terminal to be switched to other target cells, and the data transmission is carried out by using the data transmission channel distributed for the target cells. And then the success rate of user data transmission can be improved, and the requirement of the user on data transmission can be met to the maximum extent.
Drawings
FIG. 1 is a flow chart of a method for upstream data transmission in the prior art;
FIG. 2 is a flowchart of a data transmission method according to an embodiment of the present invention;
FIG. 3 is a flowchart of an embodiment of a data transmission method of the present invention;
FIG. 4 is a schematic diagram of a preferred embodiment of the data transmission system of the present invention;
fig. 5 is a schematic structural diagram of a preferred embodiment of the data transmission terminal of the present invention;
fig. 6 is a schematic structural diagram of a data transmission network according to a preferred embodiment of the present invention.
Detailed Description
One or more embodiments of the present invention provide a method for transmitting data between a terminal and a network, including:
when a data transmission channel is established, a network sends a switching command to a terminal, and the terminal transmits data by using the data transmission channel allocated to the specified target cell in the switching command.
When the switching command includes newly-created data transmission channel information that does not exist in the terminal, the terminal further includes, before transmitting data: and the terminal establishes a new data transmission channel corresponding to the target cell.
The data transmission channel is preferably a Temporary Block Flow (TBF) or a Radio Access Bearer (RAB) applied in a GPRS system.
The following detailed description of embodiments of the invention is provided in connection with the accompanying drawings.
Referring to fig. 2, it is a flowchart of an embodiment of a data transmission method according to the present invention, where the terminal is a sending end of uplink data transmission, the method specifically includes:
step 201: the terminal sends request information for establishing one or more uplink TBFs to a base station in the network, wherein the request information comprises PFI information corresponding to the uplink TBFs which are expected to be established in the current cell and the QoS required by the service data to be transmitted.
Step 202 to step 203: after receiving the request information for establishing the uplink TBF, the base station learns the QoS parameters required by the service data to be transmitted according to the PFI in the information, and judges whether the current cell of the terminal has enough resources to meet the QoS requirement of the service data transmission. If yes, the base station sends one or more uplink TBF assignment messages to the terminal, and the terminal establishes one or more corresponding uplink TBFs according to the assignment messages; if the current cell does not have sufficient resources, step 204 is performed.
Step 204: and sending a switching request to a core network, selecting a target cell and switching to the target cell. The base station performs corresponding processing according to the handover response 204a or 204b fed back from the core network, specifically: if the handover is successful, go to step 205 and step 206; otherwise, step 207 is performed.
Preferably, the target cell is specifically selected by the network, according to the strength of the neighbor cell signal periodically reported by the terminal, and the neighbor cell with a better signal is selected as the target cell.
The switching to the target cell may adopt different switching manners according to different network environments, for example, for packet switching in a 2G network, the switching of the base station to the target cell may specifically be: the base station sends a packet switching request message to a Serving GPRS Support Node (SGSN) of a network side to request to switch to the selected target cell. Wherein the packet handover request message includes a PFI corresponding to a QoS required for service data to be transmitted by the terminal. And after receiving the packet switching request message, the SGSN sends a packet switching request to a target wireless access system of the network. And the target wireless access system judges whether the target cell has enough resources to meet the QoS requirement or not according to the QoS parameter corresponding to the PFI. If so, allocating enough resources in the target cell to meet the QoS requirement required by the terminal for transmitting the service data, and sending a packet switching request response to the base station, wherein the packet switching request response message contains TBF allocated to the target cell and QoS information allocated to the TBF; otherwise, the switching is failed, and the SGSN sends a packet switching request response containing switching failure information to the base station. The base station performs the following step 204 or step 206 according to the packet handover request reply received from the SGSN.
It should be noted that: the specific implementation method for selecting and switching the target cell in the embodiment of the present invention is not limited to the above-described embodiment, and is within the scope of the present invention as long as the method meets the 3GPP (Third generation partnership Project) network specification.
Step 205: and the base station sends a grouping switching command to the terminal. Wherein, the packet switching command includes TBF allocated to the target cell and PFI corresponding to Qos information allocated to the target cell.
Step 206: and after the terminal receives the packet switching command from the base station, accessing the TBF distributed to the target cell according to the TBF contained in the switching command, and after the access is successful, transmitting the uplink data by using a data transmission channel distributed to the specified target cell in the switching command.
In addition, in the step 206, when there is a corresponding TBF that does not exist currently in the handover command, before the terminal accesses the target cell, it needs to establish a new uplink TBF corresponding to the target cell. And, the handover command may include a packet handover command or a Dual Transfer Mode (DTM) handover command according to different network environments.
In addition, in the above embodiment, if the selected target cell does not have enough resources to meet the data transmission requirement, the step of selecting the target cell and switching to the target cell in step 204 may be repeated until the target cell capable of meeting the service data transmission requirement is found, and then the steps 205 and 206 are executed. Or until a preset number of repetitions, if there is no suitable target cell, then step 207 is performed.
Step 207: and the base station sends an access rejection message to the terminal.
By the embodiment, when a data transmission channel is established and when the current cell has insufficient resources and cannot transmit data, the data transmission can be realized to the greatest extent by switching to other target cells; meanwhile, the embodiment may also transmit data by repeatedly selecting the target cell until a suitable cell is found when the selected target cell cannot transmit. Therefore, the success rate of data transmission can be further improved to the maximum extent, and the data transmission efficiency of the whole network is further improved.
Please refer to fig. 3, which is a flowchart illustrating an embodiment of a method for data transmission according to the present invention, the method includes:
step 301: and the network side sends downlink service data to the terminal through the base station, wherein the downlink service data comprises PFI information corresponding to the QoS required by the transmission of the downlink service data.
Step 302 to step 303: after receiving the downlink service data, the base station obtains the corresponding QoS parameter required for transmitting the data according to the PFI information in the service data. And the base station judges whether the current cell of the terminal has enough resources to meet the QoS requirement transmitted by the terminal according to the QoS parameter.
If the current cell meets the QoS requirement transmitted by the terminal, the base station sends one or more downlink TBF assignment information to the terminal, and the terminal establishes one or more corresponding downlink TBFs according to the assignment information; if the current cell does not have sufficient resources, step 304 is performed.
Step 304: and sending a switching request to a core network, selecting a target cell and switching to the target cell. The base station performs corresponding processing according to the handover response 204a or 204b fed back from the core network, specifically: if the switching is successful, executing step 305 to step 306; otherwise, go to step 307.
Preferably, the selecting the target cell specifically is that the network selects a neighboring cell with a better signal as the target cell according to the strength of the neighboring cell signal periodically reported by the terminal.
The switching to the target cell may adopt different switching manners according to different network environments, for example, packet switching in a 2G network, and the switching of the base station to the target cell may specifically be: and the base station sends a packet switching request message to the SGSN of the network side to request to switch to the selected target cell. Wherein the packet switching request command includes a PFI corresponding to a QoS required for service data to be transmitted by the terminal. And after receiving the packet switching request message, the SGSN sends a packet switching request to a target wireless access system. And the target wireless access system judges whether the target cell has enough resources to meet the QoS requirement or not according to the QoS parameter corresponding to the PFI. If so, allocating enough resources in the target cell to meet the requirement of QoS parameters required by the terminal for transmitting service data, and sending a packet switching request response to the base station, wherein the packet switching request response message contains TBF allocated to the target cell and QoS information allocated to the target cell; otherwise, the switching is failed, and the SGSN sends a packet switching request response containing switching failure information to the base station. The base station performs the following step 304 or step 306 according to the packet handover request reply received from the SGSN.
It should be noted that: the specific implementation method for selecting and switching the target cell in the embodiment of the present invention is not limited to the above-described embodiment, and is within the scope of the present invention as long as the method meets the 3GPP (Third generation partnership Project) network specification.
Step 305: and the base station sends a grouping switching command to the terminal. Wherein, the packet switching command includes TBF allocated to the target cell and PFI corresponding to Qos information allocated to the target cell.
Step 306: and after the terminal receives the packet switching command from the base station, accessing the TBF distributed to the target cell according to the TBF contained in the switching command, and after the access is successful, transmitting the uplink data by using a data transmission channel distributed to the specified target cell in the switching command.
In step 306, when there is a downlink TBF that does not exist currently in the handover command, before the terminal accesses the target cell, a new downlink TBF corresponding to the target cell needs to be established. And, the handover command may include a packet handover command or a Dual Transfer Mode (DTM) handover command according to different network environments.
In addition, in the above embodiment, if the selected target cell does not have enough resources to meet the data transmission requirement, the step of selecting the target cell and switching to the target cell in step 304 may be repeated until the target cell capable of meeting the service data transmission requirement is found, and then the steps 305 and 306 are executed. Or until a preset number of repetitions, if there is no suitable target cell, then the step 307 is performed.
Step 307: and the base station sends a switching cancellation message to a network side and discards the downlink service data.
By the embodiment, when data is transmitted and the current cell has insufficient resources and cannot transmit the data, the data can be transmitted as much as possible by switching to other target cells; meanwhile, the embodiment may also transmit data by repeatedly selecting the target cell until a suitable cell is found when the selected target cell cannot transmit. Therefore, the success rate of data transmission can be further improved to the maximum extent, and the data transmission efficiency of the whole network is further improved.
Based on the technical scheme, the embodiment of the invention also discloses a system for transmitting data between the terminal and the network, which comprises the terminal and the network; wherein,
the network is further used for sending a switching command to the terminal when a data transmission channel is established;
and the terminal is further used for transmitting data by using a data transmission channel allocated to the specified target cell in the switching command after receiving the switching command sent by the network.
Fig. 4 is a schematic structural diagram of a preferred embodiment of the data transmission system of the present invention, where the system includes a terminal 401, a network 402; wherein,
the terminal 401, when serving as an uplink sending end, is configured to send a request message for establishing an uplink data transmission channel to the network 402, where the request message for establishing the uplink data transmission channel includes an uplink TBF to be established with the current cell 403 and a PFI corresponding to a QoS required by service data to be transmitted; meanwhile, the terminal 401 further performs corresponding operations according to different response messages sent from the network 402 for the request message, specifically: after the terminal 401 receives the handover command sent from the network 402, the terminal 401 is further configured to transmit data by using the data transmission channel allocated to the specified target cell 404 in the handover command; or after the terminal 401 receives one or more uplink TBF assignment messages sent from the network 402, the terminal 401 is further configured to establish one or more corresponding uplink TBFs according to the assignment messages, so as to implement data transmission.
Meanwhile, when the terminal 401 is used as a receiving end for downlink data transmission, the terminal is further configured to transmit data by using a data transmission channel allocated to the specified target cell 404 in the handover command according to the handover command sent by the network 402.
The network 402 is configured to, when receiving a request message for establishing an uplink TBF sent from an uplink sending-end terminal 401 or sending downlink service data to a downlink receiving-end terminal 401, determine whether a current cell 403 in which the terminal 401 is located has sufficient resources to meet a QoS requirement of data transmission according to PFI information in the request message or the service data. If so, the network 402 is configured to allocate sufficient resources for the current cell 403 suitable for the data transmission, and send one or more uplink TBF assignment messages to the terminal 401;
if not, the network 402 is further configured to select a target cell 404, and determine whether the target cell 404 has sufficient resources, and if the target cell has sufficient resources, the network 402 is further configured to allocate resources capable of meeting the QoS requirement of the data transmission in the target cell 404; if the allocation is successful, the network 402 is further configured to send a handover command to the uplink sending terminal or the downlink receiving terminal.
In addition, when the handover command includes a newly created data transmission channel that does not exist in the terminal, the terminal 401 is further configured to establish a new data transmission channel corresponding to the target cell 404. In the embodiment of the present invention, the data transmission channel is preferably a temporary block flow in the GPRS system.
Through the system for transmitting data between the terminal and the network disclosed by the embodiment, the success rate of data transmission can be further improved to the maximum extent, so that the data transmission efficiency of the whole network is further improved.
Based on the above idea, an embodiment of the present invention further provides a terminal for transmitting data between a terminal and a network, further including: a receiving unit, configured to receive a handover command sent by a network; and the transmission unit is used for transmitting data by using the data transmission channel allocated to the specified target cell in the switching command. Fig. 5 is a schematic structural diagram of a data transmission terminal according to a preferred embodiment of the present invention.
The terminal includes: a transmission unit 501, a transmission channel establishing unit 502, a request message sending unit 503, a receiving unit 504, wherein,
the request message sending unit 503 is configured to send, when the terminal serves as an uplink sending end, a request message for establishing an uplink data transmission channel to a network. The request message for establishing the uplink data transmission channel includes a PFI corresponding to an uplink TBF to be established in the current cell and a QoS required by service data to be transmitted.
The receiving unit 504 is configured to receive, when the terminal serves as an uplink sending end, different response messages sent from a network for the request message for establishing the uplink data transmission channel, and specify different units to perform corresponding operations according to the different response messages, specifically: when the received response message is a handover command, sending a handover instruction to the transmission unit 501; when the received response message is one or more uplink TBF assignment messages, sending a data transmission instruction to the transmission unit 501; in addition, when the received response message is a switching command containing newly-created data transmission channel information that the terminal does not have, the receiving unit 504 is further configured to send a data transmission channel establishment instruction to the transmission channel establishing unit 502.
The transmission unit 501: after receiving the handover command sent by the receiving unit 504, the ue transmits data through the data transmission channel allocated to the specified target cell in the handover command. Meanwhile, the ue is further configured to send the traffic data to the current cell after receiving one or more uplink TBF assignment messages sent by the receiving unit 504.
The transmission channel establishing unit 502: after receiving the instruction for establishing a data transmission channel sent by the receiving unit 504, the apparatus is configured to establish a new data transmission channel corresponding to the target cell according to the new data transmission channel information allocated to the target cell in the instruction.
Through the terminal for transmitting data between the terminal and the network disclosed by the embodiment, the success rate of data transmission can be further improved to the maximum extent, so that the data transmission efficiency of the whole network is further improved.
Based on the above idea, an embodiment of the present invention further provides a network for transmitting data between a terminal and the network, including a sending unit, where the sending unit is further configured to send a handover command to the terminal when a data transmission channel is established. Please refer to fig. 6, which is a schematic structural diagram of a data transmission network according to a preferred embodiment of the present invention. The network comprises: switching section 601, receiving section 603, transmitting section 605, determining section 602, and resource allocating section 604,
the receiving unit 603 is configured to receive a request message for establishing an uplink data transmission channel sent from a terminal, receive downlink service data sent to a downlink receiving terminal, and send the received information to the determining unit 602. The request message for establishing the uplink data transmission channel includes a PFI corresponding to an uplink TBF to be established in the current cell and a QoS required by service data to be transmitted.
The determining unit 602 is configured to determine, according to the QoS information carried in the information sent from the receiving unit 603, whether a current cell of the terminal has sufficient resources to meet the QoS requirement of the data transmission, and if so, send a current cell allocation instruction to the resource allocating unit 604; or when not, a switching instruction is issued to the switching unit 601.
The switching unit 601 is configured to select a target cell after receiving the switching instruction sent by the determining unit 602, and notify the determining unit 602 of the selected target cell.
The determining unit 602 is further configured to determine whether the target cell has sufficient resources after receiving the instruction of the switching unit 601, and if so, send a target cell allocation instruction to the resource allocating unit 604;
the resource allocation unit 604 is configured to, after receiving the current cell allocation instruction or the target cell allocation instruction sent by the determining unit 602, correspondingly allocate the resource required for the data transmission to the cell. In addition, the resource allocation unit 604 is further connected to the sending unit 605, and is respectively configured to send a successful allocation instruction of the current cell to the sending unit 605 when the current cell is successfully allocated; or when the target cell allocation is successful or failed, send a target cell allocation success or failure instruction to the sending unit 605;
the sending unit 605 is configured to send different messages to the terminal according to different instructions of the resource allocation unit 604, specifically:
when receiving the instruction of assigning success for the current cell, the sending unit 605 is configured to send one or more TBF uplink and downlink assignment messages to the terminal; or when receiving a target cell allocation success instruction, the sending unit 605 is configured to send a handover command to the terminal; or when receiving a target cell allocation failure instruction, the sending unit 605 is configured to send an access reject message to the terminal.
Through the network for transmitting data between the terminal and the network disclosed by the embodiment, the success rate of data transmission can be further improved to the maximum extent, so that the data transmission efficiency of the whole network is further improved.
The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A method for transmitting data between a terminal and a network is characterized by comprising the following steps:
when a data transmission channel is established, a network sends a switching command to a terminal, and the terminal transmits data by using the data transmission channel allocated to the specified target cell in the switching command.
2. The method according to claim 1, wherein the handover command includes information of a newly created data transmission channel that the terminal does not have;
before transmitting data, the terminal further comprises: and the terminal establishes the new data transmission channel corresponding to the target cell.
3. The method for transmitting data between a terminal and a network according to claim 1 or 2, wherein before sending the handover command to the terminal, the method further comprises:
judging whether the current cell of the terminal has enough resources to meet the requirement of data transmission, if not, selecting a target cell;
and judging whether the selected target cell has enough resources, and if so, allocating a transmission channel required by the data transmission for the target cell.
4. The method for transmitting data between a terminal and a network according to claim 3,
if the target cell has insufficient resources, the network repeatedly executes the steps of selecting the target cell and judging whether the selected target cell has sufficient resources.
5. The method for transmitting data between a terminal and a network according to claim 1,
the switching command is a response of the network to a request message for establishing a data transmission channel sent by the terminal.
6. The method for transmitting data between a terminal and a network according to claim 1,
the data transmission channel includes: temporary block flow, radio access bearer.
7. The method for transmitting data between a terminal and a network according to claim 1,
the handover command includes: packet switch command, dual transfer mode switch command.
8. A system for transmitting data between a terminal and a network comprises the terminal and the network, and is characterized in that,
the network is further used for sending a switching command to the terminal when a data transmission channel is established;
and the terminal is further used for transmitting data by using a data transmission channel allocated to the specified target cell in the switching command after receiving the switching command sent by the network.
9. The system according to claim 8, wherein when the handover command includes information of a newly created data transmission channel that the terminal does not have, the terminal is further configured to establish the new data transmission channel corresponding to the target cell.
10. A system for transmitting data between a terminal and a network as claimed in claim 8 or 9, wherein the network is further arranged to:
judging whether the current cell of the terminal has enough resources to meet the requirement of data transmission, if not, selecting a target cell; and a process for the preparation of a coating,
and judging whether the selected target cell has enough resources, and if so, allocating a transmission channel required by the data transmission for the target cell.
11. A terminal for transmitting data between the terminal and a network, the terminal further comprising:
a receiving unit, configured to receive a handover command sent by a network;
and the transmission unit is used for transmitting data by using the data transmission channel allocated to the specified target cell in the switching command.
12. The terminal for communicating data between the terminal and the network as claimed in claim 11, wherein the terminal further comprises:
and a transmission channel establishing unit, configured to establish the new data transmission channel corresponding to the target cell when the handover command includes information of a newly-established data transmission channel that the terminal does not have.
13. A network for transmitting data between a terminal and the network, comprising a sending unit,
the sending unit is further configured to send a handover command to the terminal when the data transmission channel is established.
14. The network for transmitting data between a terminal and a network according to claim 13, further comprising: a judging unit, a resource allocating unit, a switching unit, wherein,
the judging unit is used for judging whether the current cell of the terminal has enough resources to meet the requirement of data transmission or not, and sending a switching instruction to the switching unit if the current cell of the terminal does not have enough resources to meet the requirement of data transmission; judging whether the target cell has enough resources, and sending a distribution instruction to the resource distribution unit when the target cell has enough resources;
the switching unit is used for selecting a target cell after receiving the switching instruction of the judging unit; and informing the judgment unit of the selected target cell;
the resource allocation unit is used for allocating the resources required by the data transmission to the target cell after receiving the allocation instruction of the judgment unit; and after the distribution, sending a switching instruction to the sending unit.
CNA2007100075991A 2007-02-08 2007-02-08 Method for transmitting data between terminal and network and system, network and terminal Pending CN101242349A (en)

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CNA2007100075991A CN101242349A (en) 2007-02-08 2007-02-08 Method for transmitting data between terminal and network and system, network and terminal
PCT/CN2008/070204 WO2008095437A1 (en) 2007-02-08 2008-01-29 Method, system, network and terminal for transmitting data between the terminal and the network

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Application Number Priority Date Filing Date Title
CNA2007100075991A CN101242349A (en) 2007-02-08 2007-02-08 Method for transmitting data between terminal and network and system, network and terminal

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FI109510B (en) * 1997-02-28 2002-08-15 Nokia Corp Handover and call set-up in a mobile communication system
FI109071B (en) * 2000-01-17 2002-05-15 Nokia Corp A signaling
GB0124958D0 (en) * 2001-10-17 2001-12-05 Nokia Corp A handover message
FR2832897B1 (en) * 2001-11-23 2004-02-27 Evolium Sas METHOD FOR CELL CHANGE IN A PACKET MOBILE RADIO COMMUNICATION CELL SYSTEM
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Application publication date: 20080813