JP5712443B2 - Prioritization method and related device - Google Patents

Description

Cross-reference of related applications. Claims priority based on patent application No. 201110043382.2.

  The present invention relates to the field of communications, and in particular, to a method for adjusting priorities and related devices.

  With the development of communication technology, it is possible to execute data transmission between a network side and a user by bundling a plurality of carriers by a code division multiple access (CDMA) system. Compared to a single carrier, multi-carrier transmission has a higher transmission rate, which can reduce the waiting time of the user, thereby improving the quality of communication service.

  In wireless broadband multi-user sharing systems, bandwidth limited links employ multi-user sharing and preemption policies during data transmission. As a result, the bandwidth utilization rate can be maximized. In a CDMA multi-carrier transmission system, for example, in Evolution Data Optimized Revision B (EVDO Rev B) system, a base station (BTS, Base Transceiver Station) and a base station controller (BSC, Base Station Controller) And the radio link between the BTS and the user equipment is a bottleneck in the overall system bandwidth. In a multi-carrier transmission system, the two parts of the link are shared by multiple users and the users keep up.

  In a wireless broadband multi-user sharing system, users using services of peer-to-peer (P2P) network technology require a lot of bandwidth and share a lot of wireless bandwidth resources to create a radio resource killer ( wireless resource killer). In CDMA systems, EVDO REV B users can achieve a higher rate experience by bundling multiple carriers. However, after bundling multiple carriers, EVDO REV B takes up more carrier resources. Especially for EVDO REV B user equipment using P2P service, one EVDO REV B user equipment that bundles three carriers corresponds to three carriers each having one user using P2P service. Such EVDO REV B user equipment that bundles three carriers seriously affects the service experience of users of three carriers each with one user, which means that P2P service occupies a lot of radio bandwidth resources The problem may get worse. This issue is already a major operator concern and obstacle in the development of EVDO REV B.

  In the conventional technology, service content used by a user is identified by a deep packet inspection (DPI) technology. If the service content is identified as a P2P service, the user data transmission rate is limited or the number of carriers bundled by the user is limited.

  However, the method of limiting resources by implementing an identification technique for users using P2P services has the following drawbacks.

  1: Static limit. When identifying that a user uses a P2P service, the system enforces a static limit on the transmission rate and / or the number of user equipment carriers that the user uses. When the network state is busy, this method limits the user from competing for resources, but when the network state is idle, the user's transmission rate is still limited, thus freeing up enough network resources. Cannot be used to increase the transmission rate.

  2: Low scalability. This method needs to implement a static limit on the number of carriers or the transmission rate of P2P packets for each service type. When a newly added P2P service appears on the market, it is necessary to analyze the packet of this newly added P2P service, and it is necessary to redefine the restriction policy. Scalability is low.

  Embodiments of the present invention provide methods and associated devices for adjusting priorities, which are used in multi-carrier transmission techniques to reduce multi-carrier user preemption while reducing the resource preemption of another single-carrier user. The data transmission rate of the user can be increased.

The method for adjusting priority provided in the present invention includes obtaining a number of carriers used by a user equipment to establish an air interface connection after the user equipment initiates a call connection; Obtaining a transmission priority A currently assigned to the network, and adjusting the transmission priority A currently assigned according to the number of carriers to obtain an adjusted transmission priority A _N with a large number of carriers. The adjusted transmission priority A _N includes a step of lowering.

The apparatus for adjusting priority provided in the present invention is configured to obtain the number of carriers used by a user equipment to establish an air interface connection after the user equipment initiates a call connection. The first acquisition unit, the second acquisition unit configured to acquire the transmission priority A currently assigned to the user equipment, and adjusted the transmission priority A according to the number of carriers. An adjustment unit configured to obtain a transmission priority AN, wherein the adjusted transmission priority AN decreases as the number of carriers increases.

  From the above technical solution, it can be inferred that the embodiments of the present invention have the following advantages. In the present invention, after the user equipment initiates the call connection, the number of carriers and transmission priority used by the user equipment to establish the air interface connection are obtained, and the transmission priority is adjusted according to the number of carriers. Thus, the more carriers, the lower the adjusted transmission priority of the user equipment, and therefore, when the network state is busy, the user with a small number of carriers has priority when acquiring channel resources, and the network When the state is idle, a user having many carriers can also enjoy a high transmission rate. Furthermore, the present invention adjusts the transmission priority according to the number of carriers, so that in general this is applicable to users of various carrier types and service types.

4 is a schematic flowchart of a method for adjusting priority according to an embodiment of the present invention; 3 is another schematic flowchart of a method for adjusting priority according to an embodiment of the present invention; 4 is a signaling flowchart of a method for adjusting priority according to an embodiment of the present invention; 1 is a schematic logical structural diagram of an apparatus for adjusting priorities according to an embodiment of the present invention; FIG. 4 is another schematic logical structural diagram of an apparatus for adjusting priority according to an embodiment of the present invention;

  Embodiments of the present invention provide methods and associated devices for adjusting priorities, which are used in multi-carrier transmission techniques to reduce multi-carrier user resource preemption while reducing the resource preemption of another single-carrier user. The data transmission rate can be increased.

  Referring to FIG. 1, one embodiment of a method for adjusting priorities of one embodiment of the present invention includes:

  101: Establish air interface connection with user equipment.

  After the user equipment initiates the call connection, the BSC and the user equipment negotiate the session attribute configuration. The BSC transmits a traffic channel assignment (TCA) message to the user equipment according to the state of each channel. After selecting the data transmission channel according to the TCA message, the user equipment transmits a traffic channel complete (TCC) message to the BSC to confirm that the air interface connection with the BSC has been established.

  The user equipment can be a radio telephone, a wireless network computer or a notebook computer, and can also be a mobile station device.

  102: Obtain the number of carriers for establishing an air interface connection.

  After receiving the TCA message, the user equipment knows from the TCA message which carrier needs to be established. The user equipment sends a reverse signal on the carrier that needs to be established. Capture the reverse signal on each carrier with BTS established. If the acquisition is successful, the carrier is successfully established, and the BSC obtains a message indicating the successful establishment of the BTS carrier and collects statistics on the number of carriers successfully established between the user equipment and the BTS.

  If the acquired number of carriers is 1, the system type used by the user equipment is a single carrier system (eg EVDO REV A). The resources bundled by a single carrier system are limited, so when a single carrier system user is using P2P service, excessive preemption of network resources does not occur.

  If the acquired number of carrier waves is 3 or more, the system type used by the user equipment is a multi-carrier system (eg, EVDO REV B). In a multi-carrier system such as EVDO REV B, the total bandwidth between the BSC and user equipment is divided into three carriers, and EVDO REV B users can use three-carrier radio resources (including channels and time slots). ) Can be bundled together, so that the peak speed can be tripled. When EVDO REV B users use P2P services, this is equivalent to three EVDO REV A users using P2P services at the same time, causing preemptive network resources and increasing rapidly. Will seriously affect the service experience of users.

  103: Obtain the transmission priority of the user equipment.

  The BSC obtains the transmission priority A currently assigned to the user equipment.

  The bandwidth between BTS and BSC and the bandwidth between BTS and user equipment are limited, and a plurality of users share the bandwidth. Thus, to avoid the confusion that occurs when users are competing for bandwidth, the user equipment to which each user corresponds is assigned a transmission priority, and the scheduler sends the data according to the transmission priority. Select. If users have the same transmission priority, they have the same probability of being selected at the same time.

  After the air interface connection is established between the user equipment and the BSC, the user equipment can use a packet data serving node (PDSN) and a point-to-point protocol (PPP) according to a predetermined negotiation procedure. A connection can be established. After a PPP connection is established between the user equipment and PDSN, the packet data serving node authentication, authorization, and billing server (PDSN-AAA, Packet Data Serving Node-Authentication, Accounting, Authorization Server) A is assigned to the user equipment, and the BSC is notified of the transmission priority A so that the BSC can control the data transmission order between the user equipment and the PDSN according to the transmission priority A.

  104: Adjust the transmission priority of the user equipment.

The BSC according to the number of carriers used in the user equipment to establish an air interface connection, and adjust the transmission priority A user equipment, as the carrier increases, transmission priority A _N is adjusted is low.

A particular adjustment method may be to adjust according to an inversely proportional relationship between the adjusted transmission priority AN and the number N of carriers, eg AN = A / N.

Furthermore, the transmission priority can be adjusted by using a non-linear piecewise function, and thus the adjusted transmission priority AN becomes lower as the number of carriers increases, but is not particularly limited herein.

In the prior art, after the PDSN-AAA notifies the BSC of the transmission priority A of the user equipment, the BSC scheduler determines when to transmit data to the user equipment according to the transmission priority A. Since prior art PDSN-AAA cannot know about the number of carriers used by the user equipment to establish the air interface connection, the transmission priorities are simply assigned according to the normal order, and the multi-carrier user The device can perform data transmission with priority over subsequent single carrier user devices. When the network encounters a busy time segment, such multi-carrier user equipment affects the data transmission of most subsequent single-carrier user equipment. However, in an embodiment of the present invention, after the BSC obtains the transmission priority A, the BSC adjusts the transmission priority A according to the number of carriers used by the user equipment to establish the air interface connection. The transmission priority A _N can be made more appropriate.

After the BSC calculates the adjustment to the transmission priority A and obtains the adjusted transmission priority AN, the BSC performs data transmission with the user equipment according to the adjusted transmission priority AN. Specifically, the following may occur: The BSC scheduler assigns the order of data transmission performed by the user equipment according to the adjusted transmission priority AN, and the BSC assigns the user equipment and data according to this order. Perform transmission.

  In the present invention, after the user equipment initiates the call connection, the number of carriers and transmission priority used by the user equipment to establish the air interface connection are obtained, the transmission priority is adjusted according to the number of carriers, The more carriers, the lower the adjusted transmission priority of the user equipment, so when the network state is busy, users with fewer carriers are prioritized in acquiring channel resources and the network state is idle. Sometimes users with many carriers can also enjoy high transmission rates. Furthermore, in the present invention, the transmission priority is adjusted according to the number of carriers, so this is generally applicable to users of various carrier types and service types.

When the user equipment is performing data transmission with the PDSN, if the number of carrier waves of the user equipment changes, the BSC needs to adjust the transmission priority of the user equipment again accordingly. See FIG. 2 for details. Another embodiment of a method for adjusting transmission priority in one embodiment of the present invention includes:

  201: Establish initial call connection.

  After the user equipment initiates the call connection, the BSC and user equipment negotiate the configuration of the session attributes, and the access network authentication, authorization, and billing server (AN-AAA, Access Network-Authentication, Accounting, Authorization Server) Perform user device access authentication. After successful authentication, an air interface connection is established between the user equipment and the BSC, so the user equipment can connect to the PDSN and PPP via an intermediate device such as BTS and Packet Control Function (PCF). The transmission priority A assigned to the user equipment by PDSN-AAA can be acquired. After the user equipment sets the transmission priority A accordingly, the establishment of the initial call connection between the user equipment and the PDSN is completed and the user equipment can perform data transmission with the PDSN.

  The process of initial call establishment and the process of setting transmission priorities during initial call establishment may refer to the steps of the embodiment shown in FIG. 1, and details are not described herein again.

  202: Receive a channel update request sent by a user equipment.

  The BSC receives the channel update request sent by the user equipment.

I: During the process of data transmission between the user equipment and the PDSN, the user equipment determines whether the carrier resources currently allocated by the BTS meet the service connection needs and how to determine Can be included.
1. Check the signal-to-noise ratio of the current communication link. If the signal-to-noise ratio of the current communication link is greater than a preset threshold, the carrier resources currently allocated by the BTS cannot meet the service connection needs.
2. Check the carrier power of the current communication link. If the carrier power of the current communication link is smaller than a preset threshold, the carrier resources currently allocated by the BTS cannot meet the service connection needs.

  The method for determining whether the carrier resources currently allocated by the BTS meet the service connection needs is not exhaustive. In actual applications, it can be understood that there are other determination methods that are not particularly limited herein.

  If the carrier resources currently allocated by the BTS cannot meet the needs of the service connection, the user equipment sends a channel update request to the BSC to switch carrier channels, add carrier channels, or carrier waves Request to delete a channel.

  II: If the user equipment moves during the process of data transmission between the user equipment and the PDSN, the wireless environment also changes at the same time, and the user equipment needs to establish a new connection with the BTS. Therefore, the user equipment also sends a channel update request to the BSC.

  After the BSC receives the channel update request, the BSC enters the traffic channel update process.

  203: Send a traffic channel assignment message.

  After the BSC receives the channel update request sent by the user equipment, the BSC analyzes the channel update request, determines the channel and carrier resources allocated to the user equipment, sends a traffic channel assignment message to the user equipment, The channel assignment message carries the newly assigned channel and carrier resources.

  The channel update request may include the type of service currently being performed by the user equipment, the type of service to be performed by the user equipment, or the user equipment requirements for network resources. When the BSC obtains information from the channel update request, the BSC determines a channel and carrier resource allocated to the user equipment according to a pairing mapping relationship between the service type and the carrier resource and a preset calculation rule.

  The traffic channel assignment message may be a TCA message, the channel and carrier resource information included in the traffic channel assignment message may be a fixedly assigned channel and carrier resource, and an optional channel and carrier resource It can also be.

  204: Receive a traffic channel update message.

  The BSC receives the traffic channel update message returned by the user equipment.

  After the user equipment receives the traffic channel assignment message sent by the BSC, the user equipment retrieves the channel and carrier resource information in the traffic channel assignment message. The traffic channel update message may be a TCC message.

  If channel and carrier resource information is optional, the user equipment selects the appropriate channel and carrier resource and selects the selected channel according to the application needs or local channel usage (idle or busy). And the carrier resource is notified to the BSC by a traffic channel update message.

  If the channel and carrier resource information is fixedly allocated, the user equipment confirms to transmit data using the channel and carrier resource information, and returns a confirmation message to the BSC with a traffic channel update message.

  205: Obtain the number of carriers of the newly established air interface connection.

  After receiving the traffic channel update message, the BSC establishes an information air interface connection with the user equipment according to the traffic channel update message and obtains the number N of newly established air interface connections. N is greater than 0.

  206: Detect the number of carriers to establish an air interface connection.

After the BSC obtains the number N of newly established air interface connection carriers, the BSC compares the number N ₀ of previously established air interface connection carriers with the number N of newly established carrier carriers. However, N ₀ is larger than ₀ . If the number N of carriers is not equal to the number N ₀ of carriers, the step of adjusting the transmission priority A according to the number N of carriers is triggered.

  When the user equipment performs a channel update, the channel update can simply be a channel exchange and the number of carriers does not change. When the channel update initiated by the user equipment is a carrier addition / deletion process, the number of carriers changes. Therefore, the BSC and user equipment need to detect the number of newly established carriers in order to properly adjust the transmission priority in time.

  207: Adjust the transmission priority of the user equipment.

The BSC adjusts the transmission priority A of the user equipment according to the number N of carriers used by the user equipment to establish the air interface connection, obtains the adjusted transmission priority A _N , where The adjustment method may be performed according to an inversely proportional relationship between the adjusted transmission priority A _N and the number N of carriers, for example, A _N = A / N.

Furthermore, the transmission priority can also be adjusted by using a non-linear piecewise function, and thus the adjusted transmission priority AN decreases as the number of carriers increases, but is not particularly limited herein.

After the BSC calculates the adjustment to transmission priority A and obtains the adjusted transmission priority AN, the BSC scheduler determines the order of data transmission performed by the user equipment according to the adjusted transmission priority AN. Allocation and BSC perform data transmission with the user equipment according to this order.

  Optionally, embodiments of the present invention can further include the following steps:

  208: Send an update notification message.

After obtaining the adjusted transmission priority AN, the BSC can send a notification message to the user equipment, which informs the adjusted transmission priority AN and the user equipment has adjusted the transmission priority AN. So that when the user equipment sends data to the PDSN, the user equipment scheduler can transmit data in conformity with the transmission order corresponding to the BSC. it can.

  In an embodiment of the present invention, when the user equipment is performing data transmission with the PDSN, the user equipment initiates a traffic channel update request due to lack of channel resources and is used by the user equipment to establish an air interface connection. The number of carriers to be changed can be changed. Embodiments of the present invention provide a corresponding mechanism for obtaining the number of newly established carriers and a mechanism for detecting the new and previous number of carriers, and thus air between the user equipment and the BSC. When the number of carriers for establishing an interface connection changes, the transmission priority can be adjusted in time, allowing the network side to properly allocate network resources for each user equipment. Also, the embodiment of the present invention further provides a step of transmitting a notification message for updating the transmission priority to the user equipment, so that the user equipment performs synchronization adjustment to the transmission priority when performing data transmission with the PDSN. .

  In actual applications, in addition to user equipment taking the initiative to initiate traffic channel updates, devices in the access network (AN, Access Network) (eg, BTS) also initiate the traffic channel update process. For example, when the user equipment is performing data transmission with the PDSN, and when the BTS detects that the transmission power of the user equipment is insufficient to establish a carrier with the BSC and the transmission signal is bad, The BTS also sends a channel update request to the BSC and triggers the process of steps 203-208 of the embodiment shown in FIG. 2, but details are not described here again.

  For ease of understanding, the following describes in detail the method for adjusting priorities in this embodiment using a specific application scenario, and referring to FIG. 3, the method is specifically as follows: is there.

  301: Negotiate session attribute configuration.

  The user equipment needs to establish a service connection with the network side. The user equipment sends a connection request message to the BSC and requests connection establishment.

  After the BSC receives the connection request message, the BSC inquires about the idle channel resource of the BSC according to the service request of the user equipment, creates a TCA message, and transmits this TCA message to the user equipment.

  The user equipment receives the TAC message sent by the BSC, selects the channel resource used for the service connection, returns the TCC message to the BSC, and uses the network resources (including number of carriers, channel, and time slot) ) Is confirmed.

  302: Perform access authentication.

  After the user equipment transmits a connection request message to the BSC, the BSC feeds back the connection request to the AN-AAA, and the AN-AAA performs access authentication by exchanging information with the user equipment through signaling.

  Certain access authentication can use key negotiation method, and AN-AAA authentication management unit reserves several bits storage space used to store authentication algorithms and authentication keys To do. AN-AAA transmits an authentication key to the user equipment by signaling. The user equipment performs a calculation according to a preset authentication algorithm, obtains a key identifier of the authentication key, and returns this key identifier to AN-AAA through signaling. AN-AAA determines whether the key identifier is correct. If correct, access authentication for the user equipment is successful.

  303: Establish air interface connection.

After the BSC receives the TCC message returned by the user equipment and the access authentication for the user equipment is successful, the user equipment can establish an air interface connection with the BSC. The BSC also obtains the number of carriers N ₀ used by the user equipment to establish the air interface connection.

  304: Establish a PPP connection.

  After the air interface connection is established, the user equipment and BSC negotiate and exchange access flow data. After the negotiation is completed, the user equipment starts a PPP connection with the PDSN. The user equipment and PDSN negotiate the PPP connection via the intermediate device (including access authentication, updating the local authentication identifier, and confirming the access request).

  305: Indicates transmission priority.

  After the user equipment and the PDSN complete the PPP connection negotiation, the user equipment and the PDSN perform data transmission. At this time, the PDSN-AAA assigns the transmission priority A to the user equipment, notifies the BSC of the transmission priority A, and allows the BSC to control the data transmission order between the user equipment and the PDSN according to the transmission priority A. To do.

  306: Adjust transmission priority A.

The BSC calculates the adjustment for the transmission priority A and obtains the adjusted transmission priority AN. A particular adjustment method may be to adjust according to an inversely proportional relationship between the adjusted transmission priority AN and the number of carriers N0, eg AN = A / N0.

After the BSC performs the adjustment calculation for transmission priority A and obtains the adjusted transmission priority AN, the BSC uses the adjusted transmission priority AN for the user equipment stored locally in the BSC. The transmission priority is updated so that the BSC scheduler can assign the order of data transmission performed by the user equipment according to the adjusted transmission priority AN.

307: Send the adjusted transmission priority AN.

After obtaining the adjusted transmission priority AN, the BSC can send a notification message to the user equipment, which informs the adjusted transmission priority AN and the user equipment has adjusted the transmission priority AN. Can be used to update the local transmission priority, so when the user equipment sends data to the PDSN, the user equipment scheduler can perform data transmission in the order corresponding to the BSC .

  308: Data transmission is performed.

After a PPP connection is established between the user equipment and the PDSN, and the scheduler of the user equipment and each level of the access device acquires the adjusted transmission priority AN, the data service between the user equipment and the PDSN is in a connected state. Therefore, the user equipment and the PDSN can transmit data to each other.

  309: A channel update request is started.

  If the carrier resources currently allocated by the BTS cannot meet the service connection needs or if the user equipment has a new service that needs to be established, the user equipment initiates a channel update request to the BSC To do.

  310: Send a traffic channel assignment message.

  After the BSC receives the channel update request sent by the user equipment, the BSC analyzes the channel update request, determines the channel and carrier resources allocated to the user equipment, sends a traffic channel assignment message to the user equipment, The channel assignment message carries the newly assigned channel and carrier resources.

  The channel update request may include the type of service currently being performed by the user equipment, the type of service to be performed by the user equipment, or the user equipment requirements for carrier or channel resources. When the BSC obtains information from the channel update request, the BSC determines a channel and carrier resource allocated to the user equipment according to a pairing mapping relationship between the service type and the carrier resource and a preset calculation rule.

  The traffic channel assignment message may be a TCA message, the channel and carrier resource information included in the traffic channel assignment message may be a fixedly assigned channel and carrier resource, and an optional channel and carrier resource It can also be.

  311: Return traffic channel update message.

  After the user equipment receives the traffic channel assignment message sent by the BSC, the user equipment retrieves the channel and carrier resource information in the traffic channel assignment message. The traffic channel assignment message may be a TCC message.

  If channel and carrier resource information is optional, the user equipment selects a suitable channel and carrier resource according to its application needs or local channel usage (idle or busy), and selects the selected channel and carrier resource. Is notified to the BSC by a traffic channel update message.

  If the channel and carrier resource information is fixedly allocated, the user equipment confirms transmission of data using the channel and carrier resource information, and returns a confirmation message to the BSC with a traffic channel update message.

  312: Detect the number of carriers to establish an air interface connection.

After the BSC obtains the number N of newly established air interface connection carriers, the BSC compares the number N ₀ of the previously established air interface connection carriers with the number N of newly established air interface connection carriers. To do. If the number of carriers N is not equal to the number of carriers N ₀ , trigger the step of adjusting the transmission priority A according to the number of carriers N.

  313: Adjust the transmission priority of the user equipment again.

The BSC calculates the adjustment to the transmission priority A and obtains the adjusted transmission priority AN. A particular adjustment method may be to adjust according to an inversely proportional relationship between the adjusted transmission priority AN and the number N of carriers, eg AN = A / N.

Next, an embodiment of the BSC of the present invention configured to execute a method for adjusting priorities will be described. Refer to FIG. 4 for the logical structure. One embodiment of the BSC of one embodiment of the present invention is:
A first acquisition unit 401 configured to acquire the number of carriers used by the user equipment to establish an air interface connection after the user equipment initiates a call connection;
A second acquisition unit 402 configured to acquire a transmission priority A assigned to the user equipment;
An adjustment unit 403 configured to adjust the transmission priority A according to the number of carriers and to obtain an adjusted transmission priority AN, wherein the adjusted transmission priority AN decreases as the number of carriers increases. .

  Next, a specific interaction process between each unit of the BSC in the embodiment of the present invention will be described.

  After the user equipment initiates the call connection, the BSC and the user equipment negotiate the configuration of session attributes. The BSC sends a TCA message to the user equipment according to the state of each channel. After selecting the data transmission channel according to the TCA message, the user equipment sends a TCC message to the BSC to confirm that the air interface connection with the BSC has been established.

  After receiving the TCA message, the user equipment knows from the TCA message which carrier needs to be established. The user equipment sends a reverse signal on the carrier that needs to be established. The BTS captures a reverse signal for each established carrier. If the acquisition is successful, the carrier is successfully established, and the first acquisition unit 401 collects statistics on the number of carriers successfully established between the user equipment and the BTS, ie establishes an air interface connection Get the number of carriers for.

  After the air interface connection is established between the user equipment and the BSC, the user equipment establishes a PDSN and PPP connection by a predetermined negotiation mechanism, and triggers PDSN-AAA to assign transmission priority A to the user equipment. Can do. The BSC second acquisition unit 402 then acquires the transmission priority A.

After the user equipment obtains the number of carriers of the air interface connection and the transmission priority A, it triggers the adjustment unit 403 to adjust the transmission priority A of the user equipment according to the number of carriers for establishing the air interface connection . As the number of carriers increases, the adjusted transmission priority AN decreases. A particular adjustment method may be to adjust according to an inversely proportional relationship between the adjusted transmission priority AN and the number N of carriers, eg AN = A / N. Furthermore, the transmission priority can also be adjusted by using a non-linear piecewise function, and thus the adjusted transmission priority AN decreases as the number of carriers increases, but is not particularly limited herein.

Optionally referring to FIG. 5, the BSC in an embodiment of the present invention is
A first message is configured to send a notification message that communicates the adjusted transmission priority AN to the user equipment, and allows the user equipment to update the local transmission priority using the adjusted transmission priority AN. Transmission unit 404 of
A second transmission unit 405 configured to transmit a traffic channel assignment message to the user equipment;
Receive the traffic channel update message returned by the user equipment and trigger the first acquisition unit 401 to traffic the number of carriers used by the user equipment to establish an air interface connection in the traffic channel update message. A first receiving unit 406 configured to obtain in a channel update message;
A second receiving unit 407 configured to receive a channel update request transmitted by the user equipment and trigger a second transmitting unit;
A detection unit 408 configured to detect the number N of carriers used by the user equipment to establish an air interface connection, and triggering the adjustment unit if the number of carriers changes.

  Next, a specific interaction process between each unit of the BSC in the embodiment of the present invention will be described.

  After the user equipment initiates the call connection, the BSC and the user equipment negotiate the configuration of session attributes. The BSC sends a TCA message to the user equipment according to the state of each channel. After selecting the data transmission channel according to the TCA message, the user equipment returns a TCC message to the BSC to confirm that the air interface connection with the BSC has been established. After receiving the TCA message, the user equipment knows from the TCA message which carrier wave needs to be established. The user equipment sends a reverse signal on the carrier that needs to be established. The BTS captures a reverse signal for each established carrier. If the acquisition is successful, the carrier is successfully established, and the first acquisition unit 401 obtains a message indicating the establishment of a normal BTS carrier, and the number of carriers successfully established between the user equipment and the BTS. Collect statistics on.

  After the air interface connection is established between the user equipment and the BSC, the user equipment can establish a PPP connection with the PDSN according to a predetermined negotiation procedure. After a PPP connection is established between the user equipment and PDSN, PDSN-AAA assigns transmission priority A to the user equipment, and second acquisition unit 402 obtains transmission priority A assigned to the user equipment To do.

Adjustment unit 403, according to the number of carriers used by the user equipment to establish the air interface connection, and adjust the transmission priority A user equipment, as the carrier increases, transmission priority A _N to be adjusted is low Become.

In the prior art, after the PDSN-AAA notifies the BSC of the transmission priority A of the user equipment, the BSC scheduler determines when to transmit data to the user equipment according to the transmission priority A. Since the prior art PDSN-AAA cannot know about the number of carriers used by the user equipment to establish the air interface connection, it can simply assign transmission priorities according to the normal order, The user equipment can be prioritized over subsequent single carrier user equipment for data transmission. When a time segment is encountered when the network is busy, subsequent data transmissions made by the majority of single carrier user equipment are affected. However, in an embodiment of the present invention, after the BSC obtains transmission priority A, the BSC adjusts transmission priority A according to the number of carriers used by the user equipment to establish the air interface connection. The transmission priority order A _N can be made more appropriate.

After the adjustment unit 403 calculates adjustment to the transmission priority A and obtains the adjusted transmission priority AN, the BSC performs data transmission with the user equipment according to the adjusted transmission priority AN. The first transmission unit 404 sends a notification message to the user equipment, the notification message carries the adjusted transmission priority AN, and the user equipment uses the adjusted transmission priority AN to local transmission priority Therefore, when the user equipment transmits data to the PDSN, the scheduler of the user equipment can perform data transmission in conformity with the transmission order corresponding to the BSC.

  When the user equipment takes the initiative to start the channel update, the second receiving unit 407 receives the channel update request sent by the user equipment and triggers the second sending unit 405 to enter the traffic channel update process. enter.

  After the second receiving unit 407 receives the channel update request transmitted by the user equipment, the BSC analyzes the channel update request, determines the channel and carrier resources allocated to the user equipment, and the second transmitting unit 405 A traffic channel assignment message is transmitted to the user equipment, which carries the user equipment assigned channel and carrier resources. The traffic channel assignment message may be a TCA message, the channel and carrier resource information included in the traffic channel assignment message may be a fixedly assigned channel and carrier resource, and an optional channel and carrier resource It can also be.

  The first receiving unit 406 receives the traffic channel update message returned by the user equipment, confirms that the air interface connection is established again between the user equipment and the BSC, and Trigger to obtain in the traffic channel update message the number of carriers used by the user equipment to establish the air interface connection in the traffic channel update message. The traffic channel update message may be a TCC message. The detection unit 408 detects the number N of carriers used by the user equipment to establish an air interface connection. If the number of carriers changes, the adjustment unit 403 is triggered to adjust the transmission priority A again.

  In actual applications, in addition to the user equipment taking the initiative to initiate traffic channel updates, the AN device (eg, BTS) also initiates the traffic channel update process. After the BTS starts updating the traffic channel, it triggers the second transmission unit 405 to perform the corresponding operation. The specific operation process is similar to the process by which the user equipment initiates the traffic channel update, and details are not described here again.

  One skilled in the art can appreciate that all or some of the method steps of the embodiments may be performed by a program that instructs the associated hardware. The program can be stored in a computer-readable storage medium. The storage medium can be a read-only memory, a magnetic disk, an optical disk, or the like.

  The above introduces in detail the method and related devices for adjusting priorities provided in the present invention. Those skilled in the art can make changes in the scope of specific implementations and applications in accordance with the concepts of the present invention. In conclusion, the contents of this specification should not be construed as a limitation on the present invention.

401 First acquisition unit
402 Second acquisition unit
403 Adjustment unit
404 1st sending unit
405 Second transmission unit
406 First receiving unit
407 Second receiver unit
408 detection unit

Claims (12)

A method for adjusting priorities,
A base station controller obtaining a number of carriers used by the user equipment to establish an air interface connection after the user equipment initiates a call connection;
The base station controller obtaining a transmission priority currently assigned to the user equipment;
The base station controller adjusts the currently assigned transmission priority according to the number of carriers to obtain an adjusted transmission priority, and the more transmissions, the more the adjusted transmission priority And a step of lowering. The more the carrier, the lower the adjusted transmission priority,
The adjusted transmission priority is inversely proportional to the number of carriers;
The method of claim 1. Prior to the step, wherein the base station controller obtains the number of carriers used by the user equipment to establish an air interface connection,
The base station controller transmitting a traffic channel assignment message to the user equipment;
The base station controller receiving a traffic channel update message returned by the user equipment;
The step of the base station controller obtaining the number of carriers used by the user equipment to establish an air interface connection;
The base station controller obtaining from the traffic channel update message the number of carriers used by the user equipment to establish an air interface connection;
The method of claim 2. Before the step, wherein the base station controller sends a traffic channel assignment message to the user equipment,
4. The method of claim 3, further comprising the base station controller receiving a channel update request sent by the user equipment. The base station controller detecting the number of carriers used by the user equipment to establish an air interface connection;
5. The method according to any one of claims 1 to 4, further comprising triggering the step of adjusting the transmission priority according to the number of carriers when the number of carriers changes. After the step, the base station controller adjusts the transmission priority according to the number of carriers to obtain an adjusted transmission priority;
The base station controller sends a notification message that communicates the adjusted transmission priority to the user equipment, so that the user equipment can update a local transmission priority using the adjusted transmission priority. 5. The method according to any one of claims 1 to 4, further comprising the step of: The step of the base station controller obtaining the number of carriers used by the user equipment to establish an air interface connection;
5. When making an initial air interface connection with the user equipment, the base station controller includes obtaining the number of carriers used by the user equipment to establish an air interface connection. The method as described in any one of. A first acquisition unit configured to acquire the number of carriers used by the user equipment to establish an air interface connection after the user equipment initiates a call connection;
A second acquisition unit configured to acquire a transmission priority currently assigned to the user equipment;
An adjustment unit configured to adjust the transmission priority according to the number of carriers to obtain an adjusted transmission priority, and the higher the number of carriers, the lower the adjusted transmission priority. Provided with base station controller BSC. A second transmission unit configured to transmit a traffic channel assignment message to the user equipment;
Receiving the traffic channel update message returned by the user equipment and triggering the first acquisition unit to determine the number of carriers used by the user equipment to establish an air interface connection, the traffic channel update 9. The BSC of claim 8, further comprising a first receiving unit configured to obtain from a message. 10. The BSC of claim 9, further comprising a second receiving unit configured to receive a channel update request transmitted by the user equipment and trigger the second transmitting unit. Further comprising a detection unit configured to detect the number of carriers used by the user equipment to establish an air interface connection, wherein the adjustment unit is triggered when the number of carriers changes.
The BSC according to any one of claims 8 to 10. Configured to send a notification message that communicates the adjusted transmission priority to the user equipment, allowing the user equipment to update a local transmission priority using the adjusted transmission priority; The BSC according to any one of claims 8 to 10, further comprising a first transmission unit.

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