WO2012006855A1 - 一种码分多址单模双待终端调度短消息的方法及装置 - Google Patents
一种码分多址单模双待终端调度短消息的方法及装置 Download PDFInfo
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- WO2012006855A1 WO2012006855A1 PCT/CN2010/079743 CN2010079743W WO2012006855A1 WO 2012006855 A1 WO2012006855 A1 WO 2012006855A1 CN 2010079743 W CN2010079743 W CN 2010079743W WO 2012006855 A1 WO2012006855 A1 WO 2012006855A1
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- service
- short message
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- standby terminal
- voice call
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/12—Messaging; Mailboxes; Announcements
- H04W4/14—Short messaging services, e.g. short message services [SMS] or unstructured supplementary service data [USSD]
Definitions
- the present invention relates to a scheduling technique in communication, and in particular to a method and apparatus for scheduling short messages by a single-mode dual-standby terminal of CDMA (Code Division Multiple Access). Background technique
- the CDMA single-mode dual-standby terminal is a communication terminal that realizes dual-card simultaneous online based on a single baseband and a single-radio module.
- the communication terminal expands the communication capability, that is, the terminal user has two number entries to initiate a short message service, thereby improving The user's communication service experience.
- the short message service of the CDMA single-mode dual-standby terminal has a certain randomness, which is mainly manifested in the following two aspects: On the one hand, the short-message of the network side to the terminal has a certain randomness; On the one hand, the submission of messages initiated by the end user has a certain randomness.
- the long short message service and the short message group sending service increase the amount of message data sent and received by the CDMA single mode dual standby terminal each time, and the time discontinuity of the sending and receiving processes, thus, It is required that a CDMA single-mode dual-standby terminal with only one radio frequency mechanism can reasonably manage the concurrency and competition of the dual-standby short message service when performing message scheduling. Moreover, the CDMA single-mode dual-standby terminal needs to consider other communication services supported by the terminal, such as voice services, data services, and the like, and affects the short message service.
- the main object of the present invention is to provide a CDMA single mode dual standby terminal scheduling.
- the short message method and device can reasonably manage and schedule the short message service of the CDMA single mode dual standby terminal.
- the present invention provides a method for scheduling a short message by a CDMA single mode dual standby terminal, including: when a short message service is required, the CDMA single mode dual standby terminal first processes the short message service of the user currently in the service activated state, and When processing the short message service, delay the processing of the voice call service and/or the data service that the user in the service activation state needs to receive; and the short time required for the user who is currently in the service inactive state. Message services, voice call services, and data services are delayed.
- the method further includes: the dual standby terminal determining, according to the received network paging information or the user originating short message request, the standby user that uses the short message service;
- the dual standby terminal activates the standby user using the short message service to enter a short message service processing state
- the short message service is a short message service
- the received voice call service and/or data service required by the user in the service activation state is delayed.
- the terminal waits for the activation user to receive the short message, and delays the received voice call service and the data service of the activated user.
- the short message service is a short message
- the short message service is processed, and the received voice call service and/or data service required by the user in the service activated state is delayed. , for:
- the dual standby terminal determines whether a single chain is allowed to be established. When it is determined that a single chain is allowed to be established, the dual standby terminal establishes a reverse traffic channel link, and sends a short message to the activated user, and during the sending process, the dual standby terminal receives the short message. The voice call service and the data service of the activated user are delayed; when it is determined that the single link is not allowed, the dual standby terminal establishes a reverse traffic channel link, and sends a short cancellation And the dual standby terminal delays the received voice call service and data service of the activated user during the sending process;
- the dual standby terminal disconnects the reverse traffic channel and determines whether the activated user has a short message to be sent, and determines that the reverse traffic channel link is re-established, and the loop is repeated until the activated user is activated.
- the short message to be sent is sent.
- the receiving the short message is:
- the short message is directly received
- the dual standby terminal sends a request for establishing a forward traffic channel link to the network side; after receiving the request, the network side establishes a forward traffic channel link with the dual standby terminal, and returns a link to the dual standby terminal.
- the established message after receiving the message, the dual standby terminal receives the short message.
- the delay processing is performed as follows:
- the dual standby terminal saves the received voice call service and data service of the activated user, and/or the short message service of the currently inactive user, the voice call service, and the process of receiving the short message by the active user.
- Data service
- the dual standby terminal determines that the short message of the activated user is received, the saved service is processed in accordance with the set rule.
- the delay processing is performed as follows:
- the dual standby terminal saves the received voice call service and data service of the activated user, and/or the short message service, the voice call service of the currently inactive user, and Data service;
- the dual standby terminal determines that the short message of the activated user is sent, the saved service is processed in accordance with the set rule.
- the dual standby terminal when the dual standby terminal is in the voice call service state, when the short message service is processed, the voice call service and/or the data service that needs to be performed by the user in the service activated state is delayed. Processing, for: After receiving the short message service of the activated user, if the short message service is short message received, the dual standby terminal uses the current voice service channel to receive the short message for the activated user, and receives the short message during the receiving process. Deferred processing of the data service of the activated user;
- the dual standby terminal uses the current voice call service channel to send a short message to the activated user, and delays the received data service of the activated user during the sending process. .
- the delay processing is:
- the dual standby terminal saves the received data service of the activated user, and/or the short message service, the voice call service, and the data of the currently inactive user in the process of sending or receiving the short message to the activated user.
- the dual standby terminal determines that the short message of the activated user is sent, the saved service is processed in turn according to the set rules.
- the dual standby terminal After receiving the short message service of the activated user, if the short message service is short message receiving, the dual standby terminal uses the current data traffic channel to receive the short message for the activated user, and in the receiving process, the received message Deactivating the user's data service for delay processing;
- the dual standby terminal uses the current data traffic channel to send a short message to the activated user, and delays the received voice call service of the activated user during the sending process. .
- the delay processing is:
- the dual standby terminal saves the received voice call service of the activated user, and/or the short message service, voice call service, and/or the currently inactive user, in the process of receiving, or sending a short message, the activated user, and Data service; After the dual standby terminal determines that the short message of the activated user is received, the saved service is processed in turn according to the set rules.
- the processing according to the set rules is: processing the saved services in sequence according to the priority of the set service processing, and when the priorities are the same, processing the saved services in sequence according to the saved order. .
- the present invention also provides a device for scheduling a short message by a CDMA single mode dual standby terminal, including: a processing module and a delay module;
- the processing module is configured to: when the short message service needs to be performed, process the short message service of the user currently in the service activation state, and when the short message service is processed, the user who is in the service activation state needs to be performed.
- the voice call service, and/or the data service, and the short message service, the voice call service, and the data service that the user currently in the service inactive state need to send to the delay module;
- the delay module is configured to delay processing the received service after receiving the service sent by the processing module.
- the processing module is specifically configured to: when the dual standby terminal is in the dual standby state, determine, according to the received network paging information or the user call short message request, the standby user that uses the short message service, and activate the location
- the standby user using the short message service enters the short message service processing state, receives the short message for the activated user, and receives the received voice call service and data service of the activated user, and the currently inactivated user during the receiving process.
- the short message service, the voice call service, and the data service are sent to the delay module; or
- Determining whether a single chain is allowed to be established determining that a single chain is allowed to be established, establishing a reverse traffic channel link, sending a short message to the activated user, and receiving the voice call service of the activated user during the sending process
- the data service, and the short message service, the voice call service, and the data service of the currently inactive user are sent to the delay module;
- the dual standby terminal When it is determined that a single chain is not allowed, the dual standby terminal establishes a reverse traffic channel link and links After the establishment is successful, a short message is sent, and during the sending process, the received voice call service and data service of the activated user, and the short message service, voice call service, and data service of the currently inactive user are sent. After the delay module is sent, and after the short message is sent, the dual standby terminal disconnects the reverse traffic channel, determines whether the activated user has a short message to be sent, determines, re-establishes the reverse traffic channel link, and so on, until the The short message to be sent of the active user is sent.
- the processing module is specifically configured to: when the dual-standby terminal is in the voice call service state, after receiving the short message service of the voice call service activation user, if the short message is received, the current voice service is used.
- the channel receives the short message for the activated user, and sends the received data service of the activated user and the short message service, the voice service, and the data service of the currently inactive user to the delay module during the receiving process;
- the short message is sent to the activated user by using the current voice service channel, and the data service of the activated user and the short of the currently inactive user are received during the sending process.
- the message service, voice call service, and data service are sent to the delay module.
- the processing module is specifically configured to: when the dual-standby terminal is in the data service state, after receiving the short message service of the data service activation user, if the short message is received, the current data service channel is used.
- the activation user receives the short message, and sends the received voice call service of the activated user and the short message service, voice service, and data service of the currently inactive user to the delay module during the receiving process;
- the current data service channel is used to send the short message to the activated user, and during the sending process, the voice call service of the activated user and the currently inactivated user are received.
- the short message service, the voice call service, and the data service are sent to the delay module.
- the processing module is further configured to: after the short message service is processed, trigger the delay module;
- the delay module is specifically configured to: save the service sent by the processing module, and after receiving the trigger information of the processing module, sequentially process the saved service according to the set rule.
- the method and device for scheduling a short message by a CDMA single mode dual standby terminal when a short message service is required, the CDMA single mode dual standby terminal first processes the short message service of the user currently in the service activation state; During the message service, the voice call service and/or the data service that needs to be performed by the user in the service activation state are delayed; and the short message that needs to be received by the user that is currently in the service inactive state is received. The service, the voice call service, and the data service are delayed, so that the reasonable management and scheduling of the short message service can be realized.
- the single mode dual standby terminal when processing the short message service, saves the received voice call service, and/or data service of the user in the service activation state, and the short message of the user currently in the service inactive state.
- the single-mode dual-standby terminal before the re-establishment of the reverse traffic channel link, if the single-mode dual-standby terminal receives the voice call service for the two users, the single-mode dual-standby terminal first processes the received voice call for the two users. After the service is processed, the reverse traffic channel link is re-established. In this way, the priority of the voice call service can be ensured, thereby satisfying the user experience.
- FIG. 1 is a schematic flow chart of a method for implementing a CDMA single mode dual standby terminal scheduling short message according to Embodiment 1;
- FIG. 2 is a schematic flow chart of a method for implementing a short message by a CDMA single mode dual standby terminal in Embodiment 2;
- FIG. 3 is a schematic flowchart of a method for implementing a CDMA single mode dual standby terminal scheduling short message according to Embodiment 3; 4 is a schematic structural diagram of an apparatus for scheduling a short message by a CDMA single mode dual standby terminal according to the present invention. detailed description
- the CDMA single mode dual standby terminal When a short message service is required, the CDMA single mode dual standby terminal first processes the short message service of the user currently in the service activation state; and when processing the short message service, the received The voice call service and/or the data service that the user in the service activation state needs to perform delay processing; delay processing the short message service, the voice call service, and the data service that are required to be performed by the user currently in the service inactive state. .
- the method for scheduling short messages by the CDMA single mode dual standby terminal of the present invention is applicable to three application scenarios, namely: a single mode dual standby terminal is in a dual standby state, a single mode dual standby terminal is in a voice call service state, and a single mode dual standby The terminal is in the data service state.
- the CDMA single-mode dual-standby terminal is simply referred to as a dual-standby terminal
- the user in the service activation state is simply referred to as the active user
- the user currently in the service inactive state is referred to as the currently inactive user
- U1 is used.
- U2 identifies two users of the dual standby terminal.
- Embodiment 1 is a diagrammatic representation of Embodiment 1:
- the application scenario of this embodiment is as follows:
- the dual standby terminal is in the dual standby state, that is, U1 and U2 are currently inactive users.
- the method for scheduling a short message by the dual standby terminal in this embodiment, as shown in FIG. 1, includes the following steps:
- Step 101 When the dual standby terminal is in the dual standby state, the dual standby terminal determines the standby user that uses the short message service according to the received network paging information or the user call short message request;
- the dual standby terminal determines, according to the received network paging information, a standby user that uses the short message service, specifically:
- the dual standby terminal determines, according to the user's short message request, the standby user that uses the short message service, specifically:
- the dual standby terminal determines that the standby user using the short message service is U1. At this time, if the dual standby terminal receives the network paging information about U2 again, the network paging information about U2 is directly discarded.
- Step 102 The dual standby terminal activates U1 to enter the short message service processing state, if it is short message reception, step 103 is performed, if it is short message transmission, step 104 is performed;
- Step 103 The dual standby terminal receives the short message for the U1, and during the receiving process, the dual standby terminal delays the received voice call service and the data service of the U1, and receives the short message service and voice of the U2. The call service and the data service are delayed, and the current processing flow is ended;
- the short message service includes a user initiating a short message, and/or receiving a short message
- the voice call service includes a user initiating a call, and/or receiving voice information
- the data service includes: user initiation, and/or reception Data information.
- the receiving short message is specifically: if the paging channel is used for receiving, the short message is directly received; if the forward traffic channel is received, the network side sends a request for establishing a forward traffic channel link; after receiving the request, the network side receives the request Establishing a forward traffic channel with the dual standby terminal, and returning a link established message to the dual standby terminal after establishing the link; the dual standby terminal receives the short message after receiving the message that the link has been established.
- the paging channel is used for receiving; if the content of the short message is long, the forward traffic channel is used; and the short message content is specified in the CDMA system protocol.
- the performing the delay processing is specifically: after receiving the short message for the U1, the dual standby terminal receives the voice call service and the data service of the U1, and/or the short message service, the voice call service, and the data service of the U2, First save U1 voice call service and data service, and/or U2 short message service, voice call service, and data service;
- the dual standby terminal determines that the short message of the U1 is received, the saved service is processed in turn according to the set rules;
- the processing according to the set rules is specifically as follows: According to the priority of the service processing set by the dual standby terminal, the saved services are processed in sequence, and when the priorities are the same, the saved services are processed in sequence according to the saved sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- Step 104 The dual standby terminal determines whether a single chain is allowed to be established. If yes, step 105 is performed; otherwise, step 106 is performed;
- the determining whether to allow a single-time chain construction is specifically as follows: According to the setting of the dual-standby terminal itself, if the dual-standby terminal is set to allow a single-time chain establishment, it indicates that the dual-standby terminal allows a single-time chain establishment, if dual-standby If the terminal is set to not allow single-chain construction, it indicates that the dual-standby terminal does not allow single-chain construction.
- the dual standby terminal will be allowed to establish a single chain according to the operator's network, or Single chain construction is not allowed.
- Step 105 The dual standby terminal establishes a reverse traffic channel link, and after the link is successfully established, sends a short message for U1. During the sending process, the dual standby terminal delays the received voice call service and data service of the U1. And delay processing the U2 short message service, the voice call service, and the data service, and end the current processing flow;
- the dual standby terminal establishes a reverse traffic channel link, specifically: the dual standby terminal sends a request for establishing a reverse traffic channel link to the network side; after receiving the request, the network side establishes a reverse traffic channel link with the dual standby terminal. And after the link is established, return the message that the link has been established to the dual standby terminal.
- the short message is continuously sent on the reverse traffic channel link until the short message to be sent is sent.
- the performing the delay processing is specifically: after receiving the short message for the U1, the dual standby terminal receives the voice call service and the data service of the U1, and/or the short message service, the voice call service, and the data service of the U2, First save U1 voice call service and data service, and/or U2 short message service, voice call service, and data service;
- the dual standby terminal determines that the short message of the U1 is sent, the saved service is processed in turn according to the set rules;
- the processing according to the set rules is specifically as follows: According to the priority of the service processing set by the dual standby terminal, the saved services are processed in sequence, and when the priorities are the same, the saved services are processed in sequence according to the saved sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- Step 106 The dual standby terminal establishes a reverse traffic channel link, and after the link is successfully established, sends a short message, and during the sending process, the dual standby terminal delays the received voice call service and data service of the U1. At the same time, the U2 short message service, voice call service, And delaying the processing of data services;
- Step 107 After the short message is sent, the dual standby terminal disconnects the reverse traffic channel, and determines whether the U1 still has a short message to be sent. If yes, step 106 is performed again; otherwise, the current processing flow is ended.
- the dual standby terminal disconnects the reverse traffic channel, specifically: the dual standby terminal sends a command to disconnect the reverse traffic channel to the network side; after receiving the command, the network side disconnects from the dual standby terminal.
- Reverse traffic channel link Reverse traffic channel link.
- the dual standby terminal Since the priority of processing the voice call service is higher than the priority of the short message service, if the dual standby terminal receives the voice call service of U1 or U2 before reestablishing the reverse traffic channel link, the dual standby terminal first processes the received service. After the voice call service of U1 or U2 arrives, the reverse traffic channel link is re-established after the processing is completed.
- Embodiment 2 is a diagrammatic representation of Embodiment 1:
- the application scenario of this embodiment is as follows:
- the dual standby terminal is in the voice call service state, and the user who is in the active state of the voice call service is U1 and U2 is the currently inactive user.
- the dual standby terminal has established a voice service with the network side. channel.
- the method for scheduling a short message by the dual standby terminal in this embodiment includes the following steps:
- Step 201 The dual standby terminal receives the short message service of U1 when processing the voice call service, if it is short message reception, step 202 is performed, if it is short message transmission, step 203 is performed;
- Step 202 The dual standby terminal uses the current voice traffic channel to receive the short message for the U1, and performs delay processing on the received U1 data service during the receiving process, and simultaneously receives the short message service and voice service of the U2. And the data service is subjected to delay processing, and the current processing flow is ended.
- the performing the delay processing is specifically: the dual standby terminal receives the data service of U1, and/or the short message of U2 in the process of receiving the short message for U1.
- the voice call service, and the data service, the U1 data service, and/or the U2 short message service, the voice call service, and the data service are first saved; After the dual standby terminal determines that the short message of the Ul is received, the stored service is processed in turn according to the set rules.
- the processing according to the set rules is specifically as follows: According to the priority of the service processing set by the dual standby terminal, the saved services are processed in sequence, and when the priorities are the same, the saved services are processed in sequence according to the saved sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- U1 still has a short message to be received, and the dual standby terminal performs the same steps as step 103 to receive the short message to be received by U1.
- Step 203 The dual standby terminal uses the current voice call service channel to send a short message for the U1, and performs delay processing on the received U1 data service during the sending process, and simultaneously receives the short message service and voice of the U2.
- the business and data services are deferred and the current processing flow is ended.
- the performing the delay processing is specifically: the dual standby terminal saves the data service of U1, and/or the short message service of U2, the voice call service, and the data service in the process of sending the short message for U1, and then saves U1 data service, and/or U2 short message service, voice call service, and data service;
- the dual standby terminal determines that the short message of the U1 is sent, the saved service is processed in turn according to the set rules;
- the processing according to the set rules is specifically as follows: According to the priority of the service processing set by the dual standby terminal, the saved services are processed in sequence, and when the priorities are the same, the saved services are processed in sequence according to the saved sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- the dual standby terminal continues to perform the same steps as steps 104 to 107 to send the U1 to be sent.
- Embodiment 3 is a diagrammatic representation of Embodiment 3
- the application scenario of this embodiment is as follows:
- the dual standby terminal is in the data service state, and the user in the data service activation state is Ul and U2 is the currently inactive user.
- the dual standby terminal has established a data traffic channel with the network side.
- the method for scheduling a short message by the dual standby terminal in this embodiment includes the following steps:
- Step 301 The dual standby terminal receives the short message service of the U1 when processing the data service, if the short message is received, step 302 is performed, and if the short message is sent, step 303 is performed;
- the dual-standby terminal receives the voice call service of U1 and then receives the short message service of U1, the dual-standby terminal processes the voice call service of U1 and then processes the short message service of U1.
- the processing flow is the same as steps 201 to 203.
- Step 302 The dual standby terminal uses the current data traffic channel to receive the short message for U1, and performs delay processing on the received U1 data service during the receiving process, and simultaneously receives the short message service and voice call of the U2. Business, and data services are deferred, ending the current processing flow;
- the performing the delay processing is specifically: after receiving the short message for U1, the dual standby terminal receives the voice call service of U1, and/or the short message service of U2, the voice call service, and the data service, Preserving U1 voice call service, and/or U2 short message service, voice call service, and data service;
- the dual standby terminal determines that the short message of the U1 is received, the saved service is processed in turn according to the set rules;
- the processing according to the set rules is specifically: processing the saved services in turn according to the priority of the service processing set by the dual standby terminal, and when the priorities are the same, then according to the saved The saved business is processed in sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- the dual standby terminal performs the same steps as step 103 to receive the short message to be received by U1.
- Step 303 The dual standby terminal uses the current data traffic channel to send a short message for the U1, and delays the received voice call service of the U1 during the sending process, and simultaneously receives the short message service and voice of the U2. The call service and the data service are delayed, and the current processing flow is ended;
- the performing the delay processing is specifically: after receiving the short message for the U1, the dual standby terminal receives the voice call service of the U1, and/or the short message service of the U2, the voice call service, and the data service, Preserving U1 voice call service, and/or U2 short message service, voice call service, and data service;
- the dual standby terminal determines that the short message of the U1 is sent, the saved service is processed in turn according to the set rules;
- the processing according to the set rules is specifically as follows: According to the priority of the service processing set by the dual standby terminal, the saved services are processed in sequence, and when the priorities are the same, the saved services are processed in sequence according to the saved sequence.
- the priority of setting processing services from low to high is: data service, short message service, and voice call service.
- the short message is continuously sent by using the current data traffic channel
- the dual standby terminal continues to perform the same steps as steps 104 to 107, and the U1 to be sent is sent.
- the present invention also provides a short cancellation of CDMA single mode dual standby terminal scheduling.
- the device includes: a processing module 41 and a delay module 42.
- the processing module 41 is configured to process a short message of a user currently in a service activation state when a short message service is required.
- the service and when processing the short message service, the voice call service and/or data service that the user in the service activation state needs to receive, and the short message service that the user currently in the service inactive state needs to perform
- the voice call service, and the data service are sent to the delay module 42;
- the delay module 42 is configured to delay the received service after receiving the service sent by the processing module 41.
- the processing module 41 is specifically configured to: determine, according to the received network paging information, or the user's short message request, the standby user that uses the short message service, and activate the standby user that uses the short message service to enter the short message service. Processing status, in order to activate the user to receive the short message, and in the receiving process, send the received voice call service and data service of the activated user, and the short message service, voice call service and data service of the currently inactive user to Delay module 42; or,
- Determining whether a single chain is allowed to be established determining that a single chain is allowed to be established, establishing a reverse traffic channel link, and after the link is successfully established, sending a short message to the activated user, and receiving the received message during the sending process
- the voice call service and the data service of the active user, and the short message service, the voice call service and the data service of the currently inactive user are sent to the delay module 42;
- the dual-standby terminal When it is determined that the single-link is not allowed, the dual-standby terminal establishes a reverse traffic channel link, and after the link is successfully established, sends a short message, and during the sending process, the voice call service of the activated user is received.
- the data service, and the short message service, the voice call service, and the data service of the currently inactive user are sent to the delay module 42, and after the short message is sent, the reverse service channel link is disconnected, and it is determined whether the activated user is still The short message to be sent, determined to have, re-establish the reverse traffic channel link, and so on, until the activated user is to be sent short The message is sent.
- the processing module 41 is further configured to process the received voice call service for the received voice call service for one of the two users before reestablishing the reverse traffic channel link.
- the processing module 41 is specifically configured to: after processing the voice call service, after receiving the short message service of the voice call service activation user, if the short message is received, use the current voice service channel to receive the activated user a short message, and in the receiving process, the received data service of the activated user, and the short message service, voice service and data service of the currently inactive user are sent to the delay module 42;
- the short message is sent to the activated user by using the current voice service channel, and the data service of the activated user and the short of the currently inactive user are received during the sending process.
- the message service, the voice call service, and the data service are sent to the delay module 42;
- the processing module 41 is specifically configured to: when processing the data service, after receiving the short message service of the data service activation user, if the short message is received, use the current data service channel to receive the short message for the activated user. And in the receiving process, the received voice call service of the activated user, and the short message service, voice service and data service of the currently inactive user are sent to the delay module 42;
- the current data service channel is used to send the short message to the activated user, and during the sending process, the voice call service of the activated user and the currently inactivated user are received.
- the short message service, the voice call service, and the data service are sent to the delay module 42.
- the processing module 41 is further configured to trigger the delay module 42 after the short message service is processed;
- the delay module 42 is specifically configured to: save the service sent by the processing module 41, and after receiving the trigger information of the processing module 41, sequentially process the saved service according to the set rules.
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US13/581,469 US9215574B2 (en) | 2010-07-15 | 2010-12-14 | Method and apparatus for scheduling short messages in code division multiple access single-mode dual-standby terminal |
Applications Claiming Priority (2)
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EP2642807B1 (en) * | 2011-08-12 | 2016-12-07 | Spreadtrum Communications (Shanghai) Co., Ltd. | Mobile terminal and service processing method thereof, and baseband processing chip |
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US9215574B2 (en) | 2015-12-15 |
CN101895845B (zh) | 2014-09-10 |
US20120320830A1 (en) | 2012-12-20 |
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