JP2013247549A - Mobile station and method of controlling power saving transition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently reduce power consumption of a mobile station while diminishing the impact on data communications.SOLUTION: A mobile station 1 comprises: a determination unit 11 that acquires at least one of activation information regarding an activation state, communication information regarding a communication state, and characteristic information regarding the characteristics of an application 10 running on the mobile station 1, and determines on the basis of the acquired information whether the application 10 is an important application requiring control of power saving transition that causes the mobile station 1 to transition from a communication state to a power saving state; and a control unit 14 that controls the power saving transition if the application is determined to be an important application by the determination unit 11.

Description

  The present invention relates to a mobile device and a power saving transition control method for controlling a power saving transition that changes a state of a mobile device from a communication state to a power saving state.

  Non-Patent Document 1 Section 15.6 describes Fast Dormancy (FD), which is a function aimed at reducing power consumption of mobile devices such as smartphones.

Harri Holma, Antti Toskala "WCDMA for UMTS: HSPA Evolution and LTE" Wiley Publishing September 22, 2010

  The mobile device to which the FD is applied transitions the state of the mobile device from the communication state to the power saving state when a timer (FD activation timer) for a certain period of time has elapsed since the end of data communication. Here, the power saving state refers to a waiting state or a common channel state in which a radio channel is released to reduce power consumption of the mobile device. FIG. 1 is a diagram illustrating a time series transition of a state and power consumption in a mobile device. In FIG. 1, time T1 indicates the time when data communication in the mobile device is completed, time T2 indicates the time when the FD activation timer expires, and time T between time T1 and time T2 indicates the period of the FD activation timer. Show.

  As shown in FIG. 1A, the mobile device is initially in a communication state, and transitions from the communication state to the power saving state at time T2. In addition, as shown in FIG. 1 (b) showing the transition of the power consumption of the mobile device on the same time series as FIG. 1 (a), the power consumption of the mobile device transitioned to the power saving state is the change of the communication state. It becomes smaller than the power consumption of the machine.

  Here, the FD is activated when transmission / reception of packet data stops and tries to release the radio channel. However, there is no communication time while waiting for a response in the upper application layer or TCP (Transmission Control Protocol) layer. There is also sex. If the wireless channel is released while waiting for a response, the response may time out or the packet may be lost, leading to communication disconnection or delay.

  Also, even if communication is not interrupted, it leads to repeated release and re-establishment of the radio channel during a short no-communication time, which leads to an increase in control signals, which not only eliminates the effect of reducing power consumption, but also to the network. Will also put a load.

  Therefore, the present invention has been made in view of such problems, and provides a mobile device and a power saving transition control method capable of efficiently reducing power consumption of the mobile device while suppressing the influence on data communication. The purpose is to provide.

  In order to solve the above-mentioned problem, the mobile device of the present invention acquires one or more information among activation information regarding an activation state for an application operating on the own device, communication information regarding a communication state, and characteristic information regarding a characteristic, Based on the acquired information, a determination unit that determines whether or not the application is an important application that needs to control power saving transition that causes the state of the own device to transition from the communication state to the power saving state. Control means for controlling power saving transition when it is determined that the application is an important application.

  Further, the power saving transition control method of the present invention is a power saving transition control method executed by a mobile device, in which the determination unit of the mobile device has activation information and communication status regarding an activation state of an application operating on the own device. Control of power saving transition that acquires one or more information among communication information related to characteristics and characteristic information related to characteristics, and based on the acquired information, the application transitions its own state from the communication state to the power saving state A determination step for determining whether or not the important application is necessary, and a control step for controlling the power saving transition when the control unit of the mobile device is determined to be the important application in the determination step.

  According to such a mobile device and the power saving transition control method, the determination unit acquires one or more pieces of information among the startup information, the communication information, and the characteristic information about the application operating in the mobile device. Based on the information, it is determined whether or not the application is an important application that needs to control power saving transition. And when it determines with it being an important application, a power saving transition is controlled by a control means. By adopting such a configuration, it is possible to control power saving transition according to whether or not an application operating on the mobile device is an important application. For example, when an application that does not allow disconnection or delay of communication is running, it is determined that the application is an important application, and the disconnection or delay of communication is prevented by suppressing or delaying the power saving transition of the mobile device. it can. Further, for example, by suppressing or delaying the power saving transition, it is possible to reduce an extra control signal due to the release and re-establishment of the radio channel, and to reduce the power consumption of the mobile device and the network load. On the other hand, for example, for an application determined not to be an important application, power saving transition is performed as usual, and the power consumption of the mobile device can be reduced. That is, it is possible to efficiently reduce the power consumption of the mobile device while suppressing the influence on data communication.

  Further, in the mobile device of the present invention, when the determination unit determines that the application is running and the application is an application that performs communication, the determination unit acquires characteristic information of the application, and based on the acquired information It is preferable to determine whether or not the application is an important application. In general, it is necessary to control power saving transition in a mobile device when an application that performs communication in the mobile device is running. By adopting such a configuration, it is possible to determine whether or not the application is active and communicates based on the characteristic information of the application, so that the application is more surely important. It can be determined whether or not.

  Further, in the mobile device of the present invention, the determination unit acquires characteristic information on one or more characteristics among the data content handled by the application, the communication destination of the application, and the communication pattern of the application, and based on the acquired information, It is preferable to determine whether the application is an important application. By adopting such a configuration, it is possible to determine whether the characteristic information is actualized and the application is more important.

  The mobile device of the present invention further includes control setting means that allows a user to set whether or not to control power saving transition for each application, and the determination means includes the application that performs power saving transition by the control setting means. When it is set as an application to be controlled, it is preferable to determine that the application is an important application. By adopting such a configuration, it is possible to reflect the user's intention in determining whether or not the application is an important application, and thus it is possible to control power saving transition that is more convenient for the user.

  The mobile device of the present invention further includes condition setting means for allowing a user to set a determination condition for determining whether or not the application is an important application based on the characteristic information. It is preferable to determine whether or not the application is an important application based on the acquired information and the determination condition set by the condition setting means. If such a configuration is adopted, the determination of whether or not the application is an important application can reflect the user's intention in the determination condition relating to the characteristic information of the application, and thus control of power saving transition that is more convenient for the user is performed. be able to.

  The mobile device of the present invention further comprises storage means for storing history information related to communication failure of an application accompanying power saving transition, and the control means, if determined by the determination means as an important application, by the storage means It is preferable to control the power saving transition based on the stored history information of the important application. By adopting such a configuration, it is possible to control the power saving transition based on the history information regarding the communication failure of the application accompanying the power saving transition. For example, it is possible to perform more efficient power saving transition control, such as controlling power saving transition so that communication failure is not performed next time based on history information.

  Further, in the mobile device of the present invention, the history information includes a time from the communication stop of the application to the communication failure, and the control means is a time from the communication stop of the important application included in the history information to the communication failure. It is preferable to determine the power saving transition timing based on the above and to perform the power saving transition based on the determined timing. By adopting such a configuration, for example, by determining the power saving transition timing as a time longer than the time from the previous communication stop to the communication failure, a power saving transition that does not cause a communication failure next time is performed. For example, it is possible to perform more efficient power saving transition control.

  In the mobile device of the present invention, the history information includes the number of communication failures, and the control unit suppresses power saving transition when the number of communication failures of the important application included in the history information exceeds a predetermined threshold. It is preferable to do. If such a configuration is adopted, when the number of communication failures exceeds a predetermined threshold, more efficient control of power saving transitions can be achieved, for example, communication failure can be reliably prevented by suppressing power saving transitions. It can be carried out.

  ADVANTAGE OF THE INVENTION According to this invention, the power consumption of a mobile apparatus can be reduced efficiently, suppressing the influence on data communication.

It is the figure which showed the transition on the time series of the state and power consumption in the mobile apparatus to which Fast Dormancy was applied. 1 is a schematic diagram of a mobile communication system according to an embodiment of the present invention. It is a functional block diagram which shows the structure of the mobile apparatus which concerns on embodiment of this invention. It is a figure which shows the hardware constitutions of the mobile apparatus which concerns on embodiment of this invention. It is a figure which shows the example of a table of the characteristic information which concerns on embodiment of this invention. It is a figure which shows an example of the user setting screen which concerns on embodiment of this invention. It is a figure which shows another example of the user setting screen which concerns on embodiment of this invention. It is a sequence diagram which shows a process of the power saving transition control method performed with the mobile apparatus which concerns on embodiment of this invention. It is a sequence diagram which shows the flow of communication in the conventional mobile device. It is a sequence diagram which shows an example of the flow of communication in the mobile apparatus which concerns on embodiment of this invention.

  Hereinafter, preferred embodiments of a mobile device and a power saving transition control method according to the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 2 is a schematic diagram of the mobile communication system 3 including the mobile device 1 and the base station 2 according to the present embodiment. As shown in FIG. 2, the mobile communication system 3 includes a mobile device 1 and a base station 2. The mobile device 1 and the base station 2 included in the mobile communication system 3 shown in FIG. 2 are each one, but the present invention is not limited to this, and a plurality of mobile devices may be provided. The mobile device 1 and the base station 2 can perform wireless communication in mobile communication with each other.

  Further, FD is applied to the mobile device 1 as a function. The mobile device 1 sends an SCRI (Signaling Channel Release Indication) message, which is a radio release request, to the base station 2 when the FD activation timer elapses and the state of the mobile device 1 transitions from the communication state to the power saving state. As a response, the base station 2 receives a transition instruction to the power saving state, and transitions to the power saving state. The mobile device 1 may transition to the power saving state immediately after transmitting the SCRI message.

  Specifically, each of the mobile communication system 3, the mobile device 1, and the base station 2 is a UMTS (Universal Mobile Telecommunications System), UE (User Equipment), and BTS (Base Transceiver Station) in the 3GPP (3rd Generation Partnership Project) standard. Correspond. Note that the base station 2 may be an RNC (Radio Network Controller), which is a radio control station in the 3GPP standard, or may be an apparatus having both functions of BTS and RNC. Moreover, the mobile communication system 3, the mobile device 1, and the base station 2 correspond to EPS (Evolved Packet System), UE, and eNodeB (evolved NodeB) in the 3GPP standard, respectively.

  FIG. 3 is a functional block diagram showing the configuration of the mobile device 1 according to the present embodiment. As shown in FIG. 3, the mobile device 1 includes a determination unit 11 (determination unit), a control setting unit 12 (control setting unit), a condition setting unit 13 (condition setting unit), a control unit 14 (control unit), and a storage unit 15. (Storage means) and a power saving transition management unit 16 are configured.

  The mobile device 1 is composed of hardware such as a CPU. FIG. 4 is a diagram illustrating an example of a hardware configuration of the mobile device 1. As shown in FIG. 4, the mobile device 1 shown in FIG. 3 physically includes a CPU 100, a RAM 101 and a ROM 102 as main storage devices, an input / output device 103 such as a numeric keypad and a display, a communication module 104, and an auxiliary storage. The computer system includes the device 105 and the like.

  The function of each functional block of the mobile device 1 shown in FIG. 3 is obtained by reading predetermined computer software on the hardware such as the CPU 100 and the RAM 101 shown in FIG. This is realized by operating the communication module 104 and the auxiliary storage device 105 and reading and writing data in the RAM 101.

  The mobile device 1 includes one or more applications 10 that operate on the mobile device 1 in the auxiliary storage device 105 or the like. The application 10 is installed in the mobile device 1 in advance or is acquired from an external server via a network. The application 10 is a general application, executes predetermined processing in accordance with user input from the input / output device 103, communicates with an external server via a network as appropriate, and outputs an output result via the input / output device 103. Output to the user.

  Hereinafter, each functional block of the mobile device 1 shown in FIG. 3 will be described.

  The determination unit 11 acquires one or more pieces of information among the start information regarding the start state of the application 10 operating in the mobile device 1, the communication information regarding the communication state, and the characteristic information regarding the characteristics, and based on the acquired information, The application 10 determines whether or not the application 10 is an important application that needs to be controlled for power saving transition that changes the state of the mobile device 1 from the communication state to the power saving state. Then, the determination result is output to the control unit 14.

  Specifically, the activation information is information indicating that the application 10 is being started or information indicating that the application 10 is being stopped. For example, when the activation information is information indicating that the application 10 is activated, the determination unit 11 determines that the application 10 is an important application, and the activation information indicates that the application 10 is stopped. In the case of the information indicating that the application 10 is not an important application.

  Specifically, the communication information is information indicating that the application 10 is an application that requires communication, or information indicating that the application 10 is an application that does not require communication. Here, the application requiring communication is, for example, a mail application, an application linked with a cloud service, a news browsing application, or the like. Examples of applications that do not require communication include games, music playback applications, and camera control applications. For example, when the communication information is information indicating that the application 10 is an application that requires communication, the determination unit 11 determines that the application 10 is an important application, and the communication information indicates that the application 10 is communicating. If it is information indicating that the application does not require the application 10, it is determined that the application 10 is not an important application.

  The characteristic information is information indicating the characteristics of the application 10. Specifically, the characteristics of the application 10 include data contents handled by the application 10, a communication destination of the application 10, a communication pattern of the application 10, and the like. FIG. 5 is a table showing specific examples of characteristics of the application 10 for each type of characteristic. As shown in FIG. 5, examples of data contents handled by the application 10 include personal information, documents, service data such as remote lock when lost, data written on a message board and browsing data at the time of disaster, and the like. Examples of the communication destination of the application 10 include a telephone directory registered contact, a cloud server, and a disaster message board. Examples of the communication pattern of the application 10 include a pattern in which one piece of data is transmitted / received intermittently for a certain period, and a pattern in which no communication is performed for about 10 seconds for data transmission / reception. Other characteristics of the application 10 include exchange of important information such as personal information, provision of immediacy, data backup, transmission / reception of user-created documents and files such as e-mail, etc. This includes things related to related applications.

  The determination unit 11 acquires characteristic information related to one or more characteristics among the data content handled by the application 10, the communication destination of the application 10, and the communication pattern of the application 10, and the application 10 is important based on the acquired information. You may determine whether it is an application. As a specific example using the example illustrated in FIG. 5, the determination unit 11 backs up personal information (phone book) to a cloud server, performs transmission / reception intermittently instead of continuously, It is determined that the application 10 that transmits data to is an important application.

  In addition, when the determination unit 11 determines that the application 10 is being activated and the application 10 is a communication application, the determination unit 11 acquires characteristic information of the application 10, and based on the acquired information, the application 10 It may be determined whether 10 is an important application.

  The control setting unit 12 is a means that allows the user to set (add / delete / edit) whether to control power saving transition for each application 10. Specifically, the control setting unit 12 displays a GUI (Graphical User Interface), which is a user setting screen shown in FIG. 6, on the display of the mobile device 1, acquires input from the user via the GUI, and inputs Stored information is stored as setting information. In the GUI shown in FIG. 6, the application 10 included in the mobile device 1 is displayed together with an icon and a name in the area X <b> 1, and a check box column is displayed in the area X <b> 2 for each application 10. When the user checks the check box field, the corresponding application 10 can be set to control the power saving transition. Conversely, by removing the check, the corresponding application 10 can be set not to control the power saving transition.

  The determination unit 11 may determine that the application 10 is an important application when the application 10 is set by the control setting unit 12 to control power saving transition. Specifically, the determination unit 11 acquires the setting information stored by the control setting unit 12, and based on the acquired setting information, the application 10 is an application that controls the power saving transition by the control setting unit 12. Determine whether it is set.

  The condition setting unit 13 is a means by which the user can set (add, delete, edit) a determination condition for determining whether or not the application is an important application based on the characteristic information. Specifically, the condition setting unit 13 displays a GUI that is a user setting screen shown in FIG. 7 on the display or the like of the mobile device 1, acquires input from the user via the GUI, and sets the input information as setting information Store as. In the GUI shown in FIG. 7, the determination condition is displayed in the area X3, and the check box column is displayed in the area X4 for each determination condition. A corresponding determination condition can be set by the user checking a check box. Conversely, by removing the check, it is possible not to set the corresponding determination condition.

  Specifically, as shown in FIG. 7, the judgment conditions are those that handle personal information, those that handle images, those that handle music / video, those that handle documents, those that handle schedules, and contacts that have been registered in the phone book. Communication and disaster message board.

  The determination unit 11 may acquire characteristic information and determine whether or not the application 10 is an important application based on the acquired information and the determination condition set by the condition setting unit 13. Specifically, the determination unit 11 acquires the setting information stored by the condition setting unit 13, and when the acquired characteristic information corresponds to the determination condition set in the setting information, the determination unit 11 is an important application. judge. Conversely, when the acquired characteristic information does not meet the determination condition set in the setting information, the determination unit 11 determines that the application is not an important application.

  When the determination unit 11 determines that the control unit 14 is an important application, the control unit 14 controls the power saving transition. Specifically, when the determination result that the application is an important application is input from the determination unit 11, the control unit 14 outputs an instruction to control the power saving transition to the power saving transition management unit 16 described later. . Specifically, the instruction to control the power saving transition includes an instruction to suppress (do not execute) the power saving transition, an instruction to notify the timing of the power saving transition, and the like. The control unit 14 continues to output an instruction to control the power saving transition to the power saving transition management unit 16 until the important application stops.

  The storage unit 15 stores history information related to communication failure of the application 10 associated with power saving transition. The history information may include the time from communication stop of the application 10 to communication failure. When the determination unit 11 determines that the application is an important application, the control unit 14 may control the power saving transition based on the history information of the important application stored by the storage unit 15. Specifically, the control unit 14 determines the power saving transition timing based on the time from the communication stop of the important application included in the history information to the communication failure, and the power saving transition based on the determined timing. May be performed. For example, when 10 seconds is stored as the time from communication stop to communication failure in the history information of the important application stored by the storage unit 15, the control unit 14 starts FD as the power saving transition timing. The timer is determined to be 15 seconds longer than 10 seconds, and an instruction to perform power saving transition is output to the power saving transition management unit 16 based on the FD activation timer.

  The history information may include the number of communication failures. And the control part 14 may suppress a power saving transition, when the frequency | count of the communication failure of the important application contained in log | history information exceeds a predetermined threshold value. For example, when the number of times of communication failure is stored in the history information of the important application stored by the storage unit 15 and the predetermined threshold value is 4 times, the control unit 14 makes the power saving transition An instruction to suppress the power saving transition is output to the management unit 16.

  The power saving transition management unit 16 manages the power saving transition based on the instruction input from the control unit 14. Specifically, the power saving transition management unit 16 does not transmit the SCRI message to the base station 2 when an instruction to suppress the power saving transition is input from the control unit 14. Further, when an instruction to notify the timing of the power saving transition is input from the control unit 14, the power saving transition management unit 16 transmits an SCRI message to the base station 2 according to the timing.

  Next, processing of the power saving transition control method in the mobile device 1 according to the present embodiment will be described using FIG.

  First, the determination unit 11 determines whether or not the application 10 is being activated (S1, determination step). If it is determined in S1 that the application is running, the determination unit 11 determines whether the application 10 is an application that performs communication (S2, determination step). If it is determined in S2 that the application performs communication, the determination unit 11 subsequently determines whether or not the application characteristics are important (S3, determination step). When it determines with it being important in S3, the control part 14 performs control which suppresses a power saving transition (FD) (S4, control step). The determination unit 11 monitors the activation state of the application 10 that has been determined to be an important application. If the execution stop of the application 10 is confirmed after S4, the determination unit 11 notifies the power saving transition management unit 16 via the control unit 14. An instruction to cancel the control of the power saving transition is output (S6). If it is determined in S1 that it is not running, if it is determined in S2 that it is not an application that performs communication, or if it is determined in S3 that it is not important, the process ends.

  Next, using FIG. 9 and FIG. 10, the communication flow in the conventional mobile device is compared with the communication flow in the mobile device 1 according to the present embodiment. 9 and 10 are diagrams illustrating a flow in which an application operating on a mobile device communicates with a base station (network) via a communication module of the mobile device.

  FIG. 9 is a sequence diagram showing a communication flow in a conventional mobile device. In FIG. 9, first, the application transmits data to the communication module (TA1). Next, the communication module establishes radio with the base station and transmits data from the application (TA2). After TA2, no communication continues for a while, so that the FD is activated in the mobile device (TA3). Then, the communication module releases radio with the base station (TA4). After that, even if the base station attempts to transmit a response for data transmission at TA2, since the radio is released at TA4, data cannot be transmitted and a time-out occurs (TA5). In addition, since the application side does not receive a response from the base station, communication fails.

  FIG. 10 is a sequence diagram showing a communication flow in the mobile device 1 according to the present embodiment. In FIG. 10, first, the application 10 transmits data to the communication module 104 (TB1). Next, the communication module 104 establishes radio with the base station 2 and transmits data from the application 10 (TB2). Here, in the mobile device 1, it is assumed that the determination unit 11 determines that the application 10 is an important application and the control unit 14 (or the power saving transition management unit 16) suppresses the power saving transition. In this case, since the FD is not activated in the mobile device (TB3), the radio between the mobile device 1 and the base station 2 remains established. Thereafter, a response transmission of data transmission in TB2 is performed from the base station to the application 10 via the communication module 104 (TB4 and TB5), and communication is successful.

  As described with reference to FIG. 9, in the conventional technique, there is a possibility that the communication is disconnected or delayed by the FD while an important application is activated. And as demonstrated using FIG. 10, in the mobile device 1 which concerns on this embodiment, when important high-order applications, such as an application linked with a mail application or a cloud service, are starting, it controls or starts FD. By delaying the communication, it becomes possible to prevent communication by an important upper application from being disconnected or delayed. Further, extra control signals can be reduced, and the power consumption and network load of the mobile device 1 can be reduced.

  Next, the effect of the mobile device 1 configured as in the present embodiment will be described.

  According to the mobile device 1 of the present embodiment, the determination unit 11 acquires one or more pieces of information among the activation information, communication information, and characteristic information about the application 10 that operates in the mobile device 1, and the acquired information Based on the above, it is determined whether or not the application 10 is an important application that needs to control power saving transition. When it is determined that the application is an important application, the power saving transition is controlled by the control unit 14. With this configuration, it is possible to control the power saving transition according to whether or not the application 10 operating on the mobile device 1 is an important application. For example, when an application 10 that is not permitted to disconnect or delay communication is determined to be an important application, the disconnection or delay of communication is suppressed by suppressing or delaying the power saving transition of the mobile device 1. Can be prevented. Further, for example, by suppressing or delaying the power saving transition, an extra control signal due to the release and re-establishment of the radio channel can be reduced, and the power consumption and network load of the mobile device 1 can be reduced. On the other hand, for example, for the application 10 determined not to be an important application, power saving transition is performed as usual, and the power consumption of the mobile device 1 can be reduced. That is, the power consumption of the mobile device 1 can be efficiently reduced while suppressing the influence on data communication.

  Further, in the mobile device 1 of the present embodiment, when the determination unit 11 determines that the application 10 is being activated and the application 10 is an application 10 that performs communication, the determination unit 11 acquires characteristic information of the application 10. It is preferable to determine whether or not the application 10 is an important application based on the acquired information. In general, the mobile device 1 needs to control power saving transition when the application 10 that performs communication in the mobile device 1 is being activated. By adopting such a configuration, it is possible to determine whether or not the application 10 is active and communicates with the application 10 based on the characteristic information of the application 10. It can be determined whether or not.

  Further, in the mobile device 1 of the present embodiment, the determination unit 11 acquires characteristic information regarding one or more characteristics among the data content handled by the application 10, the communication destination of the application 10, and the communication pattern of the application 10. It is preferable to determine whether or not the application 10 is an important application based on the obtained information. By adopting such a configuration, it is possible to determine whether the characteristic information is actualized and the application is more important.

  Further, in the mobile device 1 of the present embodiment, the mobile device 1 further includes a control setting unit 12 that allows the user to set whether to control the power saving transition for each application 10, and the determination unit 11 is configured so that the application 10 performs control setting. When the application 12 is set to be the application 10 that controls the power saving transition by the unit 12, it is preferable to determine that the application 10 is an important application. By adopting such a configuration, it is possible to reflect the user's intention in determining whether or not the application is an important application, and thus it is possible to control power saving transition that is more convenient for the user.

  The mobile device 1 of the present embodiment further includes a condition setting unit 13 that allows a user to set a determination condition for determining whether or not the application is an important application based on the characteristic information. It is preferable to acquire characteristic information and determine whether the application 10 is an important application based on the acquired information and the determination condition set by the condition setting unit 13. By adopting such a configuration, it is possible to reflect the user's intention in the determination condition regarding the characteristic information of the application 10 in determining whether the application is an important application. It can be carried out.

  In addition, the mobile device 1 of the present embodiment further includes a storage unit 15 that stores history information regarding communication failure of the application 10 associated with the power saving transition, and the control unit 14 is determined by the determination unit 11 to be an important application. In this case, it is preferable to control the power saving transition based on the history information of the important application stored by the storage unit 15. By adopting such a configuration, it is possible to control the power saving transition based on the history information regarding the communication failure of the application 10 accompanying the power saving transition. For example, it is possible to perform more efficient power saving transition control, such as controlling power saving transition so that communication failure is not performed next time based on history information.

  In the mobile device 1 of the present embodiment, the history information includes the time from the communication stop of the application 10 to the communication failure, and the control unit 14 changes from the communication stop of the important application included in the history information to the communication failure. It is preferable to determine the power saving transition timing based on the time until the power saving transition and perform the power saving transition based on the determined timing. By adopting such a configuration, for example, by determining the power saving transition timing as a time longer than the time from the previous communication stop to the communication failure, a power saving transition that does not cause a communication failure next time is performed. For example, it is possible to perform more efficient power saving transition control.

  Further, in the mobile device 1 of the present embodiment, the history information includes the number of communication failures, and the control unit 14 saves power when the number of communication failures of the important application included in the history information exceeds a predetermined threshold. It is preferable to suppress the transition. If such a configuration is adopted, when the number of communication failures exceeds a predetermined threshold, more efficient control of power saving transitions can be achieved, for example, communication failure can be reliably prevented by suppressing power saving transitions. It can be carried out.

  DESCRIPTION OF SYMBOLS 1 ... Mobile device, 2 ... Base station, 3 ... Mobile communication system, 10 ... Application, 11 ... Determination part, 12 ... Control setting part, 13 ... Condition setting part, 14 ... Control part, 15 ... Storage part, 16 ... Saving Power transition management unit.

Claims (9)

Obtain one or more pieces of information about the activation state of the application running on the own device, the communication information about the communication state, and the characteristic information about the characteristics, and based on the acquired information, the application A determination means for determining whether or not the application is an important application that needs to control the power saving transition to change the state from the communication state to the power saving state;
Control means for controlling the power saving transition when the determination means determines that the application is an important application;
Mobile machine equipped with. When the determination unit determines that the application is running and the application is an application that performs communication, the determination unit acquires characteristic information of the application, and the application is an important application based on the acquired information. Whether or not
The mobile device according to claim 1. The determination unit obtains characteristic information regarding one or more characteristics among data contents handled by the application, communication destination of the application, and communication pattern of the application, and based on the acquired information, whether the application is an important application. Determine whether or not
The mobile device according to claim 1 or 2, characterized in that It further comprises control setting means that allows the user to set whether to control power saving transition for each application,
The determination unit determines that the application is an important application when the application is set to be an application that controls power saving transition by the control setting unit.
The mobile device according to any one of claims 1 to 3, wherein It further comprises a condition setting means that allows the user to set a determination condition for determining whether or not the application is an important application based on the characteristic information,
The determination unit acquires characteristic information, and determines whether the application is an important application based on the acquired information and the determination condition set by the condition setting unit.
The mobile device according to any one of claims 1 to 4, wherein: It further comprises a storage means for storing history information related to communication failure of the application accompanying power saving transition,
The control means controls the power saving transition based on the history information of the important application stored by the storage means when the determination means determines that the application is an important application.
The mobile device according to any one of claims 1 to 5, wherein: The history information includes the time from the communication stop of the application until the communication failure,
The control means determines the timing of the power saving transition based on the time from the communication stop of the important application included in the history information to the communication failure, and performs the power saving transition based on the determined timing.
The mobile device according to claim 6. The history information includes the number of communication failures,
The control means suppresses the power saving transition when the number of communication failures of the important application included in the history information exceeds a predetermined threshold.
The mobile device according to claim 6 or 7, wherein A power saving transition control method executed by a mobile device,
Based on the acquired information, the determination unit of the mobile device obtains one or more pieces of information on start-up information on an application operating on the own device, communication information on communication state, and characteristic information on characteristics. A determination step for determining whether the application is an important application that needs to control power saving transition that changes the state of the own device from the communication state to the power saving state;
When the control unit of the mobile device is determined to be an important application in the determination step, a control step for controlling a power saving transition;
A power saving transition control method.

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