JP5805523B2 - Cloud type application execution system - Google Patents

Description

  The present invention relates to a cloud application execution system in which a mobile client terminal and a server device execute a cloud application in cooperation with each other.

  Conventionally, in this type of cloud application execution system, when a communication failure occurs between a mobile client terminal and a server device, the cloud application cannot be operated from the mobile client terminal, and the cloud application to the mobile client Information is not transmitted to the terminal.

  For this reason, for example, when an event occurs during a game in which a plurality of mobile client terminals communicate with each other, an event information including display information for displaying the event and an event occurrence time is stored. In some cases, the mobile client terminal transmits an event acquisition request for designating a time zone when the game could not be participated to the other mobile client terminal, and stores the event information returned from the other mobile client terminal (for example, , See Patent Document 1).

  As described above, the conventional technique disclosed in Patent Document 1 stores an event that occurs in a time zone in which a user cannot participate in a game due to the influence of a communication failure in the mobile client terminal. Events were shared with mobile client devices.

  In addition, when it is determined that an error terminal that has been disconnected has occurred in a plurality of mobile client terminals, the game is continued except for the error terminal, and after the communication with the error terminal is recovered, There is also one that resumes a game only by communication with an error terminal based on information for resumption including status information of other mobile client terminals (for example, see Patent Document 2).

  As described above, the conventional technique disclosed in Patent Document 2 virtually returns the mobile client terminal whose communication has been disconnected to the game from the situation when the communication is disconnected.

JP 2010-207328 A JP 2007-151602 A

Kazuhiro Hagio, “Mechanism for acquiring location information”, [online], February 11, 2009, @IT (ITmedia Co., Ltd.), [Search on December 1, 2011], Internet <URL: http: // www.atmarkit.co.jp/fnetwork/rensai/ichijouhou01/01.html> Koichi Miyashita, “Map Matching Method for Purpose Predictive Car Navigation System”, Osaka University Graduate School, February 14, 2008 Naoji Yamada, 3 others, “Prediction method based on travel route history using GPS mobile phone”, IEICE General Conference (B-15-23), NTT DoCoMo, University of Tokyo, 2010

  In the conventional cloud type application execution system as described above, notification of occurrence of a communication failure between the mobile client terminal and the server device is notified to each application being executed by the mobile client terminal and the server device. Since there is no mechanism to do so, each application executed by the mobile client terminal and the server device cannot know that the communication failure occurs until the communication failure actually occurs.

  For this reason, in the conventional technology as described above, after the communication failure between the mobile client terminal and the server device is resolved, the state of each application executed by the mobile client terminal and the server device is matched. Although there is a problem, there is a problem that each application executed by the mobile client terminal and the server device cannot take a pre-response to the communication failure.

  The present invention has been made to solve such a problem, and provides a cloud-type application execution system that can make each application executed by a mobile client terminal and a server device take advance measures against a communication failure. The purpose is to provide.

  A cloud type application execution system of the present invention includes at least one mobile client terminal and at least one server device, and the mobile client terminal and the server device execute a cloud type application in cooperation with each other. The mobile client terminal and the server device include: a platform having a communication function compliant with a common specification; and at least one application operating on the platform in order to execute the cloud-type application in cooperation with each other. Each of the cloud-type application execution systems executes at least one communication path that predicts whether a communication failure will occur between the mobile client terminal and the server device. A failure occurrence prediction device, and the communication failure occurrence prediction device, when predicting the occurrence of the communication failure, communication failure occurrence prediction information indicating that the occurrence of the communication failure is predicted, the mobile client terminal and Each platform of the server device is notified, and each platform of the mobile client terminal and the server device is configured to notify the notified communication failure occurrence notice information to an application operating on the platform.

  With this configuration, the cloud-type application execution system of the present invention can notify the application operating on each platform that the occurrence of a communication failure is predicted via each platform of the mobile client terminal and the server device. Therefore, each application executed by the mobile client terminal and the server device can be preliminarily responded to the communication failure.

  Note that the communication failure occurrence prediction device may predict whether or not the communication failure occurs based on the location information of the mobile client terminal.

  With this configuration, the cloud-type application execution system of the present invention communicates between the mobile client terminal and the server device based on the information on the area where communication failure is likely to occur and the position information of the mobile client terminal. Since it is possible to predict whether or not a failure will occur, when a communication failure is predicted to occur, each application executed by the mobile client terminal and the server device can take a proactive response to the communication failure. The preparation operation can be executed.

  Here, the location information of the mobile client terminal may represent a current location of the mobile client terminal.

  With this configuration, the cloud-type application execution system of the present invention communicates between the mobile client terminal and the server device depending on whether or not the mobile client terminal exists in the vicinity of an area where communication failure is likely to occur. Whether or not a failure occurs can be predicted.

  Further, the location information of the mobile client terminal may represent a predicted movement path of the mobile client terminal.

  With this configuration, the cloud type application execution system according to the present invention can be used between the mobile client terminal and the server device depending on whether the mobile client terminal is approaching or moving away from an area where a communication failure is likely to occur. It can be predicted whether or not a communication failure will occur.

  Further, the mobile client terminal may transmit position information of the mobile client terminal to the communication failure occurrence prediction device.

  With this configuration, the cloud-type application execution system of the present invention can send the location information of the mobile client terminal from the mobile client terminal to the communication failure occurrence prediction device.

  The cloud-type application execution system of the present invention further includes a client location specifying device connected to a mobile communication network, and the client location specifying device transmits location information of the mobile client terminal to the communication failure occurrence prediction device. You may make it do.

  With this configuration, the cloud type application execution system of the present invention can send the location information of the mobile client terminal obtained from the mobile communication network side from the client location specifying device to the communication failure occurrence prediction device.

  Further, the communication failure occurrence prediction device may predict whether or not the communication failure occurs based on a radio wave reception state in the mobile client terminal.

  With this configuration, the cloud-type application execution system of the present invention can predict whether or not a communication failure occurs between the mobile client terminal and the server device based on the radio wave reception state of the mobile client terminal.

  In addition, the communication failure occurrence notice information may further represent a probability that the occurrence of the communication failure is predicted.

  With this configuration, the cloud-type application execution system of the present invention can cause each application executed by the mobile client terminal and the server device to execute a stepwise preparation operation according to the accuracy represented by the communication failure occurrence notice information. it can.

  Further, the communication failure occurrence prediction device may be configured by the server device on which a platform extended to function as the communication failure occurrence prediction device is mounted.

  Further, the communication failure occurrence prediction device may be configured by the mobile client terminal on which a platform extended to function as the communication failure occurrence prediction device is mounted.

  The present invention can provide a cloud-type application execution system that allows each application executed by a mobile client terminal and a server device to take a prior action against a communication failure.

It is a block diagram of a cloud type application execution system concerning an embodiment of the invention. It is a block diagram which shows the hardware constitutions of the mobile client terminal which comprises the cloud type application execution system which concerns on embodiment of this invention. It is a conceptual diagram which shows the relationship of the program performed by CPU of the mobile client terminal shown in FIG. It is a block diagram which shows the hardware constitutions of the server apparatus which comprises the cloud type application execution system which concerns on embodiment of this invention. It is a conceptual diagram which shows the relationship of the program performed by CPU of the server apparatus shown in FIG. It is a block diagram which shows the hardware constitutions of the communication failure occurrence prediction apparatus which comprises the cloud type application execution system which concerns on embodiment of this invention. It is a conceptual diagram which shows the example which the communication failure occurrence prediction apparatus which comprises the cloud type application execution system which concerns on embodiment of this invention predicts generation | occurrence | production of a communication failure. It is a sequence diagram for demonstrating operation | movement of the cloud type application execution system which concerns on embodiment of this invention. It is a conceptual diagram which shows the other example in which the communication failure occurrence prediction apparatus which comprises the cloud type application execution system which concerns on embodiment of this invention predicts generation | occurrence | production of a communication failure.

  Embodiments of the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, in the cloud type application execution system 1 according to the embodiment of the present invention, a communication failure occurs between the mobile client terminal 2, the server apparatus 3, and the mobile client terminal 2 and the server apparatus 3. And a communication failure occurrence predicting device 4 that predicts whether or not to do so.

  In FIG. 1, one mobile client terminal 2, a server device 3, and a communication failure occurrence prediction device 4 are shown, but the mobile client terminal constituting the cloud type application execution system in the present invention, The number of server devices and communication failure occurrence prediction devices is not limited. In FIG. 1, illustration of a relay device such as a router or a radio base station is omitted.

  The mobile client terminal 2, the server device 3, and the communication failure occurrence prediction device 4 are a wireless network 11 having a mobile communication network 10 including a client location specifying device 5 that specifies the location of the mobile client terminal 2 as a backbone, and They are connected to each other by a wired network 12.

  In FIG. 1, one wireless network 11 and one wired network 12 are shown, but the number of wireless networks and wired networks in the present invention is not limited. Further, in FIG. 1, one client position specifying device 5 is illustrated, but the number of client position specifying devices in the present invention is not limited.

  The mobile client terminal 2 includes mobile communication devices such as a tablet PC (Personal Computer), a mobile phone, a PDA (Personal Digital Assistant), and a notebook PC.

  For example, as shown in FIG. 2, the mobile client terminal 2 performs wireless communication with a CPU (Central Processing Unit) 20, a RAM (Random Access Memory) 21, a ROM (Read Only Memory) 22, a flash memory 23, and the like. The wireless communication module 24 for performing, the display apparatus 25 which consists of a liquid crystal display etc., and the input device 26 which consists of pointing devices, such as a touch panel provided on the liquid crystal display, and a keyboard apparatus are provided.

  Note that the mobile client terminal 2 may include a hard disk device instead of the flash memory 23, or may include a hard disk device in addition to the flash memory 23.

  The ROM 22 and the flash memory 23 store a program for causing the mobile communication device to function as the mobile client terminal 2. In other words, the mobile communication device functions as the mobile client terminal 2 when the CPU 20 executes the program stored in the ROM 22 and the flash memory 23 using the RAM 21 as a work area.

  More specifically, as shown in FIG. 3, the CPU 20 includes an operating system (hereinafter referred to as “OS”) 30, a platform 31 that operates on the OS 30, and an application that operates on the platform 31. 32 are read from the ROM 22 and the flash memory 23 into the RAM 21 and executed. Note that the ROM 22 or the flash memory 23 may store an application that operates on the OS 30.

  The platform 31 is described so that the same application 32 can be executed even if the OS 30 is different. Further, in the present embodiment, the platform 31 has a communication function based on an extended specification based on a specification established by 3GPP (Third Generation Partnership Project), OMA (Open Mobile Alliance) or GSMA (GSM Association). Have.

  As shown in FIG. 4, the server device 3 is configured by a general computer device including a CPU 40, a RAM 41, a ROM 42, a hard disk device 43, and a communication module 44.

  The ROM 42 and the hard disk device 43 store a program for causing the computer device to function as the server device 3. That is, when the CPU 40 executes the program stored in the ROM 42 and the hard disk device 43 using the RAM 41 as a work area, the computer device functions as the server device 3.

  More specifically, as shown in FIG. 5, the CPU 40 reads the OS 50, the platform 51 that operates on the OS 50, and the application 52 that operates on the platform 51 from the ROM 42 and the hard disk device 43 to the RAM 41 and executes them. . The ROM 42 or the hard disk device 43 may store an application 52 that operates on the OS 50.

  The platform 51 is described so that the same application 52 can be executed even if the OS 50 is different. Further, in the present embodiment, the platform 51 has a communication function compliant with an extended specification based on a specification formulated by 3GPP, like the platform 31.

  Further, the application 52 is configured to execute a cloud-type application in cooperation with the application 32 shown in FIG. Here, as a cloud-type application, for example, a game application that a plurality of mobile client terminals including the mobile client terminal 2 advance in cooperation, a game application that the mobile client terminal 2 advances independently, and a plurality of mobile client terminals cooperate Then, there are a content creation application that creates content such as a document, and a content creation application that the mobile client terminal 2 creates content independently.

  As shown in FIG. 6, the communication failure occurrence prediction device 4 is configured by a general computer device that includes a CPU 60, a RAM 61, a ROM 62, a hard disk device 63, and a communication module 64.

  The ROM 62 and the hard disk device 63 store a program for causing the computer device to function as the communication failure occurrence prediction device 4. That is, when the CPU 60 executes a program stored in the ROM 62 and the hard disk device 63 using the RAM 61 as a work area, the computer device functions as the communication failure occurrence prediction device 4.

  The hard disk device 63 of the communication failure occurrence prediction device 4 stores failure area information representing an area where communication failure occurs and an area where communication failure is likely to occur depending on geographical conditions.

  This failure area information may be updated by an administrator of the communication failure occurrence prediction device 4, or may be updated based on the received electric field strength of radio waves transmitted from a plurality of mobile client terminals.

  In FIG. 1, the client location specifying device 5 is configured by a computer device similar to the communication failure occurrence prediction device 4. For this reason, description of the hardware configuration of the client position specifying device 5 is omitted.

  The 3GPP specification has a provision that a change notification is issued inside the mobile communication network 10 when the mobile communication network 10 detects the movement of the mobile client terminal 2 between cells.

  This Change Notification includes the ID of the mobile client terminal 2 and the cell information that is in the area. The client location specifying device 5 includes the same ID of the mobile client terminal 2 and the cell information in the area as the one included in the change notification, triggered by the change notification issued on the mobile communication network 10 side. A position change notification is generated and transmitted to the communication failure occurrence prediction device 4.

  The communication failure occurrence prediction device 4 determines whether or not the cell indicated by the cell information included in the location change notification transmitted from the client location specifying device 5 is included in the area indicated by the failure area information. 2 and the server apparatus 3 are predicted whether or not a communication failure will occur.

  That is, the communication failure occurrence prediction device 4 is configured to predict whether or not a communication failure will occur between the mobile client terminal 2 and the server device 3 based on the location information of the mobile client terminal 2. Here, the position information of the mobile client terminal 2 represents the current position of the mobile client terminal 2, that is, the cell in which the mobile client terminal 2 is located.

  For example, in FIG. 7, assuming that the area D is included in the area represented by the failure area information among the areas A to E, the communication failure occurrence predicting device 4 uses the cell represented by the location information of the mobile client terminal 2. Is included in area D, it is predicted that a communication failure will occur between the mobile client terminal 2 and the server device 3.

  In this way, when the communication failure occurrence prediction device 4 predicts that a communication failure will occur between the mobile client terminal 2 and the server device 3, a communication failure occurrence notification indicating that the occurrence of a communication failure is predicted. Information is notified to the platforms 31 and 51 of the mobile client terminal 2 and the server device 3.

  3 and 5, the platforms 31 and 51 of the mobile client terminal 2 and the server device 3 send the notified communication failure occurrence notice information to the applications 32 and 52 operating on the platforms 31 and 51. It comes to notify.

  As a result, each of the applications 32 and 52 can execute a preparation operation before a communication failure occurs. Here, the preparation operation is freely set by the cloud application.

  Examples of the preparation operation include storage of the state of the cloud application, suspension of the cloud application, notification to another mobile client terminal that is executing the cloud application in cooperation, and the like.

  The operation of the cloud type application execution system 1 configured as described above is shown in FIG.

  When the movement of the mobile client terminal 2 between the cells is detected on the mobile communication network 10 side, a change notification is issued inside the mobile communication network 10 and the ID of the mobile client terminal 2 is triggered by the occurrence of this change notification. And the location change notification including the cell information in the area are transmitted to the communication failure occurrence prediction device 4 by the client location specifying device 5 (step S1).

  Next, based on whether or not the cell indicated by the cell information included in the location change notification transmitted from the client location specifying device 5 is included in the area indicated by the failure area information, the mobile client terminal 2 and the server device 3 The communication failure occurrence prediction device 4 predicts whether or not a communication failure will occur between the two (step S2).

  Here, if it is predicted that a communication failure will occur, the communication failure occurrence prediction information indicating that the occurrence of the communication failure is predicted by the communication failure occurrence prediction device 4 is sent between the mobile client terminal 2 and the server device 3. Each platform (denoted as “PF” in the figure) 31, 51 is notified (step S3).

  When the communication failure occurrence notice information is notified to each platform 31, 51 of the mobile client terminal 2 and the server device 3, the communication failure occurrence notice information is operated on each platform 31, 51 by each platform 31, 51. Application (denoted as “AP” in the figure) 32, 52 (step S4).

  When the communication failure occurrence notice information is notified to the applications 32 and 52, a preparation operation is executed by each of the applications 32 and 52 (step S5).

  As described above, the cloud-type application execution system 1 according to the embodiment of the present invention is an application that operates on the platforms 31 and 51 via the platforms 31 and 51 of the mobile client terminal 2 and the server device 3. 32 and 52 can be notified of the occurrence of a communication failure, so that each application 32 and 52 executed by the mobile client terminal 2 and the server device 3 can take a prior action against the communication failure. Can do.

  In the present embodiment, the communication failure occurrence predicting device 4 indicates that the occurrence of a communication failure is predicted when a communication failure is predicted to occur between the mobile client terminal 2 and the server device 3. The description has been made assuming that the communication failure occurrence notice information is notified to the platforms 31 and 51 of the mobile client terminal 2 and the server device 3.

  On the other hand, in the present invention, in addition to the fact that the occurrence of a communication failure is predicted, the communication failure occurrence notice information may further represent the probability that the occurrence of a communication failure is predicted. Here, the accuracy with which the occurrence of a communication failure is predicted is between the current position of the mobile client terminal 2 and an area including a cell where the communication failure occurs or an area where a communication failure is likely to occur due to geographical conditions. It is calculated by the communication failure occurrence prediction device 4 based on the probability of occurrence of communication failure in an area where communication failure is likely to occur due to distance and geographical conditions.

  For example, in FIG. 9, assuming that the area D is included in the area represented by the failure area information among the areas A to E, the communication failure occurrence prediction device 4 has the cell represented by the location information of the mobile client terminal 2. Is included in area A, the probability of occurrence of a communication failure is calculated as 60%, and when the cell represented by the location information of mobile client terminal 2 is included in area B, The accuracy with which the occurrence of a communication failure is predicted is calculated as 70%, and when the cell represented by the location information of the mobile client terminal 2 is included in area C or area E, the accuracy with which the occurrence of a communication failure is predicted Is calculated as 80%.

  With this configuration, in the cloud-type application execution system 1 according to the embodiment of the present invention, communication failure occurrence notice information is represented in each of the applications 32 and 52 being executed by the mobile client terminal 2 and the server device 3. A step-by-step preparation operation according to the accuracy can be executed.

  For example, when the probability that the occurrence of a communication failure is predicted is 60% or more, each of the applications 32 and 52 notifies other mobile client terminals that are executing the cloud-type application in cooperation with each other, and the communication failure If the probability that the occurrence of an error is predicted is 70% or more, the state of the cloud type application is saved, and if the accuracy that the occurrence of a communication failure is predicted is 80% or more, the cloud type application is suspended. By performing the above, it is possible to execute a stepwise preparation operation.

  In the present embodiment, the client location specifying device 5 transmits a location change notification to the communication failure occurrence prediction device 4 using a change notification issued on the mobile communication network 10 side as a trigger, thereby causing a communication failure. It has been described that the prediction device 4 acquires the position information of the mobile client terminal 2.

  On the other hand, in the present invention, the mobile client terminal 2 may transmit its own location information to the communication failure occurrence prediction device 4. Here, the configuration in which the mobile client terminal 2 acquires its own location information includes a technology that uses GPS (Global Positioning System) provided in the mobile client terminal 2, a technology that uses radio waves from a wireless base station, or This can be realized by applying a known technique such as a technique using radio waves from a Wi-Fi access point (see Non-Patent Document 1, for example).

  The configuration in which the mobile client terminal 2 acquires its own position information can be realized by applying a technology that uses a gyro, an orientation sensor, and an acceleration sensor mounted on the mobile client terminal 2.

  Further, the configuration in which the mobile client terminal 2 acquires its own location information can be realized by applying a technique using two-dimensional barcode, near field communication (NFC), visible light communication, or the like. be able to.

  In the present embodiment, the communication failure occurrence prediction device 4 predicts whether or not a communication failure occurs between the mobile client terminal 2 and the server device 3 based on the position information of the mobile client terminal 2. Thus, the position information of the mobile client terminal 2 has been described as representing the current position of the mobile client terminal 2.

  On the other hand, in the present invention, the location information of the mobile client terminal 2 represents the predicted movement path of the mobile client terminal 2, that is, the cell that is predicted to move in the future in addition to the existing cell. Also good.

  In this case, the communication failure occurrence prediction device 4 is configured to predict the movement predicted path of the mobile client terminal 2 by accumulating the current position of the mobile client terminal 2 (for example, non-patent document). 2 and 3).

  With this configuration, the communication failure occurrence prediction device 4 can determine whether the mobile client terminal 2 is approaching or moving away from the area represented by the failure area information. The occurrence of a communication failure with the device 3 can be predicted with relatively high accuracy.

  In the present embodiment, the communication failure occurrence prediction device 4 predicts whether or not a communication failure occurs between the mobile client terminal 2 and the server device 3 based on the position information of the mobile client terminal 2. Explained as a thing.

  On the other hand, in the present invention, the communication failure occurrence prediction device 4 determines whether or not a communication failure occurs between the mobile client terminal 2 and the server device 3 based on the radio wave reception state in the mobile client terminal 2. You may make it predict.

  In this case, the mobile client terminal 2 is configured to transmit the electric field strength of the received radio wave or the received signal strength indication (RSSI) of the received signal to the communication failure occurrence prediction device 4.

  Further, in the present embodiment, the cloud-type application execution system 1 has been described as including the mobile client terminal 2, the server device 3, and the communication failure occurrence prediction device 4.

  On the other hand, in the present invention, communication is performed by the mobile client terminal 2 in which the platform extended so as to function as the communication failure occurrence prediction device 4 is removed from the configuration of the cloud type application execution system 1 except for the communication failure occurrence prediction device 4. The failure occurrence prediction device 4 may be configured.

  Further, in the present invention, the communication failure occurrence prediction is performed by the server device 3 in which the platform extended so as to function as the communication failure occurrence prediction device 4 is removed from the configuration of the cloud type application execution system 1 except for the communication failure occurrence prediction device 4. The apparatus 4 may be configured.

DESCRIPTION OF SYMBOLS 1 Cloud type application execution system 2 Mobile client terminal 3 Server apparatus 4 Communication failure generation | occurrence | production prediction apparatus 5 Client position specific apparatus 10 Mobile communication network 11 Wireless network 12 Wired network 20, 40, 60 CPU
21, 41, 61 RAM
22, 42, 62 ROM
23 Flash memory 24 Wireless communication module 25 Display device 26 Input device 30, 50 OS
31, 51 Platform 32, 52 Application 43, 63 Hard disk device 44, 64 Communication module

Claims (11)

In a cloud type application execution system comprising at least one mobile client terminal and at least one server device, wherein the mobile client terminal and the server device execute a cloud type application in cooperation with each other,
The mobile client terminal and the server device each execute a platform having a communication function compliant with a common specification and at least one application operating on the platform in order to execute the cloud-type application in cooperation with each other And
The cloud type application execution system includes at least one communication failure occurrence prediction device that predicts whether a communication failure occurs between the mobile client terminal and the server device,
When the communication failure occurrence prediction device predicts that the communication failure will occur, communication failure occurrence notice information indicating that the occurrence of the communication failure is predicted is provided to each platform of the mobile client terminal and the server device. Notify
Each platform of the mobile client terminal and the server apparatus notifies the notified communication failure occurrence notice information to an application operating on the platform.   The cloud-type application execution system according to claim 1, wherein the communication failure occurrence prediction device predicts whether or not the communication failure occurs based on position information of the mobile client terminal.   The cloud type application execution system according to claim 2, wherein the location information of the mobile client terminal represents a current location of the mobile client terminal.   The cloud type application execution system according to claim 2, wherein the position information of the mobile client terminal represents a predicted movement path of the mobile client terminal.   The cloud type application execution system according to claim 2, wherein the mobile client terminal transmits position information of the mobile client terminal to the communication failure occurrence prediction device. A client location device connected to a mobile communication network;
The cloud type application execution system according to claim 2, wherein the client location specifying device transmits location information of the mobile client terminal to the communication failure occurrence prediction device.   The cloud-type application execution system according to claim 1, wherein the communication failure occurrence prediction device predicts whether or not the communication failure occurs based on a radio wave reception state in the mobile client terminal.   The cloud type application execution system according to claim 7, wherein the mobile client terminal transmits information indicating a radio wave reception state in the mobile client terminal to the communication failure occurrence prediction device.   The cloud type application execution system according to claim 1, wherein the communication failure occurrence notice information further represents a probability that the occurrence of the communication failure is predicted.   The cloud-type application execution system according to claim 1, wherein the communication failure occurrence prediction device is configured by the server device on which a platform extended to function as the communication failure occurrence prediction device is mounted.   The cloud-type application execution system according to claim 1, wherein the communication failure occurrence prediction device is configured by the mobile client terminal on which a platform extended so as to function as the communication failure occurrence prediction device is mounted. .

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