JP6494549B2 - Wireless terminal, server, control method, and communication system - Google Patents

Description

  The present invention relates to a wireless terminal, a server, a control method, and a communication system.

  There is known a migration technique for moving a virtual environment between a plurality of servers in accordance with the load status of a server operating in the virtual environment and the occurrence of a failure. In Patent Document 1, when a sign of a failure of a server operating in a virtual environment is detected, the virtual environment is moved to another device, and the processing executed on the server is performed by the other device. A continuing technique is disclosed.

JP 2012-93868 A

  When the server that executes the virtual environment is connected to another device via a wired communication line with stable communication quality, the virtual environment starts moving when a sign of a server failure is detected. , Movement of virtual environment can be realized. However, when the server and another device are connected via a wireless communication line whose communication quality is likely to fluctuate, if the communication quality deteriorates when the movement of the virtual environment starts, the virtual environment is moved. It becomes impossible to do. As a result, there has been a problem that the operation executed on the server cannot be continuously executed on another device.

  Therefore, the present invention has been made in view of these points, and even if the state of the wireless communication line with the device that continues the processing is deteriorated while the processing is being performed by the server, the processing is performed by another device. It aims to be able to continue.

  A wireless terminal according to a first aspect of the present invention is a wireless terminal that accesses a server that executes application software in a server virtualization environment via a wireless communication line, and estimates the communication quality of the wireless communication line. An estimation unit; a reception unit that receives status information indicating the status of the server virtualization environment while the server is executing application software in the server virtualization environment; and the quality estimation unit And an execution control unit that causes the reception unit to receive the state information at a time interval corresponding to the communication quality estimated by.

  The execution control unit is, for example, a terminal virtualization environment in which the wireless terminal executes application software when the communication quality is at a high quality level while the server is executing the application software in the server virtualization environment. When the communication quality is a medium quality level lower than the high quality level, the first difference information indicating a difference between the server virtualization environment and the server virtualization environment is received by the reception unit at a first time interval. One difference information is received by the receiving unit at a second time interval longer than the first time interval.

  The execution control unit includes difference data indicating the content of a change that has occurred in the server virtualization environment when the communication quality is at a high quality level while the server is executing the application software in the server virtualization environment. When the communication quality is a medium quality level lower than the high quality level, the snapshot indicating the content of the snapshot change of the server virtualization environment is received at the first time interval. Information may be received by the receiving unit at the second time interval.

  In the terminal virtualization environment, the execution control unit is triggered by the fact that the communication quality has become a low quality level lower than the medium quality level while the server is executing the application software in the server virtualization environment. The execution of the application software executed in the server virtualization environment may be started.

  The execution control unit is configured to execute the application software in the terminal virtualization environment when the communication quality is less than the medium quality level while executing the application software in the terminal virtualization environment. Second difference information indicating a difference between the terminal virtualization environment and the latest terminal virtualization environment may be stored in the storage medium of the wireless terminal.

  In this case, the execution control unit transmits the second difference information to the server when the communication quality is equal to or higher than the medium quality level while executing the application software in the terminal virtualization environment. Also good.

  The execution control unit may increase the frequency of transmitting the second difference information to the server when the communication quality is equal to or higher than the high quality level.

  The server according to the second aspect of the present invention is a server that executes application software in a server virtualization environment and communicates with a wireless terminal via a wireless communication line, and receives information indicating the communication quality of the wireless communication line A quality information receiving unit that transmits status information indicating a status of the server virtualization environment to the radio terminal via the radio communication line while the server is executing application software in the server virtualization environment. And a transmission control unit that causes the transmission unit to transmit the state information at a time interval determined based on information indicating the communication quality received by the quality information reception unit.

  The control method according to the third aspect of the present invention is a wireless method used by a wireless terminal that executes application software in a terminal virtualization environment to access a server that executes the application software in a server virtualization environment that is executed by a computer. State information indicating a state of the server virtualization environment at a time interval corresponding to the estimated communication quality while the server is executing application software in the server virtualization environment; Moving to the wireless terminal via the wireless communication line.

  A communication system according to a fourth aspect of the present invention includes: a server that executes application software in a server virtualization environment; a wireless terminal that accesses the server via a wireless communication line and executes application software in a terminal virtualization environment; The server or the wireless terminal estimates a quality estimation unit that estimates the communication quality of the wireless communication line, and the server estimates the application software being executed in the server virtualization environment. An execution control unit that moves state information indicating the state of the server virtualization environment to the wireless terminal via the wireless communication line at a time interval corresponding to the communication quality.

  The execution control unit includes a first difference indicating a difference between a terminal virtualization environment in which the wireless terminal executes application software and the server virtualization environment while the server is executing the application software in the server virtualization environment. Information may be moved to the wireless terminal.

  The server may determine whether to transmit the first difference information to the wireless terminal based on a use frequency of an area corresponding to the first difference information in the server virtualization environment.

  Advantageous Effects of Invention According to the present invention, even when the state of a wireless communication line with a device that continues processing is deteriorated while processing is being performed on a server, it is possible to continue processing on another device. Play.

It is a figure which shows the structure of the communication system S of this embodiment. It is a figure which shows the structure of a radio | wireless terminal. It is a figure for demonstrating a communication quality level. It is a figure which shows the structure of a server. It is a figure for demonstrating the relationship between RSSI and the execution state of application software. It is a figure which shows the communication sequence between a radio | wireless terminal and a server. It is a figure which shows the communication sequence between a radio | wireless terminal and a server. It is a figure which shows the relationship between the threshold value of communication quality and operation | movement content in a modification.

[Outline of Communication System S]
FIG. 1 is a diagram illustrating a configuration of a communication system S according to the present embodiment. The communication system S includes a wireless terminal 1 and a server 2. The wireless terminal 1 and the server 2 can transmit and receive data via the wireless communication line W and the network N.

  The wireless terminal 1 is a terminal having a screen for displaying information, such as a smartphone or a tablet. The wireless terminal 1 accesses the server 2 via a wireless communication line W such as LTE (Long Term Evolution) or Wi-Fi (registered trademark), and transmits / receives data to / from the server 2. In response to a user operation, the wireless terminal 1 executes application software using the virtualization environment of the server 2 and displays a screen indicating a result of the server 2 executing the application software. That is, the wireless terminal 1 and the server 2 can display a result of the wireless terminal 1 executing the application software on the server 2 by VDI (Virtual Desktop Infrastructure).

  The server 2 has a virtual environment, and executes application software in the virtual environment. The virtual environment is a virtual machine built on a computer, and the virtual environment possessed by the server 2 is a resource for operating the OS (for example, Android) of the wireless terminal 1 and application software operable on the wireless terminal 1. have. The server 2 executes application software in a virtual environment, and generates screen data for causing the wireless terminal 1 to display the execution result. The server 2 provides the generated screen data to the wireless terminal 1 via the network N and the wireless communication line W.

  As described above, the wireless terminal 1 executes the application software in the virtual environment of the server 2, thereby reducing the power consumption of the wireless terminal 1 and executing the application software that requires high processing capability. Can be displayed.

  However, when the state of the wireless communication line W deteriorates or when the frequency of application software using the resources of the wireless terminal 1 increases, it is considered preferable to execute the application software in the wireless terminal 1. . Accordingly, the state information indicating the state of the virtual environment of the server 2 while the application software is being executed on the server 2 so that the wireless terminal 1 can take over and execute the process being executed by the server 2. Receive. Then, the wireless terminal 1 synchronizes the virtualization environment of the server 2 and the virtual environment of the wireless terminal 1 by updating the virtualization environment of the wireless terminal 1 based on the received state information. In this way, when the wireless terminal 1 executes the application software in the virtual environment of the wireless terminal 1, the wireless terminal 1 can continue the processing that has been executed in the virtual environment of the server 2 without delay. it can.

  The virtualization environment in the present embodiment includes a storage area and a memory area. When the wireless terminal 1 or the server 2 according to the present embodiment transfers the status information of the virtual environment, it is assumed that both the storage area data and the memory area data are transferred. Only the status information of either the storage area data or the memory area data may be transferred.

  Various modes are assumed for the status information transferred from the server 2 to the wireless terminal 1. The server 2 may transmit all data related to the virtual environment as state information to the wireless terminal 1, and the virtual environment at the time of the most recent transmission to the wireless terminal 1 and the latest virtual environment of the server 2 The contents of the difference may be transmitted to the wireless terminal 1 as state information. Since the wireless terminal 1 updates the virtualization environment of the wireless terminal 1 based on the state information received from the server 2, the virtual environment at the time of transmission to the wireless terminal 1 last time and the latest virtual environment of the server 2 The information indicating the difference corresponds to the first difference information indicating the difference between the virtual environment of the wireless terminal 1 and the virtual environment of the server 2.

  Each time a change occurs in the virtual environment, the server 2 may transmit difference data indicating the contents of the generated difference as the first difference information, and the address (address) of the data in which the change has occurred in the snapshot Snapshot information including the changed data may be transmitted as the first difference information.

  What state information is transmitted from the server 2 to the wireless terminal 1 is arbitrary, but in the present embodiment, when the state of the wireless communication line W is good as shown in FIG. At the first time interval, the difference data is sequentially transferred when the difference data is generated. As shown in FIG. 1B, when the state of the wireless communication line W deteriorates, the snapshot information is transferred at a second time interval longer than the first time interval.

  In this way, when the state of the wireless communication line W is good, the latest data can be transmitted from the server 2 to the wireless terminal 1 in almost real time, so the communication quality of the wireless communication line W deteriorates. When the application software is started to be executed on the wireless terminal 1, as shown in FIG. 1C, the application software can be executed in the virtual environment of the wireless terminal 1 by taking over the latest state of the server 2 as it is. . Further, when the state of the wireless communication line W is starting to deteriorate and the transmission speed of the communication line is not sufficiently high, the server 2 transmits snapshot information with a low frequency so that the server 2 is as new as possible regarding the virtual environment. The state can be transmitted to the wireless terminal 1.

[Configuration of wireless terminal 1]
FIG. 2 is a diagram illustrating a configuration of the wireless terminal 1. The wireless terminal 1 includes a communication unit 11, an operation unit 12, a display unit 13, a storage unit 14, and a control unit 15. The control unit 15 includes a quality estimation unit 151, a transmission unit 152, a reception unit 153, an operation reception unit 154, a display control unit 155, an execution unit 156, and an execution control unit 157.

  The communication unit 11 is a wireless communication unit, receives a radio channel assignment from a base station of a mobile phone network, and transmits / receives data to / from the server 2 via the wireless communication line W and the network N. The communication unit 11 extracts data superimposed on the received radio wave and inputs the extracted data to the quality estimation unit 151. In addition, the communication unit 11 generates received signal strength information (RSSI) indicating the intensity of the received radio wave, and inputs the RSSI to the transmission unit 152. Further, the communication unit 11 transmits the transmission data received from the reception unit 153 on radio waves.

The operation unit 12 receives an operation from the user. The operation unit 12 is a touch panel provided so as to overlap the display unit 13, for example.
The display unit 13 is a display that displays information. The operation unit 12 and the display unit 13 may be an integrated touch screen.

  The storage unit 14 is a storage medium such as a ROM (Read Only Memory) or a RAM (Random Access Memory). The storage unit 14 stores a program executed by the control unit 15 in the ROM. Further, the storage unit 14 stores the virtual environment acquired from the server 2 in the RAM. For example, the storage unit 14 stores a control program for the execution control unit 157 to receive the transfer of the virtual environment from the server 2.

  The control unit 15 is, for example, a CPU (Central Processing Unit). The control unit 15 executes the program stored in the storage unit 14 to thereby execute the quality estimation unit 151, the transmission unit 152, the reception unit 153, the operation reception unit 154, the display control unit 155, the execution unit 156, and the execution control unit 157. Function as.

  The quality estimation unit 151 estimates the communication quality of the wireless communication line W based on the RSSI input from the communication unit 11 or the frame error rate during communication. For example, the quality estimation unit 151 compares the RSSI with a predetermined threshold value, and identifies which communication quality level the RSSI corresponds to among a plurality of communication quality levels.

  FIG. 3 is a diagram for explaining the communication quality level. As shown in FIG. 3, in this embodiment, the quality estimation unit 151 compares the RSSI value with the first threshold value and the second threshold value to determine which communication among the low quality level, the medium quality level, and the high quality level. Estimate whether it is a quality level. The quality estimation unit 151 notifies the execution control unit 157 of information indicating the estimated communication quality level.

  The low quality level is a level corresponding to a state in which data cannot be stably transmitted and received between the wireless terminal 1 and the server 2. The medium quality level is a level in which there is a possibility of transitioning to a low quality level or a high quality level within a short time. The high quality level is a level at which data can be transmitted and received satisfactorily and the possibility of transition to a low quality level in a short time is low.

  Returning to FIG. 2, the transmission unit 152 transmits a message to the server 2 based on an instruction from the execution control unit 157. For example, when the communication quality level deteriorates, the transmission unit 152 transmits a message notifying the server 2 that the communication quality has deteriorated. The transmission unit 152 may transmit a message that specifies an aspect of state information acquired from the server 2 or a message that specifies a time interval for acquiring state information from the server 2.

  The receiving unit 153 extracts the payload portion from the data input from the communication unit 11 and stores the extracted payload in the storage unit 14. For example, the reception unit 153 receives status information indicating the status of the virtual environment of the server 2 via the wireless communication line W while the server 2 is executing the application software in the virtual environment of the server 2. The receiving unit 153 notifies the execution control unit 157 that the state information has been received, and stores the received state information in the storage unit 14. The receiving unit 153 does not receive state information while the communication quality is at a low quality level while the server 2 is executing the application software in the virtual environment of the server 2.

  The operation reception unit 154 specifies the operation content input by the user on the operation unit 12 and notifies the execution control unit 157 of the specified operation content. The operation reception unit 154 receives, for example, an operation for setting a time interval for receiving state information from the server 2 and notifies the execution control unit 157 of the operation.

  The display control unit 155 inputs information to be presented to the user to the display unit 13 based on the control of the execution unit 156. For example, when the execution unit 156 executes application software in the virtual environment, the display control unit 155 acquires a result obtained by executing the application software from the execution unit 156, and displays the acquired result on the display unit 13. Display.

  The execution unit 156 displays the screen data received from the server 2 on the display unit 13 via the display control unit 155 while the server 2 is executing the application software in the virtual environment. In addition, when the communication quality deteriorates, the execution unit 156 executes the application software in the virtual environment stored in the storage unit 14 based on the control of the execution control unit 157, and includes screen data including a result of the execution. Is generated and displayed on the display unit 13.

  The execution control unit 157 causes the reception unit 153 to receive state information at a time interval determined based on the communication quality level estimated by the quality estimation unit 151. For example, the execution control unit 157 transmits the communication quality level estimated by the quality estimation unit 151 to the server 2 via the transmission unit 152, so that the state information is determined at time intervals determined in advance corresponding to the communication quality level. Can be received by the receiving unit 153. When the execution control unit 157 receives the state information, the execution control unit 157 updates the virtualization environment stored in the storage unit 14 based on the received state information.

  For example, when the server 2 is executing application software in the virtual environment of the server 2 and the communication quality is at a high quality level, the execution control unit 157 performs virtual processing of the wireless terminal 1 that executes the application software. The receiving unit 153 receives first difference information (for example, difference data) indicating a difference between the virtualization environment and the virtualization environment of the server 2 at a first time interval. The execution control unit 157 receives the first difference information (for example, snapshot information) at the reception unit 153 at a second time interval longer than the first time interval when the communication quality is at the medium quality level. Let

  Here, the execution control unit 157 can determine what kind of state information is received at what time interval according to the operation content acquired from the user via the operation receiving unit 154. The execution control unit 157 may control the type of status information to be received and the reception time interval by transmitting a message indicating the determined content to the server 2 via the transmission unit 152.

  The execution control unit 157 causes the virtual environment of the server 2 in the virtual environment of the wireless terminal 1 when the communication quality becomes a low quality level while the server 2 executes the application software in the virtual environment of the server 2. The execution unit 156 is controlled to start execution of the application software that has been executed in the computer environment. Since the execution control unit 157 updates the virtualization environment stored in the storage unit 14 when the status information is received, the virtualization environment of the wireless terminal 1 is updated when the communication quality becomes a low quality level. The application software can be started immediately.

  Further, the execution control unit 157 executes the application software in the virtual environment of the wireless terminal 1 when the communication quality is lower than the medium quality level while executing the application software in the virtual environment of the wireless terminal 1. Second difference information indicating a difference between the virtual environment at the start and the latest virtual environment is stored in the storage unit 14. Then, the execution control unit 157 performs the second difference information stored in the storage unit 14 when the communication quality is equal to or higher than the medium quality level while executing the application software in the virtual environment of the wireless terminal 1. , The snapshot information is transmitted to the server 2.

  Furthermore, the execution control unit 157 increases the frequency at which the second difference information is transmitted to the server 2 when the communication quality is equal to or higher than the high quality level. At this time, the execution control unit 157 may sequentially transmit the difference data indicating the change contents of the data generated after the latest snapshot information is transmitted to the server 2 every time the data changes. Then, the execution control unit 157 instructs the server 2 to resume execution of the application software. In this way, the execution control unit 157 can quickly switch the main body that executes the application software to the server 2 when the state of the wireless communication line W is improved.

[Configuration of Server 2]
FIG. 4 is a diagram illustrating a configuration of the server 2. The server 2 includes a communication unit 21, a storage unit 22, and a control unit 23. The communication unit 21 is a communication unit for transmitting and receiving data to and from the wireless terminal 1 via the network N, and includes, for example, a LAN controller.

  The storage unit 22 is a storage medium such as a ROM, a RAM, and a hard disk. The storage unit 22 stores a program executed by the control unit 23 in the ROM. Further, the storage unit 22 stores application software that can be executed by the wireless terminal 1 and a virtual environment for executing the application software in the RAM.

  The control unit 23 is, for example, a CPU. The control unit 23 functions as a reception unit 231, a transmission unit 232, an execution unit 233, and an execution control unit 234 by executing a program stored in the storage unit 22.

  The receiving unit 231 receives data transmitted from the wireless terminal 1 via the network N. For example, the receiving unit 231 receives information indicating the communication quality of the wireless communication line W. In addition, the receiving unit 231 receives information regarding the type of state information to be transmitted to the wireless terminal 1 and the time interval for transmitting the state information.

The transmission unit 232 transmits data to the wireless terminal 1 via the network N. The transmission unit 232 transmits the state information to the wireless terminal 1 based on the control of the execution control unit 234, for example.
The execution unit 233 executes application software under the virtual environment stored in the storage unit 22 based on the control of the execution control unit 234. The execution unit 233 transmits screen data including the execution result of the application software to the wireless terminal 1 via the transmission unit 232.

  The execution control unit 234 transmits the status information via the transmission unit 232 at a time interval determined based on the communication quality of the wireless communication line W while the execution unit 233 executes the application software in the virtual environment of the server 2. Transmit to the wireless terminal 1. Specifically, the execution control unit 234 causes the difference data to be transmitted in real time at the first time interval when the communication quality is at a high quality level. Note that if no difference data is generated, the execution control unit 234 may not transmit the difference data even when a timing corresponding to the first time interval occurs. The execution control unit 234 causes the snapshot information to be transmitted at a second time interval longer than the first time interval when the communication quality is at a medium quality level.

[Relationship between communication quality and application software execution status]
FIG. 5 is a diagram for explaining the relationship between RSSI and the execution state of application software. FIG. 5A shows the relationship between the communication quality and the execution subject of the application software. When the RSSI is equal to or greater than the first threshold, the application software is executed in the virtual environment of the server 2. Thereafter, when the communication quality deteriorates and the RSSI becomes less than the first threshold, the application software is executed in the virtual environment of the wireless terminal 1.

  FIG. 5B shows the relationship between the communication quality, the type of state information transferred from the server 2 to the wireless terminal 1, and the time interval. When the RSSI is equal to or greater than the first threshold, the difference data of the server 2 is transferred at the first time interval. Thereafter, when the communication quality deteriorates and the RSSI becomes less than the second threshold, the snapshot information is transferred at the second time interval.

  As described above, in the communication system S, while the communication quality is good, the difference data indicating the content of the change in the virtualization environment of the server 2 is transferred to the wireless terminal 1 at a high frequency, and the communication quality is not good. In the meantime, snapshot information indicating the difference between snapshots is transferred to the wireless terminal 1 at a low frequency. By doing in this way, while the communication quality is good, the virtual environment of the server 2 and the virtual environment of the wireless terminal 1 can be synchronized almost in real time. Further, while the communication quality is not good, the virtual environment of the server 2 and the virtual environment of the wireless terminal 1 can be synchronized within a range in which the load on the wireless communication line W is not increased excessively. Therefore, even if the communication quality of the wireless communication line W deteriorates to such an extent that data cannot be transmitted and received between the server 2 and the wireless terminal 1, the server 2 is executing in the virtual environment of the wireless terminal 1. It is possible to continue the processing.

[Communication sequence]
6 and 7 are diagrams illustrating a communication sequence between the wireless terminal 1 and the server 2. FIG. 6 starts from a steady state in which the server 2 is executing application software in a virtual environment (S21). During this time, the screen data is transferred from the server 2 to the wireless terminal 1, and the wireless terminal 1 displays the screen data received from the server 2 on the display unit 13 (S11). During this time, the server 2 transfers the first difference information as the state information to the wireless terminal 1 at the first time interval, and the wireless terminal 1 stores the first difference information in the storage unit 14 based on the received first difference information. Update the virtualized environment.

  The wireless terminal 1 monitors the communication quality during the period when the display unit 13 displays the screen data received from the server 2 (S12), and when the RSSI becomes less than the second threshold (YES in S12), The communication quality is notified to the server 2. In response to receiving the communication quality notification from the wireless terminal 1, the server 2 changes the state information transfer interval and the type of state information to be transferred (S22). Specifically, the server 2 changes the snapshot information as the state information to be transferred to the wireless terminal 1 at the second time interval.

  Subsequently, in the wireless terminal 1, when the RSSI becomes less than the first threshold (YES in S13), the execution unit 156 starts executing the application software (S14). While the execution unit 156 is executing the application software in the virtual environment of the wireless terminal 1, the wireless terminal 1 stores the change content generated in the virtual environment in the storage unit 14 (S15).

  Subsequently, moving to FIG. 7, when the RSSI becomes equal to or higher than the first threshold (YES in S16), the wireless terminal 1 transfers the snapshot information stored in the storage unit 14 to the server 2, and then the second The snapshot information is transferred to the server 2 at the time interval. The server 2 updates the virtualization environment based on the transferred snapshot information (S23). When the RSSI is equal to or higher than the second threshold value (YES in S17), the wireless terminal 1 notifies the server 2 of the communication quality, and differential data indicating data that has changed since the snapshot information was transferred immediately before, Transfer to the server 2 at the first time interval.

  In response to receiving the communication quality notification from the wireless terminal 1, the server 2 updates the virtualization environment based on the difference data, and executes the application software in the updated virtualization environment (S24). The server 2 transfers the screen data on which the application software is being executed to the wireless terminal 1, and the wireless terminal 1 displays the received screen data on the display unit 13 (S18).

[Modification 1]
In the above description, the threshold for changing the state information transfer interval when the communication quality of the wireless communication line W deteriorates, and the threshold for changing the state information transfer interval when the communication quality of the wireless communication line W is restored. However, the threshold for changing the state information transfer interval may be different depending on whether the communication quality deteriorates or the communication quality recovers.

  FIG. 8 is a diagram illustrating the relationship between the communication quality threshold value and the operation content in the present modification. FIG. 8A shows the relationship between the threshold value and the operation content when the communication quality deteriorates. In FIG. 8A, the difference data is transferred from the server 2 to the wireless terminal 1 at the first time interval between the second threshold and the second time interval when the difference data becomes less than the second threshold. Snapshot information has been transferred.

In FIG. 8 (b), the state information is not transferred for less than the second threshold value, and the snapshot information is transferred from the wireless terminal 1 to the server 2 at the second time interval when the value exceeds the second threshold value. Has been transferred. And when it becomes 3rd threshold value or more, difference data is transferred by the 1st time interval, and when it becomes 4th threshold value or more, execution of application software is started in server 2.
In this way, when the communication quality of the wireless communication line W is temporarily recovered, the state information transfer interval is frequently changed, and the subject executing the application software is frequently changed. Can be prevented.

[Modification 2]
In the above description, the server 2 transfers all the first difference information to the wireless terminal 1 when there is a change in the data of the virtual environment. Whether to transmit the first difference information to the wireless terminal 1 may be determined based on the use frequency of the area corresponding to the difference data first difference information. For example, the server 2 transfers all the first difference information to the wireless terminal 1 when the communication quality of the wireless communication line W is equal to or higher than a predetermined threshold, and is used when the communication quality is lower than the predetermined threshold. You may make it transfer to the radio | wireless terminal 1 limited to the 1st difference information of an area | region with high frequency. By doing in this way, when the communication quality of the radio | wireless communication line W is bad, the probability that 1st difference information with high importance can be normally transferred to the radio | wireless terminal 1 can be raised.

[Effect in this embodiment]
As described above, the wireless terminal 1 according to the present embodiment receives state information indicating the state of the virtual environment of the server 2 at a time interval corresponding to the communication quality estimated by the quality estimation unit 151. For example, the wireless terminal 1 receives differential data from the server 2 at a first time interval while the communication quality is at a high quality level, and is longer than the first time interval while the communication quality is at a medium quality level. Snapshot information is received from the server 2 at a second time interval. Thus, in the communication system S, the virtual environment of the server 2 and the virtual environment of the wireless terminal 1 can be synchronized almost in real time while the communication quality is good. Further, while the communication quality is not good, the virtual environment of the server 2 and the virtual environment of the wireless terminal 1 can be synchronized within a range in which the load on the wireless communication line W is not increased excessively.

  Further, when the communication quality is poor, the wireless terminal 1 executes application software in the virtual environment of the wireless terminal 1, and stores the second difference information in the storage unit 14 when the data of the virtual environment changes. . Then, the second difference information is transmitted to the server 2 when the communication quality is recovered. In this way, when the communication quality is restored, the execution subject of the application software can be quickly switched to the server 2.

  The present invention has been described based on some embodiments. New embodiments resulting from any combination of these are also included in the embodiments of the present invention. The effect of the new embodiment produced by the combination has the effect of the original embodiment.

  The technical scope of the present invention is not limited to the scope described in the above embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above embodiment. In particular, the specific embodiments of the distribution / integration of the devices are not limited to those illustrated above, and all or a part thereof may be added in arbitrary units according to various additions or according to functional loads. It can be configured functionally or physically distributed and integrated.

1 wireless terminal 2 server 11 communication unit 12 operation unit 13 display unit 14 storage unit 15 control unit 21 communication unit 22 storage unit 23 control unit 151 quality estimation unit 152 transmission unit 153 reception unit 154 operation reception unit 155 display control unit 156 execution unit 157 execution control unit 231 reception unit 232 transmission unit 233 execution unit 234 execution control unit N network S communication system W wireless communication line

Claims (12)

A wireless terminal that accesses a server that executes application software in a server virtualization environment via a wireless communication line,
A quality estimation unit for estimating communication quality of the wireless communication line;
A receiving unit that receives status information indicating the status of the server virtualization environment via the wireless communication line while the server is executing application software in the server virtualization environment;
An execution control unit that causes the reception unit to receive the state information at a time interval corresponding to the communication quality estimated by the quality estimation unit;
A wireless terminal. The execution control unit includes a terminal virtualization environment in which the wireless terminal executes application software when the communication quality is at a high quality level while the server is executing the application software in the server virtualization environment. When the reception unit receives first difference information indicating a difference from the server virtualization environment at a first time interval, and the communication quality is a medium quality level lower than the high quality level, the first difference Causing the receiver to receive information at a second time interval longer than the first time interval;
The wireless terminal according to claim 1. The execution control unit includes difference data indicating the content of a change that has occurred in the server virtualization environment when the communication quality is at a high quality level while the server is executing the application software in the server virtualization environment. When the communication quality is a medium quality level lower than the high quality level, the snapshot indicating the content of the snapshot change of the server virtualization environment is received at the first time interval. Causing the receiver to receive information at the second time interval;
The wireless terminal according to claim 2. In the terminal virtualization environment, the execution control unit is triggered by the fact that the communication quality has become a low quality level lower than the medium quality level while the server is executing the application software in the server virtualization environment. Starting execution of application software that was running in the server virtualization environment,
The wireless terminal according to claim 2 or 3. The execution control unit is configured to execute the application software in the terminal virtualization environment when the communication quality is less than the medium quality level while executing the application software in the terminal virtualization environment. Storing second difference information indicating a difference between the terminal virtualization environment and the latest terminal virtualization environment in a storage medium of the wireless terminal;
The wireless terminal according to claim 4. The execution control unit transmits the second difference information to the server in response to the communication quality becoming a medium quality level or higher while executing application software in the terminal virtualization environment.
The wireless terminal according to claim 5. The execution control unit increases the frequency of transmitting the second difference information to the server when the communication quality is equal to or higher than the high quality level.
The wireless terminal according to claim 6. A server that executes application software in a server virtualization environment and communicates with a wireless terminal via a wireless communication line,
A quality information receiving unit for receiving information indicating communication quality of the wireless communication line;
While the server is executing application software in the server virtualization environment, a transmission unit that transmits state information indicating the state of the server virtualization environment to the wireless terminal via the wireless communication line;
A transmission control unit that causes the transmission unit to transmit the state information at a time interval determined based on information indicating the communication quality received by the quality information reception unit;
Server with. The computer runs,
Estimating a communication quality of a wireless communication line used for a wireless terminal executing application software in a terminal virtual environment to access a server executing application software in a server virtual environment;
While the server is executing the application software in the server virtualization environment, status information indicating the status of the server virtualization environment is transmitted via the wireless communication line at a time interval corresponding to the estimated communication quality. Moving to the terminal,
A control method. A communication system comprising: a server that executes application software in a server virtualization environment; and a wireless terminal that accesses the server via a wireless communication line and executes application software in a terminal virtualization environment,
The server or the wireless terminal is
A quality estimation unit for estimating communication quality of the wireless communication line;
While the server is executing the application software in the server virtualization environment, status information indicating the status of the server virtualization environment is transmitted via the wireless communication line at a time interval corresponding to the estimated communication quality. An execution control unit to be moved to the terminal;
A communication system. The execution control unit includes a first difference indicating a difference between a terminal virtualization environment in which the wireless terminal executes application software and the server virtualization environment while the server is executing the application software in the server virtualization environment. Moving information to the wireless terminal;
The communication system according to claim 10. The server determines whether to transmit the first difference information to the wireless terminal based on a use frequency of an area corresponding to the first difference information in the server virtualization environment.
The communication system according to claim 11.

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