JP2018101944A - Communication relay apparatus and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique allowing a user to know whether data transmission within a predetermined period is guaranteed.SOLUTION: A communication relay device 11 includes: an acquisition unit 31; and a determination unit 33. The acquisition unit 31 acquires communication information including a maximum transmission data amount which is a maximum data amount that an application transmits in one transmission process and an allowable delay time which is a time allowed as a delay time of data transmission for each of one or more applications. The determination unit 33 determines, on the basis of at least a band in which communication is possible and the maximum transmission data amount of each of the one or more applications, whether a delay time in the data transmission can exceed an allowable delay time of a target application.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to an apparatus that relays communication executed by an application.

  In a configuration in which a plurality of applications perform data transmission, data transmission may be delayed when the amount of data to be transmitted increases. In Patent Document 1, the minimum communication bandwidth of each application is allocated within the range of the maximum communication bandwidth of the communication line to be used, thereby suppressing the data retransmission.

JP 2014-49905 A

  In an application in which data transmission is extremely unfavorable, for example, a driving assistance application that ensures the safety of traveling of a vehicle, it is desired to know whether the completion of data transmission within a predetermined period is guaranteed. This is because if the data transmission is likely to be delayed, the passenger can be notified in advance that the reliability of the application is low, or it can be determined not to execute the application.

  The present disclosure provides a technique capable of knowing whether or not data transmission within a predetermined period is guaranteed.

  A first aspect of the present disclosure is a communication relay device that is mounted on a vehicle (3) and performs data transmission to an information receiving device (7a, 7b) outside the vehicle according to a request of one or more applications (41). (11). The communication relay device includes an acquisition unit (31) and a determination unit (33).

  The acquisition unit is configured to acquire communication information. The communication information includes a maximum transmission data amount that is the maximum data amount of the data amount that the application transmits in one transmission process, and an allowable delay time that is a time allowed as a data transmission delay time set in the application. And information including.

  The determination unit determines a delay time in the data transmission based on at least a band in which communication is possible between the communication relay device and the information transmitting / receiving device and the maximum transmission data amount of each of the one or more applications. However, it is determined whether or not the allowable delay time of the target application that is at least a part of the one or more applications can be extended.

  According to such a configuration, it is possible to know whether there is a possibility of exceeding the allowable delay time of the target application, and it is possible to know whether data transmission within a predetermined period is guaranteed.

  A second aspect of the present disclosure is a communication relay device that is mounted on a vehicle (3) and performs data transmission to an information receiving device (7a, 7b) outside the vehicle according to a request of one or more applications (41). (11). The communication relay device includes an acquisition unit (31), a calculation unit (32), and a determination unit (33).

  The acquisition unit has the same configuration as the acquisition unit of the first aspect described above. The calculation unit is necessary to transmit the accumulated amount of data obtained by accumulating the maximum transmission data amount of each of the one or more applications based on the communicable band between the communication relay device and the information receiving device. The maximum transmission time, which is a long time, is calculated.

  The determination unit is configured to determine whether or not the maximum transmission time exceeds a threshold determined based on an allowable delay time of a target application that is at least a part of the one or more applications. ing.

According to such a configuration, the same effects as those of the communication relay device according to the first aspect described above can be obtained.
A third aspect of the present disclosure is a communication relay device that is mounted on a vehicle (3) and performs data transmission to an information communication device (7a, 7b) outside the vehicle according to a request of one or more applications (41). This is a program that causes the computer constituting (11) to function as the acquisition unit (31) and the determination unit (33). The configuration of the acquisition unit and the determination unit is the same as that of the first aspect described above.

According to such a configuration, it is possible to cause the computer to exhibit the same function as that of the communication relay device according to the first aspect described above.
Note that the reference numerals in parentheses described in this column and in the claims indicate the correspondence with the specific means described in the embodiment described later as one aspect, and the technical scope of the present disclosure It is not limited.

It is a block diagram which shows the structure of a communication system. It is a figure explaining the calculation method of the maximum transmission time, and the determination method of whether it exceeds allowable delay time. It is a figure explaining the determination method of whether it exceeds the allowable delay time. It is a figure explaining the calculation method of the maximum transmission time, and the determination method of whether it exceeds allowable delay time. It is a flowchart of a determination process.

Hereinafter, embodiments for carrying out the present disclosure will be described with reference to the drawings.
[1. Embodiment]
[1-1. Constitution]
A communication system 1 shown in FIG. 1 includes a communication relay device 11 mounted on a vehicle 3 and a server 7a and a server 7b that are installed in a center 5 outside the vehicle 3 and communicate with the communication relay device 11. It is a system including.

  The communication relay device 11 includes a communication module 23. The communication module 23 is a device that realizes wireless communication. The communication relay device 11, the server 7a, and the server 7b are configured to be communicable through a base station or an Internet service provider for realizing one or more wireless communications (not shown).

  Communication is performed between the communication module 23 and the base station in a predetermined communicable band (hereinafter referred to as a communication band). The communication band can be paraphrased as a communication speed of 1 Mbps, for example. In addition, the communication band is determined by a setting based on a contract with an Internet service provider that performs wireless communication. However, the communication band may be determined according to other requirements. For example, based on circumstances other than the contract, specifically, a communication speed limit predetermined by a law or a communication standard, or the performance of the communication module 23. It may be determined.

  The communication relay device 11 transmits data to the servers 7a and 7b and receives data transmitted from the servers 7a and 7b in accordance with a request from one or more applications 41 mounted on the vehicle 3. It is configured. The server 7a and the server 7b correspond to the information receiving device.

  Each of the one or more applications 41 is a system that realizes different functions, and each includes application software and hardware for realizing the functions. The communication relay device 11 may be integrated. In the following description, when a plurality of applications 41 are described separately, they are also referred to as application A, application B, and application C.

  The communication relay device 11 is mainly configured by a known microcomputer having a CPU 21 and a semiconductor memory (hereinafter referred to as a memory 22) such as a RAM, a ROM, and a flash memory. Various functions of the communication relay device 11 are realized by the CPU 21 executing a program stored in a non-transitional physical recording medium. In this example, the memory 22 corresponds to a non-transitional tangible recording medium that stores a program. Further, by executing this program, a method corresponding to the program is executed. Note that the number of microcomputers constituting the communication relay device 11 may be one or plural.

  The communication relay device 11 includes an acquisition unit 31, a calculation unit 32, a determination unit 33, and an output unit 34 as functions configured by the CPU 21 executing a program. The method of realizing these elements constituting the communication relay device 11 is not limited to software, and some or all of the elements may be realized using one or a plurality of hardware. For example, when the above function is realized by an electronic circuit that is hardware, the electronic circuit may be realized by a digital circuit including a large number of logic circuits, an analog circuit, or a combination thereof.

  The acquisition unit 31 acquires communication information from each of the applications 41. The communication information includes information regarding the application 41 such as the maximum transmission data amount, the allowable delay time, and the shortest transmission interval.

  The maximum transmission data amount is the maximum data amount among the data amounts that the application 41 transmits in one transmission process. The allowable delay time is a time allowed as a data transmission delay time set in advance for each application 41. The delay time is the time from when a data transmission request is generated until the transmission is actually finished. This allowable delay time may be determined based on the reception delay time allowed by the data receiving side, that is, the application 41. The shortest transmission interval is the shortest interval at which the application 41 performs data transmission.

  The calculation unit 32 calculates the maximum transmission time. The maximum transmission time is a time required to transmit the integrated amount of data obtained by integrating the maximum transmission data amount of each application 41, and is calculated based on the communication band. In other words, the maximum transmission time is a delay time that can occur when the delay time from the start to the end of data transmission is the largest, that is, when all applications request data transmission at the same time. A method for calculating the maximum transmission time will be described with reference to FIG.

In FIG. 2, the vertical axis indicates a communicable band. The horizontal axis indicates the elapsed time.
The size of the range occupied by the four applications A to D in the figure indicates the size of the maximum transmission data amount described above for each application. For example, in the case of “application A”, the maximum transmission data amount is shown as an area of communication bandwidth × t1 seconds. Similarly, in the case of “application B”, the maximum transmission data amount is shown as an area of communication band × (t2−t1) seconds. Similarly, the application C and the application D can be represented by areas of a communication band and a communication time.

  T4 shown in FIG. 2 is the maximum transmission time. When four applications request data transmission at the same time, that is, in a situation where the delay time is maximized, a delay time until the data transmission is completed occurs for the maximum transmission time.

  When the communication band is large, in other words, when the communication speed is high, the time required for data transmission is small and the maximum transmission time is small. On the other hand, when the communication band is small, the maximum transmission time increases.

  The determination unit 33 determines a delay time in data transmission based on at least the communication band between the communication relay device 11 and the server 7a and the server 7b and the maximum transmission data amount of each of the one or more applications 41. It is determined whether or not the allowable delay time of the target application can be exceeded. The target application is a part or all of the applications that are included in the one or more applications 41 described above and are to be determined. There may be one or more target applications. Further, the delay time here is a delay time that can occur in any application.

  The determination method will be described with reference to FIGS. In the case illustrated in FIG. 2, it is assumed that the same allowable delay time TA is set for the app A, the app C, and the app D, and the allowable delay time TB that is shorter than that is set for the app B.

  The allowable delay time TA and the allowable delay time TB are both greater than t4. In this case, even if the delay time of any application is the maximum transmission time, it does not exceed the allowable delay time TA and the allowable delay time TB. Therefore, even if the target application is any of applications A to D, it is determined that the delay time in data transmission does not exceed the allowable delay time of the target application.

  On the other hand, in the case of FIG. 3 where the application E exists in addition to the applications A to D, when the maximum transmission time is calculated in consideration of the application E, the maximum transmission time is t5. This exceeds the allowable delay time TB and the allowable delay time TE of the application E. In this case, when the target application is application B or application E, it is determined that the delay time in data transmission can exceed the allowable delay time of the target application.

  Note that the above-described determination threshold value by the determination unit 33 is not necessarily the allowable delay time itself, and may be a value determined based on the allowable delay time. For example, it may be determined whether or not the delay time can exceed the allowable delay time by setting a time shorter than the allowable delay time as a threshold and determining whether or not the maximum transmission time exceeds the threshold. .

  Now, consider a case where one or more applications include an application with a short data transmission cycle. In this case, it is assumed that the application having a short cycle described above makes a request for the next data transmission until all the applications request data transmission at the same time and all the data transmission is completed. . In this case, if the maximum transmission time is calculated based on the integrated amount obtained by integrating the maximum transmission data amount of each application once, there is a possibility that the maximum transmission time does not coincide with the time when the delay can actually occur.

  Therefore, when there is an application in which the shortest transmission interval is shorter than the shortest allowable delay time (hereinafter referred to as the shortest allowable time) among the allowable delay times of each of one or more applications, the calculation unit 32 exists. The maximum transmission time can be calculated as follows. First, in calculating the integrated amount obtained by integrating the maximum amount of transmission data, for an application with the shortest transmission time shorter than the shortest allowable time, the maximum number of applications that can be transmitted at the shortest transmission interval within the shortest allowable time. The transmission data amount is integrated and the integrated amount is calculated. Then, the maximum transmission time is calculated based on the integrated amount.

  In the example shown in FIG. 4, the shortest transmission interval TL of the application B is shorter than the TC that is the shortest allowable time, and data can be transmitted twice during the TC time. Therefore, when calculating the integrated amount, the maximum transmission data amount of the application B is integrated twice to determine the integrated amount. Thereby, the maximum transmission time can be made appropriate.

  For example, in the case of FIG. 4, when the applications A to D accumulate the maximum transmission data amount once, the maximum transmission time is shorter than the shortest allowable time TC, but actually, the application B can perform data transmission twice. The maximum transmission time exceeds the minimum allowable time TC.

  Thus, if data transmission can be performed n times within the shortest allowable time, the maximum transmission data amount can be integrated n times. In addition, you may be comprised so that this integration process of n times may not be performed.

  The output unit 34 is configured to perform predetermined processing based on the determination result of the determination unit 33. As an example, (i) The determination result by the determination unit 33 may be notified to the target application. In addition, (ii) execution of data transmission may be stopped for a target application that is determined to have a delay time that may exceed the allowable delay time. (Iii) When a request for data transmission is made to a target application that has not been determined that the delay time can exceed the allowable delay time, data transmission of the target application that has been determined that the delay time can exceed the allowable delay time May be configured to be interrupted. The output unit 34 corresponds to a notification unit, a stop unit, and an interruption unit.

[1-2. processing]
Next, determination processing executed by the CPU 21 of the communication relay device 11 will be described with reference to the flowchart of FIG. This processing is performed when there is a function change in at least one of one or more applications connected to the communication relay device 11 and when the communication relay device 11 transmits data of a new application. At least one of them. An application that has been changed or added is a target application. The function change described above is performed when, for example, application software is updated.

  First, in S1, the CPU 21 receives communication information from the target application. The target application has communication information and outputs the communication information based on a command from the CPU 21. The communication relay device 11 receives and acquires the communication information output from the target application. The communication information of other applications is acquired in advance.

In S2, the CPU 21 calculates the maximum transmission time by integrating the maximum data transmission amount based on the communication information acquired in S1 and the communication information acquired in advance.
In subsequent S3, the CPU 21 determines whether or not the maximum transmission time calculated in S2 is equal to or shorter than the shortest allowable delay time.

  If the CPU 21 determines in S3 that the maximum transmission time is not less than or equal to the shortest allowable delay time, that is, if the delay time exceeds the allowable delay time in any one or more applications, the CPU 21 proceeds to S4.

  On the other hand, if it is determined that the maximum transmission time is equal to or shorter than the shortest allowable delay time, that is, if the delay time does not exceed the allowable delay time in any application, the process proceeds to S6.

In S4, the CPU 21 notifies the target application that communication is not possible.
In S5, the CPU 21 invalidates communication of the target application. Thereafter, this process is terminated.

In S6, the CPU 21 notifies the target application that communication is possible.
In S7, the CPU 21 validates communication of the target application. Thereafter, this process is terminated.

  In the determination process, the application that has been changed or added is determined as the target application. However, all the applications may be determined as the target application.

[1-3. effect]
According to the embodiment detailed above, the following effects can be obtained.
(1a) In the communication system 1, whether or not there is a possibility that the delay time of data transmission exceeds the allowable delay time of the target application based on the communication information of the plurality of applications 41 with which the communication relay device 11 relays communication, In other words, it is possible to know whether or not data transmission within a predetermined period is guaranteed. Therefore, it is possible to notify the vehicle occupant in advance that the reliability of the application is low, or to stop the application, and the vehicle application can be suitably used.

  (1b) The communication relay device 11 determines whether or not the allowable delay time can be exceeded when an application is added or changed. Therefore, it is possible to reduce the risk that the state cannot be grasped over a long period of time even though there is an application exceeding the allowable delay time.

  (1c) The communication relay device 11 calculates the maximum transmission time which is the maximum delay time assumed based on the maximum transmission data amount and the shortest transmission interval as communication information, and the communication band, and the allowable delay time. To make the above-described determination. Therefore, a highly accurate determination result can be obtained.

  (1d) The communication relay device 11 notifies the target application of the determination result as to whether or not the allowable delay time of the target application can be exceeded. Therefore, the target application can know whether or not data transmission within the allowable delay time is guaranteed, and can perform appropriate processing for each application. For example, the passenger can be notified that the reliability is low, or the operation can be stopped.

  (1e) The communication relay device 11 invalidates communication and stops the execution of data transmission for an application for which it is determined that the delay time can exceed the allowable delay time. Therefore, it can suppress that an application functions in the state which cannot obtain sufficient reliability.

[2. Other Embodiments]
As mentioned above, although embodiment of this indication was described, this indication is not limited to the above-mentioned embodiment, and can carry out various modifications.

  (2a) In the above embodiment, the acquisition unit 31 has exemplified the configuration for receiving and acquiring communication information from each application, but the configuration may be such that the communication information is acquired by a method other than this. For example, the communication relay device 11 may have communication information of each application in advance, and the acquisition unit 31 may be configured to identify the connected application and acquire necessary communication information. Moreover, the acquisition part 31 may be comprised so that required communication information may be acquired from the server apparatus outside the vehicle 3 which memorize | stores the communication information of an application.

  (2b) In the above embodiment, the configuration in which the determination process of FIG. 5 is executed when an application is added or changed is exemplified, but it may be executed at other timing. For example, it is good also as a structure performed with a fixed period, and good also as a structure performed at the timing which the communication relay apparatus 11 starts.

  When there is a function change in the application, it may be determined in advance whether or not the maximum transmission time after the change exceeds the allowable delay time. In that case, it can be configured as follows.

  When there is a function change in the target application, the acquisition unit 31 is configured to acquire the communication information after the change of the target application before executing the change. Moreover, the determination part 33 is comprised so that the determination mentioned above may be performed based on the communication information after a change, before performing said change. Further, the output unit 34 is configured to output for stopping execution of the change of the target application that has been determined that the delay time can exceed the allowable delay time. The output unit 34 corresponds to a change cancellation unit.

  With such a configuration, it is possible to reduce the risk that the maximum transmission time exceeds the allowable delay time due to a change in the function of the application, and communication is not guaranteed.

  For example, the following configuration can be considered as the output of the output unit 34 described above. The target application notifies the communication relay device 11 of the change when the function is changed. The output unit 34 of the communication relay device 11 notifies the application whether or not the change is permitted. The application executes the change only when the change is permitted.

  (2c) In the above-described embodiment, the communication relay device 11 is configured to communicate with the server 7a and the server 7b of the center 5, but may be configured to communicate with others. For example, the structure which communicates with the vehicle-mounted apparatus mounted in the other vehicle and the roadside machine installed in the road vicinity may be sufficient.

  (2d) When a request for data transmission is made to a target application that has not been determined that the delay time can exceed the allowable delay time, the data transmission of the target application that has been determined that the delay time can exceed the allowable delay time is interrupted You may be comprised so that a process may be performed. If configured in this way, the data transmission is not guaranteed to be completed within the allowable delay time, but there is a time limit compared to an application being executed, that is, an application with less time limit. Application data transmission can be executed with priority.

  (2e) In the above embodiment, the configuration in which each application has a separate function is illustrated. However, in an application composed of a plurality of tasks (hereinafter also referred to as an integrated application), each of the tasks can be handled as corresponding to the application described in the above embodiment.

  That is, the application of the present disclosure may be any unit that has some function and is a unit that requests data transmission and has information on the maximum transmission data amount and allowable delay time.

  When a task in the integrated application is considered as an application of the present disclosure, notification to the application, stop of data transmission, and the like described in the above embodiment may be executed in units of the integrated application. That is, when it is determined that the delay time exceeds the allowable delay time in any task, notification or suspension may be performed in the same manner for all tasks of the integrated application that the task configures.

  (2f) A plurality of functions of one constituent element in the above embodiment may be realized by a plurality of constituent elements, or a single function of one constituent element may be realized by a plurality of constituent elements. . Further, a plurality of functions possessed by a plurality of constituent elements may be realized by one constituent element, or one function realized by a plurality of constituent elements may be realized by one constituent element. Moreover, you may abbreviate | omit a part of structure of the said embodiment. In addition, at least a part of the configuration of the above embodiment may be added to or replaced with the configuration of the other embodiment. In addition, all the aspects included in the technical idea specified from the wording described in the claims are embodiments of the present disclosure.

  (2g) In addition to the communication relay device 11 described above, a system including the communication relay device 11 as a constituent element, a program for causing a computer to function as the communication relay device 11, a non-transitive semiconductor memory or the like in which the program is recorded The present disclosure can also be realized in various forms such as an actual recording medium and a communication relay method.

  DESCRIPTION OF SYMBOLS 3 ... Vehicle, 7a, 7b ... Server, 11 ... Communication relay apparatus, 31 ... Acquisition part, 32 ... Calculation part, 33 ... Determination part, 41 ... Application

Claims (10)

A communication relay device (11) mounted on a vehicle (3) and performing data transmission to an information receiving device (7a, 7b) outside the vehicle according to a request of one or more applications (41),
Communication information that is information including a maximum transmission data amount that is the maximum data amount among data amounts that the application transmits in one transmission process, and an allowable delay time that is an allowable time for data transmission. An acquisition unit (31) configured to acquire for each of the one or more applications;
Based on at least a communicable band between the communication relay device and the information receiving device and the maximum transmission data amount of each of the one or more applications, the delay time in the data transmission is the 1 A determination unit (33) configured to determine whether or not the allowable delay time of a target application that is at least a part of one or more applications can be exceeded. The communication relay device according to claim 1,
The acquisition unit is at least one of when the function is changed in at least one of the one or more applications and when the communication relay apparatus transmits data of a new application. On the other hand, the communication information is obtained from at least one of the application in which the change has occurred and the new application,
The determination unit is a communication relay device configured to perform the determination when the acquisition unit acquires the communication information. The communication relay device according to claim 1 or 2,
Furthermore, a calculation unit that calculates a maximum transmission time, which is a time required for transmitting the accumulated amount of data obtained by integrating the maximum transmission data amount of each of the one or more applications, based on the communicable band ( 32)
The communication relay device is configured to determine that the delay time may exceed the allowable delay time when the maximum transmission time exceeds a threshold determined based on the allowable delay time. The communication relay device according to claim 3,
The acquisition unit is configured to acquire, as the communication information, a shortest transmission interval that is a shortest interval at which the application performs the data transmission,
When there is an application having the shortest transmission interval shorter than the shortest allowable delay time among the allowable delay times of each of the one or more applications, the calculation unit calculates the maximum transmission data amount of the application, The communication is configured to calculate the integrated amount integrated for the number of times that can be transmitted at the shortest transmission interval within the shortest allowable delay time, and to calculate the maximum transmission time based on the integrated amount. Relay device. The communication relay device according to any one of claims 1 to 4,
Furthermore, a communication relay apparatus provided with the notification part (34) comprised so that the determination result by the said determination part may be notified to the said object application. The communication relay device according to any one of claims 1 to 5,
The communication relay device further includes a stop unit (34) configured to stop the execution of the data transmission for the target application for which it is determined that the delay time may exceed the allowable delay time. The communication relay device according to any one of claims 1 to 6,
Furthermore, when the data transmission request is generated in the target application that is not determined that the delay time can exceed the allowable delay time, the target that is determined that the delay time can exceed the allowable delay time A communication relay device comprising an interruption unit (34) configured to interrupt the data transmission of an application. The communication relay device according to any one of claims 1 to 7,
The acquisition unit is configured to acquire the communication information after the change of the target application before executing the change when the target application has a function change,
The determination unit is configured to perform the determination based on the communication information after the change before executing the change,
The communication relay device further includes a change canceling unit (34) configured to perform output for canceling execution of the change of the target application determined that the delay time may exceed the allowable delay time. . A communication relay device (11) mounted on a vehicle (3) and performing data transmission to an information receiving device (7a, 7b) outside the vehicle according to a request of one or more applications (41),
Communication information that is information including a maximum transmission data amount that is the maximum data amount among data amounts that the application transmits in one transmission process, and an allowable delay time that is an allowable time for data transmission. An acquisition unit (31) configured to acquire for each of the one or more applications;
Based on the bandwidth that can be communicated between the communication relay device and the information receiving device, the time required to transmit the integrated amount of data obtained by integrating the maximum transmission data amount of each of the one or more applications. A calculation unit (32) for calculating a certain maximum transmission time;
A determination unit configured to determine whether or not the maximum transmission time exceeds a threshold determined based on the allowable delay time of a target application that is at least a part of the one or more applications. (33). A computer that is mounted on the vehicle (3) and constitutes a communication relay device (11) that transmits data to the information receiving devices (7a, 7b) outside the vehicle according to the request of one or more applications (41),
Communication information that is information including a maximum transmission data amount that is the maximum data amount among data amounts that the application transmits in one transmission process, and an allowable delay time that is an allowable time for data transmission. An acquisition unit (31) configured to acquire for each of the one or more applications;
The delay time in the data transmission is based on at least the communicable bandwidth between the communication relay device and the information receiving device and the maximum transmission data amount of each of the one or more applications. A program that functions as a determination unit (33) configured to determine whether or not the allowable delay time of a target application that is at least a part of one or more applications can be exceeded.