JP6962050B2 - Communication system and communication method - Google Patents

Description

The present invention relates to communication systems and communication methods.

Patent Document 1 discloses a communication system that combines IoT (Internet of Things) technology and cloud computing technology.

Such a communication system is configured by, for example, connecting a measuring device (sensor, controller, etc.) to a server in a cloud environment via a network.

Japanese Unexamined Patent Publication No. 2017-11501

In the above communication system, a domain name, a host name, etc. are assigned by using a dedicated driver in order for the measuring device to communicate with a specific server in a cloud environment. Therefore, when another server is added to the cloud environment to communicate with the other server, it is necessary to replace or modify the measuring device.

On the other hand, it is theoretically possible to implement a function that enables simultaneous communication with a plurality of servers in a cloud environment and / or a change in a server that is a communication partner in a cloud environment. However, due to resource constraints, it is not practical to implement such advanced functions in a measuring device.

The present invention has been made in view of the above points, and one of the objects of the present invention is to provide a communication system and a communication method capable of flexibly operating according to a cloud environment without exchanging or modifying a measuring device. do.

The communication system of the present embodiment relays a measuring device, a plurality of cloud servers, a switching device that relays the measuring device and the plurality of cloud servers, and the measuring device and the switching device and the plurality of cloud servers. It has a management server, and the switching device switches which of the plurality of cloud servers stores the measurement data of the measuring device, and stores the measurement data of the measuring device in any of the plurality of cloud servers. The measurement data distribution information indicating whether to be stored is transmitted to the management server, and the management server transmits the measurement data accumulated by the plurality of cloud servers based on the measurement data distribution information transmitted from the switching device. It is characterized by collecting.

The communication method of the present embodiment relays a measuring device, a plurality of cloud servers, a switching device that relays the measuring device and the plurality of cloud servers, and the measuring device and the switching device and the plurality of cloud servers. A communication method using a communication system having a management server, the switching device switches which of the plurality of cloud servers stores the measurement data of the measuring device, and the measurement data of the measuring device is stored in the plurality of cloud servers. The measurement data distribution information indicating which of the plurality of cloud servers is stored is transmitted to the management server, and the management server uses the measurement data distribution information transmitted from the switching device to the plurality of cloud servers. It is characterized in that the measurement data accumulated by the server is collected.

According to the present invention, it is possible to provide a communication system and a communication method that can flexibly operate according to a cloud environment without exchanging or modifying a measuring device.

It is a block diagram which shows the whole structure of the communication system by this embodiment. It is a block diagram which shows the internal structure of the 1st switching device. It is a block diagram which shows the internal structure of the management server. It is a figure which shows an example of the structure of the measurement data transmitted from the 1st measuring apparatus to the 3rd measuring apparatus to the 1st switching apparatus to the 3rd switching apparatus. It is a figure which shows an example of the structure of the measurement data transmitted from the 1st switching device to the 3rd switching device to the 1st cloud server to the 2nd cloud server. It is a figure which shows an example of the structure of the measurement data distribution information transmitted from the 1st switching device to the 3rd switching device to the management server. It is a sequence diagram which shows the periodical check operation of a management server. It is a sequence diagram which shows the periodical confirmation operation of the 1st switching device. It is a sequence diagram which shows the operation which the measurement data of the 1st measuring apparatus is distributed and accumulated in the 1st cloud server to the 2nd cloud server via the 1st switching apparatus. It is a sequence diagram which shows the operation which the management server collects the measurement data distributed and accumulated in the 1st cloud server to the 2nd cloud server. It is a flowchart which shows an example of the operation of the communication system by this Embodiment. It is a figure which shows an example of switching the connection destination of a cloud server.

FIG. 1 is a block diagram showing an overall configuration of the communication system 1 according to the present embodiment. The communication system 1 is, for example, a combination of IoT (Internet of Things) technology and multi-cloud computing technology.

The communication system 1 has a first measuring device 11, a second measuring device 12, and a third measuring device 13. In FIG. 1, the first measuring device 11 and the second measuring device 12 are drawn as a single component, and the third measuring device 13 is drawn as a bundle of a plurality of components. The third measuring device 13 (plurality of components) is aggregated by the aggregation device 13X. There is a degree of freedom in the number and arrangement of measuring devices, and various design changes are possible.

The first measuring device 11 to the third measuring device 13 is, for example, a field device including a sensor or a controller, and measures a physical quantity or a change amount of a measurement target and outputs it as measurement data. The first measuring device 11 to the third measuring device 13 add, for example, a measuring device ID and a measurement time (measurement time stamp) to the measurement data. In addition, the first measuring device 11 to the third measuring device 13 exchanges simple information with the first switching device 31 to the third switching device 31, which will be described later, but due to resource constraints. For some reason, it may not implement any more advanced features.

The first measuring device 11 to the third measuring device 13 is, for example, an image sensor (surveillance camera or the like), a temperature sensor, a humidity sensor, an illuminance sensor, a force sensor, a sound sensor, an RFID sensor, an infrared sensor, an attitude sensor, and rainfall. It can be a sensor, a radioactivity sensor, a gas sensor, an acceleration sensor, a gyroscope, a GPS sensor, or the like. Further, since devices such as mobile phones, smartphones, tablet terminals, mobile PCs, and drones are equipped with various types of sensors, these devices should be treated as the first measuring device 11 to the third measuring device 13. You can also. Furthermore, many sensors have already been installed for various purposes and purposes in all parts of the world, such as factory FA, production control, urban traffic control, environmental measurement such as weather, healthcare, and crime prevention. Can also be handled as the first measuring device 11 to the third measuring device 13.

The communication system 1 has a first cloud server 21 and a second cloud server 22 as a plurality of cloud servers (servers under a cloud environment). It should be noted that there may be a plurality of cloud servers, and there is a degree of freedom in the number and arrangement of the cloud servers, and various design changes are possible.

The communication system 1 has a first switching device 31, a second switching device 32, and a third switching device 33. The first switching device 31 relays the first measuring device 11 and the first cloud servers 21 to the second cloud servers 22 in a manner connected in series to the transmission line from the first measuring device 11. .. The second switching device 32 relays the second measuring device 12 and the first cloud server 21 to the second cloud server 22 in a manner capable of intercepting the transmission path from the second measuring device 12. The third switching device 33 is connected to the transmission line from the third measuring device 13 in parallel with the aggregation device 13X, and is connected to the third measuring device 13 and the first cloud server 21 to the second cloud server. 22 is relayed. The specific configuration and operation of the first switching device 31 to the third switching device 33 will be described in detail later.

Communication system 1 has a management server (information management server, analysis server) 40. The management server 40 includes a first measuring device 11 to a third measuring device 13, a first switching device 31 to a third switching device 33, and a first cloud server 21 to a second cloud server 22. Relay. The specific configuration and operation of the management server 40 will be described in detail later.

First measuring device 11 to third measuring device 13 (aggregating device 13X), first cloud server 21 to second cloud server 22, first switching device 31 to third switching device 33, and management. The server 40 can communicate directly or indirectly by the network 50. The network 50 can be, for example, a wireless network such as a dedicated line, a virtual private network (VPN: Virtual Private Network), the Internet, an industrial radio, or a mobile phone network.

FIG. 2 is a block diagram showing an internal configuration of the first switching device 31. Since the first switching device 31 to the third switching device 33 have the same configuration, the first switching device 31 will be described as a representative of these.

The first switching device 31 measures the communication unit 31A, the information addition unit 31B, the measurement data storage unit 31C, the priority setting unit 31D, the cloud server switching unit 31E, the measurement data distribution information storage unit 31F, and the measurement data distribution unit 31F. It has a data distribution information transmission unit 31G.

The communication unit 31A executes various communications between the first measuring device 11, the first cloud server 21 to the second cloud server 22, and the management server 40 by the network 50. The communication unit 31A receives, for example, measurement data from the first measuring device 11 (the measuring device ID of the first measuring device 11 and the measurement time are added).

The information addition unit 31B switches the measurement data from the first measuring device 11 (the measuring device ID and the measurement time of the first measuring device 11 are added) with the switching device ID of the first switching device 31. Add the time (switching time stamp).

The measurement data storage unit 31C is a measurement data to which information is added by the information addition unit 31B (data main body, measurement device ID and measurement time of the first measurement device 11, switching device ID and switching time of the first switching device 31). Is temporarily memorized. When the measurement data storage unit 31C satisfies a predetermined trigger condition, the measurement data storage unit 31C discards the measurement data stored by the measurement data storage unit 31C. The predetermined trigger condition can be, for example, that a predetermined time has elapsed and that the measurement data is stored in any of the first cloud server 21 to the second cloud server 22.

The priority setting unit 31D receives the usage fee, availability, and operating status of the cloud server from the first cloud server 21 to the second cloud server 22 and / or the management server 40 via communication by the communication unit 31A. Receives CPU load status, response time, response speed, current usage for the upper limit usage, etc.). The priority setting unit 31D sets the priority based on the usage fee, availability, and operating status of the received first cloud server 21 to second cloud server 22. For example, the priority setting unit 31D raises the priority of the available cloud server when one of the first cloud server 21 to the second cloud server 22 is available and the other is unavailable. be able to. Further, when the first cloud server 21 to the second cloud server 22 can be used together, the priority setting unit 31D can raise the priority of the cloud server having the lower usage fee. Further, the priority setting unit 31D responds when the first cloud server 21 to the second cloud server 22 can be used together and the operating condition is good (the CPU load is small, the response time is short, and the response time is short). It is possible to raise the priority of cloud servers (which are fast and currently have a low usage fee for the maximum usage amount). Further, the priority setting unit 31D sets the priority of the cloud server in consideration of both the usage fee and the operating status when both the first cloud server 21 and the second cloud server 22 can be used. can do. The priority setting unit 31D uses at least one of the usage charges, availability, and operating status of the first cloud server 21 to the second cloud server 22 and uses at least one of them in the cloud. You can set the priority of the server.

The cloud server switching unit 31E measures the measurement data (data main body, measurement device ID and measurement of the first measurement device 11) stored in the measurement data storage unit 31C according to the priority of the cloud server set by the priority setting unit 31D. It is switched whether the time, the switching device ID of the first switching device 31 and the switching time) are stored in the first cloud server 21 to the second cloud server 22. That is, the cloud server switching unit 31E sets the connection destination cloud server to any of the first cloud server 21 to the second cloud server 22 according to the usage fee, availability, and operating status of the cloud server that changes from moment to moment. This is switched in real time, and the storage destination of the measurement data is distributed (distributed) to the first cloud server 21 to the second cloud server 22.

The measurement data distribution information storage unit 31F generates the measurement data distribution information by the cloud server switching unit 31E and stores the measurement data distribution information. The measurement data distribution information includes cloud server information (any of the first cloud server 21 to the second cloud server 22) in which the measurement data is stored. The measurement data distribution information includes at least the measurement device ID and measurement time (measurement time stamp) of the first measurement device 11 and the switching device ID and switching time (switching) of the first switching device 31 added to the measurement data. Time stamp) is included. The measurement data distribution information makes it possible to grasp the distribution status (distribution status) of measurement data such as "which measurement data is stored in which cloud server".

The measurement data distribution information transmission unit 31G transmits the measurement data distribution information stored in the measurement data distribution information storage unit 31F to the management server 40 via communication by the communication unit 31A.

The second switching device 32 and the third switching device 33 have the same configuration as the first switching device 31. That is, although not drawn in the form of being coded in FIG. 2, the second switching device 32 includes the communication unit 32A, the information addition unit 32B, the measurement data storage unit 32C, the priority setting unit 32D, and the cloud. It has a server switching unit 32E, a measurement data distribution information storage unit 32F, and a measurement data distribution information transmission unit 32G. Similarly, the third switching device 33 includes a communication unit 33A, an information addition unit 33B, a measurement data storage unit 33C, a priority setting unit 33D, a cloud server switching unit 33E, and a measurement data distribution information storage unit 33F. And a measurement data distribution information transmission unit 33G.

FIG. 3 is a block diagram showing an internal configuration of the management server 40. The management server 40 includes a communication unit 40A, a measurement data distribution information storage unit 40B, a measurement data collection unit 40C, a switching device information acquisition unit 40D, and a cloud server information acquisition unit 40E.

The communication unit 40A has the first measuring device 11 to the third measuring device 13 (aggregating device 13X), the first switching device 31 to the third switching device 33, and the first cloud server 21 by the network 50. ~ Various communications are executed with the second cloud server 22. The communication unit 40A receives, for example, the measurement data distribution information transmitted from the first switching device 31 to the third switching device 33.

The measurement data distribution information storage unit 40B stores the measurement data distribution information transmitted from the first switching device 31 to the third switching device 33. The measurement data distribution information includes cloud server information (any of the first cloud server 21 to the second cloud server 22) in which the measurement data is stored. The measurement data distribution information includes at least the measurement device ID and measurement time (measurement time stamp) of the first measurement device 11 to the third measurement device 13 added to the measurement data, and the first switching device 31 to the first. The switching device ID and switching time (switching time stamp) of the switching device 33 of 3 are included.

The measurement data collection unit 40C collects the measurement data accumulated by the first cloud server 21 to the second cloud server 22 based on the measurement data distribution information stored in the measurement data distribution information storage unit 40B. That is, since the distribution status (distribution status) of the measurement data such as "which measurement data was stored in which cloud server" can be grasped from the measurement data distribution information, the measurement data collection unit 40C can grasp the measurement data. Based on the distributed information, the measurement data accumulated by the first cloud server 21 to the second cloud server 22 is collected to generate a series of measurement data in chronological order.

The switching device information acquisition unit 40D communicates with the first switching device 31 to the third switching device 33 via the communication unit 40A to obtain various information (from the first switching device 31 to the third switching device 33). For example, information used for access control when cloud server information is requested) is acquired. The switching device information acquisition unit 40D acquires, for example, the IP address, ID, password, certificate, and the like of the first switching device 31 to the third switching device 33.

The cloud server information acquisition unit 40E communicates with the first cloud server 21 to the second cloud server 22 via the communication unit 40A, so that the usage fee, availability, and operating status (CPU load status) of the cloud server are used. , Response time, response speed, current usage amount with respect to the upper limit usage amount, etc.), and these received information is transmitted to the first switching device 31 to the third switching device 33. Alternatively, the cloud server information acquisition unit 40E mediates information transmission between the first cloud server 21 to the second cloud server 22 and the switching devices 31 to the third switching device 33, and the first cloud server 21 To the second cloud server 22 to the first switching device 31 to the third switching device 33, the usage fee, availability, and operating status (CPU load status, response time, response speed, upper limit usage amount) of the cloud server. (Current usage amount, etc.) is transmitted.

FIG. 4A is a diagram showing an example of the structure of measurement data transmitted from the first measuring device 11 to the third measuring device 13 to the first switching device 31 to the third switching device 33. The measurement data of FIG. 4A has a data main body, a measurement device ID, and a measurement time (measurement time stamp).

FIG. 4B is a diagram showing an example of the structure of measurement data transmitted from the first switching device 31 to the third switching device 33 to the first cloud server 21 to the second cloud server 22. The measurement data of FIG. 4B has a switching device ID and a switching time (switching time stamp) in addition to the data main body of FIG. 4A, the measuring device ID, and the measurement time (measurement time stamp).

FIG. 4C is a diagram showing an example of the structure of the measurement data distribution information transmitted from the first switching device 31 to the third switching device 33 to the management server 40. The measurement data distribution information of FIG. 4C has storage destination cloud server information, a measurement device ID, a measurement time (measurement time stamp), a switching device ID, and a switching time (switching time stamp).

FIG. 5 is a sequence diagram showing a periodic confirmation operation of the management server 40. In FIG. 5, the first measuring device 11 is shown on behalf of the first measuring devices 11 to the third measuring device 13, and the first switching device 31 to the third switching device 33 are represented. The switching device 31 of the above is shown.

First, the operation manager accesses the management server 40 and executes manual information update (usage charges, availability, etc. of the first cloud server 21 to the second cloud server 22) by the operation manager (S1). This manual update information is, for example, a flat-rate charge for a cloud server in a flat-rate contract, a basic charge for a cloud server in a pay-as-you-go contract, and the like.

Next, the management server 40 accesses the first cloud server 21 and performs automatic confirmation (S2-1), and the first cloud server 21 responds to the automatic confirmation to charge the usage fee of the first cloud server 21. The availability and the like are transmitted to the management server 40 (S2-2). The usage charge transmitted here is, for example, a usage charge of the first cloud server 21 at that time in consideration of a pay-as-you-go charge and a state change.

Next, the management server 40 accesses the second cloud server 22 and performs automatic confirmation (S2-3), and the second cloud server 22 responds to the automatic confirmation to charge the usage fee of the second cloud server 22. The availability and the like are transmitted to the management server 40 (S2-4). The usage charge transmitted here is, for example, a usage charge for the second cloud server 22 at that time in consideration of a pay-as-you-go charge and a state change.

FIG. 6 is a sequence diagram showing a periodic confirmation operation of the first switching device 31. In FIG. 6, the first measuring device 11 is shown on behalf of the first measuring devices 11 to the third measuring device 13, and the first switching device 31 to the third switching device 33 are represented. The switching device 31 of the above is shown.

First, the first switching device 31 makes an update information request to the management server 40 (S1-1), the management server 40 responds to the update information request, and the first cloud server 21 to the second cloud server 22 The usage fee, availability, etc. are transmitted to the first switching device 31 (S1-2). The update information request is a request signal for confirming the usage charge, availability, etc. of the first cloud server 21 to the second cloud server 22 at that time in consideration of the pay-as-you-go charge and the state change.

Next, the first switching device 31 makes an operation status confirmation request to the first cloud server 21 (S2-1), the first cloud server 21 responds to the operation status confirmation request, and the first cloud server 21 (CPU load status, response time, response speed, current usage amount with respect to the upper limit usage amount, etc.) is transmitted to the first switching device 31 (S2-2). If the first cloud server 21 does not transmit the operating status within a predetermined time after the first switching device 31 issues the operating status confirmation request, it is determined that the first cloud server 21 is not operating. Can be done.

Next, the first switching device 31 makes an operation status confirmation request to the second cloud server 22 (S2-3), the second cloud server 22 responds to the operation status confirmation request, and the second cloud server 22 (CPU load status, response time, response speed, current usage amount with respect to the upper limit usage amount, etc.) is transmitted to the first switching device 31 (S2-4). If the second cloud server 22 does not transmit the operating status within a predetermined time after the first switching device 31 issues the operating status confirmation request, it is determined that the second cloud server 22 is not operating. Can be done.

To transmit the usage fee, availability, etc. of the cloud server in response to the update information request (S1-1 to S1-2), and to transmit the operation status of the cloud server in response to the operation status confirmation request (S1-1 to S1-2). S2-1 to S2-4) can be executed periodically, for example, at predetermined time intervals.

In addition, the update information request from the switching device is omitted, the usage fee, availability, etc. of the cloud server are transmitted from the cloud server, and the confirmation response (affirmative response) is transmitted from the switching device that receives this to the cloud server. You may. Also, even if the operation status confirmation request from the switching device is omitted, the operating status of the cloud server is transmitted from the cloud server, and the confirmation response (affirmative response) is transmitted from the switching device that receives this to the cloud server. good.

FIG. 7 is a sequence diagram showing an operation in which the measurement data of the first measuring device 11 is distributed and accumulated in the first cloud server 21 to the second cloud server 22 via the first switching device 31. be. FIG. 7 shows the first measuring device 11 on behalf of the first measuring device 11 to the third measuring device 13, and the first switching device 31 to the third switching device 33 on behalf of the first measuring device 11. The switching device 31 of the above is shown. FIG. 7 shows the initial setting in which the measurement data of the first measuring device 11 is stored in the first cloud server 21, and then the measurement data of the first measuring device 11 is stored in the second cloud server 22. It is assumed that the settings are changed so that they are accumulated.

First, the first measuring device 11 measures the measurement data (S1) and adds the measuring device ID and the measurement time (measurement time stamp) to the measurement data. Then, the first measuring device 11 transmits the measurement data (data main body, measuring device ID and measurement time of the first measuring device 11) to the first switching device 31 (S2).

Next, the first switching device 31 adds the switching device ID and the switching time (switching time stamp) to the measurement data transmitted from the first measuring device 11. Then, the first switching device 31 transmits the measurement data (data main body, measuring device ID and measurement time of the first measuring device 11, and switching device ID and switching time of the first switching device 31) to the first cloud server. It is transmitted to 21 (S3). The first cloud server 21 accumulates the measurement data transmitted from the first switching device 31 and analyzes the measurement data as needed (S4). The first cloud server 21 transmits a confirmation response (affirmative response) of measurement data to the first switching device 31 (S5). The first switching device 31 transmits the measurement data to the first cloud server 21 and also transmits the measurement data distribution information to the management server 40 (S6). The measurement data distribution information includes storage destination cloud server information (in this case, the first cloud server 21), the measurement device ID and measurement time of the first measurement device 11, and the switching device ID and switching of the first switching device 31. Includes time. The first switching device 31 notifies the first measuring device 11 of the transmission completion report indicating that the measurement data has been transmitted to the first cloud server 21 and the measurement data distribution information has been transmitted to the management server 40. Transmit (S7).

At this stage, some error (communication failure, CPU load exceeds the critical value, server usage fee exceeds the upper limit, etc.) occurs in the cloud server 21, and the first cloud server 21 accumulates measurement data. The description of the sequence diagram of FIG. 7 will continue, assuming that it is no longer possible.

The first measuring device 11 measures the measurement data (S8) and adds the measuring device ID and the measurement time (measurement time stamp) to the measurement data. Then, the first measuring device 11 transmits the measurement data (data body, measuring device ID and measuring time of the first measuring device 11) to the first switching device 31 (S9).

Next, the first switching device 31 adds the switching device ID and the switching time (switching time stamp) to the measurement data transmitted from the first measuring device 11. Then, the first switching device 31 transmits the measurement data (data main body, measuring device ID and measurement time of the first measuring device 11, switching device ID and switching time of the first switching device 31) to the first cloud server. Attempts to transmit to 21 (S10). However, since an error has occurred in the first cloud server 21, it is not possible to respond to the measurement data transmitted from the first switching device 31 (S11).

Then, the first switching device 31 makes an operation status confirmation request to the first cloud server 21 to the second cloud server 22 (S12, S13). Since an error has occurred in the first cloud server 21, it is not possible to respond to the operation status confirmation request from the first switching device 31. On the other hand, the second cloud server 22 responds to the operation status confirmation request from the first switching device 31, and responds to the operation status of the second cloud server 22 (CPU load status, response time, response speed, upper limit use). The current usage amount with respect to the amount) is transmitted to the first switching device 31 (S14).

Next, the first switching device 31 notifies the management server 40 of the measurement data storage destination switching (that is, the notification that the measurement data storage destination is switched from the first cloud server 21 to the second cloud server 22). Is transmitted (S15). The management server 40 records the measurement data storage destination switching notification transmitted from the first switching device 31 (S16), and then transmits the measurement data storage destination switching response to the first switching device 31 (S17). ).

Next, the first switching device 31 has measurement data (data main body, measurement device ID and measurement time of the first measurement device 11, measurement time, first) that could not be transmitted / stored in the first cloud server 21 in S10. (Switching device ID and switching time of the switching device 31) is transmitted to the second cloud server 22 (S18). The second cloud server 22 accumulates the measurement data transmitted from the first switching device 31, and analyzes the measurement data as needed (S19). The second cloud server 22 transmits a confirmation response (affirmative response) of measurement data to the first switching device 31 (S20). The first switching device 31 transmits the measurement data to the second cloud server 22, and also transmits the measurement data distribution information to the management server 40 (S21). The measurement data distribution information includes storage destination cloud server information (in this case, the second cloud server 22), the measurement device ID and measurement time of the first measurement device 11, and the switching device ID and switching of the first switching device 31. Includes time. The first switching device 31 notifies the first measuring device 11 of the transmission completion report indicating that the measurement data has been transmitted to the second cloud server 22 and the measurement data distribution information has been transmitted to the management server 40. Transmit (S22).

FIG. 8 is a sequence diagram showing an operation in which the management server 40 collects measurement data distributed and accumulated in the first cloud server 21 to the second cloud server 22. In FIG. 8, the first measuring device 11 is shown on behalf of the first measuring devices 11 to the third measuring device 13, and the first switching device 31 to the third switching device 33 are represented. The switching device 31 of the above is shown.

First, the management server 40 transmits a measurement data transmission request to the first cloud server 21 based on the measurement data distribution information transmitted from the first switching device 31 (S1). In response to this measurement data transmission request, the first cloud server 21 transmits the measurement data accumulated by the first cloud server 21 to the management server 40 (S2).

Next, the management server 40 transmits a measurement data transmission request to the second cloud server 22 based on the measurement data distribution information transmitted from the first switching device 31 (S3). In response to this measurement data transmission request, the second cloud server 22 transmits the measurement data accumulated by the second cloud server 22 to the management server 40 (S4).

Then, the management server 40 synthesizes the measurement data transmitted from the first cloud server 21 and the measurement data transmitted from the second cloud server 22 to generate a series of measurement data in chronological order. The measurement data is analyzed (S5).

FIG. 9 is a flowchart showing an example of the operation of the communication system 1 according to the present embodiment. In FIG. 9, control by the first switching device 31 will be described on behalf of the first switching device 31 to the third switching device 33.

In step ST1, the first switching device 31 reads (recognizes) the cloud server of the current connection destination (measurement data storage destination).

In step ST2, the first switching device 31 determines the usage fee, availability, and operating status (CPU load status, response time, response speed, current usage amount with respect to the upper limit usage amount, etc.) of the cloud server to which the current connection destination is connected. Check.

In step ST3, whether or not the first switching device 31 needs to change the connection destination cloud server based on the usage fee, availability, and operating status of the current connection destination cloud server confirmed in step ST2. Is determined. If it is necessary to change the cloud server of the connection destination (step ST3: Yes), the process proceeds to step ST4, the cloud server of the connection destination is changed, and then the process returns to step ST1. If it is not necessary to change the connection destination cloud server (step ST3: No), the process proceeds to step ST5.

In step ST5, the first switching device 31 measures from the first measuring device 11 within a predetermined time after confirming the usage fee, availability, and operating status of the cloud server of the current connection destination in step ST2. Determine if data has been received. If the measurement data from the first measuring device 11 is not received within the predetermined time (step ST5: No), the process returns to step ST2. If the measurement data from the first measuring device 11 is received within the predetermined time (step ST5: Yes), the process proceeds to step ST6.

In step ST6, when the first switching device 31 receives the measurement data from the first measuring device 11, the cloud server of the current connection destination is the connection target cloud server (the cloud server of the connection destination in step ST3). If it is determined that it is not necessary to change the cloud server, it is determined whether or not the cloud server is the cloud server, and if the connection destination cloud server is changed in step ST4, the cloud server is determined. If the current connection destination cloud server is not the connection target cloud server (step ST6: No), the process proceeds to step ST7, and if the current connection destination cloud server is the connection target cloud server (step ST6: Yes), Proceed to step ST8.

In step ST7, the first switching device 31 transmits the measurement data from the first measuring device 11 as it is, and returns to step ST5. Since the first switching device 31 is connected in series to the transmission line from the first measuring device 11, the measurement data from the first measuring device 11 is transmitted as it is in step ST7. On the other hand, of the third switching device 33 connected in parallel with the aggregation device 13X to the transmission line from the second switching device 32 or the third measuring device 13 capable of intercepting the transmission line from the second measuring device 12. In this case, in step ST7, the measurement data from the second measuring device 12 or the third measuring device 13 is discarded.

In step ST8, the first switching device 31 records the measurement data from the first measuring device 11 as temporary storage data.

In step ST9, the first switching device 31 confirms the connection destination cloud server and the measurement data, and rewrites the connection destination cloud server and the measurement data as necessary. For example, in the case of http, the connection destination such as "http://ServerA.example.org/v1/machine1/SensorData" and the data such as URI are "http://ServerB.example.com/v1.1/standby/". It can be converted to different connection destinations and resources with the same protocol such as "sensor / data". In addition, for example, in order to comply with other protocols such as MQTT (Message Queue Telemetry Transport), encrypted communication using SSL / TLS, conversion to different data formats, laws and regulations related to communication across countries and regions, etc. Sensitive information can be hidden.

In step ST10, the first switching device 31 transmits the measurement data from the first measurement device 11 to the connection-destination cloud server according to the measurement data distribution information.

In step ST11, the first switching device 31 determines whether or not the measurement data has been normally transmitted. If the measurement data is normally transmitted (step ST11: Yes), the process returns to step ST5. If the measurement data is not transmitted normally (step ST11: No), the process proceeds to step ST12, and the first switching device 31 confirms the usage fee, availability, and operating status of the cloud server of the current connection destination. Then, the process returns to step ST9.

FIG. 10 is a diagram showing an example of switching the connection destination of the cloud server. FIG. 10 shows an example of dynamically checking and switching (http://ServerA.example) as "connection destination (protocol, port number, URI, host name, domain name, resource, etc. identification condition) to be transmitted by the measuring device". .org / v1 / machine1 / SensorData) ”,“ Permanent replacement example (http://old-cloud-system.example.com/v0.1/sensor/) ”and“ Delete some sensitive data An example of duplication (https://secret.countryA.example.org/v2/factory1/) "is given.

In the example of dynamically checking and switching, the connection configuration is "serial", the periodic check is "(cost priority)", and the alternative connection destination is "http://ServerA.example.org/v1/machine1/". SensorData (resource usage fee is 15 (yen / GB)) "and" http://ServerB.example.com/v1.1/standby/sensor/data (resource usage fee is 18 (yen / GB)) "and" mqtt: //ServerC.example.net/, test / data (Resource usage fee is 21 (yen / GB)) ". In addition, the connection processing and driver status are "do not operate, connect destination conversion, protocol / connection destination conversion, use MQTT driver".

In the example of permanent replacement, the connection configuration is "serial", the periodic check is "not", and the alternative connection destination is "https://new-cloud-system.example.com/v2.1/sensor-". old-v01 / ". The status of the connection process and driver is "protocol / connection destination conversion".

In the example of deleting and duplicating some sensitive data, the connection configuration is "parallel", the periodic confirmation is "not", and the alternative connection destination is "https://censored-secret.countryB.example.com/". v2 / factory1 / ". In addition, the connection processing and driver status are "connection destination conversion, sensitive data deletion driver use".

As described above, according to the present embodiment, the first switching device 31 to the third switching device 33 transfers the measurement data of the first measuring device 11 to the third measuring device 13 to the first cloud server 21 to 1. While switching which of the second cloud servers 22 is stored, the measurement data distribution information is transmitted to the management server 40, and the management server 40 is transmitted from the first switching device 31 to the third switching device 33. Based on the measurement data distribution information, the measurement data accumulated by the first cloud server 21 to the second cloud server 22 is collected. As a result, the communication system 1 can be flexibly operated according to the cloud environment without exchanging or modifying the first measuring devices 11 to the third measuring devices 13.

That is, in the present embodiment, the connection destination is switched and the communication data is rewritten in real time so as to monitor the operating cloud server and communicate with an appropriate connection destination. For this reason, it becomes possible to flexibly operate a measuring device that cannot implement advanced functions due to resource constraints or a measuring device that is already in operation and difficult to change according to the operating status or change of the cloud service.

The present invention is not limited to the above embodiment, and can be modified in various ways. In the above embodiment, the size, shape, function, and the like of the components shown in the accompanying drawings are not limited to this, and can be appropriately changed within the range in which the effects of the present invention are exhibited. In addition, it can be appropriately modified and implemented as long as it does not deviate from the scope of the object of the present invention.

In the above embodiment, the first switching device 31 to the third switching device 33 and the management server 40 are separate components, but the management server 40 is omitted and the first switching devices 31 to 3 are used. One of the switching devices 33 may be assigned the function of the management server 40. In this case, a part of the plurality of switching devices switches which of the plurality of cloud servers stores the measurement data of the measuring device, and also transmits the measurement data distribution information to the other switching device, and the other switching device. However, it is possible to collect the measurement data accumulated by a plurality of cloud servers based on the measurement data distribution information transmitted from some switching devices.

Alternatively, when the management server 40 becomes inoperable for some reason, one of the first switching devices 31 to 33 may be assigned the function of the management server 40. Further, when the switching device that has been assigned the function of the management server 40 becomes inoperable for some reason, another switching device may be assigned the function of the management server 40.

The communication system and communication method of the present invention can be applied to a communication system and communication method that combines IoT technology and multi-cloud computing technology.

1 Communication system 11 First measuring device 12 Second measuring device 13 Third measuring device 13X Aggregating device 21 First cloud server 22 Second cloud server 31 First switching device 31A Communication unit 31B Information addition unit 31C Measurement data storage unit 31D Priority setting unit 31E Cloud server switching unit 31F Measurement data distribution information storage unit 31G Measurement data distribution information transmission unit 32 Second switching device 32A Communication unit 32B Information addition unit 32C Measurement data storage unit 32D Priority setting Unit 32E Cloud server switching unit 32F Measurement data distribution information storage unit 32G Measurement data distribution information transmission unit 33 Third switching device 33A Communication unit 33B Information addition unit 33C Measurement data storage unit 33D Priority setting unit 33E Cloud server switching unit 33F Measurement Data distribution information storage unit 33G Measurement data distribution information transmission unit 40 Management server (information management server, analysis server)
40A Communication unit 40B Measurement data distribution information storage unit 40C Measurement data collection unit 40D Switching device information acquisition unit 40E Cloud server information acquisition unit 50 Network

Claims (8)

Measuring device and
With multiple cloud servers
A switching device that relays the measuring device and the plurality of cloud servers,
A management server that relays the measuring device, the switching device, and the plurality of cloud servers,
Have,
The switching device switches which of the plurality of cloud servers stores the measurement data of the measuring device, and distributes the measurement data indicating which of the plurality of cloud servers the measurement data of the measuring device is stored in. Information is transmitted to the management server,
The management server collects the measurement data accumulated by the plurality of cloud servers based on the measurement data distribution information transmitted from the switching device.
A communication system characterized by that. The switching device sets a priority based on at least one of the usage fee, availability, and operating status of the plurality of cloud servers, and the measurement data is transmitted to any of the plurality of cloud servers according to the priority. Switch whether to accumulate in
The communication system according to claim 1. The measuring device adds the measuring device ID and the measuring time to the measurement data, and adds the measuring device ID and the measurement time.
The switching device adds a switching device ID and a switching time to the measurement data.
The communication system according to claim 1 or 2, wherein the communication system is characterized by the above. The measurement data distribution information includes at least the measurement device ID and the measurement time and the switching device ID and the switching time added to the measurement data.
The communication system according to claim 3, wherein the communication system is characterized by the above. Measuring device and
With multiple cloud servers
A switching device that relays the measuring device and the plurality of cloud servers,
A management server that relays the measuring device, the switching device, and the plurality of cloud servers,
It is a communication method by a communication system having
The switching device switches which of the plurality of cloud servers stores the measurement data of the measuring device, and distributes the measurement data indicating which of the plurality of cloud servers the measurement data of the measuring device is stored in. Information is transmitted to the management server,
The management server collects the measurement data accumulated by the plurality of cloud servers based on the measurement data distribution information transmitted from the switching device.
A communication method characterized by that. The switching device sets a priority based on at least one of the usage fee, availability, and operating status of the plurality of cloud servers, and the measurement data is transmitted to any of the plurality of cloud servers according to the priority. Switch whether to accumulate in
The communication method according to claim 5. The measuring device adds the measuring device ID and the measuring time to the measurement data, and adds the measuring device ID and the measurement time.
The switching device adds a switching device ID and a switching time to the measurement data.
The communication method according to claim 5 or 6, wherein the communication method is characterized in that. The measurement data distribution information includes at least the measurement device ID and the measurement time and the switching device ID and the switching time added to the measurement data.
The communication method according to claim 7.

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