JP7074533B2 - Information processing equipment, methods and programs - Google Patents

Description

The present invention relates to information processing devices, methods and programs.

In recent years, various information processing techniques have been used for measuring the indoor environment (see, for example, Non-Patent Document 1).

Masanori Kurata, "Equipment Operation System Utilizing Artificial Intelligence (AI) / Wireless Sensors", Building Equipment and Plumbing, Nippon Kogyo Publishing, May 5, 2016, Vol. 54, No. 6, p. 35-39

In a property where air-conditioning equipment is installed, various sensors such as temperature sensors may be installed in various places in the room in order to confirm the performance of the air-conditioning equipment. Then, using the measurement data of each sensor, various adjustments such as wind direction adjustment of the air conditioning equipment installed in the property are performed.

By the way, when checking the performance of an air conditioner, it may be necessary to acquire measurement data at a location where a sensor is not installed. In this case, in order to acquire the measurement data of the relevant location, the position of the sensor installed at the other location is changed, or a new sensor is procured and installed. When the position of the sensor installed in another place is changed or the newly procured sensor is installed, the measurement data acquired in the past and the newly acquired measurement data in the property are measured. Data continuity is lost. Analyzing measurement data that has lost continuity in chronological order may result in erroneous analysis of the performance of the air conditioning equipment of the property.

Therefore, it is an object of the present application to provide a technique for suppressing erroneous analysis of measurement data due to a change in the installation status of sensors installed in a property as much as possible.

In order to solve the above problem, in the present invention, when an operation requesting the display of the measurement data of the specific sensor whose position has been changed is performed, either the measurement data before the position change or the measurement data after the position change is performed. I decided to hide one of them on the data display screen.

Specifically, the present invention is an information processing device that collects data from sensors installed in various places of a property in which an air conditioner is installed, and in an image diagram of the property displayed on a management screen, the property. A data display that displays the measurement data acquired by the sensor in chronological order when the sensor position operation reception unit that accepts the operation to specify the position of the sensor installed in the sensor and the operation that requests the display of the measurement data of the sensor are performed. The measurement data display processing unit includes a measurement data display processing unit that generates a screen, and the measurement data display processing unit performs an operation of requesting display of measurement data of a specific sensor whose position has been changed in the image diagram by the designated operation. If so, one of the measurement data before the position change and the measurement data after the position change among the measurement data of the specific sensor is hidden on the data display screen.

Here, the property refers to all the structures forming the interior space, for example, buildings, factories, plants, research facilities, underground streets, houses, station buildings, railway vehicles, buses, aircraft, spacecraft, and all other structures. Is included. The sensor is a sensor that measures the indoor environment, and examples thereof include a temperature sensor, a humidity sensor, and various other sensors. Further, the data is data expressing the indoor environment numerically, and examples thereof include temperature data, humidity data, and other data.

The data display screen generated by the above information processing device is a screen that displays measurement data in chronological order. For example, a screen in which the numerical values of the measurement data are listed and the contents of the measurement data are contoured. Various display forms such as a screen represented by an image diagram such as a diagram can be mentioned. Further, the change of the sensor position includes not only the form of changing the position of the sensor installed in the property but also the form of newly installing the sensor outside the property in the property. Further, the operation of requesting the display of the measurement data of the specific sensor is not limited to the form of displaying only the measurement data of the specific sensor, for example, displaying the measurement data of the specific sensor and another sensor together. Morphology is also included.

Further, hiding the measurement data in the above information processing apparatus means to make the data in which the continuity is lost not continuously displayed, for example, when displaying the measurement data including the missing part. Examples include a form in which data is partially lost as in the above, and a form in which reproduction is interrupted in a state where measurement data is continuously reproduced like a moving image in an image diagram.

Further, in the above information processing apparatus, to hide one of the measurement data before the position change and the measurement data after the position change among the measurement data of the specific sensor means that the measurement data related to the display request is positioned. It is not limited to those that can be divided into two before and after the change. For example, if the measurement data related to the display request has two or more points where continuity is lost due to the position change, the measurement data related to the display request can be divided into three or more before and after the position change.

In the above information processing device, when the position of the sensors installed in various parts of the property is changed through the sensor position operation reception unit, the measurement data of the sensor is displayed in chronological order on the data display screen before the position change. Either one of the measurement data and the subsequent measurement data is hidden on the data display screen, that is, the display form is such that the data having lost continuity is not continuously displayed. Therefore, when checking the performance of the air-conditioning equipment in the property, it is unlikely that the measurement data before and after the position change, which lost the continuity due to the position change of the sensor, will be erroneously analyzed in chronological order. As a result, erroneous analysis of measurement data due to changes in the installation status of sensors installed in the property is suppressed as much as possible.

In addition, when the operation requesting the display of the measurement data of the specific sensor in the period before and after the position change is performed, the measurement data display processing unit receives the measurement data of the specific sensor. Of these, either one of the measurement data before the position change and the measurement data after the position change may be hidden on the data display screen. In the above information processing device, either the measurement data before the position change or the measurement data after the position change is hidden on the data display screen, so that it is required to display the data in the period before and after the position change. However, it is unlikely that the measurement data before and after the position change, which lost continuity due to the position change of the sensor, will be erroneously analyzed in time series.

Further, when the operation requesting the graph display of the measurement data of the specific sensor is performed, the measurement data display processing unit has the measurement data before and after the position change among the measurement data of the specific sensor. Any one of the measurement data may be hidden from the graph on the data display screen. With such an information processing device, it is unlikely that the measurement data before and after the position change, in which the continuity is lost due to the position change of the sensor, is erroneously analyzed in time series from the graph.

Further, when the operation for requesting continuous reproduction of the measurement data of the specific sensor based on the contour diagram is performed, the measurement data display processing unit measures the measurement data of the specific sensor in the period before the position change. After the reproduction is temporarily stopped when the continuous reproduction of the data contour diagram is completed, the continuous reproduction of the measurement data of the measurement data of the specific sensor in the period after the position change is started. May be good. With such an information processing device, it is unlikely that the measurement data before and after the position change, which has lost continuity due to the position change of the sensor, is erroneously analyzed in time series from the contour diagram that is continuously reproduced.

Further, when the operation requesting the display of the measurement data of the specific sensor is performed, the measurement data display processing unit refers to the data of the date and time when the operation of designating the position of the sensor installed in the property is performed. Then, based on the referenced data, one of the measurement data before and after the position change among the measurement data of the specific sensor is hidden on the data display screen. There may be. If an operation that requests the display of measurement data of a specific sensor is performed and the data of the date and time when the operation to specify the position of the sensor is performed is referenced, the display target is based on the referenced data. It is possible to divide the measurement data into those before and after the position change and display them.

The present invention can also be understood from the aspects of methods and programs. The present invention is, for example, an information processing method for collecting data from sensors installed in various places of a property in which an air conditioner is installed, and is installed in the property in an image diagram of the property displayed on a management screen. When the sensor position operation acceptance process that accepts the operation to specify the position of the sensor and the operation that requests the display of the measurement data of the sensor are performed, the data display screen that displays the measurement data acquired by the sensor in chronological order is displayed. It has a measurement data display processing step to generate, and in the measurement data display processing step, an operation of requesting display of measurement data of a specific sensor whose position in the image diagram has been changed by the designated operation is performed. In this case, one of the measurement data before the position change and the measurement data after the position change among the measurement data of the specific sensor may be hidden on the data display screen.

With the above information processing devices, methods and programs, it is possible to provide a technique for suppressing erroneous analysis of measurement data due to a change in the installation status of sensors installed in a property as much as possible.

FIG. 1 is an image of an overall image of an information processing system that analyzes an indoor environment. FIG. 2 is a diagram showing an example of an overall flow realized by an information processing system. FIG. 3 is an example of a screen for data management. FIG. 4 is an example of a list screen for registering the environment sensor. FIG. 5 is an example of an individual screen for registering the environment sensor. FIG. 6 is an example of a screen for setting the arrangement. FIG. 7 is a first diagram showing an example of processing when the icon is moved. FIG. 8 is a second diagram showing an example of processing when the icon is moved. FIG. 9 is a first diagram showing an example of a contour diagram displayed on a computer. FIG. 10 is a diagram showing an example of a screen displayed when downloading a data file. FIG. 11 is a diagram showing an example of data of each environment sensor installed in the building. FIG. 12 is a diagram showing an example of a processing flow executed when a graph display of measurement data is requested. FIG. 13 is an image showing a process of displaying the measurement data acquired by a specific environment sensor separately before and after the position change. FIG. 14 is a diagram showing an example of how the display is switched.

Hereinafter, embodiments of the present invention will be described. The embodiments shown below are examples of embodiments of the present invention, and the technical scope of the present invention is not limited to the following embodiments.

FIG. 1 is an image of an overall image of an information processing system that analyzes an indoor environment. As shown in FIG. 1, the information processing system 1 of the present embodiment has a computer 2, a communication network 3, a wireless access point 4, and a wireless relay provided in a building T (an example of a "property" referred to in the present application). The device 5 and the environment sensor 6 are provided. The communication network 3 is a communication network on the premises laid in the building T, and examples thereof include a LAN (Local Area Network) using a wired cable or a wireless radio wave. The wireless access point 4 is an access point for wirelessly connecting the environment sensor 6 installed in each part of the floor of the building T to the communication network 3, and is installed on the floor of the building T or the like. The wireless relay device 5 is a wireless relay device that is appropriately prepared as needed when there is an environment sensor 6 that is relatively far from the wireless access point 4 and has difficulty in communicating wirelessly with the wireless access point 4. Yes, it will be installed on the floor of the building T. The environment sensor 6 supplies power to an element that electrically measures temperature and humidity, a processor that converts the measured temperature and humidity into numerical data, a wireless communication interface that wirelessly transmits numerical data, and internal components of the environment sensor 6. It is an electronic device including a battery or the like, and can send, for example, temperature and humidity data of a place where an environment sensor 6 is installed to a computer 2 through a communication network 3, a wireless access point 4, or the like. The environment sensor 6 is installed at an appropriate position on the floor of the building T for which the indoor environment is to be measured by the information processing system 1. The information processing system 1 may include an environment sensor 6 connected to the communication network 3 by wire.

The computer 2 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), a communication interface, and the like, and realizes various functional units by executing a computer program. The computer 2 executes, for example, an input receiving unit 21 that accepts various input operations, a contour diagram displayed on the monitor of the computer 2, etc. by executing a computer program for measuring the indoor environment of the information processing system 1. The arithmetic processing unit 22 that generates the image information of the above, and the display processing unit 23 that displays the image data generated by the arithmetic processing unit 22 on the monitor are realized.

Hereinafter, the method of using the information processing system 1 and the contents of the analysis processing realized in the information processing system 1 will be described.

In the information processing system 1, the following overall flow is realized. FIG. 2 is a diagram showing an example of an overall flow realized by the information processing system 1. When the computer program is executed on the computer 2, the login screen D101 is displayed on the computer 2. Then, when the login is normally performed, the computer 2 displays the dashboard screen D102 for moving to various management screens. Then, when any management screen is selected on the dashboard screen D102, the selected management screen is displayed on the computer 2.

For example, when the company management screen is selected on the dashboard screen D102, the computer 2
Then, the company management screen D103 is displayed. On the company management screen D103, it is possible to manage the registration information of the company using the information processing system 1. Further, for example, when the user management screen is selected on the dashboard screen D102, the user management screen D104 is displayed on the computer 2. On the user management screen D104, it is possible to manage the management information of the user who uses the information processing system 1. Further, for example, when the project management screen is selected on the dashboard screen D102, the project management screen D105 is displayed on the computer 2. Since the information processing performed through the company management screen D103 and the user management screen D104 is related to the registration information of the company or user who uses the information processing system 1, for example, detailed explanation thereof will be omitted and the project management will be omitted. The details of the information processing performed through the screen D105 will be described below.

On the project management screen D105, management operations such as initial settings related to the display of the indoor environment measured by the information processing system 1 can be performed. On the project management screen D105, for example, the environment sensor 6 used as a display target in the contour diagram displayed on the computer 2 can be registered. FIG. 3 is an example of a screen for data management. On the data management screen D201 for managing the environment sensor 6 displayed on the contour diagram, as shown in FIG. 3, a list of the environment sensors 6 to be displayed to be displayed on the contour diagram screen is displayed. The environment sensor 6 displayed on the data management screen D201 shown in FIG. 3 is displayed as an icon on the contour diagram described later. On the data management screen D201, the name of the environment sensor 6 when the icon is displayed on the contour diagram is displayed. The data management screen D201 can also display a list of environment sensors 6 to be displayed that are not displayed on the contour diagram screen.

Further, on the data management screen D201, a button B11 (“point ID registration”) for registering the environment sensor 6 used for generating the contour diagram is displayed. When this button B11 is pressed, the computer 2 displays a list screen for registering the environment sensor 6 used for generating the contour diagram. FIG. 4 is an example of a list screen for registration of the environment sensor 6. When the button B11 of the data management screen D201 is operated, the computer 2 displays a registration list screen D202 for registering the environment sensor 6 used for generating the contour diagram, as shown in FIG. On the registration list screen D202 shown in FIG. 4, a list of environment sensors 6 used in the information processing system 1 is displayed. Each environment sensor 6 used in the information processing system 1 is listed in a state associated with an ID name for identifying each environment sensor 6. In the list of the registration list screen D202, the name when displayed on the contour diagram and the unit and type of the data acquired by the environment sensor 6 are displayed. The name, data unit and type displayed on the contour diagram can be changed by pressing the button B21 (“edit”) that enables editing for each environment sensor 6.

FIG. 5 is an example of an individual screen for registration of the environment sensor 6. When the button B21 of the specific environment sensor 6 is pressed on the registration list screen D202, the computer 2 displays a pop-up screen P31 for editing the name, data unit and type when the environment sensor 6 is displayed on the contour diagram. Will be done. The user of the computer 2 can input a name, change a unit, and change a data type on the pop-up screen P31. When the name is input, the unit is changed, or the data type is changed on the pop-up screen P31, the information of the changed content is processed by the internal processing 11. The information on the changed contents processed by the internal processing 11 is stored in the storage device in a state associated with the ID name that identifies the environment sensor 6.

Further, on the project management screen D105, it is possible to set the arrangement state of the environment sensor 6 and other equipment in the building T where the indoor environment is measured by the information processing system 1. FIG. 6 is an example of a screen for setting the arrangement. On the layout setting screen D204, the icons I31 and 33 simulating the environment sensor 6 displayed on the status display screen such as the contour diagram and the icons I32 and 34 simulating the equipment 7 are moved on the image diagram in the building T. , The positions of the environment sensor 6 and the equipment 7 can be registered in the information processing system 1. The large icons I31 and I32 displayed on the left side of the image diagram of the building T are icons used when a sensor is newly arranged in the image diagram of the building T. When the icon I31 is dragged and dropped in the image diagram of the building T, a small icon I33 is newly placed at the dropped position. Further, when the icon I32 is dragged and dropped in the image diagram of the building T, the small icon I34 is newly arranged at the dropped position. Further, when the icons I33 and 34 are dragged and dropped at another position in the image diagram of the building T, the icons I33 and 34 move. The image diagram of the building T displayed on the layout setting screen D204 is created in advance on the building creation / editing screen displayed on the computer 2 when called on the project management screen D105, and is, for example, the outer wall or pillar of the building T. Structures such as, structures such as inner walls and doors, interior parts such as elevators, bathtubs, and kitchens are illustrated.

FIG. 7 is a first diagram showing an example of processing when the icon is moved. For example, when a new environment sensor 6 is installed in the building T, the user of the computer 2 drags the icon I31 on the layout setting screen D204 as shown in FIG. 7, and the environment sensor 6 is displayed on the image diagram of the building T. Drop the icon I31 at the position corresponding to 6. The computer 2 performs a process of fixing and displaying the icon I33 at the position where the icon I31 is dropped, and updates the data recording the position change of the environment sensor 6. If the newly installed environment sensor 6 is a sensor named "Sensor 2", as shown in FIG. 7, the date and time of the position change of "Sensor 2" where the position was changed on the arrangement setting screen D204. Is recorded.

FIG. 8 is a second diagram showing an example of processing when the icon is moved. For example, when the environment sensor 6 installed in the building T is relocated in the building T, the user of the computer 2 drags the icon I33 on the arrangement setting screen D204 as shown in FIG. 8, and the user of the computer 2 drags the icon I33 to the building T. Drop the icon I33 at the position corresponding to the relocation destination of the environment sensor 6 on the image diagram. The computer 2 performs a process of fixing and displaying the icon I33 at the position where the icon I33 is dropped, and updates the data recording the position change of the environment sensor 6. If the relocated environment sensor 6 is a sensor named "sensor 3", as shown in FIG. 8, the date and time of the position change of the "sensor 3" whose position was changed on the arrangement setting screen D204 is recorded. Will be done.

The format of the data for recording the position change of the environment sensor 6 is not limited to the format shown in FIGS. 7 and 8. The data for recording the position change of the environment sensor 6 may be embedded in the time-series data of the measured values as shown in FIG. 11 described later, for example.

Further, on the layout setting screen D204, it is displayed whether or not the number of icons I33 arranged on the image diagram of the building T matches the number of the environment sensors 6 actually arranged in the building T. You may be asked. For example, when the number of icons I33 arranged on the image diagram of the building T on the arrangement setting screen D204 is 4 or less even though there are 5 environment sensors 6 connected to the computer 2 via the communication network 3. A message prompting the placement of the icon I33 may be displayed on the placement setting screen D204. Further, for example, there are five environment sensors 6 connected to the computer 2 via the communication network 3, and the icon I31 has five icons I33 on the image diagram of the building T on the layout setting screen D204. When the dragging is performed, a message indicating that the icon I33 cannot be additionally arranged may be displayed on the arrangement setting screen D204.

Further, on the layout setting screen D204, if the number of icons I33 arranged on the image diagram of the building T is not seen with respect to the number of environment sensors 6 actually arranged in the building T, the icons I33 that can be added can be added. The number of may be displayed on the arrangement setting screen D204.

Further, on the layout setting screen D204, when the position of the icon I33 arranged on the image diagram of the building T is different from the actual position of the environment sensor 6 estimated from the identification information of the wireless relay device 5, the screen is displayed. A message to the effect that the position of the icon I33 in the above is incorrect may be displayed on the arrangement setting screen D204.

When various setting operations are performed through the screens and the like described above, the information processing system 1 is in a state where data sent from each environment sensor 6 can be recorded and data can be displayed using a contour diagram or the like. Then, when the data recording is started in the information processing system 1, the recorded data is stored in the server 12. The server 12 may be a device installed in the building T, or may be a plurality of devices in a remote location realized by using cloud technology or the like.

Various environmental data (for example, temperature, humidity, CO2 concentration) transmitted from the environment sensor 6 are recorded in the server 12. These environmental data are sent from the environment sensor 6 to the computer 2 every predetermined time (for example, 10 minutes), and are sent from the computer 2 to the server 12 each time or at an appropriate timing.

FIG. 9 is a first diagram showing an example of a contour diagram displayed on the computer 2. When the computer 2 performs an operation requesting the display of the contour diagram, the computer 2 displays the contour diagram data display screen D205 generated based on the actually measured values of the environmental data collected from the environment sensor 6. .. The contour diagram of the data display screen D205 is a color-coded representation of the environmental data of each part of the floor according to the value. In the example shown in FIG. 9, the temperature of each part of the floor is shaded according to the value. It is expressed by. From the data display screen D205 shown in FIG. 9, it can be seen that the central part of each room in the building T is relatively hotter than the corners of the room. In the contour diagram of the data display screen D205, the power consumption N51 of the device installed in the building T is displayed in the vicinity of the icon I34 representing the device. Since the equipment that consumes power is also a heat source that heats the air inside the building T, the performance of the air conditioning equipment in the building T is analyzed more appropriately by displaying the power consumption N51 near the equipment icon I34 in the contour diagram. It will be possible.

The process of generating the contour diagram of the data display screen D205 is mainly controlled by the external server 13. Since the arithmetic processing for generating the contour diagram takes time in the computer 2, the information processing system 1 causes the external server 13 to execute the arithmetic processing. As the external server 13, for example, a server at a remote location away from the building T can be applied. When the computer 2 performs an operation requesting the display of the data display screen D205, the arithmetic processing unit 22 acquires the data necessary for generating the contour diagram from the server 12 and sends it to the external server 13. In the external server 13, each environment is based on the measured value of the environment data such as the temperature collected from each environment sensor 6 of the building T and the position information of the environment sensor 6 set on the screen of the arrangement setting screen D204. The estimated value of the environmental data between the installation locations of the sensor 6 is interpolated and calculated. Then, the external server 13 generates a contour diagram in which the environmental data in the building T is color-coded according to the actually measured value or the estimated value. Then, the external server 13 sends the generated graphic data of the contour diagram to the computer 2. The computer 2 draws a contour diagram on the display device based on the graphic data of the contour diagram sent from the external server 13. As a result, the contour diagram as shown in FIG. 9 is displayed on the display device of the computer 2.

The contour diagram shown in FIG. 9 shows data at an arbitrary date and time selected by the user of the computer 2. The external server 13 generates graphic data of each contour diagram at predetermined time intervals. The graphic data is generated as an image file (for example, in jpg format) for each date and time, and is sent from the external server 13 to the computer 2. Therefore, when the operation of changing with time in the contour diagram, that is, the operation of continuous reproduction of the contour diagram is performed in the computer 2, the computer 2 displays the date and time of each image file stored in the storage device sent from the external server 13. It will be read out in order and displayed like a moving image on the display device.

FIG. 10 is a diagram showing an example of a screen displayed when downloading a data file. When the computer 2 performs an operation for requesting a data file enumerating the data collected from each environment sensor 6, a pop-up screen P61 for performing a download operation is displayed as shown in FIG. Then, when the operation of specifying the range of data to be downloaded and the operation of requesting download are performed on the pop-up screen P61, the requested data file is downloaded from the server 12 to the computer 2.

By the way, in the information processing system 1, as described above, the positions of the environment sensor 6 and the equipment 7 can be moved on the arrangement setting screen D204. Therefore, when the position of the specific environment sensor 6 is changed in the building T or a new environment sensor 6 is installed, the continuity of the data corresponding to the ID of the environment sensor 6 is lost. The data continuity here does not mean a concept intended to be a loss of the data itself or a sudden change in the value, but refers to the identity of the measurement target measured by the environment sensor 6. When the continuity of the data is lost, the measurement data of the environment sensor 6 becomes, for example, as follows.

FIG. 11 is a diagram showing an example of data of each environment sensor 6 installed in the building T. Since the air temperature does not change suddenly (changes in steps), for example, when the environment sensor 6 measures the temperature of the air inside the building T, the temperature measured by the environment sensor 6 suddenly changes. It doesn't change. However, when the position of the environment sensor 6 is changed in the building T, the measurement target of the environment sensor 6 changes, so that the continuity of the data of the environment sensor 6 is lost. In this case, for example, as shown in the “sensor 2” of FIG. 11, the environment sensor 6 that outputs the data of 27.1 ° C. before the position change outputs the data of 23.0 ° C. after the position change. It will be.

Therefore, in the information processing system 1, processing is performed according to the operation of designating the position of the environment sensor 6. In the information processing system 1, as shown in FIGS. 17 and 8, data of the position change date and time of each environment sensor 6 is recorded. For example, in the example shown in FIGS. 7 and 8, it is recorded that the “sensor 2” was repositioned at the same time as the temperature suddenly changed in FIG.

Then, when the computer 2 performs an operation requesting the display of the environmental data by a contour diagram, a graph, or the like, the information processing system 1 acquires the data before the position change based on the data of the position change date and time of each environment sensor 6. The process of displaying the measured data and the measurement data acquired after the position change is performed separately.

FIG. 12 is a diagram showing an example of a processing flow executed when a graph display of measurement data is requested. When the user requests the graph display of the measurement data, the information processing system 1 requests the user to specify the display period (S101). Then, when the user performs the operation of designating the display period, the information processing system 1 refers to the data recording the position change of the environment sensor 6 (S102). Then, the information processing system 1 determines the presence / absence of the environment sensor 6 moved within the display period designated by the user based on the data referred to in step S102 (S103). When the affirmative determination is made in step S103, the information processing system 1 displays all the data in the display period specified in step S101 as a graph (S104).

On the other hand, when the negative determination is made in step S103, the information processing system 1 displays the data in the display period specified in step S101 before the position of the environment sensor 6 is changed as a graph (S105). Then, the information processing system 1 determines whether or not the user requests the data display after the position change (S106). When the affirmative determination is made in step S106, the information processing system 1 displays the data after the position of the environment sensor 6 is changed in the display period specified in step S101 as a graph (S107).

The series of processes from step S101 to step S107 described above may be executed by the computer 2 or may be executed by the external server 13.

FIG. 13 is an image showing a process of displaying the measurement data acquired by the specific environment sensor 6 separately before and after the position change.

When the position of the specific environment sensor 6 is changed, the measurement target of the environment sensor 6 changes, so that the measurement data of the environment sensor 6 undergoes a sharp change as shown in the upper graph in FIG. If such measurement data is displayed as it is on a contour diagram or graph, there is a risk of erroneously analyzing the performance of the air conditioning equipment of the building T. Therefore, in the information information system 1, when a data display request is made in a period before and after the position change, for example, the process of step S105 is executed in the series of processing flows from step S101 to step S107 described above. As a result, a screen is generated in which either the measurement data before the position change or the measurement data after the position change is hidden from the measurement data of the environment sensor 6. That is, for example, as shown on the graph display screen D207 shown on the lower side in FIG. 13, the measurement data before the position change is displayed among the measurement data of the environment sensor 6 (the solid line indicated by the reference numeral G71 in FIG. 13 corresponds to the corresponding line. ), And a screen is generated in which the measurement data after the position change is hidden (corresponding to the broken line indicated by the reference numeral G72 in FIG. 13).

Then, when the user requests the data display after the position change while the graph display screen D207 is displayed and an affirmative determination is made in step S106 described above, the position of the measurement data of the environment sensor 6 is obtained. The changed measurement data is displayed. FIG. 14 is a diagram showing an example of how the display is switched. For example, as shown on the graph display screen D207, the measurement data (G71) before the position change is displayed as a solid line, and the measurement data (G72) after the position change is displayed as a broken line, and the user changes the position. When the operation for requesting the data display of the above is performed, the graph display screen is switched to the graph display screen D208 shown in FIG. On the graph display screen D208, the measurement data (G71) before the position change is hidden, and the measurement data (G72) after the position change is displayed as a solid line.

When the measurement data of each environment sensor 6 is displayed as a graph in the process of step S105, the graph display screen D207 is the measurement data after the date and time of the position change of the environment sensor 6 in the horizontal axis of the graph which is the time axis. Can be generated by stopping the plot of.

The graph display screen D207 shown in FIG. 13 is an example, and the information processing system 1 displays, for example, the measurement data after the position change among the measurement data of the environment sensor 6, and does not display the measurement data before the position change. You may generate the displayed screen. In order to generate such a graph display screen D207, for example, when the measurement data of each environment sensor 6 is displayed as a graph in the process of step S107, the position of the environment sensor 6 is changed in the horizontal axis of the graph which is the time axis. The plotting of the measurement data before the date and time may be stopped.

Further, although FIG. 13 shows a screen in which specific measurement data is displayed as a graph, in the case of a contour diagram, for example, a request is made to continuously reproduce the data in the contour diagram during the period before and after the position change. If this is the case, continuous reproduction is interrupted before and after the position change of the environment sensor 6. That is, when a request is made to continuously reproduce the data in the contour diagram in the period before and after the position change, the information processing system 1 continuously reproduces the measurement data in the contour diagram in the period before the position change of the environment sensor 6. When the playback is temporarily stopped and the user operation is performed, continuous playback of the measurement data in the contour diagram during the period after the position change of the environment sensor 6 is started.

In the information processing system 1 of the above embodiment, when displaying the measurement data before and after the position change of the environment sensor 6 having lost continuity, as described above, the measurement of the measurement data of the environment sensor 6 before the position change is performed. A screen is generated in which either the data or the measurement data after the position change is hidden. Therefore, by changing the position of the environment sensor 6 or procuring and installing a new environment sensor 6 in the middle of checking the performance of the air conditioner installed in the building T, the measurement data of the environment sensor 6 is continuously measured. Even when the property is lost, erroneous analysis of measurement data due to a change in the installation status of the environment sensor 6 is suppressed as much as possible.

In the information processing system 1 of the above embodiment, various information is displayed on the computer 2 of the building T. For example, the information of the building T is displayed on the computer at a remote location away from the building T. It may be done. Further, in the information processing system 1 of the above embodiment, the processing when the position of the environment sensor 6 is changed has been described mainly on the data related to the temperature, but for example, the humidity, the wind speed, the amount of solar radiation, and various other data have been described. It can also be applied.

Further, in the information processing system 1 of the above embodiment, the computer 2 may detect that the environment data does not reach from the environment sensor 6 and notify the user of the missing data of the environment data. Examples of non-delivery of environmental data include disconnection of communication lines, communication failure of radio waves, failure of communication equipment, failure or loss of environment sensor 6, and various other factors. In this case, the computer 2 may automatically determine the cause of the missing data of the environmental data based on the control information for communication control added to the environmental data.

T ... Building 1 ... Information processing system 2 ... Computer 3 ... Communication network 4 ... Wireless access point 5 ... Wireless relay device 6 ... Environment sensor 7 ... Equipment 11 ... Internal processing 12 ... Server 13・ ・ External server 21 ・ ・ Input reception unit 22 ・ ・ Arithmetic processing unit 23 ・ ・ Display processing unit

Claims (6)

It is an information processing device that collects data from sensors installed in various places in the property where air conditioning equipment is installed.
In the image diagram inside the property displayed on the management screen, the sensor position operation reception unit that accepts the operation to specify the position of the sensor installed in the property, and the sensor position operation reception unit.
A measurement data display processing unit that generates a data display screen that displays the measurement data acquired by the sensor in chronological order when an operation requesting the display of the measurement data of the sensor is performed is provided.
When the operation requesting the display of the measurement data of the specific sensor whose position has been changed in the image diagram is performed by the designated operation, the measurement data display processing unit performs the position of the measurement data of the specific sensor. Either one of the measurement data before the change and the measurement data after the change is hidden on the data display screen.
When the operation for requesting the display of the measurement data of the specific sensor in the period before and after the position change is performed, the measurement data display processing unit may perform the measurement data of the specific sensor. Hide either the measurement data before the position change or the measurement data after the position change on the data display screen.
Information processing equipment. When the operation requesting the graph display of the measurement data of the specific sensor is performed, the measurement data display processing unit has the measurement data before and after the position change among the measurement data of the specific sensor. Hide one of them from the graph on the data display screen.
The information processing apparatus according to claim 1 . When the operation requesting continuous reproduction of the measurement data of the specific sensor based on the contour diagram is performed, the measurement data display processing unit receives the measurement data of the measurement data of the specific sensor in the period before the position change. After the reproduction is temporarily stopped when the continuous reproduction by the contour diagram is completed, the continuous reproduction of the measurement data of the measurement data of the specific sensor in the period after the position change is started by the contour diagram.
The information processing apparatus according to claim 1 . When the operation requesting the display of the measurement data of the specific sensor is performed, the measurement data display processing unit refers to the data of the date and time when the operation of designating the position of the sensor installed in the property is performed. Based on the referenced data, one of the measurement data before the position change and the measurement data after the position change among the measurement data of the specific sensor is hidden on the data display screen.
The information processing apparatus according to any one of claims 1 to 3 . It is an information processing method that collects data from sensors installed in various places of the property where air conditioning equipment is installed.
In the image diagram inside the property displayed on the management screen, the sensor position operation reception process that accepts the position designation operation of the sensor installed in the property, and the sensor position operation reception process.
It has a measurement data display processing step of generating a data display screen that displays the measurement data acquired by the sensor in chronological order when an operation requesting the display of the measurement data of the sensor is performed.
In the measurement data display processing step, when an operation for requesting display of measurement data of a specific sensor whose position has been changed in the image diagram is performed by the designated operation, the position of the measurement data of the specific sensor is described. Either one of the measurement data before the change and the measurement data after the change is hidden on the data display screen.
In the measurement data display processing step, when an operation for requesting display of data in the period before and after the position change is performed among the measurement data of the specific sensor, the measurement data of the specific sensor is described. Hide either the measurement data before the position change or the measurement data after the position change on the data display screen.
Information processing method. It is an information processing program that collects data from sensors installed in various places of the property where air conditioning equipment is installed.
On the computer
In the image diagram inside the property displayed on the management screen, the sensor position operation reception process that accepts the position designation operation of the sensor installed in the property, and the sensor position operation reception process.
When an operation requesting the display of the measurement data of the sensor is performed, the measurement data display processing step of generating a data display screen for displaying the measurement data acquired by the sensor in chronological order is executed.
In the measurement data display processing step, when an operation for requesting display of measurement data of a specific sensor whose position has been changed in the image diagram is performed by the designated operation, the position of the measurement data of the specific sensor is described. Either one of the measurement data before the change and the measurement data after the change is hidden on the data display screen.
In the measurement data display processing step, when an operation for requesting display of data in the period before and after the position change is performed among the measurement data of the specific sensor, the measurement data of the specific sensor is described. Hide either the measurement data before the position change or the measurement data after the position change on the data display screen.
Information processing program.

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