JP2020159769A - Information transmission controller, information reception controller, information transmission device, information aggregation analysis system, information transmission control method, information reception control method, and program - Google Patents

Abstract

To appropriately transmit information.SOLUTION: The present invention comprises: a weighted data acquisition unit 21 for acquiring weighted data from a weight detection unit 11 that detects a weight change of an object; a time information acquisition unit 22 for acquiring the time information of a time in which there was a weight change of the object from a timer 12 that measures a time in which there was a weight change of the object; a position information acquisition unit 23 for acquiring the current position information of the object; an analysis unit 24 for outputting the analysis result, as analysis data, of having analyzed the weight data that indicates a weight change of the object acquired by the weight data acquisition unit 21, time information, acquired by the time information acquisition unit 22, that indicates a time in which there was a weight change, and position information acquired by the position information acquisition unit 23; and an analysis data transmission unit 25 for transmitting the analysis data from the analysis unit 24 to an external device via a transmission unit 15.SELECTED DRAWING: Figure 2

Description

The present invention relates to an information transmission control device, an information reception control device, an information transmission device, an information aggregation analysis system, an information transmission control method, an information reception control method and a program.

A technique for generating weather information based on an image of a moving wiper is known (see, for example, Patent Document 1).

JP-A-2018-173427

When the weather information is generated based on the information acquired from the moving body, it may be difficult to accurately determine the boundary of the rainfall point because the moving body is moving. In addition, even if the position of the moving body is biased, it may be difficult to accurately generate weather information in each area. Furthermore, it may be difficult to accurately generate weather information at points off the road on which the moving body can travel.

The present invention has been made in view of the above, and an object of the present invention is to appropriately transmit information.

In order to solve the above-mentioned problems and achieve the object, the information transmission control device according to the present invention includes a weighted data acquisition unit that acquires weighted data from a weighted detection unit that detects a weighted change of an object, and a weighted data acquisition unit of the object. A time information acquisition unit that acquires time information of the weighted change time of the object from a time measurement unit that measures the time of change, and a position information acquisition unit that acquires the current position information of the object. The weighted data indicating the weighted change of the object acquired by the weighted data acquisition unit, the time information indicating the time when the weighted change of the object was acquired by the time information acquisition unit, and the position information acquisition unit acquired. It is characterized by including an analysis unit that analyzes the position information and analyzes the rainfall, and an analysis data transmission unit that transmits analysis data indicating the analysis result of the analysis unit to an external device via the transmission unit. To do.

The information reception control device according to the present invention analyzes rainfall based on weighted data indicating a weighted change of an object, time information indicating the time when the weighted change of the object has occurred, and current position information of the object. An analysis data acquisition unit that acquires analysis data related to the data via a reception unit, a map information generation unit that superimposes the analysis data acquired by the analysis data acquisition unit on a map to generate superimposed map information, and the analysis data. The aggregated analysis unit that aggregates and analyzes the analysis data acquired by the acquisition unit and the superimposed map information generated by the map information generation unit to generate aggregated data, and the aggregated data generated by the aggregated analysis unit are transmitted. It is characterized by including an aggregated data transmission unit that transmits via the unit.

The information transmission device according to the present invention includes the above-mentioned information transmission device, a weight detection unit that detects a weight change of an object, a time measurement unit that measures the time of a weight change of the object, a transmission unit, and the above. It is characterized by including a receiving unit for receiving aggregated data transmitted from the information reception control device of the above.

The information aggregation analysis system according to the present invention is characterized by including the above-mentioned information transmitting device and an information receiving device including the above-mentioned information receiving control device.

The information transmission control method according to the present invention comprises a weighted data acquisition step of acquiring weighted data from a weighted detection unit that detects a weighted change of an object, and a time measuring unit that measures the time of the weighted change of the object. The time information acquisition step for acquiring the time information of the time when the weighted change of the object has occurred, the position information acquisition step for acquiring the current position information of the object, and the weighted change of the object acquired by the weighted data acquisition step. Analysis that analyzes the weighted data shown, the time information indicating the time when the weighted change of the object was acquired by the time information acquisition step, and the position information acquired by the position information acquisition step, and analyzes the rainfall. The step includes an analysis data transmission step of transmitting analysis data indicating the analysis result in the analysis step to an external device via a transmission unit.

The program according to the present invention includes a weight data acquisition step of acquiring weight data from a weight detection unit that detects a weight change of an object, and a time measurement unit that measures the time when the weight change of the object has occurred. A time information acquisition step for acquiring time information of the time when there was a change, a position information acquisition step for acquiring the current position information of the object, and weighted data indicating the weighted change of the object acquired by the weighted data acquisition step. An analysis step of analyzing the time information indicating the time when the weighted change of the object was acquired by the time information acquisition step and the position information acquired by the position information acquisition step to analyze the rainfall. A computer operating as an information transmission control device is made to execute an analysis data transmission step of transmitting analysis data indicating an analysis result in the analysis step to an external device via a transmission unit.

The information reception control method according to the present invention is analyzed based on weighted data indicating a weighted change of an object, time information indicating a time when the weighted change of the object has occurred, and current position information of the object. An analysis data acquisition step of acquiring analysis data related to the data via a receiving unit, a map information generation step of superimposing the analysis data acquired by the analysis data acquisition step on a map to generate superimposed map information, and the analysis data. The aggregated analysis step that aggregates and analyzes the analysis data acquired by the acquisition step and the superimposed map information generated by the map information generation step to generate aggregated data, and the aggregated data generated by the aggregated analysis step are transmitted. Includes an aggregated data transmission step to be transmitted through the unit.

The program according to the present invention is analysis data on rainfall analyzed based on weighted data indicating a weighted change of an object, time information indicating the time when the weighted change of the object has occurred, and current position information of the object. By the analysis data acquisition step of acquiring the data via the receiving unit, the map information generation step of superimposing the analysis data acquired by the analysis data acquisition step on the map to generate superimposed map information, and the analysis data acquisition step. The aggregated analysis step that aggregates and analyzes the acquired analysis data and the superimposed map information generated by the map information generation step to generate aggregated data, and the aggregated data generated by the aggregated analysis step are transmitted via a transmission unit. The computer operating as the information reception control device executes the aggregated data transmission step to be transmitted.

According to the present invention, there is an effect that information can be appropriately transmitted.

FIG. 1 is a schematic diagram illustrating an outline of an information aggregation analysis system according to the first embodiment. FIG. 2 is a block diagram showing a configuration example of the information transmission device according to the first embodiment. FIG. 3 is a block diagram showing a configuration example of the information receiving device according to the first embodiment. FIG. 4 is a flowchart showing a processing flow in the information transmission device according to the first embodiment. FIG. 5 is a flowchart showing a processing flow in the information receiving device according to the first embodiment.

The information transmission control device, the information reception control device, the information transmission device, the information aggregation analysis system, the information transmission control method, the information reception control method, and the embodiment of the program according to the present invention will be described in detail with reference to the accompanying drawings. To do. The present invention is not limited to the following embodiments.

[First Embodiment]
FIG. 1 is a schematic diagram illustrating an outline of an information aggregation analysis system according to the first embodiment. FIG. 2 is a block diagram showing a configuration example of the information transmission device according to the first embodiment. FIG. 3 is a block diagram showing a configuration example of the information receiving device according to the first embodiment. The information aggregation analysis system 1 includes a plurality of information transmitting devices 10 that function as terminal devices on the client side, and an information receiving device 30 that functions as a server device.

In the present embodiment, the information aggregation analysis system 1 shall generate aggregated data regarding rainfall in a densely populated area such as an urban area. In an area where houses are densely packed, a large number of information transmission devices 10 can be arranged.

The information transmitting device 10 includes weight data indicating a weight change of the laundry dried on the clothesline 100 as an object (hereinafter referred to as a weight of the clothesline 100), time information indicating the time when the weight change of the clothesline 100 has occurred, and information. Analyze with location information. The information transmitting device 10 transmits the analysis data, which is the analysis result, to the information receiving device 30. The information transmitting device 10 can be installed at a desired position on a clothesline, a gutter, or outdoors in each house, for example. The information transmission device 10 includes a weight detection unit 11, a timer (time measurement unit) 12, a GPS (Global Positioning System) reception unit 13, a communication unit 14 having a transmission unit 15 and a reception unit 16, and a display unit 17. And a control unit (information transmission control device) 20.

The weight detection unit 11 is a weight sensor that detects a weight change of an object. In this embodiment, the weight detection unit 11 detects the weight change of the clothesline 100. In the present embodiment, the weight detection unit 11 is arranged on the clothesline 100 at a position where the weight change due to the laundry dried on the clothesline 100 can be detected. The weight detection unit 11 detects the weight when the laundry is not dried on the clothes drying table 100 as zero. The weight detection unit 11 detects the weight when the laundry is dried with a positive value. The weight detection unit 11 detects zero weight when laundry is taken in from the clothesline 100, for example, when it is raining. The weight detection unit 11 detects an increase from zero weight to a positive value when the laundry once taken in is dried again on the clothesline 100, for example, when the rain stops after rainfall. Further, when rainwater adheres to the clothes drying table 100 and the laundry to be dried due to rainfall, the weight detection unit 11 increases the weight as compared with when the laundry is dried. The weight detection unit 11 outputs the detected weight data to the weight data acquisition unit 21.

The timer 12 measures the time during which the weight of the object detected by the weight detection unit 11 has changed. For example, the timer 12 measures the time when the laundry is dried on the clothesline 100, in other words, the time when the load increases from zero. For example, the timer 12 measures the time when the laundry is taken in from the clothesline 100, in other words, the time when the weight decreases from a positive value to zero. For example, the timer 12 may measure the time when the laundry is dried on the clothesline 100, in other words, the time when the weight increases from zero to a positive value. For example, the timer 12 may measure the time when rainwater adheres to the clothesline 100 and the laundry being dried, in other words, the time when the load increases. The timer 12 outputs the measured time information to the time information acquisition unit 22.

The GPS receiving unit 13 receives radio waves from GPS satellites (not shown). The GPS receiving unit 13 outputs the received radio wave signal to the position information acquisition unit 23.

The communication unit 14 is a communication unit. The communication unit 14 connects to the information receiving device 30 so as to be able to transmit and receive data. The communication unit 14 has a transmission unit 15 and a reception unit 16.

The display unit 17 is a display including, for example, a liquid crystal display (LCD: Liquid Crystal Display) or an organic EL (Organic Electro-Luminence) display. The display unit 17 displays information based on the control signal output from the display control unit 27 of the control unit 20. In the present embodiment, the display unit 17 displays aggregated data indicating the analysis result in the information receiving device 30.

The control unit 20 is, for example, an arithmetic processing unit (control device) composed of a CPU (Central Processing Unit) or the like. The control unit 20 loads a program stored in a storage unit (not shown) into the memory and executes an instruction included in the program. The control unit 20 includes a weighted data acquisition unit 21, a time information acquisition unit 22, a position information acquisition unit 23, an analysis unit 24, an analysis data transmission unit 25, a communication control unit 26, and a display control unit 27. Have. The control unit 20 includes an internal memory (not shown), and the internal memory is used for temporary storage of data in the control unit 20 and the like.

The weighted data acquisition unit 21 acquires weighted data from the weighted detection unit 11. The weighted data acquisition unit 21 stores the acquired weighted data in a storage unit (not shown).

The time information acquisition unit 22 acquires time information from the timer 12 as the time when the weighted change of the object has occurred. In the present embodiment, the time information acquisition unit 22 acquires time information from the timer 12 as the time when the weight change of the clothes drying table 100 has occurred. The time information acquisition unit 22 stores the acquired time information in a storage unit (not shown).

The position information acquisition unit 23 acquires the position information of the current position of the information transmission device 10. In other words, the position information acquisition unit 23 acquires the position information of the current position of the object. In the present embodiment, the position information acquisition unit 23 acquires the position information of the current position of the clothesline 100. The position information acquisition unit 23 calculates the position information of the current position of the information transmission device 10 by a known method based on the radio waves received by the GPS reception unit 13. The position information acquisition unit 23 stores the acquired position information in a storage unit (not shown).

The analysis unit 24 includes weighted data indicating the weighted change of the object acquired by the weighted data acquisition unit 21, time information indicating the time when the weighted change of the object acquired by the time information acquisition unit 22 has occurred, and a position information acquisition unit 23. Analyzes the location information acquired by the company and analyzes the rainfall. The analysis unit 24 outputs analysis data indicating the analysis result. In the present embodiment, the analysis unit 24 indicates the weighted data indicating the weighted change of the drying table 100 acquired by the weighted data acquisition unit 21, and the time during which the weighted change of the drying table 100 acquired by the time information acquisition unit 22 has occurred. The analysis result obtained by analyzing the time information and the position information acquired by the position information acquisition unit 23 is output as analysis data.

The analysis unit 24 starts rainfall from the weighted data indicating the weighted change of the object acquired by the weighted data acquisition unit 21 and the time information indicating the time when the weighted change of the object acquired by the time information acquisition unit 22 has occurred. The time may be analyzed. In the present embodiment, the analysis unit 24 indicates the weighted data indicating the weighted change of the clothesline 100 acquired by the weighted data acquisition unit 21, and the time during which the weighted change of the clothesline 100 acquired by the time information acquisition unit 22 has occurred. From the time information, the time when the rainfall started may be analyzed. For example, the analysis unit 24 analyzes that from the time when the weighted data decreases from a positive value to zero, at the point of the position information of the information transmission device 10, precipitation starts at that time. Even if the analysis unit 24 does not analyze that the rainfall has started when the time when the weighted data decreases from a positive value to zero is later than the average take-in time of the laundry at the position information point of the information transmitting device 10. Good. The average take-in time of the laundry may be, for example, the sunset time. This is because if the time is later than the average time for taking in the laundry, it is possible that the laundry has been taken in regardless of the rainfall.

The analysis unit 24 stopped raining from the weighted data indicating the weighted change of the object acquired by the weighted data acquisition unit 21 and the time information indicating the time when the weighted change of the object was acquired by the time information acquisition unit 22. You may analyze the time. In the present embodiment, the analysis unit 24 indicates the weighted data indicating the weighted change of the clothesline 100 acquired by the weighted data acquisition unit 21, and the time during which the weighted change of the clothesline 100 acquired by the time information acquisition unit 22 has occurred. You may analyze the time when the rain stopped from the time information. For example, the analysis unit 24 analyzes from the time when the weighted data increases from zero to a positive value that it rains before the time at the position information point of the information transmission device 10. The analysis unit 24 may not perform the analysis when there is a weighted change at night from sunset to sunrise. When the laundry is dried on the clothesline 100 at night, it is highly likely that the drying of the laundry and the fact that it is not raining are not linked, and the laundry may not be taken in due to the rainfall. This is because it is presumed to have high sex.

In this way, the analysis unit 24 obtains analysis data indicating at least one of the time when the rainfall is started and the time when the rain is stopped at the current position of the information transmission device 10 by the analysis. The analysis data includes position information of the current position of the information transmitting device 10 and time information indicating at least one of the time when the rain started and the time when the rain stopped.

The analysis data transmission unit 25 transmits analysis data indicating the analysis result of the analysis unit 24 to the information receiving device 30 which is an external device. For example, each time the analysis unit 24 performs an analysis, the analysis data transmission unit 25 transmits the analysis data to the information receiving device 30 via the communication control unit 26.

The communication control unit 26 controls communication via the communication unit 14. The communication control unit 26 communicates with the information receiving device 30 via the communication unit 14.

The display control unit 27 controls the display of information on the display unit 17. More specifically, the display control unit 27 outputs a video signal or an image signal that displays the aggregated data indicating the analysis result in the information receiving device 30 received from the information receiving device 30 via the receiving unit 16.

The information receiving device 30 aggregates and analyzes the analysis data acquired from the plurality of information transmitting devices 10 and the superimposed map information obtained by superimposing the analysis data on the map, and generates aggregated data related to rainfall. The information receiving device 30 includes a map information storage unit 31, a communication unit 32, and a control unit 40.

The map information storage unit 31 stores the map information used by the map information generation unit 43. The map information storage unit 31 is, for example, a semiconductor memory element such as a flash memory, a hard disk, an optical disk, or the like. The map information storage unit 31 may be an external storage unit that is wirelessly connected via the communication unit 32.

The communication unit 32 is a communication unit. The communication unit 32 connects to the information transmission device 10 so as to be able to transmit and receive data. The communication unit 32 has a transmission unit 33 and a reception unit 34.

The control unit 40 is, for example, an arithmetic processing unit (control device) composed of a CPU or the like. The control unit 40 loads a program stored in a storage unit (not shown) into the memory and executes an instruction included in the program. The control unit 40 includes an analysis data acquisition unit 41, a map information acquisition unit 42, a map information generation unit 43, an aggregation analysis unit 44, an aggregation data transmission unit 45, and a communication control unit 46. The control unit 40 includes an internal memory (not shown), and the internal memory is used for temporary storage of data in the control unit 40 and the like.

The analysis data acquisition unit 41 obtains analysis data related to rainfall analyzed based on weighted data indicating a weighted change of the object, time information indicating the time when the weighted change of the object has occurred, and current position information of the object. , Acquired via the receiving unit 34. In the present embodiment, the analysis data acquisition unit 41 acquires the analysis data transmitted by the analysis data transmission unit 25 of the information transmission device 10 via the reception unit 34. The analysis data acquisition unit 41 stores the acquired analysis data in the storage unit.

The map information acquisition unit 42 acquires the map information stored in the map information storage unit 31.

The map information generation unit 43 superimposes the analysis data acquired from the plurality of information transmission devices 10 acquired by the analysis data acquisition unit 41 on the map of the map information acquired by the map information acquisition unit 42 to generate superimposed map information. To do. For example, information on the time when precipitation started is superimposed on the superimposed map information for each point on the map. For example, the superimposed map information is superimposed with information on the time when the rain stopped for each point on the map.

The aggregated analysis unit 44 aggregates and analyzes the analysis data acquired by the analysis data acquisition unit 41 and the superimposed map information generated by the map information generation unit 43 to generate aggregated data. The aggregation analysis unit 44 aggregates and analyzes the analysis data transmitted by the plurality of information transmission devices 10 and the superimposed map information generated by the map information generation unit 43, and aggregates and analyzes the information on the start time of rainfall and the point where the rainfall starts. Generate aggregated data including the information of.

The aggregated data show at least one of the times when the rainfall started and the time when the rain stopped on the map. The aggregated data may indicate at least one of the predicted time when the rainfall starts and the predicted time when the rain stops on the map.

From the time when the weighted data decreased from the positive value to zero in the plurality of analysis data from the superimposed map information, the aggregation analysis unit 44 started rainfall at the time in the area including the position information point of the information transmission device 10. Can be analyzed. According to the aggregate analysis unit 44, from the time when the weighted data increased from zero to a positive value in the plurality of analysis data from the superimposed map information, it was said that it rained at that time in the area including the position information point of the information transmission device 10. It can be analyzed.

In the superimposed map information, when the information transmission devices 10 that have acquired the analysis data are scattered on the map, the aggregate analysis unit 44 may use the acquired analysis data to base the information transmission devices 10 even at points where the information transmission devices 10 do not exist. For example, from the analysis data of the information transmission device 10 located within a radius of several 100 m and the superimposed map information, the predicted time when the rainfall starts and the predicted time when the rain stops may be shown.

The aggregation analysis unit 44 can analyze the predicted time for starting precipitation in the surrounding area from the transition of the point where the precipitation started with the passage of time from the superimposed map information. The total analysis unit 44 can analyze the predicted time when the rain stops in the surrounding area from the transition of the point where the rain stopped with the passage of time from the superimposed map information.

Of the plurality of analysis data, the aggregate analysis unit 44 preferably excludes the analysis data which has a significant difference in time information as compared with other analysis data and is likely to be erroneous from the aggregate analysis. As a result, for example, analysis data when the laundry is forgotten to be taken in during rainfall is excluded.

In addition, the laundry is taken in at the time of rainfall at each clothes drying table 100 in the area where it rains. On the other hand, the loading of laundry in fine weather tends to be carried out separately even at each clothesline 100 in the same area as compared with the time of rainfall. In this way, the aggregation analysis unit 44 can distinguish whether the laundry is taken in during rainfall or not, depending on the tendency of the plurality of analysis data.

The aggregated data transmission unit 45 transmits aggregated data indicating the analysis result of the aggregated analysis unit 44 to the information transmission device 10. The aggregated data transmitting unit 45 uses the aggregated data indicating the analysis result of the aggregated analysis unit 44 by the user of the information transmitting device 10, for example, a portable electronic device such as a smartphone, or the information transmitting device 10. It may be transmitted to the in-vehicle device of the vehicle on which the user is riding. Further, other than the user of the information transmitting device 10, as long as it is registered in the aggregated data transmitting unit 45, it may be transmitted to a portable electronic device or an in-vehicle device of a vehicle. For example, each time the aggregation analysis unit 44 performs analysis, the aggregation data transmission unit 45 transmits the aggregation data to the information transmission device 10, the portable electronic device, and the in-vehicle device via the communication control unit 46.

The aggregated data transmission unit 45 may transmit superimposed map information indicating the time when it starts to rain on the map. The aggregated data transmission unit 45 may have a table of character information in advance, such as "It is predicted that it will start raining in 5 minutes in XX town XX chome", and transmit the character information. ..

The communication control unit 46 controls communication via the communication unit 32. The communication control unit 46 communicates with the information transmission device 10 via the communication unit 32.

Next, the flow of processing in the information transmission device 10 will be described with reference to FIG. FIG. 4 is a flowchart showing a processing flow in the information transmission device according to the first embodiment.

The control unit 20 acquires weight data from the weight detection unit 11 by the weight data acquisition unit 21 (step S101). The control unit 20 proceeds to step S102.

The control unit 20 acquires time information from the timer 12 as the time when the weight change of the clothes drying table 100 is performed by the time information acquisition unit 22 (step S102). The control unit 20 proceeds to step S103.

The control unit 20 uses the position information acquisition unit 23 to provide position information on the current position of the clothesline 100 (step S103). The control unit 20 proceeds to step S104.

The control unit 20 is analyzed by the analysis unit 24 (step S104). More specifically, the control unit 20 has a weighted data indicating a weighted change of the drying table 100 acquired by the weighted data acquisition unit 21 and a weighted change of the drying table 100 acquired by the time information acquisition unit 22 by the analysis unit 24. The analysis result obtained by analyzing the time information indicating the time spent and the position information acquired by the position information acquisition unit 23 is output as analysis data. The control unit 20 proceeds to step S105.

The control unit 20 transmits the analysis data indicating the analysis result of the analysis unit 24 to the information receiving device 30 by the analysis data transmission unit 25 (step S105). The control unit 20 ends the process.

Next, the flow of processing in the information receiving device 30 will be described with reference to FIG. FIG. 5 is a flowchart showing a processing flow in the information receiving device according to the first embodiment.

The control unit 20 acquires the analysis data transmitted by the analysis data transmission unit 25 of the information transmission device 10 via the reception unit 34 by the analysis data acquisition unit 41 (step S111). The control unit 20 proceeds to step S112.

The control unit 40 acquires the map information stored in the map information storage unit 31 by the map information acquisition unit 42 (step S112). The control unit 20 proceeds to step S113.

The control unit 40 superimposes the analysis data acquired by the analysis data acquisition unit 41 on the map of the map information acquired by the map information acquisition unit 42 by the map information generation unit 43 to generate superimposed map information (step S113). .. The control unit 20 proceeds to step S114.

The control unit 40 aggregates and analyzes the analysis data acquired by the analysis data acquisition unit 41 and the superimposed map information generated by the map information generation unit 43 by the aggregation analysis unit 44 to generate the aggregation data (step S114). The control unit 20 proceeds to step S115.

The control unit 40 transmits the aggregated data indicating the analysis result of the aggregated analysis unit 44 to the information transmission device 10 by the aggregated data transmitting unit 45 (step S115). The control unit 20 ends the process.

In this way, in the information aggregation analysis system 1, the information transmission device 10 has weighted data indicating the weighted change of the clothesline 100 as an object, time information indicating the time when the weighted change of the clothesline 100 has occurred, and a position. Analyze with information. More specifically, the information transmission device 10 analyzes the weighted data indicating the weighted change of the clothesline 100 due to rainfall, the time information indicating the time when the weighted change of the clothesline 100 is performed, and the position information. The information transmitting device 10 transmits the analysis data, which is the analysis result, to the information receiving device 30.

In the information aggregation analysis system 1, the information receiving device 30 aggregates and analyzes the analysis data acquired from the information transmitting device 10 and the map information obtained by superimposing the analysis data on the map to generate the aggregated data. More specifically, the information receiving device 30 aggregates and analyzes the analysis data and the map information obtained by superimposing the analysis data on the map, and generates aggregated data related to rainfall.

As described above, in the present embodiment, the information transmission device 10 analyzes the weighted data indicating the weighted change of the clothesline 100, the time information indicating the time when the weighted change of the clothesline 100 is performed, and the position information. be able to. More specifically, in the present embodiment, the information transmission device 10 analyzes weight data indicating the weighted change of the clothesline 100 due to rainfall, time information indicating the time when the weighted change of the clothesline 100 has occurred, and position information. can do. In the present embodiment, the information transmitting device 10 can transmit the analysis data which is the analysis result to the information receiving device 30.

In the present embodiment, since the weighted data showing the weighted change of the clothesline 100 is used, it is possible to accurately analyze whether or not there was actually rainfall. According to this embodiment, highly accurate analysis data can be obtained.

In the present embodiment, since a large number of information transmitting devices 10 can be arranged in an area where houses are densely packed such as an urban area, more analysis data can be transmitted to the information receiving device 30.

In the present embodiment, the information receiving device 30 can aggregate and analyze the analysis data acquired from the information transmitting device 10 and the map information obtained by superimposing the analysis data on the map to generate the aggregated data. More specifically, in the present embodiment, the information receiving device 30 can aggregate and analyze the analysis data and the map information obtained by superimposing the analysis data on the map to generate aggregated data related to rainfall.

In the present embodiment, highly accurate aggregated data can be obtained by using highly accurate analysis data based on the weighted data indicating the weighted change of the clothesline 100.

In the present embodiment, since the aggregated data is generated from the highly accurate analysis data based on the weighted data indicating the weighted change of the clothesline 100, the boundary of the rainfall point can be accurately analyzed.

In the present embodiment, more analysis data can be acquired in a densely populated area such as an urban area, so that more accurate aggregated data can be generated.

[Second Embodiment]
The basic configuration of the information aggregation analysis system 1 is the same as that of the information aggregation analysis system 1 of the first embodiment. In the following description, the same components as those of the information aggregation analysis system 1 are designated by the same reference numerals or corresponding reference numerals, and detailed description thereof will be omitted. In the information aggregation analysis system 1, the processing in the analysis unit 24 of the information transmission device 10 and the processing in the aggregation analysis unit 44 and the aggregation data transmission unit 45 of the information receiving device 30 are different from those in the first embodiment.

The analysis unit 24 includes weighted data indicating the weighted change of the clothesline 100 as an object acquired by the weighted data acquisition unit 21, and time information indicating the time during which the weighted change of the clothesline 100 acquired by the time information acquisition unit 22 has occurred. And the position information acquired by the position information acquisition unit 23 are analyzed, and analysis data indicating that the weight of the clothesline 100 has increased by a predetermined value or more is output in a short time of, for example, about 1 minute. For example, when a guerrilla rainstorm occurs, the laundry that has been dried on the clothesline 100 cannot be taken in in time and contains a large amount of rainwater in a short time.

The aggregation analysis unit 44 aggregates and analyzes the analysis data acquired by the analysis data acquisition unit 41 and the superimposed map information generated by the map information generation unit 43, and the time when the guerrilla rainstorm started and the guerrilla rainstorm occur. Generate aggregated data indicating the area where you are.

The aggregation analysis unit 44 can analyze the predicted time when the guerrilla rainstorm starts in the surrounding area from the transition of the point where the guerrilla rainstorm starts from the superimposed map information over time.

The aggregated data transmission unit 45 transmits the aggregated data regarding the guerrilla rainstorm of the aggregated analysis unit 44 to the information transmission device 10. The aggregated data transmission unit 45 may transmit superimposed map information displaying the start time of the guerrilla rainstorm and the area on the map. The aggregated data transmission unit 45 may have a table of character information in advance, such as "A guerrilla rainstorm is predicted in 5 minutes in XX town XX chome", and transmit the character information.

In this way, in the information aggregation analysis system 1, the information transmission device 10 includes weighted data indicating a weighted change in which the weight of the clothesline 100 increases in a short time due to the guerrilla rainstorm, and the time during which the weighted change of the clothesline 100 occurs. The time information indicating the above and the position information are analyzed.

In the information aggregation analysis system 1, the information receiving device 30 aggregates and analyzes the analysis data at the time of the guerrilla rainstorm and the map information obtained by superimposing the analysis data on the map, and generates aggregated data regarding the guerrilla rainstorm.

As described above, in the present embodiment, the information transmission device 10 shows the weighted data showing the weight change in which the weight of the clothesline 100 increases in a short time due to the guerrilla rainstorm, and the time when the weight change of the clothesline 100 has occurred. It is possible to analyze time information and position information.

In the present embodiment, the information receiving device 30 can aggregate and analyze the analysis data at the time of the guerrilla rainstorm and the map information obtained by superimposing the analysis data on the map to generate the aggregated data regarding the guerrilla rainstorm.

Although the information aggregation analysis system 1 according to the present invention has been described so far, it may be implemented in various different forms other than the above-described embodiment.

Each component of the illustrated information aggregation analysis system 1 is a functional concept and does not necessarily have to be physically configured as shown in the figure. That is, the specific form of each device is not limited to the one shown in the figure, and all or part of each device is functionally or physically dispersed or integrated in an arbitrary unit according to the processing load and usage status of each device. You may.

The configuration of the information aggregation analysis system 1 is realized, for example, by a program loaded in a memory as software. In the above embodiment, it has been described as a functional block realized by cooperation of these hardware or software. That is, these functional blocks can be realized in various forms by hardware only, software only, or a combination thereof.

The above-mentioned components include those that can be easily assumed by those skilled in the art and those that are substantially the same. Further, the above configurations can be combined as appropriate. Further, various omissions, substitutions or changes of the configuration can be made without departing from the gist of the present invention.

In the above, the weight detection unit 11 has been described as detecting the weight change of the clothesline 100, but the present invention is not limited to this. The weight detection unit 11 may be installed, for example, in a gutter of each house or at a desired position outdoors to detect a weight change in which the weight increases due to the adhesion of rainwater during rainfall.

1 Information aggregation analysis system 10 Information transmitter 11 Weight detection unit 12 Timer (time measurement unit)
13 GPS receiver 14 Communication unit 15 Transmitter 16 Receiver 20 Control unit (information transmission control device)
21 Weighted data acquisition unit 22 Time information acquisition unit 23 Position information acquisition unit 24 Analysis unit 25 Analysis data transmission unit 26 Communication control unit 30 Information receiver 31 Map information storage unit 32 Communication unit 33 Transmission unit 34 Reception unit 40 Control unit (information) Reception control device)
41 Analysis data acquisition unit 42 Map information acquisition unit 43 Map information generation unit 44 Aggregation analysis unit 45 Aggregation data transmission unit 46 Communication control unit

Claims (10)

A weighted data acquisition unit that acquires weighted data from a weighted detector that detects weighted changes in an object,
A time information acquisition unit that acquires time information of the time when the weight change of the object is obtained from the time measurement unit that measures the time when the weight change of the object is performed.
A position information acquisition unit that acquires the current position information of the object, and
The weighted data indicating the weighted change of the object acquired by the weighted data acquisition unit, the time information indicating the time when the weighted change of the object was acquired by the time information acquisition unit, and the position information acquisition unit acquired. An analysis unit that analyzes the location information and analyzes the rainfall,
An analysis data transmission unit that transmits analysis data indicating the analysis results of the analysis unit to an external device via the transmission unit, and an analysis data transmission unit.
An information transmission control device comprising. The analysis unit uses the weighted data acquired by the weighted data acquisition unit to indicate the weighted change of the object and the time information acquired by the time-recording information acquisition unit to indicate the time of the weighted change of the object. Analyze the started time,
The information transmission control device according to claim 1. The analysis data regarding rainfall, which is analyzed based on the weighted data indicating the weighted change of the object, the time information indicating the time when the weighted change of the object has occurred, and the current position information of the object, is transmitted through the receiver. The analysis data acquisition unit to be acquired and
A map information generation unit that generates superimposed map information by superimposing the analysis data acquired by the analysis data acquisition unit on a map,
An aggregate analysis unit that aggregates and analyzes the analysis data acquired by the analysis data acquisition unit and the superimposed map information generated by the map information generation unit to generate aggregated data.
An aggregated data transmitting unit that transmits the aggregated data generated by the aggregated analysis unit via the transmitting unit, and
An information reception control device comprising. The aggregation analysis unit aggregates and analyzes the analysis data transmitted by the plurality of information transmission devices and the superimposed map information generated by the map information generation unit, and aggregates and analyzes the information on the start time of rainfall and the start of rainfall. Generate aggregated data including location information,
The information reception control device according to claim 3. The information transmission control device according to claim 1 or 2,
A weight detection unit that detects the weight change of an object,
A time measuring unit that measures the time when the weight of the object has changed,
With the transmitter
A receiving unit that receives aggregated data transmitted from the information reception control device according to claim 3 or 4.
An information transmission device characterized by comprising. The information transmitting device according to claim 5 and
An information receiving device including the information receiving control device according to claim 3 or 4.
An information aggregation analysis system characterized by being equipped with. A weighted data acquisition step of acquiring weighted data from a weighted detection unit that detects a weighted change of an object,
A time information acquisition step of acquiring time information of the time when the weight change of the object is performed from the time measurement unit which measures the time when the weight change of the object is performed.
A position information acquisition step for acquiring the current position information of the object, and
Weighted data indicating the weighted change of the object acquired by the weighted data acquisition step, time information indicating the time of the weighted change of the object acquired by the time information acquisition step, and acquisition by the position information acquisition step. An analysis step that analyzes the position information and analyzes the rainfall,
An analysis data transmission step of transmitting analysis data indicating the analysis result in the analysis step to an external device via a transmission unit, and an analysis data transmission step.
Information transmission control method including. A weighted data acquisition step of acquiring weighted data from a weighted detection unit that detects a weighted change of an object,
A time information acquisition step of acquiring time information of the time when the weight change of the object is performed from the time measurement unit which measures the time when the weight change of the object is performed.
A position information acquisition step for acquiring the current position information of the object, and
Weighted data indicating the weighted change of the object acquired by the weighted data acquisition step, time information indicating the time of the weighted change of the object acquired by the time information acquisition step, and acquisition by the position information acquisition step. An analysis step that analyzes the position information and analyzes the rainfall,
An analysis data transmission step of transmitting analysis data indicating the analysis result in the analysis step to an external device via a transmission unit, and an analysis data transmission step.
Is a program to be executed by a computer that operates as an information transmission control device. The analysis data regarding rainfall, which is analyzed based on the weighted data indicating the weighted change of the object, the time information indicating the time when the weighted change of the object has occurred, and the current position information of the object, is transmitted through the receiver. The analysis data acquisition step to be acquired and
A map information generation step of superimposing the analysis data acquired in the analysis data acquisition step on a map to generate superimposed map information,
An aggregate analysis step that aggregates and analyzes the analysis data acquired by the analysis data acquisition step and the superimposed map information generated by the map information generation step to generate aggregated data.
The aggregated data transmission step of transmitting the aggregated data generated by the aggregated analysis step via the transmission unit, and
Information reception control method including. The analysis data regarding rainfall, which is analyzed based on the weighted data indicating the weighted change of the object, the time information indicating the time when the weighted change of the object has occurred, and the current position information of the object, is transmitted through the receiver. The analysis data acquisition step to be acquired and
A map information generation step of superimposing the analysis data acquired in the analysis data acquisition step on a map to generate superimposed map information,
An aggregate analysis step that aggregates and analyzes the analysis data acquired by the analysis data acquisition step and the superimposed map information generated by the map information generation step to generate aggregated data.
The aggregated data transmission step of transmitting the aggregated data generated by the aggregated analysis step via the transmission unit, and
Is a program to be executed by a computer that operates as an information reception control device.

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