JP2002140785A - Measuring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a measuring system by which processing loads and network loads are not concentrated at a data center for managing data measured by plural measuring instruments distributed and arranged geographically. SOLUTION: The system has a means for holding the network addresses of plural other measuring instruments arranged in the neighborhood of the measuring instrument geographically, a means for transmitting measured data to a request for the measured data from another measuring instrument, a means for requesting, receiving and storing the measured data to/from/in the other measuring instrument, a means for performing spatial differentiation arithmetic operation from plural pieces of measured data and a means for storing the results of the arithmetic operation to transmits them to a terminal, which includes the measuring instrument having a means for obtaining the results of the arithmetic operation directly from the measuring instrument. The measured data can be environmental measured data, transportation traffic data or communication traffic data.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of measuring devices that are geographically dispersed and acquire measurement data having a time element, a data center that manages the measurement devices, and a terminal that uses the measurement data. Relates to a measurement system connected via a network. For example, there is an application in an environment measurement system that efficiently acquires, calculates, and distributes environment measurement data at multiple points.

[0002]

2. Description of the Related Art A conventional measurement system collects and accumulates measurement data measured by a plurality of measuring devices that are geographically distributed and arranged at a single data center. Therefore, the terminal must access the data center without fail. In particular, the data center not only transmits the measurement data of each measurement device to the terminal, but also performs an operation (spatial differential operation) between one or more measurement device points in a certain area in accordance with a request from the terminal. It also had the ability to provide results.

[0003]

However, even though the terminal does not always need the measurement data or the spatial differential operation result of the entire area, the terminal also needs to acquire information of a part of the area.
You must always access the data center. Therefore, there is a problem that the processing load increases in the data center and the network load concentrates on the data center. Further, the spatial differentiation operation requires measurement data at the same time, but matching the time of all the measurement devices by the data center was also a factor that increased the processing load of the data center. Further, when the line to the data center is cut off due to a disaster or the like, the arithmetic processing becomes impossible.

Accordingly, an object of the present invention is to provide a measurement system in which a processing load and a network load are not concentrated in a data center which manages measurement devices measured by a plurality of measurement devices geographically distributed. I do. Also, by avoiding concentration of measurement data in one station,
The purpose is to provide a measurement system that is resistant to disasters.

[0005]

According to the present invention, a measuring device comprises: means for holding network addresses of a plurality of other measuring devices located in a geographical vicinity of the measuring device;
Means for transmitting measurement data measured by the measurement apparatus in response to a request for measurement data from another measurement apparatus; means for requesting measurement data to the other measurement apparatus and receiving and storing the measurement data; Means for performing a spatial differentiation operation from a plurality of measurement data, means for accumulating the operation result, and means for transmitting the operation result to a terminal, wherein the terminal obtains the operation result directly from the measurement device. Have means to do so. The measurement device can acquire measurement data of the measurement device located in the vicinity of the device, perform arithmetic processing, and the terminal can directly access the measurement device. The load does not concentrate. In addition, since the access to the nearby measurement device has a short network path, a disaster-resistant measurement system can be provided.

According to another embodiment of the present invention, a data center has means for storing geographical location information and network addresses of a plurality of measuring devices, and the measuring devices are located in a geographical vicinity of the measuring devices. In order to search for and specify a plurality of other measurement devices arranged, the device has means for acquiring geographical location information and a network address of the other measurement devices from the data center, and the terminal transmits the measurement device from the data center to the measurement device. It is also preferred to have means for obtaining geographical location information and network addresses. By accessing the data center, the geographical position information and the network address of the measuring device can be specified.

[0007] According to another embodiment of the present invention, the measuring device communicates time information with a plurality of other measuring devices arranged in a geographical vicinity of the measuring device so that the measuring times coincide with each other. It is also preferable to have a means for causing this to occur. Even when performing a spatial differentiation operation based on measurement data that requires a time element, the operation can be mutually performed between a plurality of measurement devices without going through a data center. May be realized only with the nearby measuring device. According to the present invention, since the spatial differentiation operation is performed for each measuring device, it is not necessary to make the time of all the measuring devices coincide with each other by the data center.

According to another embodiment of the present invention, the measuring device requests measurement data from the other measuring device and starts measuring the measuring data of the measuring device at the same time. When the measurement data is requested from the device, the measurement of the other measurement device is started, the measurement data is transmitted to the measurement device, and the measurement data of the measurement device and the measurement data of the other measurement device are transmitted to the measurement device. It is also preferable to perform a spatial differentiation operation based on the measurement data. This allows
Compared to the differential operation performed by the data center for all the measurement devices, it is possible to acquire measurement data whose measurement time matches only with a small number of nearby measurement devices.

According to another embodiment of the present invention, the measurement data may be environmental measurement data, traffic traffic data, or network traffic data. Also, the present invention is not limited to these, and may be any measurement data that requires a time element.

[0010]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a configuration diagram of a measurement system according to the present invention. Hereinafter, a system for measuring environmental measurement data will be described.

According to FIG. 1, the system includes a plurality of environment measuring devices 1 that are geographically dispersed and acquire measurement data having a time element, a data center 2 that manages the measurement devices, and a system that uses the measurement data. And a terminal 3 for performing the operation. Terminal 3
Can access the data center 2, but can directly access the environment measurement device 1 by acquiring the network address of the environment measurement device 1 from the data center 2. In addition, the environment measurement device 1 can acquire measurement data of a plurality of other measurement devices arranged in a geographical vicinity of the device 1.

As shown in FIG. 1, the environment measuring device 1 includes an environment measuring sensor 11 and an information processing unit 10. The environment measurement sensor 11 is, for example, an anemoscope, an anemometer, a rain gauge, a temperature / humidity meter, an optical sensor, a sound sensor, a gas sensor, or the like.
The information processing unit 10 includes a measurement data collection unit 101,
Spatial differentiation operation unit 102, operation result accumulation unit 103, data transmission / reception unit 104, neighboring device address accumulation unit 105
And a time adjustment unit 106.

The information processing unit 10 of the environment measuring device 1 in FIG. 1 will be described. The measurement data collection unit 101 accumulates measurement data measured by the environment measurement sensor 11. The measurement data stored in the measurement data collection unit 101 is transmitted via the data transmission / reception unit 104 by access from another environmental measurement device or access from the terminal 3. Further, the environment measurement device 1 can receive measurement data collected by another environment measurement device located near the device 1 and accumulate the measurement data in the measurement data collection unit 101.

The geographical position information and the network address information of the other environment measuring devices located near the environment measuring device 1 are stored in the nearby device address storage unit 105. These pieces of information can be received from the data center 3.

The case where the terminal 3 requests the environment measuring device 1 for a spatial differential operation result in a certain area including the device 1 will be described. The environment measuring device 1 is
At the same time, a request for measurement data is made to another measurement device located near the device 1. The measuring apparatus 1 performs an operation using the measurement data of the measuring apparatus located near the measuring apparatus 1 obtained as a result of the request by the spatial differential operation unit 102, and stores the result in the operation result accumulation unit 103. I do. Then, the environment measuring device 1 transmits the calculation result to the requesting terminal 3.

The environment measuring device 1 has a time adjusting unit 106 for making the time coincide with a plurality of other measuring devices arranged in a geographical vicinity. When a request for measurement data is notified from another measurement device, the measurement data collection unit 101 is controlled to promptly issue a measurement instruction. It is provided for performing a spatial differentiation operation.

When a request is sent from the terminal 3, the spatial differentiation operation unit 102 sends a measurement instruction to the measurement data collection unit 101 of its own device, and at the same time, based on information from the neighbor device address storage unit 105, Of the measurement data is notified to the measurement device located at, and the measurement data is obtained and the calculation is performed.

The measurement data collection unit 101 may automatically collect measurement data at regular intervals from a nearby environment measurement device stored in the neighbor device address storage unit 105. It is also possible to respond faster than collecting measurement data when requested from the terminal 3. Furthermore, it is preferable to measure the measurement data promptly when a request for the measurement data is notified from another measurement device. In addition, it is preferable that the spatial differential operation unit 102 also automatically performs an operation at regular intervals.

FIG. 2 is an example of environment measurement data displayed on the terminal 3 and is an explanatory view of the terminal selecting a data acquisition source. When the terminal 3 wants to acquire environmental measurement data in a wide area, the terminal 3 can acquire map information from the blank map server, and can combine the map information with the measurement data acquired from the data center 2 or the spatial differential operation result. On the other hand, when the terminal 3 wants to acquire environmental measurement data in a narrow area, the terminal 3 can directly combine the measurement data or the spatial differential operation result acquired from the environmental measurement device 1 located in the area.

The data center 3 can request and acquire measurement data or a spatial differential operation result from all the environmental measurement devices in place of the terminal 3 in addition to the distribution of the network address information. The obtained information can be totaled and accumulated, and can be distributed to the terminal 3.

Various changes, corrections, and omissions of the technical idea and scope of the present invention can be easily made by those skilled in the art for the above-described various embodiments of the measurement system of the present invention. For example, the measurement data may be traffic traffic data or network traffic data. The foregoing description is merely an example, and is not intended to be limiting. The invention is limited only as defined by the following claims and equivalents thereof.

[0023]

As described above in detail, according to the present invention, the measuring device can acquire the measurement data measured by the nearby measuring device and can perform the arithmetic processing. Since the measurement device can be accessed in a short time, the processing load and the network load do not concentrate on the data center. Further, by accessing the data center, the geographical position information and the network address of the measuring device can be specified. Further, the access to the nearby measurement device can provide a disaster-resistant measurement system because the network path is short.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a measurement system according to the present invention.

FIG. 2 is an example of environmental measurement data displayed on a terminal 3 and is an explanatory diagram of a terminal selecting a data acquisition destination;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Environment measurement apparatus 10 Measurement data collection part 11 Spatial differentiation calculation part 12 Calculation result storage part 13 Data transmission part 14 Neighboring device address storage part 15 Time adjustment part 2 Data center 3 Terminal

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Shigeki Muramatsu 2-1-1-15 Ohara, Kamifukuoka-shi, Saitama F-term in Kaididi Laboratory Co., Ltd. (Reference) 2F073 AA21 AB01 BB07 CC03 CC07 CC09 CC12 CC14 DD03 DE13 FG01 FG02 GG01 5K033 BA11 DB12 5K048 AA08 BA37 DA07 EB10 EB11 HA01 HA03

Claims (5)

[Claims] 1. A plurality of measurement devices that are geographically distributed and measure measurement data having a time element, a data center that manages the measurement devices, and a terminal that uses the measurement data are connected via a network. A connected measurement system, wherein the measurement device is configured to hold network addresses of a plurality of other measurement devices arranged in a geographical vicinity of the measurement device, and to request measurement data from the other measurement devices. Means for transmitting measurement data measured by the measurement device, means for requesting measurement data to the other measurement device, receiving and storing the measurement data, and performing spatial differentiation operation from the plurality of measurement data. Performing means, means for accumulating the operation result, and means for transmitting the operation result to the terminal, wherein the terminal obtains the operation result directly from the measuring device. Measurement system characterized by having means. 2. The data center has means for storing geographical location information and a network address of the plurality of measuring devices, and the measuring device includes a plurality of other measuring devices arranged in a geographical vicinity of the measuring device. A means for acquiring the geographical position information and the network address of the other measuring device from the data center to search and specify the measuring device, wherein the terminal The measurement system according to claim 1, further comprising a unit configured to acquire the geographical position information and the network address. 3. The measuring device according to claim 1, further comprising means for communicating time information with a plurality of other measuring devices arranged in a geographical vicinity of the measuring device to make the measurement times coincide with each other. The measurement system according to claim 1 or 2, which performs the measurement. 4. The measurement device requests measurement data from the other measurement device and starts measuring the measurement data of the measurement device at the same time, and the other measurement device receives a request for measurement data from the measurement device. When the measurement of the other measurement device is started, the measurement data is transmitted to the measurement device, and the measurement device performs spatial measurement based on the measurement data of the measurement device and the measurement data of the other measurement device. The system according to any one of claims 1 to 3, wherein a differential operation is performed. 5. The measurement system according to claim 1, wherein the measurement data is environmental measurement data, traffic traffic data, or network traffic data.