JPH0441956B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention represents Present Weather, which is the weather at an observation point expressed in a code format recognized by the WMO (World Meteorological Organization).
Hereinafter referred to as "current weather". ) is automatically determined,
The present invention relates to an automatic current weather determination method and an automatic weather condition report automatic determination system that enables users to be automatically notified of various meteorological element measurement data (hereinafter referred to as current weather conditions) including the current weather.

[Background and problems of the invention]

The so-called weather forecast, which predicts the weather conditions for the current day or the next day, can be easily obtained from, for example, weather forecast programs on TV or weather forecast services on subscribed telephones. A system that allows the status to be known via a subscriber telephone has not yet been put into practical use.

For example, when going to a recreational area or a stadium, it would be very convenient if you could know the current weather conditions at these locations. The only way to find out is by contacting people who live in the area by phone.

In view of the above, it is an object of the present invention to make it possible to know the current weather conditions in remote areas immediately and in as objective a manner as possible.

[Means to solve the problem]

In order to solve the above problems, the present invention automatically determines the current weather based on various weather element measurement data at set time intervals using a computer, and transmits the above determination to an audio transmitter connected to a communication line. The current weather thus obtained and various meteorological element measurement data are synthesized into voices and stored, and the stored various data are sent to the user via the communication line.

[Action of the invention]

Data measured at fixed time intervals by measuring instruments for various weather elements is held in memory for the time necessary to determine the current weather.

Based on this stored data, the current weather is determined at each set time, and a weather report containing the new current weather at each set time is voice-synthesized and input to the audio transmission unit connected to the communication line. Ru. Therefore, by accessing the above-mentioned communication line, the user can instantly know the current weather conditions at a remote location (the measurement point of the above-mentioned various weather elements) at any time.

〔Example〕

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a flowchart showing a process for determining the current weather among the current weather conditions.

As shown in FIG. 1, the current weather automatic judgment and weather situation report automatic judgment and reporting system according to the embodiment of the present invention includes various meteorological elements (wind direction, wind speed, air temperature, dew point temperature, rainfall amount, rainfall intensity, sunshine duration, measuring instruments 101 to 109 (solar radiation intensity, visibility, atmospheric pressure, etc.); converters 201 to 109 for converting measurement signals from the measuring instruments 101 to 109 into BCD signals or analog signals;
209, a microcomputer unit that performs overall control of this system, including processing for determining the current weather based on the measurement data of the various weather elements mentioned above, processing for assembling current weather reports, and processing for sending them to communication lines such as subscriber telephone lines. (Hereinafter, it is abbreviated as a microcomputer.) 3. This microcomputer 3 has a built-in converter 20.
Measuring instruments 101 to 10 input via 1 to 209
a data collection unit 30 that collects measurement data from 9;
1, a data storage unit 302 that stores data collected by the data collection unit 301, a voice synthesis circuit 401 that converts the current weather conditions obtained through the processing of the microcomputer 3 into voice information, and a voice assembled by the voice synthesis circuit 401. A network for controlling the connection between the voice information storage circuit 402 for storing the current weather report and the communication line 5 such as a subscriber telephone line, and controlling the transmission of the current weather report stored in the voice information storage circuit 402 to the communication line 5. It is comprised of an audio information sending unit 4 consisting of a work control circuit 403, a printer 6 that prints out measurement data from the measuring instruments 101 to 109, current weather reports, etc. sent to the communication line 5, and the like.

The communication line 5 connected to this system is a subscriber telephone line if there are an unspecified number of users of the current weather report, but if the users are specified, a dedicated line or wireless line can also be used. It is. Note that the following explanation will be based on an example in which the communication line 5 is a subscriber telephone line.

The measurement data from each of the measuring instruments 101 to 109 is converted by each converter 201 to 209 into a signal form (BCD signal or some kind of analog signal) suitable for processing by the microcomputer 3, and is input to the microcomputer 3. In the microcomputer 3, a data collection unit 301 collects measurement data from each of the converters 201 to 209 at fixed time intervals (for example, every 30 seconds), and the data is stored in a data storage unit 302.
The measurement data is stored in .

The measurement data is stored in the data storage unit 302 by updating old measurement data to new measurement data.
2 always stores the latest measurement data, but in the current weather determination process shown in FIG.
Regarding precipitation and sunshine hours, data going back one hour from the current time (when the current weather report of the audio information storage circuit 402 is updated, which will be described later) is required, so at least the precipitation data from the rain gauge 104 and the sunlight gauge 10 are required.
The sunshine data from 6 is retained in the data storage unit 302 for at least one hour after being stored. That is, the storage portion of the data storage unit 302 for storing the precipitation data and sunshine data has at least one
It is composed of, for example, a shift register having a data storage capacity for an hour, and is shifted when new data is input so that the data from one hour ago disappears and the new data is stored. In this way, regarding precipitation data and sunshine data, data for the past hour going back from the time when the content of the current weather report was updated is always held in the data storage unit 302.

Although the past measurement data disappears as described above, it is possible to save the measurement data by printing it out using the printer 6 before it disappears, and these saved measurement data are used in the present invention. can be used for various types of weather information that are not directly related (for example, weather analysis to contribute to agriculture in the area).

The current weather determination process shown in FIG. 2 requires precipitation data, rainfall intensity data, minimum visibility data, wind speed data, sunshine hours data, and humidity data.The precipitation data is from the rain gauge 104, and the rainfall intensity data is from the rainfall The shortest visibility data is obtained from the intensity meter 105, the shortest visibility data is obtained from the visibility meter 108, and the wind speed data is obtained from the anemometer 10.
1, sunlight data is output from the sunlight meter 106, and humidity data is calculated by the microcomputer 3 based on the temperature data from the thermometer 102, the dew point temperature data from the dew point meter 103, and the atmospheric pressure data from the barometer 109. Each measurement data is stored in the data storage unit 302 at regular time intervals through the above processing.

Based on each measurement data stored in the data storage unit 302, the microcomputer 3 performs the measurement every set time (for example, 10
The current weather determination process shown in FIG. 2 is performed every minute). To explain an example of this determination process, first, it is determined from the rainfall data in the data storage unit 302 whether or not there has been precipitation within the past 30 minutes (within 30 minutes before the time of the determination process). If this determination is "NO", then it is determined from the visibility data in the data storage unit 302 whether the shortest visibility is less than 5 km. If this determination is "NO", then it is determined whether the current time is outside the sunshine hours. Note that the sunshine hours here refers to the time period from sunrise to sunset, and varies depending on the location and period where this system is installed, but the sunshine hours can be determined using the numeric keypad attached to the microcomputer 3. This can be done in minutes by inputting . In the example, the sunshine hours are from April to September.
From 7:00 to 18:00 in January, from 8:00 to 17:00 from October to March
Each time is set.

When determining whether it is a sunshine period or not, if it is determined as “YES”, the sunshine duration for the past hour is calculated based on the sunshine data in the data storage unit 302. If it is determined that the sunshine hours are, for example, 80% or more, the microcomputer 3 ultimately determines that the current weather is "clear and sunny."

As is clear from the above, when determining the current weather,
The current measurement data obtained by continuously measuring various meteorological elements, and the new accumulated measurement data for a certain period of time going back to the current time obtained by shifting and accumulating the measurement data for each weather summary. The data is kept at all times, and judgments are made based on the combination of the measurement data.

Since the process for outputting determinations other than those described above can be easily understood from FIG. 2, a text explanation will be omitted.

The current weather finally determined as described above (judgment indicated by the double frame 〓〓 in Fig. 2) and various meteorological element measurement data in the data storage unit 302 (for example, wind direction data, wind speed data, temperature data, etc.), the microcomputer 3 assembles the current weather report by voice and stores it in the voice information transmitter 4. That is,
The speech synthesis circuit 401 stores various words to be inserted into the variable part (format frame section to be described later) of the current weather report, and when the current weather report is updated (the update is based on the setting that determined the current weather). ), the above words are selected based on the current weather judgment shown in FIG. Assemble the information. In other words, to give one example: ``In the XX region, the north wind is 3 meters, the weather is rainy, visibility is slightly poor, the temperature is 20 degrees, and the humidity is 60 degrees.
%, the rainfall is 5 mm per hour. " become that way. In this format, the frame 〓〓 portion indicates a variable portion, and the other portions indicate a fixed portion.

Since the weather information described above is updated every set time, for example every 10 minutes, the latest information is always stored in the audio information transmitter 4.

Furthermore, based on the various data obtained as described above, it is also possible to create live weather reports on land using the international weather report format.

When a user wants to know the current weather conditions in a remote location, he dials the phone number of the system installed in the remote location from his own telephone, and the system is connected to the network of the audio information transmitter 4 of the system via the subscriber telephone line 5. A calling signal arrives at control circuit 403 .

The network control circuit 403 automatically answers the call generated as described above, and sends the current weather report to the user via the subscriber telephone line 5. That is, the current weather information stored in the audio information storage circuit 402 is sent to the subscriber telephone line 5 via the network control circuit 403, so that the user can receive the current weather conditions at the remote location via the subscriber telephone. can be known instantly.

〔Effect of the invention〕

As described above, the present invention is capable of measuring various meteorological elements, determining the current weather through computer processing, and creating a land-based live weather report based on the international weather report format.

Furthermore, the device assembles current weather information including the current weather by voice synthesis, and stores this in the voice information storage unit while updating old data at set times, and is connected to the voice information storage unit. By automatically answering calls to a communication line and sending out current weather reports, users can instantly and objectively know the current weather conditions in remote areas. This means that the base can immediately and at any time know the current weather conditions as operational data for airports, expressways, dam sides, etc. where there are no weather observers, and can also connect to a computer and automatically issue various operational instructions. It has the effect of

In addition, parts each consisting of the measuring instruments 101 to 109 and the converters 201 to 209 are installed at multiple points in a certain range of areas, for example, one town or village,
If the part consisting of the microcomputer 3, audio information transmitter 4, and printer 6 is installed at the town or village office, users can call the town or village office to find out the current weather conditions within one town or village. It is also possible to

[Brief explanation of drawings]

FIG. 1 is a block diagram of a current weather information automatic reporting system according to an embodiment of the present invention, and FIG. 2 is a flowchart showing current weather determination processing. 101 to 109...Each meteorological element measuring device, 201
~209...Each meteorological element converter, 3...Microcomputer unit (microcomputer), 301...
Data collection unit, 302... Data storage unit, 4...
Audio information sending unit, 401...Speech synthesis circuit, 40
2...Audio information storage circuit, 403...Network control circuit, 5...Communication line (subscription telephone line),
6...Printer.

Claims (1)

[Claims] 1. Current measurement data obtained by continuously measuring various weather elements, and data for a certain period of time going back to the current time obtained by shifting and accumulating measurement data for each weather element. Based on the combination of the stored measurement data, the current weather is determined every time a determination time determined at a set time interval arrives, and the current weather is determined at the previous determination time. An automatic current weather judgment method that maintains the latest current weather information at all times by updating the judgment result with the judgment result at a new judgment time. 2 Various measuring instruments that continuously measure various meteorological elements, a data collection unit that collects measurement data from the various measuring instruments, and the above-mentioned data while shifting current measurement data and already accumulated measurement data. A combination of a data storage unit that holds measurement data for a certain period of time going back to the current time for each weather element obtained by accumulating new measurement data collected by the collection unit, and the data held in the data storage unit. a microcomputer that determines the current weather based on the arrival of a determination time determined at a set time interval; a speech synthesis unit that synthesizes the determination result of the microcomputer into speech; An audio information storage unit that always maintains the latest current weather information by updating the information with new current weather information sent from the audio synthesis unit; and a network control that connects a communication line to the audio information storage unit. Automatic judgment and reporting system for current weather conditions.