JP2020167599A - Wireless receiver, transmitter station identification method, and transmitter station identification program - Google Patents

Abstract

To easily identify a transmitter station from a received Morse code.SOLUTION: A wireless receiver (1) receives a Morse code. The wireless receiver (1) includes: a CW decoding unit (62) for detecting a frequency of the received Morse code; a station identification unit (64) for identifying a transmitter station transmitting the Morse code being received by determining whether the detected frequency matches a transmission frequency of a known station that transmitted the Morse code received by the wireless receiver (1); and a character string display processing unit (71) for notifying the result of the identification of the transmitter station.SELECTED DRAWING: Figure 1

Description

The present invention relates to a wireless receiver that receives Morse code.

For example, Patent Document 1 discloses that a Morse code received by a receiver that receives an unmodulated continuous wave (CW) is decoded and converted into characters, and the converted characters are displayed.

Japanese Unexamined Patent Publication No. 56-6995 (published on June 11, 1981)

In a wireless communication device that converts Morse code into characters and displays them as described above, when communicating with several transmitting stations, the displayed character strings are listed regardless of the transmitting station, so some characters are displayed. It is not possible to determine the transmitting station that transmitted the Morse code just by looking at the line. Therefore, the user estimates each transmitting station from the contents of the character string.

One aspect of the present invention is to easily identify a transmitting station from a received Morse code.

In order to solve the above problems, the wireless receiver according to one aspect of the present invention is a wireless receiver that receives a Morse signal, and is detected by a frequency detection unit that detects the frequency of the received Morse signal. The transmitting station transmitting the receiving Morse signal by determining whether or not the frequency matches the transmission frequency of the known station which is the known transmitting station that transmitted the Morse signal received by the wireless receiver. It is provided with a station discrimination unit for discriminating the frequency and a notification unit for notifying the result of discriminating the transmitting station.

In order to solve the above problems, the transmitting station determination method according to one aspect of the present invention includes a frequency detection step of detecting the frequency of the Morse code received by the wireless receiver, and the detected frequency is transmitted to the wireless receiver. A station determination step for determining a transmitting station transmitting a receiving Morse code by determining whether or not it matches the transmission frequency of a known station that is a known transmitting station that transmitted the received Morse code. , A notification step for notifying the result of determining the transmitting station is included.

According to the above configuration, the transmitting station can be easily identified based on the frequency detected from the currently received Morse code.

The wireless receiver further includes a first registration unit that registers a new transmission station and a transmission frequency of the transmission station in the storage unit, and the station discrimination unit has registered the detected frequency. By determining whether or not the transmission frequency matches the transmission frequency associated with at least one of the known stations, the transmitting station transmitting the Morse signal being received is determined, and the second registration unit detects the transmission station. When the frequency performed does not match the transmission frequency of at least one known station, the transmission station may be registered in the storage unit in association with the transmission frequency.

According to the above configuration, at least one transmitting station can be identified based on the detected frequency.

The wireless receiver further includes a keying speed detection unit that detects the keying speed from the received Morse code, and when the station discrimination unit determines that the detected frequency is the transmission frequency of the known station, the radio receiver further includes a keying speed detection unit. , Even if the transmitting station transmitting the Morse code being received is determined by determining whether or not the detected keying speed is the keying speed detected from the Morse code transmitted by the known station. Good.

According to the above configuration, the transmitting station can be easily identified based on the keying speed detected from the currently received Morse code.

The wireless receiver further includes a second registration unit that registers a new transmitting station and the keying speed of the transmitting station in the storage unit, and the station determination unit registers the detected keying speed. By determining whether or not the keying speed matches the keying speed associated with at least one of the known stations, the transmitting station transmitting the Morse code being received is determined, and the second registration unit determines the transmitting station. When the detected keying speed does not match the keying speed of at least one known station, the transmitting station may be registered in the storage unit in association with the keying speed.

According to the above configuration, at least one transmitting station can be identified based on the detected keying speed.

The wireless receiver further includes a conversion unit that converts the received Morse signal into character code data, and a character string display unit that displays a character string based on the converted character code data. , The display form of the character string may be different depending on the determined transmitting station.

According to the above configuration, the user can visually recognize that the transmitting station has changed due to the change in the display form of the character string.

In the wireless receiver, the display form may be a display color.

According to the above configuration, it is possible to recognize that the state of the character string has changed more impressively because the display color of the character string has changed. As a result, it is possible to more easily recognize that the transmitting station has changed.

In the wireless receiver, the display form may be a font.

According to the above configuration, it is possible to recognize that the state of the character string has changed more impressively because the display color of the character string has changed. As a result, it is possible to more easily recognize that the transmitting station has changed.

In the wireless receiver, the display form may be a line feed.

According to the above configuration, it is possible to recognize that the transmitting station has changed by breaking the character string.

The wireless receiver according to one aspect of the present invention may be realized by a computer. In this case, there is also a transmission station discrimination program that realizes the wireless receiver in the computer by operating the computer as the frequency detection unit, the station discrimination unit, and the notification unit (software element) included in the wireless receiver. , Falls into the category of the present invention.

According to one aspect of the present invention, the transmitting station can be easily identified from the received Morse code.

It is a block diagram which shows the structure of the receiving system in the transceiver which concerns on one Embodiment of this invention. It is a flowchart which shows the processing procedure of station discrimination by the station discrimination part in the said transceiver.

[Embodiment]
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

<Transceiver configuration>
FIG. 1 is a block diagram showing a configuration of a receiving system in the transceiver 1 according to the present embodiment.

As shown in FIG. 1, the transceiver 1 (wireless receiver) includes an antenna 2, an RF amplifier 3, a mixer 4, an IF filter 5, a digital signal processing circuit 6, a CPU (Central Processing Unit) 7, and the like. It is provided with a character string display unit 8.

The RF amplifier 3 amplifies the RF signal received by the antenna 2. The mixer 4 converts the RF signal from the RF amplifier 3 into an intermediate frequency IF signal. The IF filter 5 removes interfering waves from the IF signal.

The digital signal processing circuit 6 is a circuit that performs various processes on an IF signal (Morse code) that has passed through the IF filter 5. The digital signal processing circuit 6 is composed of a DSP (Digital Signal Processor), an FPGA (Field Programmable Gate Array), and the like in order to perform such processing. The digital signal processing circuit 6 includes a demodulation unit 61, a CW decoding unit 62 (keying speed detection unit, conversion unit), a frequency counting unit 63 (frequency detection unit), and a station discrimination unit 64 (first registration unit, second). It has a registration unit) and a memory 65 (storage unit).

The demodulation unit 61 demodulates the input Morse code into an audio signal by a predetermined demodulation method. The demodulation unit 61 converts the Morse code into an audio signal by mixing signals of a signal generator (BFO: Beat Frequency Oscillator) having a frequency close to the frequency of the received signal and performing processing such as generating a beat. Convert. This audio signal is amplified by an amplifier (not shown) and further output as audio by a speaker (not shown).

The CW decoding unit 62 converts the input Morse code into character code data. More specifically, the CW decoding unit 62 distinguishes between the long points and the short points of the Morse code, analyzes the arrangement of the long points and the short points, and refers to the dictionary based on the analysis result. , Output the corresponding character code data.

Further, the CW decoding unit 62 detects the keying speed, which is the communication speed of the input Morse code. The CW decoding unit 62 represents the presence or absence of the Morse code in the Morse code by a pulse signal consisting of “1” and “0”, respectively, obtains a timing at which the pulse in the pulse signal changes, and performs pulse count detection at that timing. Detects the keying speed by. The CW decoding unit 62 outputs a digital value of the detected keying speed.

The frequency counting unit 63 counts the frequency of the input Morse code and outputs a digital value of the frequency. Further, the frequency counting unit 63 detects a deviation (frequency deviation) between the reception frequency set for reception in the transceiver 1 and the frequency of the Morse code, and uses the frequency deviation as autotune data used for autotune processing. Output as.

The station determination unit 64 determines the transmitting station being received based on the change in the keying speed from the CW decoding unit 62. Further, the station discrimination unit 64 discriminates the transmitting station during reception based on the change in frequency from the frequency counting unit 63. The station discrimination unit 64 outputs the discrimination result based on the change in the keying speed and the discrimination result based on the change in the frequency as station discrimination signals, respectively.

The memory 65 uses the keying speed detected by the CW decoding unit 62 and the frequency (transmitting station) detected by the frequency counting unit 63 for the transmitting station that has already received the Morse code (identification code given to the transmitting station, which will be described later). It is stored in association with the frequency of).

The CPU 7 is a control device that controls each part of the transceiver 1. The CPU 7 has a character string display processing unit 71 (notification unit) and an autotune processing unit 72 as a receiving system of the transceiver 1. The character string display processing unit 71 and the auto-tune processing unit 72 are functional blocks realized by the CPU 7 executing a predetermined program, respectively.

The character string display processing unit 71 outputs character string display data (character string display data) to the character string display unit 8 based on the character code data from the CW decoding unit 62. Further, the character string display processing unit 71 changes the display form of the character string according to the discriminated transmitting station based on the station discriminating signal from the station discriminating unit 64, thereby transmitting the discriminating result of the transmitting station to the user. Notify. Examples of the display form to be changed include display colors, fonts, and line breaks.

When the character code data is saved as a log, the CPU 7 saves the file in a different format for each transmitting station. Examples of the file format include a rich text format and an HTML (Hyper Text Markup Language) format.

The autotune processing unit 72 adjusts the frequency (transmission frequency) of the transmitting station so as to match the reception frequency based on the autotune data from the frequency counting unit 63.

The character string display unit 8 displays a character string based on the character string display data output from the character string display processing unit 71.

<Station discrimination operation>
FIG. 2 is a flowchart showing a processing procedure for station discrimination by the station discrimination unit 64 in the transceiver 1.

First, the station determination unit 64 determines whether or not there is character code data that has not been transmitted from the CW decoding unit 62 (step S1). While the keying speed is being output from the CW decoding unit 62, there is a Morse code to which the character code data should be transmitted. Therefore, the station determination unit 64 can determine that the character code data exists due to the existence of the keying speed.

When the station determination unit 64 determines in step S1 that there is untransmitted character code data (YES), the frequency (transmission frequency) of the registered transmitting station stored in the memory 65 and the currently received transmission are transmitted. It is determined whether or not the frequency of the station matches (step S2).

The transmitting station that has already been received by the transceiver 1 is registered as a known station in the memory 65 together with the transmitting frequency as described later. Therefore, if at least one transmitting station is registered, the station determining unit 64 determines whether or not the transmission frequencies of all the registered transmitting stations match the frequencies of the transmitting stations currently being received. To judge.

When the station determination unit 64 determines in step S2 that the frequency of the registered transmitting station and the frequency of the currently receiving transmitting station match (YES), the transmitting station determined to match is stored in the memory 65. It is determined whether or not the registered keying speed and the current keying speed detected by the CW decoding unit 62 match (step S3).

The keying speed is also registered together with the transmitting station as well as the transmitting frequency. Therefore, if at least one transmitting station is registered, the station determination unit 64 determines whether or not the keying speeds of all the registered transmitting stations match the detected keying speeds.

When the station discrimination unit 64 determines in step S3 that the registered keying speed and the current keying speed match (YES), the station discrimination unit 64 sets a station discrimination signal to the transmitting station that has determined that the frequency and the keying speed match. (Step S4), the process returns to step S1.

The transmitting stations registered in the memory 65 are assigned identification codes in the order of registration. Therefore, the station discrimination unit 64 creates the setting information by associating the information of the station discrimination signal with the identification code, and registers the setting information by storing the setting information in the memory 65.

When the processing after step S1 is repeated again by registering the setting information, the station discrimination unit 64 performs a processing for determining whether or not the station discrimination signal of the setting information can be recognized after step S1. You may. Then, when the station discrimination unit 64 can recognize the station discrimination signal of the setting information, it may determine that the transmitting station has already been discriminated and omit the processing of steps S2 to S4.

The station discrimination signal is a signal composed of a unique code, but the form of the station discrimination signal is not limited to such a signal. Further, a predetermined number of station discrimination signals are prepared in advance, and may be individually associated with display colors and fonts described later.

When the station determination unit 64 determines in step S2 that the frequency of the registered transmitting station and the frequency of the currently receiving transmitting station do not match (NO), the station determining unit 64 creates registration information of a new transmitting station (step). S5). Further, when the station determination unit 64 determines in step S3 that the registered keying speed does not match the current keying speed detected by the CW decoding unit 62 (NO), the station determination unit 64 also registers a new transmitting station. Create information (step S5).

The transmission frequency and keying speed of the transmitting station may change after a series of communications. Therefore, the registration information of the transmitting station may be temporarily stored. For example, the number of registered transmission stations that can be registered in the memory 65 is specified in advance, and when the number of registered transmission stations exceeds the specified number, the oldest registered information is deleted in order. Alternatively, some or all of the registered information may be deleted when the power of the transceiver 1 is turned off.

The station discrimination unit 64 newly assigns the above identification code to a new transmission station as the main data of the registration information, and adds the frequency of the transmission station acquired from the frequency counting unit 63 and the CW decoding unit to the identification code. Registration information is created in association with the keying speed acquired from 62. In the registration information, the identification code represents a new transmitting station.

Then, the station discrimination unit 64 sets the station discrimination signal to the new transmitting station for which the registration information has been created as described above to create the setting information (step S6), and returns the process to step S1.

In the above-mentioned processing procedure, the transmitting station is determined through the processing of steps S2 and S3, but the transmitting station is determined only by the processing of step S2 by comparing the registered frequency with the current frequency. May be good. In this case, step S3 by comparing the registered keying speed with the current keying speed is omitted. Therefore, in steps S4 and S6, the station discrimination unit 64 sets the station discrimination signal to the transmitting station only based on the frequency match, and in step S5, the frequency frequency of the transmitting station acquired from the frequency counting unit 63. Create registration information by associating only with the identification code.

<Character string display operation>
The character string display processing unit 71 converts the character code data acquired from the CW decoding unit 62 into character string display data based on the station discrimination signal from the station discrimination unit 64. Further, the character string display processing unit 71 adds display form information for specifying the display form to the character string display data, and outputs the character string display processing unit 71 to the character string display unit 8. Examples of the display form information include display colors, fonts, and line breaks.

When the character string display processing unit 71 adds a display color to the character string display data as display form information, the character string display processing unit 71 refers to a table in which a predetermined number of station discrimination signals and a plurality of different display colors are individually associated with each other. Then, the display color corresponding to the input station discrimination signal is specified.

When the character string display processing unit 71 adds a font to the character string display data as display form information, the character string display processing unit 71 refers to a table in which a predetermined number of station discrimination signals and a plurality of different fonts are individually associated with each other. Identify the font corresponding to the input station discrimination signal.

When the character string display processing unit 71 adds a line feed to the character string display data as display form information, the character string display processing unit 71 adds a line feed code to the character string display data at the timing when the input station discrimination signal changes to another station discrimination signal. ..

The character string display unit 8 displays a character string based on the character string display data to which the display form information is added as described above.

When the display color of the character string is changed according to the transmitting station, the station discrimination signal also changes when the transmitting station changes. Therefore, the character string display data of the display color corresponding to the station discrimination signal is output to the character string display unit 8. Will be done. As a result, the character string display unit 8 displays the character string by changing the display color each time the transmitting station changes.

When the font of the character string is changed according to the transmitting station, when the transmitting station is changed, the character string display data of the font corresponding to the station discrimination signal is output to the character string display unit 8. As a result, the character string display unit 8 displays the character string by changing the font each time the transmitting station changes.

When a character string is broken according to the transmitting station, when the transmitting station changes, the character string display data in which the line feed code is inserted is output to the character string display unit 8 at the timing when the station discrimination signal changes. As a result, the character string display unit 8 starts a new line every time the transmitting station changes.

<Effect of transceiver>
The transceiver 1 according to the present embodiment transmits a frequency counting unit 63 that detects the frequency of the received Morse code and a known station whose detected frequency is a known transmitting station that transmits the Morse code received by the transceiver 1. A station discrimination unit 64 that determines a transmitting station that is transmitting a Morse code being received by determining whether or not it matches the frequency, and a character string display processing unit 71 that notifies the result of determining the transmitting station. It has.

According to the above configuration, the transmitting station can be easily identified based on the frequency detected from the currently received Morse code. As a result, appropriate measures can be taken.

In the operation of amateur radio, it is common to receive the communication of two stations that have already been performed and call one station after the communication is completed, except that the communication is started by issuing CQ by itself. In such a situation, if the two stations in communication can be discriminated, it is possible to easily recognize that the communication has ended, so that the call can be made smoothly. Further, even when listening to communication between other stations without performing transmission, if the two stations can be discriminated, the content of communication can be easily understood.

The station discrimination unit 64 determines whether or not the frequency detected by the frequency counting unit 63 matches the transmission frequency associated with at least one registered known station, thereby determining whether or not the frequency detected by the frequency counting unit 63 matches the transmission frequency associated with each of the registered Morse codes. Determine the transmitting station that is transmitting. Further, when the detected frequency does not match the transmission frequency of the known station, the station discrimination unit 64 registers the transmission station in the memory 65 in association with the transmission frequency.

According to the above configuration, at least one transmitting station can be identified based on the detected frequency.

The CW decoding unit 62 detects the keying speed from the received Morse code. Further, when the station discrimination unit 64 determines that the detected frequency is the transmission frequency of the known station, the detected keying speed is the keying speed detected from the Morse code transmitted by the known station. By determining whether or not, the transmitting station transmitting the Morse code being received is determined.

According to the above configuration, the transmitting station can be easily identified based on the keying speed detected from the currently received Morse code.

The station determination unit 64 determines whether or not the keying speed detected by the CW decoding unit 62 matches the keying speed associated with at least one registered known station, thereby determining whether or not the keying speed during reception is the same as the Morse code being received. Determine the transmitting station that is transmitting the signal. Further, when the detected keying speed does not match the keying speed of a known station, the station determination unit 64 registers the transmitting station in the memory 65 in association with the keying speed.

According to the above configuration, at least one transmitting station can be identified based on the detected keying speed.

The transceiver 1 includes a CW decoding unit 62 that converts the received Morse code into character code data, and a character string display unit 8 that displays a character string based on the converted character code data. Further, the character string display processing unit 71 changes the display form of the character string according to the determined transmission station.

According to the above configuration, the user can visually recognize that the transmitting station has changed due to the change in the display form of the character string.

The display form may be a display color. As a result, it is possible to recognize that the state of the character string has changed more impressively because the display color of the character string has changed. Therefore, it is possible to more easily recognize that the transmitting station has changed.

Moreover, the display form may be a font. As a result, it is possible to recognize that the state of the character string has changed more impressively because the display color of the character string has changed. Therefore, it is possible to more easily recognize that the transmitting station has changed.

Moreover, the display form may be a line break. By breaking the character string, it is possible to recognize that the transmitting station has changed, compared to the conventional wireless receiver equipped with a Morse code decoding function that simply displays the characters in a row. .. In addition, a line feed can be realized simply by inserting a line feed code into the character code data for displaying the character string. As a result, not only the amount of display data can be suppressed, but also the display color and font data need not be retained, and the increase in the amount of stored data can be suppressed.

[Example of realization by software]
The control block of the transceiver 1 (particularly, the CW decoding unit 62, the frequency counting unit 63, the station discrimination unit 64, and the character string display processing unit 71) is realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like. It may be realized by software.

In the latter case, the transceiver 1 includes a computer that executes instructions of a program (including a transmission station determination program) that is software that realizes each function. This computer includes, for example, one or more processors (processors constituting the digital signal processing circuit 6 and CPU 7), and also includes a recording medium that can be read by a computer that stores the program.

Then, in the computer, the processor reads the program from the recording medium and executes it, thereby achieving the object of the present invention. As the recording medium, in addition to a "non-temporary tangible medium" such as a ROM (Read Only Memory), a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. Further, a RAM (Random Access Memory) for expanding the above program may be further provided.

The program may be supplied to the computer via an arbitrary transmission medium (communication network, broadcast wave, etc.) capable of transmitting the program. It should be noted that one aspect of the present invention can also be realized in the form of a data signal embedded in a carrier wave, in which the program is embodied by electronic transmission.

[Additional notes]
The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the embodiments obtained by appropriately combining the technical means disclosed in the different embodiments. Is also included in the technical scope of the present invention.

1 Transceiver (wireless receiver)
8 Character string display unit 62 CW decoding unit (keying speed detection unit, conversion unit)
63 Frequency count unit (frequency detection unit)
64 station discrimination unit (1st registration unit, 2nd registration unit)
65 Memory (storage unit)
71 Character string display processing unit (notification unit)

Claims (10)

A wireless receiver that receives Morse code
A frequency detector that detects the frequency of the received Morse code,
By determining whether or not the detected frequency matches the transmission frequency of a known station that is a known transmitting station that transmitted the Morse code received by the radio receiver, the Morse signal being received is transmitted. A station discriminator that discriminates the transmitting station and
A notification unit that notifies the result of determining the transmitting station, and
The wireless receiver equipped with. It further includes a first registration unit that registers a new transmission station with the transmission frequency of the transmission station in the storage unit.
The station discriminating unit transmits the Morse code being received by determining whether or not the detected frequency matches the transmission frequency associated with at least one registered known station. Determine the transmitting station that is
The first registration unit according to claim 1, wherein when the detected frequency does not match the transmission frequency of at least one known station, the transmission station is associated with the transmission frequency and registered in the storage unit. The wireless receiver described. It also has a keying speed detector that detects the keying speed from the received Morse code.
When the station discriminating unit determines that the detected frequency is the transmission frequency of the known station, the detected keying speed is the keying speed detected from the Morse code transmitted by the known station. The wireless receiver according to claim 1 or 2, wherein the transmitting station that is transmitting the Morse code being received is determined by determining whether or not the signal is being received. Further provided with a second registration unit that registers a new transmission station with the keying speed of the transmission station in the storage unit.
The station discriminating unit transmits the Morse code being received by determining whether or not the detected keying speed matches the keying speed associated with at least one registered known station. Determine the transmitting station that is
3. The second registration unit registers the transmitting station in the storage unit in association with the keying speed when the detected keying speed does not match the keying speed of at least one known station. The wireless receiver described in. A conversion unit that converts the received Morse code into character code data,
A character string display unit that displays a character string based on the converted character code data,
With more
The wireless receiver according to any one of claims 1 to 4, wherein the notification unit has a different display form of a character string depending on the determined transmitting station. The wireless receiver according to claim 5, wherein the display form is a display color. The wireless receiver according to claim 5, wherein the display form is a font. The wireless receiver according to claim 5, wherein the display form is a line feed. A transmission station discrimination program for causing a computer to function as the frequency detection unit, the station discrimination unit, and the notification unit in the wireless receiver according to any one of claims 1 to 8. A frequency detection step that detects the frequency of the Morse code received by the wireless receiver, and
By determining whether or not the detected frequency matches the transmission frequency of a known station that is a known transmitting station that transmitted the Morse code received by the radio receiver, the Morse signal being received is transmitted. Station determination step to determine the transmitting station and
A notification step that notifies the result of determining the transmitting station, and
Transmission station determination method including.

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