JP3934223B2 - Diving computer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a diving computer that calculates a dive time during diving such as scuba diving.
[0002]
[Prior art]
In diving using compressed air, such as scuba diving, breathing is performed using air at the same high pressure as the water pressure, so nitrogen in the air, which is inert at normal pressure, dissolves in the blood. If the amount of dissolved nitrogen exceeds a certain level, it can cause diving diseases. When more than a certain amount of nitrogen dissolves in the blood, a “reduced pressure” is required to release the nitrogen in the blood at a shallow depth.
[0003]
On the other hand, in leisure diving, no decompression diving that does not require decompression is required. The amount of nitrogen to dissolve is determined by the partial pressure of nitrogen and the time of absorption of nitrogen at that partial pressure, but the partial pressure, that is, the diving depth changes every moment, so the integrated value of nitrogen absorption from the start of diving to the present is calculated in real time. It is necessary to keep calculating.
[0004]
This calculation is performed by a so-called diving computer. As shown in FIG. 25, the diving computer sequentially detects the water pressure by the water pressure sensor 1 and measures the diving time by the diving time timer 2, and provides the diving information calculation unit 3 with information on the water pressure and the diving time. The diving information calculation unit 3 has a function of calculating the remaining dive time at the depth from the current nitrogen absorption amount and the diving depth based on the water pressure and the diving time, and a function of detecting an ascent rate that is too fast. The diving computer also has a function of holding each diving information obtained from the diving information calculation unit 3 in the log holding unit 4 and displaying the diving information on the display 5 to inform the diver of a non-decompression dive time.
[0005]
Depending on the model, the remaining pressure of the compressed air in the tank detected by the remaining pressure sensor 6 is used to determine the time during which the diving information calculation unit 3 can breathe from the amount of remaining air in the tank, the diving depth, and the respiration rate. It has a function of calculating and comparing with the above-described no-decompression diving possible time and transmitting the remaining diving possible time via the display 5.
[0006]
This function provides accurate information for calculating the remaining dive time from both the accumulated nitrogen absorption amount and the actual remaining air amount. However, in general, the function of detecting the residual pressure of the compressed air needs to connect the tank and the diving computer with a tube and is inferior in portability. In addition, some models are equipped with a transmitter in the tank and send the residual pressure information of the compressed air to a receiver such as a wristwatch type by radio waves, so that accurate information can be obtained and portability is excellent There is.
[0007]
By the way, in scuba diving, a buddy system system in which two people diving is adopted. The buddy system is a system that prevents each other's opponents from being called buddy (buddy) and taking care of them while diving.
[0008]
In a buddy system, a diver needs to know the remaining amount of air, fatigue state, mental state, etc. in order to always grasp the state of his / her buddy. In particular, running out of air still accounts for many diving accidents, and a solution is desired. At present, the only way to know the buddy's diving information is to signal the buddy and tell him by hand signal, or swim near the buddy and look at the display. The remaining dive time displayed by the diving computer is basically the remaining time of the user himself / herself, and it is impossible for another person to dive using the remaining time. This is because even when diving in the same manner, the depth and respiration amount are different for each person, and the diving time is different for each person. Therefore, the remaining dive time of the buddy cannot be estimated from the remaining dive time of the self and needs to be confirmed.
[0009]
[Problems to be solved by the invention]
As described above, the diving computer has a problem that it is difficult for anyone other than the user to check the diving information. For example, in order for other people to know the diving information, they have to be taught by hand signals or swim near the buddy and look at the display.
[0010]
Particularly in Japan, a diving style in which a plurality of buddies are grouped and led by an instructor or a guide diver is common in the buddy system system. In this case, instructors such as instructors and guide divers have a very important responsibility and need to accurately grasp the status of all the divers in the group.
[0011]
However, the leader only has to signal the group's divers and exchange diving information with hand signals and gestures to grasp the status of all divers. However, in the case of hand signals and gestures, there is a problem that the request cannot be transmitted unless the other party pays attention to the lead. For example, in the case of exchanging with a partner by a hand signal or the like, it is necessary to first give a signal to make the lead person pay attention. However, there is almost no signal means, for example, a method of hitting a metal tank with a knife or stone is the main method.
[0012]
The present invention has been made in consideration of the above circumstances, and an object thereof is to provide a diving computer that can notify diving information such as residual pressure and dive remaining time to a buddy and a lead person and improve the safety of diving. And
[0013]
Another object of the present invention is to provide a function for displaying or transmitting a will display and diving information necessary during diving to buddies and divers in a group. An object of the present invention is to provide a diving computer capable of easily realizing communication.
[0014]
[Means for Solving the Problems]
The invention corresponding to claim 1 is a diving computer capable of displaying and / or transmitting information necessary for diving as a message, and group ID setting in which ID information corresponding to other devices in the same group is set. Means, receiving a signal transmitted from another device, generating a received signal corresponding to this signal, and extracting the ID information of the transmission source from the received signal generated by the receiving means, It is determined whether or not the ID information of the transmission source matches any ID information in the group ID setting unit, and when the determination result matches, the ID identification unit that transmits the received signal and the ID identification unit Decoding means for decoding a message in the received reception signal, and output means for outputting the message decoded by the decoding means A direction storage means in which a reference direction and an allowable angle indicating a deviation from the reference direction are stored; a direction detection means for detecting a traveling direction toward which the head is directed; and a traveling direction of the self detected by the direction detection means. The direction abnormality determining means for determining whether or not the reference direction in the direction storage means is within a range shifted by an allowable angle, and as a result of the determination by the direction abnormality determining means, the own traveling direction is within the allowable angle range. A direction abnormality output means for outputting and transmitting a direction abnormality as the message when it deviates from the inside; Diving computer equipped with.
[0019]
Claims 2 The invention corresponding to 1 In the dive computer corresponding to the device direction in which the direction transmitting means for transmitting a signal including the traveling direction detected by the direction detecting means and the traveling direction indicated by the signal transmitted from the direction transmitting means of another device is stored. A diving computer having storage means.
[0020]
And claims 3 The invention corresponding to A diving computer capable of displaying and / or transmitting information necessary for diving as a message, group ID setting means for setting ID information corresponding to other devices in the same group, and transmitted from other devices. Receiving means for generating a received signal corresponding to this signal, and when the ID information of the transmission source is extracted from the reception signal generated by the receiving means, the ID information of the transmission source is the group ID. It is determined whether or not it matches any ID information in the setting means, and when the result is a match, an ID identifying means for sending the received signal and a message in the received signal sent from the ID identifying means Decryption means for decrypting; output means for outputting a message decrypted by the decryption means; Based on a signal propagating from the direction of the measurement target device, a position measurement unit that measures the position of the measurement target device and generates position information, and a signal including the position information generated by the position measurement unit are transmitted. And a position information correcting unit that corrects position information generated by its own position measuring unit based on the position information transmitted from the position information transmitting unit in the measurement target device. It is a computer.
[0021]
Claims 4 The invention corresponding to 3 In the dive computer corresponding to the above, the position information includes distance information, and the reference ID storage means for storing the ID information of the reference device and the maximum allowable distance between the reference device and itself are stored. The distance information between the reference device among the distance information indicating the distance between itself and all devices based on the allowable distance storage means and the ID information in the reference ID storage means. The distance information selection means for selecting and sending, the distance information received from the distance information selection means and the maximum allowable range in the allowable distance storage means are compared, and a warning is issued when the distance information exceeds the maximum allowable range. It is a diving computer provided with the allowable distance determination means to display and transmit.
[0022]
And claims 5 The invention corresponding to 4 The longest communication distance storage means for storing the longest distance information indicating the longest distance used for communication when there is no reception error in combination with the ID information of each device, and the transmission means Error control information adding means for adding error control information in a signal to be transmitted, reception error determining means for determining the presence or absence of reception error of the signal based on error control information in the received signal, and the error When the determination result by the determination means indicates “no error”, the longest distance information in the longest communication distance storage means is searched based on the ID information identified by the ID identification means, and the obtained longest communication distance information, Compared with the distance information indicating the current communication distance obtained from the position information correction means, when the communication distance indicated by the longest distance information is shorter than the communication distance indicated by the current distance information, ID that is identified by the ID identifying means when the detection result received from the maximum distance updating means that rewrites the longest distance information in the long communication distance storage means to the current distance information and the error judging means indicates “with error” Based on the information, the longest communication distance information in the longest communication distance storage means is searched, a standard communication distance indicating a distance shorter than the obtained longest communication distance information is calculated, and the calculated standard communication distance and position information correction When the current communication distance is longer than the standard communication distance, a warning that the two are closer to each other is output, and when the current communication distance is shorter than the standard communication distance, It is the diving computer provided with the distance determination means which outputs the warning to show.
[0023]
Claims 6 The invention corresponding to A diving computer capable of displaying and / or transmitting information necessary for diving as a message, group ID setting means for setting ID information corresponding to other devices in the same group, and transmitted from other devices. Receiving means for generating a received signal corresponding to this signal, and when the ID information of the transmission source is extracted from the reception signal generated by the receiving means, the ID information of the transmission source is the group ID. It is determined whether or not it matches any ID information in the setting means, and when the result is a match, an ID identifying means for sending the received signal and a message in the received signal sent from the ID identifying means Decryption means for decrypting; output means for outputting a message decrypted by the decryption means; The information necessary for diving includes diving depth information, and there is a permissible depth difference between the reference ID storage means for storing the ID information of the reference device and the depth of the reference device and the own depth. Received from the depth sending means, the allowable depth difference storing means to be stored, the depth information of the reference device obtained from the decoding means, and the own depth information measured by the own device. The difference between the two depth information is calculated to calculate the current depth difference, and this depth difference is compared with the allowable depth difference in the allowable depth difference storage unit. When the current depth difference is larger than the allowable depth difference, a warning is issued. Is a diving computer including an allowable depth difference determining means for outputting.
[0024]
And claims 7 The invention corresponding to 3 In the diving computer corresponding to the above, when the information necessary for diving includes depth information, and the position information includes distance information, and the signal including the opponent's depth information is received from the opponent device, the decoding means A depth difference calculating means for calculating a current depth difference by obtaining a difference between the depth information of the opponent obtained from the information and the depth information of the self measured by the device, and a partner obtained from the position information correcting means. The horizontal plane distance c = (a) based on the distance a to the device and the depth difference b obtained from the depth difference calculating means. ² -B ² ) ^1/2 And a horizontal plane distance calculating means for outputting a calculation result.
[0025]
Claims 8 The invention corresponding to A diving computer capable of displaying and / or transmitting information necessary for diving as a message, group ID setting means for setting ID information corresponding to other devices in the same group, and transmitted from other devices. Receiving means for generating a received signal corresponding to this signal, and when the ID information of the transmission source is extracted from the reception signal generated by the receiving means, the ID information of the transmission source is the group ID. It is determined whether or not it matches any ID information in the setting means, and when the result is a match, an ID identifying means for sending the received signal and a message in the received signal sent from the ID identifying means Decryption means for decrypting; output means for outputting a message decrypted by the decryption means; Based on the presence or absence of periodic signal reception at least, it detects a partner device that has become unable to communicate with itself, and transmits communication information indicating that the partner device does not receive ID information and a reception signal indicating that reception is impossible. When the ID information of the target device and a transmission signal indicating that the device cannot be received are received from the communication failure detection means of the other device, it is confirmed whether or not the device can relay to the target device. When receiving a transmission signal from the position information correction means and outputting a transmission signal indicating the distance information and relayability, and receiving a transmission signal from the relayability assertion means of each device, The distance information in the transmission signal is compared with the distance information of the target device obtained by its own relayable assertion means. When the relay activation signal is received from the relay device determining means, the reception of the transmission signal having the ID information of the device that has failed reception as the transmission source or the transmission signal having the ID information of the target device as the transmission source is received. And a relay means for retransmitting the transmitted signal without changing the content.
[0026]
(Function)
Therefore, the invention corresponding to claim 1 is provided with group ID setting means for setting ID information corresponding to other devices in the same group by taking the above-described means, and the receiving means is provided with another device. When the ID identification unit extracts the transmission source ID information from the reception signal generated by the reception unit, the transmission source ID information is obtained. It is determined whether or not it matches any ID information in the group ID setting means, and when the result is a match, the received signal is sent out, and the decoding means in the received signal sent from the ID identifying means Since the message is decoded and the output means outputs the message decoded by the decoding means, diving information such as residual pressure and remaining dive time can be notified to buddies and leaders, which improves the safety of diving. It can be. In addition, buddy and divers in the group are provided with a function to display or transmit the will display and diving information required during diving to the other device, making it easy to communicate between buddies and divers in the group. be able to.
[0030]
And claims 1 The invention corresponding to the above is provided with a direction storage means in which an allowable angle indicating a reference direction and a deviation from the reference direction is stored, the direction detection means detects a traveling direction toward which the direction is directed, and the direction abnormality determination means includes: When it is determined whether or not the traveling direction detected by the direction detecting means is within a range deviated by an allowable angle from the reference direction in the direction storing means, the direction abnormality output means determines the direction abnormality determining means. As a result, when the traveling direction of the self deviates from the range of the allowable angle, the direction abnormality is output and transmitted as a message. Initial application In addition to the operation corresponding to the first aspect, it is possible to monitor whether the self is traveling in a direction different from the traveling direction of the group.
[0031]
Claims 2 In the invention corresponding to the above, the direction transmitting unit transmits a signal including the traveling direction detected by the direction detecting unit, while the device direction storing unit indicates the traveling direction indicated by the signal transmitted from the direction transmitting unit of another device. Since it is remembered, the claim 1 In addition to the action corresponding to, it is possible to monitor whether any of the divers in the group is traveling in a direction different from the traveling direction of the group.
[0032]
And claims 3 In the invention corresponding to the above, the position measurement means generates position information by measuring the position of the measurement target device based on the signal propagating from the direction of the measurement target device, and the position information transmission means is the position measurement means. The position information correction means transmits the position information generated by its own position measurement means based on the position information transmitted from the position information transmission means in the measurement target device. Because it corrects Initial application In addition to the operation corresponding to the first aspect, the measurement result can be improved because the measurement result is corrected based on the position information measured by the measurement target device.
[0033]
Claims 4 The position information includes distance information, the reference ID storage means for storing the ID information of the reference device, and the maximum allowable distance between the reference device and itself are stored. And a distance information selection means, based on the ID information in the reference ID storage means, out of the distance information indicating the distance between itself and all the devices, the reference device The distance information is selected and transmitted, and the allowable distance determination means compares the distance information received from the distance information selection means with the maximum allowable range in the allowable distance storage means, and the distance information indicates the maximum allowable range. When exceeded, a warning is displayed and transmitted. 3 In addition to the action corresponding to the above, a warning can be issued so that the distance from the reference device is not too far.
[0034]
Claims 5 The longest communication distance storage means for storing longest distance information indicating the longest distance used for communication when there is no reception error is stored in combination with the ID information of each device, and an error control information adding means is provided. Is provided in the transmission means, adds error control information in the signal to be transmitted, and the reception error determination means determines the presence or absence of reception error of the signal based on the error control information in the received signal, When the distance update means indicates that the determination result by the error determination means indicates “no error”, the longest distance information in the longest communication distance storage means is retrieved and obtained based on the ID information identified by the ID identification means. When the communication distance indicated by the longest distance information is shorter than the communication distance indicated by the current distance information, the longest communication distance information is compared with the distance information indicating the current communication distance obtained from the position information correction means. The longest distance information in the memory means is rewritten to the current distance information, and when the determination result received by the distance determination means from the error determination means indicates “There is an error”, the ID information is identified by the ID identification means. Based on the longest communication distance information in the maximum communication distance storage means, calculate a standard communication distance indicating a distance shorter than the obtained longest communication distance information, from the calculated standard communication distance and the position information correction means Compared with the current communication distance obtained, if the current communication distance is longer than the standard communication distance, a warning that they are approaching each other is output, and if the current communication distance is shorter than the standard communication distance, a failure is indicated Will be output. 4 When an error is detected in the received information, a warning is given that the distance to the reference device is too far, and an error is detected in the received information even if it is closer than the stored standard communication distance. In doing so, it can be determined that the device has failed and a warning can be issued.
[0035]
In the invention corresponding to claim 6, the information necessary for diving includes diving depth information, reference ID storage means for storing the ID information of the reference device, and the depth of the reference device. And an allowable depth difference storage means for storing an allowable depth difference between the depth and the own depth, and the depth sending means obtains the depth information of the reference device obtained from the decoding means and the self measured by the own device. And the allowable depth difference determination means calculates the current depth difference by obtaining a difference between the depth information received from the depth transmission means, and the allowable depth difference in the allowable depth difference storage unit. And when the current depth difference is larger than the allowable depth difference, a warning is output. Initial application In addition to the operation corresponding to the first aspect, a warning can be issued so that the depth from the reference device is not too far.
[0036]
And claims 7 In the invention corresponding to the above, when the information necessary for diving includes depth information, the position information includes distance information, and when the depth difference calculation means receives a signal including the other party's depth information from the other apparatus, The current depth difference is calculated by obtaining the difference between the depth information of the opponent obtained from the decoding means and the own depth information measured by the own device, and the horizontal plane distance calculating means is obtained from the position information correcting means. The horizontal plane distance c = (a) based on the distance a to the other device to be obtained and the depth difference b obtained from the depth difference calculating means. ² -B ² ) ^1/2 And the calculation result is output. 3 Since the horizontal plane distance is known in addition to the action corresponding to, complete position information can be obtained.
[0037]
Claims 8 In the invention corresponding to the above, the communication incompatibility detecting means detects the partner device that has become unable to communicate from itself based on at least the presence or absence of periodic signal reception, and indicates the ID information indicating the partner and the inability to receive When the relayable assertion means receives the ID information of the target device and the transmission signal indicating that it cannot be received from the communication inability detecting unit of the other device, it relays itself to the target device. When the relay is possible, the distance to the target device is obtained from the position information correction means, and the distance information and a transmission signal indicating relayability are output. When the transmission signal is received by the relayable assertion part, the distance information in each transmission signal is compared with the distance information of the target device obtained by the own relayable assertion part. When showing When the relay means receives the relay activation signal from the relay apparatus determining means, the transmission signal is sent from the ID information of the apparatus that has caused the reception failure or the ID information of the target apparatus as the transmission source. When the transmission signal is received, the received signal is retransmitted without changing the contents. Initial application In addition to the operation corresponding to the first aspect, even when transmission between certain apparatuses becomes impossible, the transmission possible distance can be extended by relaying another apparatus.
[0038]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a block diagram showing a configuration of a diving computer according to the first embodiment of the present invention. The diving computer includes a receiving unit 11, a mode switching unit 12, an other device ID input control unit 13, an ID identification unit 14, an ID holding unit 15, a message decoding unit 16, a message output unit 17, a water pressure sensor 18, and a diving information calculation unit. 19, a residual pressure sensor 20, a dive time timer 21, a log holding unit 22, a transmission control unit 23, and a transmission unit 24.
[0039]
Here, the receiving unit 11 receives a signal composed of radio waves or ultrasonic waves output from another diving computer, generates a received signal corresponding to this signal, and sends the received signal via the mode switching unit 12. This is sent to the other device ID input control unit 13 or the ID identification unit 14.
[0040]
For example, as shown in FIG. 2A, the reception unit 11 includes an antenna 11a and a reception circuit 11b. The reception circuit 11b extracts radio waves received via the antenna 11a as analog signals by the demodulation circuit 11c. The analog signal is digitized by the A / D conversion circuit 11d to generate a reception signal. In addition, when receiving the signal which consists of an ultrasonic wave, the receiving part 11 uses the microphone 11e instead of the antenna 11a, as shown, for example in FIG.2 (b).
[0041]
The mode switching unit 12 connects the receiving unit 11 and the other apparatus ID input control unit 13 in the ID setting mode and sets the ID identification with the receiving unit 11 in the diving mode by setting the diving mode or ID setting mode from the outside. It has a function of connecting the unit 14.
[0042]
When the mode switching unit 12 is in the ID setting mode before diving, the other device ID input control unit 13 sends the ID information of the diving computers in the group received from the receiving unit 11 via the mode switching unit 12 to the ID holding unit 15. A control unit for writing input for writing, and a general protocol for communication control such as CSMA / CD can be used at the time of writing.
[0043]
The ID holding unit 15 has a function of holding ID information for identifying diving computers in the group input before diving by the writing process of the other device ID input control unit 13.
[0044]
When the mode switching unit 12 is in the diving mode, the ID identifying unit 16 refers to the received signal including the ID information transmitted from the receiving unit 11 via the mode switching unit 12 while diving in the group with reference to the ID holding unit 15. It has a function of determining whether or not the signal has been transmitted from the computer and transmitting the received signal to the message decoding unit 16 when the received signal is a signal transmitted from a diving computer in the group.
[0045]
The message decoding unit 16 decodes the message in the received signal received from the ID identification unit 14 and gives the decoded result to the message output unit 17.
[0046]
The message output unit 17 outputs a message using sound or display based on the decoding result received from the message decoding unit 16 and the diving information received from the diving information calculation unit 19 and the log holding unit 22. For example, a display for display can be used.
[0047]
On the other hand, the water pressure sensor 18 senses the surrounding water pressure, and provides the diving information calculation unit 19 with a water pressure signal indicating the water pressure.
[0048]
The residual pressure sensor 20 senses the residual pressure of the compressed air in the tank, and gives a residual pressure signal indicating the residual pressure to the diving information calculation unit 19.
[0049]
The diving time timer 21 measures an elapsed time from the start of diving and gives an elapsed time signal to the diving information calculation unit 19.
[0050]
The diving information calculation unit 19 inputs the water pressure signal received from the water pressure sensor, the residual pressure signal received from the residual pressure sensor, the elapsed time signal received from the diving time timer, etc., and calculates the diving information in real time. It has a function to be given to the message output unit 17, the log holding unit 22, and the transmission control unit 23. The contents of the diving information include the current nitrogen absorption amount, the diving depth, the remaining dive time, the presence / absence of too high ascent speed, the no-decompression diving time, the remaining amount of air in the tank, as described above.
[0051]
The log holding unit 22 holds the diving information received from the diving information calculation unit 19 as log information, and has a function of giving this log information to the transmission control unit 23 and the message output unit 17.
[0052]
Note that the water pressure sensor 18, the tank residual pressure sensor 20, the diving time timer 21, the diving information calculation unit 19 and the log holding unit 22 are mounted in the same manner in a conventional diving computer. However, the conventional one is different from the present invention in that the sending destination of diving information and log information is only the display for display.
[0053]
The transmission control unit 23 receives the current diving information obtained from the diving information calculation unit 19 and the past log information obtained from the log holding unit, receives a transmission request to the other diving computer input from the user, Based on these, a transmission signal is given to the transmission unit 24. Here, for example, as shown in FIG. 3, the transmission signal (and the reception signal) can be created in a format having items of transmission destination ID, transmission source ID, message type, and message content.
[0054]
The transmission destination ID designates the ID of the partner's diving computer to be transmitted. Leader or buddy IDs can be specified directly. In addition, when transmitting to all the other groups, a don't care ID is transmitted. When a transmission destination ID indicating don't care is received, the transmission source ID is analyzed to determine whether the transmission is from within the group. The transmission source ID transmits ID information of its own diving computer.
[0055]
The message type represents the type of transmission message. For example, types such as calling, emergency signal, normal signal, diving information transmission, diving information request, and the like are distinguished. The message content is, for example, when the type is an emergency signal, there is an out of air, injury, equipment failure, when the type is a normal signal, there is a dive start, ascent start, gathering, waiting, and when the type is diving information, Current depth, tank residual pressure, dive time, etc.
[0056]
The transmission unit 24 transmits a transmission signal received from the transmission control unit 23 when a transmission request is input from the outside. For example, as illustrated in FIG. 2A, the transmission unit 24 includes an antenna 11a and a transmission circuit 24a. The transmission circuit 24a transmits a transmission signal including diving information or a message provided from the transmission control unit 23 to a D / A. The conversion circuit 24b converts the signal into an analog signal, modulates the signal via the modulation circuit 24c, and supplies the antenna 11a with a transmission signal composed of radio waves. Here, when transmitting a signal composed of ultrasonic waves, the transmitting unit 24a uses a speaker 24d instead of the antenna 11a as shown in FIG.
[0057]
Next, the operation of the above diving computer will be described. As shown in FIG. 4, the ID setting mode (including the buddy ID setting mode), the diving mode, and the log output mode will be described in this order.
[0058]
(ID setting mode)
Now, it is assumed that the mode switching unit 12 is set to the ID setting mode by the operation of the operator before diving. Before this diving, ID information of each diving computer possessed by each diver in the group is stored in each other's diving computer.
[0059]
That is, as shown in FIGS. 5A and 5B, one diving computer outputs a transmission signal including ID information of the device and leader information indicating whether or not it is a leader. At this time, in all other diving computers, if the mode switching unit 12 is set in the ID setting mode in advance, the received signal transmitted from the receiving unit 11 passes through the mode switching unit 12 and the other device ID input control unit. 13 is input. The other device ID input control unit 13 writes the ID information and personal information in the received signal into the ID holding unit 15. Similarly, each diving computer sequentially outputs a transmission signal including ID information and leader information, and all other diving computers write the ID information and leader information in the received signal in the ID holding unit 15. All the diving computers share ID information with each other.
[0060]
Thereafter, as shown in FIG. 5C, the ID information of each other's diving computer and the buddy information indicating that it is a buddy are stored in the ID holding unit 15 in the same manner.
[0061]
(Dive mode)
After completing the ID setting, the mode switching unit 12 is set to the diving mode. At the time of diving, the diving information calculation unit 19 detects the ever-changing depth and residual pressure in the tank based on the detection signals received from the water pressure sensor 18 and the residual pressure sensor 20, and also obtains diving information such as the remaining time for diving. calculate. Further, the log holding unit 22 stores the diving information as log information.
[0062]
In the diving mode, the receiving unit 11 sends a reception signal from another diving computer to the ID identifying unit 14 via the mode switching unit 12. The ID identifying unit 14 analyzes the transmission destination ID and the transmission source ID in the received signal while referring to the ID information in the ID holding unit 15 and determines whether or not the transmission is for the user.
[0063]
The ID identifying unit 14 determines that the ID is intended for the user when the transmission destination ID is its own ID, the transmission destination ID is don't care (broadcast type shown in FIG. 6; for everyone), and the transmission source ID is an ID holding unit. 15 is the ID information already written in 15 (indicating a member of the same group). When it is determined that the transmission is for the user, the ID identification unit 14 sends the message part excluding the transmission destination ID information and the ID information (including the lead information or buddy information) indicating the transmission source to the message decoding unit 16. . On the other hand, when it is determined that the transmission is not directed to itself, the ID identification unit 14 discards the received signal.
[0064]
The message decoding unit 16 decodes the message type and message content from the message part received from the ID identification unit 14 and sends the decoded content and information indicating the transmission source to the message output unit 17. The message output unit 17 conveys the message content to the user using sound or display.
[0065]
When there is a transmission request from the user, the transmission control unit 23 creates the transmission type and transmission data, reads the ID information of the transmission destination from the ID holding unit 15, creates a transmission signal, and gives it to the transmission unit 24. . When there is no transmission request, the self-submersible information is periodically transmitted to the buddy and the leader. In addition, instead of this periodic transmission, as shown in FIGS. 7 and 8, a request type that transmits its own diving information to the transmission request source only when there is a diving information transmission request from another diving computer. It is good. In this case, after the ID is identified by the ID identification unit 14, the ID information of the transmission source is also held, and when the message decoding unit 16 deciphers that it is a transmission request for diving information, the transmission source ID and the transmission request command are changed. The data is sent to the transmission control unit 23.
[0066]
(Log output mode)
Assume that a log information transmission request is input to the transmission control unit 23 at the time when log information is held after diving. The transmission control unit 23 reads the log information from the log holding unit 15, creates a transmission signal including the log information, and transmits the transmission signal to the outside via the transmission unit 24 and the antenna 11a.
[0067]
Here, when the external personal computer or the like receives the transmission signal, the log information can be organized and stored. In addition, when the relevant information such as weather, sea condition, transparency, water temperature, date, equipment used, diver's name, buddy's name, etc. can be input to the diving computer via GUI etc., as shown in FIG. In addition, the diving computer (DC) 25 can transmit a transmission signal including the related information and log information to the personal computer 26. As a result, complete log information can be stored in a hard disk or the like connected to the personal computer. These related information may be input to the personal computer later.
[0068]
As described above, according to the first embodiment, the ID holding unit 15 in which ID information corresponding to another device in the same group is set is provided, and the reception unit 11 receives a signal transmitted from another device. When the ID identification unit 14 extracts the ID information of the transmission source from the reception signal, the ID information of the transmission source is any ID information in the ID holding unit 15 The received signal is sent out when the result of the determination matches, the message decoding unit 16 decodes the message in the received signal, and the message output unit 17 receives the decoded message. Is output, so diving information such as residual pressure and remaining dive time can be notified to buddies and leaders, and the safety of diving can be improved. In addition, buddy and divers in the group are provided with a function to display or transmit the will display and diving information required during diving to the other device, making it easy to communicate between buddies and divers in the group. be able to.
[0069]
Thereby, diving information of buddies and divers under their control can be obtained easily and accurately. Moreover, unlike the conventional means using a cue, a means for calling other divers can be easily realized. In addition, communication that has relied on hand signals and gestures can be easily and accurately realized.
[0070]
In addition, these advantages can further ensure the safety of buddies and divers under their control, and general divers can afford to improve diving skills and enhance underwater observation. Furthermore, diving can be made even more enjoyable.
[0071]
(Second Embodiment)
FIG. 10 is a block diagram showing a modified configuration of the message output unit of the diving computer according to the second embodiment of the present invention. The same parts as those in FIG. Subscripts are added and detailed explanations are omitted, and only different parts are described here. The same applies to each of the following embodiments, and redundant description is omitted.
[0072]
In other words, this embodiment has a function equivalent to that of the message output unit 17 shown in FIG. 1 and is intended to reliably transmit the output diving information. A specific message output unit 17a according to the present embodiment is obtained by dividing the configuration of the message output unit 17 of FIG. 1 and installing each configuration on the diving computer (DC) main body 27 or the glass surface 29 of the underwater mask 28. The output operation is executed as a whole.
[0073]
Here, the message output unit 17a includes an output information transmission unit 31 installed in the main body of the diving computer 27, an output information reception unit 32 installed in the underwater mask 28, and receiving data transmitted from the output information transmission unit 31. A plurality of LEDs (light emitting diodes) 33 installed in the vicinity of the glass surface 29 of the underwater mask 27 and an LED drive circuit 34 for driving each LED are provided.
[0074]
The output information transmission unit 31 has a function of transmitting a message and diving information received from the message decoding unit 16, the diving information calculation unit 19, or the log holding unit 22 to the output information receiving unit 32.
[0075]
The output information receiving unit 32 has a function of receiving a signal received from the output information transmitting unit 31 and providing the received signal to the LED drive circuit 34.
[0076]
The LED drive circuit 34 has a function of selectively causing each LED 33 to emit light according to the content of the received signal received from the output information receiving unit 32.
[0077]
Next, the operation of such a diving computer will be described. The diving computer can output the message and diving information received from the message decoding unit 16, the diving information calculation unit 19 or the log holding unit 22 by LED. However, here, in order to omit redundant description, only the case where the message received from the message decoding unit 16 is output by LED will be described as an example.
[0078]
Now, as described above, it is assumed that the reception unit 11 through the message decoding unit 16 receive a received signal and decode the message. This message is given from the message decoding unit 16 to the message output unit 17a.
[0079]
In the message output unit 17a, the output information transmitting unit 31 transmits the message received from the message decoding unit 16 to the output information receiving unit 32. The output information receiving unit receives this transmission and gives a reception signal corresponding to the content to the LED drive circuit 34.
[0080]
The LED drive circuit 34 drives each LED 33 based on this received signal. Here, when the message content is normal information, the LED drive circuit 34 can notify the user of the normal information by driving the green LED 33 and causing the glass surface 29 of the mask to emit green light, for example. Similarly, when the message content is emergency information, the LED drive circuit 34, for example, drives the red LED 33 by the LED drive circuit 34 to cause the glass surface 29 of the mask to emit red light, thereby giving the user emergency information. Can be notified.
[0081]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, since the message output unit is installed on the glass surface of the underwater glasses, the message can be reliably transmitted to the user. In the case of normal display, there is a possibility that a message is overlooked if the display is not seen. However, in this embodiment, since the display is provided in the underwater mask, the received message is surely recognized without being overlooked. be able to.
[0082]
As a modification, instead of the LED drive circuit 34 and the LED 33 as shown in FIG. 11, a message output unit 17 b provided with a mechanism such as a buzzer 35 that outputs sound in the underwater mask 28 may be used. The message output unit 17b can reliably notify the message because the buzzer 35 is close to the ear.
[0083]
As another modified example, a transparent liquid crystal plate 36 is incorporated (embedded) in the glass surface 29 of the underwater mask 28 instead of the LED drive circuit 34 and the LED 33 as shown in FIG. The message output unit 17c may be provided with an LCD drive circuit 37 for driving the display. Since the message output unit 17c outputs characters and marks indicating the content of the message by the liquid crystal plate 36, the information can be accurately notified.
[0084]
(Third embodiment)
FIG. 13 is a block diagram showing a modification of the receiving unit of the diving computer according to the third embodiment of the present invention. The receiving unit 11x includes, for example, three antennas 11a ₁ ~ 11a _Three Three demodulation circuits 11c provided corresponding to ₁ ~ 11c _Three And each demodulation circuit 11c ₁ ~ 11c _Three The phase difference detection circuit 41 for detecting the phase difference between the reception signals obtained from the above, and based on the phase difference detected by the phase difference detection circuit 41, the direction of the transmission source of the reception signal is detected and the reception signal And a direction detection circuit 42 for sending to the mode switching unit 12 in parallel. Each demodulation circuit 11c ₁ ~ 11c _Three Needless to say, any one of the above sends the received signal to the mode switching unit 12 via the A / D conversion circuit 11d as described above.
[0085]
Next, the operation of such a diving computer will be described.
[0086]
Now, in the receiving unit 11x, as shown in FIG. ₁ ~ 11c _Three Is each antenna 11a ₁ ~ 11a _Three The received signal is generated by demodulating the radio waves individually transmitted to the phase difference detection circuit 41. The phase difference detection circuit 41 detects a phase difference between the received signals and supplies the detected phase difference to the direction detection circuit 42. The direction detection circuit 42 detects the direction of the transmission source of the reception signal based on the phase difference between the reception signals, and outputs the direction detection signal to the mode switching unit 12. On the other hand, in parallel with this direction detection signal, for example, one demodulation circuit 11c _Three Supplies the received signal to the mode switching unit 12 via the A / D conversion circuit 11d. The operation after the mode switching unit 12 is as described above.
[0087]
Therefore, when the message output unit 17 outputs the received content as described above, the direction in which the received signal is transmitted can also be output based on the direction detection signal given in parallel with the received content.
[0088]
As described above, according to the third embodiment, in addition to the effects of the first embodiment, each antenna 11a. ₁ ~ 11a _Three Since each phase difference of the received signal between each phase can be detected, each phase difference and each antenna 11a ₁ ~ 11a _Three The direction of the transmission source of the received signal can be detected based on the arrangement position of the received signal.
[0089]
This also makes it possible to estimate the position of the diver having the diving computer that is the source of the received signal. For example, in the case of a drift dive in which a boat is chasing a moving diver, it is easy to capture a group of divers he or she follows. Even if it is lost, if the diver has surfaced on the surface of the water, it will be easier to search because the reach of the radio wave will be extended.
[0090]
In addition, when each diving computer transmits and receives signals using ultrasonic waves without using radio waves, the receiving unit 11y includes each antenna 11a as shown in FIG. ₁ ~ 11a _Three Instead of each microphone 11e ₁ ~ 11e _Four And a sensitivity difference detection circuit 41a in place of the phase difference detection circuit 41. In this modified example, as described above, the sensitivity difference detection circuit 41a is connected to each microphone 11e by the receiving unit 11y. ₁ ~ 11e _Four The sensitivity difference obtained from the above is detected and applied to the direction detection circuit 42, and the direction detection circuit 42 can detect the direction of the transmission source of the received signal.
[0091]
(Fourth embodiment)
FIG. 15 is a block diagram showing a configuration of a diving computer according to the fourth embodiment of the present invention.
[0092]
This embodiment is a modified configuration of the first embodiment and is intended to manage the traveling direction as a group. Specifically, as shown in FIG. 15, a direction detection unit (compass) 51, each An apparatus direction storage unit 52 and a direction abnormality determination unit 53 are provided.
[0093]
Here, the direction detection unit 51 detects a direction in which the diving computer is facing, and has a function of giving a detection result to the transmission control unit 23 and each device direction storage unit 52.
[0094]
Each device direction storage unit 52 is based on the detection result received from the direction detection unit 51, and stores the direction in which its own diving computer is directed and its own ID information, and the same group received from the message decoding unit 16. It has a function of storing the ID information of each other diving computer and the direction in which it is facing in combination.
[0095]
The direction abnormality determination unit 53 determines whether or not the direction to which the direction is directed is within a range of ± allowable angle from the reference direction facing the reference diving computer based on the stored contents in each device direction storage unit 52. When the self direction exceeds the permissible angle and deviates from the reference direction, the function has a function of sending a direction abnormality to the message output unit 17. In addition, the apparatus which a lead person or a buddy holds is applicable for the diving computer used as a reference, for example.
[0096]
On the other hand, in addition to the functions described above, the transmission control unit 23 has a function of periodically transmitting to the outside the direction of the diving computer received from the direction detection unit 51.
[0097]
Further, in addition to the functions described above, the message decoding unit 16 has a function of giving the decoding result to each device direction storage unit 52 when the decoding result indicates the direction in which the diving computer is directed and the ID information.
[0098]
Next, the operation of such a diving computer will be described.
[0099]
In each diving computer, each direction detecting unit 51 detects the direction in which each diving computer is directed and transmits the detection result via the transmission control unit 23, and the detection result is paired with its own ID information. And stored in each device direction storage unit 52.
[0100]
In each diving computer, the ID information received from the other diving computer and the direction to which it is directed are stored in each device direction storage unit 52 via the receiving unit 11 to the message decoding unit 16.
[0101]
Here, the direction abnormality determination unit 53 is based on the stored contents in each device direction storage unit 52, and the reference direction θ that the reference diving computer faces. _S ± allowable angle θ from _e Whether or not there is a direction θx to which the self is directed, that is, “θ _S −θ _e <Θx <θ _S + Θ _e ”Is satisfied, and the direction θx of the self is the allowable angle ± θ _e Beyond the reference direction θ _S When the direction is deviated, the direction abnormality is output via the message output unit 17.
[0102]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, the direction detection unit 51 detects the direction, and the direction abnormality detection unit falls within the allowable angle range of the reference direction with respect to this direction. If it is determined whether or not there is a deviation from the permissible angle, a warning is output.For example, in the case of a leader or a buddy, whether there is an abnormality in the direction of divers or buddies in the group Can be confirmed. In addition, the divers in the group can self-recognize whether or not they are individually traveling in a direction different from the traveling direction of the group.
[0103]
In addition, since this embodiment is a confirmation function only in the traveling direction and does not include a position or movement confirmation function, there is not much meaning when stopping. However, there is an advantage that the movement state of the entire group can be managed with a simple configuration in which information on the direction required during diving is taken into the diving computer and communicated.
[0104]
(Fifth embodiment)
FIG. 16 is a block diagram showing a configuration of a diving computer according to the fifth embodiment of the present invention. This diving computer has a function of measuring positions with each other's diving computer, and also has a function of correcting its own measurement result based on the measurement result of the other party. Specifically, FIG. In addition to the configuration shown in FIG.
[0105]
Here, the position measurement unit 54 measures the position of the target using the reflected wave of the target (the other party's diver) with respect to the radiated radio wave. For example, the position measurement unit 54 can measure the distance from the radio wave propagation time. The direction can be measured from the phase difference between the antennas, and the measurement result is given to the transmission control unit 23 and the measurement value correction calculation unit 55. In the case of measurement using this radio wave, one antenna for transmission and a plurality of antennas for reception are provided. Similarly to the above, ultrasonic waves may be used instead of radio waves, and sensitivity differences between microphones may be used instead of phase differences between antennas.
[0106]
The measurement value correction calculation unit 55 temporarily stores the measurement result of the other party received from the message decoding unit 16 in a memory (not shown), and performs measurement by the own position measurement unit 54 based on the measurement result of the other party in the memory. The result is corrected, and the correction result is sent to the message output unit 17.
[0107]
Next, the operation of such a diving computer will be described.
[0108]
The own position measurement unit 54 measures the position (direction, distance) of the other party and gives the measurement result to the transmission control unit 23 and the measurement value correction calculation unit 55.
[0109]
The transmission control part 23 transmits this measurement result toward the diving computer of the other party's diver. Similarly, a measurement result of the position of the self seen from the partner is transmitted from the diving computer of the partner diver, and the measurement result by the partner is given to the measurement value correction calculation unit 55 via the reception unit 11 to the message identification unit 16. .
[0110]
The measurement value correction calculation unit 55 calculates the position measurement result with higher accuracy by averaging the measurement result by the other party and the measurement result by itself.
[0111]
For example, when correcting the direction of the position, as shown in FIG. 17, it is assumed that the direction of the partner's diving computer A measured by the own diving computer Z is Za [deg]. On the other hand, if the direction of the own diving computer Z measured by the opponent's diving computer A is Az [deg], when this is corrected to the position of the opponent's diving computer as viewed from the own diving computer Z, Az−180 °. [Deg].
[0112]
Here, these can be averaged as in the following equation, and the direction of the opponent can be obtained more accurately.
[0113]
Direction average value = {Za + (Az−180 °)} / 2
Thereafter, the measurement value correction calculation unit 55 outputs the calculation result via the message output unit 17. Further, when correcting the distance among the measured values of the position, it is only necessary to simply add the measured values of the self and the opponent and divide by two without subtracting 180 ° unlike the direction.
[0114]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, the position measurement unit 54 measures the position, the measurement value correction calculation unit 55 measures the position measured by itself and the position measured by the other party. Since the corrected position information is obtained, the relative position with respect to the partner's diving computer A can be obtained with high accuracy.
[0115]
In this embodiment, the average calculation is used. However, the present invention is not limited to this. The weighted average is used to increase the weight of the measured value by the own diving computer Z, and the weight of the measured value by the opponent's diving computer A is set. By making it small, the accuracy of the measurement value can be improved with reference to the weight of the own diving computer Z. Moreover, the accuracy can be improved even if the abnormal value is removed. This is inexpensive and can use a communication function while using a small measuring unit to improve measurement accuracy.
[0116]
(Sixth embodiment)
FIG. 18 is a block diagram showing a configuration of a diving computer according to the sixth embodiment of the present invention. This diving computer is for preventing each diver in the group from coming off from the leader. Specifically, in addition to the configuration shown in FIG. 16, each device distance storage unit 56, reference ID storage unit 57, An allowable distance storage unit 58, a distance information selection unit 59, and an allowable distance determination unit 60 are provided.
[0117]
Here, each device distance storage unit 56 stores the distance between its own device and each device by the measurement value correction calculation unit 55 after the correction calculation by the measurement value correction calculation unit 55. Is.
[0118]
The reference ID storage unit 57 stores ID information of a reference diving computer such as a diving computer held by a lead person or a buddy.
[0119]
The permissible distance storage unit 58 stores the maximum permissible distance that may be separated between the reference dive computer and the own dive computer.
[0120]
The distance information selection unit 59 refers to each device distance storage unit 56, based on the ID information in the reference ID storage unit, among the distance information indicating the distances between the own diving computer and all the diving computers. The distance information with respect to the reference dive computer is selected and given to the allowable distance determination unit 60.
[0121]
The permissible distance determination unit 60 compares the distance information received from the distance information selection unit 59 with the maximum permissible range in the permissible distance storage unit 58, and when the distance information exceeds the maximum permissible range, a warning is output to the message output unit. 17 and the transmission control unit 23. In addition to the functions described above, the transmission control unit 23 has a function of outputting the alarm received from the allowable distance determination unit 60 to the reference diving computer via the transmission unit 24.
[0122]
Next, the operation of such a diving computer will be described.
[0123]
At the time of diving, each device distance storage unit 56 stores the distance to each device, the reference ID storage unit 57 stores the reference ID information of the diving computer, and the allowable distance storage unit 58 stores the distance. Suppose that the maximum allowable distance between the reference dive computer and its own dive computer is stored.
[0124]
The distance information selection unit 59 is based on the ID information in the reference ID storage unit 57 and is the distance to the reference diving computer among the distance information indicating the distances between the own diving computer and all the diving computers. Information is selected and given to the allowable distance determination unit 60.
[0125]
The permissible distance determination unit 60 compares the distance information received from the distance information selection unit 59 with the maximum permissible range in the permissible distance storage unit 58, and when the distance information exceeds the maximum permissible range, a warning is output to the message output unit. 17 and the transmission control unit 23.
[0126]
The message output unit 17 outputs an alarm, notifies the user that the user is too far from the reference diver, and prompts the user to return to the group, for example.
[0127]
On the other hand, the transmission control unit 23 outputs the warning received from the allowable distance determination unit 60 to the reference diving computer via the transmission unit 24, and notifies the reference diver that it is too far apart with its own ID information. And call attention.
[0128]
As described above, according to the present embodiment, in addition to the effects of the fifth embodiment, the distance information selection unit 59 selects the distance information to the reference diving computer, and the allowable distance determination unit 60 Since it is determined whether the distance exceeds the allowable range, each diving computer can confirm that the distance from the reference diving computer is within the range of the maximum allowable distance and exceeds the maximum allowable distance. Sometimes, it is possible to issue a warning to both the own message output unit and the transmission control unit directed to the reference diving computer, and to prompt the user to approach within an allowable distance. This warning function can also prevent the divers in the group from being lost and missing.
[0129]
(Seventh embodiment)
FIG. 19 is a block diagram showing a configuration of a diving computer according to the seventh embodiment of the present invention. The diving computer includes a maximum communication distance storage unit 61, an error detection unit 62, a maximum distance update unit 63, and a distance determination unit 64 in addition to the configuration shown in FIG. The transmission control unit 23a has a function of adding error control information such as a parity bit to the transmission signal in addition to the functions described above.
[0130]
Here, the maximum communication distance storage unit 61 stores the ID information for each of the other diving computers and the maximum communication success distance information (longest distance information) indicating the maximum distance of successful communication in pairs. It is. “Successful communication” means communication when there is no reception error.
[0131]
The error detection unit 62 is arranged in the preceding stage of the ID identification unit 14 and executes error detection processing on the received signal received from the reception unit 11 via the mode switching unit 12, and the detection result is transmitted to the maximum distance update unit 63 and the distance determination unit. 64.
[0132]
When the detection result received from the error detection unit 62 indicates “no error”, the maximum distance update unit 63 succeeds in maximum communication in the maximum communication distance storage unit 61 based on the ID information identified by the ID identification unit 14. The distance information is searched, the obtained maximum communication success distance information is compared with the current communication distance obtained from the measurement value correction calculation unit 55, and when the maximum communication success distance information is shorter than the current communication distance, It has a function to rewrite the maximum communication success distance information to the current communication distance.
[0133]
When the detection result received from the error detection unit 62 indicates “with error”, the distance determination unit 64 determines the maximum communication success distance in the maximum communication distance storage unit 61 based on the ID information identified by the ID identification unit 14. Search the information, calculate the standard communication distance indicating a distance shorter than the obtained maximum communication success distance information, compare this standard communication distance and the current communication distance obtained from the measurement value correction calculation unit, this time When the communication distance is longer than the standard communication distance, a warning indicating that they are close to each other is given to the message output unit 17 and the transmission control unit 23a, and when the current communication distance is shorter than the standard communication distance, a warning indicating that a failure is indicated It has a function to be given to the output unit 17 and the transmission control unit 23a.
[0134]
In addition to the above-described functions, the transmission control unit 23a has a function of outputting a warning received from the distance determination unit 64 through the reception unit 11 together with the ID information of the current communication partner.
[0135]
Next, the operation of such a diving computer will be described.
[0136]
In a certain diving computer, when a reception signal including error control information is received from the partner's diving computer, the error detection unit 62 determines whether or not there is an error in the reception signal, and the determination result is used as a maximum communication distance update unit 63 and a distance determination unit. 64.
[0137]
When the determination result indicates “no error” in the received signal, the maximum distance update unit 63 obtains the maximum communication success distance information obtained from the maximum communication distance storage unit 61 based on the ID information identified by the ID identification unit 14. And the current communication distance obtained from the measured value correction calculation unit 55. When the maximum communication success distance information is shorter than the current communication distance, the maximum communication success distance information is rewritten to the current communication distance. For this reason, the maximum communication success distance information can always be the latest value.
[0138]
On the other hand, when the determination result indicates “there is an error” in the received signal, the distance determination unit 64 obtains the maximum communication success distance information obtained from the maximum communication distance storage unit 61 based on the ID information identified by the ID identification unit 14. Is calculated and a standard communication distance indicating a distance shorter than the maximum communication success distance information is calculated, and the calculated standard communication distance is compared with the current communication distance obtained from the measurement value correction calculation unit 55. When the communication distance is longer than the standard communication distance, a warning is given to the message output unit 17 and the transmission control unit 23a to approach each other.
[0139]
Thereby, when an error is detected at the time of reception, it is possible to warn that the distance from the partner's diving computer is too far away, and to urge approaching.
[0140]
Further, when the communication distance this time is shorter than the standard communication distance as a result of the comparison, the distance determination unit 64 gives a warning to the effect that indicates a failure to the message output unit 17 and the transmission control unit 23a.
[0141]
In other words, when there is an “error” even though it is sufficiently close to the stored maximum communication success distance, it is determined that the dive computer has failed, and a warning indicating the failure can be output.
[0142]
As described above, according to the present embodiment, in addition to the effects of the sixth embodiment, the error detection unit 62 determines whether there is a reception error in the received signal, and the maximum distance update unit 63 determines “no error”. At this time, the maximum communication success distance information in the maximum communication distance storage unit 61 is searched based on the ID information identified by the ID identification unit 14, and the obtained maximum communication success distance information and the measured value correction calculation unit 55 are searched. Is compared with the distance information indicating the current communication distance obtained from the above, and when the communication distance indicated by the maximum communication success distance information is shorter than the communication distance indicated by the current distance information, the maximum communication in the maximum communication distance storage unit 61 The success distance information is rewritten to the current distance information.
[0143]
Further, when the distance determination unit 64 is “with error”, the maximum communication success distance information in the maximum communication distance storage unit 61 is retrieved and obtained based on the ID information identified by the ID identification unit 14. A standard communication distance indicating a distance shorter than the maximum communication success distance information is calculated, and the calculated standard communication distance is compared with the current communication distance obtained from the position information correction unit.
[0144]
Here, when the current communication distance is longer than the standard communication distance, a warning indicating that they are close to each other is output, and when the current communication distance is shorter than the standard communication distance, a warning indicating that a failure is output is output. When an error is detected in the information, a warning is given that the distance to the reference device is too far, and if an error is detected in the received information even if it is closer than the stored standard communication distance, the device may fail. Can be issued and a warning can be issued.
[0145]
Also, in this embodiment, due to the difference in signal reception capability, even if it is a distance that can be received by one diving computer but cannot be received by the other diving computer, a warning is issued from a diving computer that cannot receive. Therefore, communication can be ensured by causing the receivable diving computer to detect this and urging the user to return to a communicable distance.
[0146]
(Eighth embodiment)
FIG. 20 is a block diagram showing a configuration of a diving computer according to the eighth embodiment of the present invention. This diving computer includes an allowable depth difference storage unit 71, a depth selection unit 72, and an allowable depth difference determination unit 73 in addition to the configuration shown in FIG.
[0147]
Here, the allowable depth difference storage unit 71 stores in advance an allowable depth difference (hereinafter referred to as an allowable depth difference) between the depth of the reference diving computer and the depth of the own diving computer. .
[0148]
The depth selection unit 72 is a function of giving to the allowable depth difference determination unit 73 the depth information received from the reference diving computer obtained from the message decoding unit 16 and the own depth information obtained from the diving information calculation unit 19. Have
[0149]
The allowable depth difference determination unit 73 calculates a current depth difference by calculating a difference between both depth information received from the depth selection unit 72, and compares the depth difference with the allowable depth difference in the allowable depth difference storage unit 71. When the current depth difference is larger than the allowable depth difference, it has a function of giving a warning to the message output unit 17 and the transmission control unit 23a. In addition to the functions described above, the transmission control unit 23a has a function of outputting the alarm received from the allowable depth difference determination unit 73 to the reference diving computer via the transmission unit 24.
[0150]
Next, the operation of such a diving computer will be described.
[0151]
The depth selection unit 72 gives the depth information received from the reference diving computer obtained from the message decoding unit 16 and the own depth information obtained from the diving information calculation unit 19 to the allowable depth difference determination unit 73.
[0152]
The allowable depth difference determination unit 73 calculates a current depth difference by calculating a difference between both depth information received from the depth selection unit 72, and compares the depth difference with the allowable depth difference in the allowable depth difference storage unit 71. When the current depth difference is larger than the allowable depth difference, a warning is given to the message output unit 17 and the transmission control unit 23a.
[0153]
The message output unit 17 outputs a warning, notifies the user that the user is too far from the reference diver's depth, and prompts the user to return to the group, for example.
[0154]
On the other hand, the transmission control unit 23a outputs the warning received from the allowable depth difference determination unit 73 to the reference diving computer via the transmission unit 24 and indicates that it is too far from the reference depth along with its own ID information. Notify the reference diver and call attention.
[0155]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, the depth selection unit 72 selects the reference depth of the dive computer, and the allowable depth difference determination unit 73 determines the reference depth. Since the difference with the depth of the self is calculated to determine whether the depth of the self is too far from the reference, the depth difference from the reference diving computer is within the allowable depth difference range for each diving computer. When the allowable depth difference is exceeded, a warning is issued to both the message output unit 17 and the transmission control unit 23a directed to the reference diving computer, and approaches the allowable depth difference. Can be encouraged.
[0156]
Specifically, in scuba diving, there may be a tide that is drawn into the seabed when the depth changes slightly due to a diving spot, and conversely, there may be a flow that suddenly rises to the sea surface. In these cases, it is necessary to keep the same depth as the diver who is familiar with the spot. This embodiment can prevent sudden ascent and descent at such a spot, and can improve the safety of diving.
[0157]
(Ninth embodiment)
FIG. 21 is a block diagram showing a configuration of a diving computer according to the ninth embodiment of the present invention. This diving computer combines the configurations shown in FIG. 16 and FIG. 20, and further calculates a horizontal plane distance based on the depth difference and distance. Specifically, the dive computer includes a horizontal plane distance calculation unit 74. Yes.
[0158]
Here, the horizontal plane distance calculation unit 74, when its own dive computer is “Z”, as shown in FIG. 21 and FIG. 22, the distance a from the opponent's dive computer A obtained from the measurement value correction calculation unit 55 And the horizontal plane distance c = (a) based on the depth difference b with the opponent's diving computer A obtained from the allowable depth difference determination unit 73. ² -B ² ) ^1/2 And the calculation result is output via the message output unit 17.
[0159]
Next, the operation of such a diving computer will be described.
[0160]
In the own diving computer Z, as described above, the position measuring unit 54 measures the direction and distance from the partner's diving computer A, and gives the measurement result to the measured value correction calculating unit 55.
[0161]
On the other hand, from the partner's diving computer A, similarly, a transmission signal including the distance and the direction from the partner's own diving computer as viewed from the partner is transmitted. This transmission signal is given to the measured value correction calculation unit 55 via its own receiving unit 11 to message decoding unit 16.
[0162]
The measurement value correction calculation unit 55 performs the correction calculation and output by the above-described average, and gives the corrected distance to the horizontal plane distance calculation unit 74.
[0163]
In addition, the allowable depth difference determination unit 73 provides the horizontal depth calculation unit 74 with the calculated current depth difference with the opponent in the above-described determination of the allowable depth.
[0164]
As shown in FIG. 22, the horizontal plane distance calculation unit 74 is based on the distance a from the opponent's diving computer A and the depth difference b from the opponent's diving computer A obtained from the allowable depth difference determination unit 73. Horizontal plane distance c = (a ² -B ² ) ^1/2 And the calculation result is output via the message output unit 17.
[0165]
As described above, according to the present embodiment, in addition to the effects of the fifth and eighth embodiments, the horizontal plane distance calculation unit 74 determines the horizontal plane distance based on the distance a and the depth difference b from the opponent's diving computer A. Since c is calculated, the position of the diver in the group can be known more accurately. In addition, since this embodiment considers the situation peculiar to diving, some supplementary explanation will be given.
[0166]
In scuba diving, each diver can take a desired depth except for the diving spots where the diving depth cannot be selected as described in the eighth embodiment. In such a case, the distance to the other diver is a combination of a horizontal plane (distance on the xy plane) parallel to the water surface and a depth (distance on the z axis). That is, there are a case where they are separated in the horizontal plane direction and a case where they are separated in the depth direction even at the same measurement distance.
[0167]
Here, in the direction of depth, it can move without using physical strength by using buoyancy, but in the horizontal plane direction, it is necessary to swim, so the consumption of physical strength is different even when moving the same distance. Therefore, in the present embodiment, the horizontal plane distance c indicating the degree of exhaustion of physical strength is calculated.
[0168]
That is, according to the present embodiment, since the distance information is decomposed into the distance in the horizontal plane and the distance in the depth direction, in addition to the measured actual distance, direction and depth difference, the horizontal plane distance can be understood. It is possible to obtain complete position information including the degree of exhaustion of physical strength.
[0169]
(Tenth embodiment)
FIG. 23 is a block diagram showing a configuration of a diving computer according to the tenth embodiment of the present invention, and FIG. 24 is a conceptual diagram of a relay function according to this embodiment.
[0170]
In the present embodiment, for example, as shown in FIG. 24, the diving computer Z achieves a relay function between the diving computers A and B in which communication is impossible beyond the communicable range r indicated by a circle. Specifically, as shown in FIG. 23, in addition to the configuration shown in FIG. 16, a communication failure detection unit 81, a relayable assertion unit 82, a relay device determination unit 83, and a relay unit 84 are provided.
[0171]
Here, as shown in FIG. 24, the communication failure detection unit 81 detects a partner's diving computer that has become unable to communicate from its own diving computer, and controls transmission of the ID information and a transmission signal indicating that reception is impossible. It transmits via a transmission part and a transmission part. Here, in order to detect communication failure, for example, detection can be applied when a signal transmitted periodically is not received from the message decoding unit 16 or when there is no response even if a request is transmitted. is there.
[0172]
When the relayable assertion part 82 receives the ID information of the target diving computer generated by the communication inability detecting part 81 of another diving computer and the transmission signal indicating the inability to receive it via its own message decoding part 16, Check whether or not it is possible to relay to the target diving computer, and when relaying is possible, obtain the distance from the target diving computer from the measured value correction calculation unit 55 and transmit the distance information and relaying possible The signal is output via the transmission control unit 23 and the transmission unit 24.
[0173]
When the relay device determination unit 83 receives a transmission signal from the relayable assertion unit 82 of each diving computer via its own message decoding unit 16, the relay device determination unit 83 relays the distance information in each transmission signal and the relayable assertion of its own diving computer. It compares the distance information with the target diving computer obtained by the unit 82, and has a function of activating its own relay unit 84 when its own distance information indicates the closest distance.
[0174]
The relay unit 84 is activated by the relay device determination unit 83 to relay a signal between the dive computer that has failed reception and the target dive computer, and specifically, the dive computer that has failed reception. When a transmission signal having the ID information of the transmission source or a transmission signal having the ID information of the target diving computer as the transmission source is received via the ID identification unit 14, the self-retransmission is performed without changing the content. The transmission control unit 23 is controlled.
[0175]
Next, the operation of such a diving computer will be described.
[0176]
Now, the communication failure detection unit 81 detects the partner's diving computer that has become unable to communicate from its own diving computer, and sends the ID information and a transmission signal indicating that reception is impossible via the transmission control unit 23 and the transmission unit 24. To send.
[0177]
When the relayable announcement unit 82 receives the ID information of the target diving computer and the transmission signal indicating that the target diving computer cannot be received from the communication incompatibility detecting unit 81 of the other diving computer via its own message decoding unit 16, the target diving computer 82 Check whether the computer can relay to itself, and if relaying is possible, obtain the distance from the target dive computer from the measured value correction calculation unit 55 and transmit the distance information and a transmission signal indicating relayability It outputs via the control part 23 and the transmission part 24.
[0178]
When the relay device determination unit 83 receives a transmission signal from the relayable assertion unit 82 of each diving computer, the distance information in each transmission signal and the target diving computer obtained by the relayable assertion unit 82 of its own diving computer And the own relay unit 84 is activated when the own distance information indicates the closest distance.
[0179]
When the relay unit 84 is activated by the relay device determining unit 83, the relay unit 84 receives a transmission signal whose transmission source is the ID information of the diving computer that has failed reception or a transmission signal whose transmission source is the ID information of the target diving computer. Then, the own transmission control unit 23 is controlled so as to retransmit the received signal without changing the content.
[0180]
As a result, a signal is relayed between the dive computer that has failed reception and the target dive computer, and the dive computer that has failed reception can receive the transmission signal from the target dive computer.
[0181]
As described above, according to the present embodiment, in addition to the effects of the first embodiment, the communication failure detection unit 81 is a partner device that has become unable to communicate with itself based on at least the presence or absence of periodic signal reception. , ID information indicating the other party and a transmission signal indicating the inability to receive are transmitted, and the relayable assertion unit 82 transmits the ID information of the target device and the transmission signal indicating the reception inability to other devices. When it is received from the impossibility detection unit 81, it is confirmed whether or not it can relay to the target device. When relaying is possible, the distance to the target device is obtained from the measured value correction calculation unit 55 and the distance is obtained. When the relay device determining unit 83 receives the transmission signal from the relayable assertion unit 82 of each device, the distance information in each transmission signal and its own relayable assertion unit are output. Target equipment obtained by 82 When the distance information is compared and when the distance information of the self indicates the closest distance, a relay activation signal is transmitted, and when the relay unit 84 receives the relay activation signal from the relay device determination unit 83, the device that has caused reception failure If the transmission signal with the ID information of the transmission source or the transmission signal with the ID information of the target device as the transmission source is received, the received signal is retransmitted without changing the contents. Even if it becomes possible, the transmission possible distance can be extended by relaying by another device.
[0182]
Even if the distance between each diving computer becomes large and the transmission signal from the target diving computer cannot be received, the transmission signal from the target diving computer is obtained by relaying the signal from the diving computer located in the middle. be able to.
[0183]
It is possible to communicate with a diver located at a point far enough that the transmission signal from the transmission source diving computer does not reach directly, that is, the transmission possible distance can be extended.
[0184]
Further, by using this relay, it is possible to reduce the size and cost of the transmission / reception unit when realizing the same communication distance. Moreover, it can communicate with weak output. Further, if any diver in the group is relayed and communication becomes impossible, it can be detected that the diver has gone too far.
[0185]
In addition, the present invention can be implemented with various modifications without departing from the gist thereof.
[0186]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a diving computer that can notify diving information such as residual pressure and dive remaining time to a buddy and a leader and realize safe diving.
[0187]
In addition, the buddy and divers in the group are provided with a function to display or transmit the will display and diving information required during diving to the other device, making it easy to communicate between buddies and divers in the group. .
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a diving computer according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a receiving unit and a transmitting unit in the embodiment
FIG. 3 is a schematic diagram showing a format of a transmission signal in the embodiment;
FIG. 4 is a schematic diagram showing an operation mode in the embodiment.
FIG. 5 is a schematic diagram for explaining an ID setting mode in the embodiment;
FIG. 6 is a schematic diagram for explaining a transmission type in the embodiment;
FIG. 7 is a schematic diagram for explaining a variation of the transmission type in the embodiment;
FIG. 8 is a block diagram showing a configuration of a modified example of the embodiment
FIG. 9 is a schematic diagram for explaining an example of a log output mode according to the embodiment;
FIG. 10 is a block diagram showing a modified configuration of the message output unit of the diving computer according to the second embodiment of the present invention.
FIG. 11 is a block diagram showing a configuration of a modification of the embodiment;
FIG. 12 is a block diagram showing the configuration of another modification of the embodiment;
FIG. 13 is a block diagram showing a modification of the receiving unit of the diving computer according to the third embodiment of the present invention.
FIG. 14 is a block diagram showing a configuration of a modification of the embodiment;
FIG. 15 is a block diagram showing a configuration of a diving computer according to a fourth embodiment of the present invention.
FIG. 16 is a block diagram showing a configuration of a diving computer according to a fifth embodiment of the present invention.
FIG. 17 is a schematic diagram for explaining an operation in the embodiment;
FIG. 18 is a block diagram showing a configuration of a diving computer according to a sixth embodiment of the present invention.
FIG. 19 is a block diagram showing a configuration of a diving computer according to a seventh embodiment of the present invention.
FIG. 20 is a block diagram showing a configuration of a diving computer according to an eighth embodiment of the present invention.
FIG. 21 is a block diagram showing a configuration of a diving computer according to a ninth embodiment of the present invention.
FIG. 22 is a schematic diagram for explaining a horizontal plane distance in the embodiment.
FIG. 23 is a block diagram showing a configuration of a diving computer according to a tenth embodiment of the present invention.
FIG. 24 is a conceptual diagram of a relay function in the embodiment.
FIG. 25 is a block diagram showing a configuration of a conventional diving computer.
[Explanation of symbols]
11, 11x, 11y ... receiving unit
11a, 11a ₁ ~ 11a _Three …antenna
11b: receiving circuit
11c, 11c ₁ ~ 11c _Three ... Demodulation circuit
11d: A / D conversion circuit
11e, 11e ₁ ~ 11e _Four …Microphone
12 ... Mode switching part
13. Other device ID input control unit
14 ... ID identification part
15 ... ID holding part
16 ... Message decoding part
17, 17a-17c ... Message output part
18 ... Water pressure sensor
19 ... Diving information calculation part
20 ... Residual pressure sensor
21 ... Diving time timer
22: Log holding unit
23: Transmission control unit
24 ... Transmitter
24a ... Transmission circuit
24b ... D / A conversion circuit
24c ... modulation circuit
24d ... Speaker
27 ... Diving computer (DC) body
28 ... Underwater mask
29 ... Glass surface
31 ... Output information transmitter
32. Output information receiving unit
33 ... LED
34 ... LED drive circuit
35 ... Buzzer
36 ... Liquid crystal plate
37 ... LCD drive circuit
41. Phase difference detection circuit
41a ... Sensitivity difference detection circuit
42. Direction detection circuit
51. Direction detection unit
52. Each device direction storage unit
53. Directional abnormality determination unit
54 ... Position measuring section
55. Measurement value correction calculation section
56: Each device distance storage unit
57. Reference ID storage unit
58. Allowable distance storage unit
59 ... Distance information selection part
60 ... Allowable distance determination unit
61: Maximum communication distance storage unit
62: Error detection unit
63 ... Maximum distance update unit
64: Distance determination unit
71 ... Allowable depth difference storage unit
72 ... Depth selection section
73 ... Allowable depth difference determination unit
74: Horizontal plane distance calculation unit
81. Communication failure detection unit
82 ... Relayable statement part
83 ... Relay device determination unit
84 ... Relay part

Claims (8)

A dive computer capable of displaying and / or transmitting information necessary for diving as a message,
Group ID setting means for setting ID information corresponding to other devices in the same group;
Receiving means for receiving a signal transmitted from another device and generating a received signal corresponding to the signal;
When the transmission source ID information is extracted from the reception signal generated by the reception unit, it is determined whether or not the transmission source ID information matches any ID information in the group ID setting unit. An ID identifying means for sending the received signal when the determination result is;
Decoding means for decoding a message in the received signal sent from the ID identification means;
Output means for outputting the message decoded by the decoding means ;
Direction storage means in which an allowable angle indicating a reference direction and a deviation from the reference direction is stored;
Direction detecting means for detecting a traveling direction toward which the person is facing;
A direction abnormality determination unit that determines whether or not the traveling direction detected by the direction detection unit is within a range that is shifted by an allowable angle from a reference direction in the direction storage unit;
A diving computer comprising: a direction abnormality output means for outputting and transmitting a direction abnormality as the message when the traveling direction of the vehicle is out of the allowable angle as a result of the determination by the direction abnormality determination means. . The diving computer according to claim 1 ,
Direction transmitting means for transmitting a signal including the traveling direction detected by the direction detecting means;
A diving computer comprising: a device direction storage unit that stores a traveling direction indicated by a signal transmitted from a direction transmission unit of another device. A dive computer capable of displaying and / or transmitting information necessary for diving as a message,
Group ID setting means for setting ID information corresponding to other devices in the same group;
Receiving means for receiving a signal transmitted from another device and generating a received signal corresponding to the signal;
When the transmission source ID information is extracted from the reception signal generated by the reception unit, it is determined whether or not the transmission source ID information matches any ID information in the group ID setting unit. An ID identification means for transmitting the received signal when the determination result is;
Decoding means for decoding a message in the received signal sent from the ID identification means;
Output means for outputting the message decoded by the decoding means;
Based on a signal propagating from the direction of the measurement target device, a position measurement unit that measures the position of the measurement target device and generates position information;
Position information transmitting means for transmitting a signal including position information generated by the position measuring means;
A diving computer comprising: position information correcting means for correcting position information generated by its own position measuring means based on position information transmitted from position information transmitting means in the measurement target device. The diving computer according to claim 3 ,
The position information includes distance information,
Reference ID storage means for storing ID information of a reference device;
An allowable distance storage means for storing a maximum allowable distance between the reference device and itself;
Based on the ID information in the reference ID storage means, distance information selection for selecting and sending out distance information between the reference apparatus from among the distance information indicating the distance between itself and all apparatuses Means,
Comparing distance information received from the distance information selection means with a maximum allowable range in the allowable distance storage means, and an allowable distance determining means for displaying and transmitting a warning when the distance information exceeds the maximum allowable range. Diving computer characterized by that. The diving computer according to claim 4 ,
Longest communication distance storage means for storing longest distance information indicating the longest distance used for communication when there is no reception error and stored in combination with ID information of each device;
Error control information adding means provided in the transmission means for adding error control information in a signal to be transmitted;
Based on error control information in the received signal, reception error determination means for determining the presence or absence of reception error of the signal,
When the determination result by the error determination means indicates "no error", the longest distance information in the longest communication distance storage means is searched based on the ID information identified by the ID identification means, and the longest communication distance information obtained And the distance information indicating the current communication distance obtained from the position information correction means, and when the communication distance indicated by the longest distance information is shorter than the communication distance indicated by the current distance information, the longest communication distance storage means Maximum distance updating means for rewriting the longest distance information of the current distance information to the current distance information,
When the detection result received from the error determination means indicates “there is an error”, the longest communication distance information obtained by searching the longest communication distance information in the longest communication distance storage means based on the ID information identified by the ID identification means When the standard communication distance indicating a distance shorter than the distance information is calculated, and the calculated standard communication distance is compared with the current communication distance obtained from the position information correction means, and the current communication distance is longer than the standard communication distance. A diving computer comprising: distance determination means for outputting a warning indicating that they are approaching each other and outputting a warning indicating that a failure is indicated when the current communication distance is shorter than the standard communication distance. A dive computer capable of displaying and / or transmitting information necessary for diving as a message,
Group ID setting means for setting ID information corresponding to other devices in the same group;
Receiving means for receiving a signal transmitted from another device and generating a received signal corresponding to the signal;
When the transmission source ID information is extracted from the reception signal generated by the reception unit, it is determined whether or not the transmission source ID information matches any ID information in the group ID setting unit. An ID identification means for transmitting the received signal when the determination result is;
Decoding means for decoding a message in the received signal sent from the ID identification means;
Output means for outputting the message decoded by the decoding means;
The information necessary for the diving includes diving depth information,
Reference ID storage means for storing ID information of a reference device;
A permissible depth difference storage means for storing a permissible depth difference between the depth of the reference device and the own depth;
Depth sending means for sending the depth information of the reference device obtained from the decoding means and the own depth information measured by the own device;
The difference between both depth information received from the depth sending means is calculated to calculate the current depth difference, and the depth difference is compared with the allowable depth difference in the allowable depth difference storage unit. A dive computer comprising an allowable depth difference judging means for outputting a warning when the maximum is too large. The diving computer according to claim 3 ,
The information necessary for the diving includes depth information, and the position information includes distance information.
When a signal including the depth information of the other party is received from the other device, the current depth is obtained by obtaining a difference between the depth information of the other party obtained from the decoding means and the own depth information measured by the own device. A depth difference calculating means for calculating the difference;
A horizontal plane distance c = (a ² −b ² ) ^1/2 is calculated on the basis of the distance a to the counterpart device obtained from the position information correcting means and the depth difference b obtained from the depth difference calculating means. A dive computer comprising: a horizontal plane distance calculating means for outputting a calculation result. A dive computer capable of displaying and / or transmitting information necessary for diving as a message,
Group ID setting means for setting ID information corresponding to other devices in the same group;
Receiving means for receiving a signal transmitted from another device and generating a received signal corresponding to the signal;
When the transmission source ID information is extracted from the reception signal generated by the reception unit, it is determined whether or not the transmission source ID information matches any ID information in the group ID setting unit. An ID identification means for transmitting the received signal when the determination result is;
Decoding means for decoding a message in the received signal sent from the ID identification means;
Output means for outputting the message decoded by the decoding means;
Based on the presence or absence of periodic signal reception at least, it detects a partner device that has become unable to communicate with itself, and transmits communication information indicating that the partner device does not receive ID information and a reception signal indicating that reception is impossible.
When the ID information of the target device and a transmission signal indicating that the device cannot be received are received from the communication failure detection means of the other device, it is confirmed whether or not the device can relay to the target device. Relayable asserting means for obtaining a distance from the target device from the position information correcting means and outputting a transmission signal indicating the distance information and relayability;
When receiving a transmission signal from the relayable assertion means of each device, the distance information in each transmission signal is compared with the distance information of the target device obtained by its own relayable assertion means. When indicating a close distance, a relay device determining means for sending a relay activation signal;
When the relay activation signal is received from the relay device determining means, the received signal is received when a transmission signal whose transmission source is the ID information of the device that has failed reception or a transmission signal whose transmission source is the ID information of the target device is received. And a relay means for retransmitting the contents without changing the contents.

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