JP2011145258A - System and method for specifying information transmission time - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem wherein a transmission time of one-way information is not specified when a transmission time of information from a first communication device to a second communication device and a transmission time of the information from the second communication device to the first communication device are different in a communication network connected through a line with the conventional first communication device and the second communication device. <P>SOLUTION: A system 100 for specifying information transmission time has a first clocking device 1 and a second clocking device 2 having a clock function respectively. The first clocking device 1 transmits information to the first communication device 3 as test information including a value specifying a transmission time of the information when transmitting the information specifying the transmission time to the first communication device 3. The second clocking device 2 receives the test information transferred from the first communication device 3 to the second communication device 4 from the second communication device 4 and specifies the transmission time of the test information by subtracting a value specifying the transmission time included in the test information from a value specifying a receiving time of the test information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a technique for specifying an information transmission time.

  For example, when a communication network in which a first communication device such as a telephone switch is connected to a second communication device by a line is to be put into practical use, a method for using the communication network should be designed in consideration of the information transmission time. There is. At that time, it is necessary to accurately specify the information transmission time.

  Conventionally, when specifying a transmission time of information in a communication network in which a first communication device and a second communication device are connected by a line, a time measuring device is connected to the first communication device, and the second communication device is connected to the information return device. Set to. Then, a predetermined signal is transmitted from the timing device to the first communication device, the time taken for the signal to be returned by the second communication device and returned to the timing device is measured, and half of the time is calculated as one-way information. The transmission time is specified (for example, see Patent Document 1).

  When the function of the first communication device and the function of the second communication device are the same, the transmission time of information from the first communication device to the second communication device and the information transmission time from the second communication device to the first communication device. The transmission time is the same. Therefore, the transmission time of one-way information can be specified by the above method.

JP 54-105908 A

  However, when the function of the first communication device and the function of the second communication device are different, the transmission time of information from the first communication device to the second communication device and the information from the second communication device to the first communication device The transmission time may differ. In that case, the above-described method cannot specify the one-way information transmission time.

  The present invention relates to a communication network in which a first communication device and a second communication device are connected by a line, information transmission time from the first communication device to the second communication device, and the first communication from the second communication device to the first communication. It is an object of the present invention to provide an information transmission time specifying system and an information transmission time specifying method capable of specifying a one-way information transmission time even if the information transmission time to the apparatus is different.

  In order to solve the above problems and achieve the above object, an information transmission time specifying system of the present invention specifies information transmission time in a communication network in which a first communication device and a second communication device are connected by a line. Each of which has a clock start device and a clock end device each having a clock function, and the clock start device transmits information for specifying a transmission time to the first communication device. When the information is transmitted to the first communication device, the information is transmitted to the first communication device as test information including a value specifying the transmission time of the information. A value that specifies the transmission time included in the test information from a value that receives the test information transferred from the communication device to the second communication device from the second communication device and specifies a reception time of the test information. The Flip and specifies the transmission time of the said test information from the time counting start point device to the timing end devices.

  An information transmission time specifying method according to the present invention is a method for specifying information transmission time in a communication network in which a first communication device and a second communication device are connected by a line, and information for specifying the transmission time. Transmitting the information to the first communication device as test information including a value specifying the transmission time of the information, and from the first communication device to the second communication. Receiving the test information transferred to the device from the second communication device, specifying the reception time of the test information, and specifying the transmission time included in the test information from a value specifying the reception time And determining a transmission time of the test information.

  The present invention relates to a communication network in which a first communication device and a second communication device are connected by a line, information transmission time from the first communication device to the second communication device, and the first communication from the second communication device to the first communication. It is possible to provide an information transmission time specifying system and an information transmission time specifying method capable of specifying the one-way information transmission time even if the information transmission time to the apparatus is different.

It is a block diagram of the information transmission time specific system of embodiment. It is a figure for demonstrating the operation | movement which sets time. It is a figure for demonstrating the operation | movement which measures each oscillation frequency of a 1st crystal oscillator and a 2nd crystal oscillator. It is a figure for demonstrating the transmission time of information. It is a block diagram of the information transmission time specific system of a modification.

  EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated with reference to drawings.

(Embodiment 1)
First, the configuration of the information transmission time specifying system 100 according to the first embodiment will be described with reference to FIG. FIG. 1 is a configuration diagram of an information transmission time identification system 100 according to the first embodiment. The information transmission time specifying system 100 is a system used when specifying the information transmission time in a communication network in which a first communication device and a second communication device are connected by a dedicated line, and is a first time measuring device. 1 and a second timing device 2. The 1st communication apparatus 3 and the 2nd communication apparatus 4 are also shown by FIG. The first communication device 3 and the second communication device 4 are connected by a dedicated first line 5 and second line 6. The first timing device 1 is connected to the first communication device 3, and the second timing device 2 is connected to the second communication device 4.

  The information transmission time specifying system 100 specifies the transmission time of information transmitted from the first time measuring device 1 to the second time measuring device 2 via the first communication device 3 and the second communication device 4 in order. The transmission time of the information transmitted to the 1st time measuring device 1 through the 2nd communication device 4 and the 1st communication device 3 in order from the 2 time measuring device 2 is specified. Below, each structure of the 1st communication apparatus 3, the 2nd communication apparatus 4, the 1st time measuring apparatus 1, and the 2nd time measuring apparatus 2 is demonstrated in order.

  The first communication device 3 includes a first communication unit 31 and a second communication unit 32. The second communication device 4 includes a third communication unit 41 and a fourth communication unit 42. The first communication unit 31 of the first communication device 3 and the third communication unit 41 of the second communication device 4 are connected by the first line 5, and the second communication unit 32 of the first communication device 3, The fourth communication unit 42 of the second communication device 4 is connected by the second line 6. Each communication unit of the first communication device 3 and the second communication device 4 receives information from one connection partner and transmits the information to the other connection partner.

  The first timing device 1 includes a first input unit 11, a first reception unit 12, a first clock unit 13, a first transmission unit 14, a first reception unit 15, a first specification unit 16, 1 notification unit 17.

  The first input unit 11 is a component used when the user inputs an instruction for specifying the information transmission time to the first time measuring device 1. The first receiving unit 12 receives an instruction for specifying the information transmission time, which is input to the first timing device 1 by the user using the first input unit 11. The first clock unit 13 has a clock function. The first timepiece unit 13 includes a first housing 130a that keeps the inside at a predetermined temperature and a predetermined humidity, a first crystal oscillator 130b that is housed in the first housing 130a, and the number of oscillations of the first crystal oscillator 130b. And a first counter 130c for measuring. The first clock unit 13 implements a clock function based on the oscillation of the first crystal oscillator 130b.

  The first transmission unit 14 is connected to the first communication unit 31 of the first communication device 3. The first transmission unit 14 receives information for specifying the transmission time based on the clock function of the first clock unit 13 when the first reception unit 12 receives an instruction for specifying the transmission time of the information. The test information including the transmission time of the information is transmitted to the first communication unit 31 of the first communication device 3. The first receiving unit 15 is connected to the second communication unit 32 of the first communication device 3. The first receiving unit 15 receives test information from the second communication unit 32 of the first communication device 3. The test information received by the first receiver 15 is transmitted from the second timing device 2 to the second communication device 4, and passes through the second communication device 4 and the first communication device 3 in that order, so that the first timing device 1 It is the information that reached.

  The first specifying unit 16 specifies the time when the first receiving unit 15 receives the test information based on the clock function of the first clock unit 13, and the test received by the first receiving unit 15 from the specified receiving time. The transmission time of the test information from the second timing device 2 to the first timing device 1 is specified by subtracting the transmission time included in the information. The first notification unit 17 displays the transmission time specified by the first specification unit 16.

  The second timing device 2 is a device having the same function as the first timing device 1, and includes a second input unit 21, a second reception unit 22, a second clock unit 23, a second transmission unit 24, It has the 2nd receiving part 25, the 2nd specific | specification part 26, and the 2nd alerting | reporting part 27. FIG.

  The second input unit 21 is a component used when the user inputs an instruction for specifying the transmission time of information to the second timing device 2. The second receiving unit 22 receives an instruction for specifying the information transmission time, which is input to the second timing device 2 by the user using the second input unit 21.

  The second clock unit 23 has a clock function. The second timepiece unit 23 includes a second housing 230a that keeps the inside at the predetermined temperature and the predetermined humidity, and a second crystal oscillator 230b that is housed in the second housing 230a. In the first embodiment, it is assumed that the oscillation characteristic of the second crystal oscillator 230b is the same as the oscillation characteristic of the first crystal oscillator 130b of the first time measuring device 1. The second clock unit 23 further includes a second counter 230c that measures the number of oscillations of the second crystal oscillator 230b. The second clock unit 23 implements a clock function based on the oscillation of the second crystal oscillator 230b. Since the second crystal oscillator 230b and the first crystal oscillator 130b of the first time measuring device 1 are housed in a casing having the same temperature and the same humidity, the same oscillation function is realized. Accordingly, the second clock unit 23 and the first clock unit 13 of the first time measuring device 1 realize the same clock function.

  The second transmission unit 24 is connected to the fourth communication unit 42 of the second communication device 4. When the second transmission unit 24 receives an instruction for specifying the transmission time of information, the second transmission unit 24 receives information for specifying the transmission time based on the clock function of the second clock unit 23. The test information including the transmission time of the information is transmitted to the fourth communication unit 42 of the second communication device 4. The second receiving unit 25 is connected to the third communication unit 41 of the second communication device 4. The second receiving unit 25 receives test information from the third communication unit 41 of the second communication device 4. The test information received by the second receiving unit 25 is transmitted from the first time measuring device 1 to the first communication device 3, and passes through the first communication device 3 and the second communication device 4 in that order. It is the information that reached.

  The second specifying unit 26 specifies the time when the second receiving unit 25 receives the test information based on the clock function of the second clock unit 23, and the test received by the second receiving unit 25 from the specified receiving time. The transmission time of the test information from the first timing device 1 to the second timing device 2 is specified by reducing the transmission time included in the information. The second notification unit 27 displays the transmission time specified by the second specification unit 26.

  Next, the operation of the information transmission time specifying system 100 according to Embodiment 1 will be described.

  Before the information transmission time specifying system 100 specifies the information transmission time, the operator, as shown in FIG. 2, the first timepiece unit 13 of the first time measuring device 1 and the second timepiece of the second time measuring device 2. The unit 23 is connected to a time adjustment device 7 that outputs a time adjustment signal. At that time, the operator sets the time of the first clock unit 13 and the second clock unit 23 so that the time clock signal output from the time clocking device 7 reaches the first clock unit 13 and the second clock unit 23 at the same time. Connect to the alignment device 7. For example, the operator connects the first clock unit 13 and the second clock unit 23 to the time setting device 7 using the same connecting member 70, and outputs the time setting signal output from the time setting device 7 to the first timepiece. The unit 13 and the second clock unit 23 are made to reach at the same time.

  Then, the operator inputs an instruction for outputting the time adjustment signal to the time adjustment device 7 through the third input unit 71 provided in the time adjustment device 7. The time adjustment device 7 receives the instruction and outputs a time adjustment signal to the first clock unit 13 and the second clock unit 23 simultaneously. The time adjustment signal from the time adjustment device 7 reaches the first clock unit 13 and the second clock unit 23 simultaneously. The first counter 130c of the first clock unit 13 and the second counter 230c of the second clock unit 23 are simultaneously reset based on the time adjustment signal from the time adjustment device 7, and the number of oscillations of the crystal oscillator from that point in time is reset. Resume measurement. At the same time, the time indicated by the first clock part 13 coincides with the time indicated by the second clock part 23.

  Thereafter, the operator removes the first timing device 1 and the second timing device 2 from the time setting device 7. Next, as shown in FIG. 1, the worker places the first communication device 3 out of the first communication device 3 and the second communication device 4 connected by the first line 5 and the second line 6. While connecting the 1st time measuring device 1, the 2nd time measuring device 2 is connected to the 2nd communication apparatus 4. FIG. Specifically, the worker connects the first transmission unit 14 of the first timing device 1 to the first communication unit 31 of the first communication device 3 and also connects the first reception unit 15 of the first timing device 1. The second communication unit 32 of the first communication device 3 is connected. Then, the worker connects the second transmission unit 24 of the second timing device 2 to the fourth communication unit 42 of the second communication device 4 and connects the second reception unit 25 of the second timing device 2 to the second timing. Connect to the third communication unit 41 of the communication device 4.

  In this way, after connecting the first timing device 1 to the first communication device 3 and connecting the second timing device 2 to the second communication device 4, the information transmission time specifying system 100 specifies the information transmission time. .

  First, the operation of the information transmission time specifying system 100 for specifying the transmission time of information transmitted from the first time measuring device 1 to the second time measuring device 2 via the first communication device 3 and the second communication device 4 in order will be described. To do.

  The operator inputs an instruction for specifying the transmission time to the first timing device 1 using the first input unit 11. The first reception unit 12 receives the instruction, and the first transmission unit 14 includes information for specifying the transmission time based on the clock function of the first clock unit 13 and test information including the transmission time of the information. To the first communication device 3. In the first communication device 3, the first communication unit 31 receives test information from the first time measuring device 1 and transmits it to the second communication device 4. In the second communication device 4, the third communication unit 41 receives the test information from the first communication device 3 and transmits it to the second timing device 2.

  In the second timing device 2, the second receiving unit 25 receives the test information from the second communication device 4. Based on the clock function of the second clock unit 23, the second specifying unit 26 specifies the time when the second receiving unit 25 receives the test information, and subtracts the transmission time included in the test information from the specified reception time. The transmission time of the test information from the first time measuring device 1 to the second time measuring device 2 is specified. The second notification unit 27 displays the transmission time specified by the second specification unit 26. Thereby, the operator can know the transmission time of information transmitted from the first timing device 1 to the second timing device 2 via the first communication device 3 and the second communication device 4 in order.

  Next, the operation of the information transmission time specifying system 100 that specifies the transmission time of the information transmitted from the second timing device 2 to the first timing device 1 via the second communication device 4 and the first communication device 3 in order. explain.

  The operator inputs an instruction for specifying the transmission time to the second timing device 2 using the second input unit 21. The second reception unit 22 receives the instruction, and the second transmission unit 24 uses the clock function of the second clock unit 23 to determine information for specifying the transmission time and test information including the transmission time of the information. To the second communication device 4. In the second communication device 4, the fourth communication unit 42 receives the test information from the second timing device 2 and transmits it to the first communication device 3. In the first communication device 3, the second communication unit 32 receives the test information from the second communication device 4 and transmits it to the first time measuring device 1.

  In the first timing device 1, the first receiving unit 15 receives test information from the first communication device 3. The first specifying unit 16 specifies the time when the first receiving unit 15 receives the test information based on the clock function of the first clock unit 13, and subtracts the transmission time included in the test information from the specified receiving time. The transmission time of the test information from the second timing device 2 to the first timing device 1 is specified. The first notification unit 17 displays the transmission time specified by the first specification unit 16. Thereby, the operator can know the transmission time of information transmitted from the second timing device 2 to the first timing device 1 via the second communication device 4 and the first communication device 3 in order.

  As described above, in the information transmission time specifying system 100 according to the first embodiment, the first timing device 1 transmits the test information to the first communication device 3, and the second timing device 2 is connected to the first communication device 3. The test information that has passed through the second communication device 4 in that order is received. Then, the second timing device 2 specifies the transmission time of the test information from the first timing device 1 to the second timing device 2 by subtracting the transmission time included in the test information from the reception time of the test information. Display transmission time.

  Similarly, the second timing device 2 transmits the test information to the second communication device 4, and the first timing device 1 receives the test information that has passed through the second communication device 4 and the first communication device 3 in that order. To do. And the 1st time measuring device 1 subtracted the transmission time contained in test information from the reception time of test information, specified the transmission time of the test information from the 2nd time measuring device 2 to the 1st time measuring device 1, and specified Display transmission time.

  Thereby, the transmission time of the information transmitted from the 1st time measuring device 1 to the 2nd time measuring device 2 via the 1st communication device 3 and the 2nd communication device 4 in order can be specified. In addition, it is possible to specify a transmission time of information transmitted from the second timing device 2 to the first timing device 1 via the second communication device 4 and the first communication device 3 in order. That is, even if the information transmission time from the first communication device 3 to the second communication device 4 and the information transmission time from the second communication device 4 to the first communication device 3 are different, the information of the first embodiment If the transmission time specifying system 100 is used, the transmission time of one-way information can be specified.

(Embodiment 2)
In the first embodiment described above, the oscillation characteristic of the first crystal oscillator 130b of the first clock unit 13 of the first time measuring device 1 and the oscillation characteristic of the second crystal oscillator 230b of the second clock unit 23 of the second time measuring device 2 are described. Are assumed to be the same. However, the oscillation characteristic of the first crystal oscillator 130b may be different from the oscillation characteristic of the second crystal oscillator 230b. In other words, there may be individual differences between the first crystal oscillator 130b and the second crystal oscillator 230b.

  In the second embodiment, a description will be given of a mode for specifying a transmission time of information when there is an individual difference between the first crystal oscillator 130b and the second crystal oscillator 230b. The configuration of the information transmission time specifying system 100 according to the second embodiment is the same as that of the information transmission time specifying system 100 according to the first embodiment, and the operation differs between the second embodiment and the first embodiment. In the second embodiment, differences from the first embodiment will be described.

  First, the operator prepares a third casing in which the internal temperature and humidity are the same as the internal temperature and humidity of the first casing 130a of the first clock unit 13 of the first timing device 1, respectively. Prepare an oscillation frequency timer. Next, the operator removes the first crystal oscillator 130b of the first clock unit 13 of the first time measuring device 1 from the first time measuring device 1, and also the second crystal oscillator of the second clock unit 23 of the second time measuring device 2. 230 b is removed from the second timing device 2.

  Next, as shown in FIG. 3, the worker houses the first crystal oscillator 130 b and the second crystal oscillator 230 b in the third housing 320, and sets the oscillation frequency measuring device 8 outside the third housing 320. They are connected separately by electrical wiring 80. Then, the operator measures the oscillation frequency of the first crystal oscillator 130b and the oscillation frequency of the second crystal oscillator 230b with the oscillation frequency timing device 8.

  Next, the operator uses the first input unit 11 to determine the oscillation frequency of the first crystal oscillator 130 b and the oscillation frequency of the second crystal oscillator 230 b measured by the oscillation frequency timing device 8. To enter. The first receiving unit 12 receives the oscillation frequency of the first crystal oscillator 130b and the oscillation frequency of the second crystal oscillator 230b, and the first specifying unit 16 holds the information received by the first receiving unit 12.

  Similarly, the operator uses the second input unit 21 to calculate the oscillation frequency of the first crystal oscillator 130 b and the oscillation frequency of the second crystal oscillator 230 b measured by the oscillation frequency timing device 8. To enter. The second reception unit 22 receives the oscillation frequency of the first crystal oscillator 130b and the oscillation frequency of the second crystal oscillator 230b, and the second specification unit 26 holds the information received by the second reception unit 22.

  Next, the operator takes out the first crystal oscillator 130 b and the second crystal oscillator 230 b from the oscillation frequency measuring device 8, and uses the first crystal oscillator 130 b as the first housing of the first timepiece unit 13 of the first time measuring device 1. The second crystal oscillator 230b is housed in the second housing 230a of the second clock unit 23 of the second time measuring device 2 while being housed in the body 130a. Then, as described with reference to FIG. 2 in the first embodiment, the operator sets the first clock unit 13 of the first timing device 1 and the second clock unit 23 of the second timing device 2 to the time. An instruction for connecting to the time adjustment device 7 and outputting a time adjustment signal is input to the time adjustment device 7.

  The time adjustment device 7 receives the instruction and outputs a time adjustment signal to the first clock unit 13 and the second clock unit 23 simultaneously. Since the time adjustment signal from the time adjustment device 7 reaches the first clock unit 13 and the second clock unit 23 simultaneously, the first counter 130c of the first clock unit 13 and the second counter 230c of the second clock unit 23 are used. Are simultaneously reset based on the time adjustment signal from the time adjustment device 7 and restart the measurement of the number of oscillations of the crystal oscillator from that time.

  Next, when specifying the transmission time of the test information transmitted from the first time measuring device 1 to the second time measuring device 2 via the first communication device 3 and the second communication device 4 in order, the second embodiment The operation of the information transmission time specifying system 100 will be described.

  As in the first embodiment, the first transmission unit 14 of the first time measuring device 1 outputs test information to the first communication device 3. However, in the second embodiment, the first transmission unit 14 transmits the test information including the value indicated by the first counter 130c of the first clock unit 13 when transmitting the test information. In the second timing device 2, the second receiving unit 25 receives test information from the first timing device 1 that has passed through the first communication device 3 and the second communication device 4 in order.

The second specifying unit 26 of the second time measuring device 2 calculates the individual difference α of the first crystal oscillator 130b of the first time measuring device 1 with respect to the second crystal oscillator 230b of the second time measuring device 2 by the following equation (1). To do.

  In Expression (1), “Fs” is the oscillation frequency of the first crystal oscillator 130b, and “Fm” is the oscillation frequency of the second crystal oscillator 230b.

Next, the second specifying unit 26 calculates the correction value β by the following equation (2).

  In Expression (2), “Ts” is indicated by the first counter 130 c of the first clock unit 13 of the first time measuring device 1 when the test information transmitted from the first time measuring device 1 to the first communication device 3 is transmitted. Value. “Tc” is the value of each counter when the first counter 130 c of the first clock unit 13 and the second counter 230 c of the second clock unit 23 of the second timing device 2 are reset. For example, “Tc” is a value “0 (zero)” indicated by the first counter 130 c and the second counter 230 c.

And the 2nd specific | specification part 26 calculates the value of the counter corresponding to the transmission time of the test information from the 1st time measuring device 1 to the 2nd time measuring device 2 by following formula (3).

  In Expression (3), “t” is a transmission time of the test information considering individual differences between the first crystal oscillator 130 b and the second crystal oscillator 230 b, and “Tr” is the second time of the second time measuring device 2. This is a value indicated by the second counter 230c of the second clock unit 23 when the receiving unit 25 receives the test information.

  As described above, the value Tc of each counter when the first counter 130c and the second counter 230c are reset, the value Ts indicated by the first counter 130c of the first clock unit 13 when the test information is transmitted, and the test information FIG. 4 shows the relationship between the value Tr indicated by the second counter 230c of the second timepiece unit 23 and the transmission time t of the test information when is received.

  By the way, the value “t” obtained by the above equation (3) is a numerical value indicating the transmission time as a counter value. Therefore, the second specifying unit 26 specifies the transmission time by dividing the value “t” obtained by Expression (3) by the oscillation frequency of the second crystal oscillator 230b.

  As described above, the information transmission time specifying system 100 according to the second embodiment specifies the transmission time of the test information from the first time measuring device 1 to the second time measuring device 2 using the equations (1) to (3). To do. That is, by using the information transmission time specifying system 100 of the second embodiment, the oscillation characteristics of the first crystal oscillator 130b of the first clock unit 13 of the first time measuring device 1 and the second clock unit of the second time measuring device 2 are used. Even if there are individual differences in the oscillation characteristics of the second second crystal oscillator 230b, the transmission time can be specified accurately.

  Up to this point, the second embodiment for specifying the transmission time of test information transmitted from the first timing device 1 to the second timing device 2 via the first communication device 3 and the second communication device 4 in order. The operation of the information transmission time specifying system 100 has been described. By the way, the 1st time measuring device 1 and the 2nd time measuring device 2 have the same function. Therefore, if the information transmission time specifying system 100 of the second embodiment is used, even if there is an individual difference between the oscillation characteristics of the first crystal oscillator 130b and the oscillation characteristics of the second crystal oscillator 230b, the second time measuring device 2 The transmission time of the test information to the first time measuring device 1 can also be specified accurately.

(Modification)
In the first embodiment, the test information includes the test information transmission time itself. However, as in the second embodiment, the test information may include a value indicated by the counter of the clock unit at the time of transmitting the test information as a value for specifying the transmission time. In that case, the second specifying unit 26 of the second timing device 2 subtracts the value included in the test information from the value of the second counter 230c of the second clock unit 23 when the test information is received, and obtains the obtained value. By dividing by the oscillation frequency of the second crystal oscillator 230b, the transmission time of the test information from the first timing device 1 to the second timing device 2 is specified. Similarly, the first specifying unit 16 of the first time measuring device 1 subtracts the value included in the test information from the value of the first counter 130c of the first clock unit 13 at the time of receiving the test information, and obtains the obtained value. By dividing by the oscillation frequency of the first crystal oscillator 130b, the transmission time of the test information from the second timing device 2 to the first timing device 1 is specified.

  In the first embodiment and the second embodiment described above, the first clock unit 13 includes the first crystal oscillator 130b and realizes a clock function based on the oscillation, and the second clock unit 23 A two-crystal oscillator 230b is provided, and a clock function is realized based on the oscillation. However, the clock function may be realized without using a crystal oscillator. For example, the clock function may be realized by a clock unit that receives time data by radio waves.

  Specifically, as shown in FIG. 5, the first time measuring device 1 is replaced with a first time measuring device 1A having a first antenna 50 and a third clock unit 51, and the second time measuring device 2 is a second time measuring device. The second timing device 2 </ b> A having the antenna 60 and the fourth clock unit 61 may be replaced. The first antenna 50 receives time data, and the third clock unit 51 realizes a clock function based on the time data received by the first antenna 50. Similarly, the second antenna 60 receives time data, and the fourth clock unit 61 realizes a clock function based on the time data received by the second antenna 60.

  Each of the first antenna 50 and the second antenna 60 may receive time data emitted by a satellite of the global positioning system, or may receive time data transmitted by radio waves from a transmission station having an atomic clock for a radio clock. May be.

  In the first timing device 1A shown in FIG. 5, the first transmission unit 14 transmits test information including a value for specifying the transmission time based on the clock function of the third clock unit 51, and the first specification unit 16 Based on the clock function of the third clock unit 51, the reception time of the test information by the first reception unit 15 is specified. Similarly, in the second timing device 2A, the second transmission unit 24 transmits test information including a value specifying the transmission time based on the clock function of the fourth clock unit 61, and the second specification unit 26 Based on the clock function of the fourth clock unit 61, the reception time of the test information by the second receiving unit 25 is specified.

  In the first embodiment and the second embodiment described above, the first notification unit 17 of the first timing device 1 displays the transmission time specified by the first specifying unit 16. However, the first notification unit 17 may output the transmission time specified by the first specification unit 16 to the outside of the first time measuring device 1 by sound. Similarly, the second notification unit 27 of the second timing device 2 may output the transmission time specified by the second specifying unit 26 to the outside of the second timing device 2 by sound. In short, the first notification unit 17 notifies the transmission time specified by the first specifying unit 16 to the outside of the first timing device 1 in any form, and the second notification unit 27 What is necessary is just to alert | report the transmission time specified by the part 26 to the exterior of the 2nd time measuring device 2 by either form.

  Furthermore, the first timing device 1 and the second timing device 2 may be replaced with a communication device that does not have a function of specifying the transmission time. In that case, the information transmission time specifying system has the function of specifying the transmission time and the function of notifying the outside of the system of the transmission time that the first time measuring device 1 and the second time measuring device 2 have. A device is provided.

  DESCRIPTION OF SYMBOLS 100 Information transmission time identification system, 1 1st time measuring device, 2 2nd time measuring device, 3 1st communication device, 4 2nd communication device, 5 1st line, 6 2nd line, 11 1st input part, 12 1st Reception unit, 13 first clock unit, 14 first transmission unit, 15 first reception unit, 16 first identification unit, 17 first notification unit, 130a first housing, 130b first crystal oscillator, 130c first counter, 21 2nd input part, 22 2nd reception part, 23 2nd clock part, 24 2nd transmission part, 25 2nd reception part, 26 2nd specification part, 27 2nd alerting | reporting part, 230a 2nd housing | casing, 230b 2nd 2 crystal oscillator, 230c second counter, 31 first communication unit, 32 second communication unit, 41 third communication unit, 42 fourth communication unit.

Claims (7)

It is used when specifying the transmission time of information in a communication network in which the first communication device and the second communication device are connected by a line, each of which comprises a time starting device and a time end device having a clock function,
The timing start device is a device that transmits information for specifying a transmission time to the first communication device, and when the information is transmitted to the first communication device, the information is transmitted to the transmission time of the information. Is transmitted to the first communication device as test information including a value for specifying
The time measuring end point device receives the test information transferred from the first communication device to the second communication device from the second communication device, and changes the test information reception time from the value specifying the test information to the test information. An information transmission time specifying system that specifies a transmission time of the test information from the time measuring starting point device to the time measuring end point device by subtracting a value specifying the transmission time included. The time starting device has a first oscillator, and realizes a clock function based on the oscillation of the first oscillator,
The information transmission time specifying system according to claim 1, wherein the time measuring end point device includes a second oscillator and realizes a clock function based on oscillation of the second oscillator. The timing start device has a first housing that maintains the inside at a predetermined temperature, and the first oscillator is housed in the first housing,
The information transmission time identification system according to claim 2, wherein the timing end point device includes a second casing that maintains the temperature inside the second casing, and the second oscillator is housed in the second casing. The timing end point device acquires information indicating a difference between the oscillation characteristics of the first oscillator and the oscillation characteristics of the second oscillator at the temperature, and a value that specifies the transmission time from a value that specifies the reception time The information transmission time specifying system according to claim 3, wherein the transmission time is specified by correcting a result obtained by subtracting the value based on the difference. The information transmission time specifying system according to claim 1, wherein each of the timing start device and the timing end device receives time data based on radio waves and realizes a clock function based on the received time data. A method for specifying a transmission time of information in a communication network in which a first communication device and a second communication device are connected by a line,
When transmitting information for specifying a transmission time to the first communication device, transmitting the information to the first communication device as test information including a value for specifying a transmission time of the information;
Receiving from the second communication device the test information transferred from the first communication device to the second communication device;
Specifying the test information reception time, subtracting a value specifying the transmission time included in the test information from a value specifying the reception time, and specifying a transmission time of the test information. Transmission time identification method. Furthermore,
Storing a first oscillator and a second oscillator in a first housing that maintains an internal temperature at a predetermined temperature, and detecting a difference between an oscillation characteristic of the first oscillator and an oscillation characteristic of the second oscillator at the temperature;
The first oscillator is housed in a second casing that keeps the inside at the temperature, and is disposed in the time starting device, and the time starting device is provided with a clock function based on the oscillation of the first oscillator, and the second oscillator Storing in a third housing that keeps the inside at the temperature and placing it in the timing end point device, and having the clock end point device based on the oscillation of the second oscillator,
In the step of specifying the transmission time, the result obtained by subtracting the value specifying the transmission time from the value specifying the reception time is corrected based on the difference, and the transmission time is specified,
Causing the timing start device to execute the step of transmitting the test information to the first communication device;
The information transmission time specifying method according to claim 6, wherein the timing end point device is caused to execute the step of receiving the test information and the step of specifying the transmission time.

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