JP3598415B2 - Transmission control device and network control system - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION
[0001]
The present invention relates to a transmission control device connected to a network and controlling corresponding devices, and a network control system provided with the transmission control device, and more particularly to a transmission control device operating the network control system.TestAbout technology.
[Prior art]
[0002]
Generally in the railway fieldInA number of on-site devices, such as blocking devices, traffic lights, level crossings, and the like, are installed in stations and along railway lines. These field devices are connected to a network via a transmission control device, and are controlled in association with each other.
[0003]
As shown in Japanese Patent Application Laid-Open No. 2000-159107, as a test technique of a transmission device or a field device, simulation data is transmitted from a terminal device to a transmission device even when a field device is not connected to the transmission device.SendTransmission equipment and field equipmentTest betweenThe technology is known.
[Problems to be solved by the invention]
[0004]
However, in the technique described in Japanese Patent Application Laid-Open No. 2000-159107, a certain transmission device and a field deviceTest betweenIfThis test, via the network,Test targetNot normalOperating transmission equipment and sitesAffect equipmentThe problem to be considered is considered.
[0005]
In other words, a certain transmission device and on-site equipmentTest betweenTime, information from other relevant operational field devicesBut,Transmission equipment connected to the on-site equipmentThrough,When the information is sent to the network and the sent information is taken from the network to the transmission device under test, the information affects the test. In addition, information output from on-site equipment under testBut,Transmission equipment connected to the on-site equipmentThrough,Send to networkAndThere is a problem that the information is input to other related field devices in operation, and the field device in operation malfunctions.
[0006]
In addition, the above-mentioned transmission device is only for information transmission.But notProcessing of information, that is, control signals for connected field devices in accordance with the received signalsGenerateSince there is a case where the data is output, the following description will be made as a transmission control device.
[0007]
The object of the present invention isMultiple devices via transmission control deviceConnected network control systemAtEquipment under testOrEnsure that the transmission control unit is not affected by other devices in operationWithMake sure that the equipment under test does not affect other equipment in operation.Can testIs to do so.
[Means for Solving the Problems]
[0008]
The present invention, in order to achieve the above object,Control signal generating means for generating and outputting a control signal to a corresponding device by receiving a telegram signal taken from a communication line constituting a network, and transmitting a status signal taken from the corresponding device to the communication line as an input Telegram signal generation means for generating telegram signalAnd an operation mode signal holding unit in which one of the operation modes of the test mode and the normal mode is set,Generation of the telegram signalThe means isA signal representing the same operation mode as the operation mode set in the operation mode signal holding meansAdded to the generated telegram signal,The control signal generating means is configured to output the electronic signal from the communication line.From aboveAn input is a telegram signal to which a signal representing the same operation mode as the operation mode set in the operation mode signal holding means is added.In the transmission control device selected and operated in one of the operation modes of the test mode and the normal mode, the signal indicating the operation mode is a source transmission control device address indicating a transmission source of the message signal, and the transmission source transmission The control device address is different when the operation mode set in the operation mode signal holding means is the normal mode and when the operation mode is the test mode.A transmission control device is proposed.
[0009]
The present invention also providesNetwork formed by communication lines through which telegram signals flowAnd eachVia transmission controlTo the networkMultiple connected devicesAndThe transmission control deviceBut taken in from the communication lineA control signal to each of the connected devices is received as a message signal as an input.Generate and output,The state signal fetched from each connected device is input and theGenerateTo the communication lineSend outIn a network control system,A network control system is proposed in which the transmission control device is the transmission control device using different addresses.
[0010]
The above problem is caused by the fact that a signal used for a test and a signal used for a normal operation flow in the network in a mixed manner.
[0011]
Therefore,The inventors have made it possible to distinguish between the signal used for the test and the signal used for the normal operation, and the transmission controller under test transmits and receives the signal that is distinguished as the signal used for the test to and from the network. The transmission control device in operation sends and receives signals distinguished as signals used for normal operation to and from the network.I did it.
[0012]
That is, the type of the operation mode can be set in the transmission control device, and a signal for identifying the operation mode of the transmission control device of the transmission source is added to the message signal flowing through the network. A control signal to the corresponding device is input using a message signal to which a signal indicating the mode has been added.Generate and output,In the telegram signal sent to the network, a signal indicating the operation mode set for theAdd.
BEST MODE FOR CARRYING OUT THE INVENTION
[0013]
Next, referring to FIGS. 1 and 2,According to the inventionEmbodiment of transmission control device and network control systemWill be described.
Embodiment 1
[0014]
FIG.FIG. 1 is a diagram illustrating a system configuration of a first embodiment of a network control system according to the present invention. In the first embodiment,Field devices 11 to 15, such as railroad blockers, traffic lights, railroad crossings, etc., are sequentially connected to the network 20 via transmission control devices 1 to 5, respectively.Make up.Further, a monitor terminal 10 is provided so as to be connected to the transmission control device 5. The operator can monitor the operation status of each of the transmission control devices 1 to 5, set the operation mode, and test the operation mode from the monitor terminal 10.do.The transmission control devices 1 to 5 are set to one of the normal mode and the test mode by the monitor terminal 10.Is set.
[0015]
This network control system operates as follows. Each transmission control device selects one of the telegram signals flowing through the network 20 from its own.Addressed toIt receives a message signal, converts it into a control signal for the connected field device, and outputs it to the field device. Each field device operates according to an input control signal, and outputs a signal indicating an operation result depending on the device.The transmission control deviceSignals indicating operation results from field devicesAcceptance,A message signal of a predetermined format is generated and transmitted to the network 20. Some field devices do not operate according to control signals, but also sensors such as sensors that detect some state, for example, the presence or absence of an obstacle at a railroad crossing.included. The transmission control deviceIn the case of such field devices, a signal indicating the presence or absence of an obstacle is sent from the field devices.Acceptance,A message signal of a predetermined format is generated and transmitted to the network 20.
[0016]
In other words, each transmission control device isAddressed toIt takes out the information and controls the on-site equipment, and connects another transmission control device to the network 20.Addressed toinformationSent out,Information sent to the network 20 by a certain transmission control deviceBut,Affects the operation of other field devicesThere are some cases like this.
[0017]
The configuration of the transmission control devices 1 to 5 isBecause they are the sameThe configuration will be described by taking the transmission control device 1 as an example. The transmission control device 1 includes a network message receiving unit (hereinafter, referred to as a network message receiving function) 31 connected to a communication line of the network 20, and a control signal generating unit (hereinafter, message selecting / editing) connected to the network message receiving function 31. A field device output means (hereinafter, referred to as a field device output function) 36 connected to the message selection / editing function 33, and a field device input means (hereinafter, field device) connected to a signal output terminal of the field device 11. A message signal generating means (hereinafter, referred to as a network message generating function) 35 connected to the on-site device input function 37, and a network message generating function 35 and the network message receiving function 31 on the input side.Output side connectedIs connected to a communication line of the network 20 (hereinafter referred to as a network message transmission function) 32, and an operation mode signal holding unit (hereinafter, referred to as a network message transmission function) connected to the message selection / editing function 33 and the network message generation function 35. (Referred to as operation mode setting function) 34AndIt is comprised including.
[0018]
The output side of the field device output function 36 is connected to the signal input terminal of the field device 11, and the output side of the network message transmission function 32 is connected to the network 20.
[0019]
The monitor terminal 10 is connected to the transmission control device 5, and the output side of the network message transmission function 32 and the networkBetweenIt is connected to the provided input / output connection terminal and is irrelevant to the internal configuration of the transmission control device 5. It is not necessary to limit the number of transmission control devices provided with the input / output connection terminals to one, and they may be provided in each transmission control device and relocated as needed. Note that, when the monitor terminal 10 is connected, the input / output connection terminal is used to output a message signal output from the transmissionIsSent to the network 20 via the monitor terminal 10 and the monitor terminal 10 is not connectedSometimesTo network 20Sent out.
[0020]
The bookEmbodiment 1As shown in FIG. 1, the network 20 includes a communication line connecting an output side of the network message transmission function 32 of the upstream transmission control device and an input side of the network message reception function 31 of the downstream transmission control device. And has a ring shape as a whole.
[0021]
FIG.Is the first embodiment.The configuration of the message signal 40 flowing through the network inFIG.The electronic message signal 40 includes a source transmission control device address 41, an operation mode flag 42, and field device input information 43.
[0022]
The transmission source control device address 41 is information for identifying the transmission source transmission control device, and is independent of the transmission control devices 1 to 5 individually. BookEmbodiment 1In this example, the address values for the transmission control devices 1 to 5 are 1 to 5.
[0023]
The operation mode flag 42 is information indicating the operation mode of the transmission control device, and has a value of 0 or 1. The value 1 indicates that the operation mode of the source transmission control device is the test mode, and the value 0 indicates that the operation mode is the normal mode.
[0024]
The field device input information 43 is status information input from field devices by each transmission control device.
[0025]
There are as many message signals 40 as the number of transmission control devices connected to the network, and a plurality of message signals periodically flow on the network.
[0026]
As described above, the operation mode of the transmission control device is a control signal transmitted from the monitor terminal 10 to the network, and an arbitrary one of the control signals is transmitted.OrNormal operation mode for multiple transmission control devicesOrIn test modeIs set.In this case, the operation mode stored in the operation mode setting function 34 is controlled by the control signal transmitted from the monitor terminal 10.The signalIt is rewritten to "0" indicating the normal mode or "1" indicating the test mode. That is, the operation mode setting function 34 always holds the operation mode signal of “0” indicating the normal mode or “1” indicating the test mode.
[0027]
The network message reception function 31 receives the message signal of the network 20 and transmits the message signal to the message selection / editing function 33, and at the same time, transmits the message signal whose transmission source device address of the received message signal is not its own transmission control device.Sort out,Output to the network message transmission function 32.
[0028]
The message selection and editing function 33 selects and edits information necessary for field device control from the received message signal (network input information: NI) and outputs the information to the field device output function 36.
[0029]
The field device output function 36 is output from the message selection / edit function 33.Control informationOutput to the field device 11 as output information (digital output information: DO).
[0030]
The field device input function 37 takes in the status information (digital input information: DI) of the field device 11 and outputs it to the network message generation function 35.
[0031]
The network message generation function 35 receives a signal input from the field device input function 37 as an input and transmits a message signal (network output information: NO) to be transmitted to the network.GenerateEdit and output to the network message transmission function 32.
[0032]
The network message transmission function 32 sends the message signal output from the network message generation function 35 and the message signal transferred from the network message reception function 31 to the network 20.
[0033]
The operation mode setting function 34 holds the operation mode signal, and a message signal of the operation mode flag that matches the held operation mode signal is selected as an input by the message selection and editing function 33.like,Controls the message selection and editing function 33WithThe operation mode flag of the message signal generated by the network message generation function 35 matches the operation mode signal held.like,The network message generation function 35 is controlled.
[0034]
Note that the monitor terminal 10 captures all message signals transmitted from the transmission control device 5 and, for a message signal whose source transmission control device address is not its own terminal, transmits the message to the network 20.Return toAlso, even if the operation mode flag is a message signal indicating either operation mode, both are distinguished.Can be displayed.
[0035]
Less than,Taking the transmission control device 1 as an example,When the operation mode of all transmission control devices connected to the networkThe operation will be described.
[0036]
The transmission control device 1 fetches the status information (digital input information: DI) of the field device 11 by the field device input function 37, and transmits a message signal (network output information: NO) to be transmitted to the network by the network message generation function 35.GenerateIt is edited and periodically transmitted to the network 20 by the network message transmission function 32. When the network message generation function 35 generates a message signal, the operation mode flag 42 of the generated message signal (NO) is controlled by the operation mode setting function 34 that holds the operation mode signal “0” indicating the normal mode. Is set to the value 0.
[0037]
The message signal transmitted from the transmission control device 1 returns to the transmission control device 1 of the transmission source through all the transmission control devices connected to the network 20.
[0038]
The network message reception function 31 of the transmission control device 1 receives a message signal transmitted from the transmission control devices 1 to 5 from the network 20 and transmits the message signal to the message selection / editing function 33. The message selection / editing function 33 selects and edits information necessary for field device control from the received message signal (network input information: NI), and outputs the control output information (digital output information: DO) to the field device 11 by the field device output function 36. ) Is output. When a message signal is selected by the message selection and editing function 33, the operation mode setting function 34 is controlled to select a message signal in which the value of the operation mode flag 42 is 0 (= normal mode).
[0039]
Also, among the message signals received by the network message receiving function 31, the message signal whose source transmission control device address is not the address of its own transmission control device is also sent to the network message sending function 32, and the network message sending function 32 To the network 20. A message signal whose source transmission control device address is the address of its own transmission control device is not sent to the network message transmission function 32 and is deleted from the network 20.
[0040]
Next, the transmission control device 1 and the field device 11BetweenConnection testdoThe operation at the time will be described. Transmission control device 1 and field device 11BetweenConnection testdoIn this case, the operation mode is set to the test mode from the monitor terminal 10 to the transmission control device 1.Set.With this operation, the operation mode signal held by the operation mode setting function 34 is rewritten to “1” indicating the test mode. Next, a test message signal is sent from the monitor terminal 10 to the network 20.Sent. thisTelegram signalAlso in Figure 2Configuration similar to the described telegram signalAndIt has an address (for example, 6) as the monitor terminal 10, and the value of the operation mode flag 42 is 1 indicating the test mode.
[0041]
Even when the operation mode of the transmission control device 1 is the test mode, the transmission control device 1 receives the message signals flowing through the network 20, that is, the message signals transmitted by the transmission control devices 1 to 5.
[0042]
However, the message selection / editing function 33 sets the value of the operation mode flag 42 to 1 (= test mode) by the operation mode setting function 34 in which the operation mode signal is “1” indicating the test mode when the message signal is selected. Is controlled so as to select only the message signal of the operation mode, the value of the operation mode flag 42 received from the network 20 is 0 (= normal mode), that is, the information of the message signal transmitted from another transmission control device. Are not used for control output to field devices.
[0043]
The message signal transmitted from another transmission control device is transferred from the network message reception function 31 to the network message transmission function 32 as it is, and returned to the communication line of the network 20.
[0044]
Therefore, information from the other field devices in normal operation is transmitted to the transmission control device 1 and the field device 11.BetweenDoes not affect the connection test.
[0045]
The operation mode flag 42 of the telegram signal transmitted from the transmission control device 1 is set to 1 (= test mode) by the operation mode setting function 34 when the telegram signal is edited by the network telegram generation function 35. Is set.
[0046]
Thus, even if the transmission signal transmitted from the transmission control device 1 is received by another transmission control device, the operation mode of the other transmission control device is the normal mode. At the time of editing the field device control information by 33, the message signal received from the transmission control device 1 is not used for output to the field device. However, even if the value of the operation mode flag 42 is 1, if the address of the source transmission control device is not the address of its own transmission control device, the received message signal is transmitted from the network message reception function 31 to the network message transmission function 32. And sent to the network 20 again.
[0047]
Therefore, the transmission control device 1 and the field device 11BetweenTesting is not expected to affect other field devices that are normally operating.
[0048]
Further, the test result can be confirmed by viewing the telegram signal transmitted from the transmission control device to be tested to the network 20 on the monitor terminal 10, so that the quality of the test result is good or bad.Can also be determined.
[0049]
Next, using the input information of the field device 12, the field device 11ControlThe test will be described.
[0050]
The operation mode is set to the test mode from the monitor terminal 10 to the transmission control device 1 and the transmission control device 2.Set to.By this operation, the operation mode signals of the operation mode setting functions 34 of the transmission control device 1 and the transmission control device 2 are both rewritten to the test mode “1”. All other transmission control devices are in the normal mode.
[0051]
As a result, the network message generation function 35 of the transmission control device 2 is controlled by the operation mode setting function 34 set to the test mode when the message signal to be transmitted to the network 20 is generated, and the operation mode flag 42 added to the message signal. To 1 (= test mode). Since the transmission control devices 3 to 5 are all set to the normal mode, the operation mode flags 42 of the telegram signals transmitted from the transmission control devices 3 to 5 to the network 20 are 0 (= normal mode). Has become.
[0052]
On the other hand, the transmission control device 1 is controlled by the operation mode setting function 34 set to the test mode when generating and editing information (control signal) necessary for the field device 11 from the received message signal (NI), Only the message signal whose operation mode flag 42 has the value 1 is selected from the message signals fetched from the communication line, and the selected signal signal is input and the control signal is transmitted.GenerateTo edit.
[0053]
Therefore, the transmission control device 1 transmits information (control signal) necessary for the field device 11 based on the telegram signal transmitted from the transmission control device 2 to the network 20 among the telegram signals fetched from the network 20.GenerateThe message signal edited and transmitted from the transmission control devices 3 to 5 is not used in the transmission control device 1. The value of the operation mode flag 42 of the message signal transmitted from the transmission control device 1 to the network 20 is set to 1 (= test mode), similarly to the message signal transmitted from the transmission control device 2 to the network 20. .
[0054]
When the transmission control devices 3 to 5 generate and edit information (control signal) to be output to the field device based on the telegram signal fetched from the network 20, the value of the operation mode flag 42 of the telegram signal changes to the normal mode. Since only the message signal set to 0 is used, the message signals transmitted from the transmission control device 1 and the transmission control device 2 are not used by the transmission control devices 3 to 5.
[0055]
Therefore, the on-site equipment 11 and the on-site equipment 12BetweenTesting is unaffected by field equipment in normal operation and affects field equipment in normal operationFearThere is no.
Embodiment 2
[0056]
next,Of the present inventionEmbodiment 2Will be described.Embodiment 2IsEmbodiment 1The difference from the above is that in the message signal transmitted from each transmission control device to the network 20,Embodiment 1In the case of adding the source transmission control device address and the operation mode flag,Embodiment 2Is that only the address of the source transmission control device is used.
[0057]
That is, the bookEmbodiment 2In each of the transmission control devices, two types of addresses, ie, addresses 1 to 5 assigned when a message signal is generated in the normal mode and addresses 21 to 25 assigned when a message signal is generated in the test mode, are set. You. As the address of the monitor terminal 10, two types of addresses are set: an address 6 to be assigned when a message signal is generated in the normal mode, and an address 26 to be assigned when a message signal is generated in the test mode.
[0058]
The operation mode setting function 34 sets “A” in the normal mode and “AA” in the test mode as the operation mode signal.
[0059]
When the transmission control device 1 is in the normal mode, that is, when “A” is set as the operation mode signal in the operation mode setting function 34, the control of the operation mode setting function 34 allows the network message generation function 35 to edit the message signal. At this time, a one-digit address 1 is added to the message signal as the source transmission control device address, and the message selection / editing function 33 selects, as an input, a message signal whose source address is one digit.
[0060]
When the transmission control device 1 is in the test mode, that is, when “AA” is set as the operation mode signal in the operation mode setting function 34, the operation mode setting function 34 controls the transmission of the message signal by the network message generation function 35. At this time, a two-digit address 21 is added to the message signal as the source transmission control device address, and the message selection / editing function 33 selects, as an input, a message signal whose source address has two digits.
[0061]
Hereinafter, when the transmission control device 1 is set to the test mode and the transmission control devices 2 to 5 are set to the normal mode, the test by the monitor terminal is performed.Is madeIt will be described as. The network message receiving function 31 of the transmission control device 1 transmits the received message signal to the message selecting / editing function 33.send. Receiving I believedIf the source transmission control device address of the message signal is other than the address (1 or 21) of its own transmission control device, it is also sent to the network message sending function 32 at the same time, and the network message sending function 32 sends the sent message signal. Retransmit to network 20. The message signal whose source transmission control device address is the address (1 or 21) of the own transmission control device is not sent to the network message transmission function 32 and is deleted from the network 20.
[0062]
The message selection / editing function 33 selects and edits information necessary for field device control from the received message signal (network input information: NI), and outputs the control output information (digital output information: DO) to the field device 11 by the field device output function 36. ) Is output. The source transmission control device address of the message signal transmitted from another transmission control device in the normal mode received from the network 20 is 2 to 5 (one digit), and the operation mode signal of the operation mode setting function 34 is the test mode. (2 digits), when the message signal is selected by the message selection and editing function 33, the operation mode setting function 34 sets the value of the source transmission control device address to a two-digit value of 22 to 26 (= test mode). It is controlled to select a telegram signal. That is, the information of the telegram signal (the telegram signal whose source transmission control device address value is 2 to 5) transmitted from the other transmission control device in the normal mode is not used for the control output to the field device, and the network telegram signal is not used. The message is sent from the reception function 31 to the network message transmission function 32 as it is. The message selection and editing function 33 selects a message transmitted from the monitor terminal 10 and having a two-digit source transmission control device address, and generates a control signal to the field device.
[0063]
Therefore, information from the other field devices in normal operation is transmitted to the transmission control device 1 and the field device 11.BetweenDoes not affect the connection test.
[0064]
When a signal is output from the field device 11 to the transmission control device 1, the status information (digital input information: DI) of the field device 11 is fetched by the field device input function 37 and transmitted to the network by the network message generation function 35. Telegram signal (network output information: NO)GenerateIt is edited and periodically transmitted to the network 20 by the network message transmission function 32. At the time of generating a telegram signal in the network telegram generating function 35, the source transmission control device address of the generated telegram signal is set to two digits 21 (= test mode) under the control of the operation mode setting function 34.
[0065]
Thus, even if the transmission signal transmitted from the transmission control device 1 is received by another transmission control device, the operation mode of the other transmission control device is the normal mode, and the source transmission control device address of the received transmission signal is transmitted. Indicates that the transmission source is in the test mode. Therefore, when editing the field device control information by the message selection / editing function 33 of another received transmission control device, the operation mode setting function of the transmission control device is used. Under the control of S <b> 34, the message signal received from the transmission control device 1 is not used for output to the field device. Therefore, the information transmitted from the transmission control device in the test mode to the network does not affect the transmission control device operating in the normal mode and the field devices.
[0066]
The aboveEmbodimentIn the description above, the operation mode signal held by the operation mode setting function 34 is described as "A", "AA", and the example in which the source transmission control device address is one digit or two digits is shown. The source transmission control device address of the message signal generated by the network message generation function 35 is set in accordance with the type of the operation mode signal held by the function 34, and the type of the operation mode signal similarly held by the operation mode setting function 34 The message selection and editing function 33 may select a message signal having a source transmission control device address corresponding to the input as an input.
【The invention's effect】
[0067]
According to the present invention, an operation mode of either the normal mode or the test mode is set in each transmission control device, and the transmission signal is transmitted between transmission control devices having different operation modes.Do not send or receiveFor example, a message signal transmitted from the transmission control device in the normal mode is not taken in by the transmission control device in which the operation mode is the test mode. Conversely, a message signal transmitted from the transmission control device in the operation mode in the test mode is the operation mode. Is not taken into the transmission control device in the normal mode. Therefore, when both the transmission control device operating in the normal mode and the transmission device operating in the test mode are connected to the network, the transmission control device and the device operating in the test mode are connected.Even if you test betweenThe device under test is not affected by the state of the device operating in the normal mode, and the device under test does not affect the control of the device operating in the normal mode.
[Brief description of the drawings]
[0068]
FIG.FIG. 1 is a diagram illustrating a system configuration of a first embodiment of a network control system according to the present invention.
FIG. 2Embodiment 12 is a diagram showing a configuration of a message signal flowing through a network in FIG.
[Explanation of symbols]
[0069]
1-5 Transmission control devices 1-5
10 Monitor terminal
11-15 Field equipment
20 Network
31 Network Message Reception Function
32 Network Message Transmission Function
33 Message selection and editing function
34 Operation mode setting function
35 Network Message Generation Function
36 Field device output function
37 Field device input function

Claims (2)

Control signal generating means for generating and outputting a control signal to a corresponding device by receiving a telegram signal taken from a communication line constituting a network, and transmitting a status signal taken from the corresponding device to the communication line as an input A telegram signal generating unit that generates a telegram signal, and an operation mode signal holding unit in which any one of the operation modes of the test mode and the normal mode is set, wherein the telegram signal generating unit includes: A signal representing the same operation mode as the set operation mode is added to the generated telegram signal, and the control signal generation means is set in the operation mode signal holding means from among the telegram signals taken from the communication line. select the message signal signal representing the same operation mode and there operation mode is added as an input, either the test mode and the normal mode The transmission control device operating in operating mode,
The signal indicating the operation mode is a source transmission control device address indicating a transmission source of the message signal, and the transmission source control device address is such that the operation mode set in the operation mode signal holding unit is the normal mode. A transmission control device, wherein the address is different between the time and the test mode . A network formed by a communication line through which a telegram signal flows, and a plurality of devices connected to the network via a transmission control device , respectively , wherein the transmission control device receives a telegram signal taken from the communication line as an input. A network control system that generates and outputs a control signal to each of the connected devices and generates a message signal with a status signal taken from each of the connected devices as an input and sends out the communication signal to the communication line.
A network control system, wherein the transmission control device is the transmission control device according to claim 1 .

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