JP3938519B2 - Port connection state display method, communication apparatus, and communication system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a port connection state display method, a communication device, and a communication system of a communication device having a user port for IP connection of devices using an IP communication protocol, and particularly to a user in a state in which a user port is not linked The present invention relates to a port connection state display method, a communication device, and a communication system, which improve visibility for confirming an operation state of a user port by actively displaying.
[0002]
[Prior art]
In general, when connecting communication devices that can communicate using the IP (Internet Protocol) communication protocol, a user port capable of IP connection is used, and the communication devices are connected via the user port of the communication device. A communication path is formed by connecting with a cable to perform communication between communication devices.
[0003]
FIG. 11 shows an example of a communication apparatus having a conventional user port.
[0004]
A conventional communication device 90 shown in FIG. 11 is provided with a user port unit 91 having a plurality of user ports 92 each using a connector for a user, and the communication device 90 is provided via the user port 92. It can be connected to an independent user terminal or a user network connected to the user terminal.
[0005]
In addition, the communication device 90 includes a communication connection unit with another communication device, and has a function of transmitting information received at the user port 92 to another communication device.
[0006]
Here, when the user terminal is connected to the user port 92 with a cable, the communication device 90 receives a voltage signal from the connected cable in order to know whether or not the connection is normally performed, It is possible to know a state in which a link is established with the connected user terminal, that is, a state in which the user terminal is normally connected.
[0007]
Conversely, in the state where the cable is not connected to the user port 92, the voltage signal from the cable cannot be received, so that it is recognized that the link cannot be established, that is, the connection is not normal. be able to.
[0008]
In the conventional communication device 90, a green LED (light emitting diode) 93 is provided in the vicinity of each user port 92 of the user port unit 91, and the connection state of the user port 92 is indicated to the user by the green LED 93. It is comprised so that it may alert | report.
[0009]
That is, when it is detected that the cable is normally connected to the user port 92, the green LED 93 is controlled to be turned on, and when it is detected that the cable is not normally connected to the user port 92. Controls to turn off the green LED 93 so that the user can visually recognize the connection state of the user port 92.
[0010]
[Problems to be solved by the invention]
However, in the conventional communication device 90, when it is detected that the cable is not normally connected to the user port 92, the green LED 93 is only controlled to be turned off. Although connected, there is a problem that it is difficult to notice when a link cannot be established due to disconnection of the cable or failure of the network side to which the cable is connected.
[0011]
In a management state in which a plurality of user ports 92 of the communication device 90 can be freely used by the user, the green LED 93 is used to determine to some extent whether the cable is normally connected to the user port 92. For example, in a management state in which the communication device 90 is provided for a fee and a plurality of user ports 92 of the communication device 90 are selectively stopped by the administrator's intention, the green LED 93 is displayed. Even if the light is turned off, it cannot be identified whether the cause is the connection state of the cable to the user port 92 or because the communication stop state is set by the administrator's intention.
[0012]
Therefore, the present invention provides a port connection state display method, a communication device, and a display device that improve visibility for confirming the operation state of a user port by actively displaying to the user a state in which the user port is not linked. An object is to provide a communication system.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, the invention of claim 1 performs IP connection. In a communication apparatus having a plurality of user ports and capable of individually setting the plurality of user ports to a communication operation state and an operation stop state by a network management apparatus In the port connection status display method, in the vicinity of the user port First display means and second display means are provided, respectively, and when the user port is set in a communication operation state by the network management apparatus and the connection state of the user port is normal, the user port The first display means provided in the vicinity of the user port is turned on, the second display means provided in the vicinity of the user port is turned off, and the user port is set in a communication operation state by the network management device. If the connection state of the user port is abnormal, the first display means provided in the vicinity of the user port is turned off, and the second display means provided in the vicinity of the user port is turned off. When the user port is set to the operation stop state by the network management device, the first provided near the user port Turns off both the display unit and the second display means It is characterized by that.
[0014]
The invention of claim 2 is characterized in that, in the invention of claim 1, the first display means comprises a red light emitting diode, and the second display means comprises a green light emitting diode.
[0015]
The invention of claim 3 is the invention of claim 1, The network management device acquires information indicating lighting states of the first display unit and the second display unit from the communication device, and monitors the state of each user port of the communication device based on the acquired information. Do It is characterized by that.
[0016]
The invention of claim 4 In a communication device having a plurality of user ports for performing IP connection, and the plurality of user ports are individually set to a communication active state and an operation stop state by a network management device, each of the user ports is disposed in the vicinity of the user port. The first display means, the second display means respectively disposed in the vicinity of the user port, and whether the connection state of the user port is normal or abnormal is detected corresponding to each user port. Detection means, determination means for determining whether the network management apparatus is set to an active state or a stopped state, corresponding to each user port, and the user port is determined by the network management apparatus by the determination means. It is determined that the communication operation state is set, and the detection means detects that the connection state of the user port is normal. The first display means arranged in the vicinity of the user port is turned on, the second display means arranged in the vicinity of the user port is turned off, and the determination means If it is determined that the user port is set in the communication operation state by the network management device and the connection state of the user port is detected by the detection means, the vicinity of the user port The first display means disposed in the display is turned off, the second display means disposed in the vicinity of the user port is turned on, and the user port is operated by the network management device by the determination means. If it is determined that the stop state is set, both the first display unit and the second display unit disposed in the vicinity of the user port are turned off. ; And a control means that It is characterized by that.
[0017]
The invention of claim 5 In the invention of claim 4, the first display means is made of a red light emitting diode, and the second display means is made of a green light emitting diode. It is characterized by that.
[0018]
The invention of claim 6 In a communication system comprising: a network management device; and a communication device that is individually set to a communication operation state and an operation stop state by the network management device and each has a plurality of user ports for performing IP connection. Whether the connection state of the first display means arranged in the vicinity of the user port, the second display means arranged in the vicinity of the user port, and the user port is normal or abnormal Detecting means corresponding to each user port, determining means for determining whether the network management device is set to the active state or the stopped state, corresponding to each user port, and the determining means It is determined by the network management device that the user port is set to a communication operation state, and the detection is performed. When the connection state of the user port is detected by the means, the first display means disposed in the vicinity of the user port is turned on and disposed in the vicinity of the user port. The second display unit is turned off, the determination unit determines that the user port is set in the communication operation state by the network management device, and the detection unit determines that the connection state of the user port is abnormal. When it is detected that the first display means arranged in the vicinity of the user port is turned off, the second display means arranged in the vicinity of the user port is turned on, If it is determined by the determining means that the user port is set to the operation stop state by the network management device, the user port is disposed in the vicinity of the user port. Control means for turning off both the first display means and the second display means, and the network management device individually sets a plurality of user ports of the communication device in a communicable state and a communication stopped state. Setting means for setting, acquisition means for acquiring information indicating the lighting state of the first display means and the second display means from the communication device, and each of the communication devices based on the information acquired by the acquisition means Monitoring means for monitoring the state of the user port It is characterized by that.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a port connection state display method, a communication apparatus, and a communication system according to the present invention will be described below in detail with reference to the accompanying drawings.
[0024]
FIG. 1 is a system configuration diagram showing an embodiment of a communication system according to the present invention.
[0025]
In FIG. 1, this communication system shows a network system configured by connecting a communication device 100 and a communication device 200 via a wireless transmission path. The communication device 100 is disposed indoors and mainly serves as a communication signal. And an outdoor device 120 connected to the indoor device 110 via a coaxial cable 130 and arranged outdoors to mainly process radio signals.
[0026]
Similarly, the communication device 200 is disposed indoors and is mainly connected to the indoor device 210 that performs processing such as modulation and demodulation of communication signals, and is connected to the indoor device 210 via the coaxial cable 230 and is disposed outdoors. The outdoor unit 220 mainly performs processing of radio signals.
[0027]
The indoor device 110 is provided with a user port unit 111 having a plurality of user ports 11 and a management port 112 each using a user connector, and the user port 11 has a cable 30 having a user connector 31. The user terminal 40 is connected via the user network 32, and the network management device (NMS) 60 is connected to the management port 112 via the cable 50 and the management network 51.
[0028]
In addition, the indoor device 210 is also provided with a user port unit 211 having a plurality of user ports 21 each using a user connector, and a user terminal 80 is connected to the user port 21 via a cable 70. Is done.
[0029]
In the above configuration, the user terminal 40 and the user terminal 80 can communicate with each other using the IP communication protocol via the communication devices 100 and 200.
[0030]
In addition, the network management device 60 manages the communication device 100 via the management network 51.
[0031]
That is, the network management device 60 remotely monitors whether the indoor device 110 can normally communicate in order to provide a service using the user port 11 as a communication path. An abnormality is notified.
[0032]
Here, when an abnormality is notified, the administrator identifies the cause, and by identifying the cause, for example, in the case of an abnormality due to the disconnection of the cable 30, repair work such as replacement of the cable 30 is performed.
[0033]
The abnormality display of the indoor device 110 in the network management device 60 is required to be a display that is easy for an administrator to find.
[0034]
Further, in order to prevent a user who has not entered into a contract for using the user port 11 of the indoor device 110 as a communication channel from performing communication without permission, the indoor device 110 includes a communication that activates each user port 11 in a communication activation state. A start function and a communication stop function for setting a communication stop state are provided.
[0035]
Next, control configurations of the communication apparatus 100 and the network management apparatus 60 will be described based on the block diagram of FIG.
[0036]
The control configuration of the communication device 100 is centered on the control unit 808 that controls the entire communication device 100, the memory 807, the wireless communication control unit 806 connected to the outdoor wireless device 120, each user port 11, and the management port 112. A port connection control unit 804 for connecting or disconnecting, a port connection status detection unit 805 for detecting the connection status of each port and notifying the control unit 808, and lighting / lighting of the LED display unit arranged in the vicinity of each port An LED display control unit 803 that performs turn-off control and an external communication interface 809 that performs communication control by connecting to a network or a user terminal via a connector connected to a user port and a management port.
[0037]
On the other hand, in the network management device 60, a control unit 816 for controlling the entire management device, a memory 817, an input interface 814 connected to an input device 819 such as a keyboard and a mouse, and the network management device 60 are connected to a LAN cable. Connected to the external communication interface 810 for controlling the port to be connected, the communication device setting information creation unit 811 for managing the communication device via the network, the communication device operation information analysis unit 812, the communication device monitor unit 813, and the display device 71 The display control unit 817 is configured.
[0038]
3 expands one of the user ports 11 arranged in the user port section 111 of the indoor device 110 by taking the communication device 100 of the communication devices 100 and 200 of the present invention shown in FIG. 1 as an example. Show.
[0039]
The user port 11 in the user port unit 111 of the indoor device 110 is provided with a green LED 12 and a red LED 13. The green LED 12 and the red LED 13 are disconnected or connected to a network cable connected to the user port 11. The administrator is notified of the occurrence of a communication error of the user port 11 due to a network-side error or the like by a combination of lighting or extinguishing.
[0040]
Here, a communication abnormality of each user port 11 is detected based on a voltage signal received via a network cable connected to the user port 11.
[0041]
The management port 112 is provided for remotely operating the communication start function and the operation stop function of an arbitrary user port 11 in the indoor device 110 from the network management device 60.
[0042]
For example, when a user contract is not made among the communication paths provided by each user port 11 of the indoor device 110, the administrator manages the network to prevent unauthorized use of the user port by the user. It is possible to operate the corresponding user port 11 from the device 60 so as to stop operation.
[0043]
Next, the lighting pattern of the green LED 12 and the red LED 13 when the indoor device 110 notifies the communication state of the user port 11 will be described.
[0044]
FIG. 4 shows whether the green LED 12 and the red LED 13 are turned on or off according to the combination of the connection state of the user port 11 and the start or stop state of the user port 11 by the communication control function via the management port 112 in the indoor device 110. It is the figure which showed the pattern.
[0045]
FIG. 4A shows a lighting pattern when the user port 11 is set to the communication activation state by the communication activation function of the indoor device 110 and the connection state of the user port 11 is normal. In this case, the green LED 12 Lights up and the red LED 13 is turned off.
[0046]
4B shows that the user port 11 is set to the communication start state by the communication start function of the indoor device 110, but the connection state of the user port 11 is abnormal due to the disconnection of the cable or a failure on the connection network side. In this case, the green LED 12 is turned off and the red LED 13 is turned on.
[0047]
FIG. 4C shows a lighting pattern when the user port 11 is set to the operation stop state by the operation stop function of the indoor device 110 regardless of whether the communication state of the user port 11 is normal or abnormal. In this case, both the green LED 12 and the red LED 13 are turned off.
[0048]
Therefore, the administrator can immediately recognize the stop, start-up state, and connection state of the user port 11 by confirming whether the LED for each user port 11 in the indoor device 110 is turned on or off.
[0049]
Further, the green LED 12 and the red LED 13 are turned on to the network management device 60 connected via the management port 112 at the same time when any one of the patterns from (a) to (c) in FIG. 4 is displayed. Or the state of light extinction is transmitted as operation information.
[0050]
Here, in the items of the operation information notified by the indoor device 110 to the network management device 60, a MAC address for specifying the indoor device 110 and a port for specifying a plurality of user ports 11 in the indoor device 110 are provided. Items necessary for remote monitoring by the network management device 60 are set, such as the number, port name, and the like of the red LED 13 and the green LED 12 for each port.
[0051]
Then, based on the operation information received from the indoor device 110, the network management device 60 displays the operation states of the plurality of user ports of the indoor device 110 on the display device 71 of the network management device 60 as a window screen.
[0052]
Next, the control procedure when the administrator remotely monitors the communication device using the network management device 60 will be described with reference to the block diagram of FIG. 2 and the flowcharts of FIGS. 5, 6, 7, and 8. To do.
[0053]
First, a control procedure until the communication apparatus detects a port communication abnormality and notifies the network management apparatus 60 will be described.
[0054]
FIG. 5 is a flowchart illustrating a control procedure when the indoor apparatus 110 detects a communication abnormality that has occurred in a specific port and notifies the network management apparatus 60 of the communication abnormality.
[0055]
When a communication abnormality occurs in a specific user port 11 of the indoor device 110, the port connection status detection unit 805 identifies the user port in which the communication abnormality has occurred, and notifies the control unit 808 of port identification information (step S51).
[0056]
Based on the received port identification information, the control unit 808 updates the port communication status and LED display pattern information, which are port operation data managed on the memory 807 (step S52).
[0057]
The control unit 808 outputs a signal for changing the display pattern of the LED display unit 11 corresponding to the user port where the communication abnormality has occurred to the LED display control unit 803 (step S53).
[0058]
The control unit 808 creates communication packet data by referring to the operation data related to all ports on the memory 807, and transmits the packet data to the network management device 60 via the external communication interface 809 and the management port 112 (step S54). .
[0059]
Next, FIG. 6 is a flowchart showing a processing procedure in which the network management apparatus 60 monitors the operation status of the communication apparatus via the management network 51 via the network.
[0060]
The control unit 816 receives packet data from the communication device via the external interface 810 (step S61).
[0061]
The control unit 816 determines the data type of the received packet data (step S62).
[0062]
When the received data is operation information from the communication device (YES in step S62), the operation information of the communication device is extracted from the packet data (step S63).
[0063]
If the received data is other than the operation information from the communication device (NO in step S62), it waits for data reception from the communication device again.
[0064]
The contents of the operation data extracted in step S63 are analyzed, and the transmission source communication device is specified (step S64).
[0065]
As the operation information related to the port of the communication device specified in step S64, the activation / deactivation state classification of the port and the lighting / extinction information of the LED display unit 1 and the LED display unit 2 are acquired (step S65).
[0066]
The communication device monitor unit 813 creates display data for the management window screen based on the operation information of the user port acquired in step S65, and issues a screen display request to the display control unit 817 (step S66).
[0067]
Based on the data created in step S66, the management window screen displays the latest operating status of the communication device 110 (step S67).
[0068]
If the monitoring program is being executed (NO in step S68), the process returns to waiting for data reception from the communication device in step S61.
[0069]
In the flowchart of FIG. 6, the network management device 60 shows a method of receiving an abnormality notification from the communication device 100. The network management device inquires the operation information from the network management device and sends a response. A method of collecting operation information from data may be used.
[0070]
Further, FIGS. 7 and 8 are flowcharts showing a re-processing procedure for starting or stopping the operation of the user port of the communication apparatus 100 connected to the network from the network management apparatus 60.
[0071]
FIG. 7 shows a control procedure on the network management apparatus side, while FIG. 8 shows a control procedure on the communication apparatus side.
[0072]
First, a remote control method related to the user port 11 of the communication apparatus 100 on the network management apparatus 60 side will be described with reference to FIG.
[0073]
The control unit 816 is configured to input identification information on the network of the communication device, identification information of the user port 11 and setting contents as input information of the user port that has been remotely set on the screen of the display device 71 by the administrator. 816 and the input data received via the input interface 814 (step S71).
[0074]
The control unit 816 outputs the setting information acquired in step S71 to the communication device setting information creation unit 811 and makes a request for creating packet data to be transmitted to the communication device (step S72).
[0075]
The communication device setting information creating unit 811 creates packet data including control data for remote setting of the communication device received in step S72 (step S73).
[0076]
The control unit 816 transmits the packet data created in step S73 to the communication device via the network via the external communication interface 810 (step S74).
[0077]
Subsequent to the control process of FIG. 7, a user port setting control procedure processed on the communication apparatus side shown in FIG. 8 will be described.
[0078]
The control unit 808 receives packet data for port connection control from the network management device 60 via the management port 112 and the external communication interface 809 (step S81).
[0079]
The control unit 808 analyzes the received packet data, and outputs the user port identification information and setting information to be changed to the port connection control unit 804 (step S82).
[0080]
The port connection control unit 804 notifies the setting result to the control unit 808 after switching the start or stop of the corresponding user port based on the received setting information (step S83).
[0081]
The control unit 808 updates the operation data of the corresponding user port managed on the memory 807 based on the setting result from the port connection control unit 804 (step S84).
[0082]
The control unit 808 outputs, to the LED display control unit 803, a request for changing the lighting pattern of the LED display unit corresponding to the user port 11 in which the setting change has occurred in accordance with the operation status of the user port performed in step S83. (Step S85).
[0083]
Next, an example of operation in which the administrator monitors the user port 11 of the communication apparatus 100 shown in the flowcharts of FIGS. 5 to 8 by the network management apparatus 60 will be described.
[0084]
FIG. 9 shows an example of a management screen in the network management device 60.
[0085]
A management window 72 is displayed on the display device 71 of the network management device 60, and a device appearance diagram 53 showing the same appearance as the indoor device 110 is displayed in the management window 72.
[0086]
Further, in the device external view 53, a user port 75 and an LED unit 74 having the same appearance as the user port unit 111 of the indoor device 110 are displayed.
[0087]
In addition, the LED unit 74 displays a green LED 74-1 and a red LED 74-2 for each user port 75-1 in the same layout as the indoor device 110, and the display of the green LED 74-1 and the red LED 74-2 is as follows. The display is interlocked according to the change in the actual LED display pattern of the indoor device 110.
[0088]
For this reason, the administrator indicates the connection status and service provision status of the indoor device 110 operating on the network by the green LED 74-1 and the red LED 74-2 of each user port 75-1 of the display device 71 of the network management device 60. Remote monitoring can be performed from the display.
[0089]
For example, when a communication abnormality occurs due to a disconnection of a cable connected to the user port 11 in the indoor device 110 or a failure on the user network 32 side, each user port 75 of the appearance unit 73 of the display device 71 that detected the abnormality. The display of the green LED 74-1 and the red LED 74-2 of -1 changes corresponding to the display patterns of FIGS. 4 (a) to 4 (b).
[0090]
Thereby, the administrator can check the LED unit 74 displayed on the display device 71 of the network management device 60, and can quickly perform failure analysis and repair work on the indoor device 110.
[0091]
The screen image of FIG. 10 is a screen image of the display device 71 when the network management device 60 remotely monitors the operation status when three communication devices 100 are operating on the network.
[0092]
Here, the communication device list window 64 displays a list of a plurality of communication devices 100 operating on the network connected to the network management device 60 as simple icons such as a circle and a rectangle, and monitors them. It is a window screen.
[0093]
In the communication device list window 64 of FIG. 10, the icon 61 of the first communication device A, the icon 62 of the second communication device B, and the icon 63 of the third communication device C are displayed in a layout. Yes.
[0094]
Here, for example, when an abnormality occurs in the communication device A as shown in FIG. 10, the abnormality of the communication device A is notified by displaying the corresponding icon 61 in red.
[0095]
Further, when the icons 61 to 63 corresponding to the respective communication devices 100 are clicked with a mouse, a management window 72 showing the operation state of each user port 11 of the indoor device 110 shown in FIG. 9 is displayed on the screen.
[0096]
At this time, when the LED unit 74 is viewed in the management window 72 of the communication apparatus A, the LED display pattern of the faulty port is displayed as shown in FIG.
[0097]
Accordingly, when remotely monitoring a plurality of indoor devices 110 via a network, the screen transition of the management window 72 of the display device 71 of the network management device 60 indicates which user port of which indoor device 110 is abnormal. It becomes possible to narrow down and confirm.
[0098]
In addition, when each communication channel provided by each user port 11 of the indoor device 110 is provided for a fee, the administrator starts the service by setting the user port 11 in a communicable state with the communication activation function for the indoor device 110. In addition, the communication connection can be controlled by making the user port 11 incapable of communication by the operation stop function.
[0099]
At this time, the red LED 74-2 and the green LED 74-1 of the user port 75-1 set in the operation stop state in the LED section 74 of the device FIG. 53 displayed in the management window 72 are shown in FIG. ) Is displayed.
[0100]
As a result, the administrator can confirm the communication state of each user port 11 of the indoor device 110 and the service provision status from a remote location using the management window 72.
[0101]
In the above embodiment, the red LED and the green LED are used. However, the colors of these LEDs can be arbitrarily changed.
[0102]
【The invention's effect】
As described above, according to the present invention, depending on the connection state of the user port of the communication device, the LED is explicitly displayed by turning on or off, and the LED display pattern is further displayed on the network management device via the management port. Because it is configured to transmit to the administrator, the administrator can remotely monitor the communication status of multiple communication devices operating on the management network on the display device of the network management device. Thus, it is possible to easily and quickly identify the communication device and the user port in which the error occurred and start repair work.
[0103]
Furthermore, when the user port of the communication apparatus in which an abnormality has occurred is directly viewed, for example, the green LED is turned off, but the red LED is actively lit, so that the visibility of the LED display is improved and the abnormal part is found. It becomes easy.
[0104]
In addition, the management window screen display allows the administrator to instantly and visually recognize the service provision status for each user port in each communication device, in addition to identifying the abnormal location of the communication port connected to the network. Is possible.
[0105]
Furthermore, the administrator can start or stop the communication service in units of user ports with the intention of the administrator by using the user port start and stop functions of the communication device.
[Brief description of the drawings]
FIG. 1 is a network configuration diagram showing an embodiment of a communication apparatus according to the present invention.
FIG. 2 is a block diagram showing a control configuration of a communication apparatus and a network management apparatus.
FIG. 3 is an external view showing a user port and an LED display unit of the communication apparatus.
FIG. 4 is an enlarged view of an LED display unit showing a lighting pattern of a green LED and a red LED of a user port of a communication device.
FIG. 5 is a flowchart of communication port abnormality detection control in the communication apparatus.
FIG. 6 is a flowchart of communication device remote monitoring control in the network management device.
FIG. 7 is a flowchart showing processing on the network management device side in communication device port setting control from the network management device.
FIG. 8 is a flowchart showing processing on the communication device side in response to the processing flow of FIG. 7 in communication device port setting control from the network management device.
FIG. 9 is a screen image when the management window of the communication device is displayed on the display device of the network management device.
FIG. 10 is a screen image of a management window displayed on a display device when a plurality of communication devices are connected and monitored by a network management device via a network.
FIG. 11 is an external view of a user port and an LED display unit in a conventional communication device.
[Explanation of symbols]
100, 200 communication device
110, 210 Indoor equipment
120, 220 Outdoor wireless device
32. User network
40, 80 user terminal
111, 211 User port part
31 connector
60 Network management device
51 Management network
112, 212 Management port
11, 21 User port
12 Green LED
13 Red LED
71 Display device
72 Management window
73 External view
74 LED
74-1 Green LED
74-2 Red LED
75 User port part
75-1 User port
90 Communication device
91 User port part
92 User port
93 Green LED
30, 50, 70 cables
64 Communication device list window
61, 62, 63 icons
130, 230 coaxial cable
803 LED display controller
804 Port connection controller
805 Port connection status detector
806 Wireless communication control unit
807 memory
808 control unit
809, 810 External communication interface
811 Communication device setting information creation unit
812 Communication device operation information analysis unit
813 Communication device monitor unit
814 Input interface
815 memory
816 control unit
817 Display control unit
819 Input device

Claims (6)

In a port connection state display method in a communication apparatus having a plurality of user ports for performing IP connection, and capable of individually setting the plurality of user ports to a communication operation state and an operation stop state by a network management apparatus,
Providing first display means and second display means in the vicinity of the user port,
When the user port is set in the communication operation state by the network management device and the connection state of the user port is normal, the first display means provided in the vicinity of the user port is turned on. The second display means provided near the user port is turned off,
When the user port is set in the communication operation state by the network management device and the connection state of the user port is abnormal, the first display means provided in the vicinity of the user port is turned off. Illuminating the second display means provided in the vicinity of the user port;
When the user port is set in an operation stop state by the network management device, both the first display unit and the second display unit provided in the vicinity of the user port are turned off. To display port connection status. The first display means includes
It consists of a red light emitting diode,
The second display means includes
The port connection state display method according to claim 1, comprising a green light emitting diode. The network management device includes:
Obtaining information indicating the lighting state of the first display means and the second display means from the communication device;
Monitor the state of each user port of the communication device based on the acquired information
The port connection status display method according to claim 1, wherein: In a communication device having a plurality of user ports for performing IP connection, and the plurality of user ports are individually set to a communication operation state and an operation stop state by a network management device,
First display means respectively disposed in the vicinity of the user port;
Second display means respectively disposed in the vicinity of the user port;
Detecting means for detecting whether the connection state of the user port is normal or abnormal, corresponding to each user port;
A determination means for determining whether the network management device is set to an operating state or a stopped state according to each user port;
If it is determined by the determining means that the user port is set in a communication operating state by the network management device, and the detecting means detects that the connection state of the user port is normal, the user The first display means disposed in the vicinity of the port is turned on, the second display means disposed in the vicinity of the user port is turned off, and the user port is managed by the determination means. When it is determined that the communication operation state is set by the apparatus, and the connection state of the user port is detected by the detection unit, the first unit disposed in the vicinity of the user port The display means is turned off, the second display means arranged in the vicinity of the user port is turned on, and the user position is determined by the determination means. When the network management device determines that the network management device is set to the operation stop state, both the first display means and the second display means arranged in the vicinity of the user port are turned off. Control means and
A communication apparatus comprising: The first display means includes
It consists of a red light emitting diode,
The second display means includes
Made of green light emitting diode
The communication apparatus according to claim 4. A network management device;
A communication device having a plurality of user ports that are individually set to a communication operation state and an operation stop state by the network management device and each perform IP connection;
In a communication system comprising:
The communication device
First display means respectively disposed in the vicinity of the user port;
Second display means respectively disposed in the vicinity of the user port;
Detecting means for detecting whether the connection state of the user port is normal or abnormal, corresponding to each user port;
A determination means for determining whether the network management device is set to an operating state or a stopped state according to each user port;
If it is determined by the determining means that the user port is set in a communication operating state by the network management device, and the detecting means detects that the connection state of the user port is normal, the user The first display means disposed in the vicinity of the port is turned on, the second display means disposed in the vicinity of the user port is turned off, and the user port is managed by the determination means. When it is determined that the communication operation state is set by the apparatus, and the connection state of the user port is detected by the detection unit, the first unit disposed in the vicinity of the user port The display means is turned off, the second display means arranged in the vicinity of the user port is turned on, and the user position is determined by the determination means. If the network management device determines that the network management device is set to the operation stop state, both the first display means and the second display means disposed in the vicinity of the user port are turned off. Control means and
Comprising
The network management device includes:
Setting means for individually setting a plurality of user ports of the communication device to a communicable state and a communication stopped state;
Obtaining means for obtaining information indicating lighting states of the first display means and the second display means from the communication device;
Monitoring means for monitoring the state of each user port of the communication device based on the information obtained by the obtaining means;
A communication system comprising:

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