RU2313800C1 - Mode and a system of identification of the port of the switching panel to which a network arrangement is attached - Google Patents

Abstract

FIELD: the invention refers to communication technique and may be used for identification of the port of a switching panel through which a network arrangement executes connection.

SUBSTANCE: the ports of the switching panel have connection sensors linked up with a data processing block; the network arrangements transmit on the data processing block a notice about the changing of the state of the port of the network arrangement linked up to the commutation panel, for example, about setting up of a circuit connection. Then the data processing block identifies the concrete port of the commutation panel to which the network arrangement is attached according to the moment of appearance of the signal from the corresponding sensor triggered , for example, on linking up of a connecting cable nearest in time to the moment of receiving the notice about the changing of the state of the port of the network arrangement, for example, setting up a circuit connection with the aid of the network arrangement.

EFFECT: expands the field of using due to provision of possibility to identify the port of the switching panel or of the cable switched to this port to which the port of the network arrangement is linked up.

17 cl, 1 dwg

Description

FIELD OF THE INVENTION

The present invention relates to communication technology and can be used to identify the patch panel port through which the network device is connected.

State of the art

Currently, various means are known for determining the specific port of the patch panel through which the connection and transmission of signals from a network device is carried out.

In the international application WO No. 2004/044599 (05/27/2004) a system for monitoring the ports of a patch panel into which cables are inserted is disclosed. To do this, each port of the patch panel is equipped with a scanned contact, in the case of connecting to it a response contact on the cable connector during electrical scanning of the ports, a response signal is generated. Such a system makes it possible to determine which port of the patch panel the cable connector is inserted in, but cannot identify which connector the network device port is connected to.

Similar systems and methods are described in US patent No. 6285293 (09/04/2001) and No. 6222975 (04.24.2001) for electrical and optical cables, respectively. Each port of patch panels in systems according to these patents contains a corresponding mechanical sensor that works when a cable end is inserted into this port. However, as in the previous case, in these systems it is impossible to identify which connector the network device port is connected to.

SUMMARY OF THE INVENTION

Thus, it is an object of the present invention to provide means for identifying a patch panel port that can identify a port to which a port of a network device is connected.

To achieve the technical result, a method for identifying a patch panel port through which a cable connection or disconnecting a network device is made is provided, each of which is equipped with at least some ports of the patch panel with a corresponding connection sensor; connecting all the sensors to the data processing unit, and in this method, according to the first object of the present invention, transmitting to the data processing unit a notification about an event associated with a change in the state of at least one port of the network device, which consists in establishing or disconnecting a network connection; the data processing unit identifies the specific port of the patch panel by the moment the signal from the corresponding sensor appears, the closest in time to the time the event occurs.

The time of occurrence of such an event can be judged by the moment of receipt of the notification of the occurrence of this event at the data processing unit, or information about the moment of the event can be contained in the notification of the occurrence of the event received at the data processing unit.

This event is the installation or disconnection of the network connection along the cable path.

To eliminate false port identification in the event of the simultaneous occurrence of more than one of these events, the final port identification can be performed after a statistical analysis of the sensor triggered events stored in the data processing unit along with information received from the corresponding notifications.

To achieve the same technical result, it is also proposed a system for identifying a patch panel port through which a cable connection or disconnection of a network device is made, comprising a patch panel, each port of which is intended for cable connection of a network device; a group of connection sensors, each of at least some ports of the patch panel equipped with a corresponding sensor of the specified group, and a data processing unit to which all the sensors of the group are connected, and in this system, according to the second object of the present invention, a network device connected to the unit data processing, with the possibility of transmitting to the data processing unit a notification about an event associated with a change in the state of at least one port of a network device, which consists in installing Is breaking a network connection; the data processing unit contains a device that identifies a specific port of the patch panel by the moment the signal from the corresponding sensor appears, closest in time to the moment the event occurs.

The cable in this system can be electric or optical.

The time of occurrence of an event associated with a change in the status of the port of a network device can be judged by the moment a notification of the occurrence of this event arrives at the data processing unit, or information about the moment of the event can be contained in the notification of the event received on the data processing unit.

This event is the installation or disconnection of the network connection along the cable path.

To eliminate false identification of the port in the system in the event of the simultaneous occurrence of more than one of these events, the final identification of the port can be carried out after a statistical analysis of the sensor triggered events stored in the data processing unit along with information received from the corresponding notifications.

The data processing unit may include a device for processing signals from sensors and a device for processing event notifications, while such devices have different housings and are connected via a data network.

Finally, the sensors in the system can be made mechanical and are triggered by connecting and / or disconnecting the connecting cable to the corresponding port of the patch panel.

Brief Description of the Drawings

The drawing shows a General block diagram of a system for identifying the port of the patch panel according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention can be implemented in several similar ways, which, however, are implemented in the same system. A block diagram of this system is shown in the drawing and contains a patch panel 1 having several (at least two) ports 2, each intended for cable connection of any device. A sensor 3 is installed next to each port 2. A network device 5 is connected to each port 2 using the appropriate cable 4. In the drawing, personal computers are shown as network devices, but this is just an illustration, because network devices can be, for example, printers, information boards and other network devices, the specific form of which does not matter for the implementation of the present invention.

The patch panel 1 is connected to the network hub 6, which is also a network device, using the corresponding connecting cables 7. In addition, the system has a data processing unit 8 comprising a signal processing device from connection sensors 10 and a notification processing device 9 connected by communication 13 and 12 with a network hub 6 and communication 11 with all sensors 3 of the switch panel 1. Network hub 6 has the function of generating notifications about the state changes of its network ports using otokola SNMP (Simple Network Management Protocol).

Cable 4 can be either electric or optical. Sensors 3 can be implemented in the form of mechanical switches with a button that is pressed by the connector of the connecting cable 7, when this cable is connected to port 2 of the patch panel 1.

In the drawing, the connections 7 between the patch panel 1 and the network hub 6 are shown arbitrary (one of the cables 7 is shown removed from its sockets). The connections 12 and 13 according to the protocol are similar to the connections of network devices 5 with a hub 6. The connection 10 from the data processing unit 8 is generally bus.

The data processing unit 8 is a distributed computing tool programmed to perform the actions described below. The notification processing device 9 is an SNMP server to which network SNMP devices forward SNMP messages. The device for processing signals from sensors 10 can be a separate computer, but it can also be a microcontroller or a processor with memory built directly into the patch panel 1.

The present invention is implemented as follows.

The connecting cable 7 is connected to the hub 6, and then to some free port 2 of the switching panel 1. At the moment of connecting the connector of the connecting cable 7, the corresponding sensor 3 is triggered. The signal processing device from the sensors 10 identifies the connection panel port where the connection took place. Simultaneously with connecting the cable 7 to panel 1, the network port of the hub 6 establishes a network connection with the device 5. The network hub 6 sends a message to the SNMP server 9 that one of its ports has established a network connection. Then, the SNMP server 9 sends a message about this to the signal processing device from the sensors 10 through the data transmission network. By comparing the signal from a specific sensor 3 and establishing a connection on the network port of the hub, the signal processing device from the sensors 10, as part of the data processing unit 8, identifies port of the patch panel to which a specific port of the network device is connected — hub 6. It is possible that at the same time as connecting cable 7 more than one network connection is established. In this case, all the network port numbers of the hub that established the network connection at the same time as connecting cable 7 and triggering sensor 3 are stored in the signal processing device from sensors 10 as potentially connected to a specific port on patch panel 2. During subsequent connections of cable 7 using statistical analysis final identification of port 2 occurs, to which the hub port 6 is connected.

Thus, in the implementation of the present invention, it is possible to identify the port 2 of the switching panel 1 or the cable 4 connected to this port 2 to which the port of the network device is connected.

Although the present invention has been described with reference to specific embodiments, it will be apparent to those skilled in the art that these illustrative examples in which various modifications can be made do not limit the scope of the invention defined only by the appended claims.

Claims (17)

1. A method for identifying a patch panel port through which a cable connection or disconnection of a network device is made, namely, that equipping each of at least some ports of said patch panel with a corresponding connection sensor; connect all sensors to the data processing unit, characterized in that transmit to the data processing unit a notification about an event related to a change in the state of at least one port of the network device, which consists in the installation or disconnection of the network connection; identify by the data processing unit the specific port of the patch panel by the moment the signal from the corresponding connection sensor appears, the closest in time to the time the event occurs. 2. The method according to claim 1, characterized in that the moment of occurrence of said event corresponds to the moment of receipt of a notification of the occurrence of said event at said data processing unit. 3. The method according to claim 1, characterized in that information about the moment of occurrence of the mentioned event is contained in the notification of the occurrence of the mentioned event received on the data processing unit. 4. The method according to claim 1, characterized in that the event is the establishment of a network connection. 5. The method according to claim 1, characterized in that said event is a disconnection of a network connection. 6. The method according to claim 1, characterized in that in order to eliminate the false identification of the port in the event of the simultaneous occurrence of more than one of the mentioned events, the final identification of the port is carried out after a statistical analysis of the facts of operation of the sensors stored in the said data processing unit together with information obtained from mentioned relevant notices. 7. A system for identifying a patch panel port through which a cable connection or disconnection of a network device is made, comprising said patch panel, each port of which is intended for cable connection of a network device; a group of connection sensors, each of at least some ports of said patch panel having a corresponding sensor of said group; and a data processing unit to which all the sensors of said group are connected, characterized in that comprises a network device connected to a data processing unit with the possibility of transmitting to said data processing unit a notification of an event related to a change in the state of at least one port of the network device, which consists in establishing or disconnecting a network connection; said data processing unit comprises a device identifying a particular port of a patch panel by the moment a signal from a corresponding sensor appears, which is closest in time to the moment of occurrence of said event. 8. The system according to claim 7, characterized in that said cable is made electric. 9. The system according to claim 7, characterized in that said cable is made optical. 10. The system according to claim 7, characterized in that the moment of occurrence of said event corresponds to the moment of receipt of a notification of the occurrence of said event at said data processing unit. 11. The system according to claim 7, characterized in that information about the moment of occurrence of the mentioned event is contained in the notification of the occurrence of the mentioned event received on the data processing unit. 12. The system according to claim 7, characterized in that said event is a network connection setup. 13. The system according to claim 7, characterized in that said event is a disconnection of a network connection. 14. The system according to claim 7, characterized in that to eliminate the false identification of the port in the event of the simultaneous occurrence of more than one of the mentioned events, said data processing unit is capable of final identification of the port after statistical analysis of the facts of operation of the data stored in said data processing unit sensors together with information obtained from the said relevant notices. 15. The system according to claim 7, characterized in that said data processing unit comprises a signal processing device from said sensors and a device for processing notifications of said events. 16. The system of claim 15, wherein said signal processing device from said sensors and said notification processing device have different bodies and are connected via a data network. 17. The system according to claim 7, characterized in that the said sensors are made mechanical and are triggered by connecting and / or disconnecting the connecting cable to the corresponding port of said patch panel.