RU2557751C1 - Method of monitoring arrangement of equipment in telecommunication rack - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: rack units are completely filled with equipment (including cushions); all of the equipment in the rack is fitted with RFID tags; the rack is fitted with an RFID antenna; a plurality of RFID tags is periodically read. If a unit is vacated, the RFID tag of the equipment is not available for reading; the unit is considered vacant and requires filling with new equipment. The new equipment in that unit is identified from the read RFID tag.

EFFECT: high accuracy of positioning equipment in a telecommunication rack using RFID technology.

12 cl, 1 dwg

Description

FIELD OF THE INVENTION

The present invention relates to communication technology and can be used to control the placement of equipment in a telecommunication rack.

State of the art

US Pat. No. 7,071,825 describes a system in which a long RFID antenna is used in a telecommunications rack to read RFID tags of equipment located in a rack. But in this way it is impossible to determine the exact location of the equipment in the units of the rack.

Patent RU 82342 describes the closest system of sensors for monitoring the placement of equipment in a telecommunication rack to the closest present invention. In this system, equipment placement sensors are located along the rail of the telecommunication rack, correlated with a certain height of the rack in the drain, which change their state when a piece of equipment is installed in the rack. Using a simple long RFID antenna, the RFID tags are read out and what equipment is installed in the rack.

The disadvantage of the system is that it requires the installation of sensors.

SUMMARY OF THE INVENTION

Thus, the present invention is the development of such a method of controlling the placement of equipment in a telecommunication rack, which allows the use of RFID antennas of a simple design and does not require the installation of sensors in the rack.

To achieve the specified technical result, a method for controlling the placement of equipment in a telecommunication rack is proposed, which consists in equipping each of at least some pieces of equipment intended for placement in a telecommunication rack with an RFID tag; correlate RFID tags with the equipment on which they are mounted, and store the relationships in the memory of the computer system; determine the initial location of units of equipment located in the aforementioned rack in the units of the rack and save data on the initial location of the equipment in the memory of the computer system, while at least one side of the rack (front or rear), all units must be occupied by equipment or marked as free but unavailable for equipment placement; save the height size of the said items of equipment in the memory of the computer system; equipping said rack with at least one extended RFID antenna located along the rail for mounting equipment and connected to an RFID reader controlled by a computer system; using an RFID antenna and an RFID reader, RFID tags are read at a certain time interval; when one or more of the said RFID tags becomes (are) inaccessible for reading by the RFID reader, based on the identifier (s) of the mentioned tag (s) and the size (s) of the height of the equipment, corresponding to the mentioned RFID tag (s), decide that the unit or units of the rack are free; when one of the RFID tags becomes available for reading by the RFID reader, based on the identifier of the tag and the height size of the equipment corresponding to the read RFID tag, it is decided that previously released units or units or part of the free units are occupied by a piece of equipment associated with the RFID tag that has become available for reading.

When using a job card, the computer system, until one or more of the RFID tags becomes (are) inaccessible (s) for reading, contains information that allows you to compose a variety of RFID tags that will not be available for reading in accordance with the job card , and the computer system creates a message to the user if the composed set of identifiers does not coincide with the set of RFID tags that have become inaccessible for reading.

Again, when using the job card, the computer system until one of the RFID tags becomes readable contains information that allows you to determine the identifier or the set of possible values of the RFID tags (if you plan to install a dummy), which will be available for reading, and the computer the system creates a message to the user if the identifier that has become available for reading the RFID tag does not match the identifier defined by the computer system, or is not included in many possible meanings.

If the height of the equipment unit occupying the free units (units) is less than the total height of the available free units, decide that the equipment unit is occupied by the top (s) or lower (s) of the free rack units available for placement equipment. If a piece of equipment is moved within the same rack, then the computer system excludes free units in which a roaming unit of equipment was previously installed before moving, from the set of free units available for placing equipment until a roaming unit of equipment is installed in front desk.

In the case when, after making a decision about the free units (s), for some period of time, the RFID tag that is available for reading with the RFID antenna does not appear, the computer system generates a warning message for the user.

To save RFID tags, the rack may contain equipment without RFID tags, and the computer system considers such equipment not movable.

An RFID antenna may comprise a radiating coaxial cable that transmits a signal to RFID tags located in a rack using the rack rail as a secondary antenna.

In another case, the RFID antenna is multi-element and is connected to several high-frequency RFID reader sockets.

An RFID antenna can be connected to the RFID reader through an antenna switch, and a computer system can control the antenna switch using the GPIO RFID reader's common I / O ports.

Brief Description of the Drawings

In FIG. 1 shows a fragment of a telecommunications rack with equipment and RFID devices.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 is a fragment of a telecommunications rack. Each slot or unit rack is used to place equipment. The equipment is screwed to the mounting rail 1. Various equipment is located on the rack. As an example in FIG. Figure 1 shows a bezel (blank) 1U 2 high, a network switch 3, patch 4, a bezel (blank) 2U 5 high. Each piece of equipment is equipped with an RFID tag of 6, for example, OmniID Fit 400. RFID tags of 6 are associated with the specific unit of equipment on which they are installed. This information is stored in a computer system (not shown), for example, it can be stored in the form of user attributes of devices in the Patchmanager program operating on a personal computer running Linux. In addition, the height of each piece of equipment is stored in Patchmanager. For example, for equipment 5, the height in units is 2 units (or 2 * 44.45 mm = 88.9 mm).

For the correct functioning of the system for controlling the placement of equipment in racks, before starting work, it is necessary to enter into Patchmanager the actual placement of equipment in the units of the rack. That is, a false panel (dummy) with a height of 1U 2 is located in unit 22, a network switch 3 in unit 21, a patch panel 4 in unit 20, a false panel (dummy) with height 2U 5 in units 19 and 18 This can be done “manually” by the administrator serving the rack, or it can be done using an RFID cart with an RFID reader and a multi-element RFID antenna with the ability to selectively read each unit of the rack.

Along the rail there is an extended RFID (radio frequency) antenna 7. It is connected to an RFID reader (not shown), for example Symbol XR480. The RFID reader is controlled by the said computer system using the LLRP protocol, using the control software (control program). The control program reads through the RFID reader all available RFID tag identifiers with a certain time interval, for example, after 1 minute. Obviously, while all RFID tags 6 are readable, the equipment in the rack does not move. Most programs like Pacthmanager have the ability to create a work order. That is, the control program knows in advance which RFID tags should appear or disappear from the read zone. If the placement of equipment does not match according to the job map and equipment location data obtained using RFID reading, the control program generates messages for the user.

If there is a need instead of panel 5 to install a switch similar to device 3, then panel 5 must be removed from the rack. At the moment of removing the panel 5 from the RFID rack, the label of the panel 5 can no longer be read by the RFID reader, which means that units 18 and 19 are free. You can install a new switch with a height of 1 unit in any of these slots. For definiteness, the rule is set that the equipment should be installed in the first free unit from above (the rule can be set and vice versa, the first free from below). Then, after installing the new switch using RFID antenna 7, the RFID identifier of the new switch will be read, which is located in unit 19, and the mentioned control program will save information about the location of the new switch in the Patchmanager program in unit 9 using the appropriate program interface (API).

After that, unit 18 will remain free. To maintain the system’s operability, it is necessary to insert a new 1U plug into it, and any of the many available plugs. The control program, when reading the RFID identifier of the new stub, captures the employment of unit 18 with a stub (some). If the unit was not busy for a certain period of time, for example 3 minutes, the control program generates alerts about the violation of the equipment installation procedure, for example, by e-mail.

Sometimes when moving equipment within the same rack, the rule of using the first upper (lower) free unit can be supplemented: occupy the first free upper (lower) unit, except for the unit freed by the moved equipment.

To save resources, you can not install RFID tags 6 on some types of equipment in the rack. For example, patch panels and cable managers, cable entries almost never move after installation of the cable system. Then in the control program it is possible to mark such equipment as not movable, assign certain units to it and not equip such equipment with RFID tags.

The RFID (Radio Frequency) Antenna 2 may be made of a radiating coaxial cable. In that case, it almost adjoins the mounting rail 1 and induces secondary RFID radiation in the rail 1, with the help of which the identifiers of the RFID tags 6 are read. Another variant of the antenna 7 is a set of small antennas (for example, dipoles) located at some distance from the rail 1, each of which is connected to its own RFID reader antenna connector.

In addition, an antenna microwave switch can be used to connect the antenna 7 to the RFID reader (for example, on PIN diodes). Then a single RFID reader antenna connector will occasionally connect to multiple RFID antennas. And you can control the microwave switch using the GPIO RFID reader pins.

A computer system can be arranged arbitrarily, for example, another DCIM can be used instead of the Patchmanager, the control program and Patchmanager can work on different computers and communicate via TCP / IP, the DCIM database can be hosted by a third computer and other options.

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 (12)

1. A method of controlling the placement of equipment in a telecommunication rack, which consists in the fact that:
- equip each of at least some pieces of equipment intended for placement in a telecommunication rack with an RFID tag;
- correlate the identifiers of the mentioned RFID tags with the equipment on which they are mounted, and save the mentioned relationships in the memory of the computer system;
- determine the initial location of the units of equipment located in the said rack, in the units of the said rack, and save the data on the initial location of the equipment in the memory of the said computer system, while at least on one side of the said rack, from the front or from the back, all units must be occupied with equipment or marked as free, but inaccessible for equipment placement;
- save the height size of the said items of equipment in the memory of the said computer system;
- equip said rack with at least one extended RFID antenna located along the rail for mounting equipment and connected to an RFID reader controlled by said computer system;
- using said RFID antenna and said RFID reader, identifiers of said RFID tags are read at a certain time interval;
- when one or more of the said RFID tags becomes (are) inaccessible for reading by the said RFID reader, based on the identifier (s) of the mentioned tag (s) and size (s) in height equipment corresponding to the mentioned RFID tag (s), decide that the units or units of said rack are free;
- when one of said RFID tags becomes available for reading by said RFID reader, based on the identifier of said tag and the height size of the equipment corresponding to said RFID tag, it is decided that said free units or units or part of free units are occupied by a piece of equipment associated with said identifier of the RFID tag that has become available for reading; 2. A method for controlling the placement of equipment according to claim 1, characterized in that said computer system until one or more of the aforementioned RFID tags becomes (are) inaccessible (s) for reading, contains information allowing to compose a plurality of RFID tag identifiers which will not be available for reading, and said computer system creates a message to the user if said compiled set of identifiers does not match the set of RFID tags that have become unavailable for reading. 3. A method for controlling the placement of equipment according to claim 1, characterized in that said computer system, until one of the said RFID tags becomes readable, contains information allowing to determine the identifier or the set of possible values of the RFID tag identifiers that will be available for reading, and said computer generates a message to the user if the identifier of the RFID tag that has become available for reading does not match the identifier defined by the said computer molecular system, or is not included in the plurality of possible values. 4. The method of controlling the placement of equipment according to claim 1, characterized in that when the height of the said unit of equipment that occupied the free units (units) is less than the total height of the mentioned free units, it is decided that the highest ( ) or lower (s) of the mentioned free units available for equipment placement. 5. A method for controlling the placement of equipment according to claim 4, characterized in that when a piece of equipment is moved within the said rack, said computer system excludes free units in which said moveable piece of equipment has been installed from the plurality of free units available for placing equipment until the placement of said movable piece of equipment in said rack. 6. A method for controlling the placement of equipment according to claim 1, characterized in that if, after deciding on free units (s), an RFID tag is not available for reading using the said RFID antenna within a certain time interval, the computer system creates message to user. 7. A method for controlling the placement of equipment according to claim 1, characterized in that said rack comprises equipment without RFID tags, and said computer system considers such equipment not to be relocatable. 8. A method for controlling the placement of equipment according to claim 1, characterized in that said antenna comprises a radiating coaxial cable. 9. A method for controlling the placement of equipment according to claim 8, characterized in that said coaxial cable transmits a signal to RFID tags located in a rack, using said rail as a secondary antenna. 10. The method of controlling the placement of equipment according to claim 1, characterized in that the said antenna is multi-element and is connected to several high-frequency connectors. 11. A method for controlling the placement of equipment according to claim 1, characterized in that said antenna is connected to said RFID reader through an antenna switch. 12. The method of controlling the placement of equipment according to claim 11, characterized in that said computer system controls said antenna switch using common GPIO I / O ports of said RFID reader.