CN113888065A

CN113888065A - U-bit level equipment monitoring method, system and device and computer equipment

Info

Publication number: CN113888065A
Application number: CN202010565676.0A
Authority: CN
Inventors: 石建华
Original assignee: China Mobile Communications Group Co Ltd; China Mobile Group Jiangxi Co Ltd
Current assignee: China Mobile Communications Group Co Ltd; China Mobile Group Jiangxi Co Ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2022-01-04

Abstract

In the technical scheme of the U-level equipment monitoring method, the system and the device as well as the computer equipment, the equipment transferring request initiated by the terminal equipment is received, the state information of the current equipment is determined according to the equipment transferring request, the corresponding instruction is generated according to the state information and is sent to the entrance guard monitoring unit and the U-level monitoring unit, so that the entrance guard monitoring unit and the U-level monitoring unit execute the corresponding equipment monitoring operation according to the instruction, the use state of the U-level equipment of the rack and the heading of the asset equipment can be recorded in time, the benefit efficiency of the asset equipment is improved, and the monitoring management capability of the asset equipment is improved.

Description

U-bit level equipment monitoring method, system and device and computer equipment

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of communication and computers, in particular to a method, a system and a device for monitoring U-bit equipment and computer equipment.

[ background of the invention ]

In the related art, the device monitoring system generally uses a barcode tag mode or monitors and manages the device in a manual warehousing management document mode, however, the barcode tag has the defects of easy copying, no pollution and moisture resistance and only short-distance reading, and therefore the problem of insufficient asset monitoring capability is easily caused by the barcode tag mode. The management mode of manual storage management documents causes the problems that the labor cost of a storage link is increased, the workload is large, the checking period is long, and goods are lost or stolen and cannot be found in time. Therefore, the device monitoring system in the related art cannot timely record the heading of the asset device, thereby causing the problems of poor utilization efficiency of the asset device and poor asset monitoring and management capability.

[ summary of the invention ]

In view of this, the invention provides a method, a system, a device and a computer device for monitoring U-level devices, which can record the use state of the U-level of a rack and the heading of asset devices in time, improve the benefit efficiency of the asset devices and improve the monitoring and management capability of the asset devices.

In one aspect, an embodiment of the present invention provides a U-bit level device monitoring method, including:

receiving a device transferring request initiated by terminal equipment;

determining the state information of the current equipment according to the equipment transferring request;

generating a corresponding instruction according to the state information;

and sending the instruction to an access control monitoring unit and a U-bit monitoring unit so that the access control monitoring unit and the U-bit monitoring unit execute corresponding equipment monitoring operation according to the instruction.

Optionally, when the state information includes a to-be-shelved state, the instruction corresponding to the to-be-shelved state includes a shelve instruction;

the will instruction is sent to entrance guard monitoring unit and U position monitoring unit, so that entrance guard monitoring unit and U position monitoring unit basis the instruction, the equipment monitoring operation that carries out corresponds includes:

generating label information of the current equipment according to the acquired basic information of the current equipment;

determining U-bit information corresponding to the current equipment according to the acquired machine room state, cabinet capacity state and the basic information, wherein the U-bit information comprises a machine room and a U bit;

generating U-bit corresponding information according to the U-bit information, the basic information of the current equipment and the label information, wherein the U-bit corresponding information is used for indicating the corresponding relation between the current equipment and the U bit;

and sending the racking instruction to the entrance guard monitoring unit and the U-position monitoring unit, wherein the racking instruction carries the U-position corresponding information so that the entrance guard monitoring unit monitors whether the current equipment enters a corresponding machine room according to the U-position corresponding information to enable the U-position monitoring unit to monitor whether the current equipment is stored to the corresponding U position according to the U-position corresponding information.

Optionally, after the generating U-bit corresponding information according to the U-bit information, the base information of the current device, and the tag information, the method further includes:

and storing the basic information of the current equipment, the label information and the U-bit corresponding information.

Optionally, when the state information includes a state to be maintained, the instruction corresponding to the state to be maintained includes a maintenance instruction;

deleting the corresponding information of the U bit corresponding to the current equipment;

and sending the maintenance instruction to the U-bit monitoring unit and the entrance guard monitoring unit, wherein the maintenance instruction carries the label information of the current equipment so that the U-bit monitoring unit monitors whether the current equipment leaves the corresponding U bit according to the label information of the current equipment, so that the entrance guard monitoring unit monitors whether the current equipment leaves the corresponding machine room according to the label information of the current equipment.

Optionally, when the state information includes a to-be-dialed state, the instruction corresponding to the to-be-dialed state includes a dialing instruction;

determining updated U bit information corresponding to the current equipment according to the acquired machine room state, cabinet capacity state and the basic information, wherein the updated U bit information comprises an updated machine room and an updated U bit;

generating updated U-bit corresponding information according to the updated U-bit information, the basic information of the current device and the label information, wherein the updated U-bit corresponding information is used for indicating the corresponding relationship between the current device and the updated U-bit;

and sending the allocation instruction to the U-bit monitoring unit and the entrance guard monitoring unit, wherein the updated U-bit corresponding information is carried in the allocation instruction, so that the U-bit monitoring unit monitors whether the current equipment leaves the U bit corresponding to the U-bit corresponding information according to the updated U-bit corresponding information and monitors whether the current equipment is stored to the updated U bit, so that the entrance guard monitoring unit monitors whether the current equipment leaves the machine room corresponding to the U-bit corresponding information according to the updated U-bit corresponding information and monitors whether the current equipment enters the updated machine room.

Optionally, when the state information includes a to-be-scrapped state, the instruction corresponding to the to-be-scrapped state includes a scrapping instruction;

deleting the corresponding information of the U bit corresponding to the current equipment and the label information of the current equipment;

and sending the scrapping instruction to the U-bit monitoring unit and the entrance guard monitoring unit, wherein the scrapping instruction carries the U-bit corresponding information corresponding to the current equipment, so that the U-bit monitoring unit monitors whether the current equipment leaves the corresponding U bit according to the U-bit corresponding information corresponding to the current equipment, and the entrance guard monitoring unit monitors whether the current equipment leaves the corresponding machine room according to the U-bit corresponding information corresponding to the current equipment.

In another aspect, an embodiment of the present invention provides a U-bit level device monitoring apparatus, where the apparatus includes:

the receiving module is used for receiving a device transferring request initiated by the terminal device;

the determining module is used for determining the state information of the current equipment according to the equipment transferring request;

the generating module is used for generating a corresponding instruction according to the state information;

and the sending module is used for sending the instruction to the entrance guard monitoring unit and the U-bit monitoring unit so that the entrance guard monitoring unit and the U-bit monitoring unit execute corresponding equipment monitoring operation according to the instruction.

In another aspect, an embodiment of the present invention provides a U-bit level device monitoring system, including: the system comprises an equipment management unit, an access control monitoring unit, a U-position monitoring unit and terminal equipment;

the terminal device is used for sending a device transferring request to the device management unit;

the device management unit is used for receiving a device transfer request sent by the terminal device; determining the state information of the current equipment according to the equipment transferring request; generating a corresponding instruction according to the state information; sending the instruction to an entrance guard monitoring unit and a U-bit monitoring unit;

the entrance guard monitoring unit is used for receiving the instruction and executing corresponding equipment monitoring operation according to the instruction;

and the U-bit monitoring unit is used for receiving the instruction and executing corresponding equipment monitoring operation according to the instruction.

On the other hand, an embodiment of the present invention provides a storage medium, where the storage medium includes a stored program, and when the program runs, the device on which the storage medium is located is controlled to execute the U-bit device monitoring method described above.

In another aspect, an embodiment of the present invention provides a computer device, including a memory and a processor, where the memory is used to store information including program instructions, and the processor is used to control execution of the program instructions, and the program instructions are loaded by the processor and execute the steps of the U-bit level device monitoring method described above.

According to the technical scheme provided by the embodiment of the invention, the equipment transferring request initiated by the terminal equipment is received, the state information of the current equipment is determined according to the equipment transferring request, the corresponding instruction is generated according to the state information, and the instruction is sent to the entrance guard monitoring unit and the U-position monitoring unit, so that the entrance guard monitoring unit and the U-position monitoring unit execute the corresponding equipment monitoring operation according to the instruction, the use state of the U position of the rack and the heading of the asset equipment can be recorded in time, the benefit efficiency of the asset equipment is improved, and the monitoring management capability of the asset equipment is improved.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

Fig. 1 is an architecture diagram of a U-bit level device monitoring system according to an embodiment of the present invention;

fig. 2 is a flowchart of a U-bit level device monitoring method according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for monitoring a U-bit level device according to another embodiment of the present invention;

fig. 4 is an architecture diagram of an access control monitoring unit according to an embodiment of the present invention;

FIG. 5 is a block diagram of a U-bit monitor unit according to an embodiment of the present invention;

FIG. 6 is a flowchart of a method for monitoring a U-bit level device according to another embodiment of the present invention;

FIG. 7 is a flowchart of a method for monitoring a U-bit level device according to another embodiment of the present invention;

FIG. 8 is a flowchart of a method for monitoring a U-bit level device according to another embodiment of the present invention;

fig. 9 is a schematic structural diagram of a U-bit device monitoring apparatus according to an embodiment of the present invention;

fig. 10 is a schematic diagram of a computer device according to an embodiment of the present invention.

[ detailed description ] embodiments

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of associative relationship that describes an associated object, meaning that three types of relationships may exist, e.g., A and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

Fig. 1 is an architecture diagram of a U-bit level device monitoring system according to an embodiment of the present invention, as shown in fig. 1, the system includes: the system comprises a device management unit 100, an entrance guard monitoring unit 110, a U-position monitoring unit 120 and a terminal device 130.

The device management unit 100 includes a device management control system and an administrator system (not shown in the figure), wherein the device management control system includes a system transmission module, a data acquisition module and a monitoring management module (not shown in the figure), wherein the system transmission module is used for realizing network connection between the device management unit 100 and the access control monitoring unit 110, the U-bit monitoring unit 120 and the terminal device 130, so that the device management unit 100 receives a device transfer request initiated by the terminal device, determines the state information of the current device according to the device transfer request, generates a corresponding instruction according to the state information, sends the instruction to the access control monitoring unit and the U-bit monitoring unit, and sends the instruction to the access control monitoring unit and the U-bit monitoring unit. The data acquisition module is used for storing the acquired basic information and the tag information of the current equipment and the corresponding information of the U bit. The monitoring management module is configured to monitor an execution process of the access monitoring unit 110 and the U-bit monitoring unit 120 executing corresponding device monitoring operations according to the instruction. The administrator system is a system terminal used by the device administrator, and the administrator system is configured to receive a task instruction issued by the device management control system, where the task instruction may include, for example, storing the device in a corresponding machine room or U-bit, moving the device away from the machine room or U-bit, and the like.

In this embodiment of the present invention, the device management unit 100 is configured to receive a device relocation request initiated by the terminal device 130, for example, the device relocation request may include a device racking request, a device maintenance request, a device relocation request, or a device scrapping request, and the type of the device relocation request is not limited in the present invention.

The terminal device 130 may include a portable handheld reader, and the terminal device 130 has barcode scanning and RFID tag reading and writing functions. For example, the terminal device 110 includes a hand-held terminal, scans a device to be shelved by the hand-held terminal device, and transmits a device shelving request to the device management unit 100 through the switch. It should be noted that, when the asset device is scanned by the terminal device, a wireless communication or batch processing mode may be adopted, so that the efficiency of device entry may be improved.

The device management unit 100 is further configured to determine state information of the current device according to the device transferring request, where the state information of the current device may include a to-be-shelved state, a to-be-maintained state, a to-be-transferred state, or a to-be-scrapped state, and may further include other state information.

The device management unit 100 is further configured to generate a corresponding instruction according to the status information. In a specific implementation manner, when the state information includes a to-be-shelved state, the instruction corresponding to the to-be-shelved state includes a shelved instruction; when the state information comprises a state to be maintained, the instruction corresponding to the state to be maintained comprises a maintenance instruction; when the state information comprises a to-be-allocated state, the instruction corresponding to the to-be-allocated state comprises an allocation instruction; when the state information comprises a to-be-scrapped state, the instruction corresponding to the to-be-scrapped state comprises a scrapping instruction.

The device management unit 100 is further configured to send an instruction to the access monitoring unit 110 and the U-bit monitoring unit 120. In a specific implementation manner, the device management unit 100 generates a corresponding instruction according to the instruction, and issues the instruction to the access monitoring unit 110 and the U-bit monitoring unit 120 through the switch.

The access control monitoring unit 110 is configured to execute a corresponding device monitoring operation according to the instruction, wherein for specific components of the access control monitoring unit 110 and a specific process of executing the corresponding device monitoring operation, reference may be made to the following embodiments.

The U-bit monitoring unit 120 is configured to execute a corresponding device monitoring operation according to the instruction, wherein for a specific process of executing the corresponding device monitoring operation by a specific component of the access control monitoring unit 110, reference may be made to the following embodiments.

In the embodiment of the invention, the use state of the U bit of the rack and the heading of the asset equipment can be recorded in time through the system architecture, so that the benefit efficiency of the asset equipment is improved, and the monitoring and management capability of the asset equipment is improved. The following embodiments are provided to describe the procedure of the U-bit level device monitoring method in detail.

Fig. 2 is a flowchart of a U-bit level device monitoring method according to an embodiment of the present invention, as shown in fig. 2, the method includes:

step 101, receiving a device transfer request initiated by a terminal device.

In the embodiment of the present invention, each step is performed by the device management unit 100. The equipment transfer request may include an equipment racking request, an equipment maintenance request, an equipment transfer request or an equipment scrapping request, and the type of the equipment transfer request is not limited by the invention. In one particular implementation, the terminal device 130 may include a handheld terminal device, for example, by scanning a device to be shelved by the handheld terminal device, sending a device shelf request to the device management unit 100 through a switch.

And step 102, determining the state information of the current equipment according to the equipment transferring request.

In the embodiment of the invention, the current equipment comprises machine room asset equipment. The state information of the current device may include a state to be shelved, a state to be maintained, a state to be deployed, or a state to be scrapped, and may also include other state information.

And 103, generating a corresponding instruction according to the state information.

In an embodiment of the present invention, in a specific implementation manner, when the state information includes a to-be-shelved state, the instruction corresponding to the to-be-shelved state includes a shelve instruction; when the state information comprises a state to be maintained, the instruction corresponding to the state to be maintained comprises a maintenance instruction; when the state information comprises a to-be-allocated state, the instruction corresponding to the to-be-allocated state comprises an allocation instruction; when the state information comprises a to-be-scrapped state, the instruction corresponding to the to-be-scrapped state comprises a scrapping instruction.

And 104, sending the instruction to the entrance guard monitoring unit and the U-bit monitoring unit so that the entrance guard monitoring unit and the U-bit monitoring unit execute corresponding equipment monitoring operation according to the instruction.

In the embodiment of the present invention, according to different types of instructions, the access monitoring unit and the U-bit monitoring unit need to perform different device monitoring operations, and a specific process for performing the corresponding device monitoring operation may be referred to in the following steps 204, 304, 404, and 504.

Fig. 3 is a flowchart of a U-bit level device monitoring method according to another embodiment of the present invention, as shown in fig. 3, the method includes:

step 201, the device management unit receives a device deployment request initiated by the terminal device.

In the embodiment of the present invention, for example, the terminal device 130 checks the arriving device according to the purchase order, the arriving manifest, and other information, and initiates a device transfer request to the device management unit, where the device transfer request includes a device racking request.

Step 202, the device management unit determines the state information of the current device according to the device mobilizing request.

In the embodiment of the invention, the state information of the current equipment including the state to be shelved is determined according to the equipment shelving request.

Step 203, the device management unit generates a corresponding instruction according to the state information.

In the embodiment of the invention, when the state information comprises the on-shelf state, the instruction corresponding to the on-shelf state comprises an on-shelf instruction.

And step 204, the equipment management unit sends the instruction to the access control monitoring unit and the U-bit monitoring unit so that the access control monitoring unit and the U-bit monitoring unit execute corresponding equipment monitoring operation according to the instruction.

In this embodiment of the present invention, when the state information includes a to-be-shelved state, the instruction corresponding to the to-be-shelved state includes a shelf instruction, and step 204 specifically includes:

step 2041, the device management unit generates label information of the current device according to the obtained basic information of the current device.

In this embodiment of the present invention, for example, the basic information of the current device may include an arrival form number, a device signoff, a device accountant, an arrival date, a device model, a device IP address, device service attribution information, and the like, and in addition, the basic information may include other information, which is not limited in this invention. The tag information may include a Radio Frequency Identification (RFID) tag. After the tag information is generated in step 2041, the tag information is sent to the client where the device administrator is located, so that the device administrator can stick the physical tag corresponding to the RFID tag to the corresponding device, and the device can subsequently be read by the access monitoring unit 110 and the U-bit monitoring unit 120 or the terminal device 130 through the physical tag, which can be understood as that the tag information corresponding to the physical tag of the device can be obtained by detecting the physical tag of the device.

It should be noted that the RFID tag of each device has uniqueness, that is, each device has a unique RFID tag, and the RFID tag and the device can maintain a one-to-one correspondence in the effective life cycle. That is, one RFID tag corresponds to one asset device, and the tag information corresponding to the asset device is the designated RFID tag no matter the asset device is on shelf, maintained or allocated in any effective life cycle.

Step 2042, the equipment management unit determines the U-bit information corresponding to the current equipment according to the acquired machine room state, cabinet capacity state and basic information.

In the embodiment of the invention, the current machine room state and the current cabinet capacity state can be obtained through historical machine room storage equipment records and cabinet storage equipment records. The U bit information comprises a computer room and U bits. The basic information includes the above-mentioned information, as well as the U-bit height and other physical attributes, and the U-bit information corresponding to the current device is further determined by obtaining the U-bit height of the device. For example, when the U bit height of the device is 3, the device management unit needs to screen out at least U bits with a U bit height of 3.

In practical applications, the device management unit 110 allocates a machine room and a U bit (where the U bit is located in the machine room) to the current device according to the current machine room state, the cabinet capacity state, and the basic information of the current device. After the U-bit information corresponding to the current device is determined, the U-bit information is sent to an administrator system where a device administrator is located, so that the device administrator marks the U-bit information as a "pre-allocation state", for example, the light state of an antenna corresponding to the U-bit is adjusted to be a bright yellow light, so as to indicate that the U-bit is allocated. Further, after the device administrator places the current device to the designated U bit according to the U bit information, the antenna in the U bit detects the device and feeds back the detected device information to the U bit monitoring unit 130, the U bit monitoring unit 130 initiates confirmation information of device on shelf to the device management unit 100, and after the confirmation-free information is obtained, the device administrator marks the U bit information as "allocated state", for example, adjusts the light state of the antenna corresponding to the U bit to be green light to indicate that the U bit is used.

Step 2043, the device management unit generates U-bit corresponding information according to the U-bit information and the basic information and tag information of the current device.

In the embodiment of the present invention, the U-bit correspondence information is used to indicate a correspondence between the current device and the U bit, and it can be understood that the U-bit correspondence information includes association information generated after binding and associating the U-bit information, the base information of the current device, and the tag information.

In the embodiment of the present invention, after step 2043, the method further includes: the device management unit stores basic information and tag information of the current device and U-bit corresponding information.

Step 2044, the equipment management unit sends a racking instruction to the entrance guard monitoring unit and the U-bit monitoring unit, wherein the racking instruction carries the corresponding information of the U-bit, so that the entrance guard monitoring unit monitors whether the current equipment enters the corresponding machine room according to the corresponding information of the U-bit, and the U-bit monitoring unit monitors whether the current equipment is stored to the corresponding U-bit according to the corresponding information of the U-bit.

In the embodiment of the present invention, the access monitoring unit 110 may be installed at an entrance of a machine room. As shown in fig. 4, the access control monitoring unit 110 includes an access control and antenna device, a read-write device, and an access control management module, where the access control and antenna device may include at least 2 antennas. The entrance guard and antenna equipment is used for detecting the RFID tag, the read-write equipment is used for reading the RFID tag, and the entrance guard management module is used for uploading the read RFID tag to the equipment management unit 100 in real time, so that the equipment management unit 100 can judge whether the current equipment enters the corresponding machine room according to the RFID tag. The entrance guard, the antenna equipment and the read-write equipment can form RFID (radio frequency identification) equipment, each machine room entrance and exit is provided with the RFID equipment, the RFID equipment can form an antenna coverage area, and any equipment provided with an RFID label can be read to label information corresponding to the RFID label by the RFID equipment when passing through the antenna coverage area.

In addition, the door access monitoring unit 110 may further include peripheral devices such as an infrared sensor, an alarm lamp, and a buzzer. When the entrance guard monitoring unit 110 detects that an abnormal device enters, the infrared sensor, the alarm lamp and the buzzer are used for system alarm prompt, wherein the abnormal device may include an asset device which is not authorized by the device management unit 100 to be moved away or moved into the current machine room.

In this embodiment of the present invention, the specific process of the door access monitoring unit in step 2044 monitoring whether the current device enters the machine room in which the corresponding U bit is located according to the racking instruction and the tag information of the current device may include: the entrance guard monitoring unit 110 detects the equipment entering the entrance of the machine room according to the U-bit corresponding information, wherein the U-bit corresponding information includes the U-bit information and the basic information and the tag information of the current equipment, and the U-bit information includes the machine room and the U-bit, so that when the entrance guard and the antenna equipment of the entrance guard monitoring unit 110 detect the tag information of the current equipment, it indicates that the current equipment has entered the corresponding machine room. The specific way of detecting the tag information of the current device may be to detect the RFID tag through an infrared ray through the access control and antenna device in the access control monitoring unit 110, and to feed back the detected RFID tag to the reading device and read the RFID tag through a wireless network.

In practical application, for example, the racking instruction is sent to the access control monitoring unit, wherein the racking instruction carries information corresponding to a U bit corresponding to the device a, the information corresponding to the U bit includes information corresponding to the U bit, and the information corresponding to the U bit includes the machine room #1, so when the device a enters the machine room #2, since the access control monitoring unit of the machine room #2 does not receive the racking instruction, the alarm information is sent out, wherein the alarm information can notify a device administrator in a mail, sound and light, short message and other manners, so that the device administrator can timely handle the alarm. It should be noted that when the access control monitoring unit 110 is in the standby state, the tag information is not read, so that the loss of system resources is reduced.

In the embodiment of the invention, the U-position monitoring unit can be arranged in a wiring groove at the inner side of the machine room cabinet or a front door panel. As shown in fig. 5, U-bit monitoring unit 120 includes a read-write device and an antenna (not shown). The read-write equipment is used for receiving rack U bit information generated by the antenna in real time, wherein the rack U bit information is used for indicating equipment state information generated by the current equipment in the U bit. In an alternative solution, a reader-writer with a sectional structure may be adopted, which can be installed in the cabinet and on the front door panel, and can be properly adjusted according to the height of the cabinet. Because the antenna is used as a locator of each U bit, one antenna is required to monitor one U bit, and therefore the U bit monitoring unit 120 includes a plurality of antennas, specifically, a portable pluggable U bit antenna can be adopted, so that the antenna is flexibly set, that is, the antenna is inserted into the U bit to be monitored, thereby achieving the effect of saving resources. The reader/writer is connected to the antenna via a radio frequency cable, and the reader/writer and the antenna form a U-position reader 1202.

In this embodiment of the present invention, the specific process of the U-bit monitoring unit in step 2044 monitoring whether the current device is stored in the corresponding U bit according to the tag information of the current device may include: the U-bit monitoring unit 120 detects the device entering the U-bit according to U-bit corresponding information, where the U-bit corresponding information includes U-bit information including the machine room and the U-bit, and basic information and tag information of the current device. As shown in fig. 5, when the U-bit reading device 1202 corresponding to the U-bit monitoring unit 120 detects the tag information 1201 of the current device, it indicates that the current device is stored in the corresponding U bit.

It should be noted that, an end-to-end one-to-one identification monitoring mode is adopted between the antenna and the RFID tag, so that when any device attached with the RFID tag is put on or off the corresponding U-position, the U-position identifying and reading device 1202 can automatically identify and feed back the identification result to the device management unit 100. As an alternative, the recognition result may include a device transform record of the U bits. Specifically, the target object is automatically identified between the U-position recognition device 1202 and the RFID tag 1201 through a radio frequency signal, so that the RFID tag is identified. In addition, the device can trigger an alarm when the device is put on or off the shelf at a non-corresponding U position.

In practical application, for example, an racking instruction is sent to the U-bit monitoring unit 120, where the racking instruction carries U-bit corresponding information corresponding to the device a, the U-bit corresponding information includes U-bit information, and the U-bit information includes U-bit a of the machine room #1, so when the device a enters U-bit b of the machine room #1, since the racking instruction is not received by U-bit b of the machine room #1, an alarm message is sent, where the alarm message may notify a device administrator in a manner of mail, sound and light, short message, and the like, so that the device administrator can handle the alarm in time. Further, each U bit further includes a U bit state, when the device management unit 100 allocates a U bit corresponding to the device, the U bit state of the U bit is changed from [ unused ] to [ allocated ], and the administrator installs an antenna on the allocated U bit, so that after the U bit reading device 1202 of the U bit monitoring unit 130 monitors that the device is correctly stored in the corresponding U bit, the U bit state of the U bit is changed from [ allocated ] to [ used ]. It should be noted that the U-bit status may include unused, allocated, or used, and the status may be automatically collected by the U-bit recognition device 1202, and further, different U-bit statuses may be indicated by indicator lights with different colors.

In this embodiment of the present invention, further, after step 204, the method further includes: and carrying out hardware information delivery and software information delivery on the current equipment, wherein the hardware information comprises information such as an operating system, security reinforcement, password account number and the like, and the software information comprises information such as equipment model, rack position, arrival information and the like.

In the embodiment of the invention, the management force accurate to the U bit within the standard distance is realized by monitoring one asset device by one U bit, the process complexity of manual monitoring detection is reduced, and the automatic monitoring and management of the U bit level device are realized, thereby effectively improving the utilization rate of resources. According to the invention, the U-bit monitoring unit is arranged, so that the state information of each asset device in the corresponding U bit can be sensed in real time, and the heading of each asset device can be recorded in time. Furthermore, the RFID tag is arranged, so that the unique ID tracking of the asset equipment is realized, the full life cycle management from the shelf to the scrapping of the asset equipment is realized, and the asset utilization efficiency and the asset monitoring management capability are improved.

Fig. 6 is a flowchart of a U-bit level device monitoring method according to another embodiment of the present invention, as shown in fig. 6, the method includes:

step 301, the device management unit receives a device deployment request initiated by the terminal device.

In the embodiment of the present invention, when an accessory of an asset device is maintained or a component is replaced, a maintenance procedure needs to be performed, and specifically, a device relocation request is sent to a device management unit by a terminal device, where the device relocation request includes a device maintenance request.

Step 302, the device management unit determines the state information of the current device according to the device mobilizing request.

In the embodiment of the invention, the state information of the current equipment including the state to be maintained is determined according to the equipment racking request.

Step 303, the device management unit generates a corresponding instruction according to the state information.

In the embodiment of the invention, when the state information comprises the state to be maintained, the instruction corresponding to the state to be maintained comprises a maintenance instruction.

And step 304, the equipment management unit sends the instruction to the access control monitoring unit and the U-bit monitoring unit so that the access control monitoring unit and the U-bit monitoring unit execute corresponding equipment monitoring operation according to the instruction.

It should be noted that, before the access monitoring unit and the U-bit monitoring unit execute the maintenance instruction, the current device is already in the on-shelf state.

In this embodiment of the present invention, when the state information includes a to-be-maintained state, the instruction corresponding to the to-be-maintained state includes a maintenance instruction, and step 304 specifically includes:

step 3041, the device management unit deletes the U-bit corresponding information corresponding to the current device.

In the embodiment of the present invention, when the device needs to be removed from the cabinet for maintenance, the device administrator sends a request to the device management unit 100, so that the device management unit 100 deletes the U-bit corresponding information corresponding to the current device according to the request, that is, unbundles the association relationship between the U-bit and the current device. After step 3041 is performed, the U bit state of the released U bit is changed to "unused state" so that the released U bit can be newly allocated to another device by the device management unit 100.

Step 3042, the device management unit sends the maintenance instruction to the U-bit monitoring unit and the access control monitoring unit, where the maintenance instruction carries the tag information of the current device, so that the U-bit monitoring unit monitors whether the current device leaves the corresponding U-bit according to the tag information of the current device, and the access control monitoring unit monitors whether the current device leaves the corresponding machine room according to the tag information of the current device.

In an embodiment of the present invention, a specific process of monitoring, by the access control monitoring unit, whether the current device has left the corresponding machine room according to the tag information of the current device may include: the entrance guard monitoring unit 110 detects the device leaving the entrance/exit of the machine room according to the tag information of the current device, and when the entrance guard and the antenna device of the entrance guard monitoring unit 110 detect that the tag information is the same as the tag information of the current device, it indicates that the current device has left the corresponding machine room. As shown in fig. 4, the specific way of detecting the tag information may be to detect the RFID tag through an infrared ray through the entrance guard and the antenna device in the entrance guard monitoring unit 110, and feed back the detected RFID tag to the reading device to read the RFID tag through a wireless network.

In practical application, for example, a maintenance instruction is sent to the access monitoring unit, where the maintenance instruction carries tag information of the device a, so when the device a leaves a machine room where the device a is located, because the access monitoring unit of the machine room detects tag information of devices entering and exiting the machine room entrance and exit according to the received maintenance instruction, when the tag information is detected to be the same as the tag information of the device a, it indicates that the device a leaves the machine room exit, and the access monitoring unit 110 generates a transformation record of the device a, where the transformation record may include information such as leaving time of the device a. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit 100, the equipment management unit 100 detects whether the behavior of the equipment A is legal or not according to the received transformation record, and if not, alarm information is generated, wherein the alarm information can inform an equipment administrator in a mail mode, a sound-light mode, a short message mode and the like, so that the equipment administrator can process the alarm in time.

In this embodiment of the present invention, a specific process of the U-bit monitoring unit monitoring whether the current device has left the corresponding U bit according to the tag information of the current device may include: the U-bit monitoring unit 120 detects the U-bit device according to the tag information, and since the U-bit monitoring unit has a characteristic that one antenna monitors one device, when the U-bit reading device corresponding to the U-bit monitoring unit 120 does not detect the tag information of the current device, it indicates that the current device has left the corresponding U-bit. Further, after the device leaves the corresponding U bit, the device management unit 100 needs to release the U bit resource and the antenna resource, and change the U bit state of the U bit to [ unused ].

Fig. 7 is a flowchart of a U-bit level device monitoring method according to another embodiment of the present invention, as shown in fig. 7, the method includes:

step 401, the device management unit receives a device deployment request initiated by the terminal device.

In the embodiment of the present invention, for example, when the device needs to change the device attribution or the physical rack information because of a service, the device needs to be transferred, specifically, the terminal device sends a device transfer request to the device management unit, where the device transfer request includes a device transfer request.

Step 402, the device management unit determines the state information of the current device according to the device mobilizing request.

In the embodiment of the invention, the state information of the current equipment is determined to comprise the state to be allocated according to the equipment allocation request.

Step 403, the device management unit generates a corresponding instruction according to the status information.

In the embodiment of the invention, when the state information comprises the to-be-dialed state, the instruction corresponding to the to-be-dialed state comprises a dialing instruction.

And step 404, the device management unit sends the instruction to the access control monitoring unit and the U-bit monitoring unit, so that the access control monitoring unit and the U-bit monitoring unit execute corresponding device monitoring operation according to the instruction.

It should be noted that, before the access control monitoring unit and the U-bit monitoring unit execute the call instruction, the current device is already in the on-shelf state.

In this embodiment of the present invention, when the state information includes a to-be-dialed state, the instruction corresponding to the to-be-dialed state includes a dialing instruction, and step 404 specifically includes:

step 4041, the device management unit deletes the U-bit corresponding information corresponding to the current device.

In the embodiment of the present invention, the step may be executed in step 3041.

Step 4042, the device management unit determines updated U-bit information corresponding to the current device according to the acquired machine room status, cabinet capacity status, and basic information.

In the embodiment of the present invention, the execution process of this step may refer to step 2042 in the above embodiment, and step 4042 differs from step 2042 in that: the updated U bit information includes the updated machine room and the updated U bit, and the device management unit 100 re-allocates a new U bit to the current device by executing step 4042.

Step 4043, the device management unit generates updated U-bit corresponding information according to the updated U-bit information and the basic information and the tag information of the current device.

In the embodiment of the present invention, the execution process of this step may refer to step 2043 in the above embodiment, and step 4043 differs from step 2043 in that: and the updated U bit corresponding information is used for indicating the corresponding relation between the current equipment and the updated U bit.

Step 4044, the device management unit sends the dial-up command to the U-bit monitoring unit and the access control monitoring unit, where the dial-up command carries updated information corresponding to the U-bit, so that the U-bit monitoring unit monitors whether the current device has left the U-bit corresponding to the information according to the updated information corresponding to the U-bit, and monitors whether the current device has been stored in the updated U-bit, so that the access control monitoring unit monitors whether the current device has left the machine room corresponding to the information corresponding to the U-bit according to the updated information corresponding to the U-bit, and monitors whether the current device has entered the updated machine room.

In the embodiment of the present invention, the specific process of the access control monitoring unit monitoring whether the current device has left the machine room corresponding to the updated U-bit corresponding information according to the updated U-bit corresponding information and monitoring whether the current device enters the updated machine room may include: the entrance guard monitoring unit detects the device leaving the machine room entrance and exit according to the tag information of the current device, and when the RFID radio frequency identification device S1 of the entrance guard monitoring unit 110 detects the tag information of the current device, it indicates that the current device has left the corresponding machine room. The RFID S2 of the access control monitoring unit 110 detects the device entering the machine room entrance according to the updated U-bit corresponding information, where the updated U-bit corresponding information includes updated U-bit information and basic information and tag information of the current device, and the updated U-bit information includes an updated machine room and an updated U-bit, so that when the RFID S2 of the access control monitoring unit 110 detects the tag information of the current device, it indicates that the current device has entered the updated machine room.

In practical application, for example, taking the example that the device a is dispatched from the machine room #1 to the machine room #2, the dispatching instruction is sent to the access monitoring unit, where the dispatching instruction carries updated U-bit corresponding information, so when the device a leaves the machine room #1 where the device a is located, because the access monitoring unit 110 receives the dispatching instruction, when the RFID device S1 of the machine room #1 detects the tag information of the current device, it indicates that the device a has left the machine room #1, and generates a transformation record of the device, where the transformation record may include information such as the leaving time of the current device. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit, the equipment management unit 100 detects whether the equipment behavior is legal or not according to the received transformation record, and if not, alarm information is generated. Further, when the RFID device S2 of the machine room #2 detects the tag information of the current device, it indicates that the device a has entered the machine room #2, and generates a transformation record of the device, wherein the transformation record may include information such as the entry time of the current device. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit, the equipment management unit 100 detects whether the equipment behavior is legal or not according to the received transformation record, and if not, alarm information is generated.

In this embodiment of the present invention, a specific process of the U-bit monitoring unit monitoring whether the current device has left the U bit corresponding to the U-bit corresponding information according to the updated U-bit corresponding information, and monitoring whether the current device has been stored in the updated U bit, may include: the U-bit monitoring unit 120 detects the device leaving the U-bit according to the tag information, and since the U-bit monitoring unit has a characteristic that one antenna monitors one device, when the U-bit reading device corresponding to the U-bit monitoring unit 120 does not detect the tag information of the current device, it indicates that the current device has left the corresponding U-bit. In addition, the U-bit monitoring unit 120 detects the device entering the U-bit according to the updated U-bit corresponding information, where the updated U-bit corresponding information includes updated U-bit information and basic information and tag information of the current device, and the updated U-bit information includes an updated machine room and an updated U-bit, so that when the U-bit reading device corresponding to the U-bit monitoring unit 120 detects the tag information of the current device, it indicates that the current device has been stored in the updated U-bit.

In practical application, for example, the device a dials from the U-bit a of the machine room #1 to the U-bit b of the machine room #2, and sends a dial instruction to the U-bit monitoring unit, where the dial instruction carries updated information corresponding to the U-bit, so that when the device a leaves the U-bit a, since the U-bit monitoring unit receives the dial instruction, when the U-bit reading device of the U-bit a does not detect the tag information of the current device, it indicates that the device a has left the U-bit a, and generates a transformation record of the device, where the transformation record may include information such as the leaving time of the current device. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit, the equipment management unit 100 detects whether the equipment behavior is legal or not according to the received transformation record, and if not, alarm information is generated. Further, when the U bit reading device of U bit b of the machine room #2 detects the tag information of the current device, it indicates that the device a has entered U bit b, and generates a transformation record of the device, where the transformation record may include information such as the entry time of the current device. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit, the equipment management unit 100 detects whether the equipment behavior is legal or not according to the received transformation record, and if not, alarm information is generated.

Further, after the device leaves the U bit a and stores the U bit a to the U bit b, the device management unit 100 needs to release the antenna resources corresponding to the U bit a and the U bit a, change the U bit state of the U bit a to [ unused ], and change the U bit state of the U bit b to [ used ].

Fig. 8 is a flowchart of a U-bit level device monitoring method according to another embodiment of the present invention, as shown in fig. 8, the method includes:

step 501, the device management unit receives a device deployment request initiated by the terminal device.

In the embodiment of the present invention, for example, when the device has no use value, a discard process needs to be performed, specifically, the terminal device 130 sends a device relocation request to the device management unit 110, where the device relocation request includes a device discard request.

Step 502, the device management unit determines the state information of the current device according to the device mobilizing request.

In the embodiment of the invention, the state information of the current equipment is determined to comprise the to-be-scrapped state according to the equipment scrapping request.

Step 503, the device management unit generates a corresponding instruction according to the state information.

In the embodiment of the invention, when the state information comprises the to-be-scrapped state, the instruction corresponding to the to-be-scrapped state comprises a scrapping instruction.

And step 504, the device management unit sends the instruction to the access control monitoring unit and the U-bit monitoring unit, so that the access control monitoring unit and the U-bit monitoring unit execute corresponding device monitoring operation according to the instruction.

In the embodiment of the present invention, as an optional scheme, when the state information includes a to-be-scrapped state, the instruction corresponding to the to-be-scrapped state includes a scrapping instruction, and step 504 specifically includes:

step 5041, the device management unit deletes the U-bit corresponding information corresponding to the current device and the tag information of the current device.

In the embodiment of the present invention, when the device needs to be removed from the cabinet due to scrapping, the device administrator sends a request to the device management unit 100, so that the device management unit 100 deletes the U-bit corresponding information corresponding to the current device according to the request, that is, unbinds the association relationship between the U-bit and the current device. After step 3041 is performed, the U bit state of the released U bit is changed to an unused state so that the released U bit can be newly allocated to another device by the device management unit 100. In addition, the device management unit needs to delete the tag information of the current device, and the access control monitoring unit 110 cannot detect the tag information of the device due to the deletion of the tag information of the current device, so that alarm information is generated when the device enters another machine room again or is not moved away from the original machine room; because the tag information of the current device is deleted, the U-bit monitoring unit 120 cannot detect the tag information of the device, and when the device enters another U-bit again or is not moved away from the original U-bit, alarm information may be generated.

In practical applications, when the device is in a scrapped state, the device management unit 100 deletes the U-bit corresponding information corresponding to the current device according to the request, that is, unbinds the association relationship between the U-bit and the current device, and sends an instruction to the device administrator, so that the device administrator moves the device away from the rack to a designated area, and sets the device state to be a scrapped state. In addition, when the equipment is removed from the machine room to be scrapped, the RFID label needs to be recycled. Where the RFID tag may include a physical tag portion that requires the device administrator to manually tear back from the device and a tag information portion that requires the device management unit to delete from the system.

And 5042, the equipment management unit sends the scrapping instruction to the U-bit monitoring unit and the entrance guard monitoring unit, wherein the scrapping instruction carries the corresponding information of the U bit corresponding to the current equipment, so that the U-bit monitoring unit monitors whether the current equipment leaves the corresponding U bit according to the corresponding information of the U bit corresponding to the current equipment, and the entrance guard monitoring unit monitors whether the current equipment leaves the corresponding machine room according to the corresponding information of the U bit corresponding to the current equipment.

In the embodiment of the present invention, a specific process of monitoring, by the access control monitoring unit, whether the current device has left the corresponding machine room according to the U-bit corresponding information corresponding to the current device may include: the entrance guard monitoring unit 110 detects the device leaving the entrance of the machine room according to the tag information of the current device, and when the entrance guard and the antenna device of the entrance guard monitoring unit 110 detect the tag information of the current device, it indicates that the current device has left the corresponding machine room. The specific way of detecting the tag information of the current device may be to detect the RFID tag through an infrared ray through the access control and antenna device in the access control monitoring unit 110, and to feed back the detected RFID tag to the reading device and read the RFID tag through a wireless network.

In practical application, for example, the scrap instruction is sent to the access control monitoring unit, where the scrap instruction carries U-bit corresponding information of the device a, and U is the corresponding information including the label information of the device a, so when the device a leaves the machine room where the device a is located, because the access control monitoring unit of the machine room detects the label information of the device entering and exiting the machine room entrance and exit according to receiving the scrap instruction, when it is detected that the label information is the same as the label information of the device a, it indicates that the device a is leaving the machine room exit, and the access control monitoring unit 110 generates a transformation record of the device a, where the transformation record may include information such as leaving time of the device a. The entrance guard monitoring unit feeds the transformation record back to the equipment management unit 100, the equipment management unit 100 detects whether the behavior of the equipment A is legal or not according to the received transformation record, and if not, alarm information is generated. In addition, the equipment management unit can also set a time period for the scrapped equipment to be moved away from the machine room, if the current equipment is moved away from the machine room in a legal time period, an alarm cannot be triggered, and otherwise, the alarm can be triggered.

In this embodiment of the present invention, a specific process of the U-bit monitoring unit monitoring whether the current device has left the corresponding U bit according to the tag information of the current device may include: the U-bit monitoring unit 120 detects the device leaving the U-bit according to the tag information, and since the U-bit monitoring unit has a characteristic that one antenna monitors one device, when the U-bit reading device corresponding to the U-bit monitoring unit 120 does not detect the tag information of the current device, it indicates that the current device has left the corresponding U-bit. Further, after the device leaves the corresponding U bit, the device management unit 100 needs to release the U bit resource and the antenna resource, and change the U bit state of the U bit to [ unused ].

The method for monitoring the U-level equipment has the advantages that the RFID technology is adopted to carry out remote operation and maintenance monitoring on the equipment, and the management of the whole life cycle of asset equipment from shelf-on, use, maintenance, allocation and scrapping is realized, so that the working efficiency and the accuracy are improved.

Fig. 9 is a schematic structural diagram of a U-bit device monitoring apparatus according to an embodiment of the present invention, and as shown in fig. 9, the apparatus includes: a receiving module 11, a determining module 12, a generating module 13 and a transmitting module 14.

The receiving module 11 is configured to receive a device deployment request initiated by a terminal device.

The determining module 12 is configured to determine the state information of the current device according to the device transferring request.

The generating module 13 is configured to generate a corresponding instruction according to the state information.

The sending module 14 is configured to send the instruction to the access control monitoring unit and the U-bit monitoring unit, so that the access control monitoring unit and the U-bit monitoring unit execute corresponding device monitoring operation according to the instruction.

In the embodiment of the invention, when the state information comprises a to-be-shelved state, the instruction corresponding to the to-be-shelved state comprises a shelve instruction; the sending module 14 specifically includes: a generation submodule 141, a determination submodule 142, a transmission submodule 143, and a storage submodule 144.

The generating submodule 141 is configured to generate the tag information of the current device according to the obtained basic information of the current device.

The determining submodule 142 is configured to determine, according to the acquired machine room state, the acquired cabinet capacity state, and the basic information, U-bit information corresponding to the current device, where the U-bit information includes a machine room and a U bit.

The generating submodule 141 is configured to generate U-bit corresponding information according to the U-bit information, the basic information of the current device, and the tag information, where the U-bit corresponding information is used to indicate a corresponding relationship between the current device and the U bit.

The sending submodule 143 is configured to send the racking instruction to the access control monitoring unit and the U-bit monitoring unit, where the racking instruction carries the U-bit corresponding information, so that the access control monitoring unit monitors whether the current device enters a corresponding machine room according to the U-bit corresponding information, so that the U-bit monitoring unit monitors whether the current device has been stored to a corresponding U-bit according to the U-bit corresponding information.

The storage sub-module 144 is configured to store the basic information of the current device, the tag information, and U-bit corresponding information.

In the embodiment of the invention, when the state information comprises a state to be maintained, the instruction corresponding to the state to be maintained comprises a maintenance instruction; the sending module 14 specifically includes: the sub-module 145 is deleted.

The deleting submodule 145 is configured to delete the U-bit corresponding information corresponding to the current device.

The sending submodule 143 is further configured to send the maintenance instruction to the U-bit monitoring unit and the access control monitoring unit, where the maintenance instruction carries the tag information of the current device, so that the U-bit monitoring unit monitors whether the current device has left the corresponding U-bit according to the tag information of the current device, and the access control monitoring unit monitors whether the current device has left the corresponding machine room according to the tag information of the current device.

In the embodiment of the invention, when the state information comprises a to-be-allocated state, the instruction corresponding to the to-be-allocated state comprises an allocation instruction; the sending module 14 specifically includes:

the deleting submodule 145 is further configured to delete the U-bit corresponding information corresponding to the current device.

The determining submodule 142 is further configured to determine, according to the acquired machine room state, the acquired cabinet capacity state, and the basic information, updated U-bit information corresponding to the current device, where the updated U-bit information includes an updated machine room and an updated U-bit.

The generating submodule 141 is further configured to generate updated U-bit corresponding information according to the updated U-bit information, the basic information of the current device, and the tag information, where the updated U-bit corresponding information is used to indicate a corresponding relationship between the current device and the updated U-bit.

Sending submodule 143 is still used for with the transfer dial instruction send to U position monitoring unit with entrance guard's monitoring unit, carry in the transfer dial instruction the U position after the update corresponds information, so that U position monitoring unit basis the U position after the update corresponds information, monitors whether current equipment has left the U position that U position corresponds information corresponds, and monitors whether current equipment has deposited to the U position after the update, so that entrance guard's monitoring unit basis the U position after the update corresponds information, monitors whether current equipment has left the computer lab that U position corresponds information corresponds, and monitors whether current equipment gets into the computer lab after the update.

In the embodiment of the invention, when the state information comprises a to-be-scrapped state, the instruction corresponding to the to-be-scrapped state comprises a scrapping instruction; the sending module 14 specifically includes:

the deleting submodule 145 is further configured to delete the U-bit corresponding information corresponding to the current device and the tag information of the current device.

The sending submodule 143 is further configured to send the scrapped instruction to the U-bit monitoring unit and the access control monitoring unit, where the scrapped instruction carries information corresponding to the U-bit corresponding to the current device, so that the U-bit monitoring unit monitors whether the current device leaves the corresponding U-bit according to the information corresponding to the U-bit corresponding to the current device, so that the access control monitoring unit monitors whether the current device leaves the corresponding machine room according to the information corresponding to the U-bit corresponding to the current device.

An embodiment of the present invention provides a storage medium, where the storage medium includes a stored program, where, when the program runs, a device in which the storage medium is located is controlled to execute each step of the above embodiment of the U-bit device monitoring method, and for specific description, reference may be made to the above embodiment of the U-bit device monitoring method.

The embodiment of the invention provides computer equipment, which comprises a memory and a processor, wherein the memory is used for storing information comprising program instructions, the processor is used for controlling the execution of the program instructions, and the program instructions are loaded by the processor and executed to realize the steps of the monitoring method for the U-bit equipment. For a detailed description, reference may be made to the above-mentioned embodiment of the U-bit level device monitoring method.

Fig. 10 is a schematic diagram of a computer device according to an embodiment of the present invention. As shown in fig. 10, the computer device 4 of this embodiment includes: the processor 41, the memory 42, and the computer program 43 stored in the memory 42 and capable of running on the processor 41, where the computer program 43 is executed by the processor 41 to implement the U-bit level device monitoring method in the embodiment, and in order to avoid repetition, details are not repeated herein. Alternatively, the computer program is executed by the processor 41 to implement the functions of the models/units applied to the U-bit level device monitoring apparatus in the embodiments, and for avoiding redundancy, the details are not repeated herein.

The computer device 4 includes, but is not limited to, a processor 41, a memory 42. Those skilled in the art will appreciate that fig. 10 is merely an example of computer device 4 and is not intended to limit computer device 4 and may include more or fewer components than shown, or some of the components may be combined, or different components, e.g., computer device 4 may also include input-output devices, network access devices, buses, etc.

The Processor 41 may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, discrete hardware component, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The storage 42 may be an internal storage unit of the computer device 4, such as a hard disk or a memory of the computer device 4. The memory 42 may also be an external storage device of the computer device 4, such as a plug-in hard disk provided on the computer device 4, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like. Further, the memory 42 may also include both internal storage units of the computer device 4 and external storage devices. The memory 42 is used for storing computer programs and other programs and data required by the computer device 4. The memory 42 may also be used to temporarily store data that has been output or is to be output.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

The integrated unit implemented in the form of a software functional unit may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a Processor (Processor) to execute some steps of the methods according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A U-bit level device monitoring method is characterized by comprising the following steps:

receiving a device transferring request initiated by terminal equipment;

generating a corresponding instruction according to the state information;

2. The method according to claim 1, wherein when the status information includes a to-be-shelved status, the instruction corresponding to the to-be-shelved status includes a shelving instruction;

3. The method according to claim 2, wherein after generating U-bit corresponding information according to the U-bit information and the base information and the tag information of the current device, further comprising:

4. The method of claim 3, wherein when the status information includes a to-be-repaired status, the instruction corresponding to the to-be-repaired status includes a repair instruction;

5. The method of claim 3, wherein when the status information includes a to-be-dialed status, the instruction corresponding to the to-be-dialed status includes a dial instruction;

6. The method according to claim 3, wherein when the status information includes a to-be-scrapped status, the instruction corresponding to the to-be-scrapped status includes a scrapping instruction;

7. A U-bit level device monitoring system, comprising: the system comprises an equipment management unit, an access control monitoring unit, a U-position monitoring unit and terminal equipment;

8. A U-bit level device monitor apparatus, the apparatus comprising:

9. A storage medium, comprising a stored program, wherein the program controls a device in which the storage medium is located to perform the U-bit level device monitoring method according to any one of claims 1 to 6 when the program is executed.

10. A computer device comprising a memory for storing information including program instructions and a processor for controlling the execution of the program instructions, wherein the program instructions when loaded and executed by the processor implement the steps of the U-bit level device monitoring method of any one of claims 1 to 6.