CN117201560B - Asset synchronous monitoring system and method based on cloud platform - Google Patents

Abstract

The invention is applicable to the field of computers, and provides an asset synchronization monitoring system and method based on a cloud platform, wherein the method comprises the following steps: acquiring processing information about fixed asset equipment from a cloud, wherein the processing information comprises a mobile installation request; reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information; after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period; the accessory of processing position under the location treatable security state indicates the removal temporary storage position of accessory, and the technical scheme of this application embodiment can satisfy the processing requirement of asset equipment under unmanned or few humanized management, and the security is higher.

Description

Asset synchronous monitoring system and method based on cloud platform

Technical Field

The invention belongs to the field of computers, and particularly relates to an asset synchronous monitoring system and method based on a cloud platform.

Background

The equipment in the fixed asset comprises special equipment and the like, such as text moving equipment, audio and video equipment, projection and camera equipment, typing telex equipment, telephone telegraph communication equipment, stage and lighting equipment, special equipment of archives, office modern microcomputer equipment and the like.

These fixed assets generally require specialized personnel to operate when they are transferred or disassembled, wherein the design is reserved to personnel, accompanied by special personnel, and there is a risk of losing or the like for some expensive accessories of the fixed assets, but no special solution exists in the prior art, so that an asset synchronous monitoring system and method based on a cloud platform are provided.

Disclosure of Invention

The embodiment of the invention aims to provide an asset synchronization monitoring system and method based on a cloud platform, which aim to solve the problems in the background technology.

The embodiment of the invention is realized in such a way that, on the one hand, the asset synchronization monitoring method based on the cloud platform comprises the following steps:

acquiring processing information about fixed asset equipment from a cloud, wherein the processing information comprises a mobile installation request;

reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period;

positioning an accessory capable of processing a processing position in a safe state, and indicating a removing temporary storage position of the accessory, wherein the removing temporary storage position is a monitoring overlapping position of at least two different-surface monitoring points;

and monitoring the processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading the monitoring result to the cloud.

As a further aspect of the present invention, before acquiring the processing information about the fixed asset device from the cloud, the method further includes:

issuing processing requirements of the fixed asset equipment at the cloud, wherein the processing requirements comprise qualification requirements of a processor and a mobile installation request;

screening a first processing party meeting the qualification requirement and allowing an account of the first processing party to be accessed to acquire preliminary processing information of the first processing party about the mobile installation request;

and screening the preliminary processing information according to processing screening requirements to obtain the processing information, wherein the processing screening requirements at least comprise preferential processing time.

As a still further aspect of the present invention, the fitting for locating a processing position in a processable safe state includes:

searching for a first part at the processing location in a structural profile of the fixed asset device;

screening accessories meeting the first attribute according to the attribute of the first part, wherein the first attribute comprises an external attribute and/or a matching attribute;

determining a first position of the accessory in the fixed asset equipment according to the screening result and the current installation position distribution of the fixed asset equipment, wherein a reference point of the first position is a first monitoring point;

and determining a second position of the accessory under a second monitoring point according to the corresponding relation between the first monitoring point and the second monitoring point, wherein the second monitoring point is a monitoring point in an installation area where the fixed asset equipment is located.

As a still further aspect of the present invention, the at least two out-of-plane monitoring points include a first monitoring point and a second monitoring point, and the method further includes:

and controlling the projection of the monitoring direction of the second monitoring point on the ground to be parallel to the monitoring direction of the first monitoring point.

As a further aspect of the present invention, the indicating the temporary removal location of the accessory includes:

prompting to move the accessory by a first preset distance along the opposite direction of the first monitoring point, and prompting a processor to keep the accessory in a direction away from the first monitoring point or a side direction away from the first monitoring point in the moving process, wherein the monitoring direction comprises the opposite direction.

As a further aspect of the present invention, the processed procedure of the monitoring accessory based on at least two different-surface monitoring points includes:

acquiring a first real-time monitoring result of the accessory by the second monitoring point;

based on the identification information of the accessory, the monitoring visual angle of the second monitoring point is controlled to be opposite to the accessory so as to obtain a second real-time monitoring result.

As a further aspect of the present invention, the method further includes:

when the accessory is judged to be blocked according to the first real-time monitoring result and/or the second real-time monitoring result, alarm information is sent out, and the alarm information is notified to the management and control center through the cloud.

As a further aspect of the present invention, the method further includes: and acquiring the selection confirmation operation of the personnel in the management and control center, generating an alarm event according to the alarm information and the identity credential information, and taking the alarm event as a processing evaluation reference item of a processor.

In another aspect, a cloud platform based asset synchronization monitoring system, the system comprising:

the processing information synchronization module is used for acquiring processing information about the fixed asset equipment from the cloud, wherein the processing information comprises a mobile installation request;

the processing parameter reading module is used for reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

the state resetting module is used for setting the state of the fixed asset equipment into a processable safe state after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, and the ending time of the first period is at least coincident with the starting time of the processing period;

the positioning and indicating module is used for positioning the accessory capable of processing the processing position in the safe state and indicating the removing temporary storage position of the accessory, wherein the removing temporary storage position is the monitoring overlapping position of at least two different-surface monitoring points;

and the monitoring synchronization module is used for monitoring the processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading the monitoring result to the cloud.

As a further aspect of the present invention, the positioning and indicating module includes:

a searching unit, configured to search a structural distribution diagram of the fixed asset device for a first component at the processing location;

the screening unit is used for screening accessories meeting the first attribute according to the attribute of the first part, wherein the first attribute comprises an external attribute and/or a matching attribute;

the first position determining unit is used for determining a first position of the accessory in the fixed asset equipment according to the screening result and the current installation position distribution of the fixed asset equipment, and a reference point of the first position is a first monitoring point;

the second position determining unit is used for determining a second position of the accessory under a second monitoring point according to the corresponding relation between the first monitoring point and the second monitoring point, and the second monitoring point is a monitoring point in an installation area where the fixed asset equipment is located.

According to the cloud platform-based asset synchronous monitoring system and method, the implementation of the cloud platform-based technical scheme can meet the processing requirements of asset equipment under unmanned or less-unmanned management, and the requirements of moving installation and the like of fixed asset equipment in practice can be met due to the fact that processing information is removed and temporarily stored from accessories, the safety is high.

Drawings

Fig. 1 is a main flow chart of an asset synchronization monitoring method based on a cloud platform.

Fig. 2 is a flowchart of obtaining processing information in a cloud platform-based asset synchronization monitoring method.

FIG. 3 is a flow chart of an accessory for locating a processing location in a processable secure state in a cloud platform based asset synchronization monitoring method.

Fig. 4 is a flow chart of a processed process of monitoring accessories based on at least two out-of-plane monitoring points in a cloud platform based asset synchronization monitoring method.

Fig. 5 is a main structural diagram of an asset synchronization monitoring system based on a cloud platform.

Fig. 6 is a block diagram of a positioning and indication module in a cloud platform based asset synchronization monitoring system.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

The asset synchronous monitoring system and method based on the cloud platform provided by the invention solve the technical problems in the background technology.

As shown in fig. 1, a main flow chart of a cloud platform-based asset synchronization monitoring method according to an embodiment of the present invention includes:

step S10: acquiring processing information about fixed asset equipment from a cloud, wherein the processing information comprises a mobile installation request;

the cloud processing information generally issues processing requirements about fixed asset equipment, then a processing party forms a processing scheme aiming at the issuing requirements, and finally the processing scheme is preferentially selected;

the fixed asset equipment in the application comprises mechanical equipment, office equipment, special equipment and the like related to production and management activities; and there is generally equipment that has a depending relationship with the actual installation site, i.e., the fixed asset equipment may need to have a depending relationship with at least one of the wall, the electric auxiliary equipment, other co-operating equipment, etc. of the actual installation site; thus, when the requirements of transferring installation, only disassembly, movement, etc. of the fixed asset device are involved, the handling of the accessories of the fixed asset device is involved, and generally refers to the related accessories having a connection relationship with the outside or the accessories that must be disassembled, etc.;

step S11: reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

the processing time period in the processing information is preferentially selected, and the actual requirement of a fixed asset party for operation of a processor is met; the handling location refers to the location of the parts noted in the fixed asset device that require special handling, which are required to be handled in particular due to the need for transfer installation, disassembly only, movement, etc.; the preset identity credential information of the processor generally comprises at least one of a mobile phone number, face information, company credentials and the like;

step S12: after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period;

the first period is generally no later than the treatment period to strictly meet the needs of the treatment within the treatment period; after entering the identity authentication position of the corresponding fixed asset party, the processor can perform identity authentication based on the authentication self-service terminal; the identity information accords with the qualified identity credential information, namely the identity of a processor is judged to be qualified, the state of the fixed asset equipment is set to be a processable safe state at the moment, and the processable safe state comprises the steps of cutting off a power supply of the main body of the fixed asset equipment, removing external equipment and the like (the monitoring point can adopt modes of independent power supply and the like, and has no influence);

step S13: positioning an accessory capable of processing a processing position in a safe state, and indicating a removing temporary storage position of the accessory, wherein the removing temporary storage position is a monitoring overlapping position of at least two different-surface monitoring points;

the purpose of locating the accessory is to find the monitoring position of the accessory under the monitoring point; according to the positioning result, the accessory can be instructed to safely move according to the set route and distance, so that the accessory is prevented from losing detection; the monitoring points formed by the monitoring equipment which are matched with each other and are not in one position are at least two different-surface monitoring points, so that dead angle-free monitoring after the accessory is removed from the fixed asset equipment can be realized in a combined mode;

step S14: and monitoring the processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading the monitoring result to the cloud.

The processed process is actually monitored in the process of reaching the set storage place after the accessory is removed, the requirement of safety transfer of the accessory is met, and the processed result can be stored in the cloud end, so that the source tracing and the follow-up checking are convenient.

When the method is applied, processing information about fixed asset equipment is acquired from a cloud end, wherein the processing information comprises a mobile installation request; reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information; after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period; positioning an accessory capable of processing a processing position in a safe state, and indicating a removing temporary storage position of the accessory, wherein the removing temporary storage position is a monitoring overlapping position of at least two different-surface monitoring points; monitoring a processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading a monitoring result to a cloud; the implementation of the cloud-based technical scheme can meet the processing requirements of the asset equipment under unmanned or less-unmanned management, and the requirements of moving installation and the like of the fixed asset equipment in practice can be met due to the fact that the processing information is removed from the accessory and temporarily stored, and the safety is very high.

As shown in fig. 2, as a preferred embodiment of the present invention, before the processing information about the fixed asset device is acquired from the cloud, the method further includes:

step S20: issuing processing requirements of the fixed asset equipment at the cloud, wherein the processing requirements comprise qualification requirements of a processor and a mobile installation request;

the qualification requirements comprise processing requirements or processing results of some fixed asset devices which are displayed by the processing party and authenticated by a third party, and the processing requirements or the processing results are used as selection references of personnel related to a management and control center;

step S21: screening a first processing party meeting the qualification requirement and allowing an account of the first processing party to be accessed to acquire preliminary processing information of the first processing party about the mobile installation request;

step S22: and screening the preliminary processing information according to processing screening requirements to obtain the processing information, wherein the processing screening requirements at least comprise preferential processing time.

It can be appreciated that the present embodiment provides a method for preferentially selecting a fixed asset device based on a qualification requirement and a mobile installation time, which can select a first processing party meeting an actual requirement based on a plurality of processing parties; meanwhile, the first processing party can realize online processing on the fixed asset equipment only by accessing a corresponding cloud (cloud platform) through an account.

As shown in fig. 3, as a preferred embodiment of the present invention, the fitting for locating a processing position in a processable safe state includes:

step S131: searching for a first part at the processing location in a structural profile of the fixed asset device;

the structural profile acts as a stored electronic image that contains a structural scan image of the fixed asset device with the processing location corresponding to an azimuth or functional area on the structural profile, such as the lower left corner, e.g., the circumscribing mating section;

step S132: screening accessories meeting the first attribute according to the attribute of the first part, wherein the first attribute comprises an external attribute and/or a matching attribute;

the attribute of the first part comprises a welding part, a fixing part, a detachable part and the like, and the first part can be detached generally to meet the external attribute and/or the matching attribute, and the detachment comprises clamping detachment, threaded matching detachment, sleeving detachment and the like;

step S133: determining a first position of the accessory in the fixed asset equipment according to the screening result and the current installation position distribution of the fixed asset equipment, wherein a reference point of the first position is a first monitoring point;

namely, the position determined by taking the first monitoring point as the reference origin is the first position; the installation location of the accessory in the screening result is determined, as is the first location in the fixed asset device; the first monitoring point is typically disposed on or near the fixed asset device; the first position is obtained through definite scanning;

step S134: and determining a second position of the accessory under a second monitoring point according to the corresponding relation between the first monitoring point and the second monitoring point, wherein the second monitoring point is a monitoring point in an installation area where the fixed asset equipment is located.

The corresponding relation between the first monitoring point and the second monitoring point is generally a relation which is opposite to the two monitoring centers, and the relation is generally that only two coordinate directions are different (no difference exists in the other direction, such as the X direction or the Y direction), so that the second position of the accessory under the second monitoring point is determined to be the vector sum of the first position and the corresponding relation. For example, a first monitoring point (0, 0), a second monitoring point (250,0,310); a first position (80,112, -12), each in cm; thus, the second position is (-250+80, 0+112, -310-12), i.e., the second position (-170,112, -322). By driving the monitoring device in the second monitoring point, the initial monitoring direction can be aligned to the second position; the requirement of accurate monitoring is met, so that in the embodiment, the connection between the accessory and the different-surface monitoring point is established.

As a preferred embodiment of the present invention, the at least two out-of-plane monitoring points include a first monitoring point and a second monitoring point, and the method further includes:

the steps are as follows: and controlling the projection of the monitoring direction of the second monitoring point on the ground to be parallel to the monitoring direction of the first monitoring point.

It will be appreciated that the monitoring device or monitoring device of the second monitoring point is typically located at the top of the mounting area, having at least two rotational adjustment functions in the vertical direction, such as rotation about the Z direction and rotation about the X or Y direction, and the rotation is independent, respectively; thus, after the second monitoring point is controlled, the second monitoring point can be adjusted to a desired position; for example, controlling the projection of the monitoring direction on the ground to be parallel to the monitoring direction of the first monitoring point, wherein the monitoring direction is referenced based on the minimum monitoring viewing angle of the monitoring device; of course, a monitoring device with a larger monitoring angle of view may be used, but this condition needs to be satisfied, where the projection of the monitoring direction on the ground is not perpendicular to the ground, for example, the monitoring direction of the first monitoring point is horizontal, and the direction of the second monitoring point is continuously rotated around the X direction along a rotation angle in a certain Z direction, and the projection of the second monitoring point on the ground is parallel to the monitoring direction of the first monitoring point.

As a preferred embodiment of the present invention, the indicating the temporary location of removal of the accessory includes:

the steps are as follows: prompting to move the accessory by a first preset distance along the opposite direction of the first monitoring point, and prompting a processor to keep the accessory in a direction away from the first monitoring point or a side direction away from the first monitoring point in the moving process, wherein the monitoring direction comprises the opposite direction.

After moving a first preset distance, the vehicle can reach a set storage place, such as a special storage area, corresponding electronic fences are generally arranged in the storage area, the taking of accessories can be monitored and early-warned, and related personnel in a management and control center can conveniently take over (can be simultaneously moved to a new installation area) or can subsequently issue new installation accessories by the related personnel in the management and control center;

prompting the processor to be in the away direction or the side direction, wherein the description is made below in connection with the relative monitoring direction of the first monitoring point and the second monitoring point, for example, when the second monitoring point is at the top of the area, the projection of the monitoring direction of the second monitoring point on the ground is parallel to the monitoring direction of the first monitoring point, that is, the processor can only be located at the other side (the away direction of the accessory relative to the first monitoring point) of the accessory relative to the first monitoring point and/or the side direction (the side direction of the away direction) of the accessory relative to the fixed asset device, but not located between the accessory and the first monitoring point in the process of moving the accessory; therefore, the accessory can be simultaneously monitored to be moved to the set storage place from two view angles without obstruction, under the combined monitoring of at least two different-face monitoring points, the accessory is exposed to the monitoring view angles of the first monitoring point and the second monitoring point without dead angles, and the opportunity of hiding the accessory caused by turning the accessory after the processor moves the accessory to the set storage place can be avoided.

As shown in fig. 4, as a preferred embodiment of the present invention, the processed procedure of the monitoring fitting based on at least two different monitoring points includes:

step S141: acquiring a first real-time monitoring result of the accessory by the second monitoring point;

step S142: based on the identification information of the accessory, the monitoring visual angle of the second monitoring point is controlled to be opposite to the accessory so as to obtain a second real-time monitoring result. The identification information of the accessory comprises at least one of the appearance and the label of the accessory;

it can be understood that the monitoring direction straight-face accessory of the second monitoring point is fixed in the moving direction and can be directly monitored in real time;

the monitoring direction of the first monitoring point is along the projection direction rotation on the ground to track the processing personnel (actually track the accessory) in real time, namely, the monitoring lens of the monitoring point can be opposite to the accessory or opposite to the accessory as much as possible, so that a better detection effect is achieved, and the accessory is difficult to hide or is very easy to find due to the fact that the accessory must move along the indicated direction under the different-surface cooperation monitoring of at least the first monitoring point and the second monitoring point.

As a preferred embodiment of the present invention, the method further comprises:

the steps are as follows: when the accessory is judged to be blocked according to the first real-time monitoring result and/or the second real-time monitoring result, alarm information is sent out, and the alarm information is notified to the management and control center through the cloud.

When the first monitoring point and/or the second monitoring point do not detect the accessory conforming to the mark, the accessory is indicated to be abnormal, the accessory is shielded, at the moment, alarm information can be sent out through the first monitoring point or the second monitoring point, the result about the site is transmitted to the cloud, and then related personnel of the management and control center can acquire the situation in time and can take corresponding treatment measures.

Further, the method further comprises:

the steps are as follows: and acquiring the selection confirmation operation of the personnel in the management and control center, generating an alarm event according to the alarm information and the identity credential information, and taking the alarm event as a processing evaluation reference item of a processor.

It should be understood that, the confirmation of the alarm information is actually further confirmation and rechecking of the first real-time monitoring result and/or the second real-time monitoring result, so that if the confirmation is true, the confirmation result can be selected to be yes, and the generated alarm event is specific to the processor corresponding to the identity credential information; the warning event can be used as a subsequent processing business evaluation reference item for a processing party.

As shown in fig. 5, as another preferred embodiment of the present invention, in another aspect, a cloud platform-based asset synchronization monitoring system includes:

a process information synchronization module 100, configured to obtain process information about a fixed asset device from a cloud, where the process information includes a mobile installation request;

the processing parameter reading module 200 is used for reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

the state resetting module 300 is configured to set the state of the fixed asset device to a processable safe state after detecting that the identity information of the processor matches with the qualified identity credential information in a first period, where an end time of the first period at least coincides with a start time of the processing period;

the positioning and indicating module 400 is used for positioning the accessory capable of processing the processing position in the safe state and indicating the removing temporary storage position of the accessory, wherein the removing temporary storage position is the monitoring overlapping position of at least two different-surface monitoring points;

the monitoring synchronization module 500 is configured to monitor a processed process of the accessory based on at least two different-surface monitoring points, where the processed process at least includes removing and temporarily storing, and upload a monitoring result to the cloud.

Monitoring a processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading a monitoring result to a cloud; the implementation of the cloud-based technical scheme can meet the processing requirements of the asset equipment under unmanned or less-unmanned management, and the safety is high from the processing information to the removal and temporary storage of accessories.

As shown in fig. 6, the positioning and indication module 400 includes:

a lookup unit 4001 for looking up a first part at the processing location in a structural profile of the fixed asset device;

a screening unit 4002, configured to screen, according to an attribute of a first component, a fitting that meets the first attribute, where the first attribute includes an external attribute and/or a matching attribute;

a first position determining unit 4003, configured to determine, according to a screening result and a current installation position distribution of the fixed asset device, a first position of the accessory in the fixed asset device, where a reference point of the first position is a first monitoring point;

the second position determining unit 4004 is configured to determine, according to a correspondence between the first monitoring point and the second monitoring point, a second position of the accessory under the second monitoring point, where the second monitoring point is a monitoring point in an installation area where the fixed asset device is located.

The corresponding relation between the first monitoring point and the second monitoring point is generally a relation which is opposite to the two monitoring centers, and the relation is generally that only two coordinate directions are different (no difference exists in the other direction, such as the X direction or the Y direction), so that the second position of the accessory under the second monitoring point is determined to be the vector sum of the first position and the corresponding relation. For example, a first monitoring point (0, 0), a second monitoring point (250,0,310); a first position (80,112, -12), each in cm; thus, the second position is (-250+80, 0+112, -310-12), i.e., the second position (-170,112, -322). By driving the monitoring device in the second monitoring point, the initial monitoring direction can be aligned to the second position; the requirement of accurate monitoring is met, so that in the embodiment, the connection between the accessory and the different-surface monitoring point is established.

The embodiment of the invention provides a cloud platform-based asset synchronization monitoring method, and provides a cloud platform-based asset synchronization monitoring system based on the cloud platform, wherein processing information about fixed asset equipment is acquired from a cloud, and the processing information comprises a mobile installation request; reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information; after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period; positioning an accessory capable of processing a processing position in a safe state, and indicating a removing temporary storage position of the accessory, wherein the removing temporary storage position is a monitoring overlapping position of at least two different-surface monitoring points; monitoring a processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading a monitoring result to a cloud; the implementation of the cloud-based technical scheme can meet the processing requirements of the asset equipment under unmanned or less-unmanned management, and the requirements of moving installation and the like of the fixed asset equipment in practice can be met due to the fact that the processing information is removed from the accessory and temporarily stored, and the safety is very high.

In order to be able to load the method and system described above to function properly, the system may include more or less components than those described above, or may combine some components, or different components, in addition to the various modules described above, for example, may include input and output devices, network access devices, buses, processors, memories, and the like.

The processor may be a central processing unit (Central Processing Unit, CPU), other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the above system, and various interfaces and lines are used to connect the various parts.

The memory may be used to store a computer and a system program and/or module, and the processor may perform the various functions described above by running or executing the computer program and/or module stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function (such as an information acquisition template presentation function, a product information distribution function, etc.), and the like. The storage data area may store data created according to the use of the berth status display system (e.g., product information acquisition templates corresponding to different product types, product information required to be released by different product providers, etc.), and so on. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart Media Card (SMC), secure Digital (SD) Card, flash Card (Flash Card), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in various embodiments may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. An asset synchronization monitoring method based on a cloud platform, which is characterized by comprising the following steps:

acquiring processing information about fixed asset equipment from a cloud, wherein the processing information comprises a mobile installation request;

reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, setting the state of the fixed asset equipment to be a processable safe state, wherein the ending time of the first period at least coincides with the starting time of the processing period;

positioning an accessory capable of processing a processing position in a safe state, and indicating a removing temporary storage position of the accessory, wherein the removing temporary storage position is a monitoring overlapping position of at least two different-surface monitoring points;

and monitoring the processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading the monitoring result to the cloud.

2. The cloud platform based asset synchronization monitoring method of claim 1, wherein prior to obtaining the processing information about the fixed asset device from the cloud, the method further comprises:

issuing processing requirements of the fixed asset equipment at the cloud, wherein the processing requirements comprise qualification requirements of a processor and a mobile installation request;

screening a first processing party meeting the qualification requirement and allowing an account of the first processing party to be accessed to acquire preliminary processing information of the first processing party about the mobile installation request;

and screening the preliminary processing information according to processing screening requirements to obtain the processing information, wherein the processing screening requirements at least comprise preferential processing time.

3. The cloud platform based asset synchronization monitoring method of claim 1, wherein locating an accessory that can handle a location in a safe state comprises:

searching for a first part at the processing location in a structural profile of the fixed asset device;

screening accessories meeting first attributes according to the attributes of the first parts, wherein the first attributes comprise external attributes and/or matching attributes;

determining a first position of the accessory in the fixed asset equipment according to the screening result and the current installation position distribution of the fixed asset equipment, wherein a reference point of the first position is a first monitoring point;

and determining a second position of the accessory under a second monitoring point according to the corresponding relation between the first monitoring point and the second monitoring point, wherein the second monitoring point is a monitoring point in an installation area where the fixed asset equipment is located.

4. The cloud platform based asset synchronization monitoring method of claim 3, wherein the at least two out-of-plane monitoring points comprise a first monitoring point and a second monitoring point, the method further comprising:

and controlling the projection of the monitoring direction of the second monitoring point on the ground to be parallel to the monitoring direction of the first monitoring point.

5. The cloud platform based asset synchronization monitoring method of claim 4, wherein said indicating a removal staging location of said accessory comprises:

prompting to move the accessory by a first preset distance along the opposite direction of the first monitoring point, and prompting a processor to keep the accessory in a direction away from the first monitoring point or a side direction away from the first monitoring point in the moving process, wherein the monitoring direction comprises the opposite direction.

6. The cloud platform based asset synchronization monitoring method of claim 4, wherein the processed process of monitoring accessories based on at least two out-of-plane monitoring points comprises:

acquiring a first real-time monitoring result of the accessory by the second monitoring point;

based on the identification information of the accessory, the monitoring visual angle of the second monitoring point is controlled to be opposite to the accessory so as to obtain a second real-time monitoring result.

7. The cloud platform based asset synchronization monitoring method of claim 6, further comprising:

when the accessory is judged to be blocked according to the first real-time monitoring result and/or the second real-time monitoring result, alarm information is sent out, and the alarm information is notified to the management and control center through the cloud.

8. The cloud platform based asset synchronization monitoring method of claim 7, said method further comprising: and acquiring the selection confirmation operation of the personnel in the management and control center, generating an alarm event according to the alarm information and the identity credential information, and taking the alarm event as a processing evaluation reference item of a processor.

9. A cloud platform based asset synchronization monitoring system, the system comprising:

the processing information synchronization module is used for acquiring processing information about the fixed asset equipment from the cloud, wherein the processing information comprises a mobile installation request;

the processing parameter reading module is used for reading the processing time period, the processing position and the identity credential information of a preset processor in the processing information;

the state resetting module is used for setting the state of the fixed asset equipment into a processable safe state after detecting that the identity information of the processor accords with the qualified identity credential information in a first period, and the ending time of the first period is at least coincident with the starting time of the processing period;

the positioning and indicating module is used for positioning the accessory capable of processing the processing position in the safe state and indicating the removing temporary storage position of the accessory, wherein the removing temporary storage position is the monitoring overlapping position of at least two different-surface monitoring points;

and the monitoring synchronization module is used for monitoring the processed process of the accessory based on at least two different-surface monitoring points, wherein the processed process at least comprises removing and temporarily storing, and uploading the monitoring result to the cloud.

10. The cloud platform based asset synchronization monitoring system of claim 9, wherein said positioning and indication module comprises:

a searching unit, configured to search a structural distribution diagram of the fixed asset device for a first component at the processing location;

the screening unit is used for screening accessories meeting first attributes according to the attributes of the first parts, wherein the first attributes comprise external attributes and/or matching attributes;

the first position determining unit is used for determining a first position of the accessory in the fixed asset equipment according to the screening result and the current installation position distribution of the fixed asset equipment, and a reference point of the first position is a first monitoring point;

the second position determining unit is used for determining a second position of the accessory under a second monitoring point according to the corresponding relation between the first monitoring point and the second monitoring point, and the second monitoring point is a monitoring point in an installation area where the fixed asset equipment is located.