CN117112117B - Intelligent control display interaction method and system based on graphic processing - Google Patents

Abstract

The invention provides an intelligent control display interaction method and system based on graphic processing, which are used for generating an initial twin building corresponding to a target building, wherein the twin building comprises a plurality of control areas; updating the initial twin architecture based on the equipment configuration information input by the management end to obtain a target twin architecture; acquiring equipment attributes of configuration equipment in equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies; acquiring the equipment states of each configuration equipment in real time, wherein the equipment states comprise an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment states to obtain a real-time twin building; determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users.

Description

Intelligent control display interaction method and system based on graphic processing

Technical Field

The invention relates to a graphic processing technology, in particular to an intelligent control display interaction method and system based on graphic processing.

Background

At present, a building generally has a plurality of operation devices to ensure the normal operation of the building, and the area and the function corresponding to each operation device may be different, for example, a toilet area and a public area may exist in the layer a, the toilet area may correspond to a plurality of toilet devices, and the public area may correspond to a plurality of lighting devices.

However, since the areas and the devices in the building are numerous, and the areas where each user can move in the building may be different, when the devices in a certain area fail or are overhauled, the states of the corresponding devices may not be timely notified to the corresponding users, so that the corresponding users may only know the states of the devices of the corresponding devices when using the corresponding devices, and the user experience is affected.

Therefore, how to generate prompt information by combining the equipment state of the equipment and send the prompt information to the corresponding target user can enable the target user to know the use state of the corresponding equipment in time, so that the user experience is improved, and the problem to be solved is urgent.

Disclosure of Invention

The embodiment of the invention provides an intelligent control display interaction method and system based on graphic processing, which can be used for generating prompt information by combining equipment states of equipment and sending the prompt information to corresponding users, so that the users can know the use states of the corresponding equipment in time.

In a first aspect of the embodiment of the present invention, an intelligent control display interaction method based on graphics processing is provided, including:

generating an initial twin building corresponding to a target building, wherein the twin building comprises a plurality of control areas, and updating the initial twin building based on equipment configuration information input by a management end to obtain the target twin building;

acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies;

acquiring the equipment state of each configuration equipment in real time, wherein the equipment state comprises an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment state to obtain a real-time twin building;

determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users.

Optionally, in one possible implementation manner of the first aspect, updating the initial twin building based on the device configuration information input by the management end to obtain the target twin building includes:

analyzing the equipment configuration information to obtain configuration equipment and a configuration position corresponding to the configuration equipment;

and updating the initial twin building according to the configuration equipment and the configuration position to obtain a target twin building.

Optionally, in one possible implementation manner of the first aspect, device attributes of configuration devices in the device configuration information are acquired, a corresponding region matching policy is called according to the device attributes, a control region corresponding to each configuration device is determined based on the region matching policy, the region matching policy includes a hierarchical matching policy and/or an individual matching policy, and the method includes:

acquiring configuration equipment with the equipment attribute being a hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment;

and acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment.

Optionally, in one possible implementation manner of the first aspect, acquiring the configuration device with the device attribute being the hierarchy attribute as a device, and invoking the hierarchy matching policy to determine a control area corresponding to the device, includes:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with hierarchical properties in the device set are used as a type of device;

acquiring preset equipment identifiers of the equipment of each type, and splitting the equipment set according to the preset equipment identifiers to obtain a subset corresponding to the preset equipment identifiers;

determining superior equipment and subordinate equipment corresponding to the equipment in the subset, taking equipment with only subordinate equipment as top equipment, equipment with only superior equipment as edge equipment, and equipment with superior equipment and subordinate equipment as relay equipment, and generating an equipment hierarchy table according to the top equipment, the relay equipment and the subordinate equipment;

determining a control area corresponding to each edge device, wherein the edge devices are in one-to-one correspondence with the control areas;

and obtaining an edge equipment set of the top equipment and the relay equipment according to the containing relation between the top equipment and the relay equipment in the equipment hierarchy table, and obtaining control areas corresponding to the top equipment and the relay equipment based on the control areas corresponding to the edge equipment in the edge equipment set.

Optionally, in one possible implementation manner of the first aspect, acquiring the configuration device with the device attribute being an individual attribute as the second class device, and invoking the individual matching policy to determine a control area corresponding to the second class device includes:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with independent attributes in the device set are used as second-class devices;

and determining a control area corresponding to each second-class device, wherein the second-class devices are in one-to-one correspondence with the control areas.

Optionally, in one possible implementation manner of the first aspect, the acquiring, in real time, a device state of each configuration device, where the device state includes an active triggering state or a passive triggering state, and updating, according to the device state, a corresponding control area to obtain a real-time twin building includes:

collecting operation data of each configuration device in real time, and obtaining the device state of each configuration device according to the operation data;

if the equipment state is an active triggering state, an active updating strategy is called to update the corresponding control area, and a first updated building is obtained;

if the equipment state is a passive triggering state, a passive updating strategy is called to update the corresponding control area, and a second updated building is obtained;

and obtaining a real-time twin building according to the first updated building and/or the second updated building.

Optionally, in one possible implementation manner of the first aspect, if the device state is an active trigger state, the invoking an active update policy to update the corresponding control area to obtain a first updated building includes:

acquiring configuration equipment with the equipment state being an active triggering state as abnormal equipment, and determining a control area corresponding to the configuration equipment as an abnormal area, wherein the active triggering state is an abnormal state when the configuration equipment is abnormal;

and calling the abnormal pixel value to update the pixel value of the abnormal region to obtain a first updated building.

Optionally, in one possible implementation manner of the first aspect, if the device state is a passive trigger state, then a passive update policy is invoked to update the corresponding control area, so as to obtain a second updated building, including:

if the equipment state is a passive triggering state, the passive triggering state is an overhaul state, the corresponding configuration equipment is used as overhaul equipment, and a control area corresponding to the overhaul equipment is determined to be used as an overhaul area;

retrieving maintenance pixel values to update the pixel values of the maintenance area;

and receiving overhaul information input by a management end, wherein the overhaul information comprises overhaul types and overhaul time, and updating the overhaul information into an information filling area of the control area to obtain a second updated building.

Optionally, in one possible implementation manner of the first aspect, determining activity rights of each target user, splitting the real-time twin building according to the activity rights to obtain a prompt layer, and sending the prompt layer to the target user, where the determining includes:

determining an active layer corresponding to each target user and an active area in the active layer according to the activity authority;

acquiring a control area for updating data as an updating area, and taking an active layer corresponding to an active area as a prompt layer of the target user if the updating area corresponds to the active area of the corresponding target user;

splitting the prompt layer of the real-time twin building, and sending the prompt layer to the corresponding target user.

In a second aspect of the embodiment of the present invention, there is provided an intelligent control display interaction system based on graphic processing, including:

the twin module is used for generating an initial twin building corresponding to the target building, the twin building comprises a plurality of control areas, and the initial twin building is updated based on equipment configuration information input by a management end to obtain the target twin building;

the matching module is used for acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies;

the updating module is used for acquiring the equipment states of the configuration equipment in real time, wherein the equipment states comprise an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment states to obtain a real-time twin building;

the prompt module is used for determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users.

The beneficial effects of the invention are as follows:

1. the invention can generate the prompt information in combination with the equipment state of the equipment and send the prompt information to the corresponding user, so that the user can know the use state of the corresponding equipment in time. The invention firstly constructs the twin space corresponding to the target building, thereby being capable of intuitively displaying the region corresponding to the corresponding equipment when the running state of the corresponding equipment in the building changes through the twin space. Then, the invention matches the corresponding control area for each configuration device according to different strategies, and when the operation state of the configuration device changes, for example, the configuration device is damaged or overhauled, the invention updates the constructed twin building according to the device state of the configuration device, so that the corresponding control area can be displayed in different modes according to the device state of the configuration device, and the updated real-time twin building can intuitively display the control area with abnormality or overhauled. And then the invention splits the data in the twin building according to the activity authority of each target user, and obtains the prompt layer corresponding to the corresponding target user and sends the prompt layer to the target user, so that when the data in the activity layer corresponding to the target user is updated, the corresponding update data can be timely sent to the target user for checking, and the target user can timely know the use condition of the corresponding equipment area.

2. When each configuration device is matched with the corresponding control region, different matching strategies are configured for the configuration device according to the device attribute of the configuration device to obtain the corresponding control region. When the equipment attribute of the configuration equipment is the hierarchy attribute, the scheme generates a corresponding equipment hierarchy table according to the hierarchy relation of each configuration equipment, and the corresponding control area of the lowest-level equipment in the equipment hierarchy table is used for rapidly matching the corresponding control area of the upper-level equipment, so that the configuration equipment of the hierarchy attribute can be rapidly matched with the corresponding control area, and the efficiency in area matching is improved. When the equipment attributes of the configuration equipment are single attributes, the corresponding areas are mostly single, so that the control equipment corresponding to the configuration equipment can be directly matched for each configuration equipment according to the scheme, and the control areas corresponding to the configuration equipment can be obtained by combining different equipment attributes.

3. When the twin architecture is updated according to the update data, the corresponding control area is updated in different modes according to different equipment states. When the equipment state is an active triggering state, namely when the equipment is abnormal, such as damaged, the scheme can call the abnormal pixel value to update the corresponding control area, so that the area with abnormal running state of the equipment can be highlighted. When the equipment state is in a passive triggering state, namely the equipment is overhauled, the scheme not only can call the overhauling pixel value to update the corresponding control area, but also can display the overhauling type and time in the corresponding overhauling area, so that a user can intuitively know the specific content of overhauling, and the overhauling area and the abnormal area can be highlighted in different modes.

Drawings

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent control display interaction system based on graphic processing according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, an application scenario is schematically shown in the embodiment of the present invention. According to the invention, firstly, each configuration device is matched with a corresponding control area according to different strategies, then when the running state of the configuration device is changed, for example, the configuration device is damaged or overhauled, the constructed twin building is updated according to the device state of the configuration device, then the data in the twin building is split according to the activity authority of each target user, so that a prompt layer corresponding to the corresponding target user is obtained and sent to the target user, and therefore, the target user can be timely reminded when the device is damaged or overhauled in the floor with the activity authority of the target user, and the target user can timely know the use state of the corresponding device.

The execution bodies of the present application may include, but are not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, a computer, a smart phone, a dedicated digital assistant (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic device. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

s1, generating an initial twin building corresponding to a target building, wherein the twin building comprises a plurality of control areas, and updating the initial twin building based on equipment configuration information input by a management end to obtain the target twin building.

It is understood that, in order to intuitively display the device states of devices in a building, a twin building corresponding to a target building may be constructed, and the device states of a plurality of devices in the building may be displayed through the constructed twin building. The initial twin building is a twin building not provided with equipment, and the target twin building is a twin building provided with equipment, and it can be understood that corresponding equipment information can be configured for the initial twin building by a management end because equipment in the building can be changed.

In some embodiments, the above-described target twin architecture may be obtained by:

s11, analyzing the equipment configuration information to obtain configuration equipment and a configuration position corresponding to the configuration equipment.

And S12, updating the initial twin building according to the configuration equipment and the configuration position to obtain a target twin building.

In practical application, when equipment is configured for the initial twin architecture, a worker can correspondingly determine the position of the equipment, and the initial twin model is updated by configuring different equipment at the corresponding position to obtain the target twin model.

S2, acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies.

It can be understood that after the target twin space is obtained, the control area corresponding to each configuration device cannot be determined, and when the operation state of the control device changes, the corresponding area may not be available, so that a corresponding prompt display may need to be performed on the corresponding control area, thereby reminding the user that the area is unavailable at present or in a future period of time.

In practical applications, there are many kinds of configuration devices, such as air conditioners, lamps, water pipes, etc., where some devices have a hierarchical relationship, for example, a plurality of water pipes may be mutually connected and have a hierarchical relationship, and some devices are separate, for example, lamps separately used for illumination in a certain area, where the corresponding device attributes of the configuration devices are different, and the corresponding control areas may also be different, so that the configuration devices may be classified according to the device attributes of the configuration devices, and then the corresponding control areas are matched for each configuration device by using different area matching policies.

The specific implementation manner of step S2 based on the above embodiment may be:

s21, acquiring configuration equipment with the equipment attribute being the hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment.

In some embodiments, step S21 may be implemented through steps S211 to S215, specifically as follows:

s211, analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with hierarchical properties in the device set are used as a type of device.

In practical application, when classifying a plurality of configuration devices, all the configuration devices can be obtained according to the device configuration information, and then the configuration devices are classified according to the device attributes of the configuration devices, so that the configuration devices with the hierarchical attributes are classified as one type of device.

S212, obtaining preset equipment identifiers of the equipment of each type, and splitting the equipment set according to the preset equipment identifiers to obtain a subset corresponding to each preset equipment identifier.

When the device set is split according to the preset device identifier, the devices with corresponding relations are split into the same 1 sub-set. For example, the building may have 3 air-conditioning apparatuses on the layer a, each air-conditioning apparatus has 3 air-conditioning outlets, and when the air-conditioning apparatuses are split into the same 1 subset, that is, 1 subset includes 1 air-conditioning and 3 air-conditioning outlets, and the other two air-conditioning apparatuses and their corresponding air-conditioning outlets are split into another subset.

S213, determining the superior devices and the inferior devices corresponding to the devices in the subset, taking only one type of devices with the inferior devices as top devices, only one type of devices with the superior devices as edge devices, and one type of devices with the superior devices and the inferior devices as relay devices, and generating a device hierarchy table according to the top devices, the relay devices and the inferior devices.

In order to comb one type of equipment in each subset, the scheme can comb the one type of equipment in each subset according to the hierarchical relationship of the one type of equipment in the subset to obtain a carded equipment hierarchical table. It will be appreciated that the hierarchy of only lower level devices illustrating the class of devices may be highest and thus may be considered as top level devices, the hierarchy of lower level devices and upper level devices illustrating the class of devices may be in intermediate positions and thus may be considered as relay devices, and the hierarchy of only upper level devices illustrating the class of devices may be lowest and thus may be considered as edge devices.

S214, determining a control area corresponding to each edge device, wherein the edge devices are in one-to-one correspondence with the control areas.

In practical application, a control area corresponding to each edge device may be set in advance.

S215, obtaining an edge equipment set of the top equipment and the relay equipment according to the containing relation between the top equipment and the relay equipment in the equipment hierarchy table, and obtaining control areas corresponding to the top equipment and the relay equipment based on the control areas corresponding to the edge equipment in the edge equipment set.

It can be understood that, since the top-level device includes the relay device and the edge device, and the relay device includes the edge device, after the control area corresponding to the edge device is obtained, the control area of the edge device can be synchronized to the top-level device and the relay device corresponding to the control area according to the inclusion relationship of the top-level device, the relay device and the edge device, so that the corresponding control area can be obtained according to the edge device sets of the top-level device and the relay device.

S22, acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment.

In some embodiments, step S22 may be implemented through steps S221 to S222, which are specifically as follows:

s221, analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with independent attributes in the device set are used as second-class devices.

S222, determining control areas corresponding to the two types of equipment, wherein the two types of equipment are in one-to-one correspondence with the control areas.

In practical application, since the two-class devices are separate, when determining the control areas corresponding to the two-class devices, the control areas corresponding to the two-class devices may be configured for each of the two-class devices in advance.

By the method, the equipment attributes of the configuration equipment can be combined to quickly match the control areas corresponding to the configuration equipment, so that the efficiency in area matching is improved.

And S3, acquiring the equipment states of the configuration equipment in real time, wherein the equipment states comprise an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment states to obtain the real-time twin building.

After the control areas of each configuration device are obtained, the running states of each configuration device are collected in real time, when the running states of the configuration devices are changed, for example, the normal states are changed into abnormal states or overhaul states, the use states of the control areas corresponding to the configuration devices are possibly changed, and therefore in the case, the corresponding control areas are updated according to the device states of the configuration devices, and therefore the device conditions in the building are updated in real time through the real-time twin building.

The specific implementation manner of step S3 based on the above embodiment may be:

s31, collecting operation data of each configuration device in real time, and obtaining the device state of each configuration device according to the operation data.

The equipment state in the scheme comprises an active triggering state and a passive triggering state, wherein the active triggering state refers to a state that the equipment actively triggers when abnormal occurs, and the passive triggering state refers to a state that the management end passively triggers the equipment when the equipment overhauls.

S32, if the equipment state is an active triggering state, an active updating strategy is called to update the corresponding control area, and a first updated building is obtained.

Specifically, step S32 may be implemented by steps S321 to S322, which are specifically as follows:

s321, acquiring configuration equipment with the equipment state being an active triggering state as abnormal equipment, and determining a control area corresponding to the configuration equipment as an abnormal area, wherein the active triggering state is an abnormal state when the configuration equipment is abnormal.

In practical applications, the active triggering state may be a state when the configuration device fails.

S322, calling the abnormal pixel value to update the pixel value of the abnormal region to obtain a first updated building.

In practical applications, the abnormal pixel value may be a pixel value preset by a worker. For example, to enable highlighting of the corresponding region, the outlier pixel values may be some more conspicuous color-corresponding pixel values.

And S33, if the equipment state is a passive trigger state, a passive update strategy is called to update the corresponding control area, and a second updated building is obtained.

Specifically, step S33 may be implemented from step S331 to step S333, which is specifically as follows:

s331, if the equipment state is a passive trigger state, the passive trigger state is an overhaul state, the corresponding configuration equipment is taken as overhaul equipment, and a control area corresponding to the overhaul equipment is determined to be taken as an overhaul area.

It will be appreciated that in practical applications, some devices may need to be serviced on time to ensure proper operation of the respective device. Therefore, the configuration equipment with the equipment state being the passive triggering state can be used as the overhaul equipment, and the corresponding area is used as the overhaul area.

S332, retrieving the overhaul pixel value to update the pixel value of the overhaul region.

The above-described inspection pixel value may be set in advance by a worker, and the inspection pixel value and the abnormal pixel value may be set to different pixel values in order to distinguish between an area where an abnormality occurs and an area where inspection is performed.

S333, receiving overhaul information input by a management end, wherein the overhaul information comprises overhaul types and overhaul time, and updating the overhaul information into an information filling area of the control area to obtain a second updated building.

In practical applications, the information pad area may be preset. It will be appreciated that in practical applications, the equipment will typically have a service type and a service time when it is serviced, for example, the service type may be replacement or maintenance, and the service time may be a future period of time, so that in order to enable a user to further understand the specific condition of service, service information may be filled in the corresponding information filling area for display.

S34, obtaining the real-time twin building according to the first updated building and/or the second updated building.

By the method, the corresponding control areas can be displayed in different modes according to the equipment state of the configuration equipment, so that the updated real-time twin architecture can intuitively display the control areas with abnormality or overhauling.

S4, determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users.

It will be appreciated that in practical applications, a building may include multiple target users, where the active area of each target user may be different, for example, the active area of a certain target user may be a layer a, and when the equipment in a layer B is damaged or overhauled, the equipment information may not need to remind the target user in the layer a, because the target user is likely not to use the equipment in the layer B, so when reminding the target user, the scheme may be sent to the corresponding target user in combination with the activity authority of the target user to prompt the corresponding target user by the corresponding prompt layer.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, determining an active layer corresponding to each target user and an active area in the active layer according to the activity authority.

In practical application, the operation and maintenance center can perform corresponding configuration on the active layer and the active area corresponding to each target user, for example, the operation and maintenance center can perform corresponding configuration on the corresponding active layer and the corresponding active area through the identity information of each target user.

S42, acquiring a control area for updating data as an updating area, and if the updating area corresponds to an active area of the corresponding target user, taking an active layer corresponding to the active area as a prompt layer of the target user.

It can be understood that if the updated area corresponds to the active area of the corresponding target user, it is indicated that the device may not be used in the active area corresponding to the target user, so in order to remind the corresponding target user, the active layer corresponding to the active area may be used as a prompt layer.

S43, splitting the prompt layer of the real-time twin building, and sending the prompt layer to the corresponding target user.

When splitting the prompt layer of the real-time twin building, the floor data corresponding to the prompt layer can be split from the real-time twin building, for example, if the prompt layer is an A layer, the floor data corresponding to the A layer can be split and sent to a target user.

By the method, when the data in the active layer corresponding to the target user is updated, the corresponding updated data can be timely sent to the target user for checking, so that the target user can timely know the service condition of the corresponding equipment area.

Referring to fig. 2, a schematic structural diagram of an intelligent control display interaction system based on graphic processing according to an embodiment of the present invention includes:

the twin module is used for generating an initial twin building corresponding to the target building, the twin building comprises a plurality of control areas, and the initial twin building is updated based on equipment configuration information input by a management end to obtain the target twin building;

the matching module is used for acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies;

the updating module is used for acquiring the equipment states of the configuration equipment in real time, wherein the equipment states comprise an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment states to obtain a real-time twin building;

the prompt module is used for determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (7)

1. An intelligent control display interaction method based on graphic processing is characterized by comprising the following steps:

generating an initial twin building corresponding to a target building, wherein the twin building comprises a plurality of control areas, and updating the initial twin building based on equipment configuration information input by a management end to obtain the target twin building;

acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies;

acquiring the equipment state of each configuration equipment in real time, wherein the equipment state comprises an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment state to obtain a real-time twin building;

determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and transmitting the prompt layer to the target users;

acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies and comprise the following steps:

acquiring configuration equipment with the equipment attribute being a hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment;

acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment;

acquiring configuration equipment with the equipment attribute being a hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment, wherein the method comprises the following steps:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with hierarchical properties in the device set are used as a type of device;

acquiring preset equipment identifiers of the equipment of each type, and splitting the equipment set according to the preset equipment identifiers to obtain a subset corresponding to the preset equipment identifiers;

determining superior equipment and subordinate equipment corresponding to the equipment in the subset, taking equipment with only subordinate equipment as top-level equipment, equipment with only superior equipment as edge equipment, and equipment with superior equipment and subordinate equipment as relay equipment, and generating an equipment hierarchy table according to the top-level equipment, the relay equipment and the edge equipment;

determining a control area corresponding to each edge device, wherein the edge devices are in one-to-one correspondence with the control areas;

obtaining an edge equipment set of the top equipment and the relay equipment according to the containing relation between the top equipment and the relay equipment in the equipment hierarchy table, and obtaining control areas corresponding to the top equipment and the relay equipment based on the control areas corresponding to the edge equipment in the edge equipment set;

acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment, wherein the method comprises the following steps:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with independent attributes in the device set are used as second-class devices;

and determining a control area corresponding to each second-class device, wherein the second-class devices are in one-to-one correspondence with the control areas.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

updating the initial twin architecture based on the equipment configuration information input by the management end to obtain a target twin architecture, wherein the method comprises the following steps:

analyzing the equipment configuration information to obtain configuration equipment and a configuration position corresponding to the configuration equipment;

and updating the initial twin building according to the configuration equipment and the configuration position to obtain a target twin building.

3. The method of claim 1, wherein the step of determining the position of the substrate comprises,

acquiring the equipment state of each configuration equipment in real time, wherein the equipment state comprises an active triggering state or a passive triggering state, updating the corresponding control area according to the equipment state to obtain a real-time twin building, and the method comprises the following steps:

collecting operation data of each configuration device in real time, and obtaining the device state of each configuration device according to the operation data;

if the equipment state is an active triggering state, an active updating strategy is called to update the corresponding control area, and a first updated building is obtained;

if the equipment state is a passive triggering state, a passive updating strategy is called to update the corresponding control area, and a second updated building is obtained;

and obtaining a real-time twin building according to the first updated building and/or the second updated building.

4. The method of claim 3, wherein the step of,

if the device state is an active trigger state, an active update strategy is called to update the corresponding control area to obtain a first updated building, which comprises the following steps:

acquiring configuration equipment with the equipment state being an active triggering state as abnormal equipment, and determining a control area corresponding to the configuration equipment as an abnormal area, wherein the active triggering state is an abnormal state when the configuration equipment is abnormal;

and calling the abnormal pixel value to update the pixel value of the abnormal region to obtain a first updated building.

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

if the equipment state is a passive trigger state, a passive update strategy is called to update the corresponding control area to obtain a second updated building, which comprises the following steps:

if the equipment state is a passive triggering state, the passive triggering state is an overhaul state, the corresponding configuration equipment is used as overhaul equipment, and a control area corresponding to the overhaul equipment is determined to be used as an overhaul area;

retrieving maintenance pixel values to update the pixel values of the maintenance area;

and receiving overhaul information input by a management end, wherein the overhaul information comprises overhaul types and overhaul time, and updating the overhaul information into an information filling area of the control area to obtain a second updated building.

6. The method of claim 1, wherein the step of determining the position of the substrate comprises,

determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users, wherein the method comprises the following steps:

determining an active layer corresponding to each target user and an active area in the active layer according to the activity authority;

acquiring a control area for updating data as an updating area, and taking an active layer corresponding to an active area as a prompt layer of the target user if the updating area corresponds to the active area of the corresponding target user;

splitting the prompt layer of the real-time twin building, and sending the prompt layer to the corresponding target user.

7. An intelligent control display interactive system based on graphic processing, comprising:

the twin module is used for generating an initial twin building corresponding to the target building, the twin building comprises a plurality of control areas, and the initial twin building is updated based on equipment configuration information input by a management end to obtain the target twin building;

the matching module is used for acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies;

the updating module is used for acquiring the equipment states of the configuration equipment in real time, wherein the equipment states comprise an active triggering state or a passive triggering state, and updating the corresponding control area according to the equipment states to obtain a real-time twin building;

the prompt module is used for determining the activity authority of each target user, splitting the real-time twin building according to the activity authority to obtain a prompt layer, and sending the prompt layer to the target users;

acquiring equipment attributes of configuration equipment in the equipment configuration information, calling corresponding area matching strategies according to the equipment attributes, and determining control areas corresponding to the configuration equipment based on the area matching strategies, wherein the area matching strategies comprise hierarchical matching strategies and/or independent matching strategies and comprise the following steps:

acquiring configuration equipment with the equipment attribute being a hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment;

acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment;

acquiring configuration equipment with the equipment attribute being a hierarchy attribute as one type of equipment, and calling a hierarchy matching strategy to determine a control area corresponding to the one type of equipment, wherein the method comprises the following steps:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with hierarchical properties in the device set are used as a type of device;

acquiring preset equipment identifiers of the equipment of each type, and splitting the equipment set according to the preset equipment identifiers to obtain a subset corresponding to the preset equipment identifiers;

determining superior equipment and subordinate equipment corresponding to the equipment in the subset, taking equipment with only subordinate equipment as top-level equipment, equipment with only superior equipment as edge equipment, and equipment with superior equipment and subordinate equipment as relay equipment, and generating an equipment hierarchy table according to the top-level equipment, the relay equipment and the edge equipment;

determining a control area corresponding to each edge device, wherein the edge devices are in one-to-one correspondence with the control areas;

obtaining an edge equipment set of the top equipment and the relay equipment according to the containing relation between the top equipment and the relay equipment in the equipment hierarchy table, and obtaining control areas corresponding to the top equipment and the relay equipment based on the control areas corresponding to the edge equipment in the edge equipment set;

acquiring configuration equipment with the equipment attribute being an independent attribute as second-class equipment, and calling an independent matching strategy to determine a control area corresponding to the second-class equipment, wherein the method comprises the following steps:

analyzing the device configuration information to obtain a device set comprising a plurality of configuration devices, wherein the configuration devices with independent attributes in the device set are used as second-class devices;

and determining a control area corresponding to each second-class device, wherein the second-class devices are in one-to-one correspondence with the control areas.