CN114386119A - Parking space information display method and related products thereof - Google Patents

Abstract

The embodiment of the application discloses parking space information display method and related products, and the method comprises the following steps: receiving a first operation instruction of a first interface aiming at a first control, wherein the first interface comprises at least one first control; and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control. According to the parking space information display method and device, the first interface displays the target two-dimensional plane graph and/or the first three-dimensional display graph through responding to the first operation instruction, the two-dimensional plane graph and the three-dimensional display graph of the visual model can be combined, and the parking space information of the target building model can be conveniently and visually displayed comprehensively.

Description

Parking space information display method and related products thereof

Technical Field

The application relates to the technical field of computers, in particular to a parking space information display method and a related product thereof.

Background

With the improvement of the living standard of people, the number of vehicles is continuously increased, so the demand for parking spaces is also continuously increased. However, when a parking space for parking a vehicle is selected, most of parking space information is displayed by using a two-dimensional pin control diagram, parking space information such as a parking space position, a parking space number and parking space adverse factors is displayed, and a user also knows the parking space information according to the pin control diagram to select the parking space, so that visual display is difficult. There is a need to find a solution to the above-mentioned problems.

Disclosure of Invention

The embodiment of the application mainly aims to provide a parking space information display method and a related product thereof, and the parking space information can be visually displayed by combining a two-dimensional plane diagram and a visual three-dimensional display diagram of a parking space.

In a first aspect, an embodiment of the present application provides a parking space information display method, where the method includes:

receiving a first operation instruction of a first interface aiming at a first control, wherein the first interface comprises at least one first control;

and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

In a second aspect, an embodiment of the present application provides a parking stall information display device, the device includes:

the device comprises a receiving unit, a control unit and a display unit, wherein the receiving unit is used for receiving a first operation instruction of a first interface aiming at a first control, and the first interface comprises at least one first control;

and the display unit is used for responding to the first operation instruction and displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

In a third aspect, an embodiment of the present application provides an electronic device, including a processor, a memory, a communication interface, and one or more programs, where the one or more programs are stored in the memory and configured to be executed by the processor, and the program includes instructions for executing steps in any method of the first aspect of the embodiment of the present application.

In a fourth aspect, the present application provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program for electronic data exchange, where the computer program makes a computer perform part or all of the steps described in any one of the methods of the first aspect of the present application.

In a fifth aspect, the present application provides a computer program product, wherein the computer program product includes a non-transitory computer-readable storage medium storing a computer program, and the computer program is operable to cause a computer to perform some or all of the steps as described in any one of the methods of the first aspect of the embodiments of the present application. The computer program product may be a software installation package.

As can be seen, the embodiment of the present application receives a first operation instruction for a first control of a first interface, where the first interface includes at least one first control; and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control. According to the parking space information display method and device, the first interface displays the target two-dimensional plane graph and/or the first three-dimensional display graph through responding to the first operation instruction, the two-dimensional plane graph and the three-dimensional display graph of the visual model can be combined, and the parking space information of the target building model can be conveniently and visually displayed comprehensively.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of a system architecture of an application building information model interaction method according to an embodiment of the present application;

fig. 2A is a schematic flow chart of a parking space information displaying method according to an embodiment of the present application;

fig. 2B is a schematic interface diagram in a top view mode according to an embodiment of the present disclosure;

fig. 2C is a schematic interface diagram in a bird's eye view mode according to an embodiment of the disclosure;

fig. 2D is a schematic interface diagram of a roaming mode according to an embodiment of the present disclosure;

fig. 2E is a schematic interface diagram of another roaming mode according to the embodiment of the present application;

fig. 2F is an interface schematic diagram of a parking indication in a roaming mode according to an embodiment of the present disclosure;

fig. 2G is a schematic interface diagram of a home line in a roaming mode according to an embodiment of the present disclosure;

fig. 2H is a schematic diagram of an interface for simulating home in a roaming mode according to an embodiment of the present disclosure;

fig. 2I is a schematic view of an interface of a parking space order according to an embodiment of the present disclosure;

fig. 2J is a schematic interface diagram of a parking space list according to an embodiment of the present application;

fig. 2K is a schematic interface diagram of parking space screening provided in the embodiment of the present application;

FIG. 3A is a schematic view of a forward parking of a vehicle according to an embodiment of the present disclosure;

FIG. 3B is a schematic diagram of a reverse parking of a vehicle according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an electronic device provided in an embodiment of the present application;

fig. 5 is a block diagram of functional units of a parking space information display device provided in the embodiment of the present application.

Detailed Description

In order to make the technical solutions of the present application better understood, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first," "second," and the like in the description and claims of the present application and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

A system architecture of an application building information model interaction method in the embodiment of the present application is described below with reference to fig. 1, where fig. 1 is a system architecture of an application building information model interaction method provided in the embodiment of the present application, the system architecture 100 includes a development device 110, a cloud server platform 120, and a user device 130, the development device 110 and the cloud server platform 120 are in communication connection, and the cloud server platform 120 and the user device 130 are in communication connection.

The development device 110 may be configured to establish a basic building model, i.e., a BIM model, according to a target engineering drawing, where the target engineering drawing may be a set of CAD drawings, specifically, the CAD drawing set may be identified, each region may be componentized to gradually construct the basic building model, and the basic building model may be established by a level of Detail (LOD) technique, so that accuracy of the basic building model may be improved.

Further, the development device 110 may carry an illusion Engine 4(Unreal Engine 4, UE4), perform rendering processing on the basic building model to obtain a high-definition building model, and add an interaction function to the high-definition building model through the UE4 Engine to obtain a target building model, where the interaction function may include moving, zooming, and switching a view angle of the target building model, and is not specifically limited herein. The development device 110 may package the target building model into an EXE-formatted executable file or directly upload the executable file to the cloud service platform 120 in a pixel stream form for configuration of the cloud game service.

The cloud service platform 120 may include a cloud GPU server 121 and a cloud front-end server 122, and the cloud GPU server 121 and the cloud front-end server 122 are connected to each other.

In a possible embodiment, in a case that the development device 110 packages the target building model into an EXE-formatted executable file and uploads the EXE-formatted executable file to the cloud service platform 120, the cloud GPU server 121 is configured to start the EXE-formatted executable file and send the executable file to the cloud front-end server 122 in a form of a video stream, the cloud front-end server 122 is configured to receive data in the form of the video stream and generate a front-end interaction page and an interaction portal link according to the video stream data, the front-end interaction page is configured to enable a target user to interact with the target building model, and the interaction portal link is configured to jump to the target interaction page. The interactive portal link may be a Uniform Resource Locator (URL), a two-dimensional code, and the like, which is not limited herein.

In a possible embodiment, in a case that the development device 110 outputs the target building model to the cloud service platform 120 in a pixel stream, the pixel stream data may be received by a node service and deployed to the cloud server platform 120, the cloud GPU server 121 may process the pixel stream data in combination with the node service, and send the pixel stream data to the cloud front-end server 122 in a video stream, the cloud front-end server 122 is configured to receive the data in the video stream, and generate a front-end interaction page and an interaction portal link according to the video stream data, where the front-end interaction page is used for enabling a target user to interact with the target building model, and the interaction portal link is used for jumping to the target interaction page. The interactive portal link may be a Uniform Resource Locator (URL), a two-dimensional code, and the like, which is not limited herein.

IT is understood that the cloud Service platform 120 may provide the cloud game Service of the target building model by using Infrastructure as a Service (IaaS), which is to provide the IT Infrastructure as a Service to the outside through a network. In the service model, a data center does not need to be built by itself, infrastructure services including servers, storage, networks and the like are used in a renting mode, cloud game services with various channels can be provided for a target user through a cloud service platform of an IaaS architecture, the target user can log in the cloud game services of the target building model from a mobile terminal, a desktop computer terminal and a tablet computer terminal by using user equipment 130, and the target user can also log in from a webpage, a small program and the like, and the service model is not particularly limited. The portability of interaction between the target user and the target building model is greatly improved.

The target user can log in a page of the cloud game service of the target building model through the user equipment 130 and send the input information to interact with the target building model, and after receiving the input information of the user equipment 130, the cloud service platform 120 can generate streaming media data of the target building model according to the input information and send the streaming media data to the user equipment 130 for displaying. For example, in a scenario where the target building model is an underground garage, the entry information sent by the user equipment 130 is "move to the third left stall", and the cloud service platform 120 may generate video data of "move to the third left stall" according to the entry information, and synchronize the video data to the user equipment to complete the interaction.

It can be seen that, through the system architecture, firstly, a basic building model is generated according to a target engineering drawing, wherein the basic building model represents a building information model BIM corresponding to the target engineering drawing; then, carrying out first processing on the basic building model to obtain a target building model, wherein the target building model represents a rendered building model with an interactive function; and finally, responding to the input information of the user equipment, and outputting response data of the target building model corresponding to the input information to the user equipment, wherein the response data comprises streaming media data. Various interaction functions such as area positioning, area query, area navigation, area browsing and the like can be added to the target building model, and interaction experience of a user is greatly improved.

The following describes embodiments of the present application in detail.

In order to more intuitively display the parking space information, the application provides a parking space information display method, which specifically includes, but is not limited to, the following steps as shown in fig. 2A:

s201, receiving a first operation instruction of a first interface aiming at a first control by the electronic equipment;

the electronic device according to the embodiment of the present application may be a client device, and the client device may include a smart Phone (such as an Android Phone, an iOS Phone, a Windows Phone, etc.), a tablet computer, a palm computer, a notebook computer, a Mobile Internet device (MID, Mobile Internet Devices), a wearable device, or the like.

The first interface may be a main interface of an APP interface in the client device or other interfaces, and may be a main interface of an applet interface in the client device or other interfaces, where the first interface includes at least one first control. The first control may be any one of: the first control can also be other function controls.

In a specific implementation, before the electronic device receives a first operation instruction of a first interface for a first control, the method further includes: the electronic equipment receives the building information of the target building selected by the user, wherein the building information comprises the number of the target building and/or the address information of the target building.

S202, the electronic equipment responds to the first operation instruction, and displays a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying parking space information in a two-dimensional plane image of a target building in a mode corresponding to the first control, and the first three-dimensional display graph is used for displaying parking space information in a three-dimensional image of a target building model of the target building in the mode corresponding to the first control.

The target building can be civil building, industrial building and agricultural building. Wherein civil buildings include: residential buildings and public buildings. Residential buildings include residential buildings and dormitory buildings. Public buildings include educational buildings, office buildings, scientific research buildings, commercial buildings, financial buildings, entertainment buildings, medical buildings, sports buildings, traffic buildings, civil buildings, judicial buildings, religious buildings, communication buildings, garden buildings, and commemorative buildings, among others. For example: schools, markets, hospitals, movie theaters, retirement homes, etc. The target building may be other buildings, and the above-mentioned buildings are only an example of the target building, and do not limit the type of the target building. The target building model may be an underground parking space building model in the target building, may be a flat ground parking space building model in the target building, and may be a building model for other purposes in the target building, which is not limited herein. The target building model of the target building is constructed and rendered through the cloud game technology, and hardware pressure of the client equipment is favorably reduced.

In one possible example, in response to a first operation instruction, displaying a target two-dimensional plan view and/or a first three-dimensional display view on a first interface includes: responding to the first operation instruction, and sending the first operation instruction to the cloud server; receiving a data stream of a target two-dimensional plan and/or a target three-dimensional display diagram set obtained by rendering a target building model aiming at a first operation instruction from a cloud server; analyzing the data stream to obtain a target two-dimensional plane graph and/or a target three-dimensional display graph set; and displaying the target two-dimensional plan and/or the first three-dimensional display map in the target three-dimensional display map set on the first interface.

In specific implementation, when the first control is a different function control, the electronic device may display a different image on the first interface in response to the first operation instruction for the first control. For example, when the first control is a top-view function control, a target two-dimensional plan corresponding to the top-view function may be displayed on the first interface; and when the first control is the aerial view function control, displaying a three-dimensional display picture corresponding to the aerial view function on the first interface.

Further, in a possible example, when the first control is a top view function control and the first operation instruction is an operation instruction for the top view function control, in response to the first operation instruction, displaying the target two-dimensional plan view and/or the first three-dimensional display view on the first interface, specifically, the method may include the following steps: sending an operation instruction for the overlooking function control to a cloud server; receiving a data stream of a target two-dimensional plane graph obtained by rendering a target building model according to an operation instruction of the overlooking function control from the cloud server; and analyzing the data stream to obtain a target two-dimensional plane graph, and displaying the target two-dimensional plane graph on a first interface. In this example, the target two-dimensional plan view is a two-dimensional top view of the target building.

Specifically, taking the first control as an example of a top view function control, the first interface may be as shown in fig. 2B, and fig. 2B is an interface schematic diagram in a top view mode provided in the embodiment of the present application. The overlook function control is used for displaying a target two-dimensional plane of the target building model in an overlook mode, and the target two-dimensional plane graph can be a two-dimensional sales control graph of the target building model and can be an overlook plane graph for displaying the target building model, so that the parking space information in the target building can be conveniently and comprehensively known. The two-dimensional marketing control map may include information related to parking spaces, such as partition information of parking spaces in a garage in a target building, parking space numbers, position information of parking spaces in the target building, area information of parking spaces, price information of parking spaces, and sales state information of parking spaces, which is not limited herein.

In one possible example, the target two-dimensional plan includes at least one two-dimensional parking space tag, the at least one two-dimensional parking space tag including a first two-dimensional parking space tag; after the first interface displays the target two-dimensional plan and/or the first three-dimensional display map in response to the first operation instruction, the method further comprises: under the condition that the target two-dimensional plane graph is displayed on the first interface, responding to a fifth operation instruction aiming at the first two-dimensional parking space label, and displaying a switching animation for switching the first interface into a fourth interface; and displaying a sixth three-dimensional display picture of the parking place corresponding to the first two-dimensional parking place label on the fourth interface.

Each two-dimensional parking stall label in at least one two-dimensional parking stall label can uniquely correspond to one parking stall in the target two-dimensional plane graph, and the parking stalls corresponding to different two-dimensional parking stall labels are different.

It is concrete, still use the target two-dimensional plan to be aforementioned two-dimensional accuse map as an example, still can include the two-dimensional parking stall label of each parking stall in the two-dimensional accuse map, it is special, the two-dimensional parking stall label of every parking stall and the unique correspondence of parking stall serial number of this parking stall, in the concrete realization, the image area of every parking stall can directly show the two-dimensional parking stall label of this parking stall in the target two-dimensional plan, user's accessible clicks the two-dimensional parking stall label of parking stall and realizes jumping the three-dimensional show picture that shows this parking stall corresponds of demonstration, because the interface jumps through switching animation transition, be favorable to improving the flexibility and the intelligence of information show, and then be favorable to promoting user experience.

Further, the electronic device responds to a fifth operation instruction for the first two-dimensional parking space label, and displays a switching animation for switching the first interface into a fourth interface; displaying a sixth three-dimensional display diagram of the parking space corresponding to the first two-dimensional parking space label on a fourth interface, which specifically comprises the following steps: the electronic equipment responds to a fifth operation instruction aiming at the first two-dimensional parking stall label, and sends first notification information to a cloud server, wherein the first notification information is used for indicating that the first two-dimensional parking stall label is selected, the cloud server generates a three-dimensional display diagram set of a parking stall corresponding to the first two-dimensional parking stall label in a target building model and a data stream corresponding to the switching animation according to the first notification information, the electronic equipment analyzes the data stream to obtain the three-dimensional display diagram set and the switching animation, displays the switching animation, and displays a sixth three-dimensional display diagram of the parking stall corresponding to the first two-dimensional parking stall label on a fourth interface, and the three-dimensional display diagram set comprises the sixth three-dimensional display diagram. That is to say, the user clicks any one of the at least one two-dimensional parking stall label in the target two-dimensional plane graph to check the three-dimensional image around the parking stall corresponding to the clicked two-dimensional parking stall label in the roaming mode. The user can directly select the target parking space in the target building model conveniently, and the surrounding environment of the target parking space can be checked.

In one possible example, each two-dimensional parking space tag in the at least one two-dimensional parking space tag corresponds to a parking space number, and the parking space number corresponding to the first two-dimensional parking space tag is obtained by performing character recognition on a parking space image corresponding to the first two-dimensional parking space tag; the sixth three-dimensional display graph is obtained by inquiring a target mapping table according to the parking space number corresponding to the first two-dimensional parking space label, and the target mapping table comprises a mapping relation between a preset parking space number and the three-dimensional display graph.

The target two-dimensional plane graph can be obtained by the cloud server after the following operations are performed: carrying out parking space image recognition on the target two-dimensional plane graph, and determining at least one parking space image area from the target two-dimensional plane graph; respectively generating a two-dimensional parking stall label in each parking stall image area; respectively carrying out character recognition on each parking space image area to obtain the parking space number of each parking space image area; and establishing an incidence relation between the two-dimensional parking space label of each parking space image area and the vehicle number of the parking space image area.

In particular, the text Recognition may specifically adopt Augmented Reality (AR) Recognition and/or Optical Character Recognition (OCR). The identification of the at least one parking space image area may specifically be performing POI image feature identification on a target two-dimensional plane map, taking each individual parking space in the target two-dimensional plane map as a POI image feature, and generating a two-dimensional parking space tag, that is, a POI point location tag. The concept Of POI image characteristics is to extract the concept Of Interest attributes or hot Point attributes (POI, Property Of Interest) (referred to as drawing POI for short) in a drawing by means Of the concept Of the POI in a map, so as to realize automatic identification and application Of the core attention attributes in the drawing. That is to say, the cloud server can generate a POI point location tag according to each parking space in the drawing, and determine the parking space number of each parking space through character recognition, and then establish the relevance of the parking space number and the POI point location tag, when a certain POI tag is selected, a preset target mapping table can be queried according to the parking space number corresponding to the POI tag, and thus the display atlas of the parking space corresponding to the selected POI tag in the three-dimensional model is determined.

Responding to a fifth operation instruction aiming at the first two-dimensional parking space label, and displaying a switching animation for switching the first interface into a fourth interface; displaying a sixth three-dimensional display diagram of the parking space corresponding to the first two-dimensional parking space label on a fourth interface, which specifically comprises the following steps: the electronic equipment responds to a fifth operation instruction aiming at the first two-dimensional parking space tag, sends first notification information to a cloud server, the first notification information is used for indicating that the first two-dimensional parking stall label is selected, the cloud server determines a parking stall number (hereinafter referred to as parking stall number 1) corresponding to the first two-dimensional parking stall label according to the first notification information, inquires a target mapping table, obtains a three-dimensional display map set corresponding to the parking stall number 1 in a target building model, generates a data stream corresponding to the three-dimensional display map set and the switching animation, analyzes the data stream by the electronic equipment to obtain the three-dimensional display map set and the switching animation, and displays the switching animation, and displaying a sixth three-dimensional display drawing of the parking space corresponding to the first two-dimensional parking space label on a fourth interface, wherein the three-dimensional display drawing set comprises the sixth three-dimensional display drawing.

In addition, in one possible example, when the first control is a bird's-eye view function control and the first operation instruction is an operation instruction for the bird's-eye view function control, the method may specifically include, in response to the first operation instruction, displaying the target two-dimensional plan view and/or the first three-dimensional display view on the first interface, and the method includes: sending an operation instruction for the aerial view function control to a cloud server; receiving a data stream of a target three-dimensional display image set obtained by rendering a target building model according to an operation instruction of the aerial view function control from the cloud server; and analyzing the data stream to obtain a target three-dimensional display diagram set, and displaying a first three-dimensional display diagram in the target three-dimensional display diagram set on a first interface. In this example, the first three-dimensional display map is a bird's eye view three-dimensional display map of the target building.

Or, in a possible example, when the first control is a roaming function control and the first operation instruction is an operation instruction for the roaming function control, in response to the first operation instruction, displaying the target two-dimensional plan view and/or the first three-dimensional display view on the first interface, which may specifically include the following steps: sending an operation instruction aiming at the roaming function control to a cloud server; receiving a target three-dimensional display graph set obtained by rendering a target building model according to an operation instruction of the roaming function control from the cloud server; and displaying a first three-dimensional display diagram in the target three-dimensional display diagram set on a first interface. In this example, the first three-dimensional display map, that is, the roaming three-dimensional display map of the target building, is convenient for the user to intuitively know the parking space around the target parking space and the environment around the target parking space. The target building model is rendered through the cloud game technology, and the hardware pressure of the client equipment is favorably reduced.

Further, in a possible example, the first three-dimensional display map includes at least one three-dimensional parking space tag, and the at least one three-dimensional parking space tag includes a first three-dimensional parking space tag; the first interface further comprises at least one second control; the responding to the first operation instruction, after the first interface displays a target two-dimensional plan and/or a first three-dimensional display diagram, the method further comprises the following steps: under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a second operation instruction aiming at the first three-dimensional parking stall label, and displaying a second three-dimensional display drawing of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall label; or, under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a third operation instruction aiming at the second control, and displaying a third three-dimensional display drawing of the parking space position at different visual angles corresponding to the second control.

Each tag in at least one three-dimensional parking stall tag can uniquely correspond to a parking stall in the first three-dimensional display diagram, and the parking stalls corresponding to different tags are different. The second operation instruction may be a selection operation (for example, a click operation) instruction for the first three-dimensional parking space tag. The third operation instruction may be a selection operation instruction for the second control.

Specifically, the displaying a second three-dimensional display diagram of the parking space corresponding to the first three-dimensional parking space tag in response to the second operation instruction for the first three-dimensional parking space tag may specifically include the following steps: the electronic equipment receives a second operation instruction aiming at the first three-dimensional parking stall label in the first interface; the electronic equipment sends second notification information to the cloud server, the second notification information is used for representing that the first three-dimensional parking stall label is selected, and the cloud server generates a data stream corresponding to a three-dimensional display graph set of a parking stall corresponding to the first three-dimensional parking stall label in the target building model according to the second notification information; the electronic equipment analyzes the data stream to obtain a three-dimensional display diagram set, and a second three-dimensional display diagram in the three-dimensional display diagram set of the parking space corresponding to the first three-dimensional parking space label is displayed on the first interface. The parking space condition in the garage in the target building model can be conveniently and visually checked by the user.

Further, taking the first control as a bird's-eye view function control as an example, the first interface may be as shown in fig. 2C, where the bird's-eye view function control is used for displaying the first three-dimensional display diagram of the target building model in a bird's-eye view mode, and may be used for viewing the parking space condition in the target building from top to bottom. At least one three-dimensional parking stall label included in a first three-dimensional display graph displayed by the electronic equipment is a label capable of jumping. In the aerial view mode, when the electronic equipment receives an operation instruction aiming at a first three-dimensional parking stall label in a first three-dimensional display image in a first interface, the electronic equipment can directly jump to a second three-dimensional display image of a parking stall corresponding to the first three-dimensional parking stall label in the roaming mode, and information of the parking stall corresponding to the first three-dimensional parking stall label is displayed. That is to say, click arbitrary label in the first interface under the bird's eye view mode, can directly jump and show the three-dimensional show picture of the parking stall that is clicked under the roaming mode and is corresponded by the label, be convenient for the user understand the garage environment in the target building model directly perceivedly, select the target parking stall, understand the parking stall around the target parking stall and the environment around the target parking stall comprehensively.

In addition, taking the first control as the roaming function control as an example, the first interface may be as shown in fig. 2D, where the roaming function control is used for displaying the first three-dimensional display diagram of the target architectural model in the roaming mode; under the roaming mode, the second control in the first interface can be used for rotating the current visual angle to display the environment near the target parking space, so that the surrounding environment of the target parking space can be conveniently displayed in multiple angles. In the roaming mode, each of the at least one three-dimensional parking stall label displayed in the first interface may include a parking stall number corresponding to the label, and clicking any one of the labels may display a three-dimensional display diagram (i.e., a third three-dimensional display diagram) of an environment around a parking stall corresponding to the currently clicked label. And in the roaming mode, the building information confirmed by the default user is the building information of the target building. The parking space around the target parking space and the environment around the target parking space can be conveniently and visually known by the user.

Further, in the roaming mode, the second control of the first interface may be configured to rotate a viewing angle of an observation target parking space, and respond to a third operation instruction for the second control to display a third three-dimensional display diagram of the parking space position at a different viewing angle corresponding to the second control, which may specifically include the following steps: the electronic equipment receives a third operation instruction of the user for the second control, and sends third notification information used for representing that the second control is selected to the cloud server; the cloud server generates a data stream of a three-dimensional image set corresponding to the visual angle of the target parking space according to the third notification information, and sends the data stream to the electronic equipment; the electronic device analyzes the data stream to obtain a three-dimensional image set corresponding to the view angle of the target parking space, and displays a three-dimensional image (namely, a third three-dimensional display image) in the three-dimensional image set on the first interface.

Further, as shown in fig. 2D, in the roaming mode, by clicking any one of the at least one three-dimensional parking space tag included in the first interface, a three-dimensional display diagram (i.e., a second three-dimensional display diagram) of a parking space corresponding to the currently clicked tag may be displayed in a skipping manner. Specifically, the displaying of the second three-dimensional display diagram of the parking space information of the parking space position corresponding to the first three-dimensional parking space tag in response to the second operation instruction for the first three-dimensional parking space tag may specifically include the following steps: the electronic equipment receives a second operation instruction of the user for the first three-dimensional parking stall label, and sends second notification information representing that the first three-dimensional parking stall label is selected to the cloud server; the cloud server generates a data stream of a three-dimensional image set corresponding to a target parking space (namely a parking space corresponding to the first three-dimensional parking space tag) according to the second notification information, and sends the data stream to the electronic device; the electronic device analyzes the data stream to obtain a three-dimensional image set corresponding to the target parking space, and displays a three-dimensional image (namely a second three-dimensional display image) in the three-dimensional image set on the first interface.

In the roaming mode, when the user clicks the tag, the first interface may also pop up an electronic menu, as shown in fig. 2E, where the electronic menu further includes an electronic menu showing the price, the parking type, the region, the parking size, and adverse factors of the target parking space corresponding to the parking tag. For example, the total price of the target parking space is 10.11 ten thousand, the parking space type is a standard parking space, the belonging area is a B area, and the size of the parking space is 2.4m multiplied by 5.2m, and the parking space leaning column can block the door of the vehicle. The first interface may further include at least one third control, and the third control may be any one of: a parking gesture feature control, a home line feature control, and a purchase feature control.

In a possible example, after the displaying, in response to the second operation instruction for the first three-dimensional parking stall tag, a second three-dimensional display map of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall tag in the case that the first interface displays the first three-dimensional display map, the method further includes: responding to a fourth operation instruction aiming at the second control, and switching a second interface, wherein the second interface and the first interface are both interfaces under the same mode of the target application; acquiring vehicle information and/or vehicle initial position information; determining a fourth three-dimensional display diagram of the parking function corresponding to the second control according to the vehicle information and/or the vehicle starting position information, wherein the fourth three-dimensional display diagram is used for displaying parking modes of different vehicles in parking spaces and/or displaying different parking navigation routes; and displaying the fourth three-dimensional display picture on the second interface.

In a specific implementation, the second control may be a parking indication function control, and when the electronic device responds to a fourth operation instruction (which may be a selection operation instruction, for example, a click operation instruction) of the user for the parking indication function control, the second interface may be as shown in fig. 2F, and the electronic device sends the operation instruction of the user for the parking indication function control to the cloud server; the cloud server responds to an operation instruction of a user for the parking indication function control, generates a data stream corresponding to a three-dimensional image set simulating parking of a target vehicle according to the target building model, and sends the data stream to the electronic equipment; the electronic device analyzes the data stream to obtain a three-dimensional image set simulating parking of the target vehicle, and displays a three-dimensional image (namely a fourth three-dimensional display drawing) in the three-dimensional image set simulating parking of the target vehicle on the first interface.

As shown in fig. 2F, the target vehicle may be determined by the user according to different vehicle types in the electronic menu. The vehicle type in the electronic menu may be a large SUV, a class C sedan, an MPV commercial vehicle, etc., and herein is merely an example of the vehicle type of the target vehicle, and the vehicle type may also be other vehicle types, which is not limited herein.

In a specific implementation, the second control may be a simulated home-in line function control, and when the electronic device responds to an operation instruction of the user for the simulated home-in line function control, a second interface switched by the electronic device may be as shown in fig. 2G.

Further, in a possible example, after the displaying the fourth three-dimensional display diagram on the second interface, the method further includes: determining a parking route according to the vehicle initial position information; determining a fifth three-dimensional display diagram according to the parking route, wherein the fifth three-dimensional display diagram is used for displaying live-action parking navigation of the parking route; receiving a fourth operation instruction aiming at a third control of the second interface, and switching a third interface, wherein the third interface and the first interface are interfaces under the same mode of a target application; displaying the fifth three-dimensional display diagram corresponding to the third control element on the third interface.

Specifically, if the second control is a simulated home returning function control, the third interface may be as shown in fig. 2H, the electronic device responds to an operation instruction for the simulated home returning function control in the second interface, acquires the starting position of the home returning route, and sends the operation instruction for the simulated home returning function control by the user and the starting position of the home returning route to the cloud server; the cloud server responds to an operation instruction of a user for the simulated home line function control, generates a data stream corresponding to a three-dimensional image set of the vehicle route according to the initial position of the home route and the target building model, and sends the data stream to the electronic equipment; the electronic device analyzes the data stream to obtain a three-dimensional image set simulating the parking of the target vehicle, and displays a three-dimensional image (namely a fifth three-dimensional display diagram) in the three-dimensional image set simulating the parking of the target vehicle on the third interface.

In one possible example, after the first interface displays the target two-dimensional plan view and/or the first three-dimensional display view in response to the first operation instruction, the method further includes: and under the condition that the first interface displays the target two-dimensional plane map, receiving an operation instruction for zooming in or out of the target two-dimensional plane map, and responding to the operation instruction for zooming in or out to zoom in or out of the target two-dimensional plane map.

Therefore, in this example, the two-dimensional plane view and the first three-dimensional display view can be enlarged or reduced, which is beneficial to improving the flexibility and intelligence of information viewing.

In a possible example, as shown in fig. 2I, the second interface may further include a purchase function control, and the electronic device displays an order secondary interface in response to an operation instruction for the purchase function control in the second interface, where the order secondary interface may include parking space information and customer information, and may advance each stage of filling in data, signing an agreement, paying a deposit and viewing a result step by step, which is not described herein again.

In a specific implementation, as shown in fig. 2J, when the first function control is also a list function control and the first operation instruction is an operation instruction for the list function control, in response to the first operation instruction, displaying a target two-dimensional plan view and/or a first three-dimensional display view on the first interface, which may specifically include the following steps: sending an operation instruction aiming at the list function control to a cloud server; receiving a first three-dimensional display diagram obtained by rendering a target building model according to an operation instruction of the list function control from the cloud server; and displaying the first three-dimensional display picture on the first interface.

As shown in fig. 2K, the list function control is used for displaying a first three-dimensional display diagram of the target building model in a list mode; the first interface comprises a first menu in a list mode, the first menu comprises a plurality of second controls, the second controls are used for screening target parking spaces or displaying three-dimensional graph display corresponding to the target parking spaces in a roaming mode, and the second controls comprise at least one parking space area control and a parking space number control corresponding to the at least one parking space area control. The parking space screening control and the control used for displaying the target parking space are used, the electronic equipment receives an operation instruction aiming at the parking space screening control, and the type, the sales state, the civil air defense information and the information whether to be collected of the parking space are displayed.

For convenience of understanding, the following description illustrates an interaction process of displaying the parking space information in an underground garage scene, where a target user may log in to an interaction platform of the underground garage model through user equipment, and a login manner may be a web page, an applet, a client, and the like, which is not specifically limited herein. After logging in, a new guidance page can be entered, and the new guidance page comprises a plurality of interactive teaching steps, which are not described herein again. After the intelligent garage is guided by a new hand, the intelligent garage can freely interact with the underground garage model BIM.

Specifically, as shown in fig. 2B, the initial display interface includes a two-dimensional plan view of the entire underground garage, the top right-hand function buttons of "overlook", "bird's-eye view", "roam" and "list", and the bottom right-hand area annotations of "standard parking space", "large parking space" and "small parking space", where the underground garage model is in an "overlook" state, and the target user may zoom in and out of the display interface by moving the page through gestures.

When the input information is a click of a ' bird ' eye view ' button, the bird's-eye view mode can be entered, as shown in fig. 2C, the three-dimensional model of the underground garage with the bird's-eye view angle can be displayed in the bird's-eye view mode, the left side and the right side can be seen as lane areas, the middle is a parking space area, only a small part of the area of the whole underground garage is displayed at the moment, and a target user can move the model BIM of the underground garage in a click, scratch and other modes so as to check other areas in the bird's-eye view state.

When the input entry information is that a "roaming" button is clicked, a roaming mode can be entered, as shown in fig. 2D, in the roaming mode, the viewing angle is switched to a first-person viewing angle when the user walks in the garage, it can be understood that the target user can start roaming from any position, as can be seen from fig. 2D, at this time, the target user can operate the wheel disc at the lower left to perform roaming in any direction, and know the current position and the information of the peripheral area through the map at the upper left corner, starting from the parking space B290. Furthermore, the target user may click on an area where any parking stall is located to display detailed information of the parking stall, as shown in fig. 2E, it can be seen that a translucent suspension window pops up after clicking on the parking stall B290, the total price of the B290 is displayed in the suspension window to be 10.11 ten thousand, the parking stall type is a standard parking stall, the area where the parking stall belongs is the B area, the size of the parking stall is 2.5m × 5.2m, adverse factors such as "the parking stall may block the car door by the pillar" are displayed, and a "parking indication" button, a "home line" button, and a "purchase" button are provided at the lowest position. It should be noted that, the star button beside the B290 parking space in the floating window can be clicked to collect or cancel the parking space.

After a 'parking instruction' button is clicked, a secondary suspension window page can be entered, the page can show the parking state of different vehicle types in the parking space, the secondary suspension window page of the 'parking instruction' comprises vehicle type options, the vehicle type options can comprise a medium-sized SUV, a B-sized sedan, a small-sized SUV, a large-sized SUV, a C-sized sedan, an MPV business vehicle and the like, a target user can perform left-right sliding movement for selection, when the medium-sized SUV is selected, an interface for parking the medium-sized SUV in the parking space can be displayed, as shown in FIG. 2F, further, whether the vehicle type is matched with the parking space can be automatically judged, specifically, the minimum width of the parking space required by vehicle type parking can be automatically calculated, the two conditions can be divided according to the difference of vehicle parking modes, wherein the first condition is forward parking, and the second condition is backward parking;

in the case of a forward stop, as shown in fig. 3A, the following formula is adopted:

W_d＝R_e+Z-sina[(r+b)×cota+e-L_r]，

wherein,

wherein Wd represents the minimum parking space width; s shows that the safe distance between the entrance and the adjacent vehicle can be 300 mm; z represents the safe distance between the running vehicle and the vehicle or the wall, and can be 500-1000 mm generally; lr represents the offset distance of the rotating center of the rear wheel of the motor vehicle in the rotating position; re represents the horizontal distance from the rotation center of the motor vehicle to the rear outer corner of the motor vehicle; c represents the vehicle-to-vehicle distance; r represents the inner radius of the motor vehicle ring; a represents the length of the motor vehicle; b represents the width of the motor vehicle; e represents the rear overhang size of the motor vehicle; r represents the circular outer radius of the motor vehicle; alpha denotes the parking angle of the motor vehicle.

Afterwards carry out the contrast with actual parking stall width and the minimum parking stall width of calculating, when actual parking stall width is greater than or equal to minimum parking stall width Wd, this motorcycle type is confirmed to match with this parking stall, when actual parking stall width is less than minimum parking stall width Wd, this motorcycle type is confirmed to mismatch with this parking stall. And finally, generating prompt information according to the matching result and sending the prompt information to the target equipment.

In the case of a backward parking, as shown in fig. 3B, the following formula is adopted:

N_d＝R+Z-sina[(r+b)×cota+(a-e)-L_r]，

afterwards carry out the contrast with actual parking stall width and the minimum parking stall width of calculating, when actual parking stall width is greater than or equal to minimum parking stall width Wd, this motorcycle type is confirmed to match with this parking stall, when actual parking stall width is less than minimum parking stall width Wd, this motorcycle type is confirmed to mismatch with this parking stall. And finally, generating prompt information according to the matching result and sending the prompt information to the target equipment.

So can find out the vehicle type that this parking stall is fit for parking and the vehicle type that is not fit for parking directly perceivedly, promote user experience greatly.

After clicking the 'home line' button, the navigation path from the current position to the target position can be switched to a bird's-eye view angle, and the navigation path enters a secondary suspension window page, at this time, the secondary suspension window page displays a starting point name, a terminal point name, a required distance, walking required time and a' simulated navigation 'button, a target user can automatically change the positions of the starting point and the terminal point, as shown in fig. 2G, it can be seen that at this time, the starting point is a parking place C355, the terminal point is a building entrance a of No. 12, the navigation path from the parking place C355 to the building entrance a of No. 12 is marked with arrow patterns, and a text prompt of' about 13 minutes walking from the terminal point 536 meters is displayed, and the target user can clearly see a route map and related information. Furthermore, the target user can click the 'simulation navigation' button to enter the first person visual angle for navigation roaming, as shown in fig. 2H, the real-scene roaming can be performed at the first person visual angle, an arrow is marked on the ground to indicate the advancing direction, the distance to the end point and the remaining walking minutes are displayed in real time, the navigation interactivity is greatly improved, the target user can click the 'simulation pause' button below at any time to view the periphery, the target user can click the 'simulation end' button at any time to quit the navigation simulation at the first person visual angle, and the user experience is excellent.

After clicking the "buy" button, the order form secondary page may be entered, as shown in fig. 2I, where the order form secondary page may include parking space information and customer information, and may advance each stage of filling in data, signing an agreement, paying a deposit and viewing a result step by step, which is not described herein again.

When the input entry information is that a "list" button is clicked, the user can enter a parking space list page, as shown in fig. 2J, the parking space list page can preferentially display eight parking spaces closest to the current position, at this time, the eight closest parking spaces are respectively B111, B112, B113, B114, B115, B116, B117, and B118, the user can click the lowermost button to perform roaming viewing after selecting any one parking space, and details are not repeated herein. The current displayed parking spaces in the area B can be switched to the parking space list in the area C by clicking the button in the area C, and the right screening button can be clicked to screen parking space information.

After the "screening" button is clicked, a screening option secondary page can be entered, as shown in fig. 2K, the screening conditions of the screening option secondary page include a parking space type, an on-sale state, whether the parking space is a civil air defense parking space or not, whether the parking space is collected or not, and the like, wherein the parking space type can select any option of a large parking space, a small parking space and a standard longitudinal primary and secondary parking space, the on-sale state can select an on-sale parking space and an already-sold parking space option, whether the civil air defense parking space or a non-civil air defense parking space option is selected, whether the already-collected or not-collected option is selected or not is selected, after the selection is completed, the "confirm screening" button on the right lower right side can be clicked to enter a screened parking space list, the option which is emptied and selected by clicking the "reset" button can be selected again, and no specific limitation is made here. Therefore, the target user can find the ideal parking space more conveniently.

It is understood that the type of the entered information in the above examples can be included in the area query instruction, the area positioning instruction, and the area browsing instruction, and the page content in the above examples is only an exemplary illustration and does not represent a specific limitation of the present application.

Therefore, the interaction between the target user and the target building equipment is realized in the form of the cloud game, so that the interaction between the building information model and the target user is more visual and convenient, and the interaction experience of the target user is greatly improved.

By the method, the target building model can be processed, an interaction function is added, and the target building model is sent to the user equipment in a streaming media data mode according to the requirements of the target user, so that the interaction between the building information model and the target user is more visual and convenient, and the interaction experience of the target user is greatly improved.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an electronic device 400 according to an embodiment of the present application, and as shown in the drawing, the electronic device 400 includes an application processor 410, a memory 420, a communication interface 430, and one or more programs 421, where the one or more programs 421 are stored in the memory 420 and configured to be executed by the application processor 410, and the one or more programs 421 include instructions for performing the following steps:

receiving a first operation instruction of a first interface aiming at a first control, wherein the first interface comprises at least one first control;

and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

As can be seen, the embodiment of the present application receives a first operation instruction for a first control of a first interface, where the first interface includes at least one first control; and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control. According to the parking space information display method and device, the first interface displays the target two-dimensional plane graph and/or the first three-dimensional display graph through responding to the first operation instruction, the two-dimensional plane graph and the three-dimensional display graph of the visual model can be combined, and the parking space information of the target building model can be conveniently and visually displayed comprehensively. In one possible example, the displaying, in response to the first operation instruction, a target two-dimensional plan view and/or a first three-dimensional presentation view on the first interface includes: the first operation instruction is sent to a cloud server in response to the first operation instruction; receiving the target two-dimensional plan and/or the target three-dimensional display map set obtained by rendering the target building model by the cloud server aiming at the first operation instruction; displaying a target two-dimensional plan view and/or a first three-dimensional display view of the target set of three-dimensional display views at the first interface.

In one possible example, the first three-dimensional display map comprises at least one three-dimensional parking stall label, and the at least one three-dimensional parking stall label comprises a first three-dimensional parking stall label; the first interface further comprises at least one second control; the responding to the first operation instruction, after the first interface displays a target two-dimensional plan and/or a first three-dimensional display diagram, the method further comprises the following steps: under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a second operation instruction aiming at the first three-dimensional parking stall label, and displaying a second three-dimensional display drawing of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall label; or, under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a third operation instruction aiming at the second control, and displaying a third three-dimensional display drawing of the parking space position at different visual angles corresponding to the second control.

In a possible example, after the displaying, in response to the second operation instruction for the first three-dimensional parking stall tag, a second three-dimensional display map of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall tag in the case that the first interface displays the first three-dimensional display map, the method further includes: responding to a fourth operation instruction aiming at the second control, and switching a second interface, wherein the second interface and the first interface are both interfaces under the same mode of the target application; acquiring vehicle information and/or vehicle initial position information; determining a fourth three-dimensional display diagram of the parking function corresponding to the second control according to the vehicle information and/or the vehicle starting position information, wherein the fourth three-dimensional display diagram is used for displaying parking modes of different vehicles in parking spaces and/or displaying different parking navigation routes; and displaying the fourth three-dimensional display picture on the second interface.

In one possible example, after the second interface displays the fourth three-dimensional display diagram, the method further includes: determining a parking route according to the vehicle initial position information; determining a fifth three-dimensional display diagram according to the parking route, wherein the fifth three-dimensional display diagram is used for displaying live-action parking navigation of the parking route; receiving a fourth operation instruction aiming at a third control of the second interface, and switching a third interface, wherein the third interface and the first interface are interfaces in the same mode corresponding to the target application; displaying the fifth three-dimensional display diagram corresponding to the third control element on the second interface.

In one possible example, the target two-dimensional plan includes at least one two-dimensional parking space tag, the at least one two-dimensional parking space tag including a first two-dimensional parking space tag; the responding to the first operation instruction, after the first interface displays a target two-dimensional plan and/or a first three-dimensional display diagram, the method further comprises the following steps: under the condition that the target two-dimensional plane graph is displayed on the first interface, responding to a fifth operation instruction aiming at the first two-dimensional parking space label, and displaying a switching animation for switching the first interface into a fourth interface; and displaying a sixth three-dimensional display picture of the parking place corresponding to the first two-dimensional parking place label on the fourth interface.

In one possible example, each two-dimensional parking space tag in the at least one two-dimensional parking space tag corresponds to a parking space number, and the parking space number corresponding to the first two-dimensional parking space tag is obtained by performing character recognition on a parking space image corresponding to the first two-dimensional parking space tag; the sixth three-dimensional display graph is obtained by inquiring a target mapping table according to the parking space number corresponding to the first two-dimensional parking space label, and the target mapping table comprises a mapping relation between a preset parking space number and the three-dimensional display graph.

In one possible example, after the first interface displays the target two-dimensional plan view and/or the first three-dimensional display view in response to the first operation instruction, the method further includes: and under the condition that the first interface displays the target two-dimensional plane map, receiving an operation instruction for zooming in or out of the target two-dimensional plane map, and responding to the operation instruction for zooming in or out to zoom in or out of the target two-dimensional plane map.

The above description has introduced the solution of the embodiment of the present application mainly from the perspective of the method-side implementation process. It is understood that the electronic device comprises corresponding hardware structures and/or software modules for performing the respective functions in order to realize the above-mentioned functions. Those of skill in the art will readily appreciate that the present application is capable of hardware or a combination of hardware and computer software implementing the various illustrative elements and algorithm steps described in connection with the embodiments provided herein. Whether a function is performed as hardware or computer software drives hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the embodiment of the present application, the electronic device may be divided into the functional units according to the method example, for example, each functional unit may be divided corresponding to each function, or two or more functions may be integrated into one processing unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit. It should be noted that the division of the unit in the embodiment of the present application is schematic, and is only a logic function division, and there may be another division manner in actual implementation.

Fig. 5 is a block diagram illustrating functional units of a parking space information display device 500 according to an embodiment of the present application. The apparatus 500 comprises:

a receiving unit 501, configured to receive a first operation instruction of a first interface for a first control, where the first interface includes at least one first control;

a display unit 502, configured to display, in response to the first operation instruction, a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, where the target two-dimensional plane graph is used to display the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used to display the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

The parking space information display apparatus 500 may further include a storage unit 503 for storing program codes and data of the electronic device. The storage unit 503 may be a memory.

It can be seen that, in the embodiment of the application, a first building construction drawing corresponding to a target building is obtained; performing fire prevention partition modeling according to the first building construction drawing to obtain a first Building Information Model (BIM); determining a plurality of fire zones in the first BIM model; determining a smoke alarm model in each fire prevention area to obtain a plurality of smoke alarm model sets; determining the safety factor of a fire-proof area corresponding to each smoke alarm model set according to the fire-fighting early warning signal of each smoke alarm model set to obtain a plurality of safety factors; according to each safety factor, determining each fireproof area warning information corresponding to the safety factor, solving the problem of excessive smoke detector alarm components by using fireproof partitions, and sending area early warning aiming at multiple alarms in a unified mode, wherein the early warning display is more accurate.

In one possible example, in the aspect that the display unit 502 is specifically configured to, in response to the first operation instruction, display a target two-dimensional plan view and/or a first three-dimensional display view on the first interface: the first operation instruction is sent to a cloud server in response to the first operation instruction; receiving the target two-dimensional plan and/or the target three-dimensional display map set obtained by rendering the target building model by the cloud server aiming at the first operation instruction; displaying a target two-dimensional plan view and/or a first three-dimensional display view of the target set of three-dimensional display views at the first interface.

In one possible example, the first three-dimensional display map comprises at least one three-dimensional parking stall label, and the at least one three-dimensional parking stall label comprises a first three-dimensional parking stall label; the first interface further comprises at least one second control; after the responding to the first operation instruction and displaying the target two-dimensional plan view and/or the first three-dimensional display view on the first interface, the display unit 502 is further specifically configured to: under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a second operation instruction aiming at the first three-dimensional parking stall label, and displaying a second three-dimensional display drawing of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall label; or, under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a third operation instruction aiming at the second control, and displaying a third three-dimensional display drawing of the parking space position at different visual angles corresponding to the second control.

In a possible example, after the displaying, in response to the second operation instruction for the first three-dimensional parking stall tag, a second three-dimensional display map of the parking stall information of the parking stall position corresponding to the first three-dimensional parking stall tag in the case that the first interface displays the first three-dimensional display map, the display unit 502 is further specifically configured to: responding to a fourth operation instruction aiming at the second control, and switching a second interface, wherein the second interface and the first interface are both interfaces under the same mode of the target application; acquiring vehicle information and/or vehicle initial position information; determining a fourth three-dimensional display diagram of the parking function corresponding to the second control according to the vehicle information and/or the vehicle starting position information, wherein the fourth three-dimensional display diagram is used for displaying parking modes of different vehicles in parking spaces and/or displaying different parking navigation routes; and displaying the fourth three-dimensional display picture on the second interface.

In a possible example, after the second interface displays the fourth three-dimensional display diagram, the display unit 502 is further specifically configured to: determining a parking route according to the vehicle initial position information; determining a fifth three-dimensional display diagram according to the parking route, wherein the fifth three-dimensional display diagram is used for displaying live-action parking navigation of the parking route; receiving a fourth operation instruction aiming at a third control of the second interface, and switching a third interface, wherein the third interface and the first interface are interfaces in the same mode corresponding to the target application; displaying the fifth three-dimensional display diagram corresponding to the third control element on the second interface.

In one possible example, the target two-dimensional plan includes at least one two-dimensional parking space tag, the at least one two-dimensional parking space tag including a first two-dimensional parking space tag; after the first interface displays the target two-dimensional plan view and/or the first three-dimensional display view in response to the first operation instruction, the display unit 502 is further specifically configured to: under the condition that the target two-dimensional plane graph is displayed on the first interface, responding to a fifth operation instruction aiming at the first two-dimensional parking space label, and displaying a switching animation for switching the first interface into a fourth interface; and displaying a sixth three-dimensional display picture of the parking place corresponding to the first two-dimensional parking place label on the fourth interface.

In one possible example, each two-dimensional parking space tag in the at least one two-dimensional parking space tag corresponds to a parking space number, and the parking space number corresponding to the first two-dimensional parking space tag is obtained by performing character recognition on a parking space image corresponding to the first two-dimensional parking space tag; the sixth three-dimensional display graph is obtained by inquiring a target mapping table according to the parking space number corresponding to the first two-dimensional parking space label, and the target mapping table comprises a mapping relation between a preset parking space number and the three-dimensional display graph.

In a possible example, after the first interface displays the target two-dimensional plan view and/or the first three-dimensional display view in response to the first operation instruction, the display unit 502 is further specifically configured to: and under the condition that the first interface displays the target two-dimensional plane map, receiving an operation instruction for zooming in or out of the target two-dimensional plane map, and responding to the operation instruction for zooming in or out to zoom in or out of the target two-dimensional plane map.

Embodiments of the present application also provide a computer storage medium, where the computer storage medium stores a computer program for electronic data exchange, the computer program enabling a computer to execute part or all of the steps of any one of the methods described in the above method embodiments, and the computer includes an electronic device.

Embodiments of the present application also provide a computer program product comprising a non-transitory computer readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps of any of the methods as described in the above method embodiments. The computer program product may be a software installation package, the computer comprising an electronic device.

It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the above-described division of the units is only one type of division of logical functions, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of some interfaces, devices or units, and may be an electric or other form.

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

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

The integrated unit may be stored in a computer readable memory if it is implemented in the form of a software functional unit and sold or used as a stand-alone product. Based on such understanding, the technical solution of the present application may be substantially implemented or a part of or all or part of the technical solution contributing to the prior art may be embodied in the form of a software product stored in a memory, and including several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the above-mentioned method of the embodiments of the present application. And the aforementioned memory comprises: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable memory, which may include: flash Memory disks, Read-Only memories (ROMs), Random Access Memories (RAMs), magnetic or optical disks, and the like.

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (11)

1. The parking space information display method is characterized by comprising the following steps:

receiving a first operation instruction of a first interface aiming at a first control, wherein the first interface comprises at least one first control;

and responding to the first operation instruction, displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

2. The method according to claim 1, wherein the displaying a target two-dimensional plan view and/or a first three-dimensional presentation view on the first interface in response to the first operation instruction comprises:

the first operation instruction is sent to a cloud server in response to the first operation instruction;

receiving a data stream corresponding to the target two-dimensional plan and/or the target three-dimensional display map set, which is obtained by rendering the target building model by the cloud server according to the first operation instruction;

analyzing the data stream to obtain the target two-dimensional plane graph and/or the target three-dimensional display graph set;

displaying a target two-dimensional plan view and/or a first three-dimensional display view of the target set of three-dimensional display views at the first interface.

3. The method of claim 1, wherein the first three-dimensional display map comprises at least one three-dimensional parking space tag, the at least one three-dimensional parking space tag comprising a first three-dimensional parking space tag; the first interface further comprises at least one second control;

the responding to the first operation instruction, after the first interface displays a target two-dimensional plan and/or a first three-dimensional display diagram, the method further comprises the following steps:

under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a second operation instruction aiming at the first three-dimensional parking stall label, and displaying a second three-dimensional display drawing of parking stall information of a parking stall position corresponding to the first three-dimensional parking stall label; or,

and under the condition that the first three-dimensional display drawing is displayed on the first interface, responding to a third operation instruction aiming at the second control, and displaying a third three-dimensional display drawing of the parking space position at different visual angles corresponding to the second control.

4. The method of claim 3, wherein, when the first interface displays the first three-dimensional display map, after displaying a second three-dimensional display map of the parking space information of the parking space corresponding to the first three-dimensional parking space tag in response to a second operation instruction for the first three-dimensional parking space tag, the method further comprises:

responding to a fourth operation instruction aiming at the second control, and switching a second interface, wherein the second interface and the first interface are both interfaces under the same mode of the target application;

acquiring vehicle information and/or vehicle initial position information;

determining a fourth three-dimensional display diagram of the parking function corresponding to the second control according to the vehicle information and/or the vehicle starting position information, wherein the fourth three-dimensional display diagram is used for displaying parking modes of different vehicles in parking spaces and/or displaying different parking navigation routes;

and displaying the fourth three-dimensional display picture on the second interface.

5. The method of claim 4, wherein after the second interface displays the fourth three-dimensional display map, further comprising:

determining a parking route according to the vehicle initial position information;

determining a fifth three-dimensional display diagram according to the parking route, wherein the fifth three-dimensional display diagram is used for displaying live-action parking navigation of the parking route;

receiving a fourth operation instruction aiming at a third control of the second interface, and switching a third interface, wherein the third interface and the first interface are interfaces under the same mode of a target application;

displaying the fifth three-dimensional display diagram corresponding to the third control element on the third interface.

6. The method of claim 1, wherein the target two-dimensional plan includes at least one two-dimensional parking space tag, the at least one two-dimensional parking space tag including a first two-dimensional parking space tag;

the responding to the first operation instruction, after the first interface displays a target two-dimensional plan and/or a first three-dimensional display diagram, the method further comprises the following steps:

under the condition that the target two-dimensional plane graph is displayed on the first interface, responding to a fifth operation instruction aiming at the first two-dimensional parking space label, and displaying a switching animation for switching the first interface into a fourth interface;

and displaying a sixth three-dimensional display picture of the parking place corresponding to the first two-dimensional parking place label on the fourth interface.

7. The method according to claim 6, wherein each of the at least one two-dimensional parking space tag corresponds to a parking space number, and the parking space number corresponding to the first two-dimensional parking space tag is obtained by performing text recognition on a parking space image corresponding to the first two-dimensional parking space tag; the sixth three-dimensional display graph is obtained by inquiring a target mapping table according to the parking space number corresponding to the first two-dimensional parking space label, and the target mapping table comprises a mapping relation between a preset parking space number and the three-dimensional display graph.

8. The method according to claim 1, wherein the responding to the first operation instruction, after the first interface displays a target two-dimensional plan view and/or a first three-dimensional display view, further comprises:

and under the condition that the first interface displays the target two-dimensional plane map, receiving an operation instruction for zooming in or out of the target two-dimensional plane map, and responding to the operation instruction for zooming in or out to zoom in or out of the target two-dimensional plane map.

9. The utility model provides a parking stall information display device which characterized in that, the device includes:

the device comprises a receiving unit, a control unit and a display unit, wherein the receiving unit is used for receiving a first operation instruction of a first interface aiming at a first control, and the first interface comprises at least one first control;

and the display unit is used for responding to the first operation instruction and displaying a target two-dimensional plane graph and/or a first three-dimensional display graph on the first interface, wherein the target two-dimensional plane graph is used for displaying the parking space information in the two-dimensional plane image of the target building in the mode corresponding to the first control, and the first three-dimensional display graph is used for displaying the parking space information in the three-dimensional image of the target building model of the target building in the mode corresponding to the first control.

10. An electronic device comprising a processor, a memory, a communication interface, and one or more programs stored in the memory and configured to be executed by the processor, the programs comprising instructions for performing the steps in the method of any of claims 1-8.

11. A computer-readable storage medium, characterized in that it stores a computer program for electronic data exchange, wherein the computer program causes a computer to perform the method according to any one of claims 1-8.

Images