CN115177951A - Data processing system for space switching - Google Patents

Abstract

The application provides a data processing system for space switching, which realizes the following steps when detecting that a user enters the system: generating an initial roaming area on a display device corresponding to a user; when detecting that the virtual character selects a virtual area j in a virtual scene i needing to enter through the operation area, moving the first virtual door and the first virtual viewpoint into the virtual area j in the virtual scene i; acquiring a second relative position between a second virtual viewpoint and a second virtual door, and adjusting the position of the first virtual viewpoint based on the acquired second relative position so that a first relative position between the first virtual viewpoint and the first virtual door is equal to the second relative position; and displaying the image about the virtual area j acquired from the first virtual viewpoint on the second virtual door. The invention can save the transmission time of the virtual role and improve the user experience.

Description

Data processing system for space switching

Technical Field

The application relates to the field of Internet of things, in particular to a data processing system for space switching.

Background

In many 3D scenes, a transfer gate (also called a virtual gate) is provided, and the main purpose of the transfer gate is to switch between different scenes, for example, in a transfer gate knight game, the transfer gate can be used to realize movement in different game maps and the world, in 3D digital scenes of a garden and a venue, the transfer gate is used to simplify the flow of controlling virtual characters to walk to a destination, and after finding the transfer gate at a fixed position, a user can quickly reach another place on the map through the transfer gate.

However, in the prior art, when one place is transferred to another place, waiting is carried out, the waiting cannot be instantly reached, and the transfer position is also fixed. In addition, the delivery gate does not display a real-time image of the delivery point, and the user experience is poor.

Disclosure of Invention

In view of the above technical problems, the present application provides a data processing system with spatial switching, which can solve at least one of the above technical problems.

The technical scheme adopted by the application is as follows:

an embodiment of the present application provides a data processing system for spatial switching, where the system includes: the system comprises a processor, a memory and a database which are in communication connection, wherein the memory stores configuration files and m virtual scenes, the ith virtual scene comprises ni virtual areas, and the value of i is 1 to m; the database stores a first data table and a second data table, the ith row of the first data table comprises (A) _i ，A _i1 ，A _i2 ，…，A _ini ），A _i Is ID of the ith virtual scene, A _ij Setting the value of j as 1 to ni of the ID of the jth virtual area in the ith virtual scene; the second data table stores (A) _k ，A _kq ），A _k For the ID of the set target virtual scene, A _kq Is A _k The target virtual region q in (1, 2, \8230;, m), q ∈ (1, 2, \8230;, nk), wherein A is a _k The target virtual area q in (1) is provided with a first virtual door and a first virtual viewpoint;

upon detecting the user entering the system, the processor is configured to execute the computer program to perform the steps of:

s1, generating an initial roaming area on a display device corresponding to the user based on the configuration file, wherein a virtual role and a second virtual viewpoint corresponding to the user, a second virtual door and an operation area are arranged in the initial roaming area;

s2, when detecting that the virtual character selects a virtual area j in a virtual scene i needing to enter through an operation area, moving a first virtual door and a first virtual viewpoint into the virtual area j in the virtual scene i;

s3, acquiring a second relative position between a second virtual viewpoint and a second virtual door, and adjusting the position of the first virtual viewpoint based on the acquired second relative position so that the first relative position between the first virtual viewpoint and the first virtual door is equal to the second relative position;

and S4, displaying the image about the virtual area j acquired from the first virtual viewpoint on the second virtual door.

The application has at least the following technical effects:

(1) As the 3D models of all virtual areas in each scene are stored in the memory, when a user moves in the same virtual scene, the virtual role corresponding to the user can be instantly transmitted to the appointed position, the transmission efficiency can be improved, and the user experience can be further improved.

(2) The user can select the position to be transmitted according to the needs of the user, and the user experience can be improved.

(3) When the user manipulates the virtual character to move, the real-time image picture of the end of the position to be transmitted can be seen in the virtual door at the moving position, and the seen image picture can also change along with the movement of the virtual character, so that the user experience can be further improved.

Drawings

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

FIG. 1 is a flowchart illustrating a computer program implemented by a data processing system for spatial switching according to an embodiment of the present application;

fig. 2 is a schematic diagram illustrating linkage of a first virtual viewpoint and a second virtual viewpoint in this embodiment.

Detailed Description

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.

An embodiment of the present application provides a data processing system for spatial switching, including: a processor, a memory, and a database communicatively coupled.

The configuration file and m virtual scenes are stored in the memory, the ith virtual scene comprises ni virtual areas, and the value of i is 1-m. In an embodiment of the present application, the virtual scene may be a 3D model of a house, and the virtual area may be a 3D model of a room. In one example, there may be several office buildings or residential buildings within a set geographic area. In another example, the virtual scene may be a single building or a single house, and the embodiment of the present invention is not limited thereto as long as the virtual scene has multiple virtual areas.

Further, in this embodiment of the present application, the database stores a first data table and a second data table.

In one exemplary embodiment, the ith row of the first data table comprises (A) _i ，A _ip ），A _i And is ID of the ith virtual scene, for example, building number or building name. A. The _ip For the ID of the target virtual area p in the ith virtual scene, p ∈ (1, 2, \8230;, ni). The target virtual area p is a system-designated transfer position, i.e., each virtual scene is provided with a designated transfer position. The ID of the target virtual area p may be a room number.

In another exemplary embodiment of the present application, the ith row of the first data table includes (A) _i ，A _i1 ，A _i2 ，…，A _ini ），A _i ID, A, for the ith virtual scene _ij J is the ID of the jth virtual area in the ith virtual scene, and the value of j is 1 to ni.

In another exemplary embodiment of the present application, the ith row of the first data table comprises (A) _i ，A _ip ，A _i1 ，A _i2 ，…，A _ini ）。

The second data table stores (A) _k ，A _kq ），A _k For the ID of the set target virtual scene, A _kq Is A _k The target virtual region q in (1, 2, \8230;, m), q ∈ (1, 2, \8230;, nk), wherein A is a _k The target virtual area q in (b) is provided with a first virtual door and a first virtual viewpoint. The set target virtual scene is a transmission scene designated by the system. The first virtual door may be an existing transfer door, and the first virtual viewpoint may be a virtual camera disposed opposite the first virtual door to capture an image within the target virtual area.

The processor is also communicatively coupled to a display device of a user. The data processing system for space switching provided by the embodiment of the application is installed on the display device of the user, and the user can log in the system by using the corresponding user name and the corresponding password.

Further, in an embodiment of the present application, when it is detected that the user enters the system, the processor is configured to execute the computer program to implement the steps shown in fig. 1:

s1, generating an initial roaming area on a display device corresponding to the user based on the configuration file, wherein a virtual role and a second virtual viewpoint corresponding to the user, a second virtual door and an operation area are arranged in the initial roaming area.

In an embodiment of the present application, the initial roaming area may be a virtual scene having at least one room. The initial roaming area of presentation is the same for each user entering the system. In the initial state, the virtual character is located at the set initial position, the first virtual door is also located at the set initial position, and the user can control the virtual character to roam in the initial roaming area. In one example, each user's virtual role may be a system-specific role, i.e., the virtual roles of all users are the same. In another example, the user may customize the avatar according to preferences, such as the skin and clothing of the avatar.

In the embodiment of the present application, the second virtual gate may also be an existing transfer gate structure, except that an image can be displayed. The second virtual viewpoint may be a virtual camera, which is a third person who always follows the virtual character, called the viewpoint, i.e., the eyes of the virtual character, for taking an image seen by the virtual character to present the seen picture on the display device of the user. The first virtual door, the first virtual viewpoint, the second virtual door, and the second virtual viewpoint constitute a transfer door assembly, and the first virtual door and the second virtual door constitute a data transfer passage.

In the present embodiment, the operation region may be disposed at a side portion of the second virtual door, for example, at an upper left portion. The operation area is provided with a plurality of buttons and a display interface, a user can control the virtual character operation buttons to select the position needing to be transmitted, and the display interface is used for displaying a scene list.

In addition, a search bar can be arranged on the operation area, and the user can control the virtual character to search for a position to be transmitted in the search bar instead of being transmitted to a position specified by the system, so that the user experience can be improved. When the user selects the virtual area of the virtual scene needing to enter, the image of the virtual area of the corresponding virtual scene is displayed on the second virtual door, so that the user can know the condition of the transmitted position, and the user experience is good.

And S2, when detecting that the virtual character selects a virtual area j in a virtual scene i needing to enter through the operation area, moving the first virtual door and the first virtual viewpoint into the virtual area j in the virtual scene i.

And S3, acquiring a second relative position between the second virtual viewpoint and the second virtual door, and adjusting the position of the first virtual viewpoint based on the acquired second relative position, so that the first relative position between the first virtual viewpoint and the first virtual door is equal to the second relative position.

In the embodiment of the present application, the relative position includes a relative distance D between the virtual viewpoint and the geometric center O of the corresponding virtual door and an included angle α between a line connecting the virtual viewpoint and the geometric center O of the corresponding virtual door and a normal L passing through the geometric center O of the corresponding virtual door, as shown in fig. 2.

Further, when the projected coordinates of the virtual viewpoint and the vertical center line of the corresponding virtual door in the horizontal direction satisfy condition 1, the relative angle between the virtual viewpoint and the corresponding virtual door is 0 °; when the coordinates of the virtual viewpoint and the geometric center O of the corresponding virtual door projected in the horizontal direction satisfy condition 2, the relative angle between the virtual viewpoint and the corresponding virtual door is 180 °. Wherein, condition 1 is: y = y ⁰ ，x＞x ⁰ (ii) a x and y are respectively the abscissa and ordinate of the virtual viewpoint projected in the horizontal direction, x ⁰ And y ⁰ Respectively as the abscissa and ordinate of the projection of the geometric center O of the virtual door in the horizontal direction; the condition 2 is: y = y ⁰ ，x＜x ⁰ 。

Further, in the embodiment of the present invention, the reference coordinate system where the second virtual door and the first virtual door are located is the same, for example, the reference coordinate system may be constructed by using the geometric center of the virtual door as the origin of coordinates. As shown in fig. 2, in the reference coordinate system constructed with the geometric center of the virtual door as the origin of coordinates, the relative distance D between the virtual viewpoint and the geometric center of the corresponding virtual door satisfies:

and an included angle alpha between a connecting line between the virtual viewpoint and the geometric center O of the corresponding virtual door and a normal line passing through the geometric center of the corresponding virtual door satisfies: α = arcsin

And x, y and z are coordinates of the virtual viewpoint on an x-axis, a y-axis and a z-axis in the reference coordinate system, respectively.

In a specific implementation, the first relative position and the second relative position may be the same by controlling the spatial coordinates of the first virtual viewpoint and the second virtual viewpoint to be the same. Specifically, S3 may include:

s301, respectively acquiring the position coordinates (x) of the second virtual viewpoint in the second reference coordinate system ₂ ，y ₂ ，z ₂ ) And the position coordinates (x) of the first virtual viewpoint in the first reference coordinate system ₁ ，y ₁ ，z ₁ ) (ii) a The first reference coordinate system is a coordinate system which is constructed by taking the geometric center of the first virtual door as the origin of coordinates, and the second reference coordinate system is a coordinate system which is constructed by taking the geometric center of the second virtual door as the origin of coordinates;

s302, if (x) ₂ ，y ₂ ，z ₂ ) And (x) ₁ ，y ₁ ，z ₁ ) If not, the first virtual viewpoint is controlled to move to the position corresponding to (x) ₂ ，y ₂ ，z ₂ ) At the location of (a).

The S3 has the technical effect that the relative angle between the first virtual viewpoint and the first virtual door can be ensured to be the same as the relative angle between the second virtual viewpoint and the second virtual door, so that the image displayed by the second virtual door changes in real time along with the movement of the virtual character, and the user experience is improved. It should be noted that, in the embodiment of the present application, the real-time change refers to a change time that is less than a set time, for example, a time that can be perceived by human eyes, for example, a frame. For example, at time t1, it is detected that the virtual character moves such that α 2=50 °, and at time t2, the first virtual viewpoint is controlled to move to the specified position such that α 1=50 °, and t2-t1 < 1 frame.

And S4, displaying the image about the virtual area j acquired from the first virtual viewpoint on the second virtual door.

In the embodiment of the present application, the image displayed on the second virtual door does not include the first virtual door, and the method of not displaying the first virtual door may be a related art. For example, the label of the first virtual viewpoint may be set to be a first label, the label of the first virtual door may be set to be a second label, and the first label is not equal to the second label, so that the image taken at the first virtual viewpoint may not include the first virtual door.

In this embodiment, the second virtual door includes a front surface and a back surface, the front surface is a surface facing a user, the front surface is used for displaying an image about the virtual area j acquired from the first virtual viewpoint, and the back surface is not used for displaying the image. In this way, the user will not see any image when it is detected that the avatar has moved to the back of the second virtual door.

Further, in the embodiment of the present application, a first collision body is disposed on the virtual character, and a second collision body is disposed on the second virtual door; the collision body may be of an existing structure.

The processor is further configured to execute the computer program to implement the steps of:

and S5, when the first collision body and the second collision body are detected to collide, controlling the virtual character to move into the virtual area j of the virtual scene i instantly.

Upon detecting a collision of the first collision volume and the third collision volume, indicating that the virtual character is to exit the current region, the processor controls the virtual character to move instantaneously into the initial roaming region, i.e., to return to the initial position.

Further, in another embodiment of the present application, the processor is further configured to execute the computer program to implement the following steps:

and displaying the image about the target virtual area q acquired from the first virtual viewpoint on the second virtual door when the fact that the virtual character roams to the second virtual door is detected and the virtual character operation area is not detected within the set time.

In the embodiment of the present application, if it is detected that the avatar has roamed to the second virtual door and the operating area of the avatar is not detected within the set time, it indicates that the avatar is desired to be transferred but the user has not custom-selected the location to be transferred, and therefore, the system transfers the avatar to the location designated by the system, i.e. a _k And displaying an image about the target virtual area q acquired from the first virtual viewpoint on the second virtual door.

In this embodiment, the first virtual viewpoint changes with the second virtual viewpoint, and the relative angle between the first virtual viewpoint and the first virtual door is the same as the relative angle between the second virtual viewpoint and the second virtual door, and the specific implementation is the same as in the foregoing embodiment.

Further, in another embodiment of the present application, the processor is further configured to execute the computer program to implement the following steps:

and when detecting that the virtual character controls the second virtual door to move through the operation area, controlling the second virtual door to move to the position designated by the virtual character.

Specifically, the user can also manipulate the avatar to change the location of the second virtual door, i.e., the second virtual door can be moved to the user-specified location.

Further, in another embodiment of the present application, the processor is further configured to execute the computer program to implement the following steps:

when detecting that the virtual character selects a virtual scene i needing to enter through the operation area, moving the first virtual door and the first virtual viewpoint into a target virtual area p of the virtual scene i, and displaying an image, which is acquired by the first virtual viewpoint and is about the target virtual area p, on the second virtual door.

In the embodiment of the application, when the user selects the virtual scene needing to enter but does not select the corresponding virtual area, the image of the target virtual area of the corresponding virtual scene is displayed on the second virtual door.

In this embodiment, S4 described above is replaced with:

and displaying the image about the target virtual area p acquired from the first virtual viewpoint on the second virtual door.

In the embodiment of the application, when the user selects the virtual scene needing to enter, the real-time image picture of the target virtual area of the corresponding virtual scene is displayed on the second virtual door, so that the user can know the condition of the transmitted position, and the user experience is good.

Although some specific embodiments of the present application have been described in detail by way of illustration, it should be understood by those skilled in the art that the above illustration is only for purposes of illustration and is not intended to limit the scope of the present application. It will also be appreciated by those skilled in the art that various modifications may be made to the embodiments without departing from the scope and spirit of the present application. The scope of the disclosure of the present application is defined by the appended claims.

Claims (10)

1. A spatially switched data processing system, the system comprising: the system comprises a processor, a memory and a database which are in communication connection, wherein a configuration file and m virtual scenes are stored in the memory, the ith virtual scene comprises ni virtual areas, and the value of i is 1-m; the database stores a first data table and a second data table, the ith row of the first data table comprises (A) _i ，A _i1 ，A _i2 ，…，A _ini ），A _i Is ID of the ith virtual scene, A _ij Setting j as the ID of the jth virtual area in the ith virtual scene, wherein the value of j is 1 to ni; the second data table stores (A) _k ，A _kq ），A _k For the ID of the set target virtual scene, A _kq Is A _k The target virtual region q in (1), k ∈ (1, 2, \8230;, m), and q ∈ (1, 2, \8230;, nk), wherein A _k The target virtual area q in (1) is provided with a first virtual door and a first virtual viewpoint;

upon detecting a user entering the system, the processor is configured to execute the computer program to perform the steps of:

s1, generating an initial roaming area on a display device corresponding to the user based on the configuration file, wherein a virtual role and a second virtual viewpoint corresponding to the user, a second virtual door and an operation area are arranged in the initial roaming area;

s2, when detecting that the virtual character selects a virtual area j in a virtual scene i needing to enter through an operation area, moving a first virtual door and a first virtual viewpoint into the virtual area j in the virtual scene i;

s3, acquiring a second relative position between the second virtual viewpoint and the second virtual door, and adjusting the position of the first virtual viewpoint based on the acquired second relative position, so that the first relative position between the first virtual viewpoint and the first virtual door is equal to the second relative position;

and S4, displaying the image about the virtual area j acquired from the first virtual viewpoint on the second virtual door.

2. The system of claim 1,

a first collision body is arranged on the virtual character, and a second collision body is arranged on the second virtual door;

the processor is further configured to execute the computer program to implement the steps of:

upon detecting a collision of a first collision volume and a second collision volume, controlling the virtual character to transiently move into a virtual area j of the virtual scene i.

3. The system of claim 1, wherein the relative position comprises a relative distance between the virtual viewpoint and a geometric center of the corresponding virtual door and an angle between a line drawn between the virtual viewpoint and the geometric center of the corresponding virtual door and a normal line passing through the geometric center of the corresponding virtual door.

4. The system according to claim 3, wherein when the coordinates of the virtual viewpoint and the vertical center line of the corresponding virtual door projected in the horizontal direction satisfy condition 1, the relative angle between the virtual viewpoint and the corresponding virtual door is 0 °;

when the projected coordinates of the virtual viewpoint and the vertical center line of the corresponding virtual door in the horizontal direction satisfy condition 2, the relative angle between the virtual viewpoint and the corresponding virtual door is 180 °;

wherein, condition 1 is: y = y ⁰ ，x＞x ⁰ (ii) a x and y are respectively the abscissa and ordinate of the projection of the virtual viewpoint in the horizontal direction, x ⁰ And y ⁰ Respectively an abscissa and an ordinate of the projection of the geometric center of the virtual door in the horizontal direction;

the condition 2 is: y = y ⁰ ，x＜x ⁰ 。

5. The system of claim 1, wherein the first virtual viewpoint and the second virtual viewpoint are in the same coordinate system.

6. The system of claim 5, wherein the coordinate origin of the coordinate system in which the first virtual viewpoint and the second virtual viewpoint are located is the geometric center of the corresponding virtual door.

7. The system of claim 6, wherein S20 further comprises:

s201, respectively acquiring the position coordinates (x) of the second virtual viewpoint in the second reference coordinate system ₂ ，y ₂ ，z ₂ ) And the position coordinates (x) of the first virtual viewpoint in the first reference coordinate system ₁ ，y ₁ ，z ₁ ) (ii) a The first reference coordinate system is a coordinate system constructed by taking the geometric center of the first virtual door as a coordinate origin, and the second reference coordinate system is a coordinate system constructed by taking the geometric center of the second virtual door as a coordinate origin;

s202, if (x) ₂ ，y ₂ ，z ₂ ) And (x) ₁ ，y ₁ ，z ₁ ) If not, the first virtual viewpoint is controlled to move to the position corresponding to (x) ₂ ，y ₂ ，z ₂ ) At the location of (a).

8. The system of claim 1, wherein the second virtual door comprises a front side and a back side, the front side is a user-facing side, and the front side is used for displaying an image acquired from the first virtual viewpoint about the virtual area j.

9. The system of claim 1, wherein the processor is further configured to execute the computer program to perform the steps of:

and when the fact that the virtual character roams to the second virtual door is detected and the virtual character operation area is not detected within the set time, displaying the image, which is acquired from the first virtual viewpoint and is about the target virtual area q, on the second virtual door.

10. The system of claim 2, wherein a third collision volume is disposed on the first virtual door;

the processor is further configured to execute the computer program to implement the steps of:

controlling the virtual character to transiently move into the initial roaming area upon detecting the first collision volume and the third collision volume.

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