CN114125418A - Holographic tourist service center and implementation method thereof - Google Patents

Abstract

The invention relates to the field of holographic graphic display, in particular to a holographic tourist service center and an implementation method thereof. The holographic image acquisition device, the holographic image generation device, the omnibearing running equipment and the behavior capturing sensor are all connected with the cloud data processing center through the wireless transmission module, and the holographic image acquisition device is used for acquiring images of scenic spots. According to the action of the character, the data of the advancing direction, the speed, the displacement, the visual angle height and the like of the character in the scene are calculated, the holographic image acquisition device is calculated to adjust the focal length and the focal point, the picture in the reconstructed scene moves along with the character, meanwhile, the reconstructed moving scene picture is transmitted to the holographic image generation device in real time, the holographic image generation device takes the omnibearing running equipment as a central point to carry out holographic projection on the scenic spot image reconstructed in real time, and the aim that a user is placed in the real-time scene of each scenic spot in the scenic area in a fixed scene and can achieve scene conversion and visual angle switching along with the movement of footsteps is achieved.

Description

Holographic tourist service center and implementation method thereof

Technical Field

The invention relates to the field of holographic graphic display, in particular to a holographic tourist service center and an implementation method thereof.

Background

At present, most of domestic scenic spot visitor service centers have single functions and cannot well guide the visitors, and meanwhile, propaganda materials of the tourist centers mainly comprise paper pictures, characters and shot propaganda films and cannot visually display the actual conditions of the current scenic spots.

Meanwhile, most tourists cannot browse the whole scenic spot due to time, but cannot select own intended scenic spots well according to the existing scenic spot information, so that the actual situation of each scenic spot needs to be subjected to real-time scene virtualization, and the tourists can switch corresponding scenic spots to select at the service center.

Disclosure of Invention

The invention aims to provide a holographic tourist service center and an implementation method thereof, and solves the problem of restoring a real scene through holographic imaging.

The technical scheme for solving the technical problems is as follows: the utility model provides a holographic visitor service center of holographic visitor service center, includes holographic image collection system, cloud data processing center, holographic image generation device, all-round running device and action and catches the sensor, holographic image collection system, holographic image generation device, all-round running device and action catch the sensor all through wireless transmission module with cloud data processing center connects, holographic image collection system is used for gathering the sight spot image.

Furthermore, the holographic image acquisition device comprises a variable-focus camera and an image processing device, the image processing device processes images shot by the variable-focus camera, and the image processing device and the cloud data processing center are connected with the cloud data processing center through a wireless transmission module.

Furthermore, the open type scenic spot is provided with five variable focal length cameras, the five variable focal length cameras are distributed on the vertex of a regular octagon, and the five variable focal length cameras are respectively arranged at the vertex positions which are continuously arranged.

Furthermore, eight variable focal length cameras are arranged on the fixed building or the surrounding scenic spots, the eight variable focal length cameras are distributed on the vertex of the regular octagon, and the eight variable focal length cameras are respectively arranged on the vertex of the regular octagon.

Further, all-round running equipment includes main body frame, treater and a plurality of full angle rotation module, and is a plurality of full angle rotation module becomes the matrix arrangement setting and is in inside the main body frame, every be provided with the sensing module on the full angle rotation module, the treater with full angle rotation module signal connection, the sensing module with treater signal connection.

The technical scheme for solving the technical problems is as follows: a method for realizing a holographic tourist service center comprises the following steps:

the method comprises the steps that a holographic image acquisition device acquires physical image information of a scenic spot;

the image processing device converts the physical image information into digital image information and sends the digital image information to the cloud data processing center;

the omnibearing running equipment collects the travelling speed information and the travelling direction information of personnel and sends the information to the cloud data processing center;

and the cloud data processing center processes the digital image information, the traveling speed information and the traveling direction information to form display image information and sends the display image information to the holographic image generation device.

Further, behavior capture sensors collect behavior data of personnel on the omnibearing running equipment and send the behavior data to a cloud data processing center;

further, the open type scenery spot holographic image acquisition device acquires physical image information within a range of 180 degrees on one side.

Further, the holographic image acquisition device for the fixed buildings or the surrounding scenic spots acquires physical image information within a 360-degree torus range.

The invention provides a holographic tourist service center of a holographic tourist service center, which comprises a holographic image acquisition device, a cloud data processing center, a holographic image generation device, an all-dimensional running device and a behavior capture sensor, wherein the holographic image acquisition device, the holographic image generation device, the all-dimensional running device and the behavior capture sensor are all connected with the cloud data processing center through wireless transmission modules, and the holographic image acquisition device is used for acquiring images of scenic spots.

In this way, the target scene is collected and deployed through the holographic image collecting devices, each holographic image collecting device sends the image collected by the set focus and focal length parameters to the cloud data processing center, the image collected by the holographic image collecting device is reconstructed in the cloud data processing center, the current shooting scene is restored, and the default position of the figure is placed in the current shooting center; the behavior data of the person is sent to the cloud data processing center through the behavior capturing sensor, and the cloud data processing center can obtain the behavior data according to the traveling speed information, the traveling direction information and the behavior data of the omnibearing running machine, reconstructing the character and placing in the reconstructed shooting picture, calculating the advancing direction, speed, displacement, visual angle height and other data of the character in the scene according to the action of the character, calculating the adjustment of focal length and focus of the holographic image acquisition device, realizing the movement of the picture along with the character in the reconstructed scene, meanwhile, the reconstructed moving scene picture is transmitted to the holographic image generation device in real time, and the holographic image generation device holographically projects the scenic spot image reconstructed in real time by taking the omnibearing running equipment as a central point, so that the user can be placed in the real-time scene of each scenic spot in a fixed scene, and the scene change and the visual angle switching can be realized along with the movement of footsteps.

The invention provides a method for realizing a holographic tourist service center, which comprises the following steps:

the method comprises the steps that a holographic image acquisition device acquires physical image information of a scenic spot;

the image processing device converts the physical image information into digital image information and sends the digital image information to the cloud data processing center;

the omnibearing running equipment collects the travelling speed information and the travelling direction information of personnel and sends the information to the cloud data processing center;

and the cloud data processing center processes the digital image information, the traveling speed information and the traveling direction information to form display image information and sends the display image information to the holographic image generation device.

In this way, the holographic image acquisition device sends the image acquired by the set focal point and focal length parameters to the cloud data processing center, reconstructs the image acquired by the holographic image acquisition device in the cloud data processing center to convert the image into digital image information, restores the current shooting scene, and places the default position of the figure in the current shooting center; the cloud data processing center reconstructs a person and places the person in a reconstructed shooting picture according to the traveling speed information, the traveling direction information and the behavior data of the omnibearing running machine, calculates the advancing direction, the speed, the displacement and other data of the person in the scene according to the action of the person, calculates the adjustment of the focal length and the focal point of the holographic image acquisition device, realizes the movement of the picture in the reconstructed scene along with the person, simultaneously transmits the reconstructed moving scene picture to the holographic image generation device in real time, and the holographic image generation device holographically projects the scenic spot image reconstructed by real-time movement by taking the omnibearing running equipment as a central point, so that a user can realize the real-time scene of each scenic spot in a fixed scene and realize the transformation of the scene and the switching of the visual angle along with the movement of the steps.

Drawings

FIG. 1 is a schematic view of an overall structure of a holographic tourist service center according to the present invention;

FIG. 2 is a schematic view of an arrangement of an open type scenic spot holographic image acquisition device of a holographic tourist service center according to the present invention;

FIG. 3 is a schematic view of a holographic image acquisition device for a fixed building or surrounding scenic spots of a holographic tourist service center according to the present invention;

fig. 4 is a schematic flow chart of a method for implementing a holographic tourist service center according to the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "center", "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 3, the present invention provides a holographic tourist service center, which includes a holographic image collecting device, a cloud data processing center, a holographic image generating device, an omnidirectional running device, and a behavior capturing sensor, wherein the holographic image collecting device, the holographic image generating device, the omnidirectional running device, and the behavior capturing sensor are all connected to the cloud data processing center through a wireless transmission module, and the holographic image collecting device is used for collecting images of scenic spots.

In this way, the target scene is collected and deployed through the holographic image collecting devices, each holographic image collecting device sends the image collected by the set focus and focal length parameters to the cloud data processing center, the image collected by the holographic image collecting device is reconstructed in the cloud data processing center, the current shooting scene is restored, and the default position of the figure is placed in the current shooting center; the behavior data of the person is sent to the cloud data processing center through the behavior capturing sensor, and the cloud data processing center can obtain the behavior data according to the traveling speed information, the traveling direction information and the behavior data of the omnibearing running machine, reconstructing the character and placing in the reconstructed shooting picture, calculating the advancing direction, speed, displacement, visual angle height and other data of the character in the scene according to the action of the character, calculating the adjustment of focal length and focus of the holographic image acquisition device, realizing the movement of the picture along with the character in the reconstructed scene, meanwhile, the reconstructed moving scene picture is transmitted to the holographic image generation device in real time, and the holographic image generation device holographically projects the scenic spot image reconstructed in real time by taking the omnibearing running equipment as a central point, so that the user can be placed in the real-time scene of each scenic spot in a fixed scene, and the scene change and the visual angle switching can be realized along with the movement of footsteps.

The points to be explained here are: the wireless transmission device can transmit the converted digital images, data, information and other contents to each plate through 5G communication, and information flow transmission is completed.

The holographic tourist service center of the present invention, as shown in fig. 1-3, may also be, based on the technical solutions described above: the holographic image acquisition device comprises a variable-focus camera and an image processing device, the image processing device processes images shot by the variable-focus camera, and the image processing device and the cloud data processing center are connected with the cloud data processing center through a wireless transmission module. Therefore, the variable-focus camera is adopted, the focal length of the variable-focus camera can be adjusted according to the instruction of the cloud processing center so as to conveniently shoot images with different depth of field at the current angle, and the digital images are sent to the cloud data processing center through the image processing device through the wireless transmission device.

The holographic tourist service center of the present invention, as shown in fig. 1-3, may also be, based on the technical solutions described above: the open type scenic spot is provided with five variable focal length cameras, wherein the five variable focal length cameras are distributed on the vertex of a regular octagon, and the five variable focal length cameras are respectively arranged on the vertex positions which are continuously distributed. Therefore, the regular octagon vertex layout is adopted, the variable-focus cameras are respectively arranged at the positions of five adjacent continuous vertices, and the five variable-focus cameras form a single-side 180-degree semi-annulus image real-time acquisition pattern.

The holographic tourist service center of the present invention, as shown in fig. 1-3, may also be, based on the technical solutions described above: the fixed building or the surrounding type scenic spot is provided with eight variable focal length cameras, the eight variable focal length cameras are distributed on the vertex of a regular octagon, and the eight variable focal length cameras are respectively arranged on the vertex of the regular octagon. Therefore, for the fixed building or the surrounding type scenic spots, the regular octagon vertex layout is adopted, each vertex position is provided with one variable-focus camera, the eight variable-focus cameras form a 360-degree semi-annular image real-time acquisition pattern, and the eight variable-focus cameras acquire image data of the fixed building or the surrounding type scenic spots to generate the holographic image of the fixed building or the surrounding type scenic spots.

The points to be explained here are: the omnibearing running equipment and the behavior capturing sensor collect the travelling speed information, the travelling direction information and the behavior data of the personnel, and the data cause the action information of the personnel in the holographic imaging to be changed in real time, so the data are also changed in a virtual fit manner relative to scenes, and the cloud data processing center adjusts the focal length of the variable-focus camera according to the travelling speed information and the travelling direction information, so that the images with different current angles and different depth of field at far and near positions can be conveniently shot.

The holographic tourist service center of the present invention, as shown in fig. 1-3, may also be, based on the technical solutions described above: all-round running equipment includes main body frame, treater and a plurality of full angle rotation module, and is a plurality of full angle rotation module becomes the matrix arrangement and sets up inside the main body frame, every be provided with the sensing module on the full angle rotation module, the treater with full angle rotation module signal connection, the sensing module with treater signal connection. Therefore, the sensing module detects the motion action information data of the experiencer, sends the information data to the processor for processing, controls the full-angle rotation module to adjust parameters after the processor analyzes and calculates, so as to match the action of the experiencer, greatly improves the use comfort level, and realizes omnidirectional walking through the adjustment of the full-angle rotation module; on the other hand, because the omnidirectional running equipment of this application has a plurality of full angle to rotate the module concatenation and form, in the service environment of difference, can carry out full angle to rotate module quantity setting to the space of can operating to match corresponding service environment, the suitability is better.

As shown in fig. 2 to 4, the present invention provides a method for implementing a holographic tourist service center, including the following steps:

the method comprises the steps that a holographic image acquisition device acquires physical image information of a scenic spot;

the image processing device converts the physical image information into digital image information and sends the digital image information to the cloud data processing center;

the omnibearing running equipment collects the travelling speed information and the travelling direction information of personnel and sends the information to the cloud data processing center;

and the cloud data processing center processes the digital image information, the traveling speed information and the traveling direction information to form display image information and sends the display image information to the holographic image generation device.

In this way, the holographic image acquisition device sends the image acquired by the set focal point and focal length parameters to the cloud data processing center, reconstructs the image acquired by the holographic image acquisition device in the cloud data processing center to convert the image into digital image information, restores the current shooting scene, and places the default position of the figure in the current shooting center; the behavior data of the person is sent to the cloud data processing center through the behavior capturing sensor, and the cloud data processing center can obtain the behavior data according to the traveling speed information, the traveling direction information and the behavior data of the omnibearing running machine, reconstructing the character and placing in the reconstructed shooting picture, calculating the advancing direction, speed, displacement, visual angle height and other data of the character in the scene according to the action of the character, calculating the adjustment of focal length and focus of the holographic image acquisition device, realizing the movement of the picture along with the character in the reconstructed scene, meanwhile, the reconstructed moving scene picture is transmitted to the holographic image generation device in real time, and the holographic image generation device holographically projects the scenic spot image reconstructed in real time by taking the omnibearing running equipment as a central point, so that the user can be placed in the real-time scene of each scenic spot in a fixed scene, and the scene change and the visual angle switching can be realized along with the movement of footsteps.

The implementation method of the holographic tourist service center of the present invention, as shown in fig. 2-4, based on the above described technical solution, may also be: the behavior capturing sensor collects behavior data of personnel on the omnibearing running equipment and sends the behavior data to the cloud data processing center; therefore, the behavior data of the person is sent to the cloud data processing center through the behavior capturing sensor, the cloud data processing center can reconstruct the person according to the traveling speed information, the traveling direction information and the behavior data of the omnibearing running machine and place the person in the reconstructed shooting picture, data such as the advancing direction, the speed, the displacement and the visual angle height of the person in the scene are calculated according to the action of the person, the holographic image acquisition device is calculated to adjust the focal length and the focal point, and the picture in the reconstructed scene moves along with the person.

The implementation method of the holographic tourist service center of the present invention, as shown in fig. 2-4, based on the above described technical solution, may also be: and acquiring physical image information within a single-side 180-degree range for the open type scenery spot holographic image acquisition device. The holographic image acquisition device for the fixed buildings or the surrounding scenic spots acquires physical image information within a 360-degree ring surface range. Therefore, the open type scenic spot is provided with five variable-focus cameras, the five variable-focus cameras are in regular octagon vertex layout, and the five variable-focus cameras are respectively arranged at vertex positions which are continuously arranged. Therefore, the regular octagon vertex layout is adopted, the variable-focus cameras are respectively arranged at the positions of five adjacent continuous vertices, and the five variable-focus cameras form a single-side 180-degree semi-annulus image real-time acquisition pattern. The fixed building or the surrounding type scenic spot is provided with eight variable focal length cameras, the eight variable focal length cameras are distributed on the vertex of a regular octagon, and the eight variable focal length cameras are respectively arranged on the vertex of the regular octagon. Therefore, for the fixed building or the surrounding type scenic spots, the regular octagon vertex layout is adopted, each vertex position is provided with one variable-focus camera, the eight variable-focus cameras form a 360-degree semi-annular image real-time acquisition pattern, and the eight variable-focus cameras acquire image data of the fixed building or the surrounding type scenic spots to generate the holographic image of the fixed building or the surrounding type scenic spots.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. A holographic guest service center, comprising: including holographic image collection device, cloud data processing center, holographic image generation device, all-round running equipment and action catch sensor, holographic image collection device, holographic image generation device, all-round running equipment and action catch sensor all through wireless transmission module with cloud data processing center connects, holographic image collection device is used for gathering the sight spot image.

2. Holographic guest service center according to claim 1, wherein: the holographic image acquisition device comprises a variable-focus camera and an image processing device, the image processing device processes images shot by the variable-focus camera, and the image processing device and the cloud data processing center are connected with the cloud data processing center through a wireless transmission module.

3. Holographic guest service center according to claim 2, wherein: the open type scenic spot is provided with five variable focal length cameras, wherein the five variable focal length cameras are distributed on the vertex of a regular octagon, and the five variable focal length cameras are respectively arranged on the vertex positions which are continuously distributed.

4. Holographic guest service center according to claim 2, wherein: the fixed building or the surrounding type scenic spot is provided with eight variable focal length cameras, the eight variable focal length cameras are distributed on the vertex of a regular octagon, and the eight variable focal length cameras are respectively arranged on the vertex of the regular octagon.

5. Holographic guest service center according to any of claims 1 to 4, wherein: all-round running equipment includes main body frame, treater and a plurality of full angle rotation module, and is a plurality of full angle rotation module becomes the matrix arrangement and sets up inside the main body frame, every be provided with the sensing module on the full angle rotation module, the treater with full angle rotation module signal connection, the sensing module with treater signal connection.

6. A method for realizing a holographic tourist service center is characterized by comprising the following steps:

the method comprises the steps that a holographic image acquisition device acquires physical image information of a scenic spot;

the image processing device converts the physical image information into digital image information and sends the digital image information to the cloud data processing center;

the omnibearing running equipment collects the travelling speed information and the travelling direction information of personnel and sends the information to the cloud data processing center;

and the cloud data processing center processes the digital image information, the traveling speed information and the traveling direction information to form display image information and sends the display image information to the holographic image generation device.

7. The holographic guest service center implementation method of claim 6, wherein: the behavior capturing sensor collects behavior data of personnel on the omnibearing running equipment and sends the behavior data to the cloud data processing center.

8. The holographic guest service center implementation method of claim 6, wherein: and acquiring physical image information within a single-side 180-degree range for the open type scenery spot holographic image acquisition device.

9. The holographic guest service center implementation method of claim 6, wherein: the holographic image acquisition device for the fixed buildings or the surrounding scenic spots acquires physical image information within a 360-degree ring surface range.

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