CN105516704A - Naked eye 3D all-in-one machine system and display method based on Android - Google Patents

Abstract

The invention discloses a naked eye 3D all-in-one machine system and a display method based on an Android, the system comprises a power supply board, an Android embedded board and a naked eye 3D display screen; the power supply board supplies power to the Android embedded board and the naked eye 3D display screen. The Android embedded board is used for processing naked eye 3D content signals; the processed signals are transmitted to the naked eye 3D display screen fordisplaying. According to the naked eye 3D all-in-one machine system and display method based on the Android of the invention, automatic full screen play display and all-in-one power supply control are realized; the cost is reduced; and the operation is simple and convenient.

Description

Based on bore hole 3D integrated machine system and the display packing of Android

Technical field

The present invention relates to bore hole 3D Display Technique field, be specifically related to a kind of bore hole 3D integrated machine system based on Android and display packing.

Background technology

Along with the development of bore hole 3D technology, on market, the product of bore hole 3D is more and more with application, current large scale bore hole 3D advertisement machine on the market all adopts the pc mode of Windows to carry out signal transacting and broadcasting, but the cost of signal processing module is high at present, and the operation easier of user is large.Therefore, a kind of cost of eager needs is low, the processing scheme of bore hole 3D signal easy and simple to handle.

Summary of the invention

Instant invention overcomes the deficiencies in the prior art, a kind of bore hole 3D integrated machine system based on Android and display packing are provided, for solving existing pc mode, signal transacting and the technical problem that broadcasting cost is high, user operation difficulty is large being carried out to bore hole 3D content.

Consider the problems referred to above of prior art, according to an aspect disclosed by the invention, the present invention by the following technical solutions:

A kind of bore hole 3D integrated machine system based on Android, it comprises power panel, Android embedded board and bore hole 3D display screen, described power panel is that described Android embedded board and bore hole 3D display screen are powered, described Android embedded board is used for the process of bore hole 3D content signal, and the Signal transmissions after process shows to bore hole 3D display screen.

In order to realize the present invention better, further technical scheme is:

According to one embodiment of the invention, the input interface of described Android embedded board comprises SD card interface, USB interface, network interface, WiFi module.

According to another embodiment of the invention, the output interface of described Android embedded board adopts LVDS interface.

According to another embodiment of the invention, described Android embedded board is by Real-Time Monitoring and read SD card and obtain bore hole 3D content, thus realizes bore hole 3D all-in-one plug-in card or the function of automatic played in full screen of starting shooting.

According to another embodiment of the invention, the buffer after process is exported to bore hole 3D display screen by LVDS by described Android embedded board.

According to another embodiment of the invention, the bore hole 3D rendering after the synthesis that described bore hole 3D display screen reception Android embedded board transmits, and carry out point-to-point display.

The present invention can also be:

Based on the method that the bore hole 3D of Android shows, it comprises:

I) android system initialization;

II) android system detection SD card;

III) read bore hole 3D content in SD card;

IV) described bore hole 3D content is decoded;

V) buffer that obtains of decoding carries out the RGB permutatation of bore hole 3D;

VI) the bore hole 3D composograph after process is input to bore hole 3D display screen and shows.

According to another embodiment of the invention, step II) in android system Real-Time Monitoring whether have SD card to insert, if there is SD card to insert, the bore hole 3D content under reading SD card root, otherwise continuation is monitored.

According to another embodiment of the invention, described step IV) in hard decoder is carried out to bore hole 3D content, the yuv data that obtains of decoding carries out hard YUV and turns RGB.

According to another embodiment of the invention, described V) in, by IV) in the RGB data that obtains carries out component, amplification, RGB retake row bore hole 3D algorithm; Described component is that the bore hole 3D picture of splicing is divided into the independent little disparity map of each viewpoint; Described amplification is the resolution little disparity map obtained being enlarged into target; Described RGB permutatation is according to bore hole 3D permutation table, is sampled by the disparity map of each viewpoint, obtains a bore hole 3D composograph consistent with target resolution; If the upper left corner is the origin of coordinates, must be worth in the bore hole 3D permutation table of coordinate (x, y) position for N, bore hole 3D composograph correspondence (x, y) pixel value of position is M, and anaglyph is stored in V [] image array, then M tries to achieve as follows:

M=V [floor (N)] * (1-N+floor (N))+V [floor (N)-1] * (N-floor (N)), wherein floor is downward bracket function.

Compared with prior art, one of beneficial effect of the present invention is:

A kind of bore hole 3D integrated machine system based on Android of the present invention and display packing, achieve the Energy control of the display of automatic played in full screen and integration, reduce cost, easy and simple to handle.

Accompanying drawing explanation

In order to clearer explanation present specification embodiment or technical scheme of the prior art, below the accompanying drawing used required in the description to embodiment or prior art is briefly described, apparently, the accompanying drawing that the following describes is only the reference to some embodiments in present specification, for those skilled in the art, when not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 shows according to an embodiment of the invention based on the bore hole 3D integrated machine system schematic diagram of Android.

Fig. 2 shows according to an embodiment of the invention based on the bore hole 3D all-in-one schematic flow sheet of Android.

Embodiment

Below in conjunction with embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

In order to adopt the PC of the shortcomings such as cost is high, complicated operation, poor stability when replacing current bore hole 3D signal transacting, the present invention proposes a set of bore hole 3D integrated machine system scheme based on Android, the signal transacting of native system is completed by Android embedded board, specified place:

A kind of bore hole 3D integrated machine system based on Android, it comprises power panel, Android embedded board and bore hole 3D display screen, described power panel is that described Android embedded board and bore hole 3D display screen are powered, the integrated power supply achieving bore hole 3D integrated machine system controls, described Android embedded board is used for the process of bore hole 3D content signal, and the Signal transmissions after process shows to bore hole 3D display screen.

Android embedded board replaces original PC to carry out the signal transacting of bore hole 3D by the present invention, replace original bore hole 3D advertisement machine image card to complete the some screen of bore hole 3D display screen simultaneously, and then this Android embedded board is integrated in bore hole 3D advertisement machine forms bore hole 3D all-in-one.

Embodiment 1

Fig. 1 is the bore hole 3D integrated machine system block schematic illustration based on Android.Be described in detail for the signal transmission mode between the function of this each part of framework and each several part below:

Power panel, this module primary responsibility is powered to Android embedded board and bore hole 3D display screen, thus realizes the power supply integrative control of all-in-one.

Android embedded board, this module input interface comprises SD card interface, USB interface, network interface, WiFi module, and output interface is LVDS interface mainly; Android embedded board is by Real-Time Monitoring and read SD card and obtain bore hole 3D content, thus realizes bore hole 3D all-in-one plug-in card or the function of automatic played in full screen of starting shooting; Buffer after process is exported to bore hole 3D display screen by LVDS by Android embedded board.

Bore hole 3D display screen, the bore hole 3D rendering after the synthesis that the embedded board of this module primary recipient Android transmits, and point-to-pointly to show, thus make user experience bore hole 3D effect.

Embodiment 2

Fig. 2 is the bore hole 3D integrated machine system schematic flow sheet based on Android.Be described in detail mainly for the signal transacting after the energising of Android embedded board below:

The first step, android system initialization.

Second step, android system detects SD card.

3rd step, reads bore hole 3D content in SD card.

4th step, decodes the bore hole 3D content of the 3rd step.

5th step, the buffer obtained decoding in the 4th step carries out the RGB permutatation of bore hole 3D.

6th step, is input to bore hole 3D display screen by the bore hole 3D composograph after process and shows.

In embodiments of the invention two, second step comprises, and whether android system Real-Time Monitoring has SD card to insert, if there is SD card to insert, reads the bore hole 3D content under SD card root, otherwise continues monitoring.

In embodiments of the invention two, the 4th step comprises, and carries out hard decoder to bore hole 3D content, and decoding yuv data out carries out hard YUV and turns RGB.

In embodiments of the invention two, the 5th step comprises, and the RGB data obtained is carried out component, amplification, RGB retake the bore hole 3D algorithms such as row in the 4th step.Component, is divided into the independent little disparity map of each viewpoint by the bore hole 3D picture of splicing exactly; Amplify, exactly the little disparity map obtained is enlarged into the resolution of target; RGB permutatation, according to bore hole 3D permutation table, samples the disparity map of each viewpoint, finally obtains a bore hole 3D composograph consistent with target resolution.If the upper left corner is the origin of coordinates, must be worth in the bore hole 3D permutation table of coordinate (x, y) position for N, bore hole 3D composograph correspondence (x, y) pixel value of position is M, and anaglyph is stored in V [] image array, then M tries to achieve as follows:

M=V [floor (N)] * (1-N+floor (N))+V [floor (N)-1] * (N-floor (N)), wherein floor is downward bracket function.

In this specification, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiment, identical similar portion cross-reference between each embodiment.

Spoken of in this manual " embodiment ", " another embodiment ", " embodiment ", etc., refer to the specific features, structure or the feature that describe in conjunction with this embodiment and be included at least one embodiment of the application's generality description.Multiple place occurs that statement of the same race is not necessarily refer to same embodiment in the description.Furthermore, when describing specific features, structure or a feature in conjunction with any embodiment, what advocate is also fall within the scope of the invention to realize this feature, structure or feature in conjunction with other embodiments.

Although with reference to multiple explanatory embodiment of the present invention, invention has been described here, but, should be appreciated that, those skilled in the art can design a lot of other amendment and execution mode, these amendments and execution mode will drop within spirit disclosed in the present application and spirit.More particularly, in the scope of and claim open in the application, multiple modification and improvement can be carried out to the building block of subject combination layout and/or layout.Except the modification of carrying out building block and/or layout is with except improvement, to those skilled in the art, other purposes also will be obvious.

Claims (10)

1. the bore hole 3D integrated machine system based on Android, it is characterized in that it comprises power panel, Android embedded board and bore hole 3D display screen, described power panel is that described Android embedded board and bore hole 3D display screen are powered, described Android embedded board is used for the process of bore hole 3D content signal, and the Signal transmissions after process shows to bore hole 3D display screen.

2. the bore hole 3D integrated machine system based on Android according to claim 1, is characterized in that the input interface of described Android embedded board comprises SD card interface, USB interface, network interface, WiFi module.

3. the bore hole 3D integrated machine system based on Android according to claim 2, is characterized in that the output interface of described Android embedded board adopts LVDS interface.

4. the bore hole 3D integrated machine system based on Android according to claim 3, it is characterized in that described Android embedded board is read SD card obtained bore hole 3D content by Real-Time Monitoring, thus realize bore hole 3D all-in-one plug-in card or the function of automatic played in full screen of starting shooting.

5. the bore hole 3D integrated machine system based on Android according to claim 4, is characterized in that the buffer after process is exported to bore hole 3D display screen by LVDS by described Android embedded board.

6. the bore hole 3D integrated machine system based on Android according to claim 1, is characterized in that the bore hole 3D rendering after the synthesis that described bore hole 3D display screen reception Android embedded board transmits, and carries out point-to-point display.

7., based on the method that the bore hole 3D of Android shows, it is characterized in that it comprises:

I) android system initialization;

II) android system detection SD card;

III) read bore hole 3D content in SD card;

IV) described bore hole 3D content is decoded;

V) buffer that obtains of decoding carries out the RGB permutatation of bore hole 3D;

VI) the bore hole 3D composograph after process is input to bore hole 3D display screen and shows.

8. the method that shows of the bore hole 3D based on Android according to claim 7, it is characterized in that step II) in android system Real-Time Monitoring whether have SD card to insert, if there is SD card to insert, reads the bore hole 3D content under SD card root, otherwise continue monitoring.

9. the method that shows of the bore hole 3D based on Android according to claim 7, is characterized in that described step IV) in hard decoder is carried out to bore hole 3D content, the yuv data that obtains of decoding carries out hard YUV and turns RGB.

10. the method that shows of the bore hole 3D based on Android according to claim 7, is characterized in that described V) in, by IV) in the RGB data that obtains carries out component, amplification, RGB retake row bore hole 3D algorithm; Described component is that the bore hole 3D picture of splicing is divided into the independent little disparity map of each viewpoint; Described amplification is the resolution little disparity map obtained being enlarged into target; Described RGB permutatation is according to bore hole 3D permutation table, is sampled by the disparity map of each viewpoint, obtains a bore hole 3D composograph consistent with target resolution; If the upper left corner is the origin of coordinates, must be worth in the bore hole 3D permutation table of coordinate (x, y) position for N, bore hole 3D composograph correspondence (x, y) pixel value of position is M, and anaglyph is stored in V [] image array, then M tries to achieve as follows:

M=V [floor (N)] * (1-N+floor (N))+V [floor (N)-1] * (N-floor (N)), wherein floor is downward bracket function.