CN104883550B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The invention discloses a kind of information processing method, applied to an electronic equipment, the electronic equipment includes M projection module, the electronic equipment can project M sub- line holographic projections images by the M projection module in M sub-spaces view field, the line holographic projections image is shown in the space projection region, and the line holographic projections image distribution, at least two planes, methods described includes：Detection obtains the first operation that the first operating body is carried out；Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；Determine N number of projection module in the M projection module corresponding with the N number of subspace projection region；Based on the described first operation, the Current projection parameter of N number of projection module is arranged to second projective parameter different from first projective parameter from the first projective parameter.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, more particularly to a kind of information processing method and electronic equipment.

Background technology

With the continuous development of scientific technology, shadow casting technique is more and more appeared in the life of people, such as：It is holographic Shadow casting technique, using interference and the principle of diffraction, record and the real 3-D view of reconstructed object, line holographic projections technology not only may be used To produce three-dimensional aerial mirage phantom, mirage phantom and performing artist can also be made interactive on the same stage, greatly improve stage effect.

In the prior art, by single projecting cell and line holographic projections film by image projection in three dimensions, adjusting When the brightness of whole line holographic projections image or color, user can only adjust brightness or the color of overall line holographic projections image, Such as：User needs to lighten the head projected image in human projection's image, can only all lighten human projection's image, The head projected image after corresponding lighten can be obtained.

It is as follows to have found that prior art is present during technical scheme in realizing the embodiment of the present application by present inventor Technical problem：

Because in the prior art, user can only adjust overall holography when adjusting line holographic projections brightness of image or color The brightness of projected image or color, certain part for leading to not according to the actual needs, adjust in line holographic projections image are holographic The brightness of projected image or color, it is seen then that there is electronic equipment in the prior art to be adjusted holographic according to user's needs The brightness of partial perspective view picture or the technical problem of color in projected image.

The content of the invention

The embodiment of the present application provides a kind of information processing method and electronic equipment, and for solving, there is electricity in the prior art Sub- equipment can not adjust the brightness of partial perspective view picture in line holographic projections image or the technology of color asked according to user's needs Topic, and then realize that electronic equipment according to user's needs, adjusts the brightness of part projected image or color in line holographic projections image Technique effect.

On the one hand, the application provides a kind of information processing method, and applied in electronic equipment, the electronic equipment includes M Individual projection module, the electronic equipment can project M by the M projection module in M sub-spaces view field Sub- line holographic projections image, wherein, M is the integer more than or equal to 2, and the M sub-spaces view field forms a space projection area Domain, the M sub- line holographic projections images form a line holographic projections image, and the line holographic projections image is shown in the space projection In region, and the line holographic projections image distribution, at least two planes, methods described specifically includes：Detection obtains the first behaviour Make the first operation of body progress；Based on the described first operation, from the M sub-spaces view field, N number of subspace is determined View field；Determine N number of projection module in the M projection module corresponding with the N number of subspace projection region, N For the positive integer less than or equal to M；Based on the described first operation, the Current projection parameter of N number of projection module is thrown from first Shadow parameter is arranged to second projective parameter different from first projective parameter.

Optionally, the detection obtains the first operation that the first operating body is carried out, and specifically includes：Obtain first operation First movement locus of body；Based on first movement locus, first operation is obtained.

Optionally, first movement locus for obtaining first operating body, is specifically included：Control the electronic equipment Positioning unit the first positioning light is gone out with a predetermined angle real time emission；Detection in real time obtains the first positioning light by institute State the second positioning light after the reflection of the first operating body；Based on the described first positioning light and the described second positioning light, it is determined that Go out at least one first distance；Based at least one first distance, the predetermined angle, first operating body is oriented At least one first position；Based at least one first position, the first movement locus of first operating body is obtained, Wherein, first movement locus is a line or a point.

Optionally, based on the described first operation, from the M sub-spaces view field, N number of subspace projection is determined Region, specifically include：Determine the type of gesture of first movement locus；Show the first motion rail in the type of gesture Mark is when forming the first type of gesture of a closed area, and first fortune is determined from the M sub-spaces view field The K sub-spaces view field that dynamic rail mark passes through；Using the K sub-spaces view field as borderline region, determine described N number of Subspace projection region, wherein, N number of subspace projection region includes the K sub-spaces view field；Or in the rail Mark type shows that first movement locus is when forming not the second type of gesture of closed area, is thrown from the M sub-spaces N number of subspace projection region that first movement locus passes through is determined in the domain of shadow zone.

Optionally, it is described based on the described first operation, the Current projection parameter of N number of projection module is projected from first Parameter is arranged to second projective parameter different from first projective parameter, specifically includes：Determine the behaviour of first operation Make type；When it is specially brightness adjustment operation that the action type, which shows first operation, by N number of projection module Current projection brightness is arranged to second projection brightness different from first projection brightness from the first projection brightness；Or described Action type show it is described first operation be specially color adjustment operation when, by the Current projection color of N number of projection module Second additive color different from first additive color is arranged to from the first additive color.

On the other hand, the application provides a kind of electronic equipment, including：M projection module, pass through the M projection module M sub- line holographic projections images are projected in M sub-spaces view field, wherein, M is the integer more than or equal to 2, and the M is individual Subspace projection region forms a space projection region, and the M sub- line holographic projections images form a line holographic projections image, described Line holographic projections image is shown in the space projection region, and the line holographic projections image distribution is at least two planes； Detection unit, for detecting the first operation for obtaining the first operating body and carrying out；Processor, it is connected with the detection unit；For： Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；Determine and institute N number of projection module in the M projection module corresponding to N number of subspace projection region is stated, N is the positive integer less than or equal to M； Based on the described first operation, the Current projection parameter of N number of projection module is arranged to and described the from the first projective parameter The second different projective parameter of one projective parameter.

Optionally, the detection unit, is specifically used for：Obtain the first movement locus of first operating body；Based on institute The first movement locus is stated, obtains first operation.

Optionally, when the electronic equipment also includes positioning unit, the detection unit is specifically used for：Control the electricity The positioning unit of sub- equipment goes out the first positioning light with a predetermined angle real time emission；Detection in real time obtains the first positioning light Second after line is reflected by first operating body positions light；Based on the described first positioning light and the described second positioning light Line, determine at least one first distance；Based at least one first distance, the predetermined angle, described the is oriented At least one first position of one operating body；Based at least one first position, the first of first operating body is obtained Movement locus, wherein, first movement locus is a line or a point.

Optionally, the processor, is specifically used for：Determine the type of gesture of first movement locus；The track class Type shows that first movement locus is when forming the first type of gesture of a closed area, from the M sub-spaces projected area The K sub-spaces view field that first movement locus passes through is determined in domain；Using the K sub-spaces view field as side Battery limit (BL) domain, N number of subspace projection region is determined, wherein, it is empty that N number of subspace projection region includes described K son Between view field；Or show that first movement locus is the second type of gesture to form not closed area in the type of gesture When, N number of subspace projection area that first movement locus passes through is determined from the M sub-spaces view field Domain.

Optionally, the processor, is specifically used for：Determine the action type of first operation；In the action type Show it is described first operation be specially brightness adjustment operation when, by the Current projection brightness of N number of projection module from first throw Shadow brightness is arranged to second projection brightness different from first projection brightness；Or the action type shows first behaviour Make be specially color adjustment operation when, by the Current projection color of N number of projection module from the first additive color be arranged to The second different additive color of first additive color.

Said one or multiple technical schemes in the embodiment of the present application, at least there are following one or more technique effects And advantage：

Due to the technical scheme in the embodiment of the present application, when adjusting line holographic projections brightness of image or color, adjustment is holographic The brightness of part view field in projection or color, compared to prior art, it can effectively solve the problem that in the prior art and exist The brightness of partial perspective view picture in line holographic projections image or the skill of color can not be adjusted according to user's needs by electronic equipment Art problem, and then realize electronic equipment according to user's needs, adjust in line holographic projections image the brightness of part projected image or The technique effect of color.

Brief description of the drawings

Fig. 1 is a kind of flow chart of information processing method in the embodiment of the present application；

Fig. 2 is the specific implementation flow chart of step S101 in a kind of information processing method of the embodiment of the present application；

Fig. 3 is the specific implementation flow chart of step S201 in a kind of information processing method of the embodiment of the present application；

Fig. 4 is the specific implementation flow chart of step S102 in a kind of information processing method of the embodiment of the present application；

Fig. 5 is the specific implementation flow chart of step S104 in a kind of information processing method of the embodiment of the present application；

Fig. 6 is the structure chart of a kind of electronic equipment in the embodiment of the present application.

Embodiment

The embodiment of the present application provides a kind of information processing method and electronic equipment, and for solving, there is electricity in the prior art Sub- equipment can not adjust the brightness of partial perspective view picture in line holographic projections image or the technology of color asked according to user's needs Topic, and then realize that electronic equipment according to user's needs, adjusts the brightness of part projected image or color in line holographic projections image Technique effect.

Technical scheme in the embodiment of the present application is the above-mentioned technical problem of solution, and general thought is as follows：At a kind of information Reason method, applied in electronic equipment, the electronic equipment includes M projection module, and the electronic equipment can pass through the M Individual projection module projects M sub- line holographic projections images in M sub-spaces view field, wherein, M is whole more than or equal to 2 Number, the M sub-spaces view field form a space projection region, and the M sub- line holographic projections image compositions one are holographic to be thrown Shadow image, the line holographic projections image are shown in the space projection region, and the line holographic projections image distribution is at least In two planes, methods described specifically includes：Detection obtains the first operation that the first operating body is carried out；Based on the described first behaviour Make, from the M sub-spaces view field, determine N number of subspace projection region；Determine to throw with N number of subspace N number of projection module in the M projection module corresponding to the domain of shadow zone, N are the positive integer less than or equal to M；Based on described first Operation, the Current projection parameter of N number of projection module is arranged to first projective parameter not from the first projective parameter The second same projective parameter.

It is bright in adjustment line holographic projections image due to the technical scheme in the embodiment of the present application in above-mentioned technical scheme When degree or color, the brightness of the part view field in adjustment line holographic projections or color, can be effective compared to prior art Solving in the prior art can not be according to user's needs there is electronic equipment, the partial perspective view picture in adjustment line holographic projections image Brightness or color technical problem, and then realize electronic equipment according to user's needs, adjust part in line holographic projections image The brightness of projected image or the technique effect of color.

In order to be better understood from above-mentioned technical proposal, below by accompanying drawing and specific embodiment to technical solution of the present invention It is described in detail, it should be understood that the specific features in the embodiment of the present invention and embodiment are to the detailed of technical solution of the present invention Thin explanation, rather than the restriction to technical solution of the present invention, in the case where not conflicting, the embodiment of the present invention and embodiment In technical characteristic can be mutually combined.

Electronic equipment in the embodiment of the present application specifically can with smart mobile phone, can also tablet personal computer etc., the application is to this It is not construed as limiting.

Embodiment one

In order to allow those skilled in the art to understand the technical scheme intactly understood in the embodiment of the present application, below Specific descriptions in, will by electronic equipment be smart mobile phone exemplified by illustrate, with reference to example, introduce the embodiment of the present application The specific implementation process of middle method：

Fig. 1 is refer to, the specific implementation process that embodiments herein one provides a kind of information processing method is described. This method is applied to an electronic equipment, and the electronic equipment includes M projection module, and the electronic equipment can pass through the M Individual projection module projects M sub- line holographic projections images in M sub-spaces view field, wherein, M is whole more than or equal to 2 Number, the M sub-spaces view field form a space projection region, and the M sub- line holographic projections image compositions one are holographic to be thrown Shadow image, the line holographic projections image are shown in the space projection region, and the line holographic projections image distribution is at least In two planes, methods described specifically comprises the following steps：

S101：Detection obtains the first operation that the first operating body is carried out；

S102：Based on the described first operation, from the M sub-spaces view field, N number of subspace projection area is determined Domain；

S103：Determine N number of projective module in the M projection module corresponding with the N number of subspace projection region Block, N are the positive integer less than or equal to M；

S104：Based on the described first operation, the Current projection parameter of N number of projection module is set from the first projective parameter It is set to second projective parameter different from first projective parameter.

Further, Fig. 2 is refer to, during step S101 is implemented, is specifically included：

S201：Obtain the first movement locus of first operating body；

S202：Based on first movement locus, first operation is obtained.

Further, Fig. 3 is refer to, during step S201 is implemented, is specifically included：

S301：The positioning unit of the electronic equipment is controlled to go out the first positioning light with a predetermined angle real time emission；

S302：Detection in real time obtains the second positioning light after the first positioning light is reflected by first operating body Line；

S303：Based on the described first positioning light and the described second positioning light, at least one first distance is determined；

S304：Based at least one first distance, the predetermined angle, first operating body is oriented at least One first position；

S305：Based at least one first position, the first movement locus of first operating body is obtained, wherein, First movement locus is a line or a point.

Further, Fig. 4 is refer to, during step S102 is implemented, is specifically included：

S401：Determine the type of gesture of first movement locus；

S402：Show that first movement locus is the first type of gesture to form a closed area in the type of gesture When, the K sub-spaces view field that first movement locus passes through is determined from the M sub-spaces view field；

S403：Using the K sub-spaces view field as borderline region, N number of subspace projection region is determined, its In, N number of subspace projection region includes the K sub-spaces view field；Or

S404：Show that first movement locus is the second type of gesture to form not closed area in the type of gesture When, N number of subspace projection area that first movement locus passes through is determined from the M sub-spaces view field Domain.

Further, Fig. 5 is refer to, during step S104 is implemented, is specifically included：

S501：Determine the action type of first operation；

S502：When it is specially brightness adjustment operation that the action type, which shows first operation, by N number of projection The Current projection brightness of module is arranged to second projection brightness different from first projection brightness from the first projection brightness；Or When it is specially color adjustment operation that the action type, which shows first operation, by the current throwing of N number of projection module Shadow color is arranged to second additive color different from first additive color from the first additive color.

Below by specific example, the specific implementation process of information processing method in the embodiment of the present application is described：

User projects a holographic facial image by mobile phone, and the facial image is projected jointly by 5 projection modules Complete, each projection module in this 5 projection modules is projected out a corresponding space projection region, such as：Will Holographic facial image is divided into 5 parts, is respectively：Center section, include the nose in holographic facial image；The first half Point, include the forehead in holographic facial image；The latter half, include the face in holographic facial image；Left-half, include Left ear in holographic facial image；Right half part, include the auris dextra of holographic facial image；The holographic facial image is exactly by this This 5 parts form.Now, user needs to adjust the projection brightness of the nasal portion in holographic facial image, and mobile phone will perform Step S101：Detection obtains the first operation that the first operating body is carried out；Specifically, user can click on holographic face with finger Nose on image, certainly, it is made up of due to hologram image the light projected, so now finger is only at nose portion In the projection ray divided.Now, mobile phone will specifically perform step S201：Obtain the first movement locus of first operating body； Specifically, mobile phone positions the finger of user according to infrared camera, specifically upon execution, step S301 is first carried out：Control The positioning unit of the electronic equipment goes out the first positioning light with a predetermined angle real time emission；Continue the example above and specifically come Say, infrared camera first is using the angle of emergence as 30 degree of infrared lights outwards launched, and certain specific launch angle can be according to reality Border situation specifically determines, is not construed as limiting herein.

After step S301 completions, step S302 is performed：Detection in real time obtains the first positioning light by described the The second positioning light after the reflection of one operating body；Continue the example above specifically, when infrared light runs into the finger of user When, reflected by finger, mobile phone can detect the infrared light being reflected back by finger.

After step S302 completions, step S303 is performed：Based on the described first positioning light and the described second positioning light Line, determine at least one first distance；Continue the example above specifically, when launching infrared light, infrared light is penetrated Position when going out, can accurately be obtained by mobile phone, this position can be the coordinate of a plane such as：(0,0)；When mobile phone connects After the reflection light for receiving this infrared light, position when receiving the infrared light, certainly, this position can be oriented Can also be a coordinate such as：(3,4)；More specifically, such as the determination of the origin of coordinates, can be determined by technical staff, It can be determined by the algorithm of mobile phone self-operating, be not construed as limiting herein.After the two coordinates are obtained, mobile phone also just obtains Obtained infrared light transmitting when and receive when, between specific distance, it is clear that distance between the two is 5cm.

After step S303 completions, step S304 is performed：Based at least one first distance, the preset angle Degree, orient at least one first position of first operating body；Continue the example above specifically, obtaining apart from it Afterwards, according to 30 degree of predetermined angle before, can be easily obtained using trigonometric function relation, infrared light is running into operation Apart from mobile phone it is 0.42cm during body, or infrared light, when running into operating body, the Exit positions distance apart from infrared light is 0.83cm。

After step S304 completions, step S305 is performed：Based at least one first position, described first is obtained First movement locus of operating body, wherein, first movement locus is a line or a point.Continue the example above specific For, because operating body can be motion, at any one moment of detection operating body, mobile phone can pass through above-mentioned side Formula is obtained in the position of current time operating body, and afterwards, the processor in mobile phone is counted these positional informations, is finally obtained Obtained the continuous movement locus of operating body.

After step S305 completions, step S202 is performed：Based on first movement locus, first behaviour is obtained Make；Specifically, mobile phone can finally determine type of gesture according to the movement locus of the operation of acquisition.Now mobile phone will be specific Perform step S401：Determine the type of gesture of first movement locus；More specifically type of gesture can be divided into open Either closed, open to specifically refer to, movement locus is a line, and the both ends of line are all independent, i.e., both ends are not attached to；Envelope Enclosed specifically refers to, and movement locus is the connected line in a both ends, and this line has crossed the region of a closing.

After step S401 completions, step S402 is performed：Show that first movement locus is in the type of gesture When forming the first type of gesture of a closed area, the first motion rail is determined from the M sub-spaces view field The K sub-spaces view field that mark passes through；Continue the example above specifically, when the type of gesture determined is enclosed During track, judge which view field the region that this track is formed contains, as this region contains only holographic people Nasal portion in face image, i.e., in this 5 view fields, it is determined that center section, this view field.

After step S402 is completed, step S403 is performed：Using the K sub-spaces view field as borderline region, it is determined that Go out N number of subspace projection region, wherein, N number of subspace projection region includes the K sub-spaces view field； Continue the example above specifically, due to a view field is only determined, then the subspace region obviously finally determined, It is exactly the center section in holographic facial image, that is, includes the view field of nasal portion.

Certainly, it is if type of gesture is not enclosed, i.e., open, then mobile phone will perform step S404：Institute State type of gesture and show that first movement locus is when forming not the second type of gesture of closed area, from described M son sky Between N number of subspace projection region that first movement locus passes through is determined in view field.Continue the example above Specifically, when type of gesture is not close, directly detect which view field this track have passed through, such as：Now user Finger right half part may be partially moved to from centre, then mobile phone is directly determined corresponding to center section and right half part View field.

After either step S404 is completed in step S403, step S103 is performed：Determine to throw with N number of subspace N number of projection module in the M projection module corresponding to the domain of shadow zone, N are the positive integer less than or equal to M；The example continued the above Son specifically, because 5 projection modules in projecting holographic facial image are to cast 5 view fields respectively, such as exists In above-mentioned steps, determine that user wants operation is center section, then mobile phone is by according to projection module and view field Corresponding relation, determine that the projection module that now mobile phone needs to control is exactly the projection module for projecting center section.

After step S103 completions, step S501 is performed：Determine the action type of first operation；Continue the above Specifically, the first operation can control the display parameters of image to example, such as：The brightness of image is adjusted, adjusts image Colorfulness etc..The mode of determination can also have many kinds, for example, can directly detect the first operation be by user left hand also It is that the right hand generates, if left-handed operation, the brightness of image is exactly controlled, if right hand operation is exactly to control image Colorfulness, certainly, those skilled in the art can be set according to actual conditions, not limited specifically herein.

After step S501 completions, step S502 is performed：Show that first operation is specially in the action type During brightness adjustment operation, the Current projection brightness of N number of projection module is arranged to and described first from the first projection brightness The second different projection brightness of projection brightness；Or show that first operation is specially color adjustment operation in the action type When, the Current projection color of N number of projection module is arranged to different from first additive color from the first additive color The second additive color.Continue the example above specifically, if user wants the bright of regulation line holographic projections image by operating When spending, corresponding projection module will directly adjust the brightness of the light itself projected, and such user need not adjust whole Line holographic projections image, and a part in these line holographic projections images is simply adjusted, it is easy to operate, and more hommization； Certainly, if mobile phone detects that user needs to adjust the colorfulness of line holographic projections image, mobile phone is direct according to the operation of user Projection module corresponding to regulation, the light for projecting projection module changes into the color of user's needs, equally just for local throwing Shadow part, user need not adjust the color-values of whole line holographic projections images, so significantly increase the interaction body of user Test.

By the above method, user more can flexibly adjust the topography in line holographic projections image brightness or It is colorfulness, certainly, is also not limited to this, those skilled in the art can set according to actual conditions, so, user and holography The interaction of projection will be more interesting.

Embodiment two

It refer to Fig. 6, in the embodiment of the present application, a kind of electronic equipment also provided based on same inventive concept, including：

M projection module 10, M son holography is projected in M sub-spaces view field by the M projection module Projected image, wherein, M is the integer more than or equal to 2, and the M sub-spaces view field forms a space projection region, described M sub- line holographic projections images form a line holographic projections image, and the line holographic projections image is shown in the space projection region, And the line holographic projections image distribution is at least two planes；

Detection unit 20, for detecting the first operation for obtaining the first operating body and carrying out；

Processor 30, it is connected with the detection unit；For：

Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；

N number of projection module in the M projection module corresponding with the N number of subspace projection region is determined, N is Positive integer less than or equal to M；

Based on the described first operation, the Current projection parameter of N number of projection module is arranged to from the first projective parameter Second projective parameter different from first projective parameter.

Optionally, detection unit 20, it is specifically used for：

Obtain the first movement locus of first operating body；

Based on first movement locus, first operation is obtained.

Optionally, when the electronic equipment also includes positioning unit, detection unit 20 is specifically used for：

The positioning unit is controlled to go out the first positioning light with a predetermined angle real time emission；

Detection in real time obtains the second positioning light after the first positioning light is reflected by first operating body；

Based on the described first positioning light and the described second positioning light, at least one first distance is determined；

Based at least one first distance, the predetermined angle, at least one of first operating body is oriented First position；

Based at least one first position, the first movement locus of first operating body is obtained, wherein, described the One movement locus is a line or a point.

Optionally, processor 30, it is specifically used for：

Determine the type of gesture of first movement locus；

When it is to form the first type of gesture of a closed area that the type of gesture, which shows first movement locus, from The K sub-spaces view field that first movement locus passes through is determined in the M sub-spaces view field；

Using the K sub-spaces view field as borderline region, N number of subspace projection region is determined, wherein, institute State N number of subspace projection region and include the K sub-spaces view field；Or

When it is to form not the second type of gesture of closed area that the type of gesture, which shows first movement locus, from N number of subspace projection region that first movement locus passes through is determined in the M sub-spaces view field.

Optionally, processor 30, it is specifically used for：

Determine the action type of first operation；

When it is specially brightness adjustment operation that the action type, which shows first operation, by N number of projection module Current projection brightness be arranged to second projection brightness different from first projection brightness from the first projection brightness；Or

When it is specially color adjustment operation that the action type, which shows first operation, by N number of projection module Current projection color be arranged to second additive color different from first additive color from the first additive color.

Because above-mentioned electronic equipment and a kind of foregoing information processing method correspond, so just no longer superfluous herein State.

Pass through one or more of the embodiment of the present application technical scheme, it is possible to achieve following one or more technology effects Fruit：

Due to the technical scheme in the embodiment of the present application, when adjusting line holographic projections brightness of image or color, adjustment is holographic The brightness of part view field in projection or color, compared to prior art, it can effectively solve the problem that in the prior art and exist The brightness of partial perspective view picture in line holographic projections image or the skill of color can not be adjusted according to user's needs by electronic equipment Art problem, and then realize electronic equipment according to user's needs, adjust in line holographic projections image the brightness of part projected image or The technique effect of color.

It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program Product.Therefore, the present invention can use the reality in terms of complete hardware embodiment, complete software embodiment or combination software and hardware Apply the form of example.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more The computer program production that usable storage medium is implemented on (including but is not limited to magnetic disk storage, CD-ROM, optical memory etc.) The form of product.

The present invention is the flow with reference to method according to embodiments of the present invention, equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.

These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or The function of being specified in multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in individual square frame or multiple square frames.

Specifically, computer program instructions corresponding to a kind of information processing method in the embodiment of the present application can be deposited Storage is in the storage mediums such as CD, hard disk, USB flash disk, when computer journey corresponding with a kind of information processing method in storage medium When sequence instruction is read or is performed by an electronic equipment, comprise the following steps：

Detection obtains the first operation that the first operating body is carried out；

Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；

N number of projection module in the M projection module corresponding with the N number of subspace projection region is determined, N is Positive integer less than or equal to M；

Based on the described first operation, the Current projection parameter of N number of projection module is arranged to from the first projective parameter Second projective parameter different from first projective parameter.

Optionally, stored in the storage medium and step：Detection obtains the first operation that the first operating body is carried out, right The computer instruction answered specifically comprises the following steps during specific be performed：

Obtain the first movement locus of first operating body；

Based on first movement locus, first operation is obtained.

Optionally, stored in the storage medium and step：The first movement locus of first operating body is obtained, it is right The computer instruction answered specifically comprises the following steps during specific be performed：

The positioning unit of the electronic equipment is controlled to go out the first positioning light with a predetermined angle real time emission；

Detection in real time obtains the second positioning light after the first positioning light is reflected by first operating body；

Based on the described first positioning light and the described second positioning light, at least one first distance is determined；

Based at least one first distance, the predetermined angle, at least one of first operating body is oriented First position；

Based at least one first position, the first movement locus of first operating body is obtained, wherein, described the One movement locus is a line or a point.

Optionally, stored in the storage medium and step：Based on the described first operation, thrown from the M sub-spaces In the domain of shadow zone, N number of subspace projection region is determined, corresponding computer instruction specifically includes during specific be performed Following steps：

Determine the type of gesture of first movement locus；

When it is to form the first type of gesture of a closed area that the type of gesture, which shows first movement locus, from The K sub-spaces view field that first movement locus passes through is determined in the M sub-spaces view field；

Using the K sub-spaces view field as borderline region, N number of subspace projection region is determined, wherein, institute State N number of subspace projection region and include the K sub-spaces view field；Or

When it is to form not the second type of gesture of closed area that the type of gesture, which shows first movement locus, from N number of subspace projection region that first movement locus passes through is determined in the M sub-spaces view field.

Optionally, stored in the storage medium and step：Based on the described first operation, by N number of projection module Current projection parameter be arranged to second projective parameter different from first projective parameter from the first projective parameter, it is corresponding Computer instruction specifically comprises the following steps during specific be performed：

Determine the action type of first operation；

When it is specially brightness adjustment operation that the action type, which shows first operation, by N number of projection module Current projection brightness be arranged to second projection brightness different from first projection brightness from the first projection brightness；Or

When it is specially color adjustment operation that the action type, which shows first operation, by N number of projection module Current projection color be arranged to second additive color different from first additive color from the first additive color.

Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creation Property concept, then can make other change and modification to these embodiments.So appended claims be intended to be construed to include it is excellent Select embodiment and fall into having altered and changing for the scope of the invention.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims (6)

1. a kind of information processing method, applied to an electronic equipment, the electronic equipment includes M projection module, the electronics Equipment can project M sub- line holographic projections images by the M projection module in M sub-spaces view field, wherein, M is the integer more than or equal to 2, and the M sub-spaces view field forms a space projection region, the M sub- line holographic projections Image forms a line holographic projections image, and the line holographic projections image is shown in the space projection region, and the holographic throwing In at least two planes, methods described specifically includes shadow image distribution：

Detection obtains the first operation that the first operating body is carried out；

Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；

Determine N number of projection module in the M projection module corresponding with the N number of subspace projection region, N be less than Positive integer equal to M；

Based on the described first operation, the Current projection parameter of N number of projection module is arranged to and institute from the first projective parameter State the second different projective parameter of the first projective parameter；

Wherein, detection obtains the first operation that the first operating body is carried out, and specifically includes：

Obtain the first movement locus of first operating body；

Based on first movement locus, first operation is obtained；

Wherein, based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined, Including：

Determine the type of gesture of first movement locus；

When it is to form the first type of gesture of a closed area that the type of gesture, which shows first movement locus, from described The K sub-spaces view field that first movement locus passes through is determined in M sub-spaces view field；

Using the K sub-spaces view field as borderline region, N number of subspace projection region is determined, wherein, the N Sub-spaces view field includes the K sub-spaces view field；Or

When it is to form not the second type of gesture of closed area that the type of gesture, which shows first movement locus, from described N number of subspace projection region that first movement locus passes through is determined in M sub-spaces view field.

2. the method as described in claim 1, it is characterised in that first movement locus for obtaining first operating body, Specifically include：

The positioning unit of the electronic equipment is controlled to go out the first positioning light with a predetermined angle real time emission；

Detection in real time obtains the second positioning light after the first positioning light is reflected by first operating body；

Based on the described first positioning light and the described second positioning light, at least one first distance is determined；

Based at least one first distance, the predetermined angle, at least one the first of first operating body is oriented Position；

Based at least one first position, the first movement locus of first operating body is obtained, wherein, first fortune Dynamic rail mark is a line or a point.

3. the method as described in claim 1, it is characterised in that it is described based on the described first operation, by N number of projection module Current projection parameter be arranged to second projective parameter different from first projective parameter from the first projective parameter, specific bag Include：

Determine the action type of first operation；

When it is specially brightness adjustment operation that the action type, which shows first operation, by working as N number of projection module Front projection brightness is arranged to second projection brightness different from first projection brightness from the first projection brightness；Or

When it is specially color adjustment operation that the action type, which shows first operation, by working as N number of projection module Front projection color is arranged to second additive color different from first additive color from the first additive color.

4. a kind of electronic equipment, including：

M projection module, M sub- line holographic projections figures are projected in M sub-spaces view field by the M projection module Picture, wherein, M is the integer more than or equal to 2, and the M sub-spaces view field forms a space projection region, the M son Line holographic projections image forms a line holographic projections image, and the line holographic projections image is shown in the space projection region, and institute Line holographic projections image distribution is stated at least two planes；

Detection unit, for detecting the first operation for obtaining the first operating body and carrying out；

Processor, it is connected with the detection unit；For：

Based on the described first operation, from the M sub-spaces view field, N number of subspace projection region is determined；

Determine N number of projection module in the M projection module corresponding with the N number of subspace projection region, N be less than Positive integer equal to M；

Based on the described first operation, the Current projection parameter of N number of projection module is arranged to and institute from the first projective parameter State the second different projective parameter of the first projective parameter；

Wherein, the detection unit, is specifically used for：

Obtain the first movement locus of first operating body；

Based on first movement locus, first operation is obtained；

Wherein, the processor is used to, based on the described first operation, from the M sub-spaces view field, determine N number of son Space projection region, including：

Determine the type of gesture of first movement locus；

When it is to form the first type of gesture of a closed area that the type of gesture, which shows first movement locus, from described The K sub-spaces view field that first movement locus passes through is determined in M sub-spaces view field；

Using the K sub-spaces view field as borderline region, N number of subspace projection region is determined, wherein, the N Sub-spaces view field includes the K sub-spaces view field；Or

When it is to form not the second type of gesture of closed area that the type of gesture, which shows first movement locus, from described N number of subspace projection region that first movement locus passes through is determined in M sub-spaces view field.

5. electronic equipment as claimed in claim 4, it is characterised in that when the electronic equipment also includes positioning unit, institute Detection unit is stated to be specifically used for：

The positioning unit is controlled to go out the first positioning light with a predetermined angle real time emission；

Detection in real time obtains the second positioning light after the first positioning light is reflected by first operating body；

Based on the described first positioning light and the described second positioning light, at least one first distance is determined；

Based at least one first distance, the predetermined angle, at least one the first of first operating body is oriented Position；

Based at least one first position, the first movement locus of first operating body is obtained, wherein, first fortune Dynamic rail mark is a line or a point.

6. electronic equipment as claimed in claim 4, it is characterised in that the processor is specifically used for：

Determine the action type of first operation；

When it is specially brightness adjustment operation that the action type, which shows first operation, by working as N number of projection module Front projection brightness is arranged to second projection brightness different from first projection brightness from the first projection brightness；Or

When it is specially color adjustment operation that the action type, which shows first operation, by working as N number of projection module Front projection color is arranged to second additive color different from first additive color from the first additive color.