METHOD AND APPARATUS FOR GENERATING THREE-DIMENSIONAL IMAGE

In hereinafter, drawing with an reference to. rapidly and to reduce a memory are in the embodiment. Each drawing to be presented to the same references exhibits and the same member.

The SCPs in the embodiment describing below various modifications may be. Below describing embodiment of the physical shape in the embodiment are not to be defined, for the received all changing, affords an alternative to including water and equalization should understood.

In the embodiment only a term use in a particular embodiment, the cold air flows are used to describe the, embodiment is not intending to be defined thereby, the cold air flows. Contextually representation a plurality of differently it is apparent that without the carelessly, includes multiple representations. In the present specification, "comprising" or "having." a set of terms, such as a specification to the features, number, step, operation, components, component or a combination of these is designates the feature to which is present does, number to execute another aspect of one or more, step, operation, components, component or a combination of these existence of a without excluding the possibility or additionally pre should understood.

Other is not defined, technical or scientific for a term including all to the belonging substracte embodiment terms are upwardly urged by person with skill in the art in various technical fields equivalent to those that would have been understood have the meanings of wet liquid to flow down. Generally are defined as the dictionary used for, such as terms are on wherein the nodes refining the context of related techniques consistent semantics and having having the meanings must be interpreted to, the present application, become manifest in a do not define, excessively or is ideal for the widest sense of the formal does not interpreted.

Furthermore, reference to accompanying drawing the described, components the signals to corresponding to code drawing the same references whereby is of a local terminal is dispensed to the described. Thereby, the cold air flows in embodiment described publicly known associated with a description is the techniques embodiment it is submitted with the fact that an out-of-the first deoxygenator wall of the rectangular blur when a mobile station is determined to. omit rotating thereof.

Also Figure 1 shows a lined amount of user according to one example using general outline view a is 3-dimensional moving picture.

3 dimensional (Dimension; D) for displaying moving picture (video) device (100) of interest to the user to the user the eye (left eye) (110) (right eye) (120) and detects a position of, each on the position detected by displaying a moving picture allows a user can be is felt on the cubic effect.

For example, device (100) user's eye (110) and (120) for a corresponding receiver when using the stereo Image can be produced. Device (100) the generated 3D stereo imaging using can be Image. Device (100) a plurality of 3D Image using moving picture may display a 3D.

As another alternative, device (100) has input or the received Image are stereo images are when, using stereo images can be Image 3D. Device (100) a plurality of 3D Image using moving picture may display a 3D.

According to one aspect, device (100) the be displayed when images are obtained frame or of video, in amount of user may detect position. Device (100) user's amount when position is detected in, position and in amount detected acquired Image using stereo images can be produced. Device (100) when the stereo images are produced, detected amount and resulting position in stereo imaging using 3D. can render Image.

I.e., device (100) has only been possible if the step is performed for the before can be following steps. Such 3D Image generation method can be to the input and output.

Synchronous 3D Image generation method by chemical formula the time of a final track is accumulated. Synchronous 3D Image generation method a user when a change of position in amount of deviation rapidly displayed since not accounted for by the degradation in picture quality of a moving picture 3D may generate an over-the-. For example, quality can be dispersed arranging the X-talk.

In accordance with another aspect, device (100) not only a positive detecting a position in, and to generate a stereo images 3D asynchronous includes rendering Image can be made.

Said steps are asynchronously time-delay accumulated point a low valve lift condition to prevent. Since there is no time delay in amount of user if not exist position and prevent Image deterioration of video 3D can be.

Respect to asynchronous 3D Image generation method, also in the following also to 2. detailed reference to 7.

One also Figure 2 shows a 3-dimensional information processing device: an embodiment is configuration of.

Device (100) the 3D Image generation device (100) can be designated.

Device (100) an Image receiving unit (210), eye trail (220), stereo images generation section (230), rendering unit (240) and display unit (250) may comprise an.

Image receiving unit (210) the be displayed of video 3D. capable of receiving base Image.

For example, Image receiving unit (210) the 2D each frame of moving picture can be received as base Image. As another alternative, Image receiving unit (210) of receipt for the can be graphics 3D.

Eye trail (220) in user's amount may detect position.

Stereo images generation section (230) position and in amount user's stereo images based on base Image can be produced.

Rendering unit (240) user's amount position and in Image 3D based on stereo images can be produced.

Display unit (250) 3D Image based on the moving picture may display a 3D.

Image receiving unit (210), eye trail (220), stereo images generation section (230), rendering unit (240) and display unit (250) to, in the following also also to 3. detailed reference to 7. Also reference to 7 also to 3 the described 3D Image generation method relates to controlled.

One also: an embodiment Figure 3 shows a 3-dimensional information processing method is flow of.

Step (310) in, eye trail (220) the device (100) viewing user's eye position is detected. In hereinafter, .the inside of amount eyes.

For example, eye trail (220) the apparatus for displaying flicker visual point of user photographing can be. Eye trail (220) the captured user's Image of users to may detect eye positions.

Eye trail (220) has of a camera photographing user with maximum photographing period can be.

Eye trail (220) user's period the number 1 may detect eye positions. Number 1 for camera period can be imaging device is configured in such a maximum.

As another alternative, eye trail (220) has eyes of the user can be emitting. Eye trail (220) an eye light that is reflected from the eye positions of may detect.

Eye trail (220) is detected eyes of the user can be for storing the position.

Step (320) in, stereo images generation section (230) stores a predetermined detected eyes of the user by using the location amount in stereo imaging for respectively can be produced.

Detecting eyes of the user is the most recently stored position can be eye position.

Stereo images generation section (230) is the stored and detecting early eyes of the user can be using the location.

Stereo images generation section (230) stores a predetermined position and eyes of the user detected received stereo images by using an Image can be produced respectively.

The received Image the most recent Image can be received.

Stereo images generation section (230) detects a step for rendering Image 3D of (330) without relates to stereo images by generating a stereo images. is capable of updating.

Stereo images generation section (230) by the generation stereo Image. capable of storing.

Stereo images generation section (230) the number 2 in a period stereo images can be produced respectively.

Number 1 number 2 period and period. may be different from the user. I.e., number 1 number 2 period and can be (asynchronized) asynchronous period. Stereo images generation section (230) a player content of the operation cycle can be for conveniently. For example, when reproducing an Image stereo images generation section (230) the. only once. As another alternative, when moving, stereo images generation unit (230) has operating according to frame rate of the moving Image signal can be a. In another example, when graphics Image is displayed, stereo images generation unit (230) according to a graphics Image render rate can be a. Graphics Image includes a message or information that 3D can be Image.

According to one aspect, step (320) stereo imaging has the steps of receiving can be. Makeup again, stereo images generation section (230) the already generated. capable of receiving stereo imaging. Stereo images generation section (230) the already generated stereo Image by receiving stereo imaging can be produced.

For example, stereo images generation section (230) to generate a stereo imaging has stereo camera can be receives images. Camera a plurality can be.

Stereo images generation section (230) is already generated stereo imaging when it receives a the aforementioned number 2 period stereo Image generation section (230) are stereo pixel values can be the period for which a.

Step (330) in, rendering unit (240) stores a predetermined position and eyes of the user detected stereo imaging and previsouly generated based on at least one 3D Image.

Detecting eyes of the user is the most recently stored position can be eye position.

Already created stereo images are the most recently stored stereo imaging can be.

Rendering unit (240) the number 3 in a period 3D. can render Image. Number 3 period period and number 1 number 2 period and. may be different from the user. I.e., number 1 number 2 period and number 3 period asynchronous period and can be (asynchronized).

Step (310), step (320) and step (330) each other can be performed in parallel.

Step (320) and step (330) performed in parallel each other, and can be made, step (320) is a stereo images is not performed even if no radio-base-the updated, step (310) is performed when is updated position user's eye, step (330) can be is performed. I.e., rendering unit (240) of users detected eye position is updated at the eye position of when differently and, updated based on position eyes of the user can be Image 3D.

For example, stereo receives images or producing the binding molecules number 1 number 2 number 3 period and period when longer than period, step (320) even if not using is performed, step (310) and step (330) the be. In this case, step (330) in, rendering unit (240) receives and stores the updated position eyes of the user based on stereo images, and original movement information, and the new 3D. can render Image.

Asynchronous according to one example also Figure 4 shows a 3-dimensional information processing method is a flow of time that is performed.

Eye tracking step (410) a period of the aforementioned step (310) is performed can be period.

Eye trail (220) the apparatus for displaying flicker visual point of user photographing can be. Captured Image of users to may detect eye positions. For example, eye trail (220) the captured Image using eye tracking step (410) of E1 and E2 for treating in user's eye may detect position.

Eye trail (220) the E1 and E2 after section for treating, user's eye can be updating position. Eye trail (220) eyes of the user is detected for storing the position information of the user can be, eye positions updating. Eye trail (220) eyes of the user is detected for storing the position information of the user can be, eye positions updating.

For example, E1 processing end point of a section (411) and E2 of end point of processing section (412) to eye position is updated can be.

Stereo images generating step (420) a period of the aforementioned step (320) is performed can be period.

According to one aspect, stereo images generation section (230) continuously stereo images can be produced. Makeup again, stereo images generation section (230) the S1, S2, S3, S4 and S5 for treating section continuously while stereo images can be produced.

Stereo images generation section (230) the generated stereo images by storing the stereo images. is capable of updating.

For example, stereo images generation section (230) the E0 processing section (not shown) is updated eyes of the user by using the location S1 processing in stereo Image can be produced. S2 in processing, stereo images generation section (230) the E1 to be retransmitted because the processing section cannot run to completion, the, eyes of a user of the display existing stereo Image by using the location can be produced. S3 in processing, stereo images generation section (230) is updated through a tch processing E1 the eyes of the user by using the location stereo Image can be produced.

3D Image rendering step (430) a period of the aforementioned step (330) is performed can be period.

Rendering unit (240) determines the most recently updated eye position and most recent produced stereo images using at least one of. can render 3D Image.

According to one aspect, rendering unit (240) continuously 3D. can render Image. Makeup again, rendering unit (240) for treating the R1 to R10 3D continuously while section. can render Image.

For example, in processing R2, rendering unit (240) the E1 and S1 to be retransmitted because the has not expired for treating, by using the data of S0 and E0 3D. can render Image. R3 in processing, rendering unit (240) the E1 and S1 by using the data of 3D can be Image. R5 in processing, rendering unit (240) the E1 and S2 3D by using the data of. can render Image.

R3 processing section received as an input for eye position and stereo images because the updated, 3D that generated as a processing result in the subsequent cycle to R3 R2 Image 3D that generated as a result of the processing by Image can differ from the. 3D Image previously generated when different Image and 3D 3D can be an update Image.

3D Image is updated when display unit (250), which is outputted to Image data is changed.

Rendering unit (240) which is a synchronous loop input section for treating, detected eye position stereo imaging and resulting produced when updated at least one of a previous process section 3D Image generated in the Image can differ from the 3D. In this case, rendering unit (240) the 3D can be updating Image.

For example, R3, R5 and R8 in intervals processing, rendering unit (240) receives and stores the updated 3D based on eye position. can render Image.

Also Figure 5 shows a stereo images according to one example method is to generate a flow of.

The aforementioned step (320) has an of steps (510 and 520) may include a.

Step (510) in, stereo images generation section (230) the stored eyes of the user by using the location current, eye positions may be estimated for a..

For example, stereo images generation section (230) a plurality of detected eye position based on the current, eye positions may be estimated for a.. Stereo images generation section (230) an eye positions may generate velocity vector. Stereo images generation section (230) the current using the velocity vector, eye positions may be estimated for a.. I.e., stereo images generation section (230) a plurality times speed of a detected eye position and vector value, speed vector, eye positions by using an. may be estimated for a.

As another alternative, stereo images generation section (230) the current using Kalman filter the, eye positions may be estimated for a..

Step (520) in, stereo images generation section (230) the estimated current's eye by using the location stereo images can be produced.

Figure 6 shows a dimensional according to 3 also one example is flow of method of DVD dual layer disk.

The aforementioned step (330) stores a steps of (610 to 620) may include a.

Step (610) in, rendering unit (240) the stored eyes of the user by using the location current, eye positions may be estimated for a..

For example, rendering unit (240) a plurality of detected eye position based on the current, eye positions may be estimated for a.. Rendering unit (240) an eye position motion vector for a can be produced. Rendering unit (240) has the current using the motion vector, eye positions may be estimated for a..

Step (620) in, rendering unit (240) the estimated current's eye position and and previsouly generated 3D stereo imaging based on. can render Image.

Figure 7 shows a dimensional according to 3 one example is predicted from another method is flow of of DVD dual layer disk.

Step (710) in, Image receiving unit (210) can be that is configured to receive an Image has.

Step (710) the aforementioned steps (310,320 and 330) can be performed in parallel and.

Step (320) stores a steps of (728 to 722) may include a.

Step (722) in, stereo images generation section (230) of the Image frame received foreground may detect.

Step (724) in, stereo images generation section (230) of foreground detected can be motion vector calculation. Stereo images generation unit (230) has frames of a plurality of or Image foreground based on motion vector calculation can be.

Step (726) in, stereo images generation unit (230) has motion vector for a foreground by using an can be an estimate of a location of.

Step (728) in, stereo images generation section (230) the estimated current foreground position based on stereo images can be produced.

Method: an embodiment a variety of computer unit may be accomplished via computer-readable program instructions is embodied in the form can be recording medium. Said program instructions computer readable media, data file, data structure nor the alone or in combination may include. Said medium recorded programs in a embodiment command are designed and constructed specifically for those computer software or to enable is publicly known to one skilled in the art it is possible,. Examples of computer-readable recording medium hard disk, floppy disc and a magnetic tape such as magnetic medium (magnetic media), CD-ROM, (optical media) such an optical recording medium and a DVD, flop mote curl disk (floptical disk), such is self-optical media (magneto-optical media), and ROM (ROM), ram (RAM), flash such as memory instructions stored a program, such as a hardware specifically configured to and conducting device is included. Examples of program instructions created by compiler such as 2000 code interpreter as well as the computer use the purpose: a high-grade and executed by includes language code. Said hardware device to perform the join operation the first deoxygenator a embodiment software modules in one or more can be configured to operate as, . is similarly treated and vice versa.

The resulting structured materials, defined although are in the embodiment examples of the embodiment but is described by drawing, corresponding conventional in various technical fields of said grow having knowledge of various from and. and deformation that a modified. For example, techniques are described described a method or in an order different, and/or or passivation layer is selectively, structure, device, circuit or the like are described components of the method and other connection or or in combination, other components or equal comprising or unsubstituted is replaced by a suitable even can be result is achieved.

Therefore, other implementations, other embodiment examples and also those equivalent claim refers to glass former to the network modifier ranges of claim.

Method: an embodiment a variety of computer unit may be accomplished via computer-readable program instructions is embodied in the form can be recording medium. Said program instructions computer readable media, data file, data structure nor the alone or in combination may include. Said medium recorded programs in a embodiment command are designed and constructed specifically for those computer software or to enable is publicly known to one skilled in the art it is possible,. Examples of computer-readable recording medium hard disk, floppy disc and a magnetic tape such as magnetic medium (magnetic media), CD-ROM, (optical media) such an optical recording medium and a DVD, flop mote curl disk (floptical disk), such is self-optical media (magneto-optical media), and ROM (ROM), ram (RAM), flash such as memory instructions stored a program, such as a hardware specifically configured to and conducting device is included. Examples of program instructions created by compiler such as 2000 code interpreter as well as the computer use the purpose: a high-grade and executed by includes language code. Said hardware device to perform the join operation the first deoxygenator a embodiment software modules in one or more can be configured to operate as, . is similarly treated and vice versa.

The resulting structured materials, defined although are in the embodiment examples of the embodiment but is described by drawing, corresponding conventional in various technical fields of said grow having knowledge of various from and. and deformation that a modified. For example, techniques are described described a method or in an order different, and/or or passivation layer is selectively, structure, device, circuit or the like are described components of the method and other connection or or in combination, other components or equal comprising or unsubstituted is replaced by a suitable even can be result is achieved.