201246907 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種三維立體顯示裝置及三維立體 觀賞眼鏡,且特別是有關於一種可用以隱藏部分或全部原 始晝面的三維立體顯示裝置及三維立體觀賞眼鏡。 【先前技術】 隨著科技的日益進步’三維立體影像是繼高晝質(high definition,HD)影像後的最新發展趨勢。隨著三維立體顯 示相關產業快速地崛起,未來三維立體影片與三維立體顯 示器將可能普及到每個人的家中,甚至手機或遊戲機的顯 不螢幕也可以用三維立體的方式來呈現。 ,三維立體影像包含分職供給人類左眼及右眼觀賞 的影像,此左右眼影像在兩眼視網臈上呈現時會具有一定 視差(parallax),而在被傳導到大腦皮質後,即會由大 皮質中枢將其融合鎮有層次和景深的單—物像 人類產生立體感。 7 體旦素的考4 ’ —般建議使用者觀賞三維立 ^像的硯看時間大約為二小時,紐用者不觀 體影像或者不適應三維立體影像的顯示 顯_ 相關設備將缺少獨碰 維立體顯不 【發明内容】 種二維立體顯示裝置,藉由 有鑑於此,本發明提供一201246907 VI. Description of the Invention: [Technical Field] The present invention relates to a three-dimensional stereoscopic display device and three-dimensional stereoscopic viewing glasses, and more particularly to a three-dimensional stereoscopic display device that can hide part or all of the original kneading surface and Three-dimensional viewing glasses. [Prior Art] With the advancement of technology, three-dimensional images are the latest development trend after high definition (HD) images. With the rapid rise of 3D stereoscopic related industries, 3D stereoscopic movies and 3D stereoscopic displays will be available to everyone's homes in the future, and even the display screens of mobile phones or game consoles can be presented in a three-dimensional manner. The three-dimensional image includes images for the left eye and the right eye of the human eye. The left and right eye images have a certain parallax when presented on the two eyes, and after being transmitted to the cerebral cortex, It is a three-dimensional sense that human beings are integrated into the single-objects of the town with layers and depth of field. 7 The test of the body of the body 4 'Generally recommended that the viewing time of the three-dimensional standing image is about two hours, the new user does not view the image or does not adapt to the display of the three-dimensional image _ related equipment will lack the unique touch Dimensional stereoscopic display [invention] A two-dimensional stereoscopic display device, by which the present invention provides a
S 3 201246907 更改左右眼晝_呈現方式,可讓使用者在―般二維影像 的顯示設定下,增加三維讀齡裝置的使用情境。 本發明提供-種三維立體觀賞眼鏡,藉由左右眼鏡月 的偏光方向’可1¾藏部分或全部三維立體顯示裝置所顯示 的影像。 本發。明提出一種三維立體顯示裝置,包括一處理器以 及:,不ϋ。其中處理器依據原始晝面而產生編瑪畫面。 顯不器祕處理n ’交錯顯示原始晝面與編碼畫面以隱藏 部分或全部的原始晝面。 在本發明之一實施例中,上述之編碼晝面包括一預設 圖案。 在本發明之一實施例中,上述之預設 圖案或棋盤格圖案 在本發明之-實施例中,上述之預設圖案的大小和位 置對應於原始晝面的指定區域。 在本發明之-實施例中,上述之編碼晝面的—個或多 個像素是原始晝面的對應像素的互補色。 在本發明之—實施财,上述之顯示器依照空間位置 父錯顯示原始晝面與編碼晝面,而且原始晝面的偏光方向 和編碼晝面的偏光方向係為正交。 ㈣在ί發,—實施射,上述之_器❹奇數掃描 線為原始晝® ’並使用偶數掃描線顯示編碼晝面。 ㈣在ί發f之—實施例中,上述之顯示器使用偶數掃描 線顯不原始畫面,並使用奇數掃描線顯示編碼晝面。 201246907 ,本發明之-實施例中’上述之顯示器依照時間順序 又錯如原始晝面與編碼畫面,而且原始晝面的偏光方向 和編媽晝面的偏光方向相同。 β =㈣之-實補中,上述之三紅體顯示裝置更 ^括I射器。發射器搞接處理器,發射第一同步作號盘 信號’其中第-同步信號與第二同步信號;顯^ 時皆為致能狀態,在顯示器顯示編碼晝面 ㈣ΐ發明亦提出—種三維域觀#眼鏡,祕觀賞三維 ^體顯不裝置的顯示畫面’包括—第—鏡片以及一第二鏡 而,中二維立裝置交錯顯示原始晝面與編碼晝 丄y鏡片與第二鏡片的偏光方向皆與原始晝面的偏光 °相同’而且第-鏡片與第二鏡片的偏光方向皆正交於 編碼晝面的偏光方向。 、 在本發明之-實施例中,上述之三維立體觀f眼鏡更 匕括一接收器,用以接收第一同步信號與第二同步信號。 其中第-鏡>}的偏光方向在第—同步信號為致能狀態時與 =纽體顯林置的顯示晝面相同’在第—同步信號為禁 :狀悲時與三維立體顯示装置的顯示晝面的偏光方向正 2第二鏡片的偏光方向在該第二同步信號為致能狀態時 二顯示裝置的顯示畫面相同,在第二同步信號 狀糾與該三維立體顯示裝置的顯示晝面的偏光方 向1下·交。 基於上述,本發明所提供之三維立體顯示裝置與三維 £ 5 201246907 立體觀賞眼鏡,可讓使用者除了觀賞三維立體影像之外, 在一般二維影像的顯示設定下,增加三維立體顯示裝置的 使用情境,藉此提高三維立體顯示相關設備的獨特性與兑 價值。 少’ 為讓本發明之上述特徵和優點成更明顯易懂,下文^特 舉實施例,並配合所附圖式作詳細說明如下。 【實施方式】 圖1是依照本發明一實施例所繪示之三維立體顯示I 置的方塊圖。請參照圖1 ’三維立體顯示裝置1〇〇可為具 有線偏振光的三維立體電視、三維投影機如添加偏光片的 有機發光二極體(Organic Light Emitter Diode,OLED )投 影機或數位光學處理(Digital Light Processing,DLP)投 影機等。三維立體顯示裝置100包括處理器11〇以及顯示 器120。其功能分述如下: 處理器110可由軟體、硬體或其組合實作而得,在此 不加以限制。軟體例如是應用軟體、驅動程式或程式碼指 令等。硬體例如是中央處理單元(Central Processing Unit, CPU),或是其他可程式化之一般用途或特殊用途的微處 理器(Microprocessor)、數位訊號處理器(DigitalSignal Processor’DSP)等。處理器削可依據一原始晝面而產 生一編碼晝面。在一實施例中,編碼晝面包括馬賽克圖案 或棋盤格圖案等預設圖案,其中,預設圖案的大小和位置 對應於原始畫面的指定區域,此指定區域可為處理器 201246907 預先所設定。在另—實施例巾,編碼晝面的部分或全部像 素可為原始晝面中對應像素的互補色。 ’貝示器12〇例如是液晶顯示器(Liquid CrystalS 3 201246907 Change the left and right eyelids _ presentation mode, which allows the user to increase the usage of the 3D reading device under the display settings of the “2D image”. The present invention provides a three-dimensional stereoscopic viewing glasses in which the image displayed by some or all of the three-dimensional stereoscopic display devices can be hidden by the polarizing direction of the left and right glasses. This issue. A three-dimensional display device is proposed, which includes a processor and: The processor generates a marshalling picture according to the original picture. The display process n ‘interlaces the original page and the coded picture to hide some or all of the original picture. In an embodiment of the invention, the encoded facets comprise a predetermined pattern. In an embodiment of the invention, the predetermined pattern or the checkerboard pattern is in the embodiment of the invention, wherein the size and position of the predetermined pattern correspond to a designated area of the original facet. In an embodiment of the invention, the one or more pixels of the encoded facet described above are complementary colors of corresponding pixels of the original facet. In the present invention, the display displays the original pupil plane and the coded pupil plane according to the spatial position father error, and the polarization direction of the original pupil plane and the polarization direction of the coded pupil plane are orthogonal. (4) In the 发, -, the above-mentioned ❹ ❹ ❹ odd scan line is the original 昼 ® ' and the even scan line is used to display the coded face. (d) In the embodiment, the above display uses an even scan line to display the original picture, and uses an odd scan line to display the coded picture. 201246907, in the embodiment of the present invention, the above display is erroneously in the chronological order, such as the original face and the coded picture, and the polarization direction of the original face is the same as the polarization direction of the face. In the β = (4) - real complement, the above three red body display devices further include an emitter. The transmitter is connected to the processor, and transmits the first synchronous dial signal 'the first-synchronization signal and the second synchronization signal; the display time is the enable state, and the display shows the coded surface (4). The invention also proposes a three-dimensional domain. View #眼镜,秘看3D ^ Display device's display screen 'includes - the first lens and a second mirror, the two-dimensional vertical device interlaces the original surface and the polarized light encoding the 昼丄 y lens and the second lens The directions are the same as the polarization of the original pupil plane' and the polarization directions of the first lens and the second lens are both orthogonal to the polarization direction of the coded pupil plane. In the embodiment of the present invention, the three-dimensional stereoscopic glasses further include a receiver for receiving the first synchronization signal and the second synchronization signal. Wherein the polarization direction of the first mirror>} is the same as the display surface of the first synchrotron when the first sync signal is in an enabled state, and the first sync signal is forbidden: the sadness and the three-dimensional display device The polarization direction of the pupil plane is displayed. 2 The polarization direction of the second lens is the same as the display screen of the display device when the second synchronization signal is enabled, and the second synchronization signal is corrected to the display surface of the three-dimensional display device. The direction of polarization is 1 under the intersection. Based on the above, the three-dimensional display device and the three-dimensional £5 201246907 stereoscopic viewing glasses provided by the present invention allow the user to increase the use of the three-dimensional display device in addition to viewing the three-dimensional image, under the display setting of the general two-dimensional image. Situation, thereby improving the uniqueness and value of the three-dimensional display related equipment. The above features and advantages of the present invention will become more apparent from the following detailed description. [Embodiment] FIG. 1 is a block diagram showing a three-dimensional stereoscopic display I according to an embodiment of the invention. Please refer to FIG. 1 'The three-dimensional stereoscopic display device 1' can be a three-dimensional stereoscopic television with linearly polarized light, a three-dimensional projector such as an organic light emitting diode (OLED) projector with added polarizer or digital optical processing. (Digital Light Processing, DLP) projectors, etc. The three-dimensional stereoscopic display device 100 includes a processor 11A and a display 120. The functions are as follows: The processor 110 can be implemented by software, hardware, or a combination thereof, and is not limited herein. The software is, for example, an application software, a driver, or a code command. The hardware is, for example, a central processing unit (CPU), or other programmable general-purpose or special-purpose microprocessors, digital signal processors (DSPs), and the like. Processor shaving produces a coded face based on an original facet. In an embodiment, the coded face includes a preset pattern such as a mosaic pattern or a checkerboard pattern, wherein the size and position of the preset pattern correspond to a designated area of the original picture, and the designated area may be previously set by the processor 201246907. In another embodiment, some or all of the pixels encoding the facets may be complementary colors of corresponding pixels in the original facet. 'Beizhu 12' is, for example, a liquid crystal display (Liquid Crystal)
Display LCD)、發光二極體(Light-Emitting Diode,LED) 顯示器、場發射顯示器(Field Emissi〇n Dis卿,FED)或其 他種類的顯示H或顯示屏料。舉例來說,#三維立體顯示 裝^ 1〇〇為三維立體液晶電視時,顯示器12〇則為液晶顯 :态,而當二維立體顯示裝置100為三維投影機時,顯示 器120則為三維投影機所投影之顯示屏幕。 顯不器120耦接至處理器11〇,用以交錯顯示處理器 no所產生的原始晝面與編碼畫面以隱藏部分或全部的原 =晝面。其中’顯示器120可利用空間位置交錯顯示原始 晝面與編碼晝面,或者依照時_序交賴示原始晝面與 編碼晝面。 如圖2所不,圖2繪示為一種依照空間位置交錯顯示 晝面之示意圖。請同時參照圖1與圖2,-般而言,顯示 器120會將顯示晝面切割成左眼晝sL1與右眼晝面R1, 分別經過設計後而讓左眼畫面u、經由觀賞者的左眼接 收,右眼晝© R1經由觀賞者的右眼接收,使得具有一定 視差的左、右眼晝面透過觀賞者的大腦融合而產生立體 感。在本實施例巾,顯示器12G可使用奇數掃描線顯示原 始晝面’並制偶數掃描線㈣編碼晝面,也就是讓原始 晝面經由觀賞者的右祕收’編碼晝Φ經峨賞者的左眼 接收,反之,顯示器12〇也可使用偶數掃描線顯示原始晝Display LCD), Light-Emitting Diode (LED) display, field emission display (Field Emissi〇n Disqing, FED) or other types of display H or display material. For example, when the three-dimensional display device is a three-dimensional liquid crystal television, the display 12 is a liquid crystal display state, and when the two-dimensional display device 100 is a three-dimensional projector, the display 120 is a three-dimensional projection. The display screen projected by the machine. The display unit 120 is coupled to the processor 11A for interleaving the original page and the encoded picture generated by the processor no to hide part or all of the original surface. The display 120 can use the spatial position to alternately display the original face and the coded face, or to display the original face and the coded face in time. As shown in FIG. 2, FIG. 2 is a schematic diagram showing the interlaced display of the kneading surface according to the spatial position. Referring to FIG. 1 and FIG. 2 at the same time, in general, the display 120 cuts the display pupil into the left eye 昼sL1 and the right eye RL1, respectively, and the left eye picture u is passed through the viewer's left. The eye is received, and the right eye 昼© R1 is received through the right eye of the viewer, so that the left and right eye faces with a certain parallax are fused through the viewer's brain to create a three-dimensional feeling. In the embodiment of the present invention, the display 12G can display the original facet using an odd number of scan lines and encode the even scan line (4) to encode the face, that is, let the original face pass the viewer's right secret 'code 昼 Φ 峨 峨 的The left eye receives, otherwise, the display 12〇 can also display the original 使用 using even scan lines.
S 7 201246907 面,並使用可數掃描線顯示編瑪晝面,意即,原始晝面經 由觀賞者的左眼接收,編碼晝面經由觀賞者的右眼接收。工 上述兩種方法皆可行,可由使用者自行選定。在此需注音 的是,若三維立體顯示裳置满採用空間位置交錯^示忍 則顯示器120所顯示的原始畫面的偏光方向和編碼晝面的 偏光方向為正交。 圖3繪示為—種依照時間順序交錯顯示晝面 圖:請同時參照圖!與圖3,顯示器12()在第—時序丁; 不讓硯賞者左眼接收的左眼晝面u ’第讓 者^接收的左眼晝面L2,第四時序T4顯示讓觀賞者右 眼接收的右眼晝面R2,依此類推。在本實 將原始晝面置於左眼晝面,將編碼晝面置於右頁= 面舍反之’顯示器120可將原始晝面置於右眼晝面編 於左眼晝面’可由使用者自行選定。若三維立體 採用時間順序交錯顯示,則顯示器120所顯 不的原始晝面的偏光方向和編碼畫面的偏光方向相同。 原始1字舉不同的實施例用以說明顯示器120交錯顯示 編碼晝面如何隱藏部分或全部的原始晝面。圖 全面Ly; ί依知本發明一實施例所緣示之原始晝面、編碼 二f晝面的示意圖。首先請同時參照圖1與圖4, 顯不器12G所產生的原始晝面,在本實施例中, γ 作紐於觀t者左目_㈣左眼晝面u。圖4 貝示器120所產生的編碼晝面’在本實施例中此 201246907 ΐ面為預設之祺盤格_,祺盤格_的大小與原始 “右相同’ ^將此編碼畫面作為適於觀賞者右眼接 Ό 、旦面R1。當人眼接收到的左眼晝面L1盥右眼蚩 =全的差異過大時’經_者大腦混:左眼晝面上 圖ΛΊ1 一的結果,人眼會觀料特殊的混淆晝面,如 益法二2金此混淆晝面與原始晝面完全不同,觀賞者 …、法侍知原始晝面為何,據此達到加密的效果。 ::里參照圖i與圖5,圖5⑷為顯示器 ^原ί晝面,作為人眼接收的左眼晝面U。圖5 (b)為 原:ΐΓΓ所產生的編碼晝面,此編碼晝面的圖案部分與 林目同’其中一部份區域510為祺盤格圖案,棋般 對應原始晝面的-部份區域,將此: “上==面=人眼所觀賞到的 朴蚩^ )所不,人眼在11域52G無法得知 旦面為何,達到對晝面中的特定區域產生加密的效果 編碼ΐίίί 顯;"裝置藉由交錯顯示原始影像與 的H二产、減刀或全部的原始畫面,進而達到加密 ΐ右要㈣加密所產生的混淆畫面,則需配戴: 因此’本發明亦提供相對應的三維2體 :目Ί以產生解密效果讓使用者能觀賞到完整的原 «里面。以下另舉—實施例做詳細說明。 依照本發明另一實施例所繪示之三維立體顯示 ^置^方塊圖。請參照圖6,三維立體顯示裝置_包括 处理态610、顯示器620以及發射器630。其中處理器61〇S 7 201246907 face, and uses a number of scan lines to display the marshalling face, meaning that the original face is received by the viewer's left eye, and the coded face is received by the viewer's right eye. Both of the above methods are feasible and can be selected by the user. What is required to note here is that if the three-dimensional display is full and the spatial position is staggered, the polarization direction of the original picture displayed by the display 120 and the polarization direction of the coded face are orthogonal. Figure 3 is a cross-sectional view of the face in chronological order: Please refer to the figure at the same time! With FIG. 3, the display 12() is in the first-time sequence; the left-eye face u' received by the left eye of the viewer is not received by the left eye, and the fourth time sequence T4 is displayed for the viewer to the right. The eye receives the right eye face R2, and so on. In this case, the original face is placed on the left eye, the coded face is placed on the right page = face is opposite, and the display 120 can be placed on the right eye face in the left eye face. Choose by yourself. If the three-dimensional stereoscopic display is interleaved in time series, the polarization direction of the original pupil displayed by the display 120 is the same as the polarization direction of the encoded picture. The original embodiment uses different embodiments to illustrate how the display 120 interleaves the encoded face to hide some or all of the original face. FIG. 1 is a schematic diagram showing the original pupil plane and the coded two planes according to an embodiment of the present invention. First, please refer to FIG. 1 and FIG. 4 at the same time, the original pupil surface generated by the display device 12G. In the present embodiment, γ is used as the left eye _ (four) left eye u surface u. Figure 4: The coded face generated by the display device 120. In this embodiment, the 201246907 face is the default disk _, and the size of the disk _ is the same as the original "right" ^ The viewer's right eye is connected to the right eye, and the face is R1. When the human eye receives the left eye face L1 盥 right eye 蚩 = the whole difference is too large 'the brain _ _ brain mixed: the left eye 昼 ΛΊ 一 1 results The human eye will look at the special confusing face, such as the benefit of the law 2 2 gold, this confused face is completely different from the original face, the viewer..., the law knows the original face, according to which the encryption effect is achieved. Referring to Figures i and 5, Figure 5 (4) shows the left side of the display as the human eye. Figure 5 (b) shows the coded face produced by the original: The pattern part is the same as the forest head. One part of the area 510 is a plaque pattern, and the chess part corresponds to the original 昼--partial area. This: "Up == face = the 蚩 观赏 of the human eye ^) No, the human eye can't know what the surface is in the 11 domain 52G, and it can achieve the effect of encrypting the specific area in the surface. ΐίίί;; By interlacing the original image with the H-production, subtraction or all of the original picture, and then achieving the confusing picture generated by the encryption of the right (4) encryption, it is necessary to wear: Therefore, the present invention also provides a corresponding three-dimensional image 2 Body: The target is to create a decryption effect so that the user can see the complete original « inside. The following is a further description of the embodiment. A three-dimensional display is shown in accordance with another embodiment of the present invention. Referring to FIG. 6, the three-dimensional stereoscopic display device_ includes a processing state 610, a display 620, and a transmitter 630. Where processor 61〇
S 9 201246907 與顯示器020與圖1所示之處理器11〇與顯示器n〇呈有 相同或相似的功能,故在此不再贅述。發射器63()麵接處 理器610,用以發射第一同步信號與第二同步信號,其中 第-同步信號與第二同步信號在顯示器_顯示原始晝面 k ^為致月b狀態’在顯示益620顯示編碼晝面時皆為禁能 狀態。 圖7是依照本發明另一實施例所繪示之三維立體觀賞 眼鏡的示意圖。請參照圖7,三維立體觀賞眼鏡7〇〇例如 是偏光眼鏡(polarized glasses )或快門眼鏡(shutter glasses ) 等。習知之偏光眼鏡或是快門眼鏡,其工作原理皆是利用 左眼鏡片與右眼鏡片偏光方向的選擇,讓左右眼鏡片分別 接收不同的左右眼晝面,以形成立體視覺。於本實施例中, 若三維立體觀賞眼鏡700為快門眼鏡,則對快門眼鏡的左 右鏡片依據同步信號循序施加電壓,以直接遮擋三維立體 顯示裝置600所顯示的編碼晝面,僅接收三維立體顯示骏 置600所顯示的原始晝面。若三維立體觀賞眼鏡7〇〇為偏 光眼鏡’則偏光眼鏡的左右眼鏡片之偏光方向皆與原始晝 面所顯示的偏光方向相同。 三維立體觀賞眼鏡700包括第一鏡片710以及第二鏡 片720。其中,三維立體顯示裝置6〇〇 (參照圖6)交錯顯 示原始畫面與編碼晝面,第一鏡片71〇與第二鏡片720的 偏光方向皆與原始晝面的偏光方向相同,而且第一鏡片 710與第二鏡片72〇的偏光方向皆正交於編碼晝面的偏光 方向。 201246907 圖8是依照本發明另一實施例所繪示之第—鱼 步信號的示意圖。在此實施例中,三維立體顯示裳= 依照時間順序交錯顯示原始畫面與編碼晝面,而^ =賞眼當7:是快門眼鏡。以下請同時參照圖厂圖立 ^圖8 ’第-列⑽代表顯示器㈣交錯顯示原妒 L1〜L60與編碼晝面R1〜編的時間順序,第。ς = :_30所發射的第一同步信號, = 射器630所發射的篦-回牛产啼—丄 ⑴代表發 更包括接收哭^^ 乂。號。二准立體觀賞眼鏡700 第一二:::萝乂兄步仏號。第-鏡片710的偏光方向在 卜说為致能狀態(例如可為高電位)時虛三 體顯不裝置600的顯示晝面相同,在第 ς =立 =(例如可為低電位)時與三維立體顯示工二: =r:_時與該…體顯== 士述二維立體觀#眼鏡所接收之 i 立體影像的同步信號不同:ί 畫面時皆為致7同步㈣在顯示器620顯示原始 擇,步信號的維立藉 s 11 201246907 R1〜R60 ’原始晝面L1〜L60與編碼晝面Rl〜R6〇既無法經 由使用者的大腦混合,也就不會觀賞到特殊的加密晝面, 據此達到解密的功效。 在另一實施例中,若顯示器62〇採用空間位置交錯顯 示原始畫面與編碼畫面(如圖2所示),則顯示器62〇所 顯示的原始晝面與編碼晝面之偏光方向為正交。三維立體 觀賞眼鏡700在此實施例中是偏光眼鏡,豆第一 與第二鏡片720的偏光方向皆與原始晝面的偏光方向相 同,而且第一鏡片710與第二鏡片72〇的偏光方向皆與編 碼畫面的偏光方向正交。因此,三維立體觀賞眼鏡7〇〇遮 擋顯示器620所顯示的編碼晝面,僅接收原始晝面。 一上述之二維立體顯示裝置與觀賞眼鏡,藉由特殊的顯 不與接收方式,讓未配戴三維立體觀賞眼鏡的使用者觀賞 =的畫面是經過設計後的加密晝面,而讓配戴三維立體觀 賞眼鏡的使用者能正確觀賞到顯示裝置所顯示的原始晝 面。除了此種加解密機制的應用之外,本發明之三維立體 顯示裝置與觀賞眼鏡亦可應用於擴增實境(AugmemedThe S 9 201246907 and the display 020 and the processor 11 图 shown in FIG. 1 have the same or similar functions as those of the display, and therefore will not be described herein. The transmitter 63 () is connected to the processor 610 for transmitting the first synchronization signal and the second synchronization signal, wherein the first synchronization signal and the second synchronization signal are displayed on the display _ Displaying the benefit 620 shows that the coded face is disabled. FIG. 7 is a schematic diagram of three-dimensional stereoscopic glasses according to another embodiment of the invention. Referring to Fig. 7, three-dimensional stereoscopic glasses 7 are, for example, polarized glasses or shutter glasses. The polarized glasses or shutter glasses of the prior art all use the selection of the polarization directions of the left and right glasses, so that the left and right glasses receive different left and right eyelids respectively to form stereoscopic vision. In this embodiment, if the three-dimensional stereoscopic glasses 700 are shutter glasses, the left and right lenses of the shutter glasses are sequentially applied with voltage according to the synchronization signal to directly block the encoded surface displayed by the three-dimensional display device 600, and only receive the three-dimensional display. Jun original 600 shows the original face. If the three-dimensional stereoscopic glasses 7 are polarized glasses, the polarizing directions of the left and right lenses of the polarized glasses are the same as those of the original pupil. The three-dimensional viewing glasses 700 include a first lens 710 and a second lens 720. Wherein, the three-dimensional display device 6〇〇 (refer to FIG. 6) alternately displays the original image and the encoded face, and the polarization directions of the first lens 71〇 and the second lens 720 are the same as the polarization direction of the original face, and the first lens The polarization directions of the 710 and the second lens 72 are both orthogonal to the polarization direction of the encoded pupil plane. 201246907 Figure 8 is a schematic illustration of a first fishstep signal in accordance with another embodiment of the present invention. In this embodiment, the three-dimensional display shows that the original picture and the coded face are interleaved in time order, and that the eye is 7: is the shutter glasses. Please refer to the diagram of the factory at the same time. Figure 8 ’s-column (10) represents the display (4). The time sequence of the original 妒 L1 L L60 and the coded R R1 ~ 编ς = :_30 The first sync signal transmitted, = 篦 回 回 回 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 630 number. Second quasi-stereoscopic viewing glasses 700 First two::: Rosie brothers step number. When the polarization direction of the first lens 710 is said to be in an enabled state (for example, it can be a high potential), the display plane of the virtual three-body display device 600 is the same, and when the first ς = vertical = (for example, can be low) 3D Stereoscopic Display 2: =r:_ and the body of the body == The two-dimensional view of the story is not different. The synchronization signal of the stereo image received by the glasses is different: ί is the same as the 7th synchronization (4) is displayed on the display 620 The original choice, the step signal of the Veli s 11 201246907 R1 ~ R60 'original face L1 ~ L60 and the coded face Rl ~ R6 〇 can not be mixed through the user's brain, it will not see a special encryption face According to this, the effect of decryption is achieved. In another embodiment, if the display 62 is spatially staggered to display the original picture and the coded picture (as shown in Fig. 2), the original direction of the display 62 is orthogonal to the direction of polarization of the coded picture. The three-dimensional stereoscopic glasses 700 are polarized glasses in this embodiment, and the polarization directions of the first and second lenses 720 of the beans are the same as the polarization directions of the original pupils, and the polarization directions of the first lens 710 and the second lens 72 are both It is orthogonal to the polarization direction of the coded picture. Therefore, the three-dimensional viewing glasses 7 〇〇 block the encoded face displayed by the display 620 and receive only the original face. The above-mentioned two-dimensional stereoscopic display device and the viewing glasses allow the user who is not wearing the three-dimensional stereoscopic viewing glasses to view the screen after the design is encrypted by the special display and the receiving mode. The user of the three-dimensional viewing glasses can correctly view the original face displayed by the display device. In addition to the application of such an encryption and decryption mechanism, the three-dimensional display device and the viewing glasses of the present invention can also be applied to augmented reality (Augmemed).
Redlty ’ AR )’擴增實境是以虛擬實境(Virtual Reality, 為出發的新互純術。透過虛擬實境設備 ,我們可以 將貫際上並不存在現場的物件或景象,投影在紋的真實 ,間°使帛者便可II㈣增實境彡統,進行資訊展示或取 得二在擴增實境的應用中,上述原始畫面是包含擴增實境 t晝面’上返編竭晝面是用來遮蔽或隱藏擴增實境的額外 貝’原始晝面和料晝Φ可經由未喊觀賞眼鏡的使用 12 201246907 者大腦合成不包含擴增實境的一般晝面。 詳細而言,本發明之三維立體顯示裝置可顯示一般晝 面提供給未配戴三維立體觀賞眼鏡的使用者觀看,而 配戴三維立雜賞眼鏡的個者來說,接_的原始畫面 包括一般晝面加上擴增實境的額外資訊,此額外的資訊對 於未配戴眼鏡的使用者來說是看不到的。舉例而言,、配戴 眼鏡的使用者與未配戴眼鏡的使用者可能看到同樣的物 件,但呈現的顏色可能不同;或是配戴眼鏡的使用者除了 看到與未配戴眼鏡的使用者相同的物件之外,更增加了文 字成息或其他圖案料。只要將欲提供給喊觀賞眼鏡的 使用者看到的原始畫面呈現於顯示器的左眼晝面或右眼晝 面其f之一,如同前述實施例所述,配合三維立體顯示^ 置與三維立體觀賞眼鏡偏光方向的選擇即可達成。 、 假设原始晝面呈現於左眼晝面,則顯示器所呈現的右 —面即為依據原始畫面所產生的編碼晝面,此編碼晝面 :利用疊加型的色彩系統例如RGB系統來設計,用以隱 藏或互補原始晝面。舉例而言,若未配戴眼鏡的使用者所 看到的一般晝面為白色,欲使配戴眼鏡的使用者所看到的 原始晝面(顯示器所呈現的左眼畫面)為紅色,則編碼晝 = (〃、員示态所呈現的右眼畫面)便可設計為紅色的互補色 月色(cyan)。因此,編碼晝面的部分或全部像素可由一 —面的對應像素的RGB成分與原始晝面的對應像素的 RGB成分相減所得,以隱藏原始晝面的額外資訊。 “上所述’本發明所提供之三維立體顯示裝置與三維Redlty 'AR)' augmented reality is a virtual reality (Virtual Reality). Through virtual reality devices, we can project objects or scenes that do not exist on the scene. The truth, the difference between the two can make the II (4) increase the reality, to display the information or obtain the second in the application of the augmented reality, the original picture is included in the augmented reality t昼 surface The surface is used to cover or hide the augmented reality of the extra shell 'original surface and material 昼 Φ can be used through the unspoken ornamental glasses 12 201246907 The brain synthesis does not contain the general surface of the augmented reality. In detail, The three-dimensional display device of the present invention can display the general kneading surface for the user who does not wear the three-dimensional stereoscopic viewing glasses, and the one who wears the three-dimensional stereoscopic glasses, the original picture of the connection includes the general face plus Additional information on augmented reality, this additional information is not visible to users who are not wearing glasses. For example, users who wear glasses and those who do not wear glasses may see To the same thing However, the colors presented may be different; or the users wearing glasses may add text or other patterns in addition to the same items as those who do not wear glasses. The original picture seen by the user of the viewing glasses is presented on one of the left eye face or the right eye face of the display, as described in the foregoing embodiment, and the three-dimensional display and the selection of the polarization direction of the three-dimensional stereoscopic glasses are selected. It can be achieved. Assuming that the original face is presented on the left eye, the right side of the display is the coded face produced by the original picture. This coded face: using a superimposed color system such as the RGB system. Designed to hide or complement the original face. For example, if the user who does not wear glasses sees the general facet as white, the original facet that the user wearing the glasses sees ( The left eye picture displayed by the display is red, and the code 昼 = (〃, the right eye picture presented by the member state) can be designed as a red complementary color moon (cyan). Therefore, the coded face The sub- or all pixels may be subtracted from the RGB components of the corresponding pixels of the one-plane and the RGB components of the corresponding pixels of the original pupil to hide additional information of the original face. "The above-mentioned three-dimensional display provided by the present invention" Device and three-dimensional
S 13 201246907 二體η,可讓使用者除了觀賞三維立體影像之外, 使用=維^像的顯示設定下,增加三維立體顯示裝置的 使用μ兄’例如隱藏部分或全部三維立體顯示|置所顯示 的影像以達到加解密的防窺機制,更可使用於擴增實境的 相關應用,據此’提南二維立體顯示相關設備的獨性盘 其價值。 ~ 雖然本發明已以實施例揭露如上,然其並非用以限定 本么明’任何所屬技術領域中具有通常知識者,在不脫離 本發明之精神和範圍内,當可作些許之更動與潤飾,故本 發明之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1是依照本發明一實施例所繪示之三維立體顯示裝 置的方塊圖。 圖2繪示為一種依照空間位置交錯顯示晝面之示意 圖。 圖3繪示為一種依照時間順序交錯顯示晝面之示意 圖。 圖4至圖5是依照本發明一實施例所繪示之原始畫 面、編碼晝面與加密晝面的示意圖,(a)原始晝面,(b) 編碼晝面,(c)加密晝面。 圖6是依照本發明另一實施例所繪示之三維立體顯示 裴置的方塊圖。 圖7是依照本發明另一實施例所繪示之三維立體觀賞 201246907 眼鏡的不意圖。 圖8是依照本發明另一實施例所繪示之第一與第二同 步信號的示意圖。 【主要元件符號說明】 100、600 :三維立體顯示裝置 110、610 :處理器 120、620 ··顯示器 510、520 :區域 630 :發射器 700 :三維立體觀賞眼鏡 710 :第一鏡片 720 :第二鏡片 L1〜L60 :左眼晝面 R1〜R60 :右目艮晝面 810〜830 :第一列〜第三列 15S 13 201246907 Two-body η, which allows the user to increase the use of the three-dimensional display device, such as hidden part or all three-dimensional display, in addition to viewing the three-dimensional image. The displayed image is used to achieve the anti-spying mechanism of encryption and decryption, and can be used for augmenting the related applications of the real world. According to this, the value of the uniqueness of the two-dimensional stereoscopic display related equipment is mentioned. The present invention has been disclosed in the above embodiments, but it is not intended to limit the scope of the invention, and may be modified and modified without departing from the spirit and scope of the invention. Therefore, the scope of protection of the present invention is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a three-dimensional display device according to an embodiment of the invention. Fig. 2 is a schematic view showing a cross-sectional display of a face according to a spatial position. Figure 3 is a schematic illustration of a cross-sectional display of the facets in chronological order. 4 to FIG. 5 are schematic diagrams showing an original picture, a coded picture, and an encrypted picture, (a) an original picture, (b) an encoded picture, and (c) an encrypted picture, in accordance with an embodiment of the invention. FIG. 6 is a block diagram of a three-dimensional stereoscopic display device according to another embodiment of the invention. FIG. 7 is a schematic diagram of a three-dimensional viewing 201246907 eyeglass according to another embodiment of the present invention. FIG. 8 is a schematic diagram of first and second synchronization signals according to another embodiment of the invention. [Main component symbol description] 100, 600: three-dimensional display device 110, 610: processor 120, 620 · display 510, 520: region 630: transmitter 700: three-dimensional stereoscopic glasses 710: first lens 720: second Lens L1~L60: left eye face R1~R60: right eye face 810~830: first column to third column 15