TW201238326A - Real-time interactive 3D entertainment device and 3D replication - Google Patents
Real-time interactive 3D entertainment device and 3D replication Download PDFInfo
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201238326 六、發明說明: 【發明所屬之技術領域】201238326 VI. Description of the invention: [Technical field to which the invention pertains]
[0001] 本創作關於一種即時互動3 D立體育樂裝置、3 D 立體仿製,經由簡化電晶體線路設計結構3 D立體晶片 增加運算速度運作主機系統,經由同步手持裝置、雙觸 控鍵盤、動感控制器運作主機進行遊戲、文字輸入、資 料交換輸入、輸出,即時揮拳控制遊戲,經由3 D立體 虛擬實境做為互動介面,3 D立體影像辨識、語音辨識 結合一體互動操控、辨識道具,經由3D立體顯示、3 〇 D立體影像辨識、語音辨識結合一體,進行食衣住行、 育樂、生活、科學、醫療即時互動、監視、觀看,經由 3 D立體多鏡頭攝影掃描組合3 D立體影像資料庫,將 3 D立體影像辨識、語音辨識結合一體,進行3 D立體 影像、語音密碼辨識監控3 D立體影像、聲音、表情、 動作、遠近、大小、方向、移動細微變化辨識,經由3 D立體實物仿製機器將3D立體影像仿製生產,經由控 制3D立體同樂機器人一同育樂,經由3D立體多方向 0 顯示一同育樂,經由3 D立體裸視觀看3 D立體影像,[0001] This creation relates to an instant interactive 3D sports music device, 3D stereoscopic imitation, which increases the operation speed of the host system through the simplified transistor circuit design structure 3D stereo chip, via synchronous handheld device, dual touch keyboard, dynamic The controller operates the host to play games, text input, data exchange input and output, and instantly punches and controls the game. The 3D stereo virtual reality is used as an interactive interface, 3D stereo image recognition and speech recognition combined with an interactive control and identification props. Through 3D stereoscopic display, 3 〇D stereo image recognition, and voice recognition, it can be used for instant interaction, monitoring, and viewing of food, clothing, recreation, life, science, and medical. 3D stereo multi-lens photography is combined to scan 3D stereo. Image database, combining 3D stereo image recognition and voice recognition, 3D stereo image, voice password recognition and monitoring 3D stereo image, sound, expression, motion, distance, size, direction, movement and subtle change identification, via 3 D-dimensional physical imitation machine will produce 3D stereoscopic images, and control 3D stereo music. People with recreational device, via the 3D display with a multi-directional recreation 0, depending on the perspective view 3 D 3 D stereoscopic image via bare,
配戴3 D立體顯示眼鏡觀看3 D立體影像,多方向觀看 3 D立體影像即時互動育樂,經由最自然3 D立體顯示 方式觀看3 D立體影像互動育樂,經由3 D立體影像資 料庫計算雙眼所需3 D立體影像,經由將3 D立體影像 辨識、語音辨識結合一體,提供更精確資訊互動對話辨 識,經由3 D立體多鏡頭攝影掃描組合成3 D立體影像 ,經由3 D立體多鏡頭攝影運用在3 D立體影像辨識、 語音辨識結合一體、3D立體影像語音密碼辨識、3D 1011002#單編號舰01 第5頁/共114頁 1012000420-0 201238326 立體服裝造型設計、3 D立體遊戲設計、3 D立體動畫 "^-α十、3D立體多鏡頭攝影設計、3D立體電影設計等 等’經由3 D立體多鏡頭攝影掃描、3 D立體影像辨識 、語音辨識結合一體進行辨識,運用在3 D立體互動教 學、3D立體互動醫療、3D立體互動生活、3D立體 互動娛樂、3D立體互動即時監控等等3£)立體運用上 〇 經由3 D立體多鏡頭攝影掃描、3 D立體影像辨識 、sf音辨識結合一體進行辨識,組合完整3d立體影像 資料,進行各種辨識、互動、監控,用來改善一般裝置 不能3 D立體影像辨識、語音辨識即時互動問題’解決 一般裝置不能建構3D立體資料問題,不能3D立體監 控、辨識互動問題,不能即時生產製造問題,3 D立體 顯示用來改善一般3D影像播放,不是經由真正31)影 像資訊問題。 經由3 D立體多鏡頭攝影掃描、3 D立想影像辨識 、語音辨識結合一體進行辨識,組合完整3 D立體影像 貧料,即時互動控制、互動娛樂、指揮監控,經由最自 然雙眼觀看30影像方式,3D立體自動對焦攝影技術 ,3 D立體顯示、3 d立體裸視顯示、3 D立體投影機 、3 D立體裸視旋轉顯示提供觀看3 D立體影像,改良 攝影鏡頭讓攝影感光速度更快,攝影畫質更加提升,改 良液晶顯示讓顯示畫面速度更快,觀看3 D立體裸式、 3 D立體顯示更舒適。 經由3 D立體多鏡頭攝影掃描、3 D立體影像辨識 、語音辨識結合一體進行辨識,組合完整3D立體影像 10110024^^'^ A〇101 第 6 頁 / 共 114 頁 201238326 資訊,進行食衣住行、育樂、生活、科學、醫療即時互 動、監視、觀看,運用3 D立體實物仿製機器,將設計 轉為實際量產。 經由3 D立體多鏡頭攝影掃描、3 d立體影像辨識 、*吾音辨識結合一體進行辨識,組合完整3 D立體影像 資訊,進行3 D立體影像錄影、播放,經由光電磁 、波發射接收計算繪製3 d立體資料,即時提供設計修 改造型影像動4景彡像’祕各齡勒容縣本拍攝影 像替換其他影像進行移動放大縮小變形改變場景人物, 進行艮衣住行、育樂、生活、科學、醫療即時互動、監 視、觀看,經由3 D立體影像進行服裝設計改良,直接 仿製進打試穿’分析仿製物品之光、電、磁、波、物理 予化工子、動力學、機械學、材料學,進行仿製前模 擬分析,結合光、電、磁、波、物理學、化JL學、動力 學、機械學、㈣學各種變化組合,倾凝結合成仿製 品0Wear 3D stereoscopic glasses to watch 3D stereoscopic images, view 3D stereoscopic images in real-time interactive and interactive music, watch 3D stereoscopic images interactive music through the most natural 3D stereoscopic display mode, calculate through 3D stereo image database The 3D stereo image required for both eyes is combined with 3D stereo image recognition and speech recognition to provide more accurate information interactive dialogue recognition, and combined into 3D stereo images through 3D stereo multi-lens photography scanning, via 3D stereo Lens photography is used in 3D stereo image recognition and speech recognition, 3D stereo image voice password recognition, 3D 1011002# single number ship 01 5th / 114 pages 1012000420-0 201238326 3D clothing design, 3D game design 3D stereoscopic animation "^-α10, 3D stereo multi-lens photography design, 3D stereoscopic movie design, etc.' through 3D stereo multi-lens photography scanning, 3D stereo image recognition, speech recognition combined with identification, used in 3 D interactive teaching, 3D interactive medical, 3D interactive living, 3D interactive entertainment, 3D interactive real-time monitoring, etc. 3 £) The 3D stereoscopic multi-lens photography scan, 3D stereo image recognition, and sf sound recognition are combined to identify the whole 3D stereoscopic image data, and various identification, interaction, and monitoring are performed to improve the general device. Image recognition, voice recognition, real-time interaction problem 'solving the general device can not construct 3D stereo data problem, can not 3D stereo monitoring, identify interactive problems, can not immediately produce manufacturing problems, 3 D stereo display is used to improve the general 3D video playback, not through the real 31 ) Image information problems. Through 3D multi-lens photographic scanning, 3D stereo image recognition, and speech recognition, the combination is integrated, and the complete 3D stereo image is poor, real-time interactive control, interactive entertainment, command and monitoring, and 30 images are viewed through the most natural eyes. Mode, 3D stereo AF technology, 3D stereo display, 3D stereoscopic display, 3D stereo projector, 3D stereoscopic rotating display for viewing 3D stereo images, improved photographic lens for faster photography The photographic quality is improved, and the improved LCD display makes the display faster. It is more comfortable to watch 3D stereo and 3D stereo display. The 3D stereo multi-lens photography scan, 3D stereo image recognition, and voice recognition are combined to identify the complete 3D stereo image 10110024^^'^ A〇101 Page 6 / 114 page 201238326 Information, for food and clothing , recreation, life, science, medical instant interaction, surveillance, viewing, using 3D solid object imitation machine, the design turned into actual mass production. Through 3D stereo multi-lens photography scanning, 3D stereo image recognition, and *My voice recognition combined to identify, combine complete 3D stereoscopic image information, 3D stereoscopic video recording and playback, and calculate and draw via optical electromagnetic and wave transmission. 3 d stereo data, instantly provide design to modify the styling image to move 4 scenes like 'secret ages Lerong County, this shooting image replaces other images to move zoom in and out to change the scene characters, carry out clothing, recreation, life, science Instant medical interaction, surveillance, and viewing, through 3D stereoscopic imagery for garment design improvement, direct imitation into the try-on, 'analyze the light, electricity, magnetism, wave, physics of imitation items to chemical, dynamics, mechanics, materials Learning, pre-imitation simulation analysis, combined with light, electricity, magnetism, wave, physics, JL, dynamics, mechanics, (4) various combinations of changes, pour condensation into a replica 0
;經由3 D立體多鏡頭攝影掃描、3 D立體影像辨識 語音辨識結合-體進行辨識,組合完整31)立體影像 進行3D立體多鏡頭攝影製作3D立體照片、⑽立 體衫片、3D立體電影,3D立體自動對焦攝影掃描建 構出完整3 D立體龍魏,進行變_纽變不同物 體,變化不_峨,3D立輯製作更加方便便 利3D立體自動鄉對焦掃摇監控提供⑽立體互 動操作控制,3 D立體互鱗戲、顯絲,監控細微 變化互動操作指導糾正。 1011002#^'^ A〇101 由3 D立體多知頭攝影掃描、3 d立體影像辨識 第7頁/共iu頁 201238326 、浯音辨識結合一體進行辨識,組合完整3 £)立體影像 貢料資訊,虛擬系統3D立體虛擬實境裝置經由3 體多鏡頭攝影掃描3 D立體影像辨識、語音辨識結合一 體,經由影像、聲音、對話、互動、學習提升裝置智慧 ,建構3D立體影像資訊進行比對掃描,控制虛擬機器 人執行各種命令,繪製3D立體影像地圖,3D立體影 像辨識、語音辨識結合一體將影像辨識、語音辨識轉化 為標準語音文法,定義各種影像資訊,影像辨識、語音 辨識分門別類管理,擬人學習儲存互動信息,轉化為一 種虛擬影像互動學習對話,控制3D立體實物仿製機器 進行3D立體物體仿製,即時3d立體監控互動操控。 經由3 D立體多鏡頭攝影掃描、3 D立體影像辨識 、語音辨識結合一體進行辨識,結合互動式問答對話, 肢體動作互動操控,聲控互動操控,3D立體資訊轉化 運用在電影製作,將原始移動的事物替換不同造型事物 進行模擬各種動作,可任意替換不同場景組合,即時物 品仿製生產,經由3D立體資訊設計出個人特色化產品 ,即時仿製生產出來,互動式虛擬人物、虛擬寵物機器 一同娛樂,替你進行各種任務執行陪你一同娛樂,經由 虛擬機器人指揮控制替你完成你想要的任務一同娛樂。 經由觸控面板控制3D立體遊戲、影像、音樂運作 ,雙手緊握動感控制器讓你自由揮拳輕鬆控制,經由3 D立體影像辨識、語音辨識結合一體,聲音互動操控, 语音轉為文字編輯輸入,3D立體虛擬實境控制虛擬人 物、機器窥物陪你一同娛樂。 【先前技術】 1011002##^ A_ 帛 8 頁 / 共 114 頁 201238326 [0002] 一 αλ. 3Λ /a ^ 識無法進行3 ϋ立體影像辨識,經由3 D立體自動對焦攝影顯雙祕動焦距,經由最自然方 .β進^Γ 3 D立體多鏡頭攝影拍照〇 —般語音辨識只能用於導航聲控,經由光描、 ΓΓΓ、聲音制結合—體提供更鮮_能力,即 %互動、對話、操控提供資訊。 —般遊戲只能3 D顯干廿& * f) , M ^ , …、並非真正㈣3D立體技術 ^ 、,二由最自然方法進行3 D立·!*&_立3D stereo multi-lens photography scan, 3D stereo image recognition speech recognition combined with body recognition, combined complete 31) stereo image for 3D stereo multi-lens photography 3D stereo photos, (10) stereo shirt, 3D stereo movie, 3D Stereo autofocus photography scan to construct a complete 3D stereo dragon, change _ neon change different objects, change is not _ 峨, 3D set production is more convenient and convenient 3D stereo automatic home focus sweep monitoring provides (10) stereo interactive operation control, 3 D-dimensional mutual scale play, Xian silk, monitoring subtle changes interactive operation guidance correction. 1011002#^'^ A〇101 3D stereoscopic head photography scan, 3D stereo image recognition page 7 / total iu page 201238326, voice recognition combined with identification, complete 3 £) stereo image tribute information The virtual system 3D stereo virtual reality device combines 3D stereo image recognition and voice recognition through 3 body multi-lens photography, and enhances device wisdom through image, sound, dialogue, interaction, learning, and constructs 3D stereo image information for comparison scanning. Control virtual robots to execute various commands, draw 3D stereo image maps, combine 3D stereo image recognition and speech recognition to transform image recognition and speech recognition into standard speech grammar, define various image information, image recognition, speech recognition, and other types of management. The interactive information is stored and converted into a virtual image interactive learning dialogue, which controls the 3D solid object imitation machine to perform 3D stereoscopic object imitation, and instantaneous 3D stereoscopic interactive control. Through 3D stereo multi-lens photography scanning, 3D stereo image recognition, and speech recognition combined to identify, combined with interactive question and answer dialogue, physical movement interactive control, voice-activated interactive control, 3D stereo information transformation used in film production, the original mobile Things replace different styling things to simulate various actions, can replace different combinations of scenes, imitation of real-time items, design personalized products through 3D stereo information, instant imitation production, interactive virtual characters, virtual pet machines, entertainment together You perform a variety of missions to accompany you to entertain and play with your virtual robot command and control to complete the tasks you want. Control the 3D stereo game, video and music operation through the touch panel. The two-handed grip dynamic controller allows you to freely control the punch and punch. Through 3D stereo image recognition and voice recognition, the sound is interactively controlled, and the voice is converted into text editing. Input, 3D virtual reality control virtual characters, machine peeks accompany you to entertain. [Prior Art] 1011002##^ A_ 帛8 pages / Total 114 pages 201238326 [0002] One αλ. 3Λ /a ^ Cannot perform 3 ϋ stereo image recognition, through 3D stereo AF shooting to display double secret focus, via The most natural side. β into ^ Γ 3 D stereo multi-lens photography photos 〇 - ordinary speech recognition can only be used for navigation voice control, through the combination of light, ΓΓΓ, sound system - the body provides more fresh _ ability, that is, % interaction, dialogue, Control provides information. The general game can only be 3 D display cognac & * f) , M ^ , ..., not true (four) 3D stereo technology ^,, two by the most natural method 3 D Li!*&_立
立體影像。 立體顯不’產生最自然3D ^相機無法快速感光,經由抑制感光晶片反射入 射光’ k升感光速度晝質。 -般機器無法及時仿製31)立體物體 D立體實物仿製機《3D立體影像仿製生產/ 【發明内容】 [0003] 本創作係一種即時互動q ^ 〇 吁互動3〇立體育樂裝置、3D立 體仿製’經由簡化電晶體線 崎叹计結構3 〇立體晶片增 加運鼻速度運作主機系統,细 %由同步手持裝置、雙觸控 鍵盤、動感控制器運作主機進 一 ^丁遊戲文子輸入、資翻· 交換輪入、輸出,即時揮貢料 听禪拳控制遊戲’經由3 D立體虛 擬實境做為互動介面,1 m ύ u立體影像辨識、語音辨識結 合一體互動操控、辨識道且 '鉍由3 D立體顯示、3 D 立體影像辨識、語音辨識結 0 —體’進仃食衣住行、育 樂、生活、科學、醫療即時 丨吟互動、監視、觀看,經由3 D立體多鏡頭攝影掃描电入 γ編號驅 、:t)立體影像資料庫,將影 l〇ll〇〇24r 貝 / 共 114 頁 1012000420-0 201238326 t辨4、語音辨識組合—體’進行3 D立體影像、語音 :辨識監控3 〇立體影像、聲音、表情、動作、二 小、方向、縣細微變化辨識,經由3 〇立 仿製機器將3D立體影像仿製生產,經由控制3d立 问樂機器人—同育樂,經由3D立體多方向顯示—同育 樂,經由3 D立體裸视觀看3 D立體影像,配戴3 D立 體顯不眼鏡觀看3D立體影像’多方向觀看3D立體影 像即時互動育樂,經由最自然3 DiL體顯示方式觀看3 D立體影像互動育樂’經由3D立體影像資料庫計算雙 眼所需3 D立體影像,經由將3 D立體影像辨識、語音 辨識結合—體提供更精確資訊互動對話辨識,經由3 D 立體多鏡頭攝影掃描組合成3D立體影像,經由扣立 體多鏡頭攝影運用在3 DiL體影像語音觸、3 D立體 影像語音密碼辨識、3 D立體服裝造型設計、3 D立體 遊戲設計、3D立體動畫設計、3 DiL❹鏡頭攝影設 计、3 D立體電影設計料,經由3 Dit體多鏡頭攝影 掃描、3 D立體影像辨識、語音辨識結合一體進行辨識 ,運用在3D立體互動教學' 3D立體互動醫療、3d 立體互動生活、3 D立體互動娛樂、3 D立體互動即時 監控等等3 D立體運用上。 為達成本創作之目的,本創作採用如下之技術方案 ,包括:主機,A型同步手持裝置,6型3£)立體顯示 ,C型3 D立體裸視顯示,d型3 D立體裸視顯示’ E 型3 D立體投影機,f型3 D立體裸視旋轉顯示,〇型 3D立體裸視顯示,η型3D立體多鏡頭攝影,I型3 D立體多鏡頭攝影掃描,j型3d立體多鏡頭攝影掃描 10110024#單編號Α〇101 第10頁/共114頁 201238326 ’ K型3D立體多鏡頭攝影掃描,l型3D立體同樂機 器人,Μ型3 D立體實物仿製機器,n型3 D立體顯示 眼鏡,0型全景夢境投影機。 主機,包括:風扇’電源控制,光碟,輸入輸出控 制板,3 D立體晶片,3 D立體虛擬實境,雙觸控鍵盤 ’動感控制器。 3 D立體晶片,包括:3 D立體X轴γ軸ζ轴電子 線路,X軸Υ轴Ζ軸運算核心編碼系統。 f) 3 D立體X轴γ轴z軸電子線路,包括:經由X軸 Y軸Z轴電子晶片線路架構、X轴γ轴ζ轴陣列記憶體 線路、像素平衡放大線路,用來運作主機執行各種運算 才曰令,控制各種輸入、輸出裝置運作,設定各種裝置執 行運作。 X軸Y軸Z軸運异核心編碼系統,包括:經由X轴 Y軸Z編碼系統配合X軸γ軸z軸電子線路進行編碼執 行各種指令運作,控制各種裝置指令運作執行監控。 ^ 3 D立體虛擬實境,包括:經由一種人工智慧,虛 擬系統互動顯示、指揮、控制介面,裝置經由人工智慧 產生一種虛擬影像、人物進行互動對話,經由影像、聲 音辨識互動對話學習提升裝置智慧,將對話語言、語氣 、圖片轉化為標準文法,如同一本標準辭典,將影像、 圖片分門別類管理,定義其各種特性内容,如同一本動 植物、生活字典,擬人學習對影像、圖片、文法、笋士 、語意、語氣、音織生互驗息,互_應_個正破 信息,人工智慧虛擬系統經由3 d立體影像、聲音辨識 互動對話學習提升裝置智慧,建構3 DjL體影像^訊進 10110024#單編號A0101 第11頁/共114頁 201238326 行比對知描’控制虛擬機器人執行各種命令,繪製3 d 立體景>像地圖,3 D立體影像辨識、語音辨識結^__體 定義各類資訊,影像辨識、語音辨識分門別類管理,擬 人學習儲存互動信息,轉化為一種虛擬影像、聲音互動 學習對話,控制3D立體實物仿製機器進行3D立體物 體仿製,即時3D立體監控互動操控,3D立體虛擬實 境做為互動操控介面,結合3D自動對焦攝影,影像、 聲音辨識互動式問答對話,監控肢體動作互動操控,監 控聲控互動操控,3D立體資訊轉化運用在電影製作, 將原始移動的人'事、實、地、物替換不同造型進行模 擬各種攝影,任意替換不同場景變化攝影合成,運用在 3D立體實物仿製機器,3D立體資訊設計出個人特色 產品,即時仿製生產設計物品,互動式虛擬人物、寵物 、機器人介面一同娛樂,指揮執行替你完成各種任務, 3D立體同樂機器人,進行各種任務執行互動一同娛樂 0 雙觸控鍵盤,包括:經由左右觸控面板控制方向、 旋轉、移動,鍵盤打字輸入。 動感控制器,包括:經由按鈕、方向感應器、重力 感應器控制方向、旋轉、移動。 A型同步手持聢置,經由觸控顯示面板控制遊戲、 影像、音樂、資料互相傳遞,雙觸控鍵盤操控資料輸入 ’遊戲移動、旋轉,動感控制器雙手緊握自由揮拳輕鬆 控制移動、旋轉’操控域運作,包括:A A型同步手 持裝置,AB型同步手持裝置,a◦型同步手持裝置。 B型3 D立體顯示,主動式顯示,被動式顯示,包 10110024#單編號祕1〇1 1012000420-0 第12頁/共114頁 201238326 Ο 101100¾^單編號 A0101 括.ΒΑ型3D立體顯示,雙掃描線主動式;ΒΒ型3 D立體顯tf ’雙掃招線被動式;β。型3 D立體顯示, 雙掃指線被動式二方向顯示;⑽型3D立體顯示六 掃描線被動式二方向顯示;B E型3 〇立體顯示,六掃 描線被動式’透鏡廣角顯示。 C型3 D立體裸視顯示,雙眼為光攔設計中心,包 括:CA型3D立體裸視顯示,雙掃描線雙眼方向;c B型3D立體裸視顯示,六掃描線雙眼方向;◦c型3 D立體裸視顯tf,六掃描線雙眼方向;c D型3 D立體 裸視顯不’六掃描線雙眼方向,旋轉液晶反射顯示,構 造零件圖。 D型3 D立體裸視顯示,經由控制液晶旋轉角度、 方向改變練方現,期透鏡改變級方向,同步遮蔽 液晶改變光線方向,包括:DA型3D立體裸視顯示, 雙掃描線雙目找向旋轉液晶;DB型31)域減顯示 ’雙掃描線雙眼方向左右液晶遮蔽;DC型3D立體裸 視顯示’雙掃描線雙眼方向左右透鏡折射光線;DD型 3D立體裸_示’雙掃描線魏方向左錢鏡折射光 線;D E型3 D立體裸視顯示,雙掃描線雙眼方向左右 透鏡折射光線;D F型3 D立體裸視顯示,雙掃描線雙 眼方向多視角。 £型3 D立體投影機,經由雙投影機分別投影左眼 、右眼不同影像’包括:E A型3 D立體投影機,混合 光束,E B型3 D立體投影機,六掃描線雙投影機;e C型3 D立體投影機,六掃描線色彩分離。 3 D立體裸視旋轉顯示’經由高速旋轉顯示使 第13頁/共114頁 1012000420-0 201238326 眼睛產生同位置重現影像,抑制光線方向產生多方向3 D立體影像,旋轉透明液晶產生3 £)立體影像,包括: F A型3 D立體裸視旋轉顯示,雙掃描線雙眼方向;F B型3D立體裸視旋轉顯示,透明電晶體。 G型3 D立體裸視顯示,控制水平、垂直液晶方向 ’包括· GA型3D立體裸視顯示,六掃描線雙眼方向 ,旋轉液晶反射顯示。 Η型3 D立體多鏡戦影’ 3D立體平面虛擬對焦 攝影,包括:ΗA型3 D立體多鏡頭攝影,雙鏡頭廣角 平面虛擬對焦;ΗB型3D立體多鏡頭操影三鏡頭廣 角平面虛擬對f H C^3D讀乡鏡輯影,雙鏡頭 自動對焦;H D型3 D立體多鏡頭攝影,三鏡頭自動對 焦。 ^肢體多鏡頭攝影掃描,3 〇立體影像攝影 掃描。括IA型3D立體多鏡頭攝影掃描,廣角 平面虛擬職触;1 _D立體乡鏡職影掃描, 連動轴__、掃描;IM3D立體錄頭攝影 掃描,全景廣角自動對焦掃描。 J型3 D鄉她勵,心麵攝影 掃描匕括】八型3D立體多鏡頭攝影掃描監控, 全景廣角自動對焦掃描監控。 K型3D邮她獅,⑽立體影像攝影 、掃描’包括:以型3 D立體多鏡頭攝影掃描,全景 廣角平面虛賴域鱗描;Κβ型⑽域多鏡賴 影掃描,全景廣角連_自動對焦攝影掃描。 薦單編號删1 U3D立體同樂機器人,經由操控指揮互動同樂 第丨4頁/共1Ι4頁 笛 1 Λ _ 1012000420-0 201238326 機益人—同育樂’包括:LA型3DiL朗樂機器人, 蜂巢式磁場控制個關節運動擬人機器人;L 6型3 D立 體同樂機器人,可煞車磁場馬達控制侧節運動擬人機 器人。 Μ型3D立體實物仿製機器,經由仿製複製對象進 行光、電、磁、波-物理-化學—生物—材料組合分析 ,3 D立體仿照'分析、複製,分析資料、資訊,建構 3 D立體影像資訊’ 3 D立體資訊轉為實際量產,進行 食衣住行、月樂、生活、科學、醫療即時互動、監視、 ^ 觀看,包括:ΜΑ型3 D立體實物仿製機器,3 D立體 實物仿製複製上色;MB^3D立體實物仿製機器,3 D立體實物仿製雕刻上色;M C型3 D立體實物仿製機 益,3D立體相片仿製列印上色;MD型3D立體實物 仿製機器,3D立體實物仿製縫紉上色。 Ν型3 D立體顯示眼鏡,觀看主動式、被動式3 D 立體顯示,包括:NAs3d立體顯示眼鏡,NBs3 D立體顯示眼鏡。 [) 〇型全景夢境投影機,全景播放配合旋轉移動舞台 控制前進、後退_,包括:ΟA型全景夢境投影機。 3 D立體多鏡頭攝影,間隔影像感光儲存,將攝影 鏡頭感_件經由間隔設置,第一攝影鏡頭、第二攝影 鏡頭、第三攝影鏡頭提高解析度。 3 D立體X軸γ軸z軸電子線路,經由多層晶體線 路板、.、σ α而成,像素平衡放大線路經由輸入信號經過電 晶體閘道輪出信號,第一點像素信號相加第二點像素信 號,輪出信號位移一個位元為其平均值,X軸丫軸2軸 1011002#^^^ Α〇101 第 15 頁 / 共 m 頁 201238326 陣列圮憶體線路χ軸掃描信號線、γ軸掃描信號線、Z 軸掃描信號控制線。 觸控顯示面板,經由X軸掃描信號線發出信號,經 由觸摸連接導通信號,間隔層防止未觸摸碰觸導通,經 由Y軸掃描信號線傳送信號。 X轴Y軸Z軸加法運算電路圖,經由輸入被加數X 軸、Y軸加數輸出結果,經由輪入被加數父軸〇丄2 3 4和0 5信號、加數γ軸〇 χ 2 3 4和〇 5信號,通過 掃描線電晶體將被加數X軸〇 1 2 3 4加數γ軸〇12 3 4信號相加輸出結果,如果相加大於5則進位,如果 有進位和被加數X轴0 5加數γ轴〇 5相加輸出結果’ 如果相加大於1〇則進位。 X轴Y轴Z軸減法運算電路圖,經由輪入被減數χ 轴、Y軸減數輸出結果,經由輸入被減數χ軸0 i 2 3 4和0 5信號、減數γ軸〇12 3 4和0 5信號,通過 掃描線電晶體將被減數X軸Ο 1 2 3 4減數Y軸〇12 3 4½號相減輪出結果,如果相減大於被減數則借位減 5,如果有借位則再借位5和被減數χ軸〇5相加在減 去減數Y轴0 5輸出結果,如果有借位則退位1。 X軸Y軸Z軸乘法運算電路圖,經由輸入被乘數χ 軸、Υ軸乘數輪出結果,經由輪入被乘數X軸〇12 3 4和0 5信號、乘數丫軸〇丄2 3 4和〇 5信號,通過 掃描線電晶體將被乘數又軸〇 i 2 3 4乘數Y軸〇12 3 4k號相乘輪出結果,如果相乘大於5則進位,如果 有進位和被乘數χ軸〇12 3 4乘數γ軸〇12 3 4相 加,再加上被乘數χ軸〇 5乘數γ軸〇 5相乘輸出結果 10110024^單編號Α0101 第16頁/共114頁 201238326 ,如果相加大於i〇則進位。 X軸Υ軸Ζ軸除法運算電路圖,經由一個計數器累 積加法數值、減法組成除法,經由一個計數器累積加法 數值比對減法數值,輸出計數器數值、比對相減剰餘數 值。 【實施方式】 [0004] 本創作係一種即時互動3 D立體育樂裝置、3 D立 體仿製,經由簡化電晶體線路設計結構3 D立體晶片增 加運算速度運作主機系統,經由同步手持裝置、雙觸控 鍵盤、動感控制器運作主機進行遊戲、文字輸入、資料 交換輸入、輸出,即時揮拳控制遊戲,經由3 D立體虛 擬實境做為互動介面,3 D立體影像辨識、語音辨識結 合一體互動操控、辨識道具,經由3 D立體顯示、3 D 立體影像辨識、語音辨識結合一體,進行食衣住行、育 樂、生活、科學、醫療即時互動、監視、觀看,經由3 D立體多鏡頭攝影掃描組合3 D立體影像資料庫,將影 像辨識、語音辨識組合一體,進行3 D立體影像、語音 密碼辨識監控3 D立體影像、聲音、表情、動作、遠近 、大小、方向、移動細微變化辨識,經由3 D立體實物 仿製機器將3 D立體影像仿製生產,經由控制3 D立體 同樂機器人一同育樂,經由3D立體多方向顯示一同育 樂,經由3 D立體裸視觀看3 D立體影像,配戴3 D立 體顯示眼鏡觀看3 D立體影像,多方向觀看3 D立體影 像即時互動育樂,經由最自然3 D立體顯示方式觀看3 D立體影像互動育樂,經由3 D立體影像資料庫計算雙 眼所需3 D立體影像,經由將3 D立體影像辨識、語音 1012000420-0 10110024^單編號Α〇101 第17頁/共114頁 201238326 辨識結合一體提供更精確資訊互動對話辨識,經由3 D 立體多鏡頭攝影掃描組合成3 D立體影像,經由3 〇立 體多鏡頭攝影運用在3D立體影像語音辨識、3D立體 影像語音密碼辨識、3 D立體服裝造型設計、3 D立體 遊戲設計、3D立體動畫設計、3 DiL體彡鏡頭攝影設 。十3 D立體電影設計等等,經由3 d立體多鏡頭攝影 掃描、3 D立體影像辨識、語音辨識結合一體進行辨識 ,運用在3D立體互動教學、3D立體互動醫療' 3D 立體互動生活、3 DiL體互動娱樂、3D立體互動即時 監控等等3 D立體運用上。 包括:主機’A型同步手持裝置,B型3D立體顯 不’ C型3 D立體裸視顯示,0型3 體裸視顯示, E 5L 3 D立體投景々機,f型3 D立體裸視旋轉顯示,〇 型3D立體裸視顯示,Η型3D立體多鏡頭攝影,!型 3D立體多鏡頭攝影掃描,〗型⑽立體多鏡頭攝影掃 描K型3D立體多鏡頭攝影掃描,匕型3D立體同樂 機益人,Μ型3 D立體實物仿製機||,㈣3 D立體顯 不眼鏡,〇型全景夢境投影機。 主機,包括:風扇,電源控制,光碟,輸入輸出控 制板’ 3D立體晶片’ 3D立體虛擬實境,雙觸控鍵盤 ’動感控制器。 30立體晶片,包括:3D立體X軸γ軸z軸電子 線路,X軸Y軸Z軸運算核心編瑪系統。 3D立體X軸丫似轴電子線路,包括:經由乂輪 Y袖z轴電子晶片線路架構、χ袖γ軸z軸陣列記憶體 線路、 1011002#單編號 A0101 像素平衡放大線路’用來運駐機執行各種運算 第18頁/共114頁 201238326 指令,控制各種輸入、輸出裝置運作,設定各種裝置執 行運作。 X袖Y轴Z轴運异核心編碼系統’包括:經由X軸 Y轴Z編碼系統配合X軸γ轴z軸電子線路進行編碼執 行各種指令運作,控制各種裝置指令運作執行監控。 3 D立體虛擬實境,包括:經由一種人工智慧,虛 擬系統互動顯示、指揮、控制介面,裝置經由人工智慧 產生一種虛擬影像、人物進行互動對話,經由影像、聲 音辨識互動對話學習提升裝置智慧,將對話語言、語氣 D 、圖片轉化為標準文法,如同一本標準辭典,將影像、 圖片分門別類管理,定義其各種特性内容,如同一本動 植物、生活字典,擬人學習對影像、圖片、文法、語言 、1 吾意、言吾11、音調產生互動信息,互動回應-個正綠 信息,人工智慧虛擬系統經由3 〇立體影像、聲音辨識 互動對話學習提升m慧,建構31)立體影像資訊進 行比對掃描,控制虛擬機器人執行各種命令繪製3 d 立體影像_,3 D綠影像韻、語音觸結合一體 疋義各類貧訊,影像辨識、語音辨識分門別類管理,擬 人學習儲存互動信息,轉化為-種虛擬影像、聲音互動 學習對話,鋪3 D立體實物仿製機器進行3 D立體物 體仿製,即時3D立體監控互動操控,3D立體虛擬實 境做為互祕控介面,結合3 D自動触攝影影像、 聲音纖互賦崎_,驗肢體動作互動操控,監 控聲控互動操控,3D立體資訊轉化運用在電影製作, 將原始移動的人、事、實、地、物替換不同造型進行模 擬各種攝影’任意替換不同場景變化攝影合成,運用在 1〇11〇〇24#單編號A0101 第19頁/共m頁 201238326 3D立體實物仿製機g,3D立體資訊設計出個人特色 產品,㈣仿鼓產設計物品,互動式虛擬人物、寇物 、機器人介面-同娛樂,指揮執行替你完成各種任務, 3D立體同樂機ϋ人’進行各種任務執行互動—同娛樂 雙觸控鍵盤,包括··經由左右觸控面板控制方向、 旋轉、移動,鍵盤打字輪入。 動感控制器,包括:經由按紐、方向感應器、重力 感應器控制方向、旋轉、移動。 Α型同步手雜置,經由觸控顯示面板控制遊戲、 。像a樂 >料互相傳遞’雙觸控鍵盤操控資料輸入 ’遊戲移動、旋轉,動感控㈣雙手緊握自由揮拳輕鬆 控制移動、旋轉,操控主機運作,包括:A A型同好 持裝置’ A B酬步手縣置,A⑽同步手持裝置。 B型3D立體顯示’主動式顯示被動式顯示,包 括· BA型3D立體顯示’雙掃描線主動式,· bb型3 D立體顯示’雙掃描線被動式;bw3d立體顯示, 雙掃鱗被動式三方向顯示;BD型3D立體顯示,六 掃描線被動式三方向顯示;Be^d立體顯示六掃 描線被動式,透鏡廣角顯示。 C型3 D立體裸視顯示,雙眼為光欄設計中心包 括CA3L 3D立體裸視顯示,雙掃描線雙眼方向;匸 B型3D立體裸視顯示,六掃描線雙眼方向;CC型3 D立體裸視顯示,六掃描線雙眼方向;CD型3D立體 裸視顯示,六掃赠方向,_«反射顯示,構 造零件圖。 1011002#^ A〇101 第20頁/共114頁 201238326 D型3 D立體裸視顯示’控制液晶旋轉角度、方向 改變光線方現,利用透鏡改變光線方向,同步遮蔽液晶 改變光線方向,包括:DA型3D立體裸視顯示,雙掃 描線雙眼方向旋轉液晶;DB型3D立體裸視顯示,雙 掃描線雙眼方向左右液晶遮蔽;D C型3 D立體裸視顯 示,雙掃描線雙眼方向左右透鏡折射光線;DDS 3 D 立體裸視顯示,雙掃描線雙目艮方向左右透鏡折射光線; D E型3 D立體裸視顯示,雙掃描線雙眼方向左右透鏡 折射光線;D F型3 D立體裸視顯示,雙掃描線雙眼方 向多視角。 E型3 D立體投影機,經由雙投影機分別投影左眼 、右眼不同影像,包括:EA型3 D立體投影機,混合 光束,E B型3 D立體投影機,六掃描線雙投影機;E C型3 D立體投影機,六掃描線色彩分離。 F型3D立體裸視旋轉顯示,經由高速旋轉顯示使 眼睛產生同位置重現影像,抑制光線方向產生多方向3 DiL體縣’旋轉透雜晶產生3£>立體影像,包括: F A 土 3 DiL體裸視旋轉顯* ’雙掃描線雙眼方向;F B型3D立體裸視旋轉顯示,透明電晶體。 立體裸視顯示,控制水平、垂直液晶方向. l括GA型3d立體裸視顯示,六掃描線雙眼方向 ,旋轉液晶反射顯示。 1012000420-0 Η型3 D立體多鏡頭攝影,3 D立體平面虛擬對焦 攝影,包括:ΗΑ型3〇立體多鏡頭攝影,雙鏡頭廣角 平面虛擬對焦;HB型3D立體多鏡頭攝影,三綱廣 角平面虛擬對焦;Hc型3 DiL體多鏡頭攝影,雙鏡頭 10110024^^^ A〇101 第 21 頁 / 共 114 頁 201238326 自鱗焦;肋型3〇 且體夕鏡碩攝影,三鏡頭自動對 焦。 I型3 D立體多鏡頭攝影_,3 d立體影像攝影 、掃描,包括:ί卩 立體多鏡頭攝影掃描',廣角 平面虛擬對焦掃描;! B '、 Α. 生3D立體多鏡頭攝影掃描, 連動軸廣角自動對焦掃描· 燏描,入至庠& , ^型3D立體多鏡頭攝影 抑描u翻自動對焦掃描。 狀型3 D立衫鏡麵影掃描,⑽立體影像攝影 '.Da咖鄉麵雜監控, 全景廣角自動對焦掃描監控。 /型3 D立體多鏡頭攝影掃描,3D立體影像攝影 掃c括KA型3D立體多鏡頭攝影掃描,全景 廣角平面虛«_影掃描;k_3d立體多鏡頭攝 影掃描,全景廣__自麵域影掃描。 尘3D立體同樂機!^人’經由操控指揮互動同樂 機器人—同育樂’包括:LA型3D立體嶋機器人, 蜂巢式磁場控制個關節運動擬人機器人;LB型3D立 體同樂機&人,可絲磁場馬達㈣侧㈣運動擬人機 器人。 Μ土3D立體只物仿製機器,經由仿製複製對象進 行光、電、磁、波-物理—化學—生物—材料組合分析 ’ 3 D立體仿照、分析、複製,分析資料、資訊,建構 3D立體影像資訊’ 3D立體資訊轉為實際量產進行 食衣住行、育樂、生活、科學、醫療即時互動、監視、 觀看,包括:ΜΑ型3D立體實物仿製機器,3D立體 實物仿製複製上色;MB型3D立體實物仿製機器,3 1011002#^^ A0101 第 22 頁 / 共 114 頁 201238326 D立體實物仿製雕刻上色;MC型3D立體實物仿製機 器’ 3D立體相片仿製列印上色;md型3D立體實物 仿製機器,3D立體實物仿製縫紉上色。 N型3 D立體顯示眼鏡,經由觀看主動式、被動式 立體顯示,包括:να型3D立體顯示眼鏡,NB 型3 D立體顯示眼鏡。 〇型全景夢境投影機,經由全景播;^配合旋轉移動 舞台控制前進、後退旋轉’包括:ΟΑ型全景夢境投影 機。 〇 參閱第一圖經由設置多方向攝影鏡頭J — 2 2、工 —23、1一24、1一25進行3 D立體影像辨識、 語音辨識結合一體,經由螢幕播放影像i — 2 6,進行 互動控制觀看娛樂。 AA型同步手持裝置,包括:經由觸控顯示面板2 一121和左右觸控顯示面板2 — 12 2控制方向、旋 轉、移動,和觸控顯示面板2 — 121—體3 D立體裸 ❹ 示用來顯示2D、3D影像,3D立體晶片控制裝 置運作核心,3 D立體虛擬實境互動顯示、指揮、控制 介面,USB資料輸入、輸出、充電2 — 1 2 3,聲音輪 入2 — 12 4、聲音輸出2 — 12 5,控制按鍵2〜1 2 6,内置方向感應器2 — 12 7、重力感應器丄 2 8可經由移動裝置控制方向、旋轉、移動,前鏡頭2 —131自動對焦攝影,後鏡頭2-13 2自動對焦攝 景夕’閃光燈2 — 1 3 3補充光線不足,組裝外殼2 ___ 1 12、2 — 113。 AB型同步手持裝置,包括:經_控顯示 10110024#單編號A0101 第23頁/共114頁 201238326 —2 21和左右觸控顯示面板2 —2 2 2控制方向、旋 轉、移動,和觸控顯示面板2_22 1一體31)立體裸 視顯示用來顯示2D、3D影像,3D立體晶片控制裝 置運作核心,3 D立體虛擬實境互動顯示、指揮、控制 介面,USB資料輸入、輸出、充電2 _ 2 2 3,聲音輸 入2 _ 2 2 4、聲音輪出2 — 2 2 5,控制按鍵2 — 2 2 6,内置方向感應器2〜2 2 7、重力感應器2 — 2 2 8可經由移動裝置控制方向、旋轉、移動,前鏡頭2 2 31自動對焦攝影,後鏡頭2 — 2 3 2自動對焦攝 影,閃光燈2 — 2 3 3補充光線不足,組裝外殼2 一 2 12、2-2 1 3。 AC型同步手持裝置,包括:經由觸控顯示面板2 —3 21和左右觸控顯示面板2一3 2 2控制方向、旋 轉、移動,和觸控顯示面板2一321—體3D立體裸 涵示絲顯示2D、3D影像,3D立體晶片控制裝 置運作核心,3 D立體虛擬實境互動顯示、指揮、控制 介面,USB資料輸入、輸出、充電2 — 3 2 3,聲音輸 入2 — 324、聲音輸出2 — 325,控制按鍵2 — 3 2 6,内置方向感應器2 - 3 2 7、重力感應器2 — 3 2 8可經由移動裝置控制方向、旋轉、移動,前鏡頭2 一 3 31自動對焦攝影,後鏡頭2 _ 3 3 2自動對焦攝 ’T、y閃光知· 2 — 3 3 3補充光線不足,組裝外殼2 — 3 12、2- 313 ’左右鍵盤2 - 3 41作為輸入。 BA型3D立體顯示,雙掃描線主動式,包括:經 由液晶由掃描線3 — 0 Ο 1、絕緣體3 — 〇 〇 2、電晶 體3-0〇3、電容3一0〇4、液晶3—〇〇5組成 1011002#單編號廳01 » 24頁/共114頁 201238326 Ο 10110024^^'^ ’經由鏡面反射光源 顯示亮度3 — 12 2 由單層光攔面板3〜 單方向3 — 121,經由控制液晶 ’穿過單層濾光板3 — 12 3,經 12 4,控制光線方向顯示影像3 125 ’雙掃描線畫面顯示更快。Β Β型3 D立體顯示,雙掃描線被動式,包括··經 由液晶由掃描線3 -〇 〇 體3 — 〇 Q 3、電容3 、絕緣體3 — 0 0 2、電晶 —〇 0 4、液晶3 — 0 0 5組成 ’經由鏡面反射光源單方向3 - 2 21,經由控制液晶 齡亮度3-2 2 2,穿過單層滤光板3 —2 2 3,經 由單層光欄面板顯示水平、垂直光波3 — 2 2 4,控制 光線方向顯7F讀3 - 2 2 5,雙掃描線晝面顯示更快 B C^_ 3 DiL體顯示,雙掃描線被動式三方向顯示 ’包括:經由液晶由掃描線3—〇〇1、絕緣體3一〇 02、電晶體3-〇〇3、電容3-0 0 4、液晶3-〇 〇 5組成,經由鏡面反射光源單方向3 — 3 2 1,經 由控制液晶顯示亮度3 —3 2 2,穿過單層濾光板3_ 3 2 3,經由單層光欄面板顯示水平、垂直光波3一3 24 ’控制光線方向穿過角度透鏡顯示影像3_325 ’雙掃描線畫面顯示更快。 BD型3D立體顯示’六掃描線被動式三方向顯示 ,包括:經由液晶由掃描線3〜〇〇i、絕緣體3 — 〇 02、電晶體3—〇〇3、電容3—⑽4、液晶3_ 0 0 5組成,經由鏡面反射光源單方向3 一 4 2丄,經 由控制液晶齡亮度3-42 2,穿過單層航板3一 42 3,經由單層光攔面板顯示水平、垂直光波3— 4 A0101 第25頁/共114頁 1012000420-0 201238326 24,控制光線方向穿過角度透鏡顯示影像3一425 ,六掃描線晝面顯示更快。 BE型3D立體齡,六掃描線鶴式,透鏡廣角 顯示,包括:經由液晶由掃描線3~〇〇1、絕緣體^ -002、電晶體3-003、電容3、004、液晶 3 — 0 0 5組成’經由鏡面反射光源單方向3 — 5 2工 ’經由控制液晶顯示亮度3 — 5 2 2,穿過單層遽光板 3 — 5 2 3,經由單層光欄面板顯示水平、垂直光波3 一5 2 4 ’控制光線方向穿過透鏡顯示影像3 — 5 2 5 ,六掃描線畫面顯示更快。 CA型3D立體裸視顯示,雙掃描線雙眼方向,包 括:經由控制液晶顯示方向以雙掃描線雙眼4—12為 光欄4一1 1方向設計中心’計算出光攔遮蔽方向、角 度。 C B型3 D立體裸視顯示,六掃描線雙眼方向,包 括:經由控制液晶顯示方向以六掃描線雙眼4一2 2為 光棚4 — 21方向設計中心,計算出光棚遮蔽方向、n 度。 CC型3D立體裸視顯示,六掃描線雙眼方向,包 括:經由控制液晶顯示方向以六掃描線雙眼4 — 3 2為 光欄4 — 31方向設計中心,計算出光根 1遮蔽方向、角 度。 DA型3 D立體裸視顯示,雙掃描線雙眼方向旋轉 液晶,包括:經由控制液晶顯示方向以反射光源單方向 ,經由控制液晶顯示亮度,穿過單層滤光板’控制電極 10110024^ 旋轉液晶方向、反射光線5—1 1,左顯示旋轉液晶反 A0101 第26頁/共114頁 ^12000420-0 201238326 射至左眼,右顯示旋轉液晶反射至右眼。 DB型3D立體裸視顯示,雙掃描線雙眼方向左右 液晶遮蔽,包括:經由控制液晶顯示方向以反射光源單 方向,經由控制液晶顯示亮度,穿過單層濾光板,單透 鏡顯示點分割左邊、右邊5 — 21 ’控制電極遮蔽透鏡 液晶左邊、右邊’左顯示遮蔽右眼顯示畫面,右顯示遮 蔽左眼顯示畫面。 DC型3D立體裸視顯示,雙掃描線雙眼方向左右 透鏡折射光線’包括:經由控制液晶顯示方向以反射光 ι 源單方向’經由控制液晶顯示亮度,經由控制透鏡折射 光線方向5 — 31,調整透鏡角度控制左邊、右邊影像 〇 DD型3D立體裸視顯示,雙掃描線雙眼方向左右 透鏡折射光線,包括:經由控制液晶顯示方向以反射光 源單方向’經由控制液晶顯示亮度,經由控制透鏡折射 光線方向5—41,調整透鏡角度控制左邊、右邊影像 〇 ϋ D Ε型3 D立體裸視顯示,雙掃描線雙眼方向左右 透鏡折射光線,包括:經由控制液晶顯示方向以反射光 源單方向,經由控制液晶顯示亮度,經由控制透鏡折射 光線方向5 — 51,調整透鏡角度控制左邊、右邊影像 〇 DF型3D立體裸視顯示,雙掃描線雙眼方向多視 角’包括:經由控制液晶顯示方向以反射光源單方向, 經由控制液晶顯示亮度,穿過單層濾光板,經由多層光 攔遮蔽光線5 — 61,經由計算經由者位置多募所站立 1〇11〇〇24#單編號Α0101 第27頁/共114頁 201238326 角度’計算出光欄遮蔽位置。 E A型3 D立體投影機,混合光束,包括··經由混 合色彩6—16產生投影光束顏色,蜂巢圓形磁場6-1 4父錯S極N極控制光束裝置6 — 1 5移動方向,固定 光束旋轉軸6 — 12顯示影像,旋轉軸6_13組裝光 束裝置6 — 15,組裝外殼6 — 17,影像經由反射銀 幕反射光波。 E B型3 D立體投影機,六掃描線雙投影機,包括 •經由六掃描線雙投影機6 — 21,經由控制電極遮蔽 液晶水平、垂直方向6 一 3 2,分別由水平光攔31:)立 體投影機、垂直光攔3D立體投影機將,影像經由反射 銀幕反射光波。 E C型3 D立體投影機’六掃描線色彩分離,包括 、'’工由色彩分離顯示液晶6 — 3 1,多色顯示經由反射 光線,經由控制電極遮蔽液晶水平'垂直方向6 — 3 2 ,經過電子放大器6 ~ 3 3,在穿過透鏡6 — 3 4放大 顯示。 FA型3D立體裸視旋轉顯示,雙掃描線雙眼方向 ,包括:經由3 6 0度補7-1 1單一方向光,以雙 眼為光攔設計中心’計算出光欄方向角度,高速旋轉畫 面不斷重現’產生同-位置顯示錯覺,任何肢多能觀 看相同影像錯覺,產生30立體顯示錯覺。 F B型3 D立體裸視旋轉顯示,透明電晶體雙眼方 向’包括:經由3 6 〇度旋轉7 — 2!透明電晶體線路 ’高速旋轉透明發光電晶體,將3D立體影像資訊經由 旋轉過程,以圓心騎料計算中心,計算出旋轉需改變 1011002#單編號應01 第28頁/共114頁 201238326 顯示位置,將影像顯示。 GA型3D立體裸視顯示,六掃描線雙眼方向,旋 轉液晶反射顯示,包括:經由水平掃描線8 — 2 51控 制水平電極8 — 2 41旋轉液晶8 — 2 3方向,經由垂 直掃描線8 — 2 5控制垂直電極8 — 2 4旋轉液晶8 — 2 3方向,隔離層8 — 21隔絕電極相通,控制電極旋 轉液晶方向、反射光線,左顯示旋轉液晶反射至左眼, 右顯示旋轉液晶反射至右眼。 ΗA型3D立體多鏡頭攝影,雙鏡頭廣角平面虛擬 對焦攝影,包括:經由鏡頭攝影掃描經由透鏡9 — 1 2 4、9 一12 5調整入射光線9 一12 3穿過暗室9 — 12 2 穿過感光層 9 — 126、9-127、9_12 8經由感光電經體9 _141光波發射9 一14 2感測 影像、光波距離組合,閃光燈9 — 131補足光線、麥 克風9 一13 2同步錄音、攝影鏡頭9 — 13 3對焦攝 衫、光波發射接收9 — 13 4對焦掃描,經由圓形廣角 感光虛擬對焦攝影,軟體控制攝影中心9 一 512位置 〇 、光波掃描中心9 — 513位置,控制虛擬焦點c點9 511位置计异物體距離、攝影,影像經由後製處理 進行擬和成3D立體影像,經由雙鏡頭廣角平面虛擬對 焦攝影,影像經由後製處理進行擬和成3D立體景深影 像,將原始影像以多層影像檔案儲存,以光波掃描虛擬 焦點C點位置計算物體距離,經由移動虛擬焦點計算物 體距離,計算個角度距離資訊經由後製處理,建構3D 立體影像-歧’閃光燈補足緣不足,同步語音錄製。 1012000420-0 Η B型3 D立體多鏡頭攝影,三鏡頭廣角平面虛擬 10110024^單编號Α0101 第29頁/共114頁 201238326 對焦攝影’包括:經由鏡頭攝影掃描經由透鏡9 一工2 4、9一125調整入射光線9一i 23穿過暗室9一 12 2 穿過感光層 9 — 126、9 — 127、9 — 12 8經由感光電經體9 — 141光波發射9 一14 2感測 影像、光波距離組合,閃光燈9 — 2 3 i補足光線、麥 克風9 —2 3 2同步錄音、攝影鏡頭9一2 3 3對焦攝 影、光波發射接收9 —2 3 4對焦掃描,經由圓形廣角 感光虛擬對焦攝影,軟體控制攝影中心9 一 512位置 、光波掃描中心9 - 513位置,控制虛擬焦點c點9 —51 1位置計算物體距離、攝影,影像經由後製處理 進行擬和成3 DiL體影像’經由三鏡_角平面虛擬對 焦攝影,影像經由後製處理進行中間攝影資料整合左、 右兩邊攝影資料,後製處理擬和成3體景深影像, 將原始影像以多層影像檔案儲存,以光波掃描虛擬焦點 C點位置計算物體距離,經由移動虛擬焦點計算物體距 離,计异個角度距離資訊經由後製處理,建構3 D立體 影像貢訊,閃光燈補足光線不足,同步語音錄製,閃光 燈補足光線不足,同步語音錄製。 H C』3 D立體多鏡頭攝影,雙鏡頭連動轴自動對 焦攝影’包括:經由鏡頭攝影掃描經由透鏡9 _12 4 、9 一12 5調整入射光線9 一12 3穿過暗室Θ — 1 2 2 穿過感光層 9一126、9 — 127、9 — 128 經由感光電經體9 一141光波發射9 一14 2感測影 像、光波距離組合,閃光燈9 一 3 31補足光線、麥克 風9 — 3 3 2同步錄音、連動轴9 一 3 21移動攝影鏡 頭9 一 3 3 3對焦攝影、光波發射接收9一 3 3 4對焦 10110024#單編號A〇1〇i 帛30頁/共114頁 201238326 掃描’經由圓形廣角感光連動軸自動對焦攝影,軟體控 制攝影中心9 — 512位置、光波掃描中心9 ~ 513 位置’連動軸9 — 4 21移動焦點C點9 — 51 1位置 計算物體距離、攝影,影像經由後製處理進行擬和成3 D立體影像’經由雙鏡頭廣角連動軸自動對焦攝影,影 像經由後製處理進行擬和成3D立體景深影像,將原始 影像以多層影像檔案儲存,以光波掃描虛擬焦點C點位 置計异物體距離’經由移動連動軸自動計算物體距離, 計算個角度距離資訊經由後製處理,建構3D立體影像 Π L 貝訊’閃光燈補足光線不足,同步語音錄製。 HD型3 D立體多鏡頭攝影,三鏡頭連動軸自動對 焦攝影,包括:經由鏡頭攝影掃描經由透鏡9 — ^ 2 4 、9一12 5調整入射光線9 — 12 3穿過暗室9 — 1 2 2 穿過感光層 9 — 126、9 — 127、9 — 128 經由感光電經體9 — 141光波發射9 一14 2感測影 像、光波距離組合,閃光燈9 一 4 3 i補足光線、麥克 & 風9 一 4 3 2同步錄音、連動軸9 一 4 2丄移動攝影鏡 頭9 — 4 3 3對焦攝影、光波發射接收9 — 4 3 4對焦 拎描,經由圓形廣角感光連動軸自動對焦攝影,軟體控 制攝影中心9 — 512位置、光波掃描中心9 - 513 位置’連動軸9 —4 21移動焦點c點9-51 1位置 计具物體轉、攝影,影像經由後製處理進行擬和成3 D立體影像,經由三鏡顯肖連雜自賴鱗影,影 像备由後製處理進行巾_«料整合左、右兩邊攝影 貝料’後製處理擬和成3 D立體景深影像,將原始影像 ^以多層影像檀_存,以献掃描虛擬鎌C點位置計 1〇11〇〇2#單編號A0101 第si頁/共m頁 !〇12〇〇〇42〇-〇 201238326 算物體距離,經由移動連動轴自動計算物體距離,計算 個角度距離資訊經由後製處理,建構3D立體影像資訊 ,閃光燈補足光線不足,同步語音錄製。 IA型3D立體多鏡頭攝影掃描,廣角平面虛擬對 焦攝影掃描,包括:經由以圓中心為架設對焦攝影中心 點10 — 1 1,圍繞圓周對焦攝影,將個角度細微變化 影像經由後製處理,建構3D立體影像資訊;以圓中心 為對焦光波掃描中心點,圍繞圓周對焦光波掃描,計算 個角度距離資訊經由後製處理,建構3D立體影像資訊 〇 IB型3D立體多鏡頭攝影掃描,連動軸廣角自動 對焦攝影掃描,包括:經由以圓中心為對焦攝影中心點 10 — 21,圍繞圓周對焦攝影,將個角度細微變化影 像經由後製處理,建構3D立體影像資訊;以圓中心為 對焦光波掃描中心點,圍繞圓周對焦光波掃描,計算個 角度距離資訊經由後製處理,建構3D立體影像資訊。 I C型3D立體多鏡頭攝影掃描,全景廣角自動對 焦攝影掃描,包括:經由以圓中心為對焦攝影中心點1 0 — 31,圍繞圓周對焦攝影,將個角度細微變化影像 經由後製處理,建構3D立體全景廣角影像資訊;以圓 中心為對焦光波掃描中心點,圍繞圓周對焦光波掃描, 計算個角度距離資訊經由後製處理,建構3D立體全景 廣角影像資訊。 J A型3D立體多鏡頭攝影掃描,全景廣角自動對 焦攝影掃描監控,架構圖,包括:經由架設多視角多方 向自動對焦攝影10 — 41,將多方向自動對焦攝影掃 1011002#早編號 A0101 第32頁/共114頁 1012000420-0 描資訊,組合成3D立體影像資訊,進行全方位3〇立 體多鏡頭攝影監控,自鱗輯影鋼特定監控目標物 ,經就由放大、縮小對鱗影,分析判斷各種細微變化 、方向移動改變。 KA型3D立體多鏡頭攝影掃描’全景廣角平面虛 擬對焦攝影掃描,包括:經由_廣域光連動轴自動 對焦攝影,軟體控制攝影中心11 — 512位置、光波 掃描中心1 1 - 5 1 3位置,移動焦點Cfi i i 一 5工 1位置計算物體距離、攝影’影像經由魏處理進行擬 和成3D立體影像’經由多鏡頭廣角平面虛擬對焦攝影 ,景;?像經由後製處理進行擬和成3 d立體景深影像,將 原始影像以多層影像檔案儲存,經由圓形廣角發射光波 、接收光波進行光、電、磁、波掃描計算虛擬焦點c點 位置,經由移動虛擬焦點計算物體距離,計算個角度距 離資訊經由後製處理,建構3D立體影像資訊,閃光燈 補足光線不足,同步語音錄製。 ΚΒ型3D立體多鏡頭攝影掃描,全景廣角連動輪 自動對焦攝影掃描,包括:經由圓形廣角感光連動轴自 動對焦攝影’軟體控制攝影中心1 1一 512位置、光 波掃描中心11 — 513位置,連動軸1 1 — 5 2 1移 動焦點C點1 1 — 51 1位置計算物體距離、攝影,影 像經由後製處理進行擬和成3 D立體影像,經由多鏡頭 廣角連動軸自動對焦攝影,影像經由後製處理進行擬和 成3D立體景深影像,將原始影像以多層影像檔案儲存 ,經由圓形廣角發射光波、接收光波進行光、電、磁、 波掃描計算虛擬焦點C點位置,經由移動連動輛自動售 Α0101 第33頁/共114頁 201238326 點計算物體距離,計算個角度距離資訊經由後製處理, 建構3D立體影像資訊,閃光燈補足光線不足,同步語 音錄製。 L A型3 D立體同樂機器人,蜂巢式磁場控制個關 節運動擬人機H人,包括:經憐巢式磁場㈣個關節 運動11-321,經由全景廣角連動輪自動對焦攝影 掃描1 1 - 3 31 ’語音輸入11 — 3 41、語音輸出 11一 3 4 2辨識語音產生互動,輸出相對應語音,連 魴軸自動對焦攝影掃描計算距離,經由圓形廣角發射光 波、接收光波進行光、電、磁'波掃描計算連動軸自動 對焦C點位置,經由移動連動軸自動焦點計算物體距離 ,计鼻個角度距離資訊經由後製處理,建構立體影 像貧訊,内置方向感應器、重力感應器分析目前方向、 控制平衡,蜂巢式圓形磁場S極n極交又排列組合而成, 圓形控制磁場模擬人的各種動作產生互動,接受各種指 令產生互動,全景廣角連動軸自動對焦攝影掃描進行3 D立體影像辨識,聲音辨識提供互動操控,擬人機器人 經由辨識影像、聲音互動操控學習,紀錄各種信息完成 各種任務。 L B型3 D立體同樂機器人,可煞車磁場馬達控制 個關節運動擬人機器人’包括:經由可煞車磁場馬達控 制個關節運動11-421,經由全景廣角連動轴自動 對焦攝影掃描1 1 — 4 31,語音輸入1 1一 4 41、 °。曰輸出1 1—442辨識聲音產生互動,輸出相對應 語音,連動軸自動對焦攝影掃描計算距離,經由圓形廣 1012000420-0 角發射光波、接收光波進行光、電、磁、波掃描計算連 10_2#單編號A〇101 第34頁/共„4頁 201238326 動軸自動對焦c點位置,經由移動連動轴自動焦點計算 物體距離,計算個角度距離資訊經由後製處理,建構3 D立體影像資訊,内置方向感應器、重力感應器分析目 前方向、控制平衡,可煞車磁場馬達控制各關節旋轉、 考曲,模擬人的各種動作產生互動,接受各種指令產生 互動,全景廣角連動軸自動對焦攝影掃描進行3 d立體 影像辨識,聲音辨識提供互動操控,擬人機器人經由辨 識影像、聲音互動操控學習’紀錄各種信息完成各種任 C1 μα型3 D立體實物仿製機器,3 D立體實物仿製 複製上色,包括:經由喷頭由物體喷頭12 — 131、 塗料喷頭12 — 13 2、放大鏡12-13 3和其零件 組成,經由固定柱工2 —丄22移動Z|il 2 —2丄 調整Z柄位置,固定座X轴Y軸12-151,設置旋 轉盤12~12 3旋轉方向角度,〇型環i 2 —丄2 4 保濩潤滑防止污垢進人,經由移動作控制前進、後退1 〇 2 — 12 6距離在設置旋轉方向馬達工2 — i 2 5控制Stereoscopic image. Stereoscopic display does not produce the most natural 3D ^ camera can not quickly sensitize, by suppressing the reflection of the photosensitive wafer into the light 'k liters speed enamel. - The general machine can not be copied in time 31) Three-dimensional object D three-dimensional physical imitation machine "3D stereoscopic image reproduction production / [invention content] [0003] This creation is a kind of instant interaction q ^ 〇 互动 interaction 3 体育 standing sports music device, 3D stereo imitation 'By simplifying the transistor line sacrificial structure 3 〇 three-dimensional wafer to increase the nose speed operation host system, fine by the synchronous handheld device, dual touch keyboard, dynamic controller operation host into a ^ Ding game text input, transfer / exchange Wheeling, output, instant tribute to listen to Zen boxing control game 'via 3 D virtual reality as interactive interface, 1 m ύ u stereo image recognition, speech recognition combined with interactive control, identification and '铋 by 3 D Stereoscopic display, 3D stereo image recognition, speech recognition, 0-body's access to food, clothing, living, science, medical, instant, interactive, surveillance, viewing, scanning through 3D multi-lens photography γ number drive, : t) stereo image database, shadow l〇ll〇〇24r / total 114 pages 1012000420-0 201238326 t discriminating 4, speech recognition combination - body 'for 3 D stereo image Voice: Identification and monitoring 3 〇 Stereoscopic images, sounds, expressions, movements, two small, direction, county subtle change identification, 3D stereoscopic image reproduction production through 3 仿立仿制机, via control 3d 立乐乐乐乐-同乐乐, Through 3D stereo multi-directional display - with the same music, 3D stereoscopic images through 3D stereoscopic viewing, 3D stereoscopic glasses to watch 3D stereoscopic images, multi-directional viewing 3D stereoscopic images, instant interactive recreation, through the most natural 3 DiL body display mode to view 3D stereo image interactive music 'to calculate 3D stereo images required for binoculars through 3D stereo image database, and provide 3D stereo image recognition and speech recognition to provide more accurate information interactive dialogue identification 3D stereoscopic images are combined into 3D stereoscopic images through 3D stereoscopic multi-lens photography. 3DL stereo image speech touch, 3D stereo image speech password recognition, 3D stereoscopic costume design, 3D stereo game design 3D stereoscopic animation design, 3 DiL ❹ lens photography design, 3D stereoscopic movie design, 3Dit multi-lens photography scanning, 3D stereoscopic imaging It can be combined with identification and speech recognition, and it can be used in 3D interactive teaching of 3D interactive teaching, 3D interactive medical, 3D interactive living, 3D interactive entertainment, 3D interactive real-time monitoring and so on. In order to achieve the purpose of this creation, this creation uses the following technical solutions, including: host, A-type synchronous handheld device, 6 type 3 £) stereo display, C-type 3 D stereo naked display, d-type 3 D stereo naked display ' E type 3 D stereo projector, f type 3 D stereo naked rotation display, 〇 type 3D stereo naked view display, η type 3D stereo multi-lens photography, I type 3 D stereo multi-lens photography scan, j type 3d stereo Lens photography scan 10110024#单号Α〇101 Page 10/114 pages 201238326 'K-type 3D stereo multi-lens photography scanning, l-type 3D stereo music robot, Μ type 3 D solid object imitation machine, n-type 3 D stereo Display glasses, type 0 panoramic dream projector. Host, including: fan 'power control, CD, input and output control board, 3 D stereo chip, 3 D stereo virtual reality, dual touch keyboard 'motion controller. 3 D-dimensional wafer, including: 3 D stereo X-axis γ-axis ζ axis electronic circuit, X-axis Υ axis Ζ axis computing core coding system. f) 3 D stereo X-axis γ-axis z-axis electronic circuit, including: X-axis Y-axis Z-axis electronic chip circuit architecture, X-axis γ-axis ζ-axis array memory line, pixel balance amplification line, used to operate the host to perform various The operation is to control the operation of various input and output devices and set various devices to perform operations. The X-axis Y-axis Z-axis transport core coding system includes: encoding and executing various command operations through the X-axis Y-axis Z coding system and the X-axis γ-axis z-axis electronic circuit to control the operation and monitoring of various device commands. ^ 3 D-dimensional virtual reality, including: through an artificial intelligence, virtual system interactive display, command, control interface, device through artificial intelligence to generate a virtual image, characters to engage in interactive dialogue, through the image, voice recognition interactive dialogue learning to enhance device intelligence Convert dialogue language, tone, and picture into standard grammar. For example, the same standard dictionary, manage images and pictures into different categories, define various characteristics, such as the same animal and plant, life dictionary, anthropomorphic learning on images, pictures, grammar, bamboo shoots Scholars, semantics, tone, sound and mutual interrogation, mutual _ should be _ a broken information, artificial intelligence virtual system through 3 d stereoscopic image, voice recognition interactive dialogue learning to enhance device wisdom, construct 3 DjL body image ^ News 10110024 #单编号A0101 Page 11/114 pages 201238326 Line comparison knows 'Control virtual robot to execute various commands, draw 3 d stereoscopic scene> Like map, 3D stereo image recognition, speech recognition knot ^__ body definition Class information, image recognition, speech recognition, and other types of management, anthropomorphic learning to store interactive information, Transformed into a virtual image, sound interactive learning dialogue, control 3D solid object imitation machine for 3D stereo object imitation, instant 3D stereo surveillance interactive control, 3D stereo virtual reality as interactive control interface, combined with 3D autofocus photography, image, sound Identify interactive Q&A dialogues, monitor physical movements and interactive manipulations, monitor voice-activated interactive controls, and use 3D stereoscopic information transformations in film production to replace the original moving people's things, real, ground, and objects with different shapes to simulate various photography, and replace them with any Scene change photography synthesis, used in 3D solid object imitation machine, 3D stereo information to design personal characteristic products, instant imitation production design items, interactive virtual characters, pets, robot interface to entertain together, command execution to complete various tasks for you, 3D stereo Tongle robot, perform various tasks and perform interactive interaction. 0 Dual touch keyboard, including: control direction, rotation, movement, keyboard typing input via left and right touch panels. The motion controller includes: controlling the direction, rotating, and moving via a button, a direction sensor, and a gravity sensor. The A-type synchronous handheld device controls the game, image, music and data transmission through the touch display panel. The dual touch keyboard controls the data input 'game movement, rotation, dynamic controller, hands and hands free to swing freely control the movement, Rotating 'manipulation domain operation, including: AA-type synchronous handheld device, AB-type synchronous handheld device, a-type synchronous handheld device. B type 3 D stereo display, active display, passive display, package 10110024# single number secret 1〇1 1012000420-0 page 12 of 114 201238326 Ο 1011003⁄4^ single number A0101 ΒΑ type 3D stereo display, dual scan line active; ΒΒ type 3 D stereo display tf ′ double sweep line passive; β. Type 3 D stereo display, double sweep finger passive passive two-way display; (10) type 3D stereo display six scan line passive two-way display; B E type 3 〇 stereo display, six scan line passive 'lens wide-angle display. C-type 3 D stereoscopic naked-view display, both eyes are the optical stop design center, including: CA type 3D stereoscopic naked-view display, dual scan line binocular direction; c B-type 3D stereoscopic naked-view display, six scan line binocular direction; ◦ c type 3 D stereoscopic apparent tf, six scan line binocular direction; c D type 3 D stereo naked view is not 'six scan line binocular direction, rotating liquid crystal reflection display, structural part drawing. D-type 3 D stereoscopic naked-view display, by controlling the rotation angle of the liquid crystal, changing the direction of the lens, changing the direction of the lens, and simultaneously shielding the liquid crystal to change the light direction, including: DA type 3D stereoscopic naked-view display, double scan line binocular search Rotating liquid crystal; DB type 31) domain minus display 'double scan line binocular direction left and right liquid crystal shadow; DC type 3D stereo naked view display 'double scan line binocular direction left and right lens refracting light; DD type 3D stereo naked _ show 'double Scanning line Wei direction left lens mirror refracted light; DE type 3 D stereoscopic naked view display, double scan line binocular direction left and right lens refracted light; DF type 3 D stereoscopic naked view display, double scan line binocular direction multi-view. £3D stereo projector, which projects different images of left and right eyes respectively through dual projectors' including: EA type 3D stereo projector, mixed beam, EB type 3D stereo projector, six scanning line dual projector; e C type 3 D stereo projector, six scan line color separation. 3D stereoscopic rotation display 'Through the high-speed rotation display, page 13/114 pages 1012000420-0 201238326 The eye produces the same position reproduction image, suppresses the light direction to produce multi-directional 3D stereo image, and rotates the transparent liquid crystal to generate 3 £) Stereoscopic images, including: FA type 3D stereoscopic stereoscopic rotation display, double scan line binocular direction; FB type 3D stereoscopic naked view rotation display, transparent transistor. G-type 3 D stereoscopic naked-view display, control horizontal and vertical liquid crystal direction ‘including · GA type 3D stereoscopic naked-view display, six scan line binocular direction, rotating liquid crystal reflection display. Η-type 3 D stereo multi-mirror shadow '3D stereoscopic virtual focus photography, including: ΗA type 3 D stereo multi-lens photography, dual-lens wide-angle plane virtual focus; ΗB-type 3D stereo multi-camera operation three-lens wide-angle plane virtual pair f HC^3D reading town mirror, double lens autofocus; HD 3D stereo multi-lens photography, three-lens autofocus. ^ Limb multi-lens photography scan, 3 〇 stereo image photography scan. Including IA type 3D stereo multi-lens photography scan, wide-angle plane virtual touch; 1 _D stereoscopic mirror image scan, linkage axis __, scanning; IM3D stereo head photography scanning, panoramic wide-angle AF scanning. J-type 3 D township her, heart-face photography scanning, including eight-type 3D stereo multi-lens photography scanning monitoring, panoramic wide-angle AF scanning monitoring. K-type 3D mail her lion, (10) stereoscopic image photography, scanning 'including: 3D multi-lens photography scanning, panoramic wide-angle plane virtual zonal scale drawing; Κβ type (10) domain multi-mirror scanning, panoramic wide angle _ automatic Focus photography scan. The recommendation number is deleted. The U3D stereo music robot is controlled by the command and the interactive music. The fourth page / total 1 Ι 4 pages flute 1 Λ _ 1012000420-0 201238326 机益人-同育乐' includes: LA type 3DiL 朗乐机器人, The honeycomb magnetic field controls a joint motion anthropomorphic robot; the L 6 type 3 D stereo homophone, the brake magnetic field motor controls the side section motion anthropomorphic robot. Μ-type 3D solid object imitation machine, optical, electrical, magnetic, wave-physical-chemical-biological-material combination analysis through copying objects, 3D stereotypes 'analysis, copying, analyzing data, information, constructing 3D stereoscopic images Information ' 3 D stereo information is converted into actual mass production, for food and shelter, monthly music, life, science, medical instant interaction, surveillance, ^ viewing, including: ΜΑ type 3 D solid object imitation machine, 3 D solid imitation Copy color; MB^3D solid object imitation machine, 3 D solid imitation engraving color; MC type 3 D solid object imitation machine, 3D stereo photo imitation printing color; MD type 3D stereo real imitation machine, 3D stereo Physical imitation sewing color. Ν3D stereo display glasses, watch active and passive 3D stereo display, including: NAs3d stereo display glasses, NBs3 D stereo display glasses. [) 全景-type panoramic dream projector, panoramic playback with rotating mobile stage control forward, backward _, including: Ο A-type panoramic dream projector. 3 D stereo multi-lens photography, interval image storage, the camera lens feels through the interval setting, the first camera lens, the second camera lens, the third camera lens to improve the resolution. 3 D stereo X-axis γ-axis z-axis electronic circuit, via multilayer crystal line board, Σα is formed, the pixel balance amplification circuit rotates the signal through the input signal through the transistor gate, and the pixel signal of the first point is added to the second pixel signal, and the wheel signal is shifted by one bit, and the average value is X-axis. Axis 2 Axis 1011002#^^^ Α〇101 Page 15 / Total m Page 201238326 Array memory line χ axis scanning signal line, γ axis scanning signal line, Z axis scanning signal control line. The touch display panel sends a signal via the X-axis scan signal line, and the touch-connected conduction signal prevents the untouched contact from being turned on, and transmits the signal through the Y-axis scan signal line. X-axis Y-axis Z-axis addition circuit diagram, the output is added by the X-axis and Y-axis addendum via the input, and the parent axis 〇丄2 3 4 and 0 5 signals are added via the round-in, and the γ-axis 加 2 is added. The 3 4 and 〇5 signals are added by the scan line transistor to the addendum X axis 〇 1 2 3 4 add γ axis 〇 12 3 4 signal, if the sum is greater than 5, the carry, if there is carry and Addition X axis 0 5 add γ axis 〇 5 add output result ' If the addition is greater than 1 〇 then carry. X-axis Y-axis Z-axis subtraction circuit diagram, which is subtracted from the χ axis and Y-axis sub-output by rounding, is subtracted from the input by the input χ axis 0 i 2 3 4 and 0 5 signal, minus γ axis 〇 12 3 The 4 and 0 5 signals are subtracted from the X-axis Ο 1 2 3 4 minus the Y-axis 〇 12 3 41⁄2 by the scan line transistor. If the subtraction is greater than the subtracted number, the borrow is decremented by 5, If there is a borrow, the borrowing 5 is added to the subtracted axis 〇5, and the subtraction is subtracted from the y-axis 0 5 output. If there is a borrow, the 1 is abdicated. X-axis Y-axis Z-axis multiplication circuit diagram, the result is rotated by the input multiplicand χ axis, Υ axis multiplier, and the multiplier X axis 〇 12 3 4 and 0 5 signals, multiplier 丫 axis 〇丄 2 3 4 and 〇5 signals, through the scan line transistor will be multiplied by the axis 〇i 2 3 4 multiplier Y axis 〇 12 3 4k number multiplied round the result, if the multiplication is greater than 5 then carry, if there is carry and The multiplicand χ axis 〇 12 3 4 multiplier γ axis 〇 12 3 4 is added, plus the multiplicand χ axis 〇 5 multiplier γ axis 〇 5 multiplied output result 10110024^ single number Α 0101 page 16 / total 114 pages 201238326, if the sum is greater than i〇 then carry. The X-axis, axis, and axis division operation circuit diagrams are divided by a counter accumulating addition value and a subtraction method, and the subtraction value is accumulated by a counter cumulative value, and the counter value is output, and the comparison is performed by subtracting the remainder value. [Embodiment] [0004] This creation is an instant interactive 3D sports music device, 3D stereo imitation, which increases the operation speed of the host system through the simplified transistor circuit design structure 3D stereo chip, via synchronous handheld device, double touch Control keyboard, dynamic controller operation host for game, text input, data exchange input, output, instant swing control game, 3D virtual reality as interactive interface, 3D stereo image recognition, speech recognition combined with interactive control Identification of props, through 3D stereoscopic display, 3D stereoscopic image recognition, and speech recognition, for instant interaction, monitoring, and viewing of food, clothing, recreation, life, science, and medical, through 3D stereoscopic multi-lens photography Combine 3D stereo image database, combine image recognition and voice recognition, and perform 3D stereo image and voice password identification to monitor 3D stereo image, sound, expression, motion, distance, size, direction, and movement subtle change identification. 3D solid object imitation machine will produce 3D stereo image, through control 3D stereo Music robots are together to play together, through 3D stereoscopic multi-directional display, 3D stereoscopic images through 3D stereoscopic viewing, 3D stereoscopic viewing glasses, 3D stereoscopic images, 3D stereoscopic images in multiple directions Yule, watch 3D stereoscopic image interactive music through the most natural 3D stereoscopic display mode, calculate 3D stereoscopic images required for both eyes through 3D stereo image database, identify 3D stereo image, voice 1012000420-0 10110024 ^单单Α〇101 Page 17/114 pages 201238326 Identification and integration provide more accurate information interactive dialogue identification, combined into 3D stereoscopic images through 3D stereo multi-lens photography, and 3D multi-lens photography in 3D Stereo image speech recognition, 3D stereo image speech password recognition, 3D stereoscopic costume design, 3D stereo game design, 3D stereo animation design, 3 DiL body lens photography. Ten 3D stereoscopic movie design, etc., through 3D stereo multi-lens photography scanning, 3D stereo image recognition, and speech recognition combined for identification, used in 3D interactive teaching, 3D interactive medical '3D interactive living, 3 DiL Interactive entertainment, 3D interactive real-time monitoring, etc. 3D stereo application. Including: host 'A type synchronous handheld device, B type 3D stereo display no 'C type 3 D stereoscopic naked view display, 0 type 3 body naked view display, E 5L 3 D stereoscopic viewfinder, f type 3 D stereo naked Depending on the rotation display, 〇-type 3D stereoscopic naked-view display, Η-type 3D stereo multi-lens photography,! 3D stereo multi-lens photography scan,〗 〖 (10) stereo multi-lens photography scan K-type 3D stereo multi-lens photography scan, 匕 type 3D stereo music machine benefit people, Μ type 3 D solid object imitation machine | |, (four) 3 D stereo display No glasses, 〇-type panoramic dream projector. Host, including: fan, power control, CD, I/O control board '3D stereo chip' 3D virtual reality, dual touch keyboard 'motion controller. 30-dimensional wafer, including: 3D stereo X-axis γ-axis z-axis electronic circuit, X-axis Y-axis Z-axis computing core programming system. 3D stereo X-axis analog axis electronic circuit, including: through the 乂 wheel Y sleeve z-axis electronic chip circuit architecture, χ sleeve γ axis z-axis array memory line, 1011002# single number A0101 pixel balance amplification line 'used to park the machine Execute various calculations on page 18 of 114 pages of 201238326 commands, control the operation of various input and output devices, and set various devices to perform operations. The X-sleeve Y-axis Z-axis different core coding system 'includes: encodes various command operations via the X-axis Y-axis Z coding system with the X-axis γ-axis z-axis electronic circuit, and controls the operation and monitoring of various device commands. 3D virtual reality, including: through artificial intelligence, virtual system interactive display, command, control interface, device through artificial intelligence to generate a virtual image, characters to engage in interactive dialogue, through the image, voice recognition interactive dialogue to learn to enhance device intelligence, Convert dialogue language, tone D, and pictures into standard grammar. For example, the same standard dictionary, manage images and pictures into different categories, define various characteristics, such as the same animal and plant, life dictionary, anthropomorphic learning on images, pictures, grammar, language , 1 I mean, Yan Wu 11, tone generated interactive information, interactive response - a positive green information, artificial intelligence virtual system through 3 〇 stereoscopic image, voice recognition interactive dialogue learning to enhance m Hui, construct 31) stereoscopic image information for comparison Scan, control virtual robots to execute various commands to draw 3d stereo images _, 3 D green image rhyme, voice touch combined with all kinds of poor news, image recognition, voice recognition, sort of management, anthropomorphic learning to store interactive information, into Virtual image, sound interactive learning dialogue, shop 3 D solid object imitation machine for 3D stereo object imitation, instant 3D stereo surveillance interactive control, 3D stereo virtual reality as a mutual secret control interface, combined with 3 D automatic touch photography image, sound fiber mutual akisaki _, limb movement interaction Control, monitor voice-activated interactive control, 3D stereo information conversion used in film production, replace the original moving people, things, real, earth, and objects with different shapes to simulate various photography 'arbitrary replacement of different scene changes photography synthesis, used in 1〇11 〇〇24#单号A0101 Page 19/total m page 201238326 3D solid object imitation machine g, 3D stereo information design personal characteristic products, (4) imitation drum design items, interactive virtual characters, stolen goods, robot interface - same Entertainment, command execution for you to complete a variety of tasks, 3D stereo music machine ϋ people's various tasks to perform interaction - with entertainment dual touch keyboard, including · control the direction, rotation, movement, keyboard typing wheel through the left and right touch panel . The motion controller includes: controlling the direction, rotating, and moving via a button, a direction sensor, a gravity sensor. Α-type sync hands are mixed, and the game is controlled via the touch display panel. Like a music > material to pass each other 'double touch keyboard manipulation data input' game movement, rotation, dynamic control (four) hands and hands free to swing freely control the movement, rotation, control the host operation, including: AA type with good holding device' AB rewards the county, A (10) synchronous handheld device. B type 3D stereo display 'active display passive display, including · BA type 3D stereo display' dual scan line active type, · bb type 3 D stereo display 'double scan line passive type; bw3d stereo display, double sweep scale passive three-way display ; BD type 3D stereo display, six scan line passive three-way display; Be ^ d stereo display six scan line passive, lens wide-angle display. C-type 3 D stereoscopic naked-view display, binoculars for the light bar design center including CA3L 3D stereoscopic naked-view display, dual scan line binocular direction; 匸B-type 3D stereoscopic naked-view display, six scan line binocular direction; CC type 3 D stereoscopic naked-view display, six scan line binocular direction; CD-type 3D stereoscopic naked-view display, six sweeping direction, _«reflective display, structural part drawing. 1011002#^ A〇101 Page 20 of 114 201238326 D-type 3 D stereo naked display 'Control liquid crystal rotation angle, direction change light, use lens to change light direction, synchronously shield liquid crystal to change light direction, including: DA Type 3D stereoscopic naked-view display, double-scanning line rotating in both eyes; DB-type 3D stereoscopic naked-view display, double-scanning line in both eyes, left and right liquid crystal shielding; DC type 3D stereoscopic naked-view display, double scanning line, double-eye direction Lens refracted light; DDS 3 D stereoscopic naked-view display, double-scan line binocular 艮 direction left and right lens refracted light; DE type 3 D stereoscopic naked-view display, double scan line binocular direction left and right lens refracted light; DF type 3 D stereo naked According to the display, the double scan line has multiple viewing angles in both eyes. E-type 3D stereo projector, which projects different images of left and right eyes respectively through dual projectors, including: EA type 3D stereo projector, mixed beam, EB type 3D stereo projector, six scanning line double projector; EC type 3 D stereo projector, six scan line color separation. F-type 3D stereoscopic rotation display, through the high-speed rotation display, the eye produces the same position reproduction image, suppressing the direction of the light to produce multi-directional 3 DiL body county 'rotating through crystal generation 3 £> stereo image, including: FA soil 3 DiL body naked rotation display * 'double scan line binocular direction; FB type 3D stereo naked view rotation display, transparent transistor. Stereo naked display, control horizontal and vertical liquid crystal direction. l Includes GA type 3d stereoscopic naked-view display, six scan lines in both eyes, and rotating liquid crystal reflection display. 1012000420-0 Η type 3 D stereo multi-lens photography, 3 D stereoscopic virtual focus photography, including: ΗΑ type 3 〇 stereo multi-lens photography, dual-lens wide-angle plane virtual focus; HB type 3D stereo multi-lens photography, three-level wide-angle plane Virtual focus; Hc type 3 DiL body multi-lens photography, dual lens 10110024^^^ A〇101 Page 21 / 114 pages 201238326 Self-scale coke; rib type 3 〇 and body eve mirror photography, three-lens autofocus. I type 3 D stereo multi-lens photography _, 3 d stereoscopic image photography, scanning, including: 卩 立体 stereo multi-lens photography scan ', wide-angle plane virtual focus scan; B ', Α. 3D stereo multi-lens photography scan, linked axis wide-angle AF scanning · Scanning, into 庠 & , ^ 3D stereo multi-lens photography 抑 u u flip autofocus scanning. Shaped 3 D stand-up mirror scanning, (10) stereoscopic photography '. Da Café Township Miscellaneous Surveillance, panoramic wide-angle AF scanning monitoring. /3D stereo multi-lens photography scanning, 3D stereoscopic image scanning c including KA type 3D stereo multi-lens photography scanning, panoramic wide-angle plane virtual «_ shadow scanning; k_3d stereo multi-lens photography scanning, panoramic wide __ self-face image scanning. Dust 3D stereo music machine! ^人's control and interaction with the robots through the control - the same as the music 'including: LA type 3D stereoscopic robot, honeycomb magnetic field control joint motion anthropomorphic robot; LB type 3D stereo music machine & people, magnetic field motor (four) Side (four) motion anthropomorphic robot. Bauxite 3D solid object imitation machine, optical, electrical, magnetic, wave-physical-chemical-biological-material combination analysis through imitation copying object 3D stereo simulation, analysis, copying, analysis of data, information, construction of 3D stereoscopic image Information '3D stereo information is transferred to actual mass production for food and clothing, recreation, life, science, medical instant interaction, surveillance, viewing, including: ΜΑ type 3D solid object imitation machine, 3D stereo imitation copying; MB Type 3D solid object imitation machine, 3 1011002#^^ A0101 Page 22 / 114 page 201238326 D solid object imitation engraving color; MC type 3D solid object imitation machine '3D stereo photo imitation printing color; md type 3D stereo Physical imitation machine, 3D solid imitation sewing color. N-type 3D stereoscopic display glasses, through active and passive stereoscopic display, include: να type 3D stereoscopic display glasses, NB type 3D stereoscopic display glasses. 〇-type panoramic dream projector, through panoramic broadcast; ^ with rotating movement stage control forward, backward rotation ‘including: ΟΑ-type panoramic dream projector. 〇 Refer to the first figure for interactive 3D stereo image recognition and speech recognition by setting multi-directional photographic lens J-2 2, gong-23, 1-24, 1-25, and interacting via screen playback image i - 2 6 Control viewing entertainment. The AA type synchronous handheld device comprises: a touch display panel 2 121 and a left and right touch display panel 2-12 2 control direction, rotation, movement, and touch display panel 2 - 121 - body 3 D stereo naked display To display 2D, 3D images, 3D stereo chip control device operation core, 3D stereo virtual reality interactive display, command, control interface, USB data input, output, charging 2 - 1 2 3, sound wheel 2 - 12 4, Sound output 2 — 12 5, control button 2~1 2 6, built-in direction sensor 2 — 12 7. Gravity sensor 丄 2 8 can control direction, rotation, movement through the mobile device, front lens 2-131 auto focus photography, Rear lens 2-13 2 Autofocus bokeh bokeh 'Flash 2 — 1 3 3 Supplementary light is insufficient, assembly housing 2 ___ 1 12, 2 — 113. AB type synchronous handheld device, including: _ control display 10110024# single number A0101 page 23 / total 114 page 201238326 - 2 21 and left and right touch display panel 2 - 2 2 2 control direction, rotation, movement, and touch display Panel 2_22 1 integral 31) Stereo naked view display for displaying 2D, 3D images, 3D stereo chip control device operation core, 3D stereo virtual reality interactive display, command and control interface, USB data input, output, charging 2 _ 2 2 3, sound input 2 _ 2 2 4, sound wheel 2 - 2 2 5, control button 2 - 2 2 6, built-in direction sensor 2 ~ 2 2 7, gravity sensor 2 - 2 2 8 via mobile device Control direction, rotation, movement, front lens 2 2 31 auto focus photography, rear lens 2 — 2 3 2 auto focus photography, flash 2 — 2 3 3 supplement light deficiency, assembly housing 2 2 12, 2-2 1 3 . The AC-type synchronous handheld device includes: a touch display panel 2 - 21 21 and a left and right touch display panel 2 - 32 2 control direction, rotation, movement, and touch display panel 2 - 321 - body 3D stereoscopic display Silk display 2D, 3D image, 3D stereo chip control device operation core, 3D stereo virtual reality interactive display, command, control interface, USB data input, output, charging 2 — 3 2 3, sound input 2 — 324, sound output 2 — 325, control buttons 2 — 3 2 6, built-in direction sensor 2 - 3 2 7. Gravity sensor 2 — 3 2 8 Control the direction, rotation, movement via the mobile device, front lens 2 - 31 31 autofocus photography , Rear lens 2 _ 3 3 2 Auto focus shooting 'T, y flash know · 2 — 3 3 3 Supplementary light is insufficient, assemble the housing 2 — 3 12, 2- 313 ' Left and right keyboard 2 - 3 41 as input. BA type 3D stereo display, dual scan line active type, including: through the liquid crystal by scanning line 3 - 0 Ο 1, insulator 3 - 〇〇 2, transistor 3-0 〇 3, capacitor 3 - 0 〇 4, liquid crystal 3 - 〇〇5Composition 1011002#单号厅01 » 24 pages/114 pages 201238326 Ο 10110024^^'^ 'Display brightness by specular reflection source 3 — 12 2 From single-layer optical barrier panel 3 to single direction 3 — 121, via Control the liquid crystal 'through the single-layer filter 3 - 12 3, after 12 4, control the light direction to display the image 3 125 'Double scan line display is faster. Β Β type 3 D stereo display, dual scan line passive, including · through the liquid crystal by scanning line 3 - 〇〇 3 - 〇 Q 3, capacitor 3, insulator 3 - 0 0 2, electro-crystal - 〇 0 4, liquid crystal 3 — 0 0 5 composition 'through the specular reflection source unidirectional 3 - 2 21, through the control of the liquid crystal age brightness 3-2 2 2, through the single-layer filter 3 - 2 2 3, through the single-layer diaphragm panel display level, Vertical light wave 3 — 2 2 4, control light direction display 7F read 3 - 2 2 5, double scan line face display faster BC^_ 3 DiL body display, dual scan line passive three-way display 'include: scan via liquid crystal Line 3—〇〇1, insulator 3〇02, transistor 3-〇〇3, capacitor 3-0 0 4, liquid crystal 3-〇〇5, through the specular reflection source in one direction 3 — 3 2 1, via control The brightness of the liquid crystal display is 3 - 3 2 2, passing through the single-layer filter 3_ 3 2 3, and displaying the horizontal and vertical light waves through the single-layer light barrier panel. 3 - 3 24 'Control the direction of light through the angle lens to display the image 3_325 'Double scan line The picture is displayed faster. BD type 3D stereo display 'six scan line passive three-way display, including: through the liquid crystal from scan line 3 ~ 〇〇i, insulator 3 - 〇 02, transistor 3 - 〇〇 3, capacitor 3 - (10) 4, liquid crystal 3_ 0 0 5 composition, through the specular reflection source in a single direction 3 4 4 丄, through the control of liquid crystal age brightness 3-42 2, through a single layer of navigation board 3 - 42 3, through the single-layer optical barrier panel display horizontal and vertical light waves 3-4 A0101 Page 25 of 114 1012000420-0 201238326 24, control the direction of light through the angle lens to display the image 3 - 425, the six scan line display faster. BE type 3D stereo age, six-scan line crane type, wide-angle lens display, including: through the liquid crystal by scanning line 3~〇〇1, insulator ^-002, transistor 3-003, capacitor 3, 004, liquid crystal 3 - 0 0 5 composition 'single direction through the specular reflection source 3 - 5 2 work' through the control of the liquid crystal display brightness 3 - 5 2 2, through the single-layer calender 3 - 5 2 3, through the single-layer diaphragm panel display horizontal and vertical light waves 3 A 5 2 4 'control light direction through the lens to display the image 3 - 5 2 5 , the six scan line display is faster. The CA type 3D stereoscopic naked-view display, the double-scanning line binocular direction, includes: calculating the light intercepting direction and angle by controlling the liquid crystal display direction with the double scan line eyes 4-12 as the light bar 4-11 direction design center. CB type 3D stereoscopic naked-view display, six scan line binocular direction, including: through the control liquid crystal display direction with six scan lines, two eyes 4, 2 2 as the light shed 4-21 direction design center, calculate the light awning direction, n degree. CC type 3D stereoscopic naked-view display, six scan line binocular direction, including: through the control liquid crystal display direction with six scan lines, two eyes 4 - 3 2 as the light bar 4 - 31 direction design center, calculate the light 1 shielding direction, angle . DA type 3D stereoscopic naked-view display, double-scanning line rotating the liquid crystal in both eyes, including: controlling the liquid crystal display direction by controlling the liquid crystal display direction, controlling the liquid crystal display brightness, passing through the single-layer filter plate 'control electrode 10110024^ rotating the liquid crystal Direction, reflected light 5-1 1, left display rotating liquid crystal reverse A0101 Page 26 / 114 pages ^ 12000420-0 201238326 Shoot to the left eye, right display rotates the liquid crystal to the right eye. DB type 3D stereoscopic naked-view display, double scan line binocular direction left and right liquid crystal shielding, including: controlling the liquid crystal display direction to reflect the light source in one direction, controlling the liquid crystal display brightness, passing through the single layer filter, and the single lens display point dividing the left side Right 5 - 21 'Control electrode shielding lens LCD left and right 'Left display shades right eye display, right display shades left eye display. DC type 3D stereoscopic naked-view display, the double-ray line binocular direction refracting light of the left and right lenses 'including: controlling the liquid crystal display direction by controlling the liquid crystal display direction by controlling the liquid crystal display direction, and refracting the light direction 5 - 31 via the control lens, Adjusting the lens angle to control the left and right images 〇 DD type 3D stereoscopic naked view display, the double scan line binocular direction left and right lenses refract light, including: controlling the liquid crystal display direction to reflect the light source in one direction 'via controlling the liquid crystal display brightness, via the control lens Refracting light direction 5-41, adjusting lens angle control left and right image 〇ϋ D Ε type 3 D stereo naked view display, double scan line binocular direction left and right lens refracting light, including: controlling the liquid crystal display direction to reflect light source in one direction By controlling the brightness of the liquid crystal display, refracting the light direction 5 - 51 via the control lens, adjusting the lens angle to control the left and right images 〇 DF type 3D stereoscopic naked view display, double scan line binocular direction multiple viewing angles 'including: controlling the liquid crystal display direction In one direction of the reflected light source, the liquid crystal display is illuminated by the control Degree, through a single-layer filter, through the multi-layer light block to cover the light 5 - 61, through the calculation of the location of the multi-raised position 1 〇 11 〇〇 24 # 单号 Α 0101 Page 27 / 114 pages 201238326 angle 'calculated light The bar shades the position. EA type 3D stereo projector, mixed beam, including ··············································· The beam rotation axis 6-12 displays the image, and the rotation axis 6_13 assembles the beam device 6-15. The assembly case 6-17, the image reflects the light wave via the reflective screen. EB type 3D stereo projector, six-scan dual projector, including • through six-scan double projector 6-21, through the control electrode to shield the liquid crystal horizontal and vertical directions 6 - 3 2, respectively by horizontal light barrier 31 :) The stereo projector and the vertical light barrier 3D stereo projector will reflect light waves through the reflective screen. EC type 3 D stereo projector 'six scan line color separation, including, ''work by color separation display liquid crystal 6 - 3 1, multi-color display through the reflected light, through the control electrode to shield the liquid crystal level 'vertical direction 6 - 3 2 , Through the electronic amplifiers 6 ~ 3 3, the display is enlarged through the lens 6 - 3 4 . FA type 3D stereoscopic vertical rotation display, double scan line binocular direction, including: 7-1 1 single direction light through 3 60 degrees, with two eyes as light barrier design center 'calculate the direction of the light bar direction, high speed rotation picture Constantly reproducing 'generating the same-position display illusion, any limb can view the same image illusion, resulting in 30 stereoscopic display illusion. FB type 3D stereo naked rotation display, transparent transistor binocular direction 'includes: through 3 6 rotation 7-2! transparent transistor line 'high-speed rotating transparent light-emitting transistor, the 3D stereoscopic image information through the rotation process, In the center of the center of the calculation, calculate the rotation to be changed 1011002# single number should be 01 page 28 / a total of 114 pages 201238326 display position, the image will be displayed. GA type 3D stereoscopic naked-view display, six-scan line binocular direction, rotating liquid crystal reflection display, including: controlling horizontal electrode 8 - 2 41 via horizontal scanning line 8 - 2 51 rotating liquid crystal 8 - 2 3 direction, via vertical scanning line 8 — 2 5 control vertical electrode 8 — 2 4 rotate liquid crystal 8 — 2 3 direction, isolation layer 8 — 21 isolation electrode is connected, control electrode rotates liquid crystal direction, reflects light, left display rotates liquid crystal to left eye, right displays rotate liquid crystal reflection To the right eye. ΗA-type 3D stereo multi-lens photography, dual-lens wide-angle planar virtual focus photography, including: scanning through the lens photography through the lens 9 - 1 2 4, 9 - 12 5 to adjust the incident light 9 - 12 3 through the darkroom 9 - 12 2 through Photosensitive layer 9 - 126, 9-127, 9_12 8 through the photosensitive body 9 _141 light wave emission 9 - 14 2 sensing image, light wave distance combination, flash 9 - 131 complement light, microphone 9 - 13 2 simultaneous recording, photographic lens 9 — 13 3 Focusing shirt, light wave receiving and receiving 9 — 13 4 Focus scanning, through circular wide-angle photosensitive virtual focus photography, software control photography center 9 512 position 〇, light wave scanning center 9 — 513 position, control virtual focus c point The distance between the 9 511 position and the object is photographed, and the image is merged into a 3D stereo image through post-production processing. The virtual focus is captured by the dual-lens wide-angle plane, and the image is blended into a 3D stereoscopic depth image through post-processing, and the original image is The multi-layer image file is stored, and the object distance is calculated by scanning the virtual focus C point position of the light wave, and the object distance is calculated by moving the virtual focus to calculate the angular distance. The information is processed through post-production, and the 3D stereoscopic image-discriminate flash is insufficient to complement the voice recording. 1012000420-0 Η B type 3 D stereo multi-lens photography, three lens wide-angle plane virtual 10110024^ single number Α 0101 page 29 / 114 pages 201238326 Focus photography 'including: scanning through the lens through the lens 9 work 2 4, 9 A 125 adjusts the incident light 9 - i 23 through the dark room 9 - 12 2 through the photosensitive layer 9 - 126, 9 - 127, 9 - 12 8 via the photosensitive body 9 - 141 light wave emission 9 - 14 2 sensing image, Light wave distance combination, flash 9 - 2 3 i complement light, microphone 9 - 2 3 2 synchronous recording, photographic lens 9 - 2 3 3 focus photography, light wave transmission reception 9 - 2 3 4 focus scanning, through circular wide-angle photosensitive virtual focus Photography, software control photography center 9 512 position, light wave scanning center 9 - 513 position, control virtual focus c point 9 - 51 1 position calculation object distance, photography, image is post-processed into 3 DiL body image 'via Three-mirror _ angular plane virtual focus photography, the image is processed by the post-production process to integrate the left and right photographic data of the intermediate photographic data, and the post-processing process is combined into a three-body depth image, and the original image is a multi-layer image file. Save, scan the virtual focus C point position to calculate the object distance, calculate the object distance by moving the virtual focus, calculate the different angle distance information through post-processing, construct 3D stereo image tribute, flash fills insufficient light, synchronous voice recording, The flash complements the lack of light and synchronizes voice recording. HC』3D stereo multi-lens photography, dual-lens linked-axis autofocus photography' includes: scanning through the lens through the lens 9 _12 4, 9 - 12 5 to adjust the incident light 9 - 12 3 through the darkroom Θ - 1 2 2 through Photosensitive layer 9-126, 9-127, 9-128 via photoreceptor 9-141 light-wave emission 9-142 sensing image, light wave distance combination, flash 9-31 complementing light, microphone 9-3 3 2 synchronization Recording, Linking Axis 9 - 3 21 Moving Photographic Lens 9 - 3 3 3 Focusing Photographing, Light Wave Transmitting Receiving 9 - 3 3 4 Focusing 10110024# Single Number A〇1〇i 帛 30 Pages / Total 114 Pages 201238326 Scanning 'Circular Wide-angle photographic linkage axis autofocus photography, software control photography center 9 - 512 position, light wave scanning center 9 ~ 513 position 'linking axis 9 - 4 21 moving focus C point 9 — 51 1 position calculation object distance, photography, image via post system Processing and performing 3D stereoscopic image 'automatic focus photography through two-lens wide-angle linkage axis, the image is merged into a 3D stereoscopic depth image through post-processing, and the original image is stored in a multi-layer image file to light wave Scan the virtual focus C point to set the distance of the different object 'Automatically calculate the distance of the object through the moving linkage axis, calculate the angular distance information through the post-processing to construct the 3D stereo image Π L Beixun' flash complements the lack of light and synchronizes the voice recording. HD type 3D stereo multi-lens photography, three-lens linkage axis autofocus photography, including: scanning through the lens 9 - ^ 2 4 , 9 - 12 5 through the lens photography to adjust the incident light 9 - 12 3 through the darkroom 9 - 1 2 2 Through the photosensitive layer 9 - 126, 9 - 127, 9 - 128 through the photosensitive body 9 - 141 light wave emission 9 - 14 2 sensing image, light wave distance combination, flash 9 - 4 3 i complement the light, Mike & wind 9 1 4 3 2 Simultaneous recording, linkage axis 9 4 4 2 moving camera lens 9 — 4 3 3 Focus photography, light wave transmission reception 9 — 4 3 4 Focus scanning, through the wide-angle wide-angle photosensitive linkage axis autofocus photography, software Control photography center 9 - 512 position, light wave scanning center 9 - 513 position 'linking axis 9 - 4 21 moving focus c point 9-51 1 position gauge object rotation, photography, image is post-processed into 3 D stereo The image is imaged by the three mirrors, and the image is prepared by the post-processing process. The material is integrated into the left and right sides of the camera. The post-processing process is combined into a 3D stereoscopic depth image, and the original image is multi-layered. Image Tan _ save, to scan the virtual镰C point position meter 1〇11〇〇2#单号A0101 Page si/total m page!〇12〇〇〇42〇-〇201238326 Calculate the distance of the object, automatically calculate the object distance via the moving linkage axis, calculate the angular distance The information is processed through post-processing to construct 3D stereoscopic image information, and the flash complements the lack of light and synchronizes voice recording. IA type 3D stereo multi-lens photography scan, wide-angle plane virtual focus photography scan, including: through the center of the circle to set the focus photography center point 10 - 1 1, focus on the circumference of the focus photography, the angle of the slight change image through post-processing, construction 3D stereoscopic image information; with the center of the circle as the focus of the focused light wave scanning, scanning around the circumference of the focused light wave, calculating the angular distance information through post-processing, constructing 3D stereoscopic image information 〇 IB type 3D stereo multi-lens photography scanning, linked axis wide-angle automatic Focus photography scan, including: focusing on the circumference of the center by focusing on the center of the center of the focus, 10-21, focusing on the circumference of the image, and reconstructing the image by subsequent processing to construct 3D stereoscopic image information; The focus light wave scan is performed around the circumference, and the angular distance information is calculated through post-processing to construct 3D stereoscopic image information. IC type 3D stereo multi-lens photography scanning, panoramic wide-angle autofocus photography scanning, including: focusing on the circumference through the center of the center of the focus of the focus of the center of the circle, the image is focused on the circumference, and the image is slightly changed by the post-processing to construct the 3D. Stereoscopic panoramic wide-angle image information; the center of the circle is the focus of the focused light wave scanning, and the focus light wave is scanned around the circumference to calculate the angular distance information through the post-processing to construct the 3D stereo wide-angle image information. JA type 3D stereo multi-lens photography scan, panoramic wide-angle autofocus photography scan monitoring, architecture diagram, including: through multi-view multi-directional autofocus photography 10 - 41, multi-directional auto-focus photography scan 1011002# early number A0101 page 32 / 114 pages of 1012000420-0 information, combined into 3D stereoscopic image information, to carry out a full range of 3 〇 stereo multi-lens photography monitoring, self-scaled shadow steel specific monitoring target, by zooming in and out on the scale shadow, analysis and judgment Various subtle changes and changes in direction are changed. KA type 3D stereo multi-lens photography scan 'universal wide-angle plane virtual focus photography scan, including: via _ wide-area light linkage axis autofocus photography, software control photography center 11 - 512 position, light wave scanning center 1 1 - 5 1 3 position, The moving focus Cfi ii is a 5-work 1 position to calculate the object distance, and the photography 'image is simulated into a 3D stereo image via Wei processing'. The multi-lens wide-angle plane virtual focus photography is performed; the image is simulated by the post-processing to form a 3D Stereoscopic depth image, the original image is stored in a multi-layer image file, the light wave is emitted through a circular wide angle, and the light wave is received to perform optical, electric, magnetic, and wave scanning to calculate the virtual focus c point position, and the object distance is calculated by moving the virtual focus to calculate the angular distance. The information is processed through post-processing to construct 3D stereoscopic image information, and the flash complements the lack of light and synchronizes voice recording. ΚΒ-type 3D stereo multi-lens photography scanning, panoramic wide-angle continuous-wheel autofocus photography scanning, including: through the circular wide-angle photosensitive linkage axis autofocus photography 'soft control photography center 1 1 512 position, light wave scanning center 11 - 513 position, linkage Axis 1 1 — 5 2 1 Moving focus C point 1 1 — 51 1 Position calculation of object distance, photography, image is merged into 3D stereo image through post-processing, and multi-lens wide-angle linkage axis autofocus photography, after image passing The system performs the simulation into a 3D stereoscopic depth image, stores the original image as a multi-layer image file, and transmits the light wave through the circular wide-angle, and receives the light wave to calculate the virtual focus C point position by optical, electric, magnetic, and wave scanning, and automatically moves through the mobile linkage. Sold out 1010101 Page 33 of 114 page 201238326 Point to calculate the object distance, calculate the angle distance information through post-processing, construct 3D stereo image information, flash to fill the lack of light, synchronous voice recording. LA type 3D stereo music robot, honeycomb type magnetic field control joint motion anthropomorphic machine H, including: through the nested magnetic field (four) joint movement 11-321, through the panoramic wide-angle linkage wheel autofocus photography scan 1 1 - 3 31 'Voice input 11 — 3 41, voice output 11 - 3 4 2 recognizes the voice to generate interaction, outputs the corresponding voice, and calculates the distance by the autofocus photography scan of the axis, and transmits the light wave through the circular wide angle, and receives the light wave for light, electricity and magnetism. 'Wave scan calculates the position of the interlocking axis autofocus C point, calculates the distance of the object through the moving linkage automatic focus, calculates the angle information of the nose through the post-processing, constructs the stereo image, and builds the direction sensor and gravity sensor to analyze the current direction. Control balance, honeycomb type circular magnetic field S pole n pole intersection and arrangement, circular control magnetic field simulates people's various actions to interact, accept various commands to interact, panoramic wide-angle linkage axis autofocus photography scan for 3D stereo Image recognition, sound recognition provides interactive control, and the anthropomorphic robot controls learning by recognizing images and sounds. Record a variety of information to complete a variety of tasks. LB type 3D stereo music robot, which can control the joint motion anthropomorphic robot by the brake magnetic field motor' includes: controlling the joint motion 11-421 via the brake magnetic field motor, and the autofocus photography scan 1 1 - 4 31 through the panoramic wide angle linkage axis. Voice input 1 1 - 4 41, °.曰 Output 1 1 - 442 recognizes the sound to interact, outputs the corresponding voice, and the linked axis autofocus photographic scan calculates the distance, emits light waves through the circular wide 1012000420-0 angle, and receives the light wave for optical, electrical, magnetic, and wave scanning calculations 10_2 #单编号A〇101 Page 34/Total 4 pages 201238326 Dynamic axis autofocus c point position, calculate the object distance by moving the linkage axis auto focus, calculate the angle distance information through post-processing, construct 3D stereo image information, Built-in direction sensor, gravity sensor analyzes the current direction, control balance, can control the rotation of the joints of the car magnetic field motor, test the song, simulate the various actions of the person to interact, accept various commands to interact, panoramic wide-angle linkage axis autofocus photography scan 3d stereo image recognition, sound recognition provides interactive control, and the anthropomorphic robot learns to record various information through the identification image and sound interaction to complete various C1 μα 3D solid object imitation machines, 3D solid imitation copying and coloring, including: Through the nozzle, the object nozzle 12-131, the paint nozzle 12-13 Magnifier 12-13 3 and its components, through the fixed column 2 - 丄 22 move Z | il 2 - 2 丄 adjust the Z handle position, the fixed seat X axis Y axis 12-151, set the rotating disk 12 ~ 12 3 rotation direction Angle, 〇 type ring i 2 — 丄 2 4 濩 濩 濩 防止 防止 防止 防止 防止 防止 防止 防止 防止 濩 濩 濩 濩 濩 濩 濩 濩 濩 濩 濩 濩 濩 濩 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 — —
旋轉方向,經由控制12 - 12 7馬達旋轉喷頭、刀頭 向12 141,控制3D立體實物仿製機器移動X 轴Y細Ζϋ、旋轉軸、肖度軸’經由設置光電感應裝置 i精確控制Χ輪¥軸2轴、旋轉轴、角度轴,3 D立體 貝訊進行後製處理成真實比例,對3 D立體仿製物體進 行光、電、磁、波、物理、化學、原子、奈米、材料組 成2理特性分析’分析仿製縣,依照分析結果經由各 種不米材料、化學變化材料,進行物理、化學變化組合 10110024^^ A0101 ^ ^ ^ 弟35頁/共114頁 201238326 塗’喷出奈紐料、顏色塗料凝結合成結合,製作不同 實物仿製複製上色對象經由不同大小機器,不同大小喷 塗材料,使實物仿製複製上色過程更加便利快速。 MB型3DiL體實物仿製機器,3D立體實物仿製 雕刻上色’包括:經由喷頭由物體喷頭12 - 131、 塗料噴頭12-132、放大鏡12—133和其零件 組成,經由固^柱12-122移動以12 —121 調整Z軸位置,固定座X轴Y軸12-15丄,設置旋 轉盤12 123旋轉方向角度,〇型環I?—124 保護满滑防止污垢進人,經由移動作控制前進後退工Rotation direction, by controlling 12 - 12 7 motor rotating nozzle, cutter head to 12 141, controlling 3D solid object imitation machine moving X axis Y fine 旋转, rotating shaft, diagonal axis 'accurate control wheel by setting photoelectric sensing device i ¥ axis 2 axis, rotation axis, angle axis, 3 D stereoscopic beacon is processed into a real proportion, and the 3D stereo imitation object is composed of light, electricity, magnetism, wave, physics, chemistry, atom, nano, material. 2 Analysis of rational characteristics 'Analysis of imitation counties, according to the analysis results through a variety of non-ric materials, chemical changes materials, physical and chemical changes combination 10110024^^ A0101 ^ ^ ^ brother 35 pages / a total of 114 pages 201238326 Tu 'spraying nai The color paints are combined and combined to make different physical imitations. Copying and coloring objects through different sizes of machines and different sizes of spraying materials make the imitation copying and coloring process more convenient and fast. MB type 3DiL body physical imitation machine, 3D solid imitation engraving and coloring' includes: consisting of object nozzle 12-131, paint nozzle 12-132, magnifying glass 12-133 and its parts through the nozzle, through the solid column 12- 122 moves 12-121 to adjust the Z-axis position, the fixed seat X-axis Y-axis 12-15丄, set the rotating disk 12 123 rotation direction angle, the 〇-shaped ring I?-124 protects the full slip to prevent dirt from entering, controlled by movement Forward and backward work
2—126距離在設置旋轉方向馬達12-125控制 旋轉方向,經由控制1 2 - 1 2 7馬達旋射頭、刀頭 方向1 2 1 4 1 ’控制3 DiL體實物仿製機器移動X 軸Y軸z軸、旋_、角度軸,經由設置光電感應裝置 ,精確控制X軸YW轴、旋轉軸、角雜,3 D立體 資訊進行後製處理成真實_,對3 D立體物體預設材 料雕刻1塗純軸,製作不同實物仿製闕上色對 象經由不同大小機器’不同大小預設材料,使實物仿製 雕刻上色過程更加便利快速。 MC型3D立體實物仿製機器,3D立體相片仿製 列印上色’包括:經由噴頭由物體噴頭12- 1 3 1、 塗料嘴頭1 32、放大鏡1 2-1 3 3和其零件 組成’經由固定枉12-12 2移動ZM12-121 調整z轴位置,固定座—151,設置旋 轉盤12 — 12 3旋轉方向角度,Ο型環12 - 12 4 。保制滑防止污垢進入,經由移動作控制前進、後退工 10110024#單編號A0101 第36頁/共114頁 201238326 2 — 12 6距離在設置旋轉方向馬達12_12 5控制 旋轉方向,經由控制12 — 12 7馬達旋轉喷頭、刀頭2-126 distance in the direction of rotation motor 12-125 control rotation direction, control 1 2 - 1 2 7 motor rotation head, cutter direction 1 2 1 4 1 'control 3 DiL body real imitation machine movement X axis Y axis Z-axis, rotary _, and angular axis, through the setting of photoelectric sensing device, precise control of X-axis YW axis, rotating axis, angular miscellaneous, 3 D stereo information for post-processing into real _, for 3 D solid object preset material engraving 1 Applying pure shafts, making different real imitation 阙 coloring objects through different sizes of machine's different size preset materials, making the physical imitation engraving process more convenient and fast. MC type 3D solid object imitation machine, 3D stereo photo imitation printing coloring 'including: through the nozzle from the object nozzle 12- 1 3 1 , paint nozzle head 1 32, magnifying glass 1 2-1 3 3 and its parts 'by fixing枉12-12 2 Move ZM12-121 Adjust the z-axis position, mount 151, set the rotary disk 12 — 12 3 rotation direction angle, Ο type ring 12 - 12 4 . Prevent slipping and prevent dirt from entering, control forward and backward through movement. 10110024# Single No. A0101 Page 36 / Total 114 Page 201238326 2 — 12 6 Distance in the setting direction of rotation motor 12_12 5 Control the direction of rotation, via control 12 — 12 7 Motor rotating nozzle, cutter head
方向12—141,控制3D立體實物仿製機器移動X 轴Y軸Z轴、旋轉軸、角度軸,經由設置光電感應裝置 ’精確控制X轴Y轴Z軸、旋轉轴'角度轴,3 D立體 資訊進行後製處理成真實比例,對立體影像進行光 學透鏡材料噴塗,凹凸透鏡增加影像可視範圍,經由計 算3 D立體影像資訊,建立多層光欄位置使雙眼觀看3 D立體影像,經由多張影像组合成3D動態影像將影 像印製在凹凸層,經由喷塗透鏡、多層光攔遮蔽影像, 在不同角度左眼、右眼看到不同影像,產生3 D立體動 態效果,影像喷塗在凹凸透鏡產生不同角度折射,不同 角度觀看琳同影像,計算多張影像不同角度多層光搁 ’產生3 D立體動態影像,依照仿製縣進行高壓、高 ’皿不米材料噴塗,噴出奈米材料顏色塗料凝結合成結 合’製作不_片仿製列印上色對象經由不同大小機器 ’不同大小噴塗材料,使相片仿製列印上色過程更加便 利快速。 立體實物仿製機 刀上色,包括:經由喷頭由物體噴頭1 2 — i 3Direction 12-141, control 3D solid object imitation machine movement X axis Y axis Z axis, rotation axis, angle axis, through the setting of photoelectric sensing device 'accurate control X axis Y axis Z axis, rotation axis 'angle axis, 3 D stereo information After the post-processing is performed into a real scale, the optical lens material is sprayed on the stereoscopic image, and the lenticular lens increases the visible range of the image, and the 3D stereoscopic image information is calculated to establish the position of the multi-layer optical column so that the 3D stereoscopic image is viewed by both eyes through multiple images. The composite 3D motion image is printed on the concave and convex layer, and the image is blocked by the spray lens and the multilayer light barrier. Different images are seen in the left and right eyes at different angles to generate a 3D stereoscopic effect, and the image is sprayed on the lenticular lens. Different angles of refraction, different angles to see Lintong image, calculate multiple images of different angles of multi-layer light-storing' to generate 3D stereoscopic motion images, according to the imitation county for high-pressure, high-dish not material spraying, sprayed nano material color paint condensation Combine the 'production not _ piece imitation print color objects through different sizes of machine' different sizes of spray materials to make the photo imitation Color printing process more convenience and fast. Three-dimensional physical imitation machine Knife coloring, including: through the nozzle from the object nozzle 1 2 - i 3
塗料噴頭1 2 1 q L 1 3 2、放大鏡12-1 3 3和其: 組成’經由固定柱12—122移動2軸12一丄 調整2轴位置,固定座X軸丫轴12-151,… 轉盤12-123術嫩,〇朗又: 保護潤滑防止污垢隹 ‘ _移動作控制前進、後i 距離在設置旋轉方向馬達 1011002#^ A0101 , 37. Ι25ί 弟37頁/共114頁 201238326 旋轉方向,經由控制12 — 12 7馬達旋轉噴頭、刀頭 方向12 — 141,控制3 D立體實物仿製機器移動X 軸Y軸Z軸、旋轉軸、角度軸,經由設置光電感應裝置 ’精確控制X軸Y轴Z軸、旋轉軸、角度軸,3D立體 資訊進行後製處理成真實比例,對3體服裝進行材 料分析’仿製縫紉上色機器建構仿製外觀造型,纖維材 料建喷塗出絲線、尼龍紡織服裝材料,交又噴塗凝結合 成網狀結構,化學纖維交又喷塗凝結合成絲線,不同服 裝進行不同處理方式,經由各式纖維、化學材料,將3 D立體資訊後製處理’設計繪製服裝造型、色彩,任意 變換衣物、造型、顏色替換各種尺寸、大小服裝,進行 各種造型編排、樣式設計符合個人特色,編織各種結構 、樣式、造型、顏色喷塗,進行各種材料合成製造,製 作不同實物仿製肋上色對象㈣㈣大小機器,不同 大小噴塗材料’使實物仿製縫紉上色過程更加便利快速 〇A型全景夢境投影機,經由液晶面板丄3 —工2 4顯不全景影像,經由透鏡^ 3_丄2 3放大影像,投 射到13 — 12 5牆壁產生全景影像,經由設置旋轉舞 台13 — 121、前進、後退移動工3_工2 2產生動 態3D體視覺。 3D立體多鏡頭攝影,經由間隔影像感光儲存,將 攝影鏡頭感光原件經由間隔設置丄3一2丄,第一攝 影鏡頭13 - 2 21、第二攝影鏡頭!3 一 2 2 2、第 三攝影鏡頭13-223提高解析度。 10110024#單編號 A01 〇1 3 D立體X軸γ軸z軸電子線路’經由多層晶體線 第38頁/共114頁 1012000420-0 201238326 路板結合而成14-1 1 1,像素平衡放大線路經由輪 入信號14-312經過電晶體開道14_3 i 4輸出 信號14-31 1,第-點像素信號i 4_3丄5相加 第二點像素信號,輸出信號位移一個位元為其平均值, X轴Y轴Z軸陣列記憶體線路i 4_2 i i X轴掃描信 號線14-212、Y軸掃描信號線i 4 — 2!3、z 軸掃描信號控制線14-214。 觸控顯示面板’經由X赠描信號線1 5-1 2 ] 15 — 221發出信號,經由觸摸連接工5 —工2 3 、15 - 2 2 3導通信號,間隔層15_124、15 —2 2 4防止未_碰觸導通,經由丫歸描信號線丄 5-122、15-222傳送信號。 X軸γ軸z軸加法運#電路圖,經由輸人被加數1 6 112、加數16-113輸出結果16-114Paint nozzle 1 2 1 q L 1 3 2, magnifier 12-1 3 3 and its: composition 'moving through the fixed column 12-122 2 axis 12 a 丄 adjust the 2-axis position, the fixed seat X-axis 丫 axis 12-151,... Turntable 12-123 is tender, and it is also: protection lubrication to prevent dirt 隹' _ movement for control forward, rear i distance in setting rotation direction motor 1011002#^ A0101, 37. Ι25ί 弟37 pages / total 114 pages 201238326 rotation direction, Control the 3D solid object imitation machine to move the X-axis Y-axis Z-axis, the rotation axis, the angle axis, and control the X-axis Y-axis precisely by setting the photoelectric sensing device by controlling the 12 - 12 7 motor rotating nozzle and the cutter head direction 12 - 141. Z-axis, rotary axis, and angle axis, 3D stereo information is processed into a real proportion, and material analysis is performed on 3-body garments. 'Imitation sewing color machine constructs imitation appearance shape, fiber material is constructed to spray silk thread, nylon textile garment material , and spray and condense into a network structure, chemical fiber is sprayed and condensed into a silk thread, different garments are treated differently, and various 3D stereo information is processed through various types of fibers and chemical materials. Shape, color, arbitrarily change clothing, styling, color to replace various sizes, sizes of clothing, carry out a variety of styling, style design in line with personal characteristics, weaving a variety of structures, styles, shapes, color spray, for the synthesis of various materials, making different physical Imitation rib coloring objects (4) (4) Size machines, different sizes of spray materials 'to make the physical imitation sewing process easier and faster 〇 A-type panoramic dream projector, through the LCD panel 丄 3 - 2 2 display no panoramic image, through the lens ^ 3 _丄2 3 Zoom in on the image and project it to the 13–12 5 wall to create a panoramic image. Dynamic 3D body vision is generated by setting the rotating stage 13-121, forward and backward movements. 3D stereo multi-lens photography, through the interval image sensitization storage, the photographic lens original is set by interval 丄 3 丄, the first camera lens 13 - 2 21, the second photographic lens! 3 1 2 2 2, the third photographic lens 13-223 improves the resolution. 10110024#单号A01 〇1 3 D D-axis X-axis γ-axis z-axis electronic circuit 'via multilayer crystal line page 38/114 pages 1012000420-0 201238326 Road board combination 14-1 1 1, pixel balance amplification line via The round-in signal 14-312 passes through the transistor open channel 14_3 i 4 output signal 14-31 1, the first-point pixel signal i 4_3 丄 5 adds the second pixel signal, and the output signal shifts one bit to its average value, the X-axis Y-axis Z-axis array memory line i 4_2 ii X-axis scan signal line 14-212, Y-axis scan signal line i 4 - 2! 3, z-axis scan signal control line 14-214. The touch display panel sends a signal via the X-broadcast signal line 1 5-1 2 ] 15 - 221 , and connects the signal through the touch connection 5 - 2 2 , 15 - 2 2 3 , the spacer layer 15_124, 15 - 2 2 4 Preventing the non-touch from being transmitted, and transmitting signals via the 丫-return signal lines 丄 5-122, 15-222. X-axis γ-axis z-axis plus method # circuit diagram, via input, add 1 16 112, add 16-113 output result 16-114
々由輪入被加數X輪、γ轴加數輸出結果經由輸入 被加數X轴〇12 3 4和〇 5信號、加數γ轴〇!2 3 4和〇 5信號’通過掃描線電晶體將被加數X軸〇12 數Y轴Ο 1 2 3 4信號相加輸出結果,如果相加 大於5則驗,如果有進位和被加數X轴0 5加數Y轴 0 5相加輸出結果,如果相加大於1Q則進位。 —轴Y軸ZM法運算電路圖,經由輸入被㈣ 10110024^^'^^々 by the round of the added X round, the γ axis addendum output is added via the input X axis 〇 12 3 4 and 〇 5 signal, add γ axis 〇 ! 2 3 4 and 〇 5 signal 'through the scan line The crystal will be added by the number of X-axis 〇 12 number Y-axis Ο 1 2 3 4 signal plus the output result, if the addition is greater than 5, if there is a carry and the added number X axis 0 5 add the number Y axis 0 5 add The output is rounded if the sum is greater than 1Q. - Axis Y-axis ZM method circuit diagram, via input (4) 10110024^^'^^
A010I 1 12、加數17 — 1 13輪出結果!7-1 1 、輸入被減數x轴、γ轴減數輪出結果,經由輸 被雜X轴〇 i 2 3 4和〇 5信號減數Y轴〇 1 2 號通過掃描線電晶體將被減數X軸〇丄 錢數Y轴〇玉2 3 4信號相減輪出結果,如果相 第39頁/共114頁 201238326 大於被減數則借_5,如果有借位則再借位5和被減 數X轴0 5相加在減去減數丫_ 5輸出結果如果有 借位則退位1。 X轴Y轴Z軸乘法運算電_,經由輸人被絲丄 8-112、乘數18-113輪出結果18—114 ’經由輸入被乘數X轴、γ轴乘數輪出結果 ,經由輸入A010I 1 12, addendum 17 — 1 13 round results! 7-1 1 , the input is reduced by the x-axis and the γ-axis is reduced. The result is subtracted by the input X-axis 〇i 2 3 4 and 〇5 signal minus the Y-axis 〇1 2 through the scan line transistor will be Subtraction X-axis 〇丄 money number Y-axis 〇玉 2 3 4 signal reduction round out results, if the phase is 39 pages / 114 pages 201238326 is greater than the number of subtracted _5, if there is a borrow, then borrow 5 It is added to the subtracted X axis 0 5 minus the subtraction 丫 _ 5 output result, if there is a borrow, it is abdicated. X-axis Y-axis Z-axis multiplication _, via the input entanglement 8-112, multiplier 18-113 rounds the result 18-114 'by the input multiplicand X-axis, γ-axis multiplier rounds the result, via Input
被乘數X抽〇 1 2 3 4和〇 5信號、乘數γ轴〇 ;L 2 3 4和0 5信號’通過掃描線電晶體將被乘數X軸〇 i 2 3 4乘數Y軸〇 1 2 3 4信號相乘輪出結果,如果相乘 大於5則進位’如果有進位和絲數細^丨2 3 4乘 數Y轴0 1 2 3 4相加’再加上被乘數5絲丫 軸0 5相乘輸出結果,如果相加大於^ 〇則進位。 X轴Y轴Z轴除法運算電路圖,經由一個加法工9 —211 '減法19~212組成除法,經由-個計數 态累積加法數值、減法組成除法,經由一個計數器累積 加法數值比對減法數值,輪出計數器數值、比對相減剩 餘數值。 【圖式簡單說明】 [0005]圖一本創作即時互動3D立體育樂裝置示意圖。 圖二本創作同步手持裝置示意圖。 圖三本創作3 D立體顯示示意圖。 圖四本創作3D立體裸視顯示示意圖。 圖五本創作3 D立體裸視顯示示意圖。 圖六本創作3 D立體投影機示意圖。 圖七本創作3 D立體裸視旋轉顯示示意圖。 1012000420-° 圖八本創作3 D立體旋轉液晶反射顯示示意圖。 10110024^單'編號A0101 第40頁/共114頁 201238326 圖九本創作3D立體多鏡頭攝影示意圖。 圖十本創作3D立體多鏡頭攝影掃描示意圖。 圖十一本創作3 D立體多鏡頭攝影3 D立體同樂機器人 示意圖。 圖十二本創作3D立體實物仿製機器示意圖。 圖十三本創作全景夢境投影機示意圖。 圖十四本創作3D立體X軸Y軸Z軸電子線路示意圖。 圖十五本創作觸控顯示面板示意圖。 圖十六本創作5和12 3 4線路加法運算電路示意圖。 圖十七本創作5和12 3 4線路減法運算電路示意圖。 圖十八本創作5和1 2 3 4線路乘法運算電路示意圖。 圖十九本創作5和1 2 3 4線路除法運算電路示意圖。 【主要元件符號說明】 [〇〇〇6]組合圖 1 — 11、1 — 21、1 — 31、1 — 41、2 -111、2-211、2-311 主風扇1 — 12、1 — 13 電源控制1一 1 4 光碟1 一 1 5 輸入輸出控制板1一16 3 D立體晶片1 — 1 7 3D立體多鏡頭攝影1 — 22、1 — 23、1 — 24、 1-25 3 D立體顯示1 一 2 6 道具1 一 2 7 同樂機器人1 — 28、 方向感應器 1一32、2 — 1 27、2 — 227、2 — 1012000420-0 10110024#單編號A〇101 第41頁/共114頁 201238326 3 2 7 重力感應器1 — 3 3 2 8 零件1 — 3 4、1 觸控面板1 — 4 2 外殼。2 —1 12 1 3、2-3 1 2 觸控顯示面板2— 2-222、2 — USB 2 - 1 2 3 ' 聲音輸入2—12 一3 4 1、1 1 一 聲音輸出2—12 一3 4 2、1 1一 控制按鍵2—12 前鏡頭2 —131 後鏡頭2 —13 2 閃光燈2—13 3 左右鍵盤2 — 3 4 液晶痛不3 — 1 1 4 1 1、3 — 51 、5 — 1 1、5 - 1 ' 5 — 6 1 ' 8 液晶零件3 — 0 0 0 0 4 ' 3 —0 0 2 3、3— 1 2 4 '2-128'2-228'2- 43、1-44、1—45 2-113、2-212、2-2 2-3 13 21、2—122、2-221、 2 1、2-3 2 2 -223、2-323 > 2-2 2 4 ' 2-3 2 4 ' 1 1 4 1 、2—225、2-325、11 4 2 ' 2-2 2 6 ' 2-326 2-231、2—331 2-232、2-332 2- 233、2-333 、3—211、3-311、3-、4—1 1、4 —21、4 —3 1 1、5-31、5-41、5—5 11 、3-002、3-003、3- 3- 121 ' 3-1 22 ' 3-1 3—125、3—221、3—2 10110·#單編號 A0101 1012000420-0 第42頁/共114頁 201238326 22'3-223'3-224'3-225'3-3 21、3-322、3—323、3—324、3—3 25、3 — 421、3-422、3-423、3 —4 24、3-425、3-521、3-522、3-5 23、3-524、3-525、6-32、6-33 '6-34'8-21'8-23'8-24'8-2 5' 8-241 '8-251 雙眼方向 4 — 12、4 — 22'4 — 32 投影機6 — 1 1、6 —21、6 —31、13 — 111 、 、 投影機零件 6 — 12、6 — 13、6 — 14、6 — 15 、6 — 16、6-17、13 — 121、13—122 ' 13-1 23 ' 13-124 3 6 0度旋轉顯示7—11、7-21 攝影鏡頭 9 — 111、9 — 211、9 — 311、9 — 411、11 — 111、11一211 攝影鏡頭零件9—121、9 — 122、9 — 123、 9-124'9—125、9—126、9—127、 9 — 128、9-141、9 — 1429 — 131、9 -132、9-133、9—134、9-231、9 -232、9一233、9 — 234、9 — 321、9 -331'9-332'9-333'9-334'9 一421、9-431、9一432、9一433、9 一 434 攝影焦點9 —5 11、11 —511、、' 攝影中心點9—512、9—513、11—512、 1011002#單編號 A〇101 第43頁/共114頁 1012000420-0 201238326 11- 513 多攝影鏡頭10—11、1〇一21、工〇_31、1 0-4 1 擬人機器人11一311、11-411 擬人機器人零件11 — 321、11一421 擬人機器人鏡頭11 — 331 ' 11 — 431 影鏡頭連動軸1 1一 4 21 3 D立體實物仿製機器丄2 — 1 1 3 D立體實物仿製機器零件12 — 121、12 — 12 2、12-123、12-124、12-125、1 2-126、12-127、12-131、12-1 32、12-133、12-141、12-151、 12- 161 間隔感光攝影儲存13 — 211、13 — 221、13 -222' 13-223 3 D立體X軸γ軸z轴電子線路14—ill、14 — 211、14—311 3 D立體X軸γ軸z軸電子線路掃描線丄4一 212、 14-213' 14-315' 14-316 3 D立體X軸γ軸z軸電子線路電晶體14 — 314 3 D立體X轴γ轴z軸電子線路輸入信號】4 一 3工2 3 D立體X軸γ軸z軸電子線路輸出信號丄4 3工3 觸控顯示面板掃描線15—121、15—122 觸控顯示面板零件15 — 111、15 — 211、15 -123 ' 15-124' 15-221 ' 15-22 2、15-223、15-224 1012000420-0 10110024#單編號A0101 第44頁/共114頁 201238326 X轴Y軸Z軸加法運算電路圖16—111、16—1 12'16-113'16-114 X軸Y軸Z軸減法運算電路圖17—111、17—1 12 ' 17-1 13 > 17-114 X軸Y軸Z軸乘法運算電路圖18—111、18—1 12、18-113、18—114 X轴Y轴Z軸除法運算電路圖19—111、19一2 1 1 ' 19-2 1 2The multiplicand X is tweeted by 1 2 3 4 and 〇5 signals, the multiplier γ axis 〇; L 2 3 4 and 0 5 signals 'passing the line transistor will be multiplied by the X axis 〇i 2 3 4 multiplier Y axis 〇1 2 3 4 signal multiply rounds the result, if the multiplication is greater than 5, the carry 'if there is carry and the number of wires is fine ^ 2 2 4 multiplier Y axis 0 1 2 3 4 add ' plus the multiplicand 5 wire axis 0 5 multiplied output results, if the addition is greater than ^ 〇 then carry. The X-axis Y-axis Z-axis division circuit diagram is divided by an adder 9-211 'subtraction 19~212, and the addition value is divided by a count state, and the division method is used to divide the subtraction value by a counter. The counter value is compared and the remaining value is subtracted. [Simple description of the diagram] [0005] Figure 1 is a schematic diagram of the creation of an instant interactive 3D sports music device. Figure 2 is a schematic diagram of the authoring synchronous handheld device. Figure 3 is a schematic diagram of the 3D stereoscopic display of the creation. Figure 4 is a schematic diagram of the creation of a 3D stereoscopic naked view. Figure 5 is a schematic diagram of the creation of a 3D stereoscopic naked view. Figure 6 is a schematic diagram of the creation of a 3D stereo projector. Figure 7 is a schematic diagram of the 3D stereoscopic rotation display of the creation. 1012000420-° Figure 8 is a schematic diagram of the 3D stereoscopic liquid crystal reflective display. 10110024^单'#A0101 Page 40 of 114 201238326 Figure 9 is a schematic diagram of 3D stereoscopic multi-lens photography. Figure 10 is a schematic diagram of the creation of 3D stereo multi-lens photography. Figure 11 Schematic diagram of the creation of 3D stereo multi-lens photography 3D stereo music robot. Figure 12 is a schematic diagram of the creation of a 3D solid object imitation machine. Figure 13 is a schematic diagram of the creation of a panoramic dream projector. Figure 14 is a schematic diagram of the creation of a 3D stereo X-axis Y-axis Z-axis electronic circuit. Figure 15 is a schematic diagram of the created touch display panel. Figure 16. Schematic diagram of the 5 and 12 3 4 line addition circuits. Figure 17. Schematic diagram of the 5 and 12 3 4 line subtraction circuits of the creation. Figure 18 is a schematic diagram of the 5 and 1 2 3 4 line multiplication circuits. Figure 19. Schematic diagram of the division circuit of the 5 and 1 2 3 4 lines. [Description of main component symbols] [〇〇〇6] Combination Figure 1 - 11, 1 - 21, 1 - 31, 1 - 41, 2 - 111, 2-211, 2-311 Main fan 1 - 12, 1 - 13 Power Control 1 - 1 4 Disc 1 - 1 5 Input and Output Control Board 1 - 16 3 D Stereo Wafer 1 - 1 7 3D Stereo Multi-Lens Photography 1 - 22, 1 - 23, 1 - 24, 1-25 3 D Stereoscopic Display 1 1 2 6 Props 1 - 2 7 Tongle Robot 1 - 28, Direction Sensor 1 - 32, 2 - 1 27, 2 - 227, 2 - 1012000420-0 10110024 #单号A〇101 Page 41 of 114 Page 201238326 3 2 7 Gravity sensor 1 — 3 3 2 8 Parts 1 — 3 4, 1 Touch panel 1 — 4 2 Enclosure. 2 —1 12 1 3, 2-3 1 2 Touch display panel 2- 2-222, 2 — USB 2 - 1 2 3 ' Sound input 2-12 1 3 4 1, 1 1 One sound output 2-12 3 4 2, 1 1 control button 2-12 front lens 2 - 131 rear lens 2 - 13 2 flash 2 - 13 3 left and right keyboard 2 - 3 4 LCD pain not 3 - 1 1 4 1 1 , 3 - 51 , 5 — 1 1、5 - 1 ' 5 — 6 1 ' 8 LCD parts 3 — 0 0 0 0 4 ' 3 —0 0 2 3,3— 1 2 4 '2-128'2-228'2- 43,1 -44, 1-45 2-113, 2-212, 2-2 2-3 13 21, 2-122, 2-221, 2 1 , 2-3 2 2 -223, 2-323 > 2-2 2 4 ' 2-3 2 4 ' 1 1 4 1 , 2 - 225, 2-325, 11 4 2 ' 2-2 2 6 ' 2-326 2-231, 2-331 2-232, 2-332 2 - 233, 2-333, 3-211, 3-311, 3-, 4-1-1, 4-21, 4-3, 1st, 5-31, 5-41, 5-5, 3-002, 3-003, 3- 3- 121 ' 3-1 22 ' 3-1 3—125, 3—221, 3—2 10110·#Single number A0101 1012000420-0 Page 42 of 114 201238326 22'3- 223'3-224'3-225'3-3 21, 3-322, 3-323, 3-324, 3-4 25, 3 - 421, 3-422, 3-423, 3 - 4 24, 3 -425, 3-521, 3-522, 3-5 23, 3-524, 3-525, 6-32, 6-33 '6-34'8-21'8-23'8-24'8-2 5' 8-241 '8-251 Eye direction 4 — 12, 4 — 22'4 — 32 Projector 6 — 1 1,6 —21,6 —31,13 — 111 , , Projector parts 6 — 12, 6 — 13, 6 — 14, 6 — 15 , 6 — 16, 6-17, 13 — 121, 13—122 ' 13-1 23 ' 13-124 3 6 0 degree rotation display 7-11, 7-21 Photographic lens 9 — 111, 9 — 211, 9 — 311, 9 — 411, 11 — 111, 11 211 Photographic lens parts 9-121, 9-122, 9-123, 9-124'9-125, 9-126, 9-127, 9-128, 9-141, 9-1429-131, 9-132, 9-133, 9-134, 9-231, 9-232, 9-233, 9-234, 9-321, 9-331'9-332'9-333'9-334'9 one 421, 9-431, 9 one 432, 9-433, 9-434 Photography Focus 9-5, 11-511,, 'Photography Center Point 9-512, 9-513, 11-512, 1011002# Single Number A〇101 Page 43/Total 114 Page 1012000420-0 201238326 11- 513 Multi-photographic lens 10-11, 1〇21, work _31, 1 0-4 1 Anthropomorphic robot 11-311, 11-411 Anthropomorphic robot parts 11 — 321 , 11 - 421 Anthropomorphic Robot lens 11 — 331 ' 1 1 — 431 Shadow lens linkage shaft 1 1 to 4 21 3 D solid object imitation machine 丄 2 — 1 1 3 D solid object imitation machine parts 12 — 121, 12 — 12 2, 12-123, 12-124, 12-125 , 1 2-126, 12-127, 12-131, 12-1 32, 12-133, 12-141, 12-151, 12-161 Interval Photographic Storage 13 — 211, 13 — 221, 13 - 222' 13-223 3 D stereo X-axis γ-axis z-axis electronic circuit 14-ill, 14 — 211, 14-311 3 D stereo X-axis γ-axis z-axis electronic circuit scanning line 丄 4 212, 14-213' 14-315 ' 14-316 3 D stereo X-axis γ-axis z-axis electronic circuit transistor 14 — 314 3 D stereo X-axis γ-axis z-axis electronic circuit input signal】 4 3 3 2 D D-axis X-axis γ-axis z-axis electronic circuit Output signal 丄4 3 work 3 touch display panel scan line 15-121, 15-122 touch display panel parts 15 — 111, 15 — 211, 15-123 ' 15-124' 15-221 ' 15-22 2 15-223, 15-224 1012000420-0 10110024#单号A0101 Page 44 of 11420338326 X-axis Y-axis Z-axis addition circuit Figure 16-111, 16-1 12'16-113'16-114 X-axis Y-axis Z-axis subtraction circuit Figure 17-111, 17-1 12 '17-1 13 > 17-114 X-axis Y-axis Z-axis Arithmetic circuit diagram of a method 18-111,18-1 12,18-113,18-114 X-axis Y-axis Z-axis division circuit diagram of a 19-111,19 211 '19-212
1011002#單編號 A_ 1012000420-0 第45頁/共114頁1011002#单号 A_ 1012000420-0 Page 45 of 114
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