TWM431354U - Real-time interactive 3D stereo emulation entertaining device - Google Patents
Real-time interactive 3D stereo emulation entertaining device Download PDFInfo
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101年.04月13日修正_頁 M431354 i、新型說明: 【新型所屬之技術領域】 [0001] 本創作關於一種即時互動3 D立體仿製娛樂裝置, 經由主機連接B型3D立體顯示器,C型3D立體裸視 顯示器,D型3 D立體裸視顯示器,E型3 D立體投影 機,F型3 D立體旋轉裸視顯示器,G型3 D立體裸視 顯示器,0型全景夢境投影機,Η型3 D立體多鏡頭攝 影機、麥克風,I型3D立體掃描多鏡頭攝影機、麥克 風,J型3 D立體掃描多鏡頭攝影機、麥克風,Κ型3 • D立體掃描多鏡頭攝影機、麥克風,Α型同步手持裝置 操作控制主機運作,操作控制L型3D立體同樂機器人 一同育樂,操作控制Μ型3D立體實物仿製機器即時生101.04月13日修正_Page M431354 i, new description: [New technology field] [0001] This creation is about an instant interactive 3D stereo imitation entertainment device, connected to the B-type 3D stereo display via the host, C type 3D stereoscopic display, D-type 3D stereoscopic display, E-type 3D stereo projector, F-type 3D stereo rotation naked-view display, G-type 3D stereoscopic display, 0-type panoramic dream projector, Η Type 3 D stereo multi-lens camera, microphone, I type 3D stereo scanning multi-lens camera, microphone, J type 3 D stereo scanning multi-lens camera, microphone, Κ type 3 • D stereo scanning multi-lens camera, microphone, 同步 type synchronous handheld Device operation control host operation, operation control L-type 3D stereo music robot together, operation control type 3D solid object imitation machine instant life
Q 產,配戴Ν型3 D立體顯示眼鏡觀看3 D立體影像,配 置方向感應器、重力感應器辨識移動方向、重力方向, 雙觸控鍵盤做為資料輸入、輸出、按鍵、移動介面,動 感控制器做為按鍵、移動介面,進行即時互動、辨識、 操作、控制、監視、觀看、輸入、輸出。 ® 經由3 D立體晶片簡化線路設計結構,增加系統運 算、操作、控制速度,經由同步手持裝置、雙觸控鍵盤 、動感操作、控制器運作主機進行遊戲、文字輸入、資 料交換輸入、輸出,即時揮拳操作、控制遊戲,經由3 D立體虛擬實境作為互動介面,結合3 D立體影像辨識 、語音辨識一體,互動操作、控制、辨識道具,經由結 合3D立體顯示、3 D立體影像辨識、語音辨識一體, 進行食衣住行、育樂、生活、科學、醫療即時互動、監 視、操作、控制 '觀看,經由3 D立體掃描多鏡頭攝影 1()。21951产單編號Α0101 第5頁/共147頁 1013138201-0 M431354 101年04月13日垵正替換頁 機’組合成3D立體影像資料庫,結合3d立體影像辨, 識、語音辨識-體,進行設定扣立體影像語音密碼、 ,、大小、方向 、移動、道具細微變化辨識、操作、控制、監視,經由 3D立體實物仿製機器即時仿製3〇立蹲影像生產經 由操作、控制3D立體同樂機器人-同育樂,經由3D 立體夕方向顯不-同育樂,經由 立體影像’喊3 Dit體顯示眼鏡觀看3 D立體影像, 夕方向觀看3D立體影像即時互動育樂經由最自然3 D立體顯tf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3D立體影像,經由結合 3 D立體影像辨識'語音辨識一體提供更精確互動對 話辨識資訊,經由3 0立體掃描多鏡頭攝影機,組合成 3 D立體影像資料庫,結合3 D立體影像辨識、語音辨 識體運用在3D立體影像語音密碼辨識、3D立體 服裝造型設計、3D⑽遊齡計、3d讀動畫設計 3D立體錄賴影機、3D立體電料等3 製作上ϋ 3D立體掃料鏡麵職組合成3D 立體影像資料庫,結合3 D立體影像辨識、語音辨識一 體,運用在3DiL體互動教學' 3D立體互動醫療、3 D立體互動生活、3DiL體互動娱樂、3D立體即時互 動、辨識、操作、控制、監視、觀看等等3D立體製作 上。 1013138201-0 經由3 DJl體掃描多鏡頭攝影機,組合成3 D立體 影像資料庫,結合3 D立體影像辨識'語音辨識一體, 進行各種即時互動、辨識、操作、控制、監視、觀看, 10021951#單编號A0101 帛6頁/共147頁 M4J1354Q production, wearing 3D stereo glasses to view 3D stereo images, configuration direction sensor, gravity sensor to identify the direction of movement, gravity direction, dual touch keyboard as data input, output, button, mobile interface, dynamic The controller acts as a button and a mobile interface for instant interaction, identification, operation, control, monitoring, viewing, input, and output. ® Simplifies the circuit design structure through 3D stereo chip, increases system operation, operation and control speed. Through synchronous handheld device, dual touch keyboard, dynamic operation, controller operation host for game, text input, data exchange input, output, instant Punch operation, control game, through 3D virtual reality as interactive interface, combined with 3D stereo image recognition, speech recognition, interactive operation, control, identification props, combined with 3D stereo display, 3D stereo image recognition, voice Identify one, carry out food, shelter, recreation, life, science, medical instant interaction, surveillance, operation, control 'viewing, multi-lens photography through 3D stereo 1 (). 21951 Production Order No. 1010101 Page 5/147 pages 1013138201-0 M431354 On April 13th, 101, the replacement page machine was combined into a 3D stereo image database, combined with 3D stereo image recognition, recognition and speech recognition. Set the stereoscopic image voice password, , size, direction, movement, props subtle change identification, operation, control, monitoring, through the 3D solid object imitation machine instant imitation 3 〇 蹲 蹲 image production through operation, control 3D stereo homophone - With the same music, through the 3D stereo eve direction - the same as the music, through the stereoscopic image 'Shout 3 Dit body display glasses to view 3 D stereoscopic images, eve direction to view 3D stereoscopic images, real-time interactive entertainment through the most natural 3 D stereo display tf Way to watch 3D stereoscopic image interactive music, calculate 3D stereoscopic images required by both eyes through 3D | 3D image database, and provide more accurate interactive dialogue identification information through 3D stereo image recognition 'speech recognition, through 30 stereo scan Multi-lens camera, combined into a 3D stereo image database, combined with 3D stereo image recognition, speech recognition body used in 3D stereo image voice password 3D (10) travel age design, 3D reading animation design 3D stereo recording machine, 3D stereo material, etc. 3 production captain 3D stereo sweep mirror combination into a 3D stereo image database, combined with 3 D stereo image recognition and speech recognition, used in 3DiL interactive teaching '3D interactive medical, 3D interactive living, 3DiL interactive entertainment, 3D stereo interactive, identification, operation, control, monitoring, viewing, etc. 3D stereo Production. 1013138201-0 Through the 3 DJl body scanning multi-lens camera, combined into a 3D stereo image database, combined with 3D stereo image recognition 'speech recognition integrated, for a variety of instant interaction, identification, operation, control, monitoring, viewing, 10021951# single No. A0101 帛 6 pages / 147 pages M4J1354
101 年13 日 用來改晷一般裝置不能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,組合成3D立體影像 Η料庫、3D立體辨識、3D立體即時互動、辨識、操 作、控制、監視、觀看問題,不能即時生產製造問題, 3 D立體顯示用來改善一般3 d影像播放,不是經由真 正3D影像資訊問題,經甾3體掃描多鏡頭攝影機 ,組合成3D立體影像資料庫,結合3D立體影像辨識 、語音辨識一體,即時互動、辨識、操作、控制、監視 、觀看、指揮 '娛樂,經由最自然雙眼觀看3 體影 像方式,3D立體自動對焦攝影技術,3D立體顯示器 、3D立體裸視顯示器、3D立體投影機、3D立體旋 轉裸視顯示器,提供觀看3 D立體影像,改良攝影鏡頭 提升感光速度、提高影像畫質,改良液晶顯示器提昇畫 面顯示速度、亮度、色彩,觀看3 D立體裸式、3 Da 體顯示更舒適。 經由3D立體掃描多鏡頭攝影機’組合成3D立體 影像資料庫’結合3 D立體影像辨識、語音辨識一體, .進行食綠行、育m、科學、s療即時互動、辨 識、操作、控制'監視、觀看,運用3 D立體實物仿製 機器,將3D立體設計轉為實際量產。 經由3D立體掃描多鏡頭攝影機,組合成3D立體 影像貝料庫,結合3 D立體影像纖、語音辨識—體, 進打3 D立體影像錄影、播放,經由發射、接收光、電 '磁、波進行掃描計算虛擬焦點c點距離,組合成3 d 立體影像資料庫,即時提供設計修改影像動晝造型,將 原人事時、地、物、場景,進行模擬各種攝影變 麵95#單编號麵 第7頁/共147頁 ^13138201-0 M431354On the 13th of the 13th, it was used to change the general device. It can not solve the problem of 3D stereo image recognition and voice recognition. It can solve the problem that the general device can't be combined into a 3D stereo image library, 3D stereo recognition, 3D stereo interaction, identification, operation, Control, monitor, watch problems, can not immediately produce manufacturing problems, 3 D stereo display is used to improve the general 3D video playback, not through the real 3D image information problem, through the 3 body scanning multi-lens camera, combined into a 3D stereo image database Combined with 3D stereo image recognition and voice recognition, real-time interaction, recognition, operation, control, monitoring, viewing, and directing 'entertainment, viewing 3 body image mode through natural eyes, 3D stereo AF photography technology, 3D stereo display, 3D stereoscopic display, 3D stereo projector, 3D stereoscopic naked-view display, provide 3D stereoscopic image viewing, improve photographic lens to enhance the speed, improve image quality, improve LCD display speed, brightness, color, view 3 D stereo, 3 Da body display is more comfortable. Through 3D stereo scanning multi-lens camera 'combined into 3D stereo image database' combined with 3D stereo image recognition, voice recognition integration, for food green, education, science, s treatment, instant interaction, identification, operation, control 'monitoring Watch and use the 3D solid object imitation machine to turn the 3D stereo design into actual mass production. Through 3D stereo scanning multi-lens camera, combined into a 3D stereo image library, combined with 3D stereo image fiber, voice recognition - body, into 3D stereo video recording, playback, via transmitting, receiving light, electricity 'magnetic, wave Scan to calculate the virtual focus c point distance, combined into a 3 d stereo image database, instantly provide design to modify the image dynamic shape, the original personnel time, ground, objects, scenes, simulation of various photography face 95# single number face Page 7 of 147 ^13138201-0 M431354
化合成替換不同人 '事、時、地、物、場景,進一·:--11-——I 住行、育樂 '生活、科學、醫療即時互動、監視、操作 、控制、觀看,經由3 D立體影像進行服裝設計改良, 直接仿製進行試穿,分析仿製物品之光、電、磁、波、 物理學、化工學、動力學、機械學、材科學,進行仿製 4’j模擬分析,結合光、電、磁、波、物理學、化工學、 動力學、機械學、材料學各種變化組合,噴塗凝結合成 仿製品》 經由3D立體多鏡頭自動攝影對焦掃描,結合3d 立體影像辨識、語音辨識-體,組合成3 D立體影像, 將原始人、事、時、地、物、場景,進行模擬各種攝影 _ 變化合成替換不同人、事、時、地、物、場景,運用在 3D立體照片、3D立體攝影、3D立體電影等等μ 立體製作上。Synthetic replacement of different people's things, time, place, objects, scenes, into one:: -11--I live, recreation, life, science, medical, instant interaction, monitoring, operation, control, viewing, via 3 D stereoscopic image for garment design improvement, direct imitation for try-on, analysis of light, electricity, magnetism, wave, physics, chemical engineering, dynamics, mechanics, material science of imitation articles, simulation analysis of 4'j, combined Light, electricity, magnetism, wave, physics, chemical engineering, dynamics, mechanics, materials, various combinations of changes, spray coagulation combined into imitation products. 3D stereo multi-lens automatic photography focus scanning, combined with 3D stereo image recognition, speech recognition - Body, combined into a 3D stereo image, the original person, thing, time, place, object, scene, simulation of various photography _ change synthesis replaces different people, things, time, place, object, scene, used in 3D stereo photos , 3D stereo photography, 3D stereoscopic movies, etc. μ stereo production.
經由-種虛擬系統人工智慧,3〇立體掃描多鏡頭 攝影機,組合成3D立體影像資料庫,結合3D立體影 像辨識、語音賴—體,進行3 D立體爾、語音資料 比對掃描,即時互動、顯示、指揮、辨識、操作、控制 、監視、觀看,結合3 D立體影像辨識、語音辨識一體 ,仃影像、語音、對話、互動、學習提升裝置智賽 將辨識之·、對話、語言、語氣料轉化為標準文 、@集、資料庫’定義各種辨識影像語音資訊分門 類管理’分析各種賴f軸容,擬人學習儲存互動 像、語音、互麟話學ff鱗等,轉化為一種虛擬 像、語音、互動對話學習資訊,如同-本標準辭典、 植物、生活字典,對影像、圖片、文法、語言、語意 1〇_^單编號A_ U頁/共147頁Through a kind of virtual system artificial intelligence, 3" stereo scanning multi-lens camera, combined into a 3D stereo image database, combined with 3D stereo image recognition, voice Lai-body, 3D stereo, voice data comparison scan, instant interaction, Display, command, identify, operate, control, monitor, watch, combine 3D stereo image recognition, voice recognition, 仃 image, voice, dialogue, interaction, learning and enhance device wise will recognize, dialogue, language, vocabulary Converted into standard text, @集,数据库's definition of various identification images, voice information, category management, 'analysis of various kinds of axis, anthropomorphic learning to store interactive images, voice, mutual linguistics, ff scales, etc., into a virtual image, Voice, interactive dialogue learning information, like - this standard dictionary, plant, life dictionary, for images, pictures, grammar, language, semantics 1〇 _ ^ single number A_ U page / a total of 147 pages
年 JYear J
4、音調產生互動信息,互動回應—個正確資訊經 由3 D立體虛擬實境作為即時互動、辨識、操作、控制 監視、觀看,將3D立體資訊轉化運用在3β立體虛 镟實境’將原始人、事、時、地、物、場景,進行模擬 各種攝影變化合成替換不同人、事、時、地物、場景 ’ 3 D立體虛擬實境作為即時互動、辨識'操作、控制 、監視、觀看介面’結合3 D立體自動對焦攝影,將影 像辨識、語音_互動問答對話,執行各種命令完成各 種任務’轉化為-種虛擬影像、人物、寵物,經由虛擬 影像、人物'寵物進行互動對話辨識提供資訊,互動辨 識回應-個正訊,辨識肢體動作互動操作、控制, 辨識語㈣_、_,、咖帛、虛 人執行各種命令,操作、控制3 D立體虛擬實境互動影 像、人物、寵物,執行各種命令完成各種任務,操作、 控制3D立體同樂機器人,進行各種任務執行互動—同 娛樂’繪製⑽立體影像地圖,3 D立體資訊設計出個 人特色產品,/運用在3 D立體實物仿製機器,操作、控 制3D立體實物仿製機器進行3D立體物體仿製,即: 仿製生產設計物品。 經由觸控面板操作、控制3 D立體遊戲、影像、立 樂運作雙手緊握動感控制器讓#自___^ 控制,經由結合3 D立體影像辨識、語音辨識-體,即 時互動、辨識、操作、控制、監視、觀看,語音轉 字編輯输人’ 3 Μ财擬實奴動職、人物 陪你一同娛樂。 ι物 【先前技術】 第9頁/共147頁 1002〗95〗#單编號Α0101 ^13138201-0 M431354 [0002] [0003] 101年04| 13日、核正替换頁 一般影像辨識無法進行3 D立體影像辨識,經由3 D立體自動對焦攝影模擬雙眼移動焦距,經由最自然方 法進行3 D立體多鏡頭攝影機拍照。 一般語音辨識只能用於導航語音,經由光、電、磁 、波結合影像辨識、語音辨識一體,提供更精準辨識能 力,即時互動、辨識、操作、控制、監視、觀看提供資 訊。 一般電晶體只能2 D設計線路,經由3 D立體多層 結構設計出3 D立體晶片線路結構。4, the tone generates interactive information, interactive response - a correct information through 3 D virtual reality as real-time interaction, identification, operation, control monitoring, viewing, 3D stereo information transformation in 3β stereoscopic virtual reality 'the original man , things, time, place, objects, scenes, simulate various photographic changes, synthesize and replace different people, things, time, features, scenes ' 3 D virtual reality as instant interaction, identification 'operation, control, monitoring, viewing interface 'Combined 3D stereo autofocus photography, image recognition, voice_interactive question and answer dialogue, perform various commands to complete various tasks' into virtual images, characters, pets, provide information through virtual images, characters' pets interactive dialogue identification , interactive identification response - a positive news, identification of limb movement interaction operations, control, identification language (four) _, _, curry, virtual people to execute various commands, operation, control 3D virtual reality interactive images, characters, pets, execution Various commands complete various tasks, operate and control 3D stereo music robots, and perform various tasks to perform interactions - Entertainment 'draw ⑽ three-dimensional image maps, 3 D three-dimensional information to design a personal specialty products, / use of imitation machine in 3 D three-dimensional objects, operation, control the 3D physical imitation machine 3D three-dimensional object imitation, namely: generic production design items. Through the touch panel operation, control 3D stereo game, video, and Lele operation, the two-handed grip dynamic controller allows #自___^ control, combined with 3D stereo image recognition, speech recognition-body, instant interaction, identification, Operation, control, monitoring, watching, voice-to-word editing and losing people's 3 Μ 拟 拟 拟 动 动 动 、 、 、 人物 人物 人物 人物 人物 人物 人物 人物 人物 人物 人物 人物ι物[前技术] Page 9/147 pages 1002〗 95〗 #单号Α0101 ^13138201-0 M431354 [0002] [0003] 101 years 04|13, nuclear replacement page general image recognition cannot be performed 3 D stereo image recognition, through 3D stereo autofocus photography to simulate the moving distance of both eyes, through the most natural method for 3D stereo multi-lens camera. General speech recognition can only be used for navigation speech. It combines image recognition and speech recognition through optical, electrical, magnetic and wave signals to provide more accurate identification capabilities, real-time interaction, identification, operation, control, monitoring and viewing. Generally, the transistor can only design a 2 D line, and a 3D stereo chip line structure is designed through a 3D multilayer structure.
一般遊戲只能3 D顯示並非真正經由3 D立體技術 I ,經由最自然方法進行3 D立體顯示,產生最自然3 D 立體影像。 一般相機無法快速感光,經由抑制感光晶片反射入 射光,提升感光速度畫質。 一般機器無法即時仿製3D立體影像,經由3D立 體實物仿製機器即時仿製3 D立體影像生產。 【新型内容】 本創作係一種即時互動3D立體仿製娛樂裝置,經 由主機連接B型3D立體顯示器,C型3D立體裸視顯 示器,D型3 D立體裸視顯示器,E型3 D立體投影機 ,FS3D立體旋轉裸視顯示器,G型3D立體裸視顯 示器,0型全景夢境投影機,Η型3 D立體多鏡頭攝影 機、麥克風,I型3D立體掃描多鏡頭攝影機、麥克風 ,J型3 D立體掃描多鏡頭攝影機、麥克風,Κ型3 D 立體掃描多鏡頭攝影機、麥克風,Α型同步手持裝置操 作控制主機運作,操作控制L型3D立體同樂機器人一 10021951产单编號 A0101 第10頁/共147頁 1013138201-0 • 101年.04月13日修正替4頁 同育樂,操作控賴型3 D立體實物仿製機器即時生i ,配戴N型3 D立體顯示眼鏡觀看3 〇立體影像,配置 方向感應器、f力感應器辨識移動方向、重力方向,雙 觸控鍵盤做為資料輸入、輸出、按鍵、移動介面,動感 控制器做為按鍵、移動介面’進行即時互動、辨識、操 作控制、監視、觀看、輸入、輸出。 經由3 D立體晶片簡化線路設計結構,增加運算、 操作、控制速度,經由同步手持裝置、雙觸控鍵盤、動 感控制器運作域進行韻、文领人、:雜交換輸> 、輪出’ gP時揮拳操作、控制遊戲,經由3 〇立體虛擬 實境作為互動介面,結合3 D立體影像辨識'語音辨識 一體,互動操作、控制、辨識道具,經由結合3 D立體 顯示、3 D立體影像辨識、語音辨識一體,進行食衣住 行、育樂、生活、科學、醫療即時互動、監視、操作、 控制、觀看,經由3 D讀掃描多鏡_職,組合成 3 D立體影像資料庫,結合3 D立體影像辨識、語音辨 識—體,進行設定3 D立體影像語音密碼、3 D立體影 像、語音、表情、動作、遠近、大小、方向、移動、道 具細微變化即時互動、辨識'操作、控制、監視、觀看 ’經由3D立體實物仿製機器即時仿製3D立體影像生 產’經由操作、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—同育樂,經由3D立體裸視觀 看30立體影像,配戴3D立體顯示眼鏡觀看3D立體 和像多方向觀看3 D立體影像即時互動育樂,經由最 自然3D立體顯示方式觀看3D立體影像互動育樂,經 由3D立體影像資料庫計算雙眼所需3〇立體影像,經 区01 年 Ο 核 由結合3 D立體影像辨識、語音辨識一體,提供更精確 互動對話辨識資訊,經由3D立體掃描多鏡頭攝影機, 組合成3 D立體影像資料庫,結合3 D立體影像辨識、 語音辨識-體,運用在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、3 D立體動 畫δ又计、3 DiL體多鏡頭攝影機、3d立體電影等等3 D立體製作上’經由3D立體掃描多鏡頭攝影機,組合 成3D立體影像資料庫,結合3D立體影像辨識、語音 辨識-體’運用在3D立體互動教學、3d立體互動醫 療、3 D立體互動生活、3 D立體互動娛樂、3 D立體 ® 即時互動、辨識、操作、控制、監視、觀看等等3 D立 體運用上’經由主機連接多鏡頭攝影機' 3 D顯示器進 行互動辨識。 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,b型3 D立體顯示 器,C型3D立體裸視顯示器,〇型3D立體裸視顯示 器,E型3D立體投影機,f型3D立體旋轉裸視顯示 器,G型3 D立體裸視顯示器,型3 D立體多鏡頭攝 影機、麥克風,I型3 D立體掃描多鏡頭攝影機、麥克 風,J型3 D立體掃描多鏡頭攝影機、麥克風,民型3 D立體掃描多鏡頭攝影機、麥克風,L型3D立體同樂 機器人,]VI型3 D立體實物仿製機器,3 D立體顯 不眼鏡,0型全景夢境投影機,方向感應器,重力感應 器,雙觸控鍵盤,動感控制器。 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 10021951#單编號A0101 第12頁/共147頁 1013138201-0 ,動感控制器。 3D立體晶片,包括:χ轴轴電子線路,χ 轴轴運算核心編%統,^作Z軸運算控制 核心。 X轴YliZ轴電子線路,包括:經由X軸YM轴 電晶體線路、X轴轴記憶體線路、X轴MZ轴 像素平衡放大線路、x轴轴記憶體整合加減乘除 線路、X軸Y軸Z軸記憶體多重運算線路,爾軸2 轴加法運算電路’ X轴ΥϋΖ轴減法運算電路,絲¥ • 軸2轴乘法運算電路’ x軸Y轴Z轴除法運算電路,用 來運作主機執行各種運算指令,操作、控制各種輸入、 輸出裝置運作,設定各種裝置執行運作。 X轴Y轴Z轴運鼻核心編碼系統,包括:經由X轴 Y轴Z編碼系統配合X轴γ軸z軸電子線路進行編碼執 行各種指令設定’運作3D立體虛擬實境作為互動介φ ,控制各種裝置執行即時互動、辨識、操作、控制、監 視、觀看指令。 ® X軸Y軸Z轴運算控制核心,包括:經由核心單元 控制個單元指令輸入、輸出設定’語音辨識單元多重資 料輸入多重指令設定比對輸入、輸出,影像肢體動作關 節運動辨識單元多重資料輸入多重指令設定比對輸入、 輸出,鏡頭光、電、磁、波3D立體掃描繪製單元多重 資料輸入多重指令設定比對輸入、輸出,影像、觸控座 標辨識單元多重資料輸入多重指令設定比對輸入'輸出 ’重力感應器、方向感應器辨識單元多重資料輸入多重 指令設定比對輸入、輸出’無線裝置辨識單元多重資料 10021951#單編號 A0101 第 13 頁 / 共 147 頁 1013138201-0 M431354The general game can only display 3D stereoscopically without 3D stereoscopic technology I, and the most natural 3D stereoscopic image is produced through the most natural method. Generally, the camera cannot be quickly sensitized, and the light-receiving light is reflected by suppressing the reflection of the photosensitive wafer. In general, the machine cannot instantly copy 3D stereoscopic images, and instantly imitates 3D stereoscopic image production through a 3D stereoscopic imitation machine. [New Content] This creation is a real-time interactive 3D stereoscopic entertainment device. It connects B-type 3D stereoscopic display, C-type 3D stereoscopic naked-view display, D-type 3D stereoscopic naked-view display, E-type 3D stereoscopic projector through host. FS3D stereo rotation naked view display, G type 3D stereoscopic naked view display, 0 type panoramic dream projector, 3 type 3 D stereo multi-lens camera, microphone, I type 3D stereo scanning multi-lens camera, microphone, J type 3 D stereo scanning Multi-lens camera, microphone, 3 type 3 D stereo scanning multi-lens camera, microphone, Α type synchronous handheld device operation control host operation, operation control L-type 3D stereo homophone robot 10021951 production order number A0101 Page 10 / 147 Page 1013138201-0 • 101 years. April 13th revised for 4 pages of the same music, operation control type 3 D solid object imitation machine instant life i, wearing N type 3 D stereoscopic glasses to watch 3 〇 stereo image, configuration Direction sensor, f-force sensor recognizes moving direction, gravity direction, dual touch keyboard as data input, output, button, mobile interface, dynamic controller as button, shift Interface 'instant interaction, identification, operation control, surveillance, watch, input and output. Simplify the circuit design structure through 3D stereo chip, increase the operation, operation and control speed, and carry out the rhyme, the literary person, the miscellaneous exchange, and the round-out through the synchronous handheld device, the dual touch keyboard, and the dynamic controller operation domain. gP punches and controls the game, through the 3D virtual reality as an interactive interface, combined with 3D stereo image recognition 'speech recognition integrated, interactive operation, control, identification props, through the combination of 3D stereo display, 3D stereo image Identification, voice recognition, food, housing, recreation, life, science, medical instant interaction, monitoring, operation, control, viewing, through 3D reading scanning multi-mirror, combined into a 3D stereo image database, Combine 3D stereo image recognition, voice recognition-body, set 3D stereo image voice password, 3D stereo image, voice, expression, action, distance, size, direction, movement, props, subtle changes, instant interaction, identification, operation, Control, monitor, and watch 'immediately copy 3D stereoscopic image production through 3D solid object imitation machine' via operation and control 3D stereo music machine Through the 3D stereoscopic multi-directional display - with the same music, 3 stereo images are viewed through 3D stereoscopic viewing, 3D stereoscopic glasses are used to watch 3D stereoscopic images, and 3D stereoscopic images are viewed in multiple directions for instant interactive recreation. The 3D stereoscopic image interactive entertainment is viewed through the most natural 3D stereoscopic display mode, and the 3D stereoscopic image required for both eyes is calculated through the 3D stereoscopic image database, and the 3D stereo image is combined with the 3D stereoscopic image recognition and speech recognition. More accurate interactive dialogue identification information, through 3D stereo scanning multi-lens camera, synthesizing 3D stereo image database, combined with 3D stereo image recognition, speech recognition-body, used in 3D stereo image voice password recognition, 3D stereoscopic clothing modeling Design, 3D stereo game design, 3D stereo animation δ again, 3 DiL multi-lens camera, 3d stereo movie, etc. 3D stereo production on 3D stereoscopic multi-camera camera, combined into a 3D stereo image database, Combine 3D stereo image recognition, speech recognition-body's use in 3D interactive teaching, 3D interactive medical, 3D interactive living, 3 D The interactive entertainment, real-time interactive 3 D perspective ®, identification, operation, control, monitoring, etc. 3 D stereo viewing using 'via the host connection multi-lens camera' proceed to interact with the display 3 D Identification. In order to achieve the purpose of this creation, the creation uses the following technical solutions, including: host, A-type synchronous handheld device, b-type 3 D stereoscopic display, C-type 3D stereoscopic naked-view display, 〇-type 3D stereoscopic naked-view display, E-type 3D stereo projector, f-type 3D stereo rotation naked-view display, G-type 3D stereoscopic naked-view display, 3D stereo multi-lens camera, microphone, I-type 3D stereo scanning multi-lens camera, microphone, J-type 3 D stereo Scan multi-lens camera, microphone, civilian 3D stereo scanning multi-lens camera, microphone, L-type 3D stereo music robot,] VI type 3 D solid object imitation machine, 3 D stereo display glasses, 0 type panoramic dream projector , direction sensor, gravity sensor, dual touch keyboard, dynamic controller. Host 'includes. Fan's power control' CD, input and output control board, 3D stereo chip, 3D stereo virtual reality, dual touch keyboard 10021951# single number A0101 page 12 / 147 pages 1013138201-0, dynamic Controller. 3D stereo chip, including: χ axis axis electronic circuit, χ axis axis operation core %, ^ for Z axis operation control core. X-axis YliZ-axis electronic circuit, including: X-axis YM-axis transistor line, X-axis axis memory line, X-axis MZ-axis pixel balance amplifier line, x-axis axis memory integrated addition, subtraction, multiplication and division line, X-axis Y-axis Z-axis Memory multi-operation circuit, axis 2 axis addition circuit 'X-axis 减 axis subtraction circuit, wire ¥ • Axis 2-axis multiplication circuit' x-axis Y-axis Z-axis division circuit for operating the host to execute various arithmetic instructions Operate and control the operation of various input and output devices, and set various devices to perform operations. X-axis Y-axis Z-axis nose core coding system, including: X-axis Y-axis Z coding system with X-axis γ-axis z-axis electronic circuit coding to perform various command settings 'Operation 3D virtual reality as interaction φ, control Various devices perform instant interaction, identification, operation, control, monitoring, and viewing instructions. ® X-axis Y-axis Z-axis operation control core, including: control unit input and output settings via core unit 'Voice identification unit Multiple data input Multiple command setting comparison input, output, image limb motion joint motion recognition unit multiple data input Multiple command setting comparison input, output, lens light, electricity, magnetism, wave 3D stereo scanning drawing unit multiple data input multiple command setting comparison input, output, image, touch coordinate recognition unit multiple data input multiple command setting comparison input 'Output' gravity sensor, direction sensor identification unit Multiple data input Multiple command setting comparison input, output 'Wireless device identification unit Multiple data 10021951#单号A0101 Page 13 / 147 pages 1013138201-0 M431354
輸入多重指令奴比人,,細科 處理單元多重資料輸入直接顯示輸入、輪出,預設顯示 記憶體資料庫處理單元多重資料輸入運算處理輪入、輸 出,影像記憶體資料庫函數運算處理單元多重資料輸入 運算處理輸入、輸出’資料記憶體資料庫函數運算處理 單元多重資料輸入運算處理輸入、輸出,鏡頭3d立體 影像記憶體資料庫函數運算處理單元多重資料輸入運曾 處理輸入、輸出,語音記憶體資料庫函數運算處理單元 多重資料輸入運算處理輸入、輸出,外接裝置輪入、輪 出’顯示、控制指令輸入、輸出。 I 3D立體虛擬實境,包括:經由_種虛擬系統人工 智慧’ 3 D立體掃描多鏡頭攝影機,組合成3 D立體影 像資料庫’結合3 DiL«像職、語音觸—體,進 行3 D立贿像、語音資料比對掃描,即時互動、顯示 、指揮、辨識、操作、控制、監視、觀看,結合3 d立 體影像辨識、語音辨識—體’進行影像、語音'對話、 互動、學習提升裝置智慧,將辨識之影像、對話、語言 、語氣等等轉化為標準文法、圖集、資料庫,定義各種 | 辨識影像、語音資訊分門別類管理,分析各種辨識資訊 内谷,擬人學習儲存互動影像、語音'互動對話學習資 訊等等,轉化為一種虛擬影像、語音、互動對話學習資 訊如同一本標準辭典、動植物、生活字典對影像、 圖片、文法、語言、語意、語氣'音調產生互動信息, 互動1^應―個正確資訊,經由3D立體虛擬實境作為即. 時互動、辨識、操作、控制、監視、觀看,將3 D立體 資訊轉化運用在3 D立體虛擬實境,將原始人、事、時 10021951#單编號A0101 第14頁/共147頁 1013138201-0 、一 I101 年 進行模擬各種攝影變化合成替換不同 "~~~: 、地、物、場景Input multiple command slaves, the fine processing unit multiple data input direct display input, turn out, preset display memory database processing unit multiple data input operation processing wheel input, output, image memory data library function operation processing unit Multiple data input operation processing input and output 'data memory data library function operation processing unit multiple data input operation processing input and output, lens 3d stereo image memory data library function operation processing unit multiple data input operation once processed input, output, voice The memory database function operation processing unit multi-data input operation processing input and output, external device wheeling, round-out 'display, control command input and output. I 3D stereo virtual reality, including: through the virtual system artificial intelligence ' 3 D stereo scanning multi-lens camera, combined into a 3 D stereo image database 'in combination with 3 DiL « pictorial, voice touch - body, 3 D Bribe image, voice data comparison scan, instant interaction, display, command, identification, operation, control, monitoring, viewing, combined with 3D stereo image recognition, speech recognition - body 'image, voice' dialogue, interaction, learning and lifting device Wisdom, transform the identification image, dialogue, language, tone, etc. into standard grammar, atlas, database, define various | identify images, voice information, manage categories, analyze various identification information, and learn to store interactive images and voices. 'Interactive dialogue learning information, etc., transformed into a virtual image, voice, interactive dialogue learning information such as the same standard dictionary, animals and plants, life dictionary for images, pictures, grammar, language, semantics, tone 'tones to generate interactive information, interaction 1 ^ should be a correct information, through 3D virtual reality as a time interaction, identification, operation, Control, monitor, watch, and convert 3D stereo information into 3D virtual reality, simulate the original person, thing, time 10021951# single number A0101 14th page / 147 pages 1013138201-0, one I101 year Various photographic changes are synthesized and replaced with different "~~~: , ground, objects, scenes
事時地、物、場景,3D立體虛擬實境作為即 時互動、辨識'操作、控制'監視、觀看介面’結合3 D立體自轉絲影,將影細識、語音觸互動問答 對話,執行各齡令完成各務,轉化為—種虛擬影 像、人物、寵物,經由虛擬影像、人物、寵物進行互動 對話辨識触資訊’絲觸喊—個正確資訊,辨識 肢體動作互動操作、控制,辨識語音互動操作、控制, 操作、控制同樂、虛擬機器人執行各種命令,操作、控 制3 D立體趣實境互姆像、人物、絲,執行各種 命令完成各種任務,操作'控制3 D立體同樂機器人, 進仃各種任務執行互動—同娛樂,賴3 〇立體影地 圖,3 D立體資訊設計出個人特色產品,運用在3 〇立 體實物仿製機器,操作、控制3 D立體實物仿製機器進 仃3D立體物體仿製,即時仿製生產設計物品。 方向感應器,包括:經由圓球任意移動方向,彈菁 固定圓球設置電磁感應,_圓》動方… ' 二重力感應H,包括:經由利重料雜意移動方 向,设置電韻應’侧㈣重量兩端移動方向。 雙觸控鍵盤’包括:經由左右觸控面板操作、控制 、方向、旋轉、移動,鍵盤按鍵作為資料輪人,零件組 感應器,操作、控制、方向'旋轉、移動,零令 雙手緊握自由揮拳輕鬆操作、控制、方向、旋奉 主機運作。 第15頁/共147頁 10021951^ 單编號1 A0101 1〇131382〇1-〇 M431354 [jjl年〇4| 13日梭正替換頁 A型同步手縣置,經由觸㈣示面祕作二·^ ' 遊戲、影像、音樂'資料輸出輸入,雙觸控鍵盤操作' 控制 '方向、雜、_、賴輸人,進行遊戲操作'Time, place, object, scene, 3D virtual reality as real-time interaction, identification 'operation, control' monitoring, viewing interface' combined with 3D stereoscopic silk shadow, video recognition, voice touch interactive question and answer dialogue, execution of all ages In order to complete all tasks, it is transformed into a kind of virtual images, characters, and pets. Through virtual images, characters, and pets, interactive dialogue and identification information is touched by the information, and the correct information is recognized. The interactive operation and control of the limb movements are recognized, and the voice interaction operation is recognized. Control, operate, control the fun, virtual robots to execute various commands, operate, control 3D stereoscopic reality, mutual image, character, silk, execute various commands to complete various tasks, operate 'control 3 D stereo music robot, enter Various tasks to perform interactions - with entertainment, Lai 3 〇 stereoscopic map, 3 D stereo information to design a personal characteristic product, used in 3 〇 stereoscopic real imitation machine, operation and control 3D solid object imitation machine into 3D stereoscopic object imitation, Instant imitation of production design items. Direction sensor, including: any direction of movement through the sphere, the elastic crystal fixed ball to set the electromagnetic induction, _ round "moving side..." Two gravity induction H, including: through the heavy material miscellaneous moving direction, set the rhyme should be ' Side (four) weight moving direction at both ends. The dual touch keyboard includes: operation, control, direction, rotation, movement through the left and right touch panels, keyboard buttons as data wheel people, part group sensors, operation, control, direction 'rotation, movement, zero hands grip Free throwing, easy operation, control, direction, and rotation of the host. Page 15 of 147 pages 10021951^ Single number 1 A0101 1〇131382〇1-〇M431354 [jjl year 〇 4| 13th shuttle is replacing page A type synchronization hand county, through touch (four) show face secret two ^ 'Game, video, music' data output input, dual touch keyboard operation 'control' direction, miscellaneous, _, 赖, people, play the game'
控制、方向、旋轉、移動、資料輸人輸出,包括:AA 型同步手縣置,AB翻步手魏置,AC^同步手 持裝置。 B型3 D立體顯示器,經由主動式、被動式顯示3 D立體影像,包括:BAs3D立體顯示器,2掃描線 主動式,BB型3D立體顯示器,2掃描線被動式,b C型3D立體顯示器,2掃描線被動式三方向顯示’ B ^ D型3D立體顯示器,6掃描線被動式三方向顯示,b E型3D立體顯示器,6掃描線被動式’透鏡廣角顯示 C型3D立體裸視顯示器,雙眼為光攔設計中心, 包括:CA型3D立體裸視顯示器,2掃描線雙眼方向 ,CB型3D立體裸視顯示器,6掃描線雙眼方向,c C型3D立體裸視顯示器,6掃描線雙眼方向。 D型3D立體裸視顯示器,控制旋轉液晶角度、方 向改變光線方向,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立體裸視顯示器, 2抑描線雙眼方向旋轉液晶’ DB型3D立體裸視顯示 器’ 2掃描線雙眼方向左右液晶遮蔽,D C型3 D立體 裸視顯示器,2掃描線雙眼方向左右透鏡折射光線,D D型3D立體裸視顯示器,2掃描線雙眼方向左右透鏡 折射光線,DE型3D立體裸視顯示器,2掃描線雙眼 方向左右透鏡折射光線,DF型3D立體裸視顯示器, 1〇〇2l95l#單編號A0101 第16頁/共147頁 ^13138201-0 M431354Control, direction, rotation, movement, data input output, including: AA type synchronization hand county, AB step by hand Wei set, AC ^ synchronous hand device. B type 3 D stereo display, through active and passive display 3D stereo image, including: BAs3D stereo display, 2 scan line active, BB type 3D stereo display, 2 scan line passive, b C type 3D stereo display, 2 scan Line passive three-way display 'B ^ D type 3D stereo display, 6 scan line passive three-way display, b E type 3D stereo display, 6 scan line passive 'lens wide-angle display C-type 3D stereoscopic naked-view display, both eyes for light block Design center, including: CA type 3D stereoscopic display, 2 scan line binocular direction, CB type 3D stereoscopic view display, 6 scan line binocular direction, c C type 3D stereoscopic view display, 6 scan line binocular direction . D-type 3D stereoscopic display, control the angle of the rotating liquid crystal, change the direction of the light, use the lens to change the direction of the light, and simultaneously shield the liquid crystal to change the direction of the light' including: DA type 3D stereoscopic display, 2 lines of rotation in both directions DB type 3D stereoscopic naked-view display' 2 scanning line binocular direction left and right liquid crystal shielding, DC type 3D stereoscopic naked-view display, 2 scanning lines binocular direction left and right lens refracting light, DD type 3D stereoscopic naked-view display, 2 scanning line double Eye direction left and right lens refracting light, DE type 3D stereoscopic naked-view display, 2 scanning lines, binocular direction, left and right lens refracting light, DF type 3D stereoscopic naked-view display, 1〇〇2l95l# single number A0101, page 16 / 147 pages ^ 13138201-0 M431354
2掃描線雙眼方向多視角。 Ε型3 D立體投影機,經由雙投影機分別投影左眼 、右眼不同轉’包括:Ε Α型3 D立體投影機,混合 光束’ Ε B型3 D立體投影機,6掃描線雙投影機,E C型3D立體投影機,6掃織色彩分離。 F型3D立體旋轉裸視顯示器,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 3D立體影像,旋轉透明液晶產生3D立體影像,包括 .FA型3D立體旋轉裸視顯示器,2掃描線雙眼方向 ,F B型3 D立體旋轉裸視顯示器,透明電晶體。 G型3 D立體裸視顯示器,控制水平、垂直液晶方 向,包括.GA型3D立體裸視顯示器,6掃描線雙眼 方向’旋轉液晶反射顯示。 Η型3 D立體多鏡頭攝影機、麥克風,3 d立體平 面虛擬對焦攝影,包括:ΗΑ型3D立體多鏡頭攝影機 ,雙鏡頭廣角平面虛擬對焦,Η B型3 D立體多鏡頭攝 影機,二鏡頭廣角平面虛擬對焦,H c型3 D立體多鏡 •頭攝衫機,雙鏡頭自動對焦,HD型3D立體多鏡頭攝 影機,三鏡頭自動對焦。 I型3 D立體掃描多鏡頭攝影機、麥克風,3 〇立 體影像攝影、掃描,包括:IΑ型3 體掃描多鏡頭 攝影機,廣角平面虛擬對焦掃描,IB型3d立體掃描 多鏡頭攝影機,連動軸廣角自動對焦掃描,1(:型31) 立體掃描多鏡頭攝影機,全景廣角自動對焦掃描。 1013138201-0 J型3 D立體掃描多鏡頭攝影機、麥克風,3 〇立 體影像攝影、掃描’包括:j A型3 〇立體掃描多鏡頭 10021951#單編號 A〇101 S Π 頁 / 共 147 頁 、控制, 掃描監視 攝影機監視、操作 '操作、控制。 全景廣角自動對焦 物、 不辦而作岛,包括:κ =,全景廣角平面虛_對焦攝影,κ= 攝:描多鏡頭攝影機,全景廣角連― 動_ 同樂機器人,經由操作、控制指揮互 人-_ ’包括:L _ 3 D立體同樂機 15人’蜂巢式磁場控制個關節運動擬人機器人,L B型 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。 〜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、物理學、化工學、動力學、機械學 、㈣敎合分析,3 D立體健、分析、複製,分析 資料、資訊,組合成3D立體影像資料庫,3D立體資 訊轉為實際#產’進行食衣储、育樂、生活、科學、 ^即時互動、監視、操作、控制、觀看,包括:Ma 型3D立體實物仿製機器,3£)立體實物仿製複製上色 ’ MB型3D立體實物仿製機器,3D立體實物仿製雕 刻上色,MC型3 DiL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。 第18頁/共147頁 N型3 D立體顯示眼鏡,經由觀看主動式、被動式 3D立體顯示,包括:να型3D立體顯示眼鏡,NB 型3D立體顯示眼鏡。 l〇〇2l95lf 單編號 Α01(η M431354 - [ϊ〇1·年04月13日按正替g頁 〇型全景夢境投影機,經由全景播放配合旋轉移動 舞台操作、控制、方向、旋轉、移動,包括:〇八型全 景夢境投影機。 AA型同步手持裝置,包括:經由觸控顯示面板、 左右觸控顯示面板,操作、控制、方向、旋轉、移動, 觸控顯示面板一體3D立體裸視顯示用來顯示2D、3 D影像,3D立體晶片控制裝置核心運作,3D立體虛 擬實境互動顯示、指揮、操作、控制介面,U s B資料 輸入、輸出、充電,麥克風輸入、制„八輸出,操作、控 ® 制按鍵,内置方向感應器、重力感應器,經由移動裝置 操作、控制、方向、旋轉、移動,前鏡頭自動對焦攝影 ,後鏡頭自動對焦攝影,閃光燈補充光線不足,組裝外 . 殼。 AB型同步手持裝置,包括:經由觸控顯示面板、 左右觸控顯示面板,操作、控制、方向、旋轉、移動, 觸控顯示面板一體3D立體裸視顯示用來顯示2D、3 , D影像,3D立體晶片控制裝置核心運作,3D立體虛 擬實境互動顯示、指揮、操作、控制介面,u s B資料 輸入、輪出、充電,麥克風輪入、喇八輸出,操作、控 制按鍵’内置方向感應器、重力感應器,經由移動裝置 操作、控制、方向、旋轉、移動,前鏡頭自動對焦攝影 ,後鏡頭自動對焦攝影,閃光燈補充光線不足,組萝 殼。 AC型同步手持裝置,包括:經由觸控顯示面板、 左右觸控顯示面板,操作、控制、方向、旋轉、移動 觸控顯示面板-體⑼立餘觀示用物示2d、3 10021951#單編號A0101 第19頁/共147頁 1013138201、0 M431354 [101年04月13曰修正替換頁 D影像,3D立體晶片控制裝置核心運作,3D立體虛 . 擬實境互動顯示、指揮、操作、控制介面’ U s B資料 輸入、輸出'充電,麥克風輸入、喇叭輸出,操作'控 制按鍵,内置方向感應器、重力感應器,經由移動裝置 操作、控制、方向、旋轉、移動,前鏡頭自動對焦攝影 ,後鏡頭自動對焦攝影,閃光燈補充光線不足,組裝外 殼’左右鍵盤作為輸入。 BA型3D立體顯示器,2掃描線主動式,包括: 經由3 D立體影像計算雙眼所需顯示影像,液晶掃描線 、絕緣體'電晶體'電容'液晶、電極組成,經由鏡面 翁 反射光源使光線垂直液晶方向’控制液晶顯示亮度,穿 過單層濾光板,單層光欄面板,控制光線方向顯示影像 ’ 2掃描線畫面顯示更快,阻隔光線障壁基板,隨光線 顏色變化黑色奈米塗層、切割鏡面、奈米螢光塗層抑制 螢幕反光。 BB型3D立體顯示器,2掃描線被動式,包括: 經由3 D立體影像計算雙眼所需顯示影像,液晶掃描線 、絕緣體、電晶體、電容、液晶、電極組成,經由鏡面 反射光源使光線垂直液晶方向,控制液晶顯示亮度,穿 過單層濾光板,單層光欄面板顯示水平'垂直光波,控 制光線方向顯不影像’ 2掃描線畫面顯示更快,阻隔光 線障壁基板,隨光線顏色變化黑色奈米塗層、切割鏡面 、奈米螢光塗層抑制螢幕反光。 BC型3D立體顯示器,2掃描線被動式三方向顯 示’包括:經由3 D立體影像計算雙眼所需顯示影像, 液晶掃描線、絕緣體、電晶體、電容、液晶、電極組成 10021951#單編號A01(U 第20頁/共147頁 1013138201-0 M431354 101:年.04月13日俊正㉙ ,經由鏡面反射光源使光線垂直液晶方向,控制液晶顯 示亮度,穿過單層濾光板,單層光攔面板顯示水平、垂 直光波,控制光線方向穿過角度透鏡顯示影像,2掃描 線畫面顯示更快,阻隔光線障壁基板,隨光線顏色變化 黑色奈米塗層、切割鏡面、奈米螢光塗層抑制螢幕反光 BD型3D立體顯示器,6掃描線被動式三方向顯 示,包括:經由3 D立體影像計算雙眼所需顯示影像, 液晶掃描線、絕緣體、電晶體、電容、液晶、電極組成 • ,經由鏡面反射光源使光線垂直液晶方向,控制液晶顯 示亮度,穿過單層濾光板,單層光攔面板顯示水平、垂 直光波,控制光線方向穿過角度透鏡顯示影像,6掃描 線畫面顯示更快,阻隔光線障壁基板,隨光線顏色變化 黑色奈米塗層、切割鏡面、奈米螢光塗層抑制螢幕反光 BE型3D立體顯示器,6掃描線被動式,透鏡廣 角顯示,包括:經由3 D立體影像計算雙眼所需顯示影 像,液晶掃描線、絕緣體、電晶體、電容、液晶、電極 組成,經由鏡面反射光源使光線垂直液晶方向,控制液 晶顯示亮度,穿過單層濾光板,單層光糊面板顯示水平 、垂直光波,控制光線方向穿過透鏡顯示影像,6掃描 線晝面顯示更快,阻隔光線障壁基板,隨光線顏色變化 黑色奈米塗層、切割鏡面、奈米螢光塗層抑制螢幕反光 1〇131382〇1~〇 CA型3D立體裸視顯示器,2掃描線雙眼方向, •包括:經由3 D立體影像計算雙眼所需顯示影像,控制 10021951#單編號A01〇l 第21頁/共I4?頁 M431354 液晶顯示方向以2掃描線雙眼為光欄方向設計中心,計 算出光攔遮蔽方向、角度。 CB型3D立體裸視顯示器,6掃描線雙眼方向, 包括:經由3 D立體影像計算雙眼所需顯示影像,控制 液晶顯示方向以6掃描線雙眼為光攔方向設計中心,計 算出光爛遮蔽方向、角度。 CC型3D立體裸視顯示器,6掃描線雙眼方向, 包括:經由3 D立體影像計算雙眼所需顯示影像,控制 液晶顯示方向以6掃描線雙眼為光攔方向設計中心,計 算出光欄遮蔽方向、角度。 # DA型3D立體裸視顯示器,2掃描線雙眼方向旋 轉液晶,包括:經由3D立體影像計算雙眼所需顯示影 像’巍面反射光源使光線垂直液晶方向,控制液晶顯示 亮度’穿過單層濾光板,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。 DB型3D立體裸視顯示器,2掃描線雙眼方向左 右液晶遮蔽,包括:經由3 D立體影像計算雙眼所需顯 示影像’鏡面反射光源使光線垂直液晶方向,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,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。 1013138201-0 DC型3D立體裸視顯示器,2掃描線雙眼方向左 右透鏡折射光線,包括:經由3 D立體影像計算雙眼所 需顯示影像,鏡面反射光源使光線垂直液晶方向,^&制 液晶顯示亮度’控制透鏡折射光線方向,調整透鏡角产 10_5#單编號删1 第22頁/共147頁 M431354 _ • · , 1101年04.月13日梭正_頁 控制左邊、右邊影像。 DD型3D立體裸視顯示器,2掃描線雙眼方向左 右透鏡折射光線,包括:經由3 D立體影像計算雙眼所 需顯示影像,鏡面反射光源使光線垂直液晶方向,控制 液晶顯示亮度,控制透鏡折射光線方向,調整透鏡角度 控制左邊、右邊影像。 DE型3D立體裸視顯示器,2掃描線雙眼方向左 右透鏡折射光線,包括:經由3 D立體影像計算雙眼所 需顯示_像,鏡面反射光源使光線垂直液晶方向,控制 液晶顯示亮度,控制透鏡折射光線方向,調整透鏡角度 控制左邊、右邊影像。 DF型3D立體裸視顯示器,2掃描線雙眼方向多 視角,包括:經由3 D立體影像計算雙眼所需顯示影像 ,鏡面反射光源使光線垂直液晶方向,控制液晶顯示亮 度,穿過單層濾光板,多層光棚遮蔽光線,計算經由位 置多寡所站立角度,計算出光糊遮蔽位置。 ΕΑ型3 D立體投影機,混合光束,包括:經由3 D立體影像計算雙眼所需顯示影像,混合色彩產生投影 光束顏色’蜂巢圓形磁場交錯S極N極控制光束裝置移 動方向’固定光束旋轉轴顯示影像,旋轉轴組裝光束裝 置’組裝外殼,影像經由反射銀幕反射光波。 EB型3D立體投影機,6掃描線雙投影機,包括 :經由3 D立體影像計算雙眼所需顯示影像,6掃描線 雙投影機,控制電極遮蔽液晶水平、垂直方向,分別由 水平光爛3 D立體投影機、垂直光棚3 D立體投影機將 ,影像經由反射銀幕反射光波。 1013138201-0 10〇21951^單编號腦丨 第23頁/共U7頁 M431354 EC型3D立體投影機,6掃描線色彩分離,包括 :經由3 D立體影像計算雙眼所需顯示影像,色彩分離 顯示液晶’多色顯示經由反射光線,控制電極遮蔽液晶 水平、垂直方向’經過電子放大器,在穿過透鏡放大顯 示。 FA型3D立體旋轉裸視顯示器,2掃描線雙眼方 向’包括:經由3 D立體影像計算雙眼所需顯示影像,2 scan line binocular direction multiple viewing angles. Ε3D stereo projector, projecting left and right eyes separately through dual projectors' includes: Ε 3 type 3 D stereo projector, mixed beam ' Ε B type 3 D stereo projector, 6 scan line double projection Machine, EC type 3D stereo projector, 6 sweeping and color separation. F-type 3D stereo rotation naked-view display, through the high-speed rotation display, the eye produces the same position reproduction image, suppresses the light direction to generate multi-directional 3D stereo image, rotates the transparent liquid crystal to generate 3D stereo image, including. FA type 3D stereo rotation naked-view display 2 scanning lines in both eyes, FB type 3D stereo rotating naked-view display, transparent transistor. G-type 3D stereoscopic display, controlling horizontal and vertical liquid crystal orientation, including .GA type 3D stereoscopic naked-view display, 6 scanning line binocular direction 'rotating liquid crystal reflection display. Η 3D stereo multi-lens camera, microphone, 3 d stereoscopic virtual focus photography, including: ΗΑ 3D stereo multi-lens camera, dual-lens wide-angle planar virtual focus, Η B-type 3 D stereo multi-lens camera, two lens wide-angle plane Virtual focus, H c 3D stereo multi-mirror • head camera, dual lens auto focus, HD 3D stereo multi-lens camera, three-lens auto focus. I type 3 D stereo scanning multi-lens camera, microphone, 3 〇 stereo image photography, scanning, including: I Α type 3 body scanning multi-lens camera, wide-angle plane virtual focus scanning, IB type 3D stereo scanning multi-lens camera, linked axis wide-angle automatic Focus Scan, 1 (: Type 31) Stereo Scan Multi-Lens Camera, Panoramic Wide-Angle AF Scan. 1013138201-0 J-type 3 D stereo scanning multi-lens camera, microphone, 3 〇 stereo image photography, scanning 'includes: j A type 3 〇 stereo scanning multi-lens 10021951# single number A 〇 101 S Π page / total 147 pages, control , Scanning surveillance camera monitoring, operation 'operation, control. Panoramic wide-angle autofocus, do not do the island, including: κ =, panoramic wide-angle plane virtual _ focus photography, κ = photo: multi-lens camera, panoramic wide-angle connected - _ _ _ robot, through operation, control command mutual People-_ 'includes: L _ 3 D stereo music machine 15 people' honeycomb magnetic field control joint motion anthropomorphic robot, LB body homologous robot, brake magnetic field motor control joint motion anthropomorphic robot. ~Μ3D solid object imitation machine, optical, electric, magnetic, wave, physics, chemical engineering, dynamics, mechanics, (4) composite analysis, 3D stereojian, analysis, copying, analysis data , information, combined into a 3D stereo image database, 3D stereo information into the actual # production 'for food storage, recreation, life, science, ^ instant interaction, monitoring, operation, control, viewing, including: Ma type 3D stereo Physical imitation machine, 3 £) Stereoscopic imitation copying and coloring 'MB type 3D solid object imitation machine, 3D solid imitation engraving color, MC type 3 DiL body imitation machine, 3D stereo photo imitation printing color MD type 3D solid object imitation machine, 3D solid imitation sewing color. Page 18 of 147 N-type 3D stereoscopic display glasses, through active and passive 3D stereoscopic display, including: να type 3D stereoscopic display glasses, NB type 3D stereoscopic display glasses. L〇〇2l95lf Single number Α01(η M431354 - [ϊ〇1·年04月13日正正格页型全景梦境投影机, with panoramic playback and rotation to move the stage operation, control, direction, rotation, movement, Including: 〇8-type panoramic dream projector. AA-type synchronous handheld device, including: through touch display panel, left and right touch display panel, operation, control, direction, rotation, movement, touch display panel integrated 3D stereoscopic display Used to display 2D, 3D images, 3D stereo chip control device core operation, 3D virtual reality interactive display, command, operation, control interface, U s B data input, output, charging, microphone input, system 八 output, Operation, control buttons, built-in direction sensor, gravity sensor, operation, control, direction, rotation, movement via mobile device, front lens autofocus photography, rear lens autofocus photography, flash supplement light shortage, assembly outside. AB type synchronous handheld device, including: through touch display panel, left and right touch display panel, operation, control, direction, rotation , mobile, touch display panel integrated 3D stereoscopic display for displaying 2D, 3, D images, 3D stereo chip control device core operation, 3D stereo virtual reality interactive display, command, operation, control interface, us B data input , wheeling, charging, microphone wheeling, bar output, operation, control button 'built-in direction sensor, gravity sensor, operation, control, direction, rotation, movement through the mobile device, front lens autofocus photography, rear lens automatic Focus photography, flash supplement light is insufficient, group of shells. AC type synchronous handheld device, including: through touch display panel, left and right touch display panel, operation, control, direction, rotation, mobile touch display panel - body (9) Viewing objects 2d, 3 10021951#Single number A0101 Page 19/147 pages 1013138201, 0 M431354 [April 101, 2011] Correction replacement page D image, 3D stereo chip control device core operation, 3D stereo virtual. Real-time interactive display, command, operation, control interface 'U s B data input, output 'charge, microphone input, speaker output, operation' control Keys, built-in direction sensor, gravity sensor, operation, control, direction, rotation, movement via mobile device, front lens autofocus photography, rear lens autofocus photography, flash supplement light shortage, assembly shell 'left and right keyboard as input. BA 3D stereoscopic display, 2 scan line active, including: Calculate the desired image of both eyes through 3D stereo image, liquid crystal scan line, insulator 'transistor' capacitor 'liquid crystal, electrode composition, make the light vertical through the mirror surface The liquid crystal direction 'controls the brightness of the liquid crystal display, passes through the single-layer filter, and the single-layer light bar panel controls the light direction to display the image. 2 The scanning line screen displays faster, blocks the light barrier substrate, and changes the black nano-coating with the color of the light. The mirrored surface and nano-fluorescent coating inhibit the reflection of the screen. BB type 3D stereo display, 2 scan line passive type, including: Calculate the required display image of both eyes through 3D stereo image, liquid crystal scanning line, insulator, transistor, capacitor, liquid crystal, electrode composition, make the light vertical liquid crystal through specular reflection light source Direction, control the brightness of the liquid crystal display, pass through the single-layer filter, the single-layer light bar panel displays the horizontal 'vertical light wave, control the light direction to display the image' 2 scan line display is faster, block the light barrier substrate, change the color with the light color Nano coating, cut mirror, and nano-fluorescent coating inhibit screen reflection. BC type 3D stereo display, 2 scan line passive three-way display 'includes: Calculate the required display image of both eyes through 3D stereo image, liquid crystal scanning line, insulator, transistor, capacitor, liquid crystal, electrode composition 10021951# single number A01 ( U Page 20 / 147 pages 1013138201-0 M431354 101: Year. April 13 Jun Jun 29, through the specular reflection source to make the light vertical liquid crystal direction, control the brightness of the liquid crystal display, through the single-layer filter, single-layer optical barrier panel Display horizontal and vertical light waves, control the direction of light through the angle lens to display images, 2 scan line display is faster, block light barrier substrate, black nano coating, cutting mirror, nano fluorescent coating suppression screen with light color change Reflective BD type 3D stereo display, 6 scan line passive three-way display, including: calculation of the desired image of both eyes via 3D stereo image, liquid crystal scanning line, insulator, transistor, capacitor, liquid crystal, electrode composition • via specular reflection The light source makes the light vertical to the liquid crystal direction, controls the brightness of the liquid crystal display, passes through the single-layer filter, and the single-layer optical barrier panel displays the level. Vertical light wave, control the direction of light through the angle lens to display images, 6 scan line display is faster, block the light barrier substrate, change with the color of the light, black nano coating, cut mirror, nano fluorescent coating, suppress the screen reflective BE type 3D stereo display, 6-scan line passive, wide-angle lens display, including: calculating the required image of both eyes through 3D stereo image, liquid crystal scanning line, insulator, transistor, capacitor, liquid crystal, electrode composition, light through specular reflection source The vertical liquid crystal direction controls the brightness of the liquid crystal display, passes through the single-layer filter, and the single-layer optical paste panel displays the horizontal and vertical light waves, and controls the light direction to display the image through the lens. The 6 scanning lines are displayed faster and block the light barrier substrate. Black nano-coating, cutting mirror, nano-fluorescent coating to suppress screen reflection 1〇131382〇1~〇CA type 3D stereoscopic display, 2 scan lines in both directions, including: 3D Stereo image calculation of the desired image for both eyes, control 10021951# single number A01〇l page 21/total I4? page M431354 liquid crystal display Calculate the direction and angle of the light barrier by using the two scan lines as the direction of the light bar direction. CB type 3D stereoscopic display, 6 scan line binocular direction, including: calculating the required display of both eyes via 3D stereo image Image, control the liquid crystal display direction with 6 scan lines and two eyes as the light intercept direction design center, calculate the light occlusion direction and angle. CC type 3D stereoscopic view display, 6 scan line binocular direction, including: calculation via 3D stereo image The image needs to be displayed for both eyes, and the liquid crystal display direction is controlled. The center of the 6-scan line is used as the design center of the light interception direction, and the direction and angle of the light block are calculated. # DA type 3D stereoscopic display, 2 scanning lines, and the liquid crystal is rotated in both eyes. Including: calculating the required image of the binocular through the 3D stereo image, 'the pupil reflection light source makes the light vertical liquid crystal direction, controls the liquid crystal display brightness' through the single layer filter, the electrode rotates the liquid crystal direction, reflects the light, and the left display rotates the liquid crystal to The left eye and the right side show the rotating liquid crystal reflected to the right eye. DB type 3D stereoscopic display, 2 scanning lines, both sides of the left and right liquid crystal shielding, including: calculating the required image of the two eyes through the 3D stereo image 'mirror reflecting light source to make the light vertical liquid crystal direction, controlling the liquid crystal display brightness, passing through the single Layer filter, single lens display point split left and right, control electrode shadow lens left and right LCD, left display shaded right eye display, right display shaded left eye display. 1013138201-0 DC type 3D stereoscopic display, 2 scanning lines, the left and right lenses refract light in both directions, including: calculating the desired image of the eyes through the 3D stereo image, the specular reflection source makes the light vertical liquid crystal direction, ^& LCD brightness 'control lens refracts light direction, adjust lens angle production 10_5# single number delete 1 page 22 / 147 pages M431354 _ • ·, 1101 04. 13th day shuttle _ page control left and right images. DD type 3D stereoscopic display, 2 scanning lines, the left and right lenses refract light in both directions, including: calculating the desired image of the eyes through the 3D stereo image, the specular reflection source makes the light vertical liquid crystal direction, controlling the brightness of the liquid crystal display, controlling the lens Refract the direction of the light and adjust the lens angle to control the left and right images. DE type 3D stereoscopic display, 2 scanning lines, the left and right lenses refract light in both directions, including: calculating the desired image of the eyes through the 3D stereo image, the specular reflection source makes the light vertical to the liquid crystal direction, controlling the brightness of the liquid crystal display, and controlling The lens refracts the direction of the light and adjusts the lens angle to control the left and right images. DF type 3D stereoscopic naked-view display, 2 scanning lines, multi-view of both eyes, including: calculating the required image of both eyes through 3D stereo image, specular reflection source makes the light vertical liquid crystal direction, controlling liquid crystal display brightness, passing through single layer The filter plate and the multi-layer light awning block the light, and calculate the position of the light paste through the position of the position. ΕΑ3D stereo projector, mixed beam, including: calculating the required image of both eyes through 3D stereo image, mixing color to produce projection beam color 'Hot circular magnetic field interlaced S pole N pole control beam device moving direction 'fixed beam The rotating shaft displays the image, and the rotating shaft assembly beam device 'assembles the casing, and the image reflects the light wave through the reflective screen. EB type 3D stereo projector, 6 scan line dual projector, including: calculating the required image of both eyes through 3D stereo image, 6 scan line double projector, control electrode shading liquid crystal horizontal and vertical direction, respectively 3 D stereo projector, vertical light shed 3 D stereo projector, the image reflects light waves through the reflective screen. 1013138201-0 10〇21951^Single-numbered cerebral palsy page 23/U7 page M431354 EC type 3D stereo projector, 6-scan line color separation, including: calculating the required image for binoculars via 3D stereo image, color separation The display liquid crystal 'multi-color display is reflected light, the control electrode shields the liquid crystal horizontally and vertically' through the electronic amplifier, and is enlarged and displayed through the lens. FA type 3D stereo rotation naked-view display, 2 scan line binocular direction' includes: calculating the required image for both eyes via 3D stereo image,
3 6 0度旋轉單一方向光,以雙眼為光欄設計中心,計 算出光欄方向角度,高速旋轉畫面不斷重現,產生同一 位置顯示錯覺,任何角度多能觀看相同影像錯覺,產生 3D立體顯示錯覺。 FB型3D立體旋轉裸視顯示器,透明電晶體雙眼 方向’包括:經由掃描線放電激發螢光塗層發光,光線 穿過濾光片、螢光塗層,隨光線顏色變化黑色奈米塗層 、切割鏡面防止反光,保護層基材組成,3體影像 s十算雙眼所需顯示影像,3 6 0度旋轉透明電晶體線路 ’高速旋· 光電晶體’將3D立體影像資訊經由 旋轉過程,以圓心、為資料計算中心,計算出旋轉需改變 顯示位置,將影像顯示。 GA型3D立體裸視顯示器’ 6掃描線雙眼方向, 旋轉液晶反射顯示,包括:經由3 D立體影像計算雙眼 所需顯示影像,水平障壁控制水平掃描料極旋轉液晶 方向,經由垂直障壁鮮m直掃描__轉液晶方向 ,隔離層隔絕電極相通,控制電極旋轉液晶方向、反射 光線’左顯轉轉㈣反射至纽,右顯频轉液晶反 射至右眼。 第24頁/共147頁 10021951#單编號 A0101 1013138201-0 M4313543 60 degrees of rotation of a single direction of light, with the two eyes as the design center of the light bar, calculate the direction of the light bar direction, the high-speed rotation of the picture is constantly reproduced, resulting in the same position display illusion, can view the same image illusion at any angle, resulting in 3D stereo display illusion. FB type 3D stereo rotation naked-view display, transparent transistor binocular direction' includes: excitation of fluorescent coating by scanning line discharge, light passing through filter, fluorescent coating, black nano coating with color change of light The cutting mirror prevents reflection, the protective layer substrate is composed, the 3 body image s is calculated for both eyes, and the 3 60 degree rotating transparent transistor line 'high speed rotation · photoelectric crystal' transmits the 3D stereoscopic image information through the rotation process. With the center of the circle as the data calculation center, calculate the rotation and change the display position to display the image. GA type 3D stereoscopic display> 6 scanning line binocular direction, rotating liquid crystal reflection display, including: calculating the required image of both eyes through 3D stereo image, horizontal barrier control horizontal scanning material rotating liquid crystal direction, via vertical barrier m straight scan __ turn liquid crystal direction, isolation layer isolation electrode is connected, control electrode rotates liquid crystal direction, reflected light 'left turn (4) reflection to button, right display frequency to liquid crystal reflection to right eye. Page 24 of 147 10021951#单号 A0101 1013138201-0 M431354
l〇lg〇4fl 13 H HA型3 D立體多鏡頭攝影機、麥克風,雙鏡頭廣 角平面虛擬對f、攝f彡,包括:_透鏡調整人射光線穿 過暗室穿過感光層,經由輸入、輸出訊號線路訊號經過 放大器,掃描線控制電晶體開關,控制電晶體發射、接 收光、電、磁、波進行感測影像、光波距離計算組合, 經由掃描線控制電晶體開關,釋放感光電晶體訊號經過 放大器輸出訊號線路,障壁隔離感光元件互相干擾,閃 光燈補足光線、麥克風同步錄音、攝影鏡頭對焦攝影、 發射、接收光、電、磁、波進行對焦掃描,經由圓形廣 角感光虛擬對焦攝影,軟體控制攝影中心位置、光波掃 描中心位置,控制虛擬焦點C點位置,計算物體距離、 攝影,影像經由後製處理擬和成3 D立體影像,經由雙 鏡頭廣角平面虛擬對焦攝影,影像經由後製處理擬和成 3 D立體景深影像,將多鏡頭影像以多層影像單一檔案 儲存,光波掃描虛擬焦點C點計算物體距離,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,組合成3 D立體影像資料庫,閃光燈補足光線不 足,同步語音錄製。 1013138201-0 ΗB型3 D立體多鏡頭攝影機、麥克風,三鏡頭廣 角平面虚擬對焦攝影,包括:經由透鏡調整入射光線穿 過暗室穿過感光層,經由輸入'輸出訊號線路訊號經過 放大器’掃描線控制電晶體開關,控制電晶體發射、接 收光、電、磁、波進行感測影像、光波距離計算組合, 經由掃描線控制電晶體開關,釋放感光電晶體訊號經過 放大器輸出訊號線路’障壁隔離感光元件互相干擾,閃 光燈補足光線、麥克風同步錄音、攝影鏡頭對焦攝影、 1002195#單編號 Α〇101 $ 25 頁 / 共 147 頁 「101 年正雙力 發射、接收光、電、磁、波進行職掃描’經由®形廣 角感光虛擬對焦攝影,軟體控制攝影中心位置、光波掃 描中心位置,控制虛擬焦點C點位置,計算物體距離、 攝影,影像經由後製處理擬和成3 體影像,經由三 鏡頭廣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 D立體景深影像,將多鏡頭影像以多層影像單一檔案 儲存,光波掃描虛擬焦點C點計算物體距離,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,組合成3 D立體影像資料庫,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型3 D立體多鏡頭攝影機、麥克風,雙鏡頭連 動軸自動對焦攝影,包括:經由透鏡調整入射光線穿過 暗室穿過感光層,經由輸入、輸出訊號線路訊號經過放 大器,掃描線控制電晶體開關,控制電晶體發射、接收 光、電、磁、波進行感測影像、光波距離計算組合,經 由掃描線控制電晶體開關,釋放感光電晶體訊號經過放 · 大器輸出訊號線路,障壁隔離感光元件互相干擾,閃光 燈補足光線、麥克風同步錄音、連動軸移動攝影鏡頭對 焦攝影、發射、接收光、電、磁、波進行對焦掃描,經 1013138201-0 由圓形廣角感光連動軸自動對焦攝影,軟體控制攝影中 心位置、光波掃描中心位置,連動軸移動焦點C點位置 ,計算物體距離、攝影,影像經由後製處理擬和成3 D 立體影像,經由雙鏡頭廣角連動軸自動對焦攝影,影像 經由後製處理擬和成3 D立體景深影像,將多鏡頭影像 10021951#單編號Α01(η 第26頁/共147頁 M431354 [Ιοί 年 以多層影像單一檔案儲存,光波掃描虛擬焦點c點計算 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,組合成3D立體影像資料 庫,閃光燈補足光線不足,同步語音錄製。 HD型3D立體多鏡頭攝影機、麥克風,三鏡頭連 動軸自動對焦攝影,包括:經由透鏡調整入射光線穿過 暗室穿過感光層,經由輸入、輸出訊號線路訊號經過放 大器’掃描線控制電晶體開關,控制電晶體發射、接收 光、電、磁、波進行感測影像、光波距離計算組合,經 • 由掃描線控制電晶體開關,釋放感光電晶體訊號經過放 大器輸出訊號線路,障壁隔離感光元件互相干擾,閃光 燈補足光線、麥克風同步錄音、連動軸移動攝影鏡頭對 焦攝影、發射、接收光、電、磁、波進行對焦掃描,經 由圓形廣角感光連動軸自動對焦攝影,軟體控制攝影中 心位置、光波掃描中心位置,連動轴移動焦點c點位置 ,計算物體距離、攝影,影像經由後製處理擬和成3 d 立體影像,經由三鏡頭廣角連動軸自動對焦攝影,影像 鲁 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 D立體景深影像,將多鏡頭影像 以多層影像單-播案儲存,光波掃描虛擬焦點c點計算 物體距離,經由移動連動軸自動計算物體距離,計算個 角度距離魏經由後製處理,組合成31)立體影像資料 庫,閃光燈補足光線不足,同步語音錄製。 IA型3 D立體掃描多鏡頭攝影機、麥克風,廣角 平面虛擬掃描對焦攝影,包括:經由以圓為中心架設對 焦攝影t心點,圍繞圓周職卿,將⑽度細微變化 10021951#單編號_1 第27頁/共147頁 1013138201-0 M431354 影像經由後製處理,組合成3D立體影像資料庫,以圓 為中心對焦光波掃描令心點,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,組合成3 d立體影 像資料庫》 I B型3D立體掃描多鏡頭攝影機、麥克風,連動 轴廣角自動掃描對焦攝影,包括:經由以圓為中心對焦 攝影中心點,圍繞圓周對焦攝影,將個角度細微變化影 像經由後製處理,組合成3D立體影像資料庫,以圓為 中心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,組合成3 D立體影像 · 資料庫。 Ϊ C型3D立體掃描多鏡頭攝影機、麥克風,全景 廣角自動掃描對焦攝影,包括:經由以圓為中心對焦攝 影中心點,圍繞圓周對焦攝影,將個角度細微變化影像 經由後製處理,組合成3D立體全景廣角影像資訊,以 圓為中心職光波娜巾灿’目麵周猶、光波掃描L〇lg〇4fl 13 H HA type 3 D stereo multi-lens camera, microphone, dual-lens wide-angle plane virtual pair f, photo f彡, including: _ lens adjusts human light through the dark room through the photosensitive layer, through input and output The signal line signal passes through the amplifier, the scan line controls the transistor switch, controls the transistor to emit, receive light, electricity, magnetism, and wave to perform sensing image and light wave distance calculation combination, and controls the transistor switch through the scan line to release the photosensitive transistor signal. Amplifier output signal line, barrier isolated photosensitive elements interfere with each other, flash fills light, microphone synchronous recording, photographic lens focus photography, transmitting, receiving light, electricity, magnetism, wave for focus scanning, circular wide-angle photosensitive virtual focus photography, software control The position of the center of the photographing, the position of the center of the light wave scan, the position of the virtual focus C point is controlled, the distance of the object is calculated, and the image is imaged. The image is merged into a 3D stereo image through post-production processing, and the image is processed through post-production processing through the dual-lens wide-angle plane. And 3D stereo depth image, multi-lens image with multiple layers Like a single file storage, the light wave scans the virtual focus C point to calculate the object distance, calculates the object distance through the moving virtual focus, calculates the angular distance information through the post-processing, and combines it into a 3D stereo image database, the flash complements the insufficient light, and synchronizes the voice recording. . 1013138201-0 ΗB type 3 D stereo multi-lens camera, microphone, three-lens wide-angle planar virtual focus photography, including: adjusting the incident light through the lens through the photosensitive layer through the lens, via the input 'output signal line signal through the amplifier' scan line control The transistor switch controls the transistor to emit, receive light, electricity, magnetism, and wave to perform sensing image and optical wave distance calculation combination, and controls the transistor switch through the scanning line to release the photosensitive transistor signal through the amplifier output signal line 'Block isolation photosensitive element Mutual interference, flash fill light, microphone simultaneous recording, photographic lens focus photography, 1002195# single number Α〇101 $ 25 pages / 147 pages "101 years of dual-force launch, receive light, electricity, magnetism, wave for job scanning" Through the TM-shaped wide-angle photosensitive virtual focus photography, the software controls the position of the shooting center, the center position of the light wave scanning, controls the position of the virtual focus C point, calculates the object distance, and the photography, and the image is merged into a 3-body image through the post-processing, through the three-lens wide-angle plane. Virtual focus photography, the image is processed through post processing The middle photographic data integrates the left and right photographic data, and the post-processing process is combined into a 3D stereoscopic depth image, and the multi-lens image is stored as a single image of the multi-layer image. The light wave scans the virtual focus C point to calculate the object distance, and calculates the object via the moving virtual focus. Distance, calculate the angular distance information through the post-processing, combined into a 3D stereo image database, flash to fill the light, foot, synchronized voice recording, flash to fill the lack of light, synchronous voice recording. HC type 3 D stereo multi-lens camera, Microphone, dual-lens linkage axis autofocus photography, including: adjusting the incident light through the lens through the photosensitive layer through the lens, passing the input and output signal line signals through the amplifier, scanning the line to control the transistor switch, controlling the transistor to emit and receive light, The electric, magnetic and wave are combined to calculate the image and the distance of the light wave, and the transistor switch is controlled via the scanning line to release the sensitized transistor signal through the output signal line of the amplifier and the barrier, and the barrier isolation sensor interferes with each other, and the flash complements the light and the microphone is synchronized. Recording, linkage axis The moving lens focuses on the photographing, transmitting, receiving light, electricity, magnetism and wave for focusing scanning. After 1013138201-0, the circular wide-angle photosensitive linkage axis autofocus photography, the software controls the shooting center position, the light wave scanning center position, and the linkage axis moves the focus. C point position, calculate object distance, photography, image is merged into 3D stereo image through post-production processing, through dual-lens wide-angle linkage axis autofocus photography, image is merged into 3D stereo depth image via post-processing, multi-lens Image 10021951#单号Α01(η Page 26 of 147 pages M431354 [Ιοί year is a single file storage with multi-layer image, light wave scanning virtual focus c point to calculate object distance, automatically calculate object distance via moving linkage axis, calculate angle distance information Through post-processing, combined into a 3D stereo image database, the flash complements the lack of light and synchronizes voice recording. HD type 3D stereo multi-lens camera, microphone, and three-lens linked-axis autofocus photography, including: adjusting incident light through a dark room through a photosensitive layer through a lens, and controlling a transistor switch through an amplifier's scan line through an input and output signal line signal. Control transistor emission, receiving light, electricity, magnetism, wave for sensing image, light wave distance calculation combination, • Control transistor switch by scanning line, release sensitized transistor signal through amplifier output signal line, barrier isolation sensor interferes with each other , flash fill light, microphone synchronous recording, linked axis moving photographic lens focus photography, launch, receive light, electricity, magnetic, wave for focus scanning, through circular wide-angle photosensitive linkage axis auto focus photography, software control camera center position, light wave scanning The center position, the linkage axis moves the focus point c, calculates the object distance, and the image is imaged into a 3D stereo image through post-production processing. The three-lens wide-angle linkage axis autofocus photography is performed, and the image is processed through the post-production process for intermediate photography data. Integrate left and right The photographic data is processed into a 3D stereoscopic depth image, and the multi-lens image is stored in a multi-layer image single-casting case. The optical wave scans the virtual focus c point to calculate the object distance, and automatically calculates the object distance through the moving linkage axis to calculate the angle. Wei is processed through post-production, and is combined into a 31) stereo image database. The flash complements the lack of light and synchronizes voice recording. IA type 3D stereo scanning multi-lens camera, microphone, wide-angle plane virtual scanning focus photography, including: through the center of the circle to set the focus photography t-point, around the circumference of the secretary, the (10) degree will be slightly changed 10021951# single number_1 27 pages/total 147 pages 1013138201-0 M431354 The images are processed into a 3D stereo image database through post-processing. The focus is focused on the center of the circle, and the focus is scanned around the circumference. The angular distance information is calculated via post-processing. , combined into a 3 d stereo image database IB type 3D stereo scanning multi-lens camera, microphone, linked axis wide-angle automatic scanning focus photography, including: focus on the center of the focus through the circle, focus photography around the circumference, the angle is fine The changed images are processed into a 3D stereo image database through a post-processing process, and the center of the focus light wave is scanned with the center of the circle, and the focus light wave is scanned around the circumference, and the angular distance information is calculated and processed into a 3D stereo image. . Ϊ C-type 3D stereo scanning multi-lens camera, microphone, panoramic wide-angle automatic scanning focus photography, including: focusing on the center point of the focus through the circle, focusing photography around the circumference, and subtly changing the image through the post-processing, combining into 3D Stereoscopic panoramic wide-angle image information, with the center of the circle as the center of the light, the light of the towel, the face of the sun, light wave scanning
,計算個角度距離資訊經由後製處理,組合成3 D立體 全景廣角影像資料。 J A型3 D立體掃描多鏡頭攝影機、麥克風,全景 廣角自動掃描對焦攝影監視、操作、控制,包括:經由 架設多視角多方向自動對焦攝影,將多方向自動掃描對 焦攝影資訊,組合成3 D立體影像資料庫,進行全方位 3 D立體多鏡頭攝影機監視、操作、控制,自動對焦攝 衫债測特定監視、操作、控制目標物,經由放大、縮小 對焦攝影’分析騎各種細微變化、方向移動改變。 10〇2l95l#單編號 A0101 KA型3D立體掃描多鏡頭攝影機、麥克風,全景 第28頁/共147頁 1013138201-0 料j1354 . 年.04月13日接正替換頁 廣角平面虛擬掃描對焦攝影,包括:經由圓形廣角感光 連動軸自動對焦攝影,軟體控制攝影中心位置、光波掃 描中心位置,移動焦點C點位置計算物體距離、攝影, 影像經由後製處理擬和成3 D立體影像,經由多鏡頭廣 角平面虛擬對焦攝影,影像經由後製處理擬和成3d立 體景深影像,將多鏡頭影像以多層影像單一檔案儲存, 經由圓形廣角發射、接收光、電、磁、波進行掃描計算 虛擬焦點C點距離’經由移動虛擬焦點計算物體距離, s十算個角度距離資訊經由後製處理,組合成3 j)立體影 像資料庫,閃光燈補足光線不足,同步語音錄製。 K B型3 D立體掃描多鏡頭攝影機、麥克風,全景 廣角連動軸自動掃描對焦攝影,包括:經由圓形廣角感 光連動軸自動對焦攝影,軟體控制攝影中心位置、光波 掃描中心位置,連動軸移動焦點c點位置計算物體距離 、攝影,影像經由後製處理擬和成3£)立體影像,經由 多鏡頭廣角連動軸自動對焦攝影,影像經由後製處理擬 和成3D立體景深影像,將多鏡頭影像以多層影像單一 檔案儲存’經由圓形廣角發射、接收光、電、磁、波進 行知描冲异連動軸焦點C點距離,經由移動連動轴自動 焦點计算物體距離,計算個角度距離資訊經由後製處理 ’組合成3D立體影像資料庫,閃光燈補足光線不足, 同步語音錄製。. LA型3D立體同樂機器人,蜂巢式磁場控制個關 即運動擬人機器人,包括:經由蜂赋磁場控制侧節 運動, 輸入、 10021951#單編號 A〇1〇l 經由全景廣肖連動轴自崎描對鱗影,麥克風 制°八輸出辨識語音產生互動,輸出相對應語音, 第29頁/共147頁 1013138201-0 M431354 連動軸自動掃描對焦攝影計算距離, ρ脾04月接正雜g 經由圓形廣角發射 、接收光、電、磁、波進行掃描計算連動她點C點距 離,經由移動連動軸自對動焦計算物體距離,計算個角 度距離資訊經由後製處理,組合成31)立體影像資料庫 ’内置方向感廳、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極交叉排列組合而成,圓形 控制磁場雛人的各種純產生互動,接受各種指令產 生互動’全景廣角連動轴自動掃描對焦攝影it行3 Da 體影像辨識,語音觸提供絲娜、蝴,擬人機器 人’產由辨識影像' 語音互動操作、控制、學習,紀錄各 種k息完成各種任務。 LB型3D立朗樂機ϋ人’可煞車磁場馬達控制 侧節運_人機H人,包括1由可絲磁場馬達控 .制個關節運動’經由全景廣肖連動轴自崎描對焦攝最 ,麥克風輸入、制u八輸出辨識語音產生互動,輸出械 應語音,連動軸自鱗描對輯料算距離,經由圓开 廣角發射、接收光、電、磁、波進行掃描計算連動轴焦 點C點距離,經由移動連動轴自動對焦計算物體距離, 計算個角度距離資訊經由後製處理,組合成3 d立體影The calculated angle distance information is combined into a 3D stereo wide-angle image data through post-processing. JA type 3D stereo scanning multi-lens camera, microphone, panoramic wide-angle automatic scanning focus photography monitoring, operation, control, including: through the installation of multi-view multi-directional autofocus photography, multi-directional automatic scanning focus photography information, combined into 3 D stereo Image database, comprehensive 3D stereo multi-lens camera monitoring, operation, control, auto-focus camera debt measurement specific monitoring, operation, control of objects, through zooming in and out of focus photography 'analysis ride various subtle changes, direction shift changes . 10〇2l95l# single number A0101 KA type 3D stereo scanning multi-lens camera, microphone, panorama page 28 / 147 pages 1013138201-0 material j1354. Year. April 13th replacement page wide-angle plane virtual scan focus photography, including : Through the circular wide-angle photosensitive linkage axis autofocus photography, the software controls the shooting center position, the light wave scanning center position, the moving focus C point position calculates the object distance, the photography, and the image is merged into the 3D stereo image through the post-processing, through the multi-lens Wide-angle planar virtual focus photography, the image is merged into a 3D stereoscopic depth image through post-processing, and the multi-lens image is stored as a single image in a multi-layer image, and the virtual focus is calculated by circular wide-angle transmission, receiving light, electricity, magnetism, and wave scanning. Point distance 'calculates the distance of the object via the moving virtual focus, s calculates the angular distance information through the post-processing, and combines it into 3 j) stereo image database, the flash complements the insufficient light, and synchronizes the voice recording. KB type 3D stereo scanning multi-lens camera, microphone, panoramic wide-angle linkage axis automatic scanning focus photography, including: through circular wide-angle photosensitive linkage axis autofocus photography, software control photography center position, light wave scanning center position, linkage axis moving focus c The point position calculates the distance of the object, the photography, and the image is merged into a stereoscopic image through post-production processing. The multi-lens wide-angle linkage axis autofocus photography is performed, and the image is merged into a 3D stereoscopic depth image through post-processing, and the multi-lens image is Multi-layer image single file storage 'transfers through the wide-angle transmission, receives light, electricity, magnetism, and waves, and knows the focal point C distance of the moving axis. The distance is calculated by moving the automatic focus of the moving axis, and the angle information is calculated. Processing 'combined into a 3D stereo image database, the flash complements the lack of light, synchronized voice recording. LA type 3D stereo homophone, honeycomb magnetic field control, ie, motion anthropomorphic robot, including: control of side section motion via bee magnetic field, input, 10021951# single number A〇1〇l via panoramic panoramic axis linkage axis Trace the scale shadow, the microphone system is eight output recognition voice generation interaction, output corresponding voice, page 29 / 147 pages 1013138201-0 M431354 linkage axis automatic scanning focus photography calculation distance, ρ spleen 04 month is mixed with g through the circle Shape wide-angle emission, receiving light, electricity, magnetism, wave scanning calculation to link her point C point, calculate the distance of the object through the moving linkage axis, and calculate the angular distance information through the post-processing, combined into 31) stereo image The database 'built-in direction sense hall, gravity sensor analyzes the current direction, control balance' honeycomb type circular magnetic field s pole N pole cross arrangement, circular control magnetic field chicks of various pure interaction, accept various instructions to interact 'Landscape wide-angle linkage axis automatic scanning focus photography it line 3 Da body image recognition, voice touch provides silk, butterfly, anthropomorphic robot' identification Like 'the voice interactive operation, control, learn, record a variety of information k to complete various tasks. LB type 3D vertical machine ϋ人' can be used to control the magnetic field motor control side of the _ man-machine H people, including 1 by the magnetic field motor control. Make an articulation 'through the panoramic wide-axis linkage axis from the Saki , microphone input, system u output recognition voice generation interaction, output device should voice, linkage axis self-scale drawing to calculate the distance, through the round wide-angle emission, receiving light, electricity, magnetism, wave scanning to calculate the linkage axis focus C Point distance, calculate the distance of the object through the moving linkage axis autofocus, calculate the angular distance information through the post-processing, and combine into a 3 d stereoscopic image.
重力感應器分析目前方向 像資料庫,内置方向感應器 、控制平衡,可煞輕場馬達_各關節雜、彎曲, 模擬人的各鶴作紅互動,接受各翻令產生互動, 全景廣角連動軸_描對焦攝影進行3 D立體影像辨 識,語音職提供互轉作、控制,擬人機器人經由辨 識影像、語音互動操作、控制、學f,紀錄各種信息完 成各種任務。 • 10021951^^^ Α〇101 第3〇頁/共147頁 1013138201-0 M431354Gravity sensor analyzes the current direction image database, built-in direction sensor, control balance, 煞 light field motor _ all joints, bending, simulation of each crane to make red interaction, accept each turn to create interaction, panoramic wide-angle linkage axis _Drawing focus photography for 3D stereo image recognition, voice job provides mutual transfer, control, anthropomorphic robot through the identification of images, voice interactive operation, control, learning f, record a variety of information to complete a variety of tasks. • 10021951^^^ Α〇101 Page 3 of 147 1013138201-0 M431354
1 年.04月13日核正替换頁I Μα型3D立體實物仿製機器,3D立體實物仿製 複製上色,包括:經由喷頭、塗料喷頭、放大鏡、零件 組成,經由固定柱移動Z軸調整z軸位置,固定座乂軸 Y軸,設置旋轉盤旋轉方向角度,〇型環保護潤滑防止 污垢進入,固定座控制前進、後退距離設置旋轉方向馬 達控制旋轉方向,經由控制馬達旋轉_、刀頭方向, 控制3D立體實物仿製機器移動又軸^軸z軸、旋轉軸 、角度輛,經由設置光電感應裝置,精確控制又軸¥軸 Z軸'旋轉轴、角度轴,3D立體資訊進行後製處理成 真實比例,對3D立體仿製物體進行光、電、磁、波、 物理、化學、原子、奈米、材料組成原理特性分析,分 析仿製對象,依照分析結果經由各種奈米材料、化學變 化材料,進行物理、化學變化組合、材料合成,依照仿 製對象進行高壓、高溫奈米材料喷塗,喷出奈米材料、 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3D立體實物仿製機器,3D立體實物仿製 雕刻上色,包括:經由喷頭、塗料噴頭、放大鏡、零件 組成,經由固定柱移動Z軸調整Z軸位置,固定座又軸 Y轴,設置旋轉盤旋轉方向角度,〇型環保護潤滑防止 污垢進入,固定座控制前進、後退距離設置旋轉方向馬 達控制旋轉方向,經由控制馬達旋轉喷頭、刀頭方向, 1013138201-0 控制3 D立體實物仿製機器移動X軸γ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γ軸 Z轴、旋轉轴、角度轴’ 3 D立體資訊進行後製處理成 10021951#單編號A0101 第31頁/共147頁 M431354 [ϊ〇1年04月13B .梭正替換頁. 真實比例,對3D立體物體預設材料雕刻,喷塗顏色塗 料,製作不同實物仿製雕刻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:經由喷頭、塗料喷頭'放大鏡、零件 組成,經由固定柱移動Z轴調整Z軸位置,固定座X轴 - Y軸’設置旋轉盤旋轉方向角度,◦型環保護潤滑防止 污垢進入,固定座控制前進、後退距離設置旋轉方向馬 達控制旋轉方向,經由控制馬達旋轉喷頭、刀頭方向, · 控制3D立體實物仿製機器移動X軸γ#ζ軸、旋轉軸 、角度軸,經由設置光電感應裝置,精確控制X軸γ轴 Ζ軸、旋轉軸、角度軸,3 D立體資訊進行後製處理成 真實比例,對3 D立體影像進行光學透鏡材料喷塗,凹 凸透鏡增加影像可視範圍,經由計算3D立體影像資訊 ,建立多層光攔位置使雙眼觀看3 〇立體影像,經由多 張影像組合成3D動態影像,將影像印製在凹凸層,經 由噴塗透鏡、多層細遮蔽影像,在不同角度左眼右 · 眼看到不同影像’赴3 D立體動態縣,影像噴塗在 凹&透鏡產生不同角度折射,不同角度觀看到不同影像 ’計算多張影像不同角度多層光欄,產生3 D立體動態 影像’依照仿製對象進行高壓、高溫奈米材料喷塗,喷 出奈米材料、顏色餅凝結合成結合,製作不同相片仿 製列印上色對象經由不同大小機器,不同大小喷塗材料 ’使相片仿製列印上色過程更加便利快速。 10021951#單編號 A〇101 1013138201-0 勘型30立體實物仿製機器,3d立體實物仿製 第32頁/共147頁 M431354 ____ , 、 .101:年.04.启13日按正頁. 縫紉上色,包括:經由喷頭、塗料噴頭、放大鏡、零件 組成,經由固定柱移動z轴調整Z軸位置,固定座X軸 γ軸’設置旋轉盤旋轉方向角度,◦型環保護潤滑防止 污垢進入,固定座控制前進、後退距離設置旋轉方向馬 達控制旋轉方向,經由控制馬達旋轉喷頭、刀頭方向, 控制3 D立體實物仿製機器移動X軸γ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γ轴 ’ 2軸、旋轉軸、角度軸,3 D立體資訊進行後製處理成 真實比例,對3 D立體服裝進行材料分析,仿製縫紉上 ® 色機器喷塗凝結合成仿製外觀造型,喷塗纖維、絲線、 尼龍紡織服裝材料’交又喷塗凝結組合成網狀結構,化 . 學纖維交叉喷塗凝結合成絲線,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 • 縫紉上色對象經由不同大小機器,不同大小喷塗材料, .使實物仿製縫紉上色過程更加便利快速。 OA型全景夢境投影機’經由液晶面板顯示全景影 像’經由透鏡放大影像,投射到銀幕產生全景影像,經 由設置旋轉舞台、前進、後退移動產生動態3 D立體視 覺。 3D立體多鏡頭攝影機,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,第一攝影鏡頭、第 二攝影鏡頭、第三攝影鏡頭提高解析度。 1013138201-0 1QQ21951#單編號A0101 第33頁/共147頁 M431354 101年04月13日按正替换百 X轴Y轴Z軸電子線路,經由又軸了軸2軸電晶體 線路結合而成,經由X軸γ軸Z轴像素平衡放大線路輸 入訊號,經過電晶體閘道輸出訊號,第一點像素訊號相 加第二點像素訊號,輪出訊號位移一個位元為其平均值 ’經由X軸Y軸Z軸記憶體線路、X軸掃描訊號線、γ 軸掃描訊號線、Z軸掃描訊號控制線、z軸連接線、z 軸控制電晶體。1 year. April 13th nuclear replacement page I Μα type 3D solid object imitation machine, 3D solid imitation copying and coloring, including: through the nozzle, paint nozzle, magnifying glass, parts, through the fixed column to move the Z-axis adjustment Z-axis position, fixed seat 乂 axis Y-axis, set the rotation direction of the rotary disk, 〇-ring protection lubrication to prevent dirt from entering, fixed seat control forward and reverse distance setting rotation direction motor control rotation direction, rotation via control motor _, cutter head Direction, control 3D solid object imitation machine movement and axis ^ axis z axis, rotation axis, angle vehicle, through the setting of photoelectric sensing device, precise control and axis ¥ axis Z axis 'rotation axis, angle axis, 3D stereo information for post processing In real proportion, the 3D stereoscopic imitation objects are analyzed by optical, electrical, magnetic, wave, physical, chemical, atomic, nano, and material composition principles, and the imitation objects are analyzed. According to the analysis results, various nano materials and chemical change materials are used. Perform physical and chemical changes, material synthesis, high-pressure, high-temperature nanomaterial spraying according to imitation objects, and spray nano-materials The materials and color paints are combined into a combination, and different physical imitations are produced to replicate the coloring objects. The materials are sprayed through different sizes and machines to make the imitation copying process more convenient and fast. MB type 3D solid object imitation machine, 3D solid imitation engraving and coloring, including: through the nozzle, paint nozzle, magnifying glass, parts, through the fixed column to move the Z axis to adjust the Z axis position, the fixed seat and the axis Y axis, set the rotation The rotation direction of the disc, the 〇-ring protection protects against dirt, the fixed seat controls the forward and reverse distances, and the rotation direction sets the motor to control the rotation direction. The control nozzle rotates the nozzle and the cutter head direction, 1013138201-0 controls the 3D solid object imitation machine. Moving the X-axis γ-axis z-axis, the rotation axis, and the angle axis 'by setting the photoelectric sensing device, precisely controlling the X-axis γ-axis Z-axis, the rotation axis, and the angle axis ' 3 D stereo information is processed into a 10021951# single number A0101 31 pages/total 147 pages M431354 [ϊ〇1年04月13B. Shuttle is replacing the page. Real scale, engraving of 3D solid object preset materials, spraying color paint, making different physical imitation engraving objects through different sizes Different preset materials make the imitation engraving process more convenient and fast. MC type 3D solid object imitation machine, 3D stereo photo imitation printing and printing, including: through the nozzle, paint nozzle 'magnifying glass, parts, through the fixed column to move the Z axis to adjust the Z axis position, the fixed seat X axis - Y axis 'Set the rotation direction of the rotary disc, the ◦-type ring protects the lubrication to prevent the dirt from entering, the fixed seat controls the forward and reverse distances to set the rotation direction, the motor controls the rotation direction, rotates the nozzle and the cutter head direction by controlling the motor, · controls the 3D solid object imitation machine Move the X-axis γ#ζ axis, rotation axis, and angle axis, and accurately control the X-axis γ-axis Ζ axis, rotation axis, and angle axis by setting the photoelectric sensing device, and the 3D stereo information is processed into a real scale, for 3 D The stereoscopic image is sprayed with the optical lens material, and the lenticular lens increases the visible range of the image. By calculating the 3D stereoscopic image information, the multi-layer optical intercept position is established, so that the three-dimensional stereoscopic image is viewed by both eyes, and the 3D dynamic image is combined through multiple images to print the image. In the uneven layer, through the spray lens, multiple layers of fine shadow image, at different angles left eye right eye see different images 'to 3 D In the dynamic county, the image is sprayed in the concave & lens to produce different angles of refraction, different angles to view different images 'calculate multiple images of different angles of multi-layered light bar, generate 3D stereoscopic images' according to the imitation object for high-pressure, high-temperature nanomaterials Spraying, spraying out nano-materials, coloring cakes and combining them into a combination, making different photos and imitation printing and printing objects through different sizes of machines, different sizes of spraying materials' make the photo imitation printing process more convenient and fast. 10021951#单号A〇101 1013138201-0 Survey 30 three-dimensional physical imitation machine, 3d solid object imitation page 32 / 147 pages M431354 ____ , , .101: year.04. 13th press the front page. Sewing color , including: through the nozzle, paint nozzle, magnifying glass, parts, through the fixed column to move the z-axis to adjust the Z-axis position, the fixed seat X-axis γ-axis 'set the rotation direction of the rotating disk, the ◦-ring protection lubrication to prevent dirt from entering, fixed The seat control forward and reverse distances set the rotation direction motor to control the rotation direction, and control the motor to rotate the nozzle and the cutter head direction to control the 3D solid object imitation machine to move the X-axis γ-axis Z-axis, the rotation axis, and the angle axis. Induction device, precise control of X-axis γ-axis '2-axis, rotary axis, angle axis, 3D stereo information for post-processing into real proportion, material analysis for 3D three-dimensional clothing, imitation sewing on the color machine spray condensation Imitation appearance, spray fiber, silk thread, nylon textile garment material 'cross and spray coagulation combined into a network structure, chemical fiber cross-spray coagulation combined into a silk thread, no Different treatments with the clothing 'through various types of fibers, chemical materials' to process 3D stereoscopic information, design and draw clothing shapes, colors, arbitrarily change clothes, shapes, colors to replace various sizes and sizes of clothing, to carry out various styling arrangements, The style design conforms to individual characteristics, weaving various structures, styles, shapes, color sprays, making various materials synthetically made, making different physical imitations • Sewing and coloring objects through different sizes of machines, different sizes of spray materials, so that the real imitation sewing The color process is more convenient and faster. The OA-type panoramic dream projector "displays a panoramic image via the liquid crystal panel" magnifies the image via a lens, projects it onto the screen to generate a panoramic image, and generates a dynamic 3D stereoscopic vision by setting the rotating stage, forward and backward movement. The 3D stereo multi-lens camera is configured to store the photosensitive lens photographic elements via the interval image, and the first photographic lens, the second photographic lens, and the third photographic lens improve the resolution. 1013138201-0 1QQ21951#单号A0101 Page 33 of 147 M431354 On April 13, 101, the 100-axis Y-axis Z-axis electronic circuit was replaced by a shaft-axis 2-axis transistor circuit. X-axis γ-axis Z-axis pixel balance amplifier line input signal, after the transistor gate output signal, the first pixel signal adds the second pixel signal, and the wheel signal shifts one bit to its average value 'via X-axis Y Axis Z-axis memory line, X-axis scan signal line, γ-axis scan signal line, Z-axis scan signal control line, z-axis connection line, z-axis control transistor.
1013138201-0 觸控顯示面板,經由X軸掃描訊號線發出訊號,經 由觸摸連接導通訊號,間隔層防止未觸摸碰觸導通,經 由Y軸掃描訊號線傳送訊號,整合液晶面板。 X轴Y轴Z轴加法運算電路,經由輸入又軸被加數 、丫轴加數輸出結果,經由輸入被加數X轴0丄2 3 4 和0 5訊號、加數Y軸01234和05訊號,通過掃 描線電晶體將被加數X轴〇12 3 4加數Y軸〇12 3 4訊號相加輸出結果,如果相加大於5則進位,如果有 進位和被加數X軸〇 5加數γ軸0 5相加輸出結果,如 果相加大於1〇則進位1 β X軸Υ軸Ζ軸減法運算電路,經由輸入X軸被減數 、丫軸減數輸出結果,經由輸入被減數X軸012 3 4 和0 5訊號、減數γ軸〇12 3 4和0 5訊號,通過掃 描線電晶體將被減數X轴〇 1 2 3 4減數Υ轴〇12 3 4訊號相減輸出結果,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X軸〇 5相加在減去 減數Υ軸05輸出結果,如果有借位則退位1。 X軸Υ軸Ζ轴乘法運算電路,經由輸入X轴被乘數 、Υ軸乘數輸出結果,經由輸入被乘數X軸〇12 3 4 10021951#單编號Α0101 第34頁/共147頁 M431354 和Ο 5訊號、乘數Υ軸Ο 1 2 3 4和Ο 5訊號, 描線電晶體將被乘數X軸Ο 12 3 4乘數Y軸〇12 3 4訊號相乘輸出結果,如果相乘大於5則進位,如果有 進位和被乘數X軸Ο 1 2 3 4乘上乘數γ軸〇 5、乘數 Υ轴Ο 1 2 3 4乘上被乘數X轴〇 5結果相加,再加上 被乘數X轴0 5乘數Υ轴0 5相乘輸出結果,如果相加 大於10則進位,為1〇進位乘法ΑΑ為〇1 2 3 4 5 、AΒ為05’ΒΑ為012345'ΒΒ為〇5,將 AA乘BA、AA乘BB、BA乘AB、AB乘BB。 • X轴Y轴Z轴除法運箅電路’經由—個加法、減法 組成除法,經由一個加法、計數器累積加法數值、減法 組成除法,經由计數累積加法數值比對減法數值,輪 出比對相減剩餘數值。 XMY軸Z軸記憶體整合加減乘除線路,直接運算 處理,X軸Y軸Z軸記憶體多重運算線路,輸入訊號控 制線經過電晶體設定訊號,限制訊號方向多重比對分析 處理,输出訊號控制線運算處理,X軸Y軸Z抽記憶體 多重運算線路,輸入訊號控制線經過電晶體設定訊號, 限制訊號方向多重比對分析處理,輸出多重訊號控制線 運算處理。 X軸Y軸Z轴加法運算電路,經由輸碌加數百位 數、十位數、個位數,加數百位數、十位數、個位數, 、左由單一位元運舁處理輸出結果和進位處理,進位1輸 出連接線路到下一位元被加數輸入端進位i或是進位工 輸出連接線路到下一位元加數輸入端進位i,進行下一 位原運算處理,超出運算處理控制。 10021951#單編號_1 第35頁/共147頁 1013138201-0 M431354 101年.04月13日修正替換頁 X軸Y軸Z軸減法運算電路’經由輸入被減數百位 數、十位數、個位數,加數百位數、十位數、個位數, 經由單一位元運算處理輸出結果和退位處理,退位1輸 出連接線路到下一位元被減數輸入端退位1或是退位工 輸出連接線路到下一位元減數輸入端進位1,進行下一 位原運算處理,負數借位運算處理控制,如果被減數為 A、減數為B結果為C,A — B = C如果A〉B則控制 輸出輸出結果否則A<B則在補正運算一次,例如〇 〇 1234—004321=996913借位一1補正 運算,補正數值1000〇〇〇—996913=30 · 8 7輪出結果。 X轴Y軸Z軸乘法運算電路,經由輸入被乘數百位 數、十位數、個位數,乘數百位數、十位數'個位數, 經由單一位元運算處理輸出結果和進位處理,進位數值 輸出連接線路到下一位元被加數、加數輸入端進位數值 ’進行下一位原運算處理,超出運算處理控制,第1乘 法數值相加第2位元乘法數值,第2乘法數值相加第3 位元乘法數值。 X軸Υ轴Ζ軸除法運算電路,經由輸入被除數百位 數、十位數、個位數,減法比對乘法輸出結果,一個乘 法運算輸入除數百位數、十位數、個位數,輸入倍數輸 出結果。 【實施方式】1013138201-0 The touch display panel sends a signal through the X-axis scanning signal line, and the communication layer is guided by the touch connection. The spacer layer prevents the untouched contact from being turned on, and transmits the signal through the Y-axis scanning signal line to integrate the liquid crystal panel. X-axis Y-axis Z-axis addition circuit, through the input and the axis is added, the 丫 axis is added to the output result, and the input X-axis is 0 丄 2 3 4 and 0 5 signals, plus the Y-axis 01234 and 05 signals are input via the input. Through the scanning line transistor, the number of X-axis 〇 12 3 4 plus the number of Y-axis 〇 12 3 4 is added to the output result. If the sum is greater than 5, the carry is performed. If there is a carry and the added X-axis 〇 5 plus The number of γ-axis 0 5 is added to the output result. If the sum is greater than 1 〇, the carry 1 β X-axis Υ axis 减 axis subtraction circuit is outputted by the input X-axis, the 丫-axis is reduced, and the result is subtracted via the input. X-axis 012 3 4 and 0 5 signals, subtraction γ-axis 〇 12 3 4 and 0 5 signals, which are subtracted by the scan line transistor by the subtraction X-axis 〇 1 2 3 4 subtraction Υ axis 〇 12 3 4 signal The output result, if the subtraction is greater than the subtracted number, the borrowing is decremented by 5. If there is a borrowing, then the borrowing 5 is added to the subtracted X-axis 〇5, and the subtracted Υ axis 05 is output. If there is a borrowing Then abdicate 1. X-axis Υ axis Ζ axis multiplication circuit, output result by input X-axis multiplier, Υ axis multiplier, via input multiplicand X axis 〇 12 3 4 10021951 #单号Α0101 Page 34 / Total 147 pages M431354 And Ο 5 signal, multiplier Υ axis Ο 1 2 3 4 and Ο 5 signal, the line transistor will be multiplied by the X axis Ο 12 3 4 multiplier Y axis 〇 12 3 4 signal multiplied output result, if the multiplication is greater than 5 carry, if there is carry and multiplicand X axis Ο 1 2 3 4 multiply the multiplier γ axis 〇 5, multiplier Υ axis Ο 1 2 3 4 multiply the multiplicand X axis 〇 5 result add, then Add the multiplier X axis 0 5 multiplier Υ axis 0 5 multiply the output result, if the addition is greater than 10, the carry is 1 〇 carry multiplication ΑΑ 〇 1 2 3 4 5 , A Β 05 'ΒΑ 012345' ΒΒ is 〇5, multiply AA by BA, AA by BB, BA by AB, AB by BB. • The X-axis Y-axis Z-axis division operation circuit is divided by an addition and subtraction method, and is added by an addition, a counter cumulative addition value, and a subtraction method, and the subtraction value is compared by counting the cumulative addition value, and the comparison is performed. Reduce the remaining value. XMY axis Z-axis memory integrated addition, subtraction, multiplication and division lines, direct arithmetic processing, X-axis Y-axis Z-axis memory multiple computing lines, input signal control line through the transistor setting signal, limit signal direction multiple comparison analysis processing, output signal control line The arithmetic processing, the X-axis Y-axis Z-pull memory multi-operation circuit, the input signal control line through the transistor setting signal, the signal direction multiple alignment analysis processing, and the output multi-signal control line operation processing. X-axis Y-axis Z-axis addition circuit, plus hundreds of digits, tens digits, single digits, plus hundreds of digits, tens digits, single digits, and left by a single bit Output result and carry processing, carry 1 output connection line to the next bit is added by the input terminal i or the carry output connection line to the next bit addend input carry i, the next bit of the original operation processing, Exceeded the arithmetic processing control. 10021951#单号_1 Page 35 of 147 1013138201-0 M431354 101.04.13 Modified replacement page X-axis Y-axis Z-axis subtraction circuit 'Hundreds of digits, tens digits, via input The number of digits, plus hundreds of digits, ten digits, single digits, the output result and the abdication processing are processed by a single bit operation, and the output line of the abbreviated 1 output to the next bit is abdicated by the subtraction input 1 or abdicated The output line is connected to the next one-bit subtraction input terminal 1 to perform the next original operation processing, and the negative number borrowing operation is controlled. If the subtraction is A, the subtraction is B, the result is C, A — B = C If A>B then control the output output result, otherwise A<B is correcting the operation once, for example 〇〇1234—004321=996913 borrowing a 1 correction operation, the correction value is 1000〇〇〇—996913=30 · 8 7 rounds out result. The X-axis Y-axis Z-axis multiplication circuit is multiplied by hundreds, tens, and single digits by input, multiplied by hundreds of digits, and tens digits, and the number of digits is processed by a single bit operation. Carry processing, the carry value output connection line to the next bit is added, the addend input carry value 'for the next original operation processing, beyond the arithmetic processing control, the first multiplication value is added to the second bit multiplication value, The second multiplication value is added to the third multiplication value. X-axis, axis, and axis division operation circuit, which divides hundreds of digits, tens digits, and single digits by input, subtracts the multiplication output result, and multiplies the input by hundreds, ten, and one digits. Number, enter the multiple output result. [Embodiment]
[0004] 10021951^WE 本創作係一種即時互動3D立體仿製娛樂裝置,經 由主機1 — 1 1連接Β型3D立體顯示器,c型3D立 體裸視顯示器,D型3 D立體裸視顯示器,ε型3 D立 Α0101 第36頁/共147頁 1013138201-0 M431354 [101 年 04月 13 日 ,G型3D立 體裸視顯示器,0型全景夢境投影機,11型31)立體多 鏡頭攝影機、麥克風,I型3 :)立體掃描多鏡頭攝影機 、麥克風,J型3 D立體掃描多鏡頭攝影機、麥克風, K型3 D立體知描多鏡頭攝影機、麥克風,a型同步手 持裝置操作控制主機運作,操作控制L型3d立體同樂 機器人一同育樂,操作控制“型3 D立體實物仿製機器 即時生產,酉己戴N型3 D立體顯示眼鏡觀看3 D立體影 像,配置方向感應器、重力感應器辨識移動方向、重力[0004] 10021951^WE This creation is an instant interactive 3D stereo imitation entertainment device, connected to the Β-type 3D stereoscopic display via the host 1-1, c-type 3D stereoscopic display, D-type 3D stereoscopic display, ε type 3 D立Α0101 Page 36/147 pages 1013138201-0 M431354 [April 13, 2011, G-type 3D stereoscopic display, type 0 panoramic dream projector, type 11 31) stereo multi-lens camera, microphone, I Type 3 :) Stereo-scan multi-lens camera, microphone, J-type 3 D stereo scanning multi-lens camera, microphone, K-type 3 D stereoscopic multi-lens camera, microphone, a-type synchronous handheld device operation control host operation, operation control L Type 3D stereo music robot together, operation control "type 3 D solid object imitation machine instant production, wear N-type 3 D stereoscopic glasses to view 3 D stereo image, configure direction sensor, gravity sensor to identify the moving direction ,gravity
體投影機,F型3 D立體旋轉裸視顯示器 方向’雙觸控鍵盤做為資料輸入、輪出、按鍵、移動介 面’動感控制器做為按鍵、移動介面,進行即時互動、 辨識、操作、控制、監視、觀看、輸入、輸出◊ 經由3 D立體晶片簡化線路設計結構,增加運算、 操作、控制速度,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、資料交換輪入 、輸出,即時揮拳操作、控制遊戲,經由3 〇立體虛擬 實境作為互動介面,結合3 D立體影像辨識、語音辨識 一體,互動操作、控制、辨識道具,經由結合3 〇立體 顯示、3 D立體影像辨識、語音辨識一體,進行食衣住 行、育樂、生活'科學、醫療即時互動、監視、操作、 控制、觀看,經由3 D立體掃描多鏡頭攝影機,組合成 3 D立體影像資料庫,結合3 d立體影像辨識、語音辨 識一體,進行設定3D立體影像語音密碼、3D立體影 像、語音、表情、動作、遠近、大小、方向、移動、道 具細微變化即時互動、辨識、操作、控制、監視、觀看 ,經由3 D立體實物仿製機器即時仿製3 D立體影像生 10021951#單編號 A01〇l 第37頁/共147頁 1013138201-0 M431354 [101^.04^ 13 Β .1 經 產’經由操作、控制3D立體同樂機器人一同育樂, 10021951 由3 D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3D立體影像即時互動育樂,經由最 自然3D立體顯示方式觀看3D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 〇立體影像,經 由結合3 D立體影像辨識、語音辨識一體,提供更精確 互動對話辨識資訊,經由3 D立體掃描多鏡頭攝影機, 組合成3 D立體影像資料庫,結合3 D立體影像辨識、 語音辨識-體,運用在3 D:iL體影像語音密顺識、3 D立體服裝造型設計、3 DiL體遊戲設計、3 D立體動 畫設計、3D立體多鏡頭攝影機' 3D立體電影等等3 D立體製作上,經由3D立體掃描多鏡頭攝影機,組合 成3 D立體影像資料庫’結合3 D立體影像辨識、語音 辨識一體,運用在3D立體互動教學、3 D立體互^ 療、3D立體互動生活、3D立體互練樂、3d立體 即時互動、辨識、操作、控制、監視、觀看等等扣立 體運用上,㈣域連接錢麵職、3⑽示器進 行互動辨識,包括:主機',A鋼步手持裝置,b型3 D立體顯示器,C型3D立體裸視顯示器,D型30立 辕減顯示器,飞型30立體投影機,F型3D立體旋 轉裸視顯示器’ G型30立體裸視顯示器,Η型⑽立 禮多鏡頭攝影機、麥克風,I型3D立體掃描多鏡頭攝 影機麥克風’j型3D立體掃描多鏡頭攝影機、麥克 風’ Κ型3D立體掃描多鏡頭攝影機、麥克風,L型3 〇立體同樂機$人’ Mi!3D立體實物仿製機器,N型 單编號A〇l〇1 第38頁/共147頁 1013138201-0 M431354 3 D立體顯示眼鏡,〇型全景夢境投影機 ιοί年.04月13日梭正 *方向感應器 mi] 重力感應器’雙觸控鍵盤,動感控制器。 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。 3D立體晶片,包括.X轴γ轴z轴電子線路,X 轴Y轴Z轴運算核心編碼系統,X軸γ轴z軸運算控制 核心。 X軸Y轴Z轴電子線路,包括:經由X軸γ軸z軸 電晶體線路、X軸Y轴Z軸記憶體線路、X軸丫軸2轴 像素平衡放大線路、X軸Y軸Z軸記憶體整合加減乘除 線路、X轴γ轴z軸記憶體多重運算線路,X轴γ軸z 轴加法運算電路,X轴γ轴z轴減法運算電路,又軸¥ 轴z軸乘法運算電路,X轴Y轴Z轴除法運算電路,用 來運作主機執行各種運算指令,操作、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轴運算核心編碼系統,包括:經由X軸 Y軸Z編碼系細合X軸γ軸z轴t子線路進行編碼執 行各種指令蚊,運作3 DA體虛擬實境料互動介面 ,控制各種裝置執行即時互動、辨識、操作、控制、監 視、觀看指令。 請參閱第8圖’ X軸Y軸Z轴運算控制核心,包括 :經由核心單元2 5_01控制個單元指令輸入、輸出 設定,語音辨識單元2 5 — 1 1多重資料輸入2 5 __4 1多重指令設定比對輸入、輪出2 5 — 4 2,影像肢體 動作關節運動辨識單元2 5 — 1 2多重資料輸入2 10021951^^ AOioi 第39頁/共147頁 1013138201-0 M431354 101年.04月13日梭正替换頁 41多重指令設定比對輸入、輸出2 5 — 4 2,鏡頭光 、電、磁、波3D立體掃描繪製單元2 5 — 13多重資 料輸入2 5 _ 41多重指令設定比對輸入、輸出2 5 — 4 2,影像、觸控座標辨識單元2 5 _14多重資料輸 入2 5-41多重指令設定比對輸入、輸出2 5 — 4 2 ,重力感應器、方向感應器辨識單元2 5-15多重資 料輸入2 5 — 41多重指令設定比對輸入、輸出2 5 — 4 2,無線裝置辨識單元2 5 — 16多重資料輸入2 5 —41多重指令設定比對輸入、輸出2 5 _ 4 2,顯示 科學函數運算處理單元2 5-21多重資料輸入2 5 — · 41直接顯示輸入、輸出2 5 _ 4 2,預設顯示記憶體 資料庫處理單元2 5 — 2 2多重資料輸入2 5 — 4 1運 算處理輸入、輸出2 5 _ 4 2,影像記憶體資料庫函數 運算處理單元2 5 — 2 3多重資料輸入2 5 — 41運算 處理輸入、輸出2 5 — 4 2,資料記憶體資料庫函數運 算處理單元2 6 — 24多重資料輸入2 5 — 41運算處 理輸入、輸出25—42,鏡頭3D立體影像記憶體資 料庫函數運算處理單元2 6 _ 2 5多重資料輸入2 5 — ® 41運算處理輸入、輸出2 5-4 2,語音記憶體資料 庫函數運算處理單元2 6 —2 6多重資料輸入2 5 — 4 1運算處理輸入、輸出2 5 _ 4 2,外接裝置輸入、輸 出2 5 — 31 *顯示、控制指令輸入、輸出25 — 32 〇 3 D立體虛擬實境,包括:經由一種虛擬系統人工 智慧,3D立體掃描多鏡頭攝影機,組合成3D立體影 像資料庫,結合3 D立體影像辨識、語音辨識一體,進 10021951#單编號 A〇101 第40頁/共147頁 1013138201-0Projector, F-type 3D stereo rotation naked-view display direction 'Double touch keyboard as data input, turn-out, button, mobile interface' motion controller as a button, mobile interface for instant interaction, identification, operation, Control, monitor, watch, input, and output 简化 Simplify the circuit design structure through 3D stereo chip, increase the operation, operation, and control speed. Play the game, text input, and data through the synchronous handheld device, dual touch keyboard, and dynamic controller. Exchange wheel input, output, instant punch operation, control game, 3 〇 virtual reality as interactive interface, 3D stereo image recognition, voice recognition integration, interactive operation, control, identification props, combined with 3 〇 stereo display 3D stereo image recognition and voice recognition, for food and clothing, recreation, life 'science, medical instant interaction, monitoring, operation, control, viewing, 3D stereo scanning multi-lens camera, combined into 3D stereo Image database, combined with 3D stereo image recognition and speech recognition, to set 3D stereo image Voice password, 3D stereoscopic image, voice, expression, motion, distance, size, direction, movement, props, subtle changes, instant interaction, identification, operation, control, monitoring, viewing, instant imitation of 3D stereoscopic images via 3D solid object imitation machine生10021951#单号A01〇l Page 37/147 pages 1013138201-0 M431354 [101^.04^ 13 Β .1 Produced by the operation and control of 3D stereo music robot, 10021951 by 3 D Multi-directional display together with music, 3D stereoscopic images through 3D stereoscopic viewing, 3D stereoscopic glasses for 3D stereoscopic images, 3D stereoscopic images for interactive and interactive entertainment, and most natural 3D stereoscopic display Watch 3D stereoscopic interactive music, calculate 3 stereo images required by both eyes through 3D stereo image database, and provide more accurate interactive dialogue identification information through 3D stereo image recognition through 3D stereo image recognition and speech recognition. Multi-lens camera, synthesizing 3D stereo image database, combined with 3D stereo image recognition, speech recognition-body, used in 3D:iL body image speech secret 3D stereoscopic costume design, 3 DiL body game design, 3D stereo animation design, 3D stereo multi-lens camera '3D stereoscopic movie, etc. 3D stereo production, combined with 3D stereo multi-lens camera, 3D The 3D image database combines 3D stereo image recognition and speech recognition, and is used in 3D interactive teaching, 3D stereo interaction, 3D interactive life, 3D stereo interaction, 3D stereo interaction, recognition, operation, Control, monitoring, viewing, etc., three-dimensional application, (4) domain connection money face, 3 (10) display for interactive identification, including: host ', A steel step handheld device, b type 3 D stereo display, C type 3D stereo naked view Display, D-type 30 vertical reduction display, flying type 30 stereo projector, F-type 3D stereo rotation naked-view display 'G-type 30 stereo naked view display, Η type (10) multi-lens camera, microphone, I type 3D stereo scan Multi-lens camera microphone 'j-type 3D stereo scanning multi-lens camera, microphone' Κ type 3D stereo scanning multi-lens camera, microphone, L-type 3 〇 stereo music machine $ people' Mi! 3D solid object Machine, N-type single number A〇l〇1 Page 38 / 147 pages 1013138201-0 M431354 3 D stereo display glasses, 全景-type panoramic dream projector ιοί年. April 13 shuttle positive * direction sensor mi ] Gravity sensor 'double touch keyboard, dynamic controller. The host 'includes: fan, power control' CD, input and output control board, 3D stereo chip, 3D stereo virtual reality, dual touch keyboard 'motion controller. 3D stereo chip, including .X-axis γ-axis z-axis electronic circuit, X-axis Y-axis Z-axis operation core coding system, X-axis γ-axis z-axis operation control core. X-axis Y-axis Z-axis electronic circuit, including: X-axis γ-axis z-axis transistor line, X-axis Y-axis Z-axis memory line, X-axis 2 axis 2-axis pixel balance amplification line, X-axis Y-axis Z-axis memory Body integration addition, subtraction, multiplication and division line, X-axis γ-axis z-axis memory multiple operation circuit, X-axis γ-axis z-axis addition circuit, X-axis γ-axis z-axis subtraction circuit, axis ¥ axis z-axis multiplication circuit, X-axis The Y-axis Z-axis division operation circuit is used to operate the host to execute various operation instructions, operate and control various input and output device operations, and set various device execution operations. X-axis Y-axis Z-axis operation core coding system, including: coding through the X-axis Y-axis Z coding system X-axis γ-axis z-axis t sub-line to execute various command mosquitoes, operating 3 DA virtual reality interface, Control various devices to perform instant interaction, identification, operation, control, monitoring, and viewing instructions. Please refer to Figure 8 'X-axis Y-axis Z-axis operation control core, including: control unit command input and output setting via core unit 2 5_01, voice recognition unit 2 5 - 1 1 multiple data input 2 5 __4 1 multiple command setting Comparison input, rotation 2 5 - 4 2, image limb movement joint motion recognition unit 2 5 - 1 2 multiple data input 2 10021951^^ AOioi Page 39/147 pages 1013138201-0 M431354 101.0413 Shuttle replacement page 41 Multiple command setting comparison input, output 2 5 - 4 2, lens light, electricity, magnetism, wave 3D stereo scanning drawing unit 2 5 - 13 multiple data input 2 5 _ 41 multiple command setting comparison input, Output 2 5 — 4 2, image and touch coordinate recognition unit 2 5 _14 multiple data input 2 5-41 multiple command setting comparison input and output 2 5 — 4 2 , gravity sensor, direction sensor identification unit 2 5- 15 Multiple data input 2 5 — 41 Multiple command setting comparison input, output 2 5 — 4 2, wireless device identification unit 2 5 — 16 multiple data input 2 5 — 41 multiple command setting comparison input, output 2 5 _ 4 2 , display scientific function arithmetic processing Yuan 2 5-21 Multiple data input 2 5 — · 41 Direct display input and output 2 5 _ 4 2, preset display memory database processing unit 2 5 — 2 2 Multiple data input 2 5 — 4 1 Operation processing input, Output 2 5 _ 4 2, image memory library function operation processing unit 2 5 - 2 3 multiple data input 2 5 - 41 arithmetic processing input, output 2 5 - 4 2, data memory library function operation processing unit 2 6 — 24 Multiple Data Input 2 5 — 41 Operation Processing Input and Output 25—42, Lens 3D Stereo Image Memory Library Function Operation Processing Unit 2 6 _ 2 5 Multiple Data Input 2 5 — ® 41 Operation Processing Input and Output 2 5 -4 2, voice memory database function operation processing unit 2 6 - 2 6 multiple data input 2 5 - 4 1 arithmetic processing input, output 2 5 _ 4 2, external device input, output 2 5 - 31 * display, control Command input and output 25 - 32 〇 3 D stereo virtual reality, including: through a virtual system artificial intelligence, 3D stereo scanning multi-lens camera, combined into a 3D stereo image database, combined with 3D stereo image recognition, speech recognition One, into a single number 10021951 # A〇101 Page 40 / Total 147 1013138201-0
行3爾影像、語音資料比對掃描,即時互動 、指揮、辨識、操作、控制、監視、觀看,結合31)立 體影像辨識、語音辨識-體,進行影像'語音'對話' 互動、學習提升裝置智慧,將辨識之影像 、對話、語言3 er image, voice data comparison scan, instant interaction, command, identification, operation, control, monitoring, viewing, combined with 31) stereo image recognition, speech recognition - body, image 'voice' dialogue' interactive, learning and lifting device Wisdom, will identify images, dialogues, languages
1〇〇2l95l#單蝙號 、語氣等等轉化為標準文法、圖集、龍庫,定義各種 辨識影像、語音魏分門職管理,分析各種辨識資訊 内容,擬人學習儲存互動影像、語音、互動對話學習資 訊等等,轉化為—種虛姆像 '語音、互麟話學習資 訊,如同一本標準辭典、動植物、生活字典’對影像、 圖片、文法、語言、語意、語氣、音調產生互動信息, 互_應-個科資訊,經由3 D立體虛擬實境作為即 時互動、辨識、操作、控制、監視、觀看,將3〇立體 資訊轉化運用在3 D立體虛擬實境,將賴人、事、時 地、物、场景’進行模擬各種攝影變化合成替換不同 人、事、時、地、物、場景,3D立體虛擬實境作為即 時互動、辨識、操作、控制、監視、觀看介©,結合3 立體自動對焦攝影,將影像辨識、語音辨識互動問答 對話,執行各種命令完成各種任務,轉化為一種虛擬影 像、人物、寵物,經由虛擬影像、人物'寵物進行互動 對話辨識提供資訊,互動辨識回應一個正破資訊,辨識 肢體動作互動操作、控制,辨識語音互動操作'控制, 操作、控制同樂、虛擬機器人執行各種命令,操作、控 制3 D立财擬實境絲騰、人物、餘,執行各種 命令完成各種任務’操作、控制3 D立體同樂機器人, 進行各種任務執行互動-同娱樂,繪製3 D立體影像地 圖’ 3D立體資訊設計出個人特色產品,運用在3D立 ΑΟίοι 1013138201-0 第41頁/共147頁 M431354 體實物仿製顧,操作、控制3D立體實物仿製t 打3D立體物體仿製,即時仿製生產設計物品。 請參閱第2圖,方向感應器,包括:經由圓球2- 1 2 7 2任意移動方向,彈簧固定圓球2- 1 2 7 3設 置電磁感應2 - 1 2 7 4,酬圓球移動方向。 請參閱第2圖,重力感應器,包括:經由不同重量 兩端2 - 1 2 8 2任意移動方向,設置電磁感應2 一工 2 8 4,偵測不同重量兩端移動方向。 請參閱第1圖’雙觸控鍵盤,包括:經由左右觸控 面板1 - 4 2操作、控制、方向、旋轉、移動,鍵盤按 φ 鍵1—45作為資料輸入,零件組裝1—43、1_4 4 〇 請參閱第1圖,動感控制器,包括:經由按钮卜 3 4、方向感應器1 — 3 2、重力感應器1_ 3 3,操 作、控制、方向、旋轉'移動,零件組裝丄—3 i,雙 手緊握自由揮拳輕鬆操作、控制、方向、旋轉、移動主 機運作。 A型同步手持裝置,經由觸控顯示面板操作、控制 遊戲、影像、音樂、資料輸出輸入,雙觸控鍵盤操作、 控制、方向、旋轉、移動、資料輸入,進行遊戲操作、 控制、方向、旋轉、移動、資料輸入輸出,包括:AA 型同步手持裝置’ AB型同步手持裝置,AC型同步手 持裝置。 B型3 D立體顯示器,經由主動式、被動式顯示3 D立體影像’包括:BA型3D立體顯示器,2掃描線 主動式,BB型3D立體顯示器,2掃描線被動式,B 10021951#單編號A0101 第42頁/共147頁 ^13138201-0 M431354 C型3 DiL體顯不器,2掃摇線被動式三方向顯示,b D型⑽立體顯㈣’ 6掃描線被動式三方向顯示,B E型3D立體顯示器,6掃描線被動式,透鏡廣角顯示 C型3 D立體裸視顯示器,雙眼為光欄設計中心, 包括:CA型3D立體裸視顯示器,2掃描線雙眼方向 ,CB型3D立體裸視顯示器,6掃描線雙眼方向,c C型3D立體裸視顯示器,6掃描線雙眼方向。1〇〇2l95l# single bat number, tone and so on are converted into standard grammar, atlas, dragon library, define various identification images, voice Wei division management, analyze various identification information content, anthropomorphic learning to store interactive images, voice, interaction Dialogue learning information, etc., is transformed into a kind of virtual image like 'speech, mutual learning information, such as the same standard dictionary, animals and plants, life dictionary' to generate interactive information on images, pictures, grammar, language, semantics, tone, tone , mutual _ should - a section of information, through 3 D virtual reality as real-time interaction, identification, operation, control, monitoring, viewing, 3 〇 three-dimensional information transformation in 3 D virtual reality, will be people, things , time, place, object, scene 'simulate various photographic changes to synthesize and replace different people, things, time, place, objects, scenes, 3D virtual reality as instant interaction, identification, operation, control, monitoring, viewing media, combined 3 stereo autofocus photography, interactive image-answering and voice-recognition question-and-answer dialogue, executing various commands to complete various tasks and transforming into a virtual image Characters and pets provide information through interactive images of virtual images and characters' pets. Interactive identification responds to a broken message, recognizes the interaction and control of limb movements, and recognizes the interactive operation of voices. Control, operation, control, and virtual robot execution. Various commands, operation, control, 3 D-finance, real-world sagitar, characters, Yu, execute various commands to complete various tasks, 'Operation, control 3D stereo music robot, perform various tasks to perform interaction--Entertainment, draw 3D stereo Image Map '3D Stereo Information Design Personalized Products, used in 3D ΑΟ ο ο ο ο 13 13 13 13 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 431 Design items. Please refer to Figure 2, the direction sensor, including: any direction of movement through the ball 2- 1 2 7 2, spring fixed ball 2- 1 2 7 3 set electromagnetic induction 2 - 1 2 7 4, the direction of the ball movement . Please refer to Figure 2, the gravity sensor, including: through different weights 2 - 1 2 8 2 any direction of movement, set the electromagnetic induction 2 work 2 8 4, detect the direction of movement of different weights. Please refer to Fig. 1 'Double touch keyboard, including: operation, control, direction, rotation, movement through the left and right touch panel 1 - 4 2, keyboard input φ key 1-45 as data input, parts assembly 1-43, 1_4 4 〇Please refer to Figure 1, the dynamic controller, including: via button Bu 3 4, direction sensor 1 - 3 2, gravity sensor 1_ 3 3, operation, control, direction, rotation 'movement, parts assembly 丄 -3 i, hands and hands free to swing, easy to operate, control, direction, rotation, mobile host operation. A-type synchronous handheld device, through the touch display panel operation, control game, video, music, data output input, dual touch keyboard operation, control, direction, rotation, movement, data input, game operation, control, direction, rotation , mobile, data input and output, including: AA-type synchronous handheld device 'AB type synchronous handheld device, AC-type synchronous handheld device. B type 3 D stereo display, through active and passive display 3D stereo image 'includes: BA type 3D stereo display, 2 scan line active type, BB type 3D stereo display, 2 scan line passive type, B 10021951# single number A0101 42 pages / total 147 pages ^ 13138201-0 M431354 C type 3 DiL body display, 2 sweep line passive three-way display, b D type (10) stereo display (four) '6 scan line passive three-way display, BE type 3D stereo display 6 scan line passive, lens wide-angle display C-type 3 D stereoscopic display, binoculars for the light bar design center, including: CA type 3D stereoscopic display, 2 scan line binocular direction, CB type 3D stereoscopic display , 6 scan line binocular direction, c C type 3D stereoscopic view display, 6 scan line binocular direction.
D型3D立體裸視顯示器,控制旋轉液晶角度、方 向改變光線方向’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立體裸視顯示器’ 2掃描線雙眼方向旋轉液晶,d B型3 D立體裸視顯示 器,2掃描線雙眼方向左右液晶遮蔽,dC型3D立體 裸視顯示器’ 2掃描線雙眼方向左右透鏡折射光線,D D型3D立體裸視顯示器,2掃描線雙眼方向左右透鏡 折射光線,DE型3D立體裸視顯示器,2掃描線雙眼 方向左右透鏡折射光線,DF型3D立體裸視顯示器,D-type 3D stereoscopic display, control the rotation of the liquid crystal angle, direction to change the direction of light 'use the lens to change the direction of light, synchronously shield the liquid crystal to change the direction of light' including: DA type 3D stereoscopic display" 2 scanning line rotating the liquid crystal in both eyes, d B type 3 D stereoscopic naked-view display, 2 scanning lines, both eyes, left and right liquid crystal shielding, dC type 3D stereoscopic naked-view display '2 scanning lines, both eyes, left and right lenses, refracting light, DD type 3D stereoscopic display, 2 scanning lines The left and right lenses in both eyes refract light, the DE type 3D stereoscopic display, the 2 scanning lines, the left and right lenses refract light, and the DF type 3D stereoscopic display
2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:E A型3 D立體投影機,混合 光束,EB型3D立體投影機,6掃描線雙投影機,E C型3D立體投影機,6掃描線色彩分離。 F型3D立體旋轉裸視顯示器,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 3D立體影像,旋轉透明液晶產生3D立體影像,包括 :FA型3D立體旋轉裸視顯示器,2掃描線雙眼方向 10021951^^^ A〇101 第43頁/共147頁 1013138201-0 M431354 ’ FB型3D立體旋轉裸視顯示器,透明電晶體。 G型3D立體裸視顯示器,控制水平垂直液晶方 向,包括:以型3 D立體裸視顯示器,6掃描線雙眼 方向,旋轉液晶反射顯示。 Η型3D立體多鏡頭攝影機、麥克風,3d立體平 面虛擬對线影,包括:HAW D立體多鏡頭攝影機 ,雙鏡頭廣角平面虛擬對焦,Hb型3D立體多鏡頭攝 影機,三鏡頭廣角平面虛擬對焦,H c型3 D立體多鏡2 scan line binocular direction multiple viewing angles. 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, 6 scan line dual projector, EC Type 3D stereo projector, 6 scan line color separation. F-type 3D stereo rotation naked-view display, through the high-speed rotation display, the eye produces the same position reproduction image, suppresses the light direction to generate multi-directional 3D stereo image, and rotates the transparent liquid crystal to generate 3D stereoscopic image, including: FA type 3D stereo rotation naked-view display , 2 scan line binocular direction 10021951^^^ A〇101 page 43 / 147 pages 1013138201-0 M431354 ' FB type 3D stereo rotation naked-view display, transparent transistor. The G-type 3D stereoscopic display monitors the horizontal and vertical liquid crystal directions, including: a 3D stereoscopic display with a type of 3D, a double-eye direction of the scanning line, and a reflective display of the rotating liquid crystal. Η-type 3D stereo multi-lens camera, microphone, 3d stereo virtual line shadow, including: HAW D stereo multi-lens camera, dual-lens wide-angle planar virtual focus, Hb-type 3D stereo multi-lens camera, three-lens wide-angle planar virtual focus, H c type 3 D stereo multi-mirror
頭攝影機,雙鏡頭自騎焦,Η M 3D立體多鏡頭攝 影機,三鏡頭自動對焦。 I型3 D立體掃描多鏡頭攝频、麥克風,3 〇立 體影像攝影、掃描’包括:1A型3 D立體掃描多鏡頭 攝影機’廣角平面虛擬對焦掃福,^型⑽立體掃描 多鏡頭攝影機,連動轴廣角自動對焦掃描,K型⑽ 立體掃描多鏡麵纖,全景廣肖自鱗焦掃推。 J型3 D立體掃描多鏡頭攝影機、麥克風,⑼立 體影像攝影、掃D A型3 DA體掃描多鏡頭 攝影機監視、操作、控制’全景編_、掃描監視 、操作、控制。 Κ型3 D立體掃描多鏡頭攝影機 '麥克風⑼立 體=像攝影、掃描,包括:ΚΑ型3 D立體掃描多鏡頭 攝办機,全景廣角平面虛擬掃描對焦攝影,ΚB型3 D 立體掃描多鏡顯频,全景廣角連_自 攝影》 ' L型3 Dit_樂機器人,經由操作、控制指揮互 第44頁/共147頁 動同樂機器人—同育樂,包括:LA型3D立體同樂機 10021951卢單編號A_ 1013138201-0 M431354 __ . · 、 … 1101年.04月13日接正 器人,蜂巢式磁場控制個關節運動擬人機器人,l㈣ 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。 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、物理學、化工學、動力學、機械學 、材料學組合分析,3 DiL體仿照、分析、複製,分析 資料、資訊’組合成3D立體影像資料庫,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、操作、控制'觀看,包括:MA _ Μ 3 D立體實物仿製機器,3 D立體實物仿製複製上色 ,MB型3 D立體實物仿製機器,3 〇立體實物仿製雕 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 3 D立體顯示’包括:να型3 D立體顯示眼鏡,NB ^ 型3D立體顯示眼鏡。 〇型全景夢境投影機,經由全景播放配合旋轉移動 舞台操作'控制、方向、旋轉、移動,包括:ΟΑ型全 景夢境投影機。 參閱第1圖,即時互動3 D立體仿製娛樂裝置,經 由主機1 — 11連接多鏡頭攝影機、麥克風1 — 2 2、 1 —23、1 —24、1一25、3D立體顯示器1一 2 6、控制器1 — 31、3D立體實物仿製機器1一1 1 1 '3 D立體同樂機器人1_ 2 8、進行即時互動、 辨識、操作、控制、監視、觀看、輸入、輸出。 10021951#單編號 A0101 第 45 頁 / 共 147 頁 1013138201-0 M431354 丨101年04月13日:後正雜頁 參閱第2圖,AA麵步手持裝置,包括:經由觸. 控顯不面板2 — 1 2 1、左右觸控顯示面板2__丄2 2 ,操作、控制、方向、旋轉、移動,觸控顯示面板一體 3D立體裸視顯示用來顯示2D、3D影像,3D立體 晶片控制裝置核心運作,3D立體虛擬實境互動顯示、 指揮、操作、控制介面,Xj s B資料輸入、輸出、充電 2 12 3,麥克風輸入2 — 12 4、制队輸出2 — 1 2 5,操作、控制按鍵2_12 6,内置方向感應器2 127、重力感應器2 — 12 8,經由移動裝置操作 、控制、方向、旋轉、移動,前鏡頭自動對焦攝影2 — ^ 131 ’後鏡頭自動對焦攝影2 — 13 2,閃光燈2 — 133補充光線不足,組裝外殼2 — 112、2 — 11Head camera, dual lens self-focusing, Η M 3D stereo multi-lens camera, three-lens autofocus. I type 3 D stereo scanning multi-lens video camera, microphone, 3 〇 stereo image photography, scanning 'including: 1A type 3 D stereo scanning multi-lens camera' wide-angle plane virtual focus sweeping, ^ type (10) stereo scanning multi-lens camera, linkage Axis wide-angle autofocus scanning, K-type (10) stereo scanning multi-mirror fiber, panoramic wide-angle self-scaling sweep. J type 3 D stereo scanning multi-lens camera, microphone, (9) stereo image photography, sweep D A type 3 DA body scanning multi-lens camera monitoring, operation, control 'panoramic editing _, scanning monitoring, operation, control. Κ type 3 D stereo scanning multi-lens camera 'microphone (9) stereo = image photography, scanning, including: ΚΑ type 3 D stereo scanning multi-lens camera, panoramic wide-angle plane virtual scanning focus photography, Κ B type 3 D stereo scanning multi-mirror Frequency, panoramic wide angle even _ self-photography" 'L-type 3 Dit_ music robot, through operation, control command mutual 44th / 147 pages of the same music robot - with the same music, including: LA type 3D stereo music machine 10021951 Lu single number A_ 1013138201-0 M431354 __ . · , ... 1101. April 13th to connect the person, the honeycomb magnetic field control joint motion anthropomorphic robot, l (four) 3 D stereo homophone, can brake the magnetic field motor control joint Sports anthropomorphic robot. Μ-type 3D solid object imitation machine, through the copying object for optical electromagnetic, wave, physics, chemical engineering, dynamics, mechanics, material science combination analysis, 3 DiL body copying, analysis, copying, analysis of data, information 'combination Into the 3D stereo image database, 3D stereo information is converted into actual mass production 'for food and clothing, recreation, life, science, medical instant interaction, monitoring, operation, control' viewing, including: MA _ Μ 3 D solid object Imitation machine, 3D solid imitation copying, MB type 3D solid object imitation machine, 3 〇 solid object imitation engraving color, MC type 3D solid object imitation machine, 3D stereo photo imitation printing color, MD type 3D Three-dimensional physical imitation machine, 3D solid imitation sewing color. N-type 3D stereoscopic display glasses, through viewing active and passive 3D stereoscopic display' include: να type 3D stereoscopic display glasses, NB^ type 3D stereoscopic display glasses. 〇-type panoramic dream projector, with panoramic playback and rotating movement Stage operation 'control, direction, rotation, movement, including: ΟΑ-type panoramic scene projector. Referring to Fig. 1, an instant interactive 3D stereo imitation entertainment device is connected to a multi-lens camera via a host 1-11, a microphone 1 - 2 2, 1 - 23, 1 - 24, 1 - 25, 3D stereoscopic display 1 - 2 6 Controller 1 - 31, 3D solid object imitation machine 1 1 1 1 '3 D stereo music robot 1_ 2 8, for instant interaction, identification, operation, control, monitoring, viewing, input, output. 10021951#单号A0101 Page 45 / 147 pages 1013138201-0 M431354 04April 13, 101: After the miscellaneous page, see Figure 2, AA step-by-step handheld device, including: via touch. Control panel 2 - 1 2 1. Left and right touch display panel 2__丄2 2, operation, control, direction, rotation, movement, touch display panel integrated 3D stereoscopic display for displaying 2D, 3D images, 3D stereo chip control device core operation 3D virtual reality interactive display, command, operation, control interface, Xj s B data input, output, charging 2 12 3, microphone input 2 - 12 4, system output 2 - 1 2 5, operation, control button 2_12 6, built-in direction sensor 2 127, gravity sensor 2 - 12 8, through the mobile device operation, control, direction, rotation, movement, front lens autofocus photography 2 - ^ 131 'rear lens autofocus photography 2 - 13 2, Flash 2 — 133 supplement light is insufficient, assembly housing 2 — 112, 2 — 11
參閱第2圖’AB型同步手持裝置,包括:經由觸 控顯示面板2 — 221、左右觸控顯示面板2 — 222 ,操作、控制、方向、旋轉、移動,觸控顯示面板一體 3D立體裸視顯示用來顯示2D、3D影像,3D立體 晶片控制裝置核心運作,3D立體虛擬實境互動顯示、 指揮、操作、控制介面,U S B資料輸入、輸出、充電 2 — 2 2 3,麥克風输入2 — 2 2 4、制队輸出2 — 2 2 5 ’操作、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 ’經由移動裝置操作 、控制、方向、旋轉、移動,前鏡頭自動對焦攝影2 — 2 3 1,後鏡頭自動對焦攝影2 — 2 3 2,閃光燈2 ~~ 2 3 3補充光線不足,組裝外殼2 — 212、2 —21 3 〇 10〇21951#·單編號A0101 第46頁/共147頁 1〇131382〇1-〇 參閱第2圖’ AC型同步手持裝置,包括:經由觸 控顯不面板2_ 3 21、左右觸控顯示面板2-3 2 2 操作、控制'方向'旋轉、移動,觸控顯示面板一體 3D立體減顯㈣_^2D、影像,立體 曰曰片控制裝置核心運作,3 D立體虛擬實境互動顯示、 指揮、操作、控制介面,U S B資料輸入、輸出、充電 2-3 2 3 ’麥克風輸人2-3 24、佩輸出2-3 2 5 ’操作、控制按鍵2 — 326,内置方向感應器2 —327 '重力感應器2 — 328,經由移動裝置操作 、控制、方向、旋轉、移動,前鏡頭自動對焦攝影2 _ 3 31 ,後鏡頭自動對焦攝影2_3 3 2,閃光燈2_ 3 3 3補充光線不足,組裝外殼2 一312、2 — 31 3,左右鍵盤2 — 341作為輸入。 參閱第3圖’ BA型3D立體顯示器,2掃描線主 動式’包括:經由3 D立體影像計算雙眼所需顯示影像 ,液晶掃描線3 — 0 01、絕緣體3 — 0 0 2、電晶體 3 —00 3、電容3 — 0 0 4、液晶3-0 0 5、電極 3 — 00 6組成,經由鏡面反射光源使光線垂直液晶方 向3 — 121,控制液晶顯示亮度3 — 122,穿過單 層滤光板3 — 12 3,單層光棚面板3 — 12 4 ’控制 光線方向顯示影像3_125,2掃描線畫面顯示更快 ,阻隔光線障壁基板3 — 12 6,隨光線顏色變化黑色 奈米塗層、切割鏡面、奈米螢光塗層抑制螢幕反光3 — 12 7。 參閱第3圖,BB型3D立體顯示器,2掃描線被 動式,包括:經由3D立體影像計算雙眼所需顯示影像 A0101 第47頁/共147頁 M431354 101年〇4| 13日修正替换頁 ’液晶掃描線3 _ 0 01、絕緣體3 — 0 0 2、電晶體 3~~〇〇3、電容 3-004、液晶 3 — 005、電極 3~~〇 〇 6組成,經由鏡面反射光源使光線垂直液晶方 向3 — 22 1,控制液晶顯示亮度3 — 22 2,穿過單 層濾光板3 — 2 2 3,單層光欄面板顯示水平、垂直光 波3-2 2 4,控制光線方向顯示影像3 — 2 2 5,2 掃描線畫面顯示更快,阻隔光線障壁基板3 — 2 2 6, 隨光線顏色變化黑色奈米塗層、切割鏡面、奈米螢光塗 層抑制螢幕反光3— 2 2 7。 參閱第3圖,BC型3D立體顯示器,2掃描線被 隹 動式三方向顯示,包括:經由3 D立體影像計算雙眼所 需顯不影像’液晶掃描線3 — 00 1、絕緣體3 — 0 0 2、電晶體3-0 03、電容3 — 004、液晶3 — 0 0 5、電極3 — 0 0 6組成,經由鏡面反射光源使光線 垂直液晶方向3—321,控制液晶顯示亮度3—32 2,穿過單層滤光板3_323,單層光欄面板顯示水 平、垂直光波3-3 2 4,控制光線方向穿過角度透鏡 顯示影像3_3 2 5,2掃描線晝面顯示更快,阻隔光 · 線障壁基板3 — 3 26,隨光線顏色變化黑色奈米塗層 、切割鏡面、奈米螢光塗層抑制螢幕反光3 — 3 2 7。 參閱第3圖,BD型3D立體顯示器,6掃描線被 動式三方向顯示,包括:經由3 D立體影像計算雙眼所 需顯示影像,液晶掃描線3 — 0 01、絕緣體3 — 0 0 2、電晶體3 — 0 0 3、電容3 — 004、液晶3 — 0 0 5、電極3 — 0 0 6組成,經由鏡面反射光源使光線 垂直液晶方向3—421,控制液晶顯示亮度3—42 1〇_51产單编號删1 第48頁/共147頁 1013138201-0 M431354 -101·年.04月13日接正_頁 2,穿過單層濾光板3-4 2 3,單層光攔面板顯示水 平、垂直光波3 — 4 24,控制光線方向穿過角度透鏡 顯示影像3 — 4 2 5,6掃描線畫面顯示更快,阻隔光 線障壁基板3 — 4 2 6,隨光線顏色變化黑色奈米塗層 、切割鏡面、奈米螢光塗層抑制螢幕反光3 — 4 2 7。 參閱第3圖,BE型3D立體顯示器,6掃描線被 動式,透鏡廣角顯示,包括:經由3D立體影像計算雙 眼所需顯示影像,液晶掃描線3 — 〇 〇1、絕緣體3 — 0 0 2、電晶體3 — 0 0 3、電容3 — 0 04、液晶3 # —0 05、電極3 —0 0 6組成,經由鏡面反射光源使 光線垂直液晶方向3 — 5 21,控制液晶顯示亮度3 _ 5 2 2,穿過單層濾光板3 — 5 2 3,單層光欄面板顯 示水平、垂直光波3 — 5 2 4,控制光線方向穿過透鏡 顯示影像3 — 5 2 5 ’ 6掃描線畫面顯示更快,阻隔光 線障壁基板3 — 5 2 6,隨光線顏色變化黑色奈米塗層 、切割鏡面、奈米螢光塗層抑制螢幕反光3 — 5 2 7。 _ 參閱第3圖’ CA型3D立體裸視顯示器,2掃描 線雙眼方向,包括:經由3 D立體影像計算雙眼所需顯 示影像’控制液晶顯示方向以2掃描線雙眼4 — 12為 光攔4_11方向設計中心,計算出光欄遮蔽方向、角 度。 參閱第3圖,CB型3D立體裸視顯示器,6掃描 線雙眼方向,包括:經由3 D立體影像計算雙眼所需顯 示影像,控制液晶顯示方向以6掃描線雙眼4 — 2 2為 光網4- 21方向設計中^,計算出光攔遮蔽方向、角 度。 1013138201-0 10021951#單編號Α0101 第49頁/共147頁 M431354 101年04月13日,正替€頁 參閱第3圖,CC型3D立體裸視顯示器,6掃描 線雙眼方向’包括:經由3 D立體影像計算雙眼所需顯 示影像’控制液晶顯示方向以6掃描線雙眼4 — 3 2為 光攔4一31方向設计中心,計算出光欄遮蔽方向、角 度。 參閱第4圖,DA型3D立體裸視顯示器,2掃描 線雙眼方向旋轉液晶,包括:經由3 D立體影像計算雙 眼所需顯示影像,鏡面反射光源使光線垂直液晶方向, 控制液晶顯示亮度,穿過單層濾光板,電極旋轉液晶方 向、反射光線5 — 11,左顯示旋轉液晶反射至左眼, · 右顯示旋轉液晶反射至右眼。 參閱第4圖,DB型3D立體裸視顯示器,2掃描 線雙眼方向左右液晶遮蔽,包括:經由3 D立體影像計 算雙眼所需顯示影像,鏡面反射光源使光線垂直液晶方 向,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晝面,右顯示遮蔽左眼 顯示畫面。 · 參閱第4圖,DC型3D立體裸視顯示器,2掃描 線雙眼方向左右透鏡折射光線,包括:經由3 D立體影 像計算雙眼所需顯示影像,鏡面反射光源使光線垂直液 晶方向,控制液晶顯示亮度,控制透鏡折射光線方向5 一 31,調整透鏡角度控制左邊、右邊影像。 參閱第4圖,DD型3D立體裸視顯示器,2掃描 線雙眼方向左右透鏡折射光線,包括:經由3 D立體影 像計算雙眼所需顯示影像,鏡面反射光源使光線垂直液 1002195#單编號 A0101 第50頁/共147頁 1013138201-0 M431354 • , 101年.04月13日後正替iiTS 晶方向,控制液晶顯示亮度,控制透鏡折射光線方向5 一41,調整透鏡角度控制左邊、右邊影像》 • 參閱第4圖,DE型3D立體裸視顯示器,2掃描 線雙眼方向左右透鏡折射光線,包括:經由3 D立體影 像計算雙眼所需顯示影像,鏡面反射光源使光線垂直液 晶方向,控制液晶顯示亮度,控制透鏡折射光線方向5 一 51,調整透鏡角度控制左邊、右邊影像。 參閱第4圖,DF型3D立體裸視顯示器,2掃描 線雙眼方向多視角,包括:經由鏡面3D立體影像計算 雙眼所需顯示影像,反射光源使光線垂直液晶方向,控 制液晶顯示亮度,穿過單層濾光板,多層光攔遮蔽光線 5—61,計算經由位置多寡所站立角度,計算出光棚 遮蔽位置。 • 參閱第5圖,EA型3D立體投影機,混合光束, 包括:經由3 D立體影像計算雙眼所需顯示影像,丨艮合 色彩6 — 16產生投影光束顏色,蜂巢圓形磁場6 _1 4交錯S極控制光束裝置6 — 1 5移動方向,固定 光束旋轉轴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。 參閱第5圖’ EB型3D立體投影機,6掃描線雙 投影機,包括:經由3 D立體影像計算雙眼所需顯示影 像,6掃描線雙投影機6 — 21,控制電極遮蔽液晶水 平、垂直方向6 — 3 2,分別由水平光攔3D立體投影 機、垂直光攔3 D立體投影機將,影像經由反射銀幕反 射光波。 A0101 第51頁/共147頁 1013138201-0 。參閱第5圖’ EC型3D立體投影機,6掃描線色 b離’包括.㈣3 D立體雜計算雙眼所需顯示影 像,色彩分離顯示液晶6、3 i,多色顯示經由反射光 線,控制電極遮蔽液晶水平、垂直方向6 — 3 2,經過 電子放大116 — 3 3 ’在穿過透鏡6 - 3 4放大顯示。 參閱第4圖,FA型3D立體旋轉裸視顯示器,2 掃描線雙眼方向’包括:經由3 D立體影像計算雙眼所 需顯示影像,3 6 0度旋轉7 - :l i單―方向光,以雙 眼為光糊設計巾心’將出光攔方向角度,高速旋轉畫 面不斷重現,產生同-位置顯示錯覺,任何角度多能觀 看相同影像錯覺,產生3 DiL體顯示錯覺。 參閱第4圖’ FB型3D立體旋轉裸視顯示器,透 明電晶體雙眼方向,包括:經由掃描線7-0 0 5放電 激發螢光塗層7-〇〇3發光’光線穿過濾光片、螢光 塗層7-007,隨光線顏色變化黑色奈米塗層'切割 鏡面7-0 0 止反光,保護層7_〇〇 9基材7 — 〇〇1、7〜〇02、7-〇〇4、7-〇。〇6 組成, 3 D立體影像計算雙眼所需顯示影像,3 6 〇度旋轉7 —21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,以圓心為資料計算中 心,計算出旋轉需改變顯示位置,將影像顯示。 參閱第5圖,GA型3D立體裸視顯示器,6掃描 線雙目艮方向,旋轉液晶反麵示,包括:經由3 D立體 影像計算雙眼所錢示影像,水平障壁8 - 2 5 1控制 水平掃描線電極8-2 41旋轉液晶8-2 3方向,經 由垂直障壁8-2 5控継直掃描線電極8-2 4旋轉 10021951^^^ A0101 1013138201"° 第52頁/共147頁 . 101 年.04 月 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。 參閱第6圖,HA型3D立體多鏡頭攝影機、麥克 風,雙鏡頭廣角平面虛擬對焦攝影,包括:經由透鏡9 —124、9一12 5調整入射光線g — 12 3穿過暗 室9 — 12 2穿過感光層9 — 126、9 — 127、Θ —12 8,經由輸入、輸出訊號線路9 _丄4 9訊號經 過放大器9-14 4,掃描線9-14 8控制電晶體9 1 4 3開關,控制電晶體9 一14 2發射、接收光、 電、磁'波進行感測影像、光波距離計算組合,經由掃 t田線9-14 8控制電晶體9-14 3開關,釋放感光 電晶體9-141訊號經過放大器9 - 14 4輸出訊號 線路9 - 14 9 ’障壁9-14 5隔離感光元件互相干 擾’閃光燈9-131補足光線、麥克風9 _13 2同 步錄音、攝影鏡頭9-13 3對焦攝影、發射、接收光 、電、磁、波進行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g_512位置 、光波掃描令心9 ~ 513位置,控制虛擬焦點。點9 511位置’計算物體距離、攝影’影像經由後製處 理擬和成:BD立體祕’經由雙鏡頭廣肖平面虛擬對焦 攝影,影像經由後製處理擬和成3 D立體景深影像,將 多鏡頭影像衫層影像單—難儲存,光波掃描虛擬焦 點C點计算物體距離,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,組合成31)立體 影像資料庫,閃絲補足光線不足,同步語音錄製。 M431354 101年.04 J 13日修正替換百 參閱第6圖,HB型3D立體多鏡頭攝影機、麥克 風,三鏡頭廣角平面虛擬對焦攝影,包括:經由透鏡9 一 124、9 — 12 5調整入射光線9 — 12 3穿過暗 室9 一12 2穿過感光層9 — 126、9 — 127、9 —12 8 *經由輸入'輸出訊號線路9 — 14 9訊號經 過放大器9一144,掃描線9_148控制電晶體9 —14 3開關,控制電晶體9_14 2發射、接收光、 電、磁、波進行感測影像、光波距離計算組合,經由掃 描線9_14 8控制電晶體9_14 3開關,釋放感光 電晶體9 _141訊號經過放大器9 _14 4輸出訊號 · 線路9_14 9,障壁9_14 5隔離感光元件互相干 擾,閃光燈9 — 2 31補足光線、麥克風9 —2 3 2同 步錄音、攝影鏡頭9-2 3 3對焦攝影、發射、接收光 、電、磁、波進行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 —512位置 、光波掃描中心9 -513位置,控制虛擬焦點C點9 —511位置,計算物體距離、攝影,影像經由後製處 理擬和成3D立體影像,經由三鏡頭廣角平面虛擬對焦 ® 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 D立體景深影像,將 多鏡頭影像以多層影像單一檔案儲存,光波掃描虛擬焦 點C點計算物體距離,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,組合成3D立體 影像資料庫,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。 參閱第6圖,HC型3D立體多鏡頭攝影機、麥克 1002195#單編號 A0101 第54頁/共147頁 1013138201-0 M431354 • • ·10..ί 年.04、1.3 日核正 ^^頁 1 風,雙鏡頭連動轴自動對焦攝影,包括:經由透鏡9一 12 4、9 — 12 5調整入射光線9-12 3穿過暗室 9 — 12 2 穿過感光層 9 — 126、9 — 127、9 — 12 8,經由輸入、輸出訊號線路9 — 14 Θ訊號經過 放大器9 _14 4,掃描線9 — 14 8控制電晶體9 一 14 3開關’控制電晶體9 — 14 2發射、接收光、電 、磁、波進行感測影像、光波距離計算組合,經由掃描 線9 — 14 8控制電晶體9 — 14 3開關,釋放感光電 晶體9一141訊號經過放大器9 一14 4輸出訊號線 • 路9 — 14 9,障壁9 一14 5隔離感光元件互相干擾 ,閃光燈9 — 3 31補足光線、麥克風g —3 3 2同步 錄音、連動轴9 — 3 21移動攝影鏡頭9 — 3 3 3對焦 攝影、發射、接收光、電、磁、波進行9 一 3 3 4對焦 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 一 5 1 2位置、光波掃描中心9 一 5 1 3 位置,連動軸9 — 4 21移動焦點C點9 — 511位置 ’計算物體距離、攝影,影像經由後製處理擬和成3 D • 立體影像,經由雙鏡頭廣角連動轴自動對焦攝影,影像 經由後製處理擬和成3 D立體景深影像,將多鏡頭影像 以多層影像單一檔案儲存,光波掃描虛擬焦點C點計算 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,組合成3D立體影像資料 庫’閃光燈補足光線不足,同步語音錄製。 參閱第6圖’ HD型3D立體多鏡頭攝影機、麥克 風,三鏡頭連動軸自動對焦攝影,包括:經由透鏡9 — 12 4、9 — 12 5調整入射光線9 — 12 3穿過暗室 第55頁/共147頁 1013138201-0 10021951产單編號A0101 M431354 101年〇4月l·3日修正替换頁 9 — 12 2 穿過感光層 9 — 126、9-127、9 — 12 8 *經由輸入、輸出訊號線路9 一14 9訊號經過 放大器9一144,掃描線9 — 148控制電晶體9_ 14 3開關,控制電晶體9 — 14 2發射、接收光、電 、磁、波進行感測影像、光波距離計算組合,經由掃描 線9一14 8控制電晶體9一14 3開關,釋放感光電 晶體9_141訊號經過放大器9—144輸出訊號線 路9一14 9,障壁9_14 5隔離感光元件互相干擾 ,閃光燈9一431補足光線、麥克風9—432同步 錄音、連動軸9一421移動攝影鏡頭9 —4 3 3對焦 · 攝影、發射、接收光、電、磁、波進行9 — 4 3 4對焦 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_511位置 ,計算物體距離、攝影,影像經由後製處理擬和成;3 D 立體影像,經由三鏡頭廣角連動軸自動對焦攝影,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3D立體景深影像,將多鏡頭影像 ® 以多層影像單一檔案儲存,光波掃描虛擬焦點C點計算 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,組合成3 D立體影像資料 庫,閃光燈補足光線不足,同步語音錄製。 參閱第6圖,IA型3D立體掃描多鏡頭攝影機、 麥克風,廣角平面虛擬掃描對焦攝影,包括:經由以圓 為中心架設對焦攝影中心點10—11,圍繞圓周對焦 攝影,將個角度細微變化影像經由後製處理,組合成3 1〇〇2195#單编號 A_ 第56頁/共147頁 1013138201-0 M431354Refer to Figure 2 for the 'AB type synchronous handheld device, including: through the touch display panel 2 - 221, left and right touch display panel 2 - 222, operation, control, direction, rotation, movement, touch display panel integrated 3D stereoscopic Display for displaying 2D, 3D images, 3D stereo chip control device core operation, 3D stereo virtual reality interactive display, command, operation, control interface, USB data input, output, charging 2 — 2 2 3, microphone input 2 — 2 2 4. Team output 2 — 2 2 5 'Operation, control button 2 — 2 2 6, built-in direction sensor 2 — 2 2 7 , gravity sensor 2 — 2 2 8 ' Operation, control, direction, via mobile device Rotate, move, front lens autofocus photography 2 — 2 3 1, rear lens autofocus photography 2 — 2 3 2, flash 2 ~~ 2 3 3 supplement light is insufficient, assembly housing 2 — 212, 2 — 21 3 〇 10〇 21951#·Single number A0101 Page 46 of 147 1〇131382〇1-〇Refer to Figure 2 'AC type synchronous handheld device, including: display panel via touch 2_ 3 21, left and right touch display panel 2 3 2 2 Operation, control 'direction' rotation, Mobile, touch display panel integrated 3D stereo reduction (4) _^2D, image, stereo cymbal control device core operation, 3 D stereo virtual reality interactive display, command, operation, control interface, USB data input, output, charging 2 -3 2 3 'Microphone input 2-3 24, Penetration output 2-3 2 5 'Operation, control button 2 — 326, built-in direction sensor 2 — 327 'Gravity sensor 2 — 328, operated and controlled via mobile device , direction, rotation, movement, front lens autofocus photography 2 _ 3 31, rear lens autofocus photography 2_3 3 2, flash 2_ 3 3 3 supplement light is insufficient, assembly housing 2 312, 2 — 31 3, left and right keyboard 2 — 341 as input. Refer to Figure 3 'BA type 3D stereo display, 2 scan line active' includes: calculating the required image for both eyes via 3D stereo image, liquid crystal scanning line 3 - 0 01, insulator 3 - 0 0 2, transistor 3 —00 3、Capacitance 3 — 0 0 4 , liquid crystal 3-0 0 5 , electrode 3 — 00 6 composition, through the specular reflection source, the light is perpendicular to the liquid crystal direction 3 - 121, control the liquid crystal display brightness 3 - 122, through a single layer Filter 3 - 12 3, single-layer awning panel 3 - 12 4 'Control light direction display image 3_125, 2 scan line display faster, block light barrier substrate 3 - 12 6, black nano-coating with light color change , cutting mirror, nano fluorescent coating to suppress screen reflection 3 - 12 7. Refer to Figure 3, BB type 3D stereo display, 2 scan line passive type, including: Calculate the required image for both eyes via 3D stereo image A0101 Page 47 / 147 pages M431354 101 years 〇 4 | 13 days correction replacement page 'LCD Scanning line 3 _ 0 01, insulator 3 — 0 0 2, transistor 3~~〇〇3, capacitor 3-004, liquid crystal 3 — 005, electrode 3~~〇〇6, through the specular reflection source to make the light vertical liquid crystal Direction 3 — 22 1. Control LCD brightness 3 — 22 2, pass through single-layer filter 3 — 2 2 3, single-layer diaphragm panel displays horizontal and vertical light waves 3-2 2 4, control light direction display image 3 — 2 2 5,2 Scanning line display is faster, blocking light barrier substrate 3 — 2 2 6, black nano-coating, cutting mirror, nano-fluorescent coating to suppress screen reflection 3– 2 2 7 with light color change. Referring to FIG. 3, the BC type 3D stereoscopic display, the 2 scan lines are displayed in a three-way tilting manner, including: calculating the required image for both eyes through the 3D stereo image 'LCD scan line 3 - 00 1 , insulator 3 - 0 0 2, transistor 3-0 03, capacitor 3 - 004, liquid crystal 3 - 0 0 5, electrode 3 - 0 0 6 composition, through the specular reflection source to make the light vertical liquid crystal direction 3-321, control liquid crystal display brightness 3-32 2, through the single-layer filter 3_323, the single-layer light bar panel displays horizontal and vertical light waves 3-3 2 4, control the light direction through the angle lens to display the image 3_3 2 5, 2 scan line face display faster, block light · Line barrier substrate 3 - 3 26, black nano-coating, cutting mirror, nano-fluorescent coating to suppress screen reflection 3 - 3 2 7 with light color change. Refer to Figure 3, BD type 3D stereo display, 6 scan line passive three-way display, including: calculating the required image of both eyes through 3D stereo image, liquid crystal scanning line 3 - 0 01, insulator 3 - 0 0 2, electricity Crystal 3 - 0 0 3, capacitor 3 - 004, liquid crystal 3 - 0 0 5, electrode 3 - 0 0 6 composition, through the specular reflection source to make the light vertical liquid crystal direction 3-421, control liquid crystal display brightness 3 - 42 1 〇 _ 51 Production Order No. 1 Page 48 / 147 pages 1013138201-0 M431354 -101·Year. 04月13日正正_Page 2, through single-layer filter 3-4 2 3, single-layer optical barrier panel Display horizontal and vertical light waves 3 — 4 24, control the direction of light through the angle lens to display the image 3 — 4 2 5, 6 scan line screen display is faster, blocking the light barrier substrate 3 — 4 2 6, black nanometer with light color change Coating, cutting mirror, nano fluorescent coating to suppress screen reflection 3 — 4 2 7 Refer to Figure 3, BE type 3D stereo display, 6 scan line passive, lens wide-angle display, including: calculating the required image of both eyes via 3D stereo image, liquid crystal scanning line 3 - 〇〇 1, insulator 3 - 0 0 2. The transistor 3 - 0 0 3, the capacitor 3 - 0 04, the liquid crystal 3 # - 0 05, the electrode 3 - 0 0 6 composition, the light is perpendicular to the liquid crystal direction 3 - 5 21 via the specular reflection source, and the liquid crystal display brightness is controlled 3 _ 5 2 2, through the single-layer filter 3 — 5 2 3, the single-layer light bar panel displays horizontal and vertical light waves 3 — 5 2 4, control the light direction through the lens to display the image 3 — 5 2 5 ' 6 scan line screen display Faster, blocking the light barrier substrate 3 — 5 2 6, with the color of the light changes black nano-coating, cutting mirror, nano fluorescent coating to suppress screen reflection 3 — 5 2 7 . _ Refer to Figure 3 'CA type 3D stereoscopic display, 2 scan line binocular direction, including: calculating the required image for both eyes via 3D stereo image' control liquid crystal display direction with 2 scan lines binocular 4-12 The light barrier 4_11 direction design center calculates the direction and angle of the light barrier. Referring to Figure 3, the CB type 3D stereoscopic display, 6 scan line binocular direction, includes: calculating the desired image of both eyes through the 3D stereo image, controlling the liquid crystal display direction to 6 scan lines, both eyes 4 - 2 2 In the optical network 4- 21 direction design ^, calculate the direction and angle of the light block. 1013138201-0 10021951#单号Α0101 Page 49/147 pages M431354 April 13, 101, refer to Figure 3, CC type 3D stereoscopic display, 6 scan line binocular direction' includes: via 3 D stereo image calculation of the desired image for both eyes 'Control the liquid crystal display direction with 6 scan lines binocular 4 - 3 2 as the light block 4 - 31 direction design center, calculate the direction and angle of the light block. Referring to FIG. 4, the DA type 3D stereoscopic display, 2 scanning lines rotate the liquid crystal in both eyes, including: calculating the desired image of the eyes through the 3D stereo image, and the specular reflection source makes the light vertical to the liquid crystal direction, and controls the brightness of the liquid crystal display. Through the single-layer filter, the electrode rotates the liquid crystal direction, reflects the light 5 — 11, the left display rotates the liquid crystal to the left eye, and the right display rotates the liquid crystal to the right eye. Referring to FIG. 4, the DB type 3D stereoscopic naked-view display, 2 scanning lines, the left and right liquid crystal shielding in both eyes, including: calculating the desired image of the eyes through the 3D stereo image, the specular reflection source makes the light vertical liquid crystal direction, and controls the liquid crystal display. Brightness, passing through a single-layer filter, single-lens display point split left, right 5-21, control electrode shadow lens left and right LCD, left display shaded right eye display, right display shaded left eye display. · Refer to Figure 4, DC type 3D stereoscopic display, 2 scanning lines, the left and right lenses refract light, including: 3D stereo image to calculate the desired image of the two eyes, the specular reflection source makes the light vertical liquid crystal direction, control LCD brightness, control lens refracting light direction 5 to 31, adjust lens angle to control left and right images. Referring to Fig. 4, the DD type 3D stereoscopic display, 2 scanning lines, the left and right lenses of the two eyes refract light, including: calculating the desired image of the eyes through the 3D stereo image, and the specular reflection source makes the light vertical liquid 1002195# No. A0101 Page 50 / 147 pages 1013138201-0 M431354 • , 101 years. After April 13, the positive direction of the iiTS crystal, control the brightness of the liquid crystal display, control the direction of the lens refracting light 5 - 41, adjust the lens angle to control the left and right images 》 • Refer to Figure 4, DE type 3D stereoscopic display, 2 scanning lines, the left and right lenses refract light in both directions, including: calculating the desired image of the eyes through the 3D stereo image, the specular reflection source makes the light vertical liquid crystal direction, Control the brightness of the liquid crystal display, control the direction of the lens refracting light 5 to 51, adjust the lens angle to control the left and right images. Referring to FIG. 4, the DF type 3D stereoscopic naked-view display has two scanning lines and multiple viewing angles in both eyes, including: calculating the required image of the two eyes through the mirror 3D stereo image, and reflecting the light source to make the light vertical to the liquid crystal direction and controlling the brightness of the liquid crystal display. Through the single-layer filter, the multi-layer light block shields the light 5-61, and calculates the position of the light shield through the position of the position. • Refer to Figure 5, EA 3D stereo projector, mixing the beam, including: calculating the desired image for both eyes via 3D stereo image, combining color 6-16 to produce the projected beam color, honeycomb circular magnetic field 6 _1 4 The interleaved S-pole control beam device 6-15 moves direction, the fixed beam rotation axis 6-12 displays the image, and the rotating shaft 6-13 assembles the beam device 6-15' to assemble the housing 6-17. The image reflects the light wave through the reflective screen. Refer to Figure 5 'EB type 3D stereo projector, 6 scan line dual projector, including: calculating the required image for both eyes via 3D stereo image, 6 scan line dual projector 6-21, controlling the electrode to shield the liquid crystal level, The vertical direction is 6 - 3 2, which is respectively reflected by the horizontal light barrier 3D stereo projector and the vertical light barrier 3 D stereo projector, and the image is reflected by the reflective screen. A0101 Page 51 of 147 1013138201-0. Refer to Figure 5 'EC type 3D stereo projector, 6 scan line color b away' includes (4) 3 D stereoscopic calculation of the desired image for both eyes, color separation display liquid crystal 6, 3 i, multi-color display via reflected light, control The electrode shields the liquid crystal horizontally and vertically from 6 to 3 2, and is magnified by electron amplification 116 - 3 3 ' through the lens 6 - 3 4 . Refer to Figure 4, FA type 3D stereo rotation naked-view display, 2 scan line binocular direction 'includes: calculate the required image for both eyes via 3D stereo image, 3 60 degrees rotation 7 - :li single - direction light, Designing the towel heart with the eyes as the light paste will bring out the direction of the light interception, and the high-speed rotating picture will continuously reproduce, producing the same-position display illusion, and the same image illusion can be viewed at any angle, resulting in an illusion of 3 DiL body display. Refer to Figure 4 'FB type 3D stereo rotation naked-view display, transparent transistor binocular direction, including: excitation of fluorescent coating 7-〇〇3 by scanning line 7-0 0 5 'light through the filter , fluorescent coating 7-007, with the color change of the light black nano coating 'cut mirror 7-0 0 reflective, protective layer 7_〇〇9 substrate 7 — 〇〇 1, 7 ~ 〇 02, 7- 〇〇 4, 7-〇. 〇6 composition, 3D stereo image to calculate the image required for both eyes, 3 6 rotation rotation 7-21 transparent transistor line, high-speed rotation transparent light-emitting transistor, 3D stereo image information through the rotation process, the center of the circle as data Center, calculate the rotation, change the display position, and display the image. Referring to Figure 5, GA type 3D stereoscopic display, 6 scanning line binocular direction, rotating liquid crystal reverse side display, including: calculating the image of both eyes through 3D stereo image, horizontal barrier 8 - 2 5 1 control The horizontal scanning line electrode 8-2 41 rotates the liquid crystal 8-2 in the 3 direction, and controls the vertical scanning line electrode 8-2 via the vertical barrier 8-2 5 to rotate 10021951^^^ A0101 1013138201"° Page 52 of 147. 101.04. 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 reflection to left eye 'right display rotary liquid crystal reflects to right eye. Refer to Figure 6, HA-type 3D stereo multi-lens camera, microphone, dual-lens wide-angle planar virtual focus photography, including: adjusting the incident light g through the lens 9-124, 9-12 5 - 12 3 through the darkroom 9 - 12 2 The photosensitive layer 9 - 126, 9 - 127, Θ - 12 8, through the input and output signal lines 9 _ 丄 4 9 signal through the amplifier 9-14 4, the scanning line 9-14 8 controls the transistor 9 1 4 3 switch, The control transistor 9-14 emits and receives light, electricity, and magnetic waves for sensing image and optical wave distance calculation combination, and controls the transistor 9-14 3 switch by sweeping the t-line 9-14 8 to release the photosensitive transistor 9 -141 signal through the amplifier 9 - 14 4 output signal line 9 - 14 9 'Baffle 9-14 5 Isolated photosensitive elements interfere with each other 'Flash 9-131 make up light, microphone 9 _13 2 Synchronous recording, photographic lens 9-13 3 Focus photography , transmitting, receiving light, electricity, magnetism, wave for 9 - 13 4 focus scanning, through circular wide-angle photosensitive virtual focus photography, software control photography center g_512 position, light wave scanning center 9 ~ 513 position, control virtual focus. Point 9 511 position 'calculate object distance, photography' image is processed through post-processing: BD stereo secret' through two-lens wide-angle plane virtual focus photography, the image is merged into 3D stereo depth image via post-processing, which will be more Lens image layer image single - difficult to store, light wave scanning virtual focus C point to calculate object distance, calculate object distance via moving virtual focus 'calculate angular distance information through post-processing, combined into 31) stereo image database, flash complement Insufficient light, synchronized voice recording. M431354 101.04 J 13-day correction replacement 100, see Figure 6, HB-type 3D stereo multi-lens camera, microphone, three-lens wide-angle planar virtual focus photography, including: adjusting the incident light through the lens 9 - 124, 9 - 12 5 — 12 3 through the darkroom 9-12 2 through the photosensitive layer 9 — 126, 9 — 127, 9 — 12 8 * via the input 'output signal line 9 — 14 9 signal through the amplifier 9 - 144, scan line 9_148 control transistor 9 —14 3 switch, control transistor 9_14 2 transmit, receive light, electricity, magnetism, wave for sensing image, light wave distance calculation combination, control transistor 9_14 3 switch via scan line 9_14 8 release photo-sensitive transistor 9 _141 signal After the amplifier 9 _14 4 output signal · Line 9_14 9, barrier 9_14 5 isolated photosensitive elements interfere with each other, flash 9 - 2 31 make up the light, microphone 9 - 2 3 2 synchronous recording, photographic lens 9-2 3 3 focus photography, launch, Receiving light, electricity, magnetism, and wave for 9–2 3 4 focus scanning, through circular wide-angle photosensitive virtual focus photography, software control camera position 9-512 position, light wave scanning center 9-513 position, control Focus point C - 9 - 511 position, calculate object distance, photography, image is merged into 3D stereo image through post-production processing, through three-lens wide-angle plane virtual focus ® photography, image through intermediate processing for intermediate photography data integration left and right The photographic data on both sides is processed into a 3D stereoscopic depth image, and the multi-lens image is stored as a single image in a multi-layer image. The light wave scans the virtual focus C to calculate the object distance, calculates the object distance by moving the virtual focus, and calculates the angular distance information. Through the post-processing, it is combined into a 3D stereo image database, the flash complements the lack of light, synchronizes the voice recording, the flash complements the lack of light, and synchronizes the voice recording. Refer to Figure 6, HC type 3D stereo multi-lens camera, Mike 1002195# single number A0101 page 54 / 147 pages 1013138201-0 M431354 • • ·10..ί年.04, 1.3 day nuclear ^^ page 1 wind , Dual-lens linked-axis autofocus photography, including: adjusting incident light 9-12 through lens 9-12, 9 - 12 5 through dark chamber 9 - 12 2 through photosensitive layer 9 - 126, 9 - 127, 9 - 12 8, through the input and output signal lines 9 - 14 Θ signal through the amplifier 9 _14 4, scan line 9 - 14 8 control transistor 9 - 14 3 switch 'control transistor 9 - 14 2 transmit, receive light, electricity, magnetic The wave performs the sensing image and the optical wave distance calculation combination, and controls the transistor 9-14 switch through the scanning line 9-14, releasing the photosensitive transistor 9-141 signal through the amplifier 9-14 output signal line • Road 9-14 9, barrier 9 - 14 5 isolated photosensitive elements interfere with each other, flash 9 - 3 31 make up the light, microphone g - 3 3 2 synchronous recording, linkage axis 9 - 3 21 moving photographic lens 9 - 3 3 3 focus photography, transmission, reception Light, electricity, magnetism, wave, 9 to 3 3 4 focus scan 'With a wide-angle wide-angle sensitized axis autofocus photography, software control photography, heart 9 - 5 1 2 position, light wave scanning center 9 - 5 1 3 position, linkage axis 9 - 4 21 moving focus C point 9 - 511 position ' Calculate the distance and photography of the object, and image the image into 3D • stereo image through post-production processing. Through the dual-lens wide-angle linkage axis autofocus photography, the image is merged into a 3D stereoscopic depth image through post-processing, and the multi-lens image is multi-layered. Image single file storage, light wave scanning virtual focus C point calculates object distance, automatically calculates object distance through moving linkage axis, calculates angle distance information through post-processing, combined into 3D stereo image database 'flash to fill insufficient light, synchronous voice recording . Refer to Figure 6 'HD type 3D stereo multi-lens camera, microphone, three-lens linkage axis autofocus photography, including: adjusting the incident light through the lens 9-12 4, 9 - 12 5 9 - 12 3 through the darkroom page 55 / Total 147 pages 1013138201-0 10021951 Production order number A0101 M431354 101 years 〇 April l·3 revision replacement page 9 — 12 2 through the photosensitive layer 9 — 126, 9-127, 9 — 12 8 * via input and output signals Line 9-14 signal passes through amplifier 9-144, scan line 9-148 controls transistor 9_14 3 switch, control transistor 9-14 2 emits, receives light, electricity, magnetism, wave for sensing image, light wave distance calculation Combination, control transistor 9-14 switch via scan line 9-14, release photoreceptor transistor 9_141 signal through amplifier 9-144 output signal line 9-14, barrier 9_14 5 isolated photosensitive elements interfere with each other, flash 9-431 Make up the light, microphone 9-432 synchronous recording, linkage axis 9-421 moving photographic lens 9 — 4 3 3 focus · photography, transmission, receiving light, electricity, magnetism, wave for 9 — 4 3 4 focus scanning, through the round wide angle Photosensitive linkage shaft Dynamic focus photography, software control photography center 9 - 512 position, light wave scanning center 9 _ 513 position, linkage axis 9 - 4 21 moving focus C point 9_511 position, calculate object distance, photography, image is processed through post-processing; 3 D stereoscopic image, through the three-lens wide-angle linkage axis autofocus 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 3D stereoscopic depth image, and the multi-lens image® is multi-layered image. Single file storage, light wave scanning virtual focus C point calculates object distance, automatically calculates object distance through moving linkage axis, calculates angle distance information through post-processing, combined into 3D stereo image database, flash fills insufficient light, synchronous voice recording . Refer to Figure 6, IA type 3D stereo scanning multi-lens camera, microphone, wide-angle plane virtual scan focus photography, including: erecting the focus photography center point 10-11 centered on the circle, focusing around the circumference, and changing the angle slightly Through post-processing, combined into 3 1〇〇2195# single number A_ page 56 / total 147 pages 1013138201-0 M431354
[1^5^30¾¾ D立體影像資料庫,以圓為中心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,組合成3 D立體影像資料庫。 參閲第6圖,IB型3D立體掃描多鏡頭攝影機、 麥克風,連動轴廣角自動掃描對焦攝影,包括:經由以 圓為中心對焦攝影中心點丨〇 —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,組合成3£> 立體影像資料庫’關為中讀焦光波掃描巾心點,圍 繞圓周對絲波掃描’計算鋪度距轉訊經由後製處 理,組合成3 D立體影像資料庫。 參閱第6圖,1C型3D立體掃描多鏡頭攝影機、 麥克風,全景廣角自動掃描對焦攝影,包括:經由以圓 為中心對焦攝影中心則〇_3!,圍繞圓周對焦攝影 ,將個角度細觀化影像經祕製處理,組合成3〇立 體全景廣角影像資訊,關為中心對絲輯描中心點 ,圍麵周對焦光波掃描,計算個角度距離資訊經由後 製處理,組合成3 D立體全景廣角影像資料。 參閱第6圖,;M3D立體掃描多鏡頭攝影機、 麥克風,全景廣角自動掃描對焦攝影監視、操作、控制 ,包括:經由架設多視角多方向自動對輯影丄〇 — 4 丄,將多方向自動掃描對焦攝影資訊’組合成3D立體 影像資料庫,進行全方位3D立體多鏡頭攝影機監視、 操作、控制,自動對焦攝影_特定監視、操作、控制 各種細微 變化、方向移動改變。 。。 參閱第7圖,KA^D立體掃描多鏡頭攝影機、 10021951#單編號A01〇l 第57頁/共147頁 1013138201-0 麥克風,全景廣角平面虛擬掃描對焦攝影,包括: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 1 1一512位置、光波掃描中心11 — 513位置, 移動焦點C點11—511位置計算物體距離、攝影, 影像經由後製處理擬和成3 D立體影像,經由多鏡頭廣 角平面虛擬對焦攝影,影像經由後製處理擬和成3D立 體景深影像,將多鏡頭影像以多層影像單一檔案儲存, 經由圓形廣角發射、接收光、電、磁、波進行掃描計算 虛擬焦點C點距離,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,組合成3D立體影 像資料庫’閃光燈補足光線不足,同步語音錄製。 參閱第7圖,KB型3 D立體掃描多鏡頭攝影機、 麥克風’全景廣角連動軸自動掃描對焦攝影,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11 — 512位置、光波掃描中心1ι_513位置 ,連動轴11—521移動焦點C點11—511位置 計算物體距離、攝影,影像經由後製處理擬和成3 D立 體影像,經由多鏡頭廣角連動轴自動對焦攝影,影像經 由後製處理擬和成3D立體景深影像,將多鏡頭影像以 多層影像單-财齡,經由圓形廣肖發射、接收光、 電 '磁 '波進行掃描計算連動減點c點距離,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’組合成3〇立體影像資料庫,閃光燈補 足光線不足,同步語音錄製。 參閱第7圖,LA型3D立體同樂機器人,蜂巢式 磁場控制個關節運動擬人機器人,包括:經由蜂巢式磁 M431354 ___ • . 年.04月13日核正 場控制個關節運動11 -321,經由全景廣角連動轴 自動掃描對焦攝影11 — 331,麥克風輸入丄i — 3 41、喇队輸出丄丄_ 3 4 2辨識語音產生互動,輸出 相對應語音,連動軸自動掃描對焦攝影計算距離,經由 圓形廣角發射、接收光、電、磁、波進行掃描計算連動 轴焦點C點距離,經由移動連動軸自對動焦計算物體距 離,計算個角度距離資訊經由後製處理,組合成3D立 體影像資料庫’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極交叉排列組 • 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掃描對焦攝 - 影進行3 D立體影像辨識,語音辨識提供互動操作、控 . 制,擬人機器人經由辨識影像、語音互動操作、控制、 學習’紀錄各種信息完成各種任務。 參閱第7圖,LB型3D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 * 角連動輛自動掃描對焦攝影11—431,麥克風輸入 1 1 —4 41、喇口八輸出11一4 4 2辨識語音產生互 動’輸出相對應語音,連動軸自動掃描對焦攝影計算距 離’經由圓形廣角發射、接收光、電、磁、波進行掃描 计真連動轴焦點C點距離,經由移動連動輛自動對集外 具物體距離’计舁個角度距離資訊經由後製處理,組合 成3D立體影像資料庫,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、彎曲’模擬人的各種動作產生互動,接受各種指 10021951#單編號A01〇l 第59頁/共147頁 1013138201-0 令產生互動,全景廣角連動軸自動掃描對焦攝影進行3月 D立體影像辨識’語音辨識提供互動操作、控制,擬人 機器人經由職影像 '語音互動操作、測、學習,紀 錄各種信息完成各種任務。 參閱第1圖,MAS3D立體實物仿製機器’ 3d 立體實物仿製複製上色,包括:經由喷頭i 2 -工3 i 、塗料喷頭Hl32、放大鏡12_133、零件 組成’經由固定杈12—122移動ζ#12—ΐ2ι 調整Z軸位置,固定座X軸Y軸12 - 151 ’設置旋 轉盤12一123旋轉方向角度’ 0型環12-124 保遵潤滑防止污垢進心固定座控制前進、後退n 12 6距離設置旋轉方向馬達12-12 5控制旋轉方 向匕由控制1 2 ~~ 1 2 7馬達旋轉喷頭、刀頭方向工 2-141,控制3D立體實物仿製機器移動乂轴^轴 Z軸、旋轉軸、角度袖,經由設置光電感應裝置,精確 控制X軸軸、旋轉軸、角度軸’ 3 D立體資訊進 行後製處理成真實_,對3D立體仿製物體進行光、 電、磁、波、物理、化學、原子、奈米、材料組成原理 特性分析’分贿象,鎌分赌果經由各種奈米 材料、化學變化材料,進行物理、化學變化組合、材料 合成’依照仿製對象進行高壓、高溫奈米材料喷塗,喷 出奈米材料、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。 參閱第1圖’MB型3D立體實物仿製機器,扣 立體實物仿製_上色,包括:經由細工2 _ ^ M431354 _[1^5^303⁄43⁄4 D stereo image database, focus on the center of the light wave scanning center, focus on the circumference of the focused light wave scan, calculate the angular distance information through the post-processing, combined into a 3D stereo image database. Refer to Figure 6, IB type 3D stereo scanning multi-lens camera, microphone, linked-axis wide-angle auto-scanning focus photography, including: focusing on the center of the focus through the center of the circle - 21, focusing around the circumference, focusing on the angle The change image is processed into a post-production process and combined into a £3> stereo image database 'closed to the mid-reading focus light scanning towel heart point, and the circumference of the silk wave scan' is calculated. The pitch distance is transmitted through the post-processing, and is combined into 3 D stereo image database. Refer to Figure 6, 1C type 3D stereo scanning multi-lens camera, microphone, panoramic wide-angle automatic scanning focus photography, including: focus on the center of the focus through the circle 〇 _3!, focus on the circumference of the focus, the angle of the perspective The images are processed by secret processing and combined into 3 stereoscopic panoramic wide-angle image information. The center is centered on the silk to draw the center point, the surrounding surface is focused on the light wave scan, and the calculated angular distance information is processed through post-processing to form a 3D stereo wide angle. video material. Refer to Figure 6; M3D stereo scanning multi-lens camera, microphone, panoramic wide-angle automatic scanning focus photography monitoring, operation, control, including: through the installation of multi-view multi-directional automatic alignment camera - 4 丄, multi-directional automatic scanning Focus photography information 'combined into a 3D stereo image database for comprehensive 3D stereo multi-lens camera monitoring, operation, control, auto focus photography _ specific monitoring, operation, control of various subtle changes, direction shift changes. . . Refer to Figure 7, KA ^ D stereo scanning multi-lens camera, 10021951 #单号A01〇l page 57 / 147 pages 1013138201-0 microphone, panoramic wide-angle plane virtual scan focus photography, including: through the circular wide-angle photosensitive linkage axis Autofocus photography, software control photography center 1 1 512 position, light wave scanning center 11 - 513 position, moving focus C point 11 - 511 position to calculate object distance, photography, image is merged into 3D stereo image through post processing, via Multi-lens wide-angle planar virtual focus photography, the image is merged into a 3D stereoscopic depth image through post-processing, and the multi-lens image is stored in a single image of a multi-layer image, and is scanned and calculated by circular wide-angle transmission, receiving light, electricity, magnetism, and wave. Focus C point distance, calculate object distance via moving virtual focus ' Calculate the angular distance information through post-processing, and combine it into 3D stereo image database 'Flash to make up for insufficient light and synchronous voice recording. Refer to Figure 7, KB type 3D stereo scanning multi-lens camera, microphone 'panor wide-angle linkage axis auto-scanning focus photography, including: through circular wide-angle photosensitive linkage axis autofocus photography, software control photography center 11 - 512 position, light wave scanning Center 1ι_513 position, linkage axis 11-521 moving focus C point 11-511 position to calculate object distance, photography, image is post-processed into 3D stereo image, through multi-lens wide-angle linkage axis autofocus photography, image via post-production The 3D stereoscopic depth image is processed into a multi-lens image, and the multi-lens image is scanned by a circular image, and the light and the electric 'magnetic' wave are scanned to calculate the interlocking point c point distance. The automatic focus calculates the distance of the object, and calculates the angular distance information through the post-processing process to be combined into a 3D stereo image database, and the flash complements the insufficient light and synchronizes the voice recording. Refer to Figure 7, LA-type 3D stereo music robot, honeycomb-type magnetic field control joint motion anthropomorphic robot, including: through the honeycomb magnetic M431354 ___ • .. April 13 nuclear positive field control joint motion 11 -321, Automatically scan the focus through the panoramic wide-angle linkage axis. 11 — The microphone input 丄i — 3 41, the racquet output 丄丄 _ 3 4 2 recognizes the voice interaction, outputs the corresponding voice, and the linkage axis automatically scans the focus photography calculation distance. Circular wide-angle emission, receiving light, electricity, magnetism, and wave are scanned to calculate the focal point C point distance, and the object distance is calculated by moving the linked axis to the moving focus, and the calculated angular distance information is combined into a 3D stereo image through post-processing. The database 'built-in direction sensor, gravity sensor analyzes the current direction, control balance' honeycomb type circular magnetic field S pole n pole cross arrangement group, the circular control magnetic field simulates people's various actions to interact, accept various instructions Interacting, panoramic wide-angle linkage axis automatic scanning focus shooting - shadow for 3D stereo image recognition, speech recognition provides interactive operation , Control. System, the humanoid robot via image recognition, voice interactive operation, control, learning 'record a variety of information to complete a variety of tasks. Refer to Figure 7, LB type 3D stereo music robot, which can control the articulated anthropomorphic robot by the brake magnetic field motor, including: controlling the joint motion 11-421 via the brake magnetic field motor, and automatically scanning the focus photography through the panoramic wide angle* 11-431, microphone input 1 1 - 4 41, pull port eight output 11 - 4 4 2 identification voice generation interaction 'output corresponding voice, linkage axis automatic scanning focus photography calculation distance' via circular wide-angle transmission, receiving light, electricity , magnetic, wave scanning, true linkage axis focus C point distance, through the mobile linkage, automatically set the distance of the object outside the distance, calculate the angular distance information through the post-processing, combined into a 3D stereo image database, built-in direction sensor Gravity sensor analyzes the current direction and control balance, and can control the rotation and bending of each joint by the magnetic field motor. The various actions of the simulated person interact and accept various fingers. 10021951#单号A01〇l Page 59/147 pages 1013138201-0 To create interaction, panoramic wide-angle linkage axis automatic scanning focus photography for March D stereo image recognition 'speech recognition to provide mutual Operation, control, humanoid robot via post video 'voice interactive operation, testing, learning, discipline record a variety of information to complete a variety of tasks. Referring to Figure 1, the MAS3D solid object imitation machine '3d solid imitation copying and coloring, including: through the nozzle i 2 - 3i, paint nozzle Hl32, magnifying glass 12_133, parts composition 'via fixed 杈 12-122 mobile ζ #12—ΐ2ι Adjust the Z-axis position, the fixed seat X-axis Y-axis 12 - 151 'Set the rotary disk 12-123 rotation direction angle' 0-ring 12-124 Ensure lubrication to prevent dirt into the center of the fixed seat control forward and backward n 12 6 Distance setting rotation direction motor 12-12 5 Control rotation direction 匕 Control 1 2 ~~ 1 2 7 Motor rotation nozzle, cutter head direction 2-141, control 3D solid object imitation machine movement ^ axis ^ axis Z axis, The rotating shaft and the angle sleeve are precisely controlled by the photoelectric sensing device, and the X-axis, the rotating shaft and the angular axis are accurately controlled. The 3D stereo information is processed into a real _, and the 3D stereoscopic object is optical, electric, magnetic, wave, Physical, chemical, atomic, nano, material composition principle analysis 'dividing bribes, gambling gambling through various nanomaterials, chemically changing materials, physical, chemical change combination, material synthesis' in accordance with the imitation object Pressing and high-temperature nano-material spraying, spraying nano-materials, color coatings and combining them into a combination, making different physical imitation copying and coloring objects through different sizes of machines, different sizes of spraying materials' to make the physical imitation copying process more convenient and fast . Refer to Figure 1 'MB type 3D solid object imitation machine, buckle solid object imitation _ color, including: via fine work 2 _ ^ M431354 _
• · . 11SS04月13日修正^頁I 、塗料錢 12-132、放大鏡12 —133^~- 組成,經由固定柱12—12 2移動Z轴12-121 調整Z輛位置,固定座X軸Y轴12-151,設置旋 轉盤12 — 12 3旋轉方向角度,0型環12-12 4 保護润滑防止污垢進人,固定座控制前進、後退!_ 2 - 1 2 6距離設置轉方向馬達1 2 - 1 2 5測旋轉方 向,經甴控制12〜12 7馬達旋轉喷頭、刀頭方向χ 2 — 141,控制3D立體實物仿製機器移動X轴γ軸 Z軸、旋轉轴、角度軸,經由設置光電感應裝置,精確 ® 控制X輛¥軸2轴、旋轉轴、角度轴,3 D立體資訊進 行後製處理成真實比例,對3D立體物體預設材料雕刻 ’喷塗顏色塗料’製作不同實物仿製顧上色對象經由 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。 參閱第1圖,MC型3 D立體實物仿製機器,3 D 立體相片仿製列印上色,包括:經由喷頭工2 +丄3工 、塗料喷頭12-132、放大鏡12-133 、零件 1013138201-0 藝組成’經由固定柱12 - 12 2移動Ζϋΐ2-121 調整Ζ袖位置,固定座X軸Υ轴12 — 151,設置旋 轉盤12-12 3旋轉方向角度,〇型環12-12 4 保護潤滑防止污垢進入,固定座控制前進、後退丄2 — 12 6距離設置旋轉方向馬達12 — 12 5控制旋轉方 向’經由控制12 — 12 7馬達旋轉喷頭、刀頭方向1 2—141’控制3D立體實物仿製機器移動X轴γ轴 Ζ轴、旋轉軸、角度軸,經由設置光電感應裝置,精確 控制X輛Υ軸Ζ軸、旋轉軸、角度軸,3 D立體資訊進 10021951^·^^ Α0101 第 61 頁 / 共 147 頁 M431354 &〇1年〇4月 行後製處理成真實比例,對3D立體職進行光 材料噴塗’凹凸透鏡增加影像可視細,經由計算3 〇 13日梭正#«頁 立體影像資訊,建立多層細位置使雙眼觀看3D立體 _,經由多張影像組合成3D動態影像,將影像印製 在凹凸層,經由喷塗透鏡 '多層光棚麵影像,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 看到不同影像,計算多張影像不同角度多層光搁,產生 3 D立體動態影像’依照仿製對象進行高壓、高溫奈米 材料噴塗’喷出奈米材料、顏色塗料凝結合成結合,製 作不同相片仿製列印上色對象經由不同大小機器,不同• · · 11SS04 13th revised ^ page I, paint money 12-132, magnifying glass 12 - 133 ^ ~ - composition, through the fixed column 12-12 2 moving the Z axis 12-121 to adjust the Z position, the fixed seat X axis Y Shaft 12-151, set the rotating disc 12 - 12 3 rotation direction angle, 0-ring 12-12 4 protection lubrication to prevent dirt from entering, the fixed seat control forward and backward! _ 2 - 1 2 6 Distance setting direction motor 1 2 - 1 2 5 Measure the direction of rotation, control the 12~12 7 motor rotation nozzle, head direction χ 2 — 141, control 3D solid object imitation machine movement X axis The γ-axis Z-axis, the rotary axis, and the angular axis are controlled by the photoelectric sensing device to accurately control the X-axis, the 2-axis, the rotary axis, and the angular axis. The 3D stereo information is processed into a real scale, and the 3D stereoscopic object is pre-processed. Set the material engraving 'spray color paint' to make different physical imitation Gu color objects through different sizes of machine 'different size preset materials, make the physical imitation engraving process more convenient and fast. Refer to Figure 1, MC type 3D solid object imitation machine, 3D stereo photo imitation printing, including: through the nozzle 2 + 丄 3 work, paint nozzle 12-132, magnifying glass 12-133, parts 1013138201 -0 Art composition 'moving through the fixed post 12 - 12 2 Ζϋΐ2-121 Adjusting the position of the cuff, fixing the X-axis 12 12 - 151, setting the rotating disk 12-12 3 rotation direction angle, 〇 ring 12-12 4 protection Lubrication prevents dirt from entering, the fixed seat controls forward and backward 丄 2 — 12 6 distance setting rotation direction motor 12 — 12 5 control rotation direction 'via control 12 — 12 7 motor rotating nozzle, cutter head direction 1 2—141' control 3D The three-dimensional physical imitation machine moves the X-axis γ-axis, the rotation axis and the angle axis, and precisely controls the x-axis, the rotation axis and the angle axis through the photoelectric sensing device, and the 3D stereo information enters 10021951^·^^ Α0101 Page 61 / 147 pages M431354 & 〇 1 year 〇 4 months post-line processing into a real proportion, 3D stereo work on the light material spray 'convex lens to increase the image visible fine, through calculation 3 〇 13 day shuttle is #« Page stereo image information, build multiple layers of fine The two eyes are arranged to view the 3D stereo image _, and the image is printed into the 3D motion image through multiple images, and the image is printed on the concave and convex layer, and the different images are seen in the left eye and the right eye at different angles through the sprayed lens 'multilayer light shed image. Produce 3D stereo dynamic effect, the image is sprayed on the lenticular lens to produce different angles of refraction, different angles are observed at different angles, multiple images of different angles are calculated, and 3D stereoscopic images are generated, and high-pressure, high-temperature is performed according to the imitation object. Rice material spraying 'spraying nano material, color paint coagulation combined into a combination, making different photos imitation printing color objects through different size machines, different
大小喷塗材料,使相片仿製列印上色過程更加便利快速 參閱第1圖,MD型3 D立體實物仿製機器,3 D 立體實物仿製縫初上色,包括:經由喷頭12 _131 、塗料喷頭12 —132、放大鏡12-13 3、零件 組成,經由固定柱12 — 12 2移動Z軸12 — 121 調整Z軸位置,固定座X轴γ軸12 — 151,設置旋 轉盤12 — 12 3旋轉方向角度,〇型環12 — 12 4 保護潤滑防止污垢進入,固定座控制前進、後退丄2〜 12 6距離設置旋轉方向馬達12 — 12 5控制旋轉方 向,經由控制12 — 12 7馬達旋轉喷頭、刀頭方向工 2—141,控制3D立體實物仿製機器移動X軸γ軸 Z軸、旋轉軸、角度軸,經由設置光電感應裝置,精確 控制X轴Y軸Z轴、旋轉軸、角度軸,3 D立體資訊進 行後製處理成真實比例,對3D立體服裝進行材料分析 1Q()21951f單编號A0101 第¢2頁/共147頁The size of the spray material makes the photo imitation printing process more convenient. Refer to Figure 1, MD 3D solid object imitation machine, 3D solid imitation seam initial color, including: through the nozzle 12 _131, paint spray Head 12-132, magnifying glass 12-13 3, part composition, moving Z-axis 12-121 via fixed column 12-12 2 Adjust Z-axis position, fixed seat X-axis γ-axis 12-151, set rotating disk 12 - 12 3 rotation Directional angle, 〇-shaped ring 12 — 12 4 Protective lubrication to prevent dirt from entering, fixed seat control forward and reverse 丄 2~ 12 6 distance setting rotation direction motor 12 — 12 5 control rotation direction, via control 12 — 12 7 motor rotary nozzle , cutter head direction 2-141, control 3D solid object imitation machine movement X axis γ axis Z axis, rotation axis, angle axis, through the setting of photoelectric sensing device, precise control X axis Y axis Z axis, rotation axis, angle axis, 3D stereo information is processed into a real proportion, and material analysis is performed on 3D stereoscopic clothing. 1Q()21951f single number A0101 page 2/147 pages
1013138201-0 M431354 1101#04^3Tggg ,仿製缝紉上色機器喷塗凝結合成仿製外觀造型,喷塗 纖維、絲線、尼龍紡織服裝材料,交叉喷塗凝結組合成 網狀結構,化學纖維交叉噴塗凝結合成絲線,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 不同實物仿製縫紉上色對象經由不同大小機器,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。 參閱第2圖’ 0A型全景夢境投影機,經由液晶面 板13 — 12 4顯示全景影像,經由透鏡13 — 12 3 放大影像,投射到13 _12 5銀幕產生全景影像,經 由設置旋轉舞台13 — 121、前進、後退移動13 — 12 2產生動態3D立體視覺。 參閱第2圖’ 3D立體多鏡頭攝影機’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13 _ _ 211 ’第-攝影鏡頭工3-2 2丄、第二攝影鏡頭丄 3 - 2 2 2、第二攝影鏡頭1 3-2 2 3提高解析度。 參閱第8圖,X軸Y軸z軸電子線路,經由X轴γ 轴Z轴電晶體線路結合而成14 — 111,經由X軸γ 轴Z軸像素平衡放大線路輸入訊號i 4 — 3丄2,經過 電晶體閘道14一314輸出訊號14 — 311,第一 點像素訊號14 - 315相加第二點像素訊號,輸出訊 號位移-個位元為其平均值,經由χ#γ#ζ抽記憶體 線路14 — 211、X轴掃描訊號線丄4 — 2 i 2、γ 10021951#單編號A01〇l 第63頁/共147頁 1013138201-0 M431354 .ιοί:年.〇4用l3日·接正替sirs 轴掃描訊號線14 - 213、Z軸掃描訊號控制線14 _ 214、Z轴連接線14 — 215、Z軸控制電晶體 1 4一2 1 6。 參閱第9、17圖,觸控顯示面板’經由X轴掃描 訊號線發出訊號15一121、15-221,經由觸 摸連接導通訊號15一123、15-223 ’間隔層 防止未觸摸碰觸導通15—124、15—224,經 由Y軸掃描訊號線傳送訊號15—122、15_22 2,整合液晶面板15 一11。 參閱第1〇圖,X轴Y轴Z轴加法運算電路,經由 · 輸入X軸被加數16 — 112、Y軸加數16~113 輸出結果16 — 114 ’經由輸入被加數X軸〇12 3 4和0 5訊號、加數丫軸〇12 3 4和0 5訊號,通過 掃描線電晶體將被加數X轴012 3 4加數Y軸〇12 3 4訊號相加輸出結果’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Y轴〇 5相加輸出結果, 如果相加大於10則進位1。 參閱第1 1圖’ X軸Y轴Z轴減法運算電路,經由 鲁 輸入X轴被減數17—112、Y轴減數17 — 1 13 輸出結果17 — 114,經由輸入被減數X軸〇丄2 3 4和0 5訊號、減數Y軸01234和05訊號,通過 掃描線電晶體將被減數X轴〇 1 2 3 4減數Y轴〇12 3 4訊號相減輸出結果,如果相減大於被減數則借位減 5 ’如果有借位則再借位5和被減數又軸〇5相加在減 去減數Y轴0 5輸出結果,如果有借位則退位1。 參閱第12圖,X軸γ|*ζ轴乘法運算電路,經由 第64頁/共147頁 1013138201-0 輸入X軸被乘數18-112、Y轴乘數18-113 輸出結果18 — 114,經由輸入被乘數X轴012 3 4和0 5訊號'乘數γ轴01234和05訊號,通過 掃描線電晶體將被乘數X轴〇 1 2 3 4乘數Υ轴012 3 4訊號相乘輪出結果,如果相乘大於5則進位,如果 有進位和被乘數X軸〇1 2 3 4乘上乘數Υ轴0 5、乘 數Υ轴012 3 4乘上被乘數X軸0 5結果相加,再加 上被乘數X軸〇 5乘數Υ軸0 5相乘輸出結果,如果相 加大於10則進位,為1〇進位乘法ΑΑ為〇12 3 4 • 5ΆΒ^〇5»ΒΑ^012345'ΒΒ4;05»1013138201-0 M431354 1101#04^3Tggg, imitation sewing coloring machine sprayed and combined into imitation appearance, spraying fiber, silk, nylon textile and garment materials, cross-spraying and coagulation combined into a network structure, chemical fiber cross-spraying and coagulation Silk thread, different garments are treated differently, and 3D stereoscopic information is processed through various types of fibers and chemical materials to design and draw clothing shapes and colors, and any clothing, shape and color can be changed to replace various sizes and sizes of garments for various shapes. The layout and style design conforms to individual characteristics, weaving various structures, styles, shapes, color sprays, making various materials synthetically made, making different physical imitation sewing objects through different sizes of machines, different large and small spray materials, so that the real imitation sewing The coloring process is more convenient and faster. Refer to Figure 2 '0A-type panoramic dream projector, display the panoramic image through the LCD panel 13 - 12 4, magnify the image through the lens 13 - 12 3, project it to the 13 - 12 screen to generate the panoramic image, and set the rotating stage 13 - 121, Forward and backward movement 13 - 12 2 produces dynamic 3D stereo vision. Refer to Figure 2 '3D Stereo Multi-Lens Camera' via the interval image sensitization storage, and set the photographic lens original through the interval 13 _ _ 211 ' the first - photographic lens 3-2 2 丄, the second photographic lens 丄 3 - 2 2 2. The second photographic lens 1 3-2 2 3 improves the resolution. Referring to Fig. 8, the X-axis Y-axis z-axis electronic circuit is combined with the X-axis γ-axis Z-axis transistor circuit to form 14-111, and the input signal i 4 - 3丄2 is input through the X-axis γ-axis Z-axis pixel balance amplification line. After the transistor gates 14-314 output signals 14-311, the first pixel signals 14-315 are added to the second pixel signal, and the output signal displacement-bits are averaged, and are extracted via χ#γ# Memory line 14 - 211, X-axis scan signal line 丄 4 - 2 i 2, γ 10021951# single number A01〇l page 63 / 147 pages 1013138201-0 M431354 .ιοί: year. 〇 4 with l3 day · pick up The sirs axis scan signal line 14 - 213, the Z axis scan signal control line 14 _ 214, the Z axis connection line 14 - 215, and the Z axis control transistor 1 4 - 2 16 . Referring to Figures 9 and 17, the touch display panel transmits signals 15-121 and 15-221 via the X-axis scanning signal line, and the communication layer 15-123, 15-223 is separated by a touch connection to prevent the untouched contact 15 - 124, 15-224, transmitting signals 15-122, 15_22 2 via the Y-axis scanning signal line, and integrating the liquid crystal panels 15-11. Referring to Figure 1, the X-axis Y-axis Z-axis addition circuit is incremented by the input X-axis 16-12, and the Y-axis addendum 16-113 is output 16-114 'Additional X-axis 输入12 via input 3 4 and 0 5 signals, add-number 丫 axis 〇 12 3 4 and 0 5 signals, through the scan line transistor will be added X axis 012 3 4 add number Y axis 〇 12 3 4 signal add output result 'If phase Add more than 5 carry, if there is carry and add X axis 0 5 add number Y axis 〇 5 add output, if the addition is greater than 10 then carry 1. Refer to Figure 1 'X-axis Y-axis Z-axis subtraction circuit, which is subtracted from the X-axis by the Lu input, and the Y-axis is reduced by 17 - 1 13. The output is 17-114, and the X-axis is subtracted via the input.丄 2 3 4 and 0 5 signals, subtraction Y-axis 01234 and 05 signals, through the scan line transistor will be subtracted X-axis 〇 1 2 3 4 minus number Y-axis 〇 12 3 4 signal subtraction output result, if phase If the reduction is greater than the subtraction, the borrowing is reduced by 5'. If there is a borrow, the borrowing is 5 and the subtracted is added to the axis 〇5. The subtraction is subtracted from the y-axis. The output is 0. If there is a borrow, the borrowing is 1. Referring to Fig. 12, the X-axis γ|* ζ-axis multiplication circuit inputs the X-axis multiplier 18-112 and the Y-axis multiplier 18-113 to output the result 18-114 via page 64 of 147 pages 1013138201-0. Multiplying by the multiplicand X-axis 012 3 4 and 0 5 signal 'multiplier γ-axis 01234 and 05 signals, multiplying the multiplier X-axis 〇 1 2 3 4 multiplier 012 axis 012 3 4 by the scan line transistor Round out the result, if the multiplication is greater than 5, the carry, if there is a carry and the multiplicand X axis 〇 1 2 3 4 multiply the multiplier Υ axis 0 5, the multiplier Υ axis 012 3 4 multiplied by the multiplicand X axis 0 5 The result is added, plus the multiplier X axis 〇 5 multiplier Υ axis 0 5 multiplied output result, if the addition is greater than 10, the carry is 1 〇 carry multiplication ΑΑ 〇 12 3 4 • 5 ΆΒ ^ 〇 5 »ΒΑ^012345'ΒΒ4;05»
將AA乘BA、AA乘BB、BA乘AB、AB乘BB 〇 參閱第13圖,X軸Υ轴Ζ軸除法運算電路,經由 一個加法19一211、減法19一212組成除法, 經由一個加法、計數器累積加法數值、減法組成除法, 經由计數器累積加法數值比對減法數值,輸出比對相減 剩餘數值。 •參閱第14、15圖,X轴Υ軸Ζ軸記憶體整合加 減乘除線路’ 2 4 —111直接運算處理,X軸γ軸ζ 轴記憶體多重運算線路2 4 _ 2 U,輸入訊號控制線 2 4 2 21經過電晶體設定訊號2 4 — 2 2 3,限制 訊號方向2 4 — 2 2 4多重比對分析處理,輪出訊號控 制線24 — 2 2 2運算處理,X軸丫軸乙軸記憶體多重 運算線路2 6 — 211,輸入訊號控制線2 6 — 2 21 經過電晶體設定訊號2 6-2 2 3,限制訊號方向2 6 一 2 2 4多重比對分析處理,輸出多重訊號控制線2 6 10021951#單編號Α0101 第65頁/共147頁 1013138201-0 M431354 _ 101年.04月13日梭正_^頁 —222運算處理。 參閱第16圖,X轴Y轴Z轴加法運算電路,經由 輸入被加數百位數2 6 — 0 3、十位數2 6 — 0 2、個 位數2 6 — 01,加數百位數2 6 ~13、十位數2 Θ 一12、個位數2 6—11,經由單一位元運算處理2 6-51輸出結果26—91和進位處理26-61, 進位1輸出連接線路到下一位元被加數輸入端2 6 —8 1進位1或是進位1輸出連接線路到下一位元加數輸入 知進位1,進行下一位原運算處理,超出運算處理控制Multiply AA by BA, AA by BB, BA by AB, AB by BB. See Figure 13, X-axis, axis, and axis division operation circuit, which is divided by an addition method 19-211, subtraction 19-212, via an addition, The counter accumulates the addition value and the subtraction component division, accumulates the addition value via the counter to compare the subtraction value, and outputs the comparison to subtract the remaining value. • Refer to Figures 14 and 15 for the X-axis, axis, and axis memory integration, addition, subtraction, multiplication and division lines' 2 4 - 111 direct operation processing, X-axis γ-axis 轴 axis memory multi-operation line 2 4 _ 2 U, input signal control line 2 4 2 21 After the transistor setting signal 2 4 — 2 2 3, limit the signal direction 2 4 — 2 2 4 multiple comparison analysis processing, turn signal control line 24 — 2 2 2 operation processing, X axis 丫 axis B axis Memory multiple operation circuit 2 6 - 211, input signal control line 2 6 - 2 21 Via transistor setting signal 2 6-2 2 3, limit signal direction 2 6 - 2 2 4 multiple comparison analysis processing, output multiple signal control Line 2 6 10021951#单号Α0101 Page 65/147 pages 1013138201-0 M431354 _ 101 years. April 13th shuttle _^ page - 222 operation processing. Referring to Figure 16, the X-axis Y-axis Z-axis addition circuit is added with hundreds of digits 2 6 - 0 3, tens digits 2 6 - 0 2, single digits 2 6 - 01, plus hundreds of bits via the input. Number 2 6 ~ 13, tens digit 2 Θ a 12, single digit 2 6-11, through a single bit operation processing 2 6-51 output result 26-91 and carry processing 26-61, carry 1 output connection line to The next bit is added to the input terminal 2 6 - 8 1 carry 1 or the carry 1 output connection line to the next bit plus input input knowledge bit 1, for the next bit of the original operation processing, beyond the arithmetic processing control
26-71。 參閱第16圖,X軸Y轴Z轴減法運算電路,經由 輸入被減數百位數2 7 — 0 3、十位數2 γ — 〇 2、個 位數2 7一〇1,加數百位數2 7 — 13、十位數2 7 12、個位數2 7—11,經由單—位元運算處理2 7 51輸出結果27 — 91和退位處理2 7 一 61 , 退位1輸出連接線路到下-位力被減數輸人端$ 7 — 8 1退位1或是驗i輸出連接線_下—位元減數輸入 端進位1 ’進行下一位原運算處理,負數借位運算處理26-71. Referring to Figure 16, the X-axis Y-axis Z-axis subtraction circuit is reduced by hundreds of digits 2 7 - 0 3, tens digits 2 γ - 〇 2, single digits 2 7 - 1 , plus hundreds The number of bits is 2 7 - 13, the tens digit is 2 7 12, the single digit is 2 7 - 11, and is processed by the single-bit operation. 2 7 51 output result 27 - 91 and the ablation processing 2 7 - 61 , the ablation 1 output connection line To the lower-position force is reduced to the input end $ 7 - 8 1 abdication 1 or test i output connection line _ lower - bit sub-reduction input carry 1 'for the next original operation processing, negative borrow operation
控制2 7 - 7 1 ’如果被減料a、減數為b結果為C ’A~B=C如果A>B則控制輸出27—72輸出結 果2791否則六<6則在補正運算_次,例如〇〇 ^ 3 4-004 3 2 1 = 9 9 6 9 1 3^-1^ 運算補正27~73數值1〇〇〇〇〇〇_9969 13 = 3 0 8 7輪出結果2 7-9 2。 夢閲第16圖’ X軸γ軸z轴乘法運算電路, 輸入被乘數百位數2 8 - 0 3、十位數2 8 — 〇 2 1〇〇2195斤單編號A〇101 第66頁/共147頁 1013138201-0 M431354 位數28 —01 ’乘數百位數28-13、十位數28 —1 2、個位數28~~i 1,經由單一位元運算處理2 8-51輪出結果2 8〜91和進位處理2 8-61, 進位數值輸出連接線路到下-位元被純、加數輸入端 2 8 — 81進位數值,進行下一位原運算處理,超出運 算處理控制28—71,第1乘法數值相加第2位元乘 法數值2 8 — 5 2,第2乘法數值相加第3位元乘法數 值2 8-5 3。 參閱第16圖,X軸Y轴Z轴除法運算電路,經由 輸入被除數百位數2 9 — 0 3、十位數2 9 — 0 2、個 位數29—01,減法比對29—51乘法輸出結果, 一個乘法運算輸入除數百位數2 9 — 13、十位數2 9 —12、個位數2 9 — 11,輸入倍數2 9 — 31輸出 結果29—91。 【圖式簡單說明】 [0005] 圖一本創作即時互動3 D立體仿製娛樂裝置示意圖。 圖二本創作同步手持裝置、全景夢境投影機示意圖。 圖三本創作3D立體顯示器、3 D立體裸視顯示器示意 圖。 圖四本創作3 D立體裸視顯示器、3 D立體旋轉裸視顯 示器示意圖。 圖五本創作3 D立體投影機、旋轉液晶示意圖。 圖六本創作3 D立體掃描多鏡頭攝影機示意圖。 圖七本創作3 D立體多鏡頭攝影機3 D立體同樂機器人 示意圖。 10021951^^^^ 圖八本創作X軸Y軸Z軸線路,X抽Y袖Z轴運算控制 A0101 第 67 頁 / 共 147 頁 1013138201-0 M431354 101年.04月13日核正替换頁 核心示意圖。 圖九本創作觸控顯示面板示意圖。 圖十本創作5和1 2 3 4加法運算電路示意圖。 圖十一本創作5和1 2 3 4減法運算電路示意圖。 圖十二本創作5和1 2 3 4乘法運算電路示意圖。 圖十三本創作5和12 3 4除法運算電路示意圖。 圖十四本創作X軸Y軸Z軸記憶體整合加減乘除、多重 運算線路示意圖。 圖十五本創作多重運算線路示意圖。 圖十六本創作加法、減法、乘法、除法線路示意圖。 β 圖十七本創作觸控顯示面板示意圖。 【主要元件符號說明】 [0006]組合圖 1 — 11、1 — 21、1 — 31、1 — 41、2 -111、2-211、2-311、12-111 風扇1 — 12、1 — 13 電源控制1_ 1 4 光碟1 — 1 5 ^Control 2 7 - 7 1 'If it is reduced by a, the subtraction is b, and the result is C 'A~B=C. If A>B, control output 27-72, output 2791, otherwise six <6, corrective operation_time For example, 〇〇^ 3 4-004 3 2 1 = 9 9 6 9 1 3^-1^ Operation correction 27~73 value 1〇〇〇〇〇〇_9969 13 = 3 0 8 7 Round out result 2 7- 9 2. Dream of the 16th figure 'X-axis γ-axis z-axis multiplication circuit, the input is multiplied by hundreds of digits 2 8 - 0 3, tens digits 2 8 - 〇 2 1 〇〇 2195 kg single number A 〇 101 page 66 / Total 147 pages 1013138201-0 M431354 Number of bits 28 - 01 'Multiplied by hundreds of digits 28-13, tens digits 28 -1 2, single digits 28~~i 1, processed by single bit operation 2 8-51 The round result 2 8~91 and the carry processing 2 8-61, the carry value output connection line to the lower-bit is the carry value of the pure and addend input terminal 2 8 - 81, and the next original operation processing is performed, and the operation processing is exceeded. Control 28-71, the first multiplication value is added to the second bit multiplication value 2 8 - 5 2, and the second multiplication value is added to the third bit multiplication value 2 8-5 3 . Referring to Figure 16, the X-axis Y-axis Z-axis division circuit is divided by the input by hundreds of digits 2 9 - 0 3 , tens digits 2 9 - 0 2, single digits 29 - 01, subtraction ratio 29 - 51 multiplication output, one multiplication input except hundreds of digits 2 9 - 13, tens digit 2 9 - 12, single digit 2 9 - 11, input multiple 2 9 - 31 output result 29-91. [Simple description of the drawing] [0005] Figure 1 is a schematic diagram of the instant interactive 3D stereo imitation entertainment device. Figure 2 is a schematic diagram of the synchronous handheld device and the panoramic dream projector. Figure 3 is a schematic diagram of the creation of a 3D stereoscopic display and a 3D stereoscopic display. Figure 4 is a schematic diagram of a 3D stereoscopic display and a 3D stereoscopic naked-view display. Figure 5 shows the creation of a 3D stereo projector and a rotating liquid crystal. Figure 6 is a schematic diagram of the creation of a 3D stereoscopic multi-lens camera. Figure 7 is a schematic diagram of a 3D stereo multi-lens camera 3D stereo music robot. 10021951^^^^ Figure 8 Creating an X-axis Y-axis Z-axis line, X-drawing Y-sleeve Z-axis operation control A0101 Page 67 / 147 pages 1013138201-0 M431354 101. April 13th Nuclear replacement page core diagram . Figure 9 is a schematic diagram of the created touch display panel. Figure 10 Schematic diagram of the creation of 5 and 1 2 3 4 addition circuits. Figure 11 is a schematic diagram of the 5 and 1 2 3 4 subtraction circuits. Figure 12 Schematic diagram of the creation of 5 and 1 2 3 4 multiplication circuits. Figure 13 is a schematic diagram of the 5 and 12 3 4 division operation circuits. Figure 14 Schematic diagram of the integrated X-axis, Y-axis and Z-axis memory integration, addition, subtraction, multiplication and division, and multiple operation lines. Figure 15 is a schematic diagram of the creation of multiple computing circuits. Figure 16 is a schematic diagram of the circuit of adding, subtracting, multiplying and dividing the creation. β Figure 17 is a schematic diagram of the creation of the touch display panel. [Description of main component symbols] [0006] Combination Figure 1 - 11, 1 - 21, 1 - 31, 1 - 41, 2 - 111, 2-211, 2-311, 12-111 Fan 1 - 12, 1 - 13 Power Control 1_ 1 4 Disc 1 — 1 5 ^
; W 輸入輸出控制板1_16 3 D立體晶片1 -1 7 鏡頭1-22、1-23、1一24、1一25 3 D立體顯示器1- 2 6 道具1一 2 7 同樂機器人1 — 2 8 方向感應器2-1271、1 — 32、2 — 127、2 -227、2-327 重力感應器2-1281、1 — 33、2-128、2 10021951^^^^ Α〇101 ^ 68 I / ^· 147 1 1013138201-0 M431354 • , -228、2-328 感應器零件2_12 7 2 4、2- 1 2 8 2、2-零件1- 3 4、1-4 3 -121、12-122 4、1 2-12 5、1 2 2-131、12-13 4 1、12—1 5 1、1 觸控面板1_4 2 鲁 外殼2—112、2 — 1 3、2-312、2-3 觸控顯示面板2-121 2-222、2-321 USB2-123、2- 麥克風输入2 — 12 4、 1-341、11-44 制0八輸出2 — 1 2 5、2 • -3 42、11-442 控制按鍵2_12 6、2 前鏡頭2 — 131、2-後鏡頭2 — 13 2、2 — 閃光燈2 — 13 3、2-左右鍵盤2-3 41 液晶顯示器3-111、 -4 1 1、3-511、 1 '5-11 '5 — 21 .ίο ί年:〇 13日梭正_頁 2- 1 2 7 3、2-127 284 1- 44、1-4 5、12 12-12 3、12-12 12 6、12-12 7、1 、12-13 3、12 — 1 -16 1 3、2-212、2-21 3 2- 122、2-221、 2-3 2 2 2 3 ' 2-3 2 3 -224、2-3 2 4、1 225、 2-325、11 226、 2-326 31、2-3 31 3 2 '2-3 3 2 3 3、2-3 3 3 -211、3-311、3 -11、4-21、4-3 5-31、5-41、5 — 10021951#單編號 Α〇101 1013138201-0 第69頁/共147頁 M431354 101年.04月13日核正替换頁 51、5-61、8-11、15 — 1 1 液晶顯示器零件3 — 0 01、3-002、3 —003 、3-004、3—005、3-006、15-00 1、 15-003、15-004、15-005、3 -121、3-122、3-123、3-124、3 -125'3-126、3—127、3-221、3 -222'3-223'3-224'3-225'3 -226、3-227、3-321、3-322、3 -323、3-324、3-325、3—326、3 -327、3-421、3-422、3-423、3 · -424、3 — 425、3-426、3 — 427、3 -521'3-522、3-523、3-524、3 —525、3—526、3-527、6-32、6- 33、6-34、7-001、7-001、7-00 2、 7—003、7-004、7-005、7-00 6、7-007、7-008、7—009、8-21 、8-23、8-24、8-25、8-241、8- 2 5 1 ® 雙眼方向 4-12'4-22、4-32 投影機6-11、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 —1 24 3 6 0度旋轉顯示器7-11、7 —2 1 攝影鏡頭9—111、9-211、9一311、9-411、11-111、11-211 10021951# 單编號 A〇101 1013138201-0 第70頁/共147頁 M431354 10Ϊ年04启13日修正替換頁 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、9-233、9-234、9-321、9. -331、9-332、9-333、9-334、9 -421、9-431、9-432、9-433、9 -4 34 攝影焦點9-511、11—511W Input/Output Control Board 1_16 3 D Stereo Chip 1 -1 7 Lens 1-22, 1-23, 1-24, 1-25 3 D Stereo Display 1 - 2 6 Props 1 - 2 7 Fun Robot 1 - 2 8 Direction sensor 2-1271, 1 — 32, 2 — 127, 2 -227, 2-327 Gravity sensor 2-1281, 1 — 33, 2-128, 2 10021951^^^^ Α〇101 ^ 68 I / ^· 147 1 1013138201-0 M431354 • , -228, 2-328 Sensor parts 2_12 7 2 4, 2- 1 2 8 2, 2 - 1 - 3 4, 1-4 3 -121, 12-122 4,1 2-12 5,1 2 2-131,12-13 4 1、12—1 5 1、1 Touch panel 1_4 2 Lu shell 2—112, 2 — 1 3, 2-312, 2-3 Touch display panel 2-121 2-222, 2-321 USB2-123, 2-microphone input 2 — 12 4, 1-341, 11-44 system 0 eight output 2 — 1 2 5, 2 • -3 42, 11-442 Control button 2_12 6、2 Front lens 2 — 131, 2- Rear lens 2 — 13 2, 2 — Flash 2 — 13 3, 2 - Left and right keyboard 2-3 41 LCD monitor 3-111, -4 1 1 , 3-511, 1 '5-11 '5 — 21 . ίο ί: 〇13日梭正_Page 2 - 1 2 7 3, 2-127 284 1- 44, 1-4 5, 12 12-12 3,12-12 12 6,12-12 7,1,12-13 3,12 — 1 -16 1 3,2- 212, 2-21 3 2- 122, 2-221, 2-3 2 2 2 3 ' 2-3 2 3 -224, 2-3 2 4, 1 225, 2-325, 11 226, 2-326 31 , 2-3 31 3 2 '2-3 3 2 3 3, 2-3 3 3 -211, 3-311, 3 -11, 4-21, 4-3 5-31, 5-41, 5 — 10021951 #单编号Α〇101 1013138201-0 Page 69 of 147 M431354 101.04.13 Nuclear replacement page 51, 5-61, 8-11, 15 — 1 1 LCD parts 3 — 0 01, 3-002, 3—003, 3-004, 3-005, 3-006, 15-00 1, 15-003, 15-004, 15-005, 3-121, 3-122, 3-123, 3 -124,3 -125'3-126, 3-127, 3-221, 3-222'3-223'3-224'3-225'3-226, 3-227, 3-321, 3-322 , 3 - 323, 3-324, 3-325, 3-326, 3-327, 3-421, 3-422, 3-423, 3 · -424, 3 - 425, 3-426, 3 - 427, 3 -521'3-522, 3-523, 3-524, 3-525, 3-526, 3-527, 6-32, 6-33, 6-34, 7-001, 7-001, 7- 00 2, 7-003, 7-004, 7-005, 7-00 6, 7-007, 7-008, 7-009, 8-21, 8-23, 8-24, 8-25, 8- 241, 8-2 5 1 ® Eye direction 4-12'4-22, 4-32 Projector 6-11, 6-21, 6-31, 13-111 Projector parts 6 — 12, 6 — 1 3, 6-14, 6-15, 6-16, 6-17, 13-121, 13-122, 13-1 23, 13 — 1 24 3 6 0 degree rotating display 7-11, 7 — 2 1 Photography Lens 9-111, 9-211, 9-311, 9-411, 11-111, 11-211 10021951# Single No. A〇101 1013138201-0 Page 70 of 147 M431354 10Ϊ年04启13日修正Replacement page 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, 9-421, 9-431, 9-432, 9-433, 9 -4 34 Photography Focus 9-511, 11-511
攝影中心點9-512、9—513、11—512、 11-513 多攝影鏡頭10—11、10-21、10—31、1 0-4 1 擬人機器人11-311、11—411 擬人機器人零件11—321、11-421 擬人機器人鏡頭11—331、11-431 影鏡頭連動軸11_4 21Photography Center Points 9-512, 9-513, 11-512, 11-513 Multiple Photographic Lens 10-11, 10-21, 10-31, 1 0-4 1 Anthropomorphic Robots 11-311, 11-411 Anthropomorphic Robot Parts 11-321, 11-421 Anthropomorphic robot lens 11-331, 11-431 Shadow lens linkage axis 11_4 21
間隔感光攝影儲存13-211、13 — 221'13 -2 2 2 ' 13-223 X軸Υ軸Ζ軸電子線路14-111、14-211、 14—311 X轴Υ軸Ζ軸電子線路掃描線14—212、14一2 13、14-214、14—215、14—216、 14 — 315、14-316、9-148 X軸Υ軸Ζ軸電子線路電晶體14—314、24—2 23、24-224、26-223、26-224、 2195#單编號 Α〇101 1013138201-0 第71頁/共147頁 M431354 ° 101年.04月13日修正替換頁 9-143、9-144、9-145 X轴Y轴Z轴電子線路輸入訊號14 _ 312、24 — 221'9-149 X軸Y軸Z軸電子線路輸出訊號14—313、24— 2-2 2 ' 9 - 1 4 9 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 X軸Y軸Z軸加法運算電路16—111、16-11 · 2、16 —113、16 — 114、26-01、26 -02、26-03、26-11、26-12、26 -13、26-51、26-61、26-71、26 一81、26_91 X軸Y軸Z軸減法運算電路17—111、17-11 2、17-113、17-114、27-01、27 -02、27-03、27-11、27-12、27 -13'27-51、27-61、27-71、27 · -72、27-73、27-81、27-91、27 -9 2 X軸Y軸Z軸乘法運算電路18 — 111、18—11 2、18-113、18-114、28-01、28 -02、28-03、28-11、28-12、28 -13、28—51、28-52、28-53、28 -6 1'2 8-7 1'2 8-8 1 '2 8-9 1 X轴Y軸Z軸除法運算電路19-111、19一21 10021951#單编號 A〇101 1013138201-0 第72頁/共147頁 M431354 101年.04月i3日按正_頁 1、19 — 212、29-01、29-02、29 — 03 '29-11 '29-12' 2 9-13'29-3 1 ' 2 9-51 ' 29-91 X軸Y軸Z軸記憶體整合加減乘除線路24—111 X軸Y軸Z軸記憶體多重運算線路24 — 21 1、2 6 -2 11 X軸Y軸Z軸運算控制核心2 5 — 01、2 5_11、 25-12、25-13、25-14、25-15、 25-16、25-21、25-22、25-23、 25-24、25-25、25—26、25-31、 25-32'25-41'25-42 10021951^^ A0101 第73頁/共147頁 1013138201-0Interval photographic storage 13-211, 13 — 221'13 -2 2 2 ' 13-223 X-axis Υ axis 电子 axis electronic circuit 14-111, 14-211, 14-311 X-axis Υ axis 电子 axis electronic circuit scanning line 14-212, 14-2, 13-, 14-214, 14-215, 14-216, 14-315, 14-316, 9-148 X-axis Υ-axis Ζ axis electronic circuit transistor 14-314, 24-2 23 , 24-224, 26-223, 26-224, 2195#单号Α〇101 1013138201-0 Page 71 of 147 pages M431354 ° 101 years. April 13 revision replacement page 9-143, 9-144 , 9-145 X-axis Y-axis Z-axis electronic line input signal 14 _ 312, 24 — 221'9-149 X-axis Y-axis Z-axis electronic line output signal 14-313, 24- 2-2 2 ' 9 - 1 4 9 touch display panel scan line 15-12, 15-122 touch display panel parts 15-111, 15-211, 15-123, 15-124, 15-221, 15-22 2'15-223, 15- 224 X-axis Y-axis Z-axis addition circuit 16-111, 16-11 · 2, 16-113, 16-114, 26-01, 26 -02, 26-03, 26-11, 26-12, 26 - 13, 26-51, 26-61, 26-71, 26-81, 26_91 X-axis Y-axis Z-axis subtraction circuit 17-111, 17-11 2, 17-113, 17-114, 27-01, 27 -02, 27-03, 27-11, 27-12, 27 -13'27-51, 27-61, 27-71, 27 · -72, 27-73, 27-81, 27-91, 27 -9 2 X-axis Y-axis Z-axis multiplication circuit 18 — 111, 18—11 2, 18-113, 18-114, 28-01, 28 -02, 28-03, 28-11, 28-12, 28-13, 28-51, 28-52, 28 -53,28 -6 1'2 8-7 1'2 8-8 1 '2 8-9 1 X-axis Y-axis Z-axis division operation circuit 19-111, 19-21 10021951#单号A〇101 1013138201 -0 Page 72 of 147 M431354 101. 04 i3 Press _ Page 1, 19 — 212, 29-01, 29-02, 29 — 03 '29-11 '29-12' 2 9- 13'29-3 1 ' 2 9-51 ' 29-91 X-axis Y-axis Z-axis memory integration addition, subtraction, multiplication and division line 24-111 X-axis Y-axis Z-axis memory multiple operation line 24 — 21 1, 2 6 -2 11 X-axis Y-axis Z-axis operation control core 2 5 — 01, 2 5_11, 25-12, 25-13, 25-14, 25-15, 25-16, 25-21, 25-22, 25-23, 25-24, 25-25, 25-26, 25-31, 25-32'25-41'25-42 10021951^^ A0101 Page 73 of 147 1013138201-0
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TW100219518U TWM431354U (en) | 2011-10-18 | 2011-10-18 | Real-time interactive 3D stereo emulation entertaining device |
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TWM431354U true TWM431354U (en) | 2012-06-11 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110441498A (en) * | 2019-04-29 | 2019-11-12 | 贵阳学院 | A kind of rotary type 180 degree line holographic projections showcase |
TWI809412B (en) * | 2015-11-03 | 2023-07-21 | 新加坡商雷蛇(亞太)私人有限公司 | Control methods, computer-readable media, and controllers |
-
2011
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI809412B (en) * | 2015-11-03 | 2023-07-21 | 新加坡商雷蛇(亞太)私人有限公司 | Control methods, computer-readable media, and controllers |
US11991807B2 (en) | 2015-11-03 | 2024-05-21 | Razor (Asia-Pacific) Pte. Ltd. | Control methods, computer-readable media, and controllers |
CN110441498A (en) * | 2019-04-29 | 2019-11-12 | 贵阳学院 | A kind of rotary type 180 degree line holographic projections showcase |
CN110441498B (en) * | 2019-04-29 | 2022-04-29 | 贵阳学院 | Rotary 180-degree holographic projection display cabinet |
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