200839584 九、發明說明: 【發明所屬之技術領域】 本發明係與電子t置之指令輪人— 要接觸電子裝置之非接戦手_衫統。_是_—種不需 【先前技術】 許多高性能之電子產品,係例如筆記型動個 人數位助理陶、全球_航印G丨。 ¥___ __「)㈣顺電子裝置,都 了以供使財隨身縣,並於刊場合妨操作使用。 然而,由於上述可«電子裝置,例如行動驗轉航裝置, 在·者駕料使时對行車安全造錢#。_是在點選、輸 入心令時,使用者必紐細接射攜式電子裝置的操作介 面’例如按鍵、導航鍵、或是面板。在這種操作姿勢下非常 不利於同時操作汽車,也容易使汽車駕駛的視線長時間遠離道 ^,以辨識面積過小賴作介面触。但是道路法規僅禁止汽車 駕駛使用行_話,沒有關汽料駛使職他的電子裝置,例 如導航裝置’因此操作行動電話以外的電子裝置仍會對—般汽車 4驶產生型車上的威脅。 特別是,具備多功能之可攜式電子裝置,例如個人數位助理 全球定位導航裝置所提供之操縱介面通常是較複雜的,使用者往 200839584 · 往必須-手持握裝置,另一手進行操控,並在複雜的介面選單中 找出需要的功能指令。這種狀況更不利於行車過程裝中進行操200839584 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a command wheel person with an electronic t-contact to the electronic device. _Yes _- Kind does not need [Prior Art] Many high-performance electronic products, such as notebooks, a number of assistants, and global _Airprint G丨. ¥___ __") (4) Shun electronic devices, all of which are used to make the money with the county, and can be used in the publications. However, due to the above-mentioned electronic devices, such as the operation of the transshipment device, For driving safety, make money. _ is the operating interface of the portable electronic device, such as buttons, navigation keys, or panels, when clicking and inputting the heart command. In this operation posture, it is very It is not conducive to operating the car at the same time, and it is easy to make the car's line of sight away from the road for a long time, in order to identify the area too small to be the interface. However, the road regulations only prohibit the use of the car driving, and there is no electronic driving to drive his electronic Devices, such as navigation devices, so that electronic devices other than mobile phones will still pose a threat to the car. In particular, portable electronic devices, such as personal digital assistants, global positioning navigation devices The manipulating interface provided is usually more complicated, and the user must go to the holding device at 200839584, hold the device with the other hand, and manipulate the other hand, and find out the need in the complicated interface menu. The required function instructions. This situation is more detrimental to the operation of the driving process.
、’控’且雜輯齡域方式,彳維讓制者行車時分心而發生 _ 危險。 X 【發明内容】 雲於以上關題’本發_目的在於提供—種操控便利且不 _需持握之非接觸式手指操控系統,用以提供使用者在行車時對於 多功能之電子裝置之—種安全便狀雛方法,崎決習知複雜 之操控介面及手持式操控電子裝置所造成的不便。 為達到以上所述之目的.,本發明揭露一種非接觸式手指操控 系統’其包括有-指套及一主裝置。指套具有一本體、一加速度 感應器及一訊號發送端,本體係用以固定於一使用者之手指,而 ^隨手指之運動產生隨時間變化之一加速度及-運動方向。加速度 感應器係設置於本體中,用以僅測本體之加速度及運動方向而輸 出-運動參數。訊號發送端錢置於本财並電性連接於加速度 感應器,透過-無線通訊協定傳送運動參數。主裝置包含有一訊 -號接收端、-控制單元及-資料庫,其中訊號接收端透過無線通 -訊龄接收運動參數。控制單元侧以接受運動參數,並將不同 時刻取樣之該運動參數結合為—運動參數集合,並執行—模糊比 對程序’由資料庫擷取符合運動參數集合之一預設參數集合,並 200839584 執行對應般麵集合錢触令。藉此,使 觸主裝m糊㈣特 執&要直接接 就可以使主裝置執行特定的執行指令。動軌跡(操作姿勢), 透過本㈣顺供之轉觸式手錄,朗 接觸主裝置,㈣恤如搜瓣幅群,僅需以 手才日做出手指運動軌跡,就可以 狀 執杆幻1 + U &置翻舰場及程式 執仃輪作。由_控方式係為非_式操控,因此,使用者不 力需要改變身鮮勢妓味线置騎單介面,耻適合供汽車 馬駛於订料使用。同樣地,也適合進行簡報者在簡報過程中使 用亦即’簡報者不需要中斷簡報過程操作電腦等主裝置,就可 以透過手指擺動來切換簡報軟體。 以上之_本發_容之綱及以下之實财式之說明係用 •以不祀與轉本發日月之原理,並且提供本發明之專利申請範圍更 進一步之解釋。 【實施方式】 為使對本發明的目的、構造、特徵、及其功能有進一步的瞭 解,絲配合貫施例詳細說明如下。 首先’請參照「第1A圖」及「第1B圖」所示,本發明第一 貫施例所揭露之非接觸式手指操控系統100,其包含有一指套110 及一主裝置120,其中,主裝置12()係首先以一全球定位導航裝 200839584 置(Global Positioning System Navigator,GPS Navigator)為例, 然而,本發明並不僅限定於使用於GPS,亦可應用於個人電腦、 數位個人助理(PDA)及手機等各式電子裝置中。 參照「第1A圖」、「第1B圖」及「第2A圖」所示,指套11〇 具有一本體111,且本體具有一套孔112,用以套設於使用 者之手指101,以將本體111固定於手指。當手指1〇1產生一空 φ 間中的運動時,指套110之本體111係隨手指101之運動而產生 隨時間變化之一加速度及一運動方向。 麥閱「第2A圖」所示,指套110更具有一加速度感應器114、 一訊號發送端116及一啟動按鈕118。加速度感應器114係設置 於本體114中,而啟動按鈕118係設置於本體川表面,並電性 連接於加速度感應器114。其中啟動按鈕118係用以被按壓而啟 動加速度感應器114作動,使被啟動之加速度感應器114可用以 偵測運動中本體111之加速度及運動方向,並且依據所偵測之加 速度及運動方向產生並輸出一運動參數。訊號發送端116則設置 於本體中並電性連接於加速度感應器114,用以接收加速度感應 〜 器n4所輸出之運動參數,並透過無線通訊將運動參數傳送出 去。其中,本實施例中之無線通訊係可為一藍芽(BlueT〇〇th)無線 通訊、一無線網路通訊、一射頻通訊或一紅外線無線通訊等。當 使用者以指套110完成手指運動的動作後,可放開啟動按鈕118, 200839584 此B守加速度感應器114便會被關閉而停止輸出運動參數。 參閱「第2A圖」所示,主裝置12〇具有一訊號接收端122、 ' —控制單元124、—資料庫126、及-顯示單it 13G,其中,控制 ' 單元124係電性連接至訊號接收端!22、資料庫126及顯示單元 130,且控制單元124中更包含有一比對模組128。訊號接收端a] 透過與訊號發送端116所設定相同之無線通訊協定,而接收自訊 • 號發送端116所發送之運動參數,並傳送至控制單元m。而控 制單元124接收此運動參數’並將不同時刻取樣之運動參婁丈結合 為一運動參數集合。 主衣置120之資料庫126,係用以儲存複數個預設參數集合 以及各個預設參數集合所對應之執行指令。因此,當控制單元以 產生-運動茶數集合後,會透過其内部之比對模組對資料庫 ^ 126内育料執行一模糊比對程序’以擷取與運動參數集合符合之 預設參數集合’並且再藉由控制單元124執行相符合之預設參數 集合所對狀執行齡。於朗時,在控制單元124產生運動表 數集合後,可將所產生之運動參數集合傳送並顯示於顯示料 130,以供使用者確認所輸入的手指運動軌跡。 接著㈤荟閱「第2B圖」所示,係為本發明第二實施例之 非接觸式手指操控系統的系統方塊圖。本發明之第二實施例與第 -實施例之顧及結敎致上相同,而其主要差異紐本發明第 200839584 二實施例,非接觸式手指操控系統200之指套11()中,啟動按鈕 118a不電性連接於加速度感應器114,而電性連接於訊號發送端 116,用以被按壓而啟動訊號發送端116作動。當手指1〇1套入指 套11〇,產生一空間上的運動,則致能加速度感應器114,並且藉 由加速度感應裔114產生^一運動爹數後’啟動按紐1可被按壓 啟動訊號發送端116,使訊號發送端116以發送運動參數。, 'control' and miscellaneous age mode, 彳 让 let the system distracted when driving _ dangerous. X [Summary of the Invention] The cloud is in the above-mentioned topic. The purpose of the present invention is to provide a non-contact finger control system that is convenient to operate and does not need to be held to provide a user with a multi-function electronic device while driving. A safe and easy-to-use method that satisfies the inconvenience caused by complex control interfaces and hand-held control electronics. To achieve the above objects, the present invention discloses a non-contact finger manipulation system that includes a finger-finger and a main device. The finger sleeve has a body, an acceleration sensor and a signal transmitting end. The system is fixed to a user's finger, and the acceleration and the moving direction of the finger change with time. The acceleration sensor is disposed in the body to measure the acceleration and the direction of motion of the body and output the motion parameters. The signal sender is placed in the money and electrically connected to the acceleration sensor to transmit the motion parameters through the wireless communication protocol. The main device comprises a signal receiving end, a control unit and a data base, wherein the signal receiving end receives the motion parameter through the wireless communication terminal. The control unit side accepts the motion parameters, and combines the motion parameters sampled at different time points into a motion parameter set, and executes a - fuzzy comparison program' to retrieve a preset parameter set corresponding to one of the motion parameter sets by the database, and 200839584 Execute the corresponding general collection of money. In this way, the master device can be directly connected to the main device to execute a specific execution command. The trajectory (operating position), through the (four) accommodating the touch-sensitive hand recording, the lang touches the main device, and the (four) shirt, such as the search flap group, only needs to make the finger movement trajectory by the hand, so that the illusion can be manipulated. 1 + U & set the shipyard and the program to perform the rotation. The _ control mode is non- _ type control, therefore, the user does not need to change the body and the odor line to ride the single interface, shame is suitable for the car to drive on the order. Similarly, it is also suitable for the briefing person to use in the briefing process, that is, the presenter can switch the presentation software by finger swing without interrupting the briefing process to operate the main device such as a computer. The above description of the present invention is based on the principle of the present invention, and further explains the scope of the patent application of the present invention. [Embodiment] In order to further understand the object, structure, features, and functions of the present invention, the wire fitting embodiment will be described in detail below. First, the non-contact finger control system 100 disclosed in the first embodiment of the present invention includes a finger sleeve 110 and a main device 120, wherein, as shown in FIG. 1A and FIG. The main device 12 () is firstly exemplified by a Global Positioning System Navigator (GPS Navigator). However, the present invention is not limited to use in GPS, but can also be applied to a personal computer or a digital personal assistant ( PDA) and mobile phones and other electronic devices. Referring to "1A", "1B" and "2A", the finger sleeve 11 has a body 111, and the body has a set of holes 112 for being sleeved on the user's finger 101. The body 111 is fixed to the finger. When the finger 1〇1 produces a motion between the spaces φ, the body 111 of the finger cuff 110 produces an acceleration with time and a direction of motion as the finger 101 moves. As shown in FIG. 2A, the finger sleeve 110 further has an acceleration sensor 114, a signal transmitting end 116 and a start button 118. The acceleration sensor 114 is disposed in the body 114, and the activation button 118 is disposed on the surface of the body and electrically connected to the acceleration sensor 114. The activation button 118 is used to be activated to activate the acceleration sensor 114, so that the activated acceleration sensor 114 can be used to detect the acceleration and the moving direction of the moving body 111, and generate the acceleration and the moving direction according to the detected acceleration and motion direction. And output a motion parameter. The signal transmitting end 116 is disposed in the body and electrically connected to the acceleration sensor 114 for receiving the motion parameters output by the acceleration sensor n4, and transmitting the motion parameters through wireless communication. The wireless communication system in this embodiment may be a Bluetooth wireless communication, a wireless network communication, a radio frequency communication, or an infrared wireless communication. After the user completes the finger movement with the finger cuff 110, the start button 118 can be released, and the B-sense acceleration sensor 114 will be turned off to stop outputting the motion parameters. Referring to FIG. 2A, the main device 12A has a signal receiving end 122, a control unit 124, a data base 126, and a display unit it 13G, wherein the control unit 124 is electrically connected to the signal. Receiving end! 22. The database 126 and the display unit 130, and the control unit 124 further includes a comparison module 128. The signal receiving end a] receives the motion parameter sent by the signal transmitting end 116 through the same wireless communication protocol as that set by the signal transmitting end 116, and transmits the motion parameter sent by the signal transmitting end 116 to the control unit m. The control unit 124 receives the motion parameter 'and combines the motion samples sampled at different times into a motion parameter set. The library 126 of the main clothes set 120 is configured to store a plurality of preset parameter sets and execution instructions corresponding to the preset parameter sets. Therefore, when the control unit generates a set of motion tea numbers, a fuzzy comparison program is executed through the internal comparison module to the breeding in the database 126 to capture the preset parameters in accordance with the motion parameter set. The set is 'and then executed by the control unit 124 to perform the matching of the set of preset parameters. In the Lang time, after the control unit 124 generates the motion table set, the generated motion parameter set can be transmitted and displayed on the display material 130 for the user to confirm the input finger motion track. Next, (5) a system block diagram of a non-contact finger manipulation system according to a second embodiment of the present invention, as shown in "B2B". The second embodiment of the present invention is the same as the first embodiment, and the main difference is the invention. In the second embodiment of the invention, the second embodiment of the non-contact finger control system 200, the start button 118a is electrically connected to the acceleration sensor 114, and is electrically connected to the signal transmitting end 116 for being pressed to activate the signal transmitting end 116 to operate. When the finger 1〇1 is inserted into the finger sleeve 11〇 to generate a spatial motion, the acceleration sensor 114 is enabled, and after the acceleration sensor 114 generates a motion number, the “start button 1 can be pressed and activated. The signal transmitting end 116 causes the signal transmitting end 116 to transmit motion parameters.
此外,本發明第二實施例中,主裝置120所具有之比對模組 128a不設置於控制單元124中,而獨立設置於主裝置12〇上並分 別電性連接於控制單元124及資料庫126。因此,當控制單元124 接收到運動參數轉換成運動參數集合後,戦透電性連接 之比對模組128a至資料庫126巾娜與運動參數集合相符合之預 設參數集合及崎紅騎齡,並騎料駐控制單元 124 〇 接者’本發明以應用於一全球定位導航裝置為例,來加以羁 不本發明之非接觸式手指操控系統勘所帶來便利操控的優點。 當-使用者於駕驶車輛時,其所具備〇魏導練置亦處於_ 導航模式’而制者僅需將手指套人指套並透過㈣之手指運鸯 執跡即可科綠置進行_歧狀賴式,私「第3, 圖、」至「第3F圖」柄。她言,當繼生-如L _ 心運動執跡1仏如「WA圖」獅,财航裝置巾之控制單天 200839584 曰自貞料庫I26巾棘補合之預設運動祕及其所對應之 ^订心令’而於此實_巾,手指運純跡132a所娜之執行指 =以使於導綠叙導航裝置狀纖行—記事本功能程式。 田手Is產生—如反L狀之手指運動執跡^挪如「第圖」所 示’則可以使於導航模式之導航裝置開啟-計算機程式。當手指 產生-如三角形狀之手指運動轨及略如「第冗圖」所示,則 #可以使導般模式之導航裝置開啟一錄音功能。當手指產生一如圓 職之手指運動執及咖如「第3D圖」所示,則可以使於導航 模式之導航裝置職-刚播放程式。#手指產生—如z狀之手 ‘運動軌及132e如「第3E圖」所示,則可贿於導航模式之導 航裳置開啟—聲音大小調整程式。又當手指產生-如V狀之手指 運動軌及132f如「第3F圖」所示,則可以使於導航模式之導航 馨 裝置結束其導航模式。 」而本㈣並不僅限定於上述實施财,本發明之非接觸 式手指操控系統更可應用而比擬為一非接觸式之手寫輸入的筆劃 移動操控,或比擬為一無線滑鼠之游標操控等。 另外,請再翔「第1B圖」所示,本發明之非接觸式手指 胁系統中,指套110之本體ln上,更可於其前端設置一雷射 才曰不益119 ’而雷射指示器、119可被手指開啟以投射一雷射光束 以形成-投射光點,提供使用者於會議中或簡報中所需之雷射光 11 200839584 束指不功能。 此外’請參閱「第4圖」所示,係為本發明之非接觸式手指 操控方法之流程圖。本發明之非接觸式手指操控之方法,係首先 共一加速度感應器114,並且將加速度感應器114設置於使用 者之一手指101上(步驟200)。 接著,啟動加速度感應器114,並且藉由手指101產生一空 • 間上的移動,並且於一偵測時段後關閉加速度感應器1H(步驟 210)。因此,設置於手指101上之加速度感應器114會與手指同 步移動於空間中,使得加速度感絲114會在侧時段_測使 :者之枝所成產生的-加速度及—運動方向,並且轉換成 一運動參數而輸出(步驟娜。並且由—鱗通絲傳輸運動 參數。 接者’提供-主袭置120,並且使主裝置120藉由同樣贫 1通訊來接_參__錄是_觀生,並且 、動參數被產生時,則將 _ 將不叫刻取樣之運動參數結合為-運 翏數集合(步驟230)。 以主裝置12G執行—模糊比 刹π王斤且百先進入一偵测時 王序,判斷偵蜊時段時 一 否,_、,+ 了货大於取小偵測時段(步驟240)。: r . 小偵測%段,則主裝置120會停止執, 輪糊比對程序,並輪出 木作錯从不(步驟250);若是,則主〗 200839584 =會再進入一判斷程序,即判斷資料庫以中是否具備符合 運動翏數集合之微參數齡(轉細)。 爭/J斷私序中’右貧料庫126中不具備符合運動參數集合之 ^數集合,_置停止__序,並且輸出—辨識錯 本备明所提供之雜觸式手指操控祕⑽,使用者不需要 接觸主裝置,也不需要由絲置巾搜尋f要的介面群,僅需以 手指做出手指運祕跡,就可輯作主裝置達到魏切換及程式 執行等操作。由於操控方式係為非接觸式操控,因此,使用者不 力需要改變身體姿勢献減絲置的群介面,適合供汽車 鲁馬馼於行車時使用。同樣地,也適合進行簡報者在簡報過程中使 ^=步_);妓,_統會自_ 126中擷取符合運動 翏數集合之—預設參數集合,並依據預設參數集合擷取—對應之 執行指令(步驟280) ’最後則執行此—執行指令(步驟29〇)。〜 用亦即,簡報者不需要中斷簡報過程操作電腦等主裝置,就可 以透過手指擺動來切換簡報軟體。 雖然本發明以前述之實施例揭露如上,然其並非用以限定本 發明。在不脫離本發明之精神和範圍内,所為之更動與潤飾,均 屬本發明之專利保護範圍。關於本發明所界定之保護範圍請參考 所附之申請專利範圍。 【圖式簡單說明】 13 200839584 第1A圖係為本發明之非接觸式手指操控系、統之示惫圖· 弟1B圖係為本發明之非接觸式手指操控系统中指套之放 大示意圖; 第2A圖係為本發明第一實施例之非接觸式手指操控系統 的系統方塊圖; w 第2B圖係為本發明第二實施例之非接觸式手指操控系矣 的系統方塊圖; 第3A圖第3F圖係為以全球定位導航裝置為例之操作禾 意圖;以及 ’、 第4圖為本發明之錢觸式手指操㈣統方法之流程圖。 【主要元件符號說明】 100、200 非接觸式手指操控系統 101 手指 110 指套 111 本體 112 套孔 114 加速度感應器 116 訊號發送端 118、118a 啟動按鈕 119 雷射指示器 200839584 120 主裝置 122 訊號接收端 124 控制單元 126 資料庫 128、128a 比對模組 130 顯示單元 132a、132b、132c、132d、123e、132fIn addition, in the second embodiment of the present invention, the matching module 128a of the main device 120 is not disposed in the control unit 124, but is separately disposed on the main device 12 and electrically connected to the control unit 124 and the database respectively. 126. Therefore, when the control unit 124 receives the motion parameter and converts it into the motion parameter set, the comparison between the module 128a and the database 126 is matched with the motion parameter set and the safari aging age is met. And the riding station control unit 124 splicer's invention is applied to a global positioning navigation device as an example, so that the non-contact finger manipulation system of the present invention has the advantage of convenient handling. When the user is driving the vehicle, the 〇 导 导 亦 亦 亦 亦 亦 亦 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而 而Disambiguation, private "3rd, map," to "3F map" handle. She said that when the birth--such as L _ heart movements, such as the "WA map" lion, the control of the financial device wipes a single day 200839584 曰 贞 I I I I I I I I I Corresponding to the 'Order of the Heart' and the actual implementation of the towel, the fingers of the pure trace 132a of the implementation of the finger = to guide the green navigation device - the Notepad function program. The field hand Is generated - such as the anti-L-shaped finger movement track ^ move as shown in the "Figure" can enable the navigation mode navigation device to open - computer program. When the finger produces - such as a triangular shaped finger motion track and slightly as shown in the "Redundancy Diagram", # can enable the navigation device of the general mode to turn on a recording function. When the finger produces a finger movement and the coffee is as shown in the "3D", the navigation device can be used in the navigation mode. #手指产生—————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————— When the finger is generated - such as a V-shaped finger, the motion track and 132f, as shown in "3F", can cause the navigation mode navigation device to end its navigation mode. The present (4) is not limited to the above-mentioned implementation, and the non-contact finger control system of the present invention is more applicable and is equivalent to a non-contact handwriting input stroke movement control, or a cursor control of a wireless mouse, etc. . In addition, in the non-contact finger-threat system of the present invention, the body of the finger sleeve 110 can be placed on the body ln of the finger sleeve 110, and a laser can be disposed at the front end thereof. The indicator, 119 can be turned on by a finger to project a laser beam to form a projected spot, providing the laser light 11 required by the user during a meeting or briefing. In addition, please refer to the "Fig. 4", which is a flow chart of the non-contact finger manipulation method of the present invention. The method of non-contact finger manipulation of the present invention first shares an acceleration sensor 114 and sets the acceleration sensor 114 on one of the fingers 101 of the user (step 200). Next, the acceleration sensor 114 is activated, and an empty movement is generated by the finger 101, and the acceleration sensor 1H is turned off after a detection period (step 210). Therefore, the acceleration sensor 114 disposed on the finger 101 will move in the space synchronously with the finger, so that the acceleration sensing wire 114 will be in the side period _ _ _ _ _ _ _ _ _ _ Outputs into a motion parameter (step Na. and transmits the motion parameters by the scales. The receiver provides - the main attack 120, and causes the main device 120 to receive by the same lean 1 communication _ _ _ _ _ view When the health parameter is generated, the motion parameter of the non-sampling sample is combined into a set of the operation number (step 230). The main device 12G is executed - the blur ratio is π Wang Jin and the first one enters one. When detecting, Wang Xu, when judging the detection period, is _, +, the goods are larger than the small detection period (step 240).: r. Small detection % segment, the main device 120 will stop executing, the wheel paste Compare the program, and turn the wood out of the wrong (step 250); if it is, then the main〗 200839584 = will enter a judgment program, that is, determine whether the database has the micro-parameter age that meets the set of motion parameters (turn Fine). Controversy / J break private order in the 'right poor library 126 does not have a match The set of parameters of the set, the _ stop __ sequence, and the output - identify the error provided by the miscellaneous finger manipulation secret (10), the user does not need to touch the main device, nor need to search for f If you want to use the finger to make a finger movement, you can edit the main device to achieve Wei switching and program execution. Since the control method is non-contact control, the user is not able to change the body posture. The group interface for the reduction of the wire is suitable for use by the car Luma in the driving. Similarly, it is also suitable for the briefer to make ^=step_) in the briefing process; 妓, _ _ _ _ _ _ 126 The set of motion parameters—the set of preset parameters, and retrieved according to the preset parameter set—the corresponding execution instruction (step 280) 'The last is executed—the execution instruction (step 29〇). ~ Use, that is, the presenter can switch the presentation software by finger swing without interrupting the briefing process to operate the main device such as a computer. Although the present invention has been disclosed above in the foregoing embodiments, it is not intended to limit the invention. It is within the scope of the invention to be modified and modified without departing from the spirit and scope of the invention. Please refer to the attached patent application scope for the scope of protection defined by the present invention. [Simple description of the schema] 13 200839584 The first diagram is a non-contact finger control system of the present invention, and the diagram of the system 1B is an enlarged schematic view of the finger sleeve of the non-contact finger manipulation system of the present invention; 2A is a system block diagram of a non-contact finger manipulation system according to a first embodiment of the present invention; w 2B is a system block diagram of a non-contact finger manipulation system according to a second embodiment of the present invention; The 3F figure is an operation example of a global positioning navigation device; and FIG. 4 is a flow chart of the money touch finger operation method of the present invention. [Main component symbol description] 100, 200 Non-contact finger control system 101 Finger 110 Finger sleeve 111 Body 112 Nest hole 114 Acceleration sensor 116 Signal transmitting end 118, 118a Start button 119 Laser indicator 200839584 120 Main unit 122 Signal receiving End 124 Control Unit 126 Database 128, 128a Alignment Module 130 Display Units 132a, 132b, 132c, 132d, 123e, 132f
手指運動執跡Finger movement obstruction
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