201001237 九、發明說明: 【發明所屬之技術領域】 本發明係有關於-種觸碰式指向控制系統及方法,特 別是指-種具有簡易操作功能之觸碰式指向控制系統及方 法。 【先前技術】 由於電子產品的魏越來腦A,_者要操作這些 電子產品也絲越複雜,以傳_手持式電子裝置為例, 包括智慧型手機、PDA或是遙㈣,其操作枝主要是透 過輸入按_執行蚊之魏,但瞻電子產品的功能越 大需要的按鍵數量也越多,因此,很容易造成手持式電子 裝置的體積過大,而不符合一般消費者對於手持式電子裝 置輕'薄、乡a、小之要求,因此也越來越多的手持式電子 裝置採_碰式指向控制系統以取代或降低按鍵數量。 請參閱圖-所示,其係為習知技術之具有觸碰式指向 控制系=之手持式電子裝置i之系統架構圖,包括一榮幕 ^ ^向裝置14以及—觸碰式指向控制系統16,其中 ‘向裝置14係以游標形式呈現於螢幕12中,該觸碰式指 向控制系統16包括—移動感應器161、-指向控制模組 163 ^及一感應線圈165,該移動感應器161係為一影像 ^取單70 ’設置於該手持式電子裝置1表面並用以感應手 :的移動方向’該指向控制模組I63則是依據該移動感應 :丄61所感應到之手指移動方向,控制該指向裝置14在 机户12中進行同步且同向之移動’而感應線圈165則是 a移動感應器161之周圍’其主要目的在於開啟或關閉 201001237 該觸:式指向控㈣統i6之電源,達成節能目的。 控制子=習知技術之具有觸碰式指向 知,普1 19電子裝置1之外觀轉®。由圖中可 於手掊切動感應器161以及感應線圈165係設置 兮咸豳I裝置1的外側表面,當使用者利用手指碰觸 線圈165時,碰觸式指向控制系統16將被啟動, ^螢幕12中亦會出現指向裝置14之游標,此時,使用者 只要利用手縣移誠絲161上飾便可以達到控制 指向裝置14(或游標)移動之目的。 /然而,習知技術在操作上仍有不便之處,由於移動感 應器161之面積很小,使用者的手指每一次能夠在移動感 應器161上移動的距離很短,若使用者需要將螢幕12上 的游標移動較長的距離時,就必須不斷地來回撥動手指直 到游標移到目的地為止,造成使用者在操作上相當地不 便。 造成習知技術操作上不便的主要原因在於移動感應 器的面積太小,此外,當使用者的手指與移動感應器分離 之後,觸碰式指向控制系統也就停止控制指向裝置的移 動’因此’若能夠克服習知技術之觸碰式指向控制系統之 缺點,將使手持式電子裝置的操作更加方便。 【發明内容】 本發明之主要目的在於提供一種觸碰式指向控制系 統,該系統可以在手指與移動感應器分離之後,將指向裝 置控制在持續移動狀態,以提高手持式電子裝置操作上的 便利性。 201001237 本發明之另-目的在於提供一種觸碰式指向控制方 法’該方法可以在手指與移喊應n分離讀,將指向裳 置控制在持續移練態,以提高顿式電子裝置操作上的 便利性。 一為達壯述目的,本發明之觸碰式指向控制系統包括 一移動感絲、—指向㈣模組、-感絲®以及-邏輯 控制模組,其巾該移動感應器制喊應一手指在該移動 f應器的_方向,該躺控纖_爾祕動感應器 感應該手指的移動方向,並測-指向裝置進行同向且同 步移動’喊絲®係用喊賴手指是否翻該感應線 圈、接觸的次數和接_間隔,並輸出相義的訊號,而 該邏輯控制贱_錢_電性連結,並依據該感 應線圈^輸出之訊號控舰指向控概組進人待機狀態、 休眠狀態、移紐態以及賊義狀態。 邏輯控制模組控制指向控制模組的方法說明如下: a. 當該指向控概置在休眠雜τ,若域麟圈感應到 被該手指_,聰丨—第-峨至魏輯控賴組,再 由該邏輯控制模組將該指向控帝】裝置控制在「待機狀態」。 b. 當該指向控制裝置在待機狀態下,若該方向感測器感應 到該手指_動,職出—第二織至賴輯控制模組, ^由該邏輯控制模組將指向控制裝置控制在「移動狀 態」’此時指城置將隨著手指在方向上的移動方 向和距離,進行同步且同向的移動。 c. 當該指向控健置在移練態下,若娜域應器感應 201001237 到手指移動到偵測範圍的邊緣後,當手指移開偵測範圍且 未接觸感應線圈,則發出一第三訊號至該邏輯控制模組, 再由該邏輯控制模組將該指向控制裝置控制在「持續移動 狀態」,此時指向裝置將依照手指離開移動感應器之前的 移動速度和方向繼續移動。 d. 當該指向控制裝置在持續移動狀態下,若該移動感應器 感應到被該手指接觸感應線圈,則發出一第四訊號至該邏 輯控制模組’再由該邏輯控制模組將該指向控制裝置^制 在「待機狀態」,此時指向裝置將立即停止移動。 e. 當該感應線圈超過一段時間τ未感應到被該手指碰觸, 則發出一第五訊號至該邏輯控制模組,再由該邏輯控制模 組將該指向控制裝置控制在「休眠狀態」,達成節能目的。 ,使柄^之及精神能更進―步被揭示,兹配合 圖式作一詳細說明如後。 【實施方式】 請,關三所示,其係為本發明之觸 ί 3 一,包括一移動感應器31、-指向控: 、、 感應線圈%以及一邏輯控制模組37 ^ ίί器其3=似光學滑鼠, 移動感應器31的移動方向及速产,外 手指在該 控感應該手指的移動方向及速度,並 14、產受t向裝置4進行同向且同步移動,由於指向裝置 14通常會以游標形式出現在-絲12中,因此 之一較佳實施例中,於Α批在丨丨指^ 〇〇 本發月 同向且同$移7心向控制模組33將控制一游標進行 201001237 該感應線圈35係由通用輸入/輸出(GPI〇)所組成,其 可以感應該手指是否接觸該感應線圈35、手指接觸該感應 線圈35的次數以及接觸該感應線圈35的間隔並輪 出相對應的訊號至該邏輯控制模紐37。該邏輯控制模組 37則與該感應線圈35電性連結’並依據該感應線圈35 所輸出之訊號控制該指向控制模組33進入待機狀態、休 眠狀態、持續移動狀態以及移動狀態。 請參閱圖四Α所示,其係為本發明之觸碰式指向控制 系統應用於手持式電子裝置4之示意圖,其中手持式電子 裝置4具有-螢幕12 ’指向裝置μ之游標係呈現在螢幕 12中’而該移動感應器31與感應線圈35則是設於手持式 電子裝置4之外側表面。 請參閱圖四B所示,其係為本發日月之觸碰式指向 J置,用於遙控器41之示意圖,其中該遙控器41係用控 ^榮幕42,指向裝置14之游標係呈現在該遠端螢 ί ,而該移動感應器31與感應線圈35則是設於遙 控41之表面。 & 請參閱圖五A〜五E所示’其係為本發明利用邏輯控 制模組將指向控制模組控制在各種狀態之示意圖。 a.田該&向控缝置在休眠狀態下,若該感絲圈感應到 f亥手指刺,則發H贿賴㈣模組,再 由該邏輯㈣m_織向控雛置㈣在「 (如圖五A所示)。 控制裝置在待機狀態T,若該移動感應器感應 移動’則發出一第二訊號至該邏輯控制模組, 控制模組將該指向控制裝置控制在「移動狀 〜」 五8所示),此時指向裝置將隨著手指在方向感 201001237 測器上的移動方向和距離,進行同步且同向的移動。 C.當該指向控制裝置在移動狀態下’若該移動感應器感應 到手指移動到偵測範圍的邊緣後,當手指移開偵測範圍且 不接觸該感應線圈,則發出一第三訊號至該邏輯控制模 組’再由該邏輯控制模組將該指向控制裝置控制在「持續 移動狀態」(如圖五C所示),此時指向裝置將依照手指離 開移動感應器之前的移動速度和方向繼續移動。201001237 IX. Description of the Invention: [Technical Field] The present invention relates to a touch pointing control system and method, and more particularly to a touch pointing control system and method having a simple operation function. [Prior Art] As the electronic products of Wei Yue come to the brain A, the more complicated the operation of these electronic products is, the transmission of the handheld electronic device, including smart phones, PDAs or remote (four), its operation Mainly through the input press _ to execute the mosquito, but the greater the function of the electronic products, the more the number of buttons required, so it is easy to cause the handheld electronic device to be too large, and not in line with the general consumer for handheld electronic The device is light-thin, small, and small, so more and more handheld electronic devices are used to replace or reduce the number of buttons. Referring to the figure, which is a system architecture diagram of a handheld electronic device i with a touch pointing control system, including a glory device and a touch pointing control system. 16, wherein the device 14 is presented in the form of a cursor in the screen 12. The touch pointing control system 16 includes a movement sensor 161, a pointing control module 163 and an induction coil 165. The movement sensor 161 The image control unit I63 is disposed on the surface of the handheld electronic device 1 and is used to sense the moving direction of the hand: the pointing control module I63 is based on the movement sensing: the finger moving direction sensed by the 丄61, Controlling the pointing device 14 to synchronize and move in the same direction in the machine 12 'and the induction coil 165 is the periphery of the a moving sensor 161'. Its main purpose is to turn on or off the 201001237 touch: type pointing control (four) system i6 Power, to achieve energy-saving purposes. Control sub = know-how has a touch-point orientation, and the appearance of the electronic device 1 is changed to ®. The outer surface of the sputum sensor 1 and the induction coil 165 can be disposed in the figure, and when the user touches the coil 165 with the finger, the touch directional control system 16 will be activated. ^The cursor of the pointing device 14 also appears in the screen 12. At this time, the user can control the movement of the pointing device 14 (or the cursor) by using the hand-preserving chengshi 161. However, the conventional technique is still inconvenient in operation. Since the area of the motion sensor 161 is small, the distance that the user's finger can move on the motion sensor 161 each time is short, and if the user needs to display the screen When the cursor on 12 moves a long distance, it is necessary to constantly move the finger back and forth until the cursor moves to the destination, causing the user to be quite inconvenient in operation. The main reason for the inconvenience of the conventional technique is that the area of the moving sensor is too small. In addition, when the user's finger is separated from the moving sensor, the touch-pointing control system stops controlling the movement of the pointing device. If the shortcomings of the touch-sensitive pointing control system of the prior art can be overcome, the operation of the handheld electronic device will be more convenient. SUMMARY OF THE INVENTION The main object of the present invention is to provide a touch pointing control system that can control a pointing device to be continuously moved after a finger is separated from a moving sensor to improve the operation convenience of the handheld electronic device. Sex. 201001237 Another object of the present invention is to provide a touch pointing control method which can separate the reading from the finger and the shouting, and control the pointing to the continuous moving state to improve the operation of the electronic device. Convenience. For the purpose of succinctly speaking, the touch pointing control system of the present invention comprises a moving wire, a pointing (four) module, a sense wire®, and a logic control module, and the towel sensor should be a finger. In the direction of the moving device, the lying control sensor senses the moving direction of the finger, and the pointing-pointing device performs the same direction and synchronous movement. The induction coil, the number of contacts and the interval _ interval, and output a meaningful signal, and the logic control 贱 _ money _ electrical connection, and according to the signal output of the induction coil ^ control ship pointing control group into the standby state, Sleep state, shift state, and thief state. The logic control module controls the method of pointing to the control module as follows: a. When the pointing control is placed in the sleep τ, if the domain lining senses the finger _, the 丨 丨 第 第 第 魏 魏 魏 魏 魏Then, the logic control module controls the pointing device to "standby state". b. When the pointing control device is in the standby state, if the direction sensor senses the finger movement, the second control to the control module, ^ is controlled by the logic control module to the control device In the "moving state", the city will move in the same direction and direction as the finger moves in the direction and distance. c. When the pointing control is placed in the traversing state, if the horn sensor senses 201001237 until the finger moves to the edge of the detection range, when the finger moves away from the detection range and does not touch the induction coil, a third is issued. The signal is sent to the logic control module, and the logic control module controls the pointing control device to "continuously move state". At this time, the pointing device will continue to move according to the moving speed and direction before the finger leaves the motion sensor. d. when the pointing control device is continuously moving, if the motion sensor senses that the finger touches the induction coil, a fourth signal is sent to the logic control module, and then the logic control module points the pointing The control device is set to "standby state", at which point the pointing device will stop moving immediately. e. when the induction coil does not sense that the finger is touched for a period of time τ, a fifth signal is sent to the logic control module, and the logic control module controls the pointing control device to “sleep state”. To achieve energy saving purposes. To make the handle and the spirit more advanced, the steps are revealed, and the detailed description of the pattern is as follows. [Embodiment] Please, as shown in the third, it is the touch of the present invention, including a mobile sensor 31, a pointing sensor: , an induction coil %, and a logic control module 37 ^ ίί 3 = optical mouse, movement direction and rapid production of the movement sensor 31, the external finger senses the movement direction and speed of the finger, and the production and reception of the device 4 in the same direction and synchronous movement, due to the pointing device 14 will usually appear in the form of a cursor in the wire 12, so in a preferred embodiment, the control will be controlled in the same direction as the first finger and the same as the $7 steering control module 33. A cursor is performed 201001237. The induction coil 35 is composed of a general-purpose input/output (GPI〇), which can sense whether the finger touches the induction coil 35, the number of times the finger touches the induction coil 35, and the interval between contacting the induction coil 35 and The corresponding signal is rotated to the logic control module 37. The logic control module 37 is electrically coupled to the induction coil 35 and controls the pointing control module 33 to enter a standby state, a sleep state, a continuous moving state, and a moving state according to the signal output from the induction coil 35. Please refer to FIG. 4A, which is a schematic diagram of the touch pointing control system of the present invention applied to the handheld electronic device 4, wherein the handheld electronic device 4 has a screen 12' pointing device μ cursor displayed on the screen The motion sensor 31 and the induction coil 35 are disposed on the outer surface of the handheld electronic device 4. Please refer to FIG. 4B, which is a schematic diagram of the touch-sensitive pointing device for the remote control 41. The remote controller 41 is controlled by the control screen 42 and points to the cursor system of the device 14. Presented on the remote side, the motion sensor 31 and the induction coil 35 are disposed on the surface of the remote control 41. & Referring to Figures 5A to 5E, it is a schematic diagram of the present invention using the logic control module to control the pointing control module in various states. a. The field & the control seam is placed in a dormant state, if the sense of the wire ring senses the finger of the sea, then the H bribe (4) module is issued, and then the logic (4) m_ weave to the control (4) in the " (As shown in Figure 5A) The control device sends a second signal to the logic control module in the standby state T if the motion sensor senses movement, and the control module controls the pointing control device to "moving" ~"5-8), at this time the pointing device will move synchronously and in the same direction as the finger moves in the direction and distance of the direction sensor 201001237. C. When the pointing control device is in the moving state, if the moving sensor senses that the finger moves to the edge of the detecting range, when the finger moves away from the detecting range and does not touch the induction coil, a third signal is sent to The logic control module is further controlled by the logic control module to control the pointing control device in a "continuous moving state" (as shown in FIG. 5C), and the pointing device will follow the moving speed of the finger before moving away from the moving sensor. The direction continues to move.
d. 當該指向控制裝置在持續移動狀態下,若該移動感應器 巧應到被該手指回到感應線圈,則發出一第四訊號至該邏 輯控/制模組’再由該邏輯控制模組將該指向控制裝置控制 在待機狀態」(如圖五D所示)’此時游標將停在手指碰 觸感應線圈時的螢幕位置處。 e. 當該指向控制裝置任一狀態下,以持續移動狀態下為 例,若該感應線圈超過一段時間T未感應到被該^指碰 觸,則發出一第五訊號至該邏輯控制模組,再由該邏輯控 ^模組將該指向控制裝置控制在休眠狀態下(如圖五Ε 示)。 凊參閱圖六所示,其係為本發明之觸碰式指向控 法之流程圖,其步驟包括: a. b. 首先將該指向控制裝置設定在休眠狀態(S6〇1); 判斷該感應線圈是否被手指碰觸(S6〇2),若為是 待機狀態(S603),若為否則回到步驟(S6〇1); C. 巧到手指移動(_,若為是則 進入移動狀US605),右為否則回到步驟(S6〇3) · 1斷手指是_雌麵顧⑽6),若為是則進 續移動狀況(S608);,若為否則回到步驟(s . 圈的ί間是否大於聊幻,若 為疋則進入步驟(S601),若為否則回到步驟⑽υ。 201001237 碰子 :不斷地在移動感應器上來回移動,就可以達到移t:: 裝置之功效,其在操作上明顯較習知技術更為方便 具有進步性。 以上所述,僅為本發明之一較佳實施例,其並非用以 限制本發明之實施範圍,任何熟習該項技藝者依據本發明 之精神所做之些微修改,仍應屬本發明之精神及範圍。 11 201001237 【圖式簡單說明】 圖一係為習知技術之具有觸碰式指向控制系統之手持 式電子裝置之系統架構圖。 圖一係為習知技術之具有觸碰式指向控制系統之手 式電子裝置之外觀示意圖。 圖圖三係為本發明之觸碰式指向控制系統之系統架構 式電發明之觸碰式指向控制系統應用於手持 係為本發明之觸碰式指向控制|置應用於遙控 器之不意圖。 圖五A〜五E係為本發明利用邏輯控制模組將指向控 制模組控制在各種模式之示意圖。 二 圖六係為本發明之觸碰式指向控制方法之流程圖。 【主要元件符號說明】 1〜手持式電子裝置 12~螢幕 14〜指向裝置 16~觸碰式指向控制系統 161〜移動感應器 163〜指向控制模組 165〜感應線圈 3〜觸碰式指向控制系統 31〜移動感應器 33〜指向控制模組 35〜感應線圈 37〜邏輯控制模組 4〜手持式電子裝置 41〜遙控器 42〜遠端螢幕 ι 12d. When the pointing control device is continuously moving, if the motion sensor is supposed to be returned to the induction coil by the finger, a fourth signal is sent to the logic control module and then the logic control module The group controls the pointing control device in the standby state (as shown in FIG. 5D). At this time, the cursor will stop at the screen position when the finger touches the induction coil. e. In any state of the pointing control device, taking the continuous moving state as an example, if the induction coil does not sense the touch of the finger for more than a period of time T, a fifth signal is sent to the logic control module. Then, the logic control module controls the pointing control device to be in a sleep state (as shown in FIG. 5). Referring to FIG. 6, which is a flowchart of the touch pointing control method of the present invention, the steps include: ab first setting the pointing control device to a sleep state (S6〇1); determining whether the induction coil is Finger touch (S6〇2), if it is in standby state (S603), if it is otherwise, return to step (S6〇1); C. Clever finger movement (_, if yes, enter moving US605), right Otherwise return to the step (S6〇3) · 1 finger is _ female face (10) 6), if yes then continue to move (S608); if otherwise return to step (s. If you are stunned, go to step (S601), if it is otherwise, go back to step (10) 2010. 201001237 Touch: constantly moving back and forth on the moving sensor, you can achieve the effect of shifting t:: device, its operation It is obvious that it is more convenient and progressive than the prior art. The above is only one preferred embodiment of the present invention, which is not intended to limit the scope of implementation of the present invention, and anyone skilled in the art according to the spirit of the present invention Some minor modifications should still be within the spirit and scope of the present invention. 11 201001237 BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a system architecture diagram of a handheld electronic device with a touch pointing control system of the prior art. FIG. 1 is an appearance of a hand-held electronic device with a touch pointing control system of the prior art. Figure 3 is a system architecture of the touch-pointing control system of the present invention. The touch-pointing control system of the invention is applied to the handheld system as the touch-pointing control of the present invention. Figure 5A~5E are diagrams illustrating the use of a logic control module to control a pointing control module in various modes. Figure 6 is a flow chart of the touch pointing control method of the present invention. DESCRIPTION OF SYMBOLS 1 - Handheld electronic device 12 - screen 14 - pointing device 16 - touch pointing control system 161 - moving sensor 163 - pointing control module 165 - induction coil 3 - touch pointing control system 31 - moving Sensor 33~ pointing control module 35~inductive coil 37~ logic control module 4~handheld electronic device 41~remote control 42~remote screen ι 12