201039203 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種電子裝置、顯示螢幕及辨識觸控 輸入之方法,特別是關於一種可提供使用者雙手扶持及 雙手輸入指令之電子裝置、顯示螢幕及辨識觸控輸入之 方法。 【先前技術】 以蘋果電腦公司(Apple Computer, Inc.)生產的 iPhone為例’若要將其單手雙指之輸入方式移植至筆記 型電腦(notebook)、小型筆電(netbook)或是平板電腦 (tablet PC)上時,多點式的觸控螢幕成本較高,若套用 在較大尺寸之筆記型電腦、小型筆電或平板電腦,在製 造成本上會大幅增加。 除此之外,一般筆記型電腦與小型筆電之螢幕與鍵 盤位於同一侧,若要用手指在螢幕上比畫手勢,對於螢 幕與鍵盤間之轉轴勢必會施力,若無另一手將其固定, 則螢幕必定往後傾斜,導致無法正確輸入。再者,若需 要將筆記型電腦、小型筆電或平板電腦帶著走,若只用 一隻手扶持電腦,另一隻手輸入,容易造成重心不穩或 單手負荷重量過重的狀態。另外,當單手輸入時,兩隻 手指在觸控板上的位置很接近,在動作輸入時也容易導 致辨識上的困難,讓輸入指令產生錯誤。 因此’有必要提供一種電子裝置、顯示螢幕及辨識 3 201039203 觸控輪八之古、土 之方法’㈣善先前技術所存在的問題。 【發明内容】 本發明之一主要 螢幕及辨識觸控輸人之方=在提供—種電子裝置、顯示 置上之螢幕,以提供使用者可在電子裝 令,使電子裝置執二電^ 本發明之另一主要目 ^指令時,降低_錯誤機種可在觸控輸 辨識觸控輸入之方法。 裝置、顯不螢幕及 幕、處 控區域及第二觸控區域,係用以八、=螢幕包括第一觸 二軌跡。處理器係與顯示螢幕電人第—軌跡及第 組係與處理器電性連接,軌跡比對跡比對模 匕對軌跡資料之執跡組合,藉此使::執跡以 相對應之特定功能指令。 否使處理器執行 在本發明之一實施例中,顯示螢 域’第-觸控區域係電性連接於非觸控區L觸控區 第二觸控區域係電性連接於非觸控區域之另〜侧側,且 在本發明之另一實施例中,顯示 幕’藉由執行程式以邏輯分割為彼此:=== 201039203 域與第二觸控區域。 為達成上述之目的,本發明之顯示螢幕包括第一觸201039203 VI. Description of the Invention: [Technical Field] The present invention relates to an electronic device, a display screen, and a method for recognizing a touch input, and more particularly to an electronic device capable of providing a user's two-handed support and two-hand input command , display the screen and identify the touch input method. [Prior Art] Take the iPhone made by Apple Computer, Inc. as an example. If you want to import one-handed and two-finger input methods to a notebook, a netbook, or a tablet. On a computer (tablet PC), the multi-touch touch screen is costly. If it is applied to a larger notebook, a small notebook or a tablet, the manufacturing cost will increase significantly. In addition, the general notebook computer and the small notebook screen and the keyboard are on the same side. If you want to use your finger to draw gestures on the screen, it is bound to exert force on the axis between the screen and the keyboard. If there is no other hand If it is fixed, the screen must be tilted backwards, resulting in incorrect input. Furthermore, if you need to take your notebook, small laptop or tablet with you, if you use only one hand to support the computer and the other hand to enter, it is easy to cause the center of gravity to be unstable or the weight of one hand to be too heavy. In addition, when one-handed input, the position of the two fingers on the touchpad is very close, and it is easy to cause difficulty in identification when the motion is input, and the input command generates an error. Therefore, it is necessary to provide an electronic device, a display screen, and a problem in the prior art of the method of identifying the touch wheel. SUMMARY OF THE INVENTION One of the main screens of the present invention and the means for recognizing the touch input = providing an electronic device and displaying a screen to provide a user with an electronic device to enable the electronic device to operate the second device. In another main instruction of the invention, the method of recognizing the touch input can be reduced in the touch-sensitive input mode. The device, the display screen and the screen, the control area and the second touch area are used for the eight, the screen includes the first touch track. The processor system and the display screen electric person first-track and the first group are electrically connected with the processor, and the trajectory comparison track is compared with the model trajectory data, thereby: :: performing the corresponding specific Function instructions. In the embodiment of the present invention, the display area is electrically connected to the non-touch area, and the second touch area is electrically connected to the non-touch area. From the other side to the side, and in another embodiment of the present invention, the display screen is logically divided into each other by executing a program: === 201039203 domain and second touch area. In order to achieve the above object, the display screen of the present invention includes the first touch
與非觸控區域之另一侧電性連接。 為達成上述之目的,本發明之辨識觸控輸入之方法 包括下列步驛··提供軌跡資料,軌跡資料包括彼此相對 應之軌跡組合與特定功能指令;#由第一觸控區域與第 二觸控區域分別取得第-輸人軌跡與第二輪入軌跡;判 斷第:輸人軌跡與第二輸人軌歧否符合細組合;以 及若判斷為『是』’則依據軌跡資料 【實施方式】 為讓本發明之上述和其他目的、特徵和The other side of the non-touch area is electrically connected. In order to achieve the above object, the method for recognizing a touch input of the present invention includes the following steps: providing trajectory data, the trajectory data including a trajectory combination corresponding to each other and a specific function instruction; #1 by the first touch area and the second touch The control region obtains the first-input trajectory and the second round-in trajectory respectively; judging whether: the input trajectory and the second input trajectory are in a fine combination; and if the judgment is "yes", the trajectory data is used [implementation] The above and other objects, features and features of the present invention are
本發明提供一種電子裝置、顯示 、特徵和優點能更明 並配合所附圖式,作The present invention provides an electronic device, display, features and advantages that can be more clearly understood and matched with the drawings.
:::先ί考圖1關於本發明之電子襄置之-實 施例之架構示意圖。 如圖I所示,^ 本發明之電子裝置〗包括顯示榮幕 5 201039203 3〇、軌跡比對模組40及處理器50。顯示螢幕30包括 第一觸控區域31及第二觸控區威32,係用以分別供使 用者輸入第—軌跡及第二執跡。處理器50係與顯示螢 幕3〇電性連接,且軌跡比對模組40係與處理器50電 性連接。軌跡比對模組4〇包括軌跡資料41,其中執跡 資料41包括彼此相對應之執跡組合與特定功能指令 (以下將有詳細說明)。執跡比對模組40依據使用者所 輸入的第一轨跡與第二軌跡以比對轨跡資料41之軌跡 組合,藉此判斷是否使處理器50執行相對應之特定功 能指令。 在本發明之一實施例中,電子裝置可為平板電腦、 筆S己型電腦、個人數位助理、手機、音樂播放器、全壤 定位系統裝置或電子遊樂器,但本發明不以此為限。 以下請先參考圖2至圖8關於本發明之電子裝置之 第一實施例之示意圖。 舉例而言,如圖2所示,第一觸控區域31a與第二 觸控區域32a彼此相分離。在本實施例中,顯示螢幕 3〇a包括第一觸控區域31a、第二觸控區域32a及非觸 控區域33a,其中第一觸控區域3ia係電性連接於非觸 控區域33a之左侧,且第二觸控區域32a係電性連接於 非觸控區域33a之右側。第一觸控區域31a及第二觸控 區域32a係用以分別輸入第一轨跡及第二軌跡。然本^ 明並非以此為限,以下圖9將有其他實施例說明 在本發明之一實施例中,顯示螢幕3〇a之尺寸係 201039203 二佐本發明不以此為限。舉 之尺寸實質上可介於4对至2〇ρ寸間。了螢幕、 如圖2所示,本發明之一牲 左手及右手進行觸控輪入,且::疋:^用者同時用 ^ ± ^ 且在輸入的同時,仍可固定 與支撐顯示螢幕30a’因此 固疋 3〇“譬如20吋或更大之尺使:二寸之顯示螢幕 行輸入動作。 尺寸),使用者仍可穩固地進 ❹ Ο ^發明之實施例中,第—觸控區域3la及第_ =控區域32&係觸控感測顯示面板,其觸控感= 阻式觸控、電容式觸控或紅外線式觸控,2 發明不以此為限。 1 一承 以成本上來做考量,顯示馨蕊 =之左右兩侧設置第—觸控區二及第 :二不須整個顯示螢幕3〇a皆為觸控感測顯;; 板,因此可大幅降低成本。 下面 更進一步地來說,由 觸控區域3U來輸入,以軌跡係藉由左侧之第-觸控區域32a來輪人 ^軌跡係藉由右側之第- 響,因此可降低辨識錯誤訊號時並不會互相影 在本發明之一實始 括幾合圖形,但本發z ,第一執跡或第二轨跡係包 跡或該第二軌跡可分別1以㈣限。舉例來說’第一軌 關於第一執跡與第_&.、、'壓點、直線、曲線或封閉圈。 說明。 弟―軌跡的舉例,將在以下圖〇詳細 201039203 接下來請參考圖3 ’圖3係關於本發明之軌跡資料 41a之不意圖。 —如圖3所示,軌跡資料4ia包括軌跡組合々Ha及 特定功能指令412a。當使用者以雙手分別在如圖2所 示的第一觸控區域31&及第二觸控區域32a輸入第一軌 跡及第二軌跡後,軌跡比對模帽2未示,請參照圖 1)將第軌跡及第二軌跡比對軌跡資料4ia。若第一軌 跡及第二軌跡輯符合軌跡資料41a之軌跡組合411a (例如第一軌跡為向上滑觸⑴’而第二軌跡為向下滑觸 U ))’則處理器(圖2未示,請參照圖1}執行相對應之 特定功能指令412a (例如頁面向下移動)。 請同時參考圖3與圖4,舉例來說,執跡資料4la =軌跡組合為第-軌跡是向下滑觸⑴,而第二執跡亦 向下π觸(丨)對應的特定功能指令為向下切換程 式。若使用者雙手拇指同時向下滑觸時,電子裝置以 中執行的程式會以-立方體的方式在顯示螢幕3〇a上 如圖4所示)。雙手拇指同時在第一觸控區域31a 第二觸控區域32a向下滑觸(如圖4所示箭號方向滑 ,則立方體亦會向下捲動,在此時所顯示的為第一 =式61與第二程式62的預覽圖,當選定要切換的程式 後,放開雙手拇指,則電子裝置la執行該程式。 請同時參考圖3與圖5,再舉例來說,軌跡資料“a 的執跡組合411a為第一軌跡是向右滑觸(―),而第二軌 為,滑觸㈠,則對應的特定功能指令為縮小“ 的程式畫面。當使用者手指在第一觸控區域3向右 201039203 滑觸,另一手姆指在第二觸控區域32a向左滑觸時,電 子裝置la中目前執行的程式晝面會在顯示螢幕30a中 逐漸縮小,當縮小到使用者所需之大小時,放開雙手拇 指,則程式晝面會保留此時大小留在顯示螢幕30a上 (如圖5所示)。 請同時參考圖3與圖6,再舉例來說,執跡資料41a 的軌跡組合411a為第一執跡是向上滑觸(丨),而第二執 跡為向下滑觸(丨),則對應的特定功能指令為頁面向下 Ο 移動。當使用者的手指在第一觸控區域3 la向上滑觸, 另一手指在第二觸控區域32a向下滑觸時,則目前在顯 示螢幕30a中顯示之第一頁晝面81向上移動,而出現 第二頁晝面82 (如圖6所示)。 請同時參考圖3與圖7,再舉例來說,執跡資料41a 的軌跡組合411a為第一執跡是壓點(·),而第二軌跡為 任一方向滑觸(铕),則對應的特定功能指令為觸控板模 式。當使用者手指在第一觸控區域31a按住不動,而另 〇 —手指在第二觸控區域32a内往任一方向滑觸時,則表 現出如觸控板之功能,此時在第二觸控區域32a各方向 移動則代表指標移動,而在第二觸控區域32a做點擊的 動作則如滑鼠點擊的動作一般(如圖7所示)。 請同時參考圖3與圖8,再舉例來說,軌跡資料41a 的執跡組合411a為第一執跡是壓點(·),而第二軌跡為 向左滑觸(―),對應的特定功能指令為文字輸入模式。 當使用者的手指在第二觸控區域32a按住不動,而另一 手指在第一觸控區域31a往左滑觸時,則可呼叫文字輸 9 201039203 吏用者可由顯示螢幕術之左下方跳出之螢幕 小鍵盤91 (如圖8所示),提供使用者輸入文字。 請參考圖9’在本發明之另一實施例中,顯 30b係觸控顯示螢幕,也就是整個顯示螢幕3此 觸控輸入指令。電子裝置lb係藉由處理器(圖9未 示)_執行一程式將顯示螢幕3〇b以邏輯分割之方式,將 顯不螢幕30b定義為彼此相鄰之第一觸控區域31 二觸控區域32b。藉此,在現有之電子裝置產品下0 如筆,型電腦、個人數位助理、平板電腦、手機、立二 播放,、全球定位系統裝置或電子遊樂H等等),^須 在產品結構上有所變更’僅需透過軟體控 二 雙手觸控輸入來執行特定功能指令。因此,上::透過 =丨子,亦可利用圖9的顯示榮幕地達= 八的目的。 關於軌跡比對模組依據第一執跡與第二軌跡以比 對執跡資料之軌跡組合,藉此判斷是否使處理器執行相 對應之特定功能指令之實施方式,已在上述實施例舉例 說明’故在此不再贅述。 以下請參考圖10關於本發明之辨識觸控輸入之方 法之一實施例之步驟流程圖。 首先進行步驟S71 :利用邏輯分割,將觸控顯示螢 幕为割出第一觸控區域與第二觸控區域。 惟須注意的是’若顯示螢幕非觸控顯示螢幕而係如 上述圖2所示實施例之顯示螢幕包括第一觸控區域、第 201039203 二觸控區域及非觸控區域,其中第一觸控區域係電性連 接於非觸控區域之左侧,且第二觸控區域係電性連接於 非觸控區域之右側,則此步驟可以省略。 接著進行步驟S72 :提供軌跡資料。 在本發明之一實施例中,軌跡資料包括彼此相對應 之軌跡組合與特定功能指令。::: First, a schematic diagram of the structure of the electronic device of the present invention is shown in FIG. As shown in FIG. 1, the electronic device of the present invention includes a display screen 5201039203 3〇, a track comparison module 40, and a processor 50. The display screen 30 includes a first touch area 31 and a second touch area 32 for respectively inputting the first track and the second track by the user. The processor 50 is electrically connected to the display screen 3, and the track comparison module 40 is electrically connected to the processor 50. The trajectory comparison module 4 includes trajectory data 41, wherein the trajectory data 41 includes a combination of tracks and specific function instructions corresponding to each other (described in detail below). The tracking comparison module 40 combines the trajectories of the trajectory data 41 according to the first trajectory input by the user and the second trajectory, thereby determining whether to cause the processor 50 to execute the corresponding specific function instruction. In an embodiment of the present invention, the electronic device may be a tablet computer, a pen computer, a personal digital assistant, a mobile phone, a music player, a whole soil positioning system device, or an electronic game instrument, but the invention is not limited thereto. . Hereinafter, please refer to FIG. 2 to FIG. 8 for a schematic view of a first embodiment of an electronic device of the present invention. For example, as shown in FIG. 2, the first touch area 31a and the second touch area 32a are separated from each other. In this embodiment, the display screen 3A includes a first touch area 31a, a second touch area 32a, and a non-touch area 33a. The first touch area 3ia is electrically connected to the non-touch area 33a. The second touch area 32a is electrically connected to the right side of the non-touch area 33a. The first touch area 31a and the second touch area 32a are used to input the first track and the second track, respectively. However, the present invention is not limited thereto. In the embodiment of the present invention, the size of the display screen 3〇a is 201039203. The invention is not limited thereto. The size can be substantially between 4 and 2 inches. The screen, as shown in FIG. 2, one of the present invention performs touch wheeling in the left and right hands, and:::: The user simultaneously uses ^±^ and can still fix and support the display screen 30a while inputting. 'Therefore, the solid-state 3〇“such as 20吋 or larger ruler: two-inch display screen line input action. Size), the user can still enter firmly Ο ^In the embodiment of the invention, the first touch area 3la and _ = control area 32 & touch sensing display panel, its touch sense = resistive touch, capacitive touch or infrared touch, 2 invention is not limited to this. For the sake of consideration, the display of Xinrui = the left and right sides of the setting - the touch area two and the second: the second does not require the entire display screen 3 〇 a are touch sensing;; board, so can significantly reduce costs. Further, the input is performed by the touch area 3U, and the track is rotated by the first touch-control area 32a on the left side by the first sound of the right side, thereby reducing the identification error signal. Will interact with each other in one of the inventions, but this is the first, or the second The trajectory envelope or the second trajectory may be limited to (4), for example, 'the first track is related to the first trajectory and the _&., 'press point, straight line, curve or closed circle. The example of the trajectory will be detailed in the following figure 201039203. Please refer to FIG. 3 'FIG. 3 for the trajectory information 41a of the present invention. - As shown in FIG. 3, the trajectory data 4ia includes the trajectory combination 々Ha and The specific function command 412a. When the user inputs the first track and the second track in the first touch area 31 & and the second touch area 32a as shown in FIG. 2 with both hands, the track comparison mold cap 2 is not Referring to FIG. 1), the first track and the second track are compared with the track data 4ia. If the first track and the second track match the track combination 411a of the track data 41a (for example, the first track is an upward sliding (1)' The second track is a downward touch U))' then the processor (not shown in Fig. 2, please refer to Fig. 1) executes the corresponding specific function command 412a (for example, the page moves downward). Please refer to FIG. 3 and FIG. 4 simultaneously, for example. For example, the trace data 4la = track combination is the first track is the downward touch (1) The second function is also a downward-switching program for the specific function command corresponding to the downward touch (丨). If the user touches the thumb simultaneously, the program executed by the electronic device will be in a -cube manner. On the display screen 3〇a, as shown in FIG. 4), the two-handed thumb simultaneously slides down in the second touch area 32a of the first touch area 31a (as shown by the arrow direction in FIG. 4, the cube will also Scroll down, at this time, the preview image of the first = formula 61 and the second program 62 is displayed. When the program to be switched is selected, the thumb of both hands is released, and the electronic device la executes the program. 3 and FIG. 5, for example, the track combination 411a of the track data "a is that the first track is a rightward sliding ("), and the second track is a sliding touch (a), and the corresponding specific function command is Reduce the "program screen." When the user's finger slides to the right 201039203 in the first touch area 3 and the other hand touches the left touch area 32a to the left, the currently executing program surface in the electronic device la is displayed in the display screen 30a. Gradually shrink, when the size is reduced to the user's desired size, release the thumb of both hands, the program will remain at this time and remain on the display screen 30a (as shown in Figure 5). Please refer to FIG. 3 and FIG. 6 at the same time. For example, the trajectory combination 411a of the trajectory 41a is that the first stalk is an upward sliding (丨), and the second stalk is a downward sliding (丨), corresponding to The specific function instruction moves the page down. When the user's finger slides up in the first touch area 3 la and the other finger slides down in the second touch area 32a, the first page 81 currently displayed on the display screen 30a moves upward. The second page 82 appears (as shown in Figure 6). Please refer to FIG. 3 and FIG. 7 at the same time. For another example, the trajectory combination 411a of the trajectory 41a is that the first trajectory is a pressure point (·), and the second trajectory is a sliding direction (铕) in any direction, corresponding to The specific function command is the trackpad mode. When the user's finger is pressed and held in the first touch area 31a, and the other finger-sliding in any direction in the second touch area 32a, the function of the touchpad is displayed. The movement of the two touch areas 32a in each direction represents the movement of the indicator, and the action of clicking in the second touch area 32a is performed by the action of the mouse click (as shown in FIG. 7). Please refer to FIG. 3 and FIG. 8 at the same time. For another example, the track combination 411a of the track data 41a is that the first track is a pressure point (·), and the second track is a left touch (―), corresponding to the specific The function command is a text input mode. When the user's finger is held down in the second touch area 32a and the other finger is swiping leftward in the first touch area 31a, the text can be called 9 201039203. The user can be displayed on the lower left side of the screen. The pop-up screen keypad 91 (shown in Figure 8) provides the user with input text. Referring to FIG. 9', in another embodiment of the present invention, the display 30b is a touch display screen, that is, the touch display command of the entire display screen 3. The electronic device 1b is defined by a processor (not shown in FIG. 9) to execute a program to display the screen 3〇b in a logical division manner, and define the display screen 30b as the first touch area 31 adjacent to each other. Area 32b. In this way, under the existing electronic device products, such as pens, computers, personal digital assistants, tablets, mobile phones, stand-ups, GPS devices, electronic amusement devices, etc., must have a product structure. The change 'only needs to perform a specific function command through the soft body two-hand touch input. Therefore, the above:: through the = scorpion, you can also use the display of Figure 9 to show the purpose of the glory = eight. The trajectory comparison module combines the trajectory of the trajectory according to the first trajectory and the second trajectory to determine whether to enable the processor to execute the corresponding specific function instruction, which has been exemplified in the above embodiment. 'So I will not repeat them here. Please refer to FIG. 10 for a flow chart of steps of an embodiment of the method for recognizing touch input according to the present invention. First, step S71 is performed: using the logic division, the touch display screen is cut out from the first touch area and the second touch area. The display screen of the embodiment shown in FIG. 2 includes a first touch area, a 201039203 touch area, and a non-touch area, wherein the first touch is displayed. The control area is electrically connected to the left side of the non-touch area, and the second touch area is electrically connected to the right side of the non-touch area. This step may be omitted. Then proceed to step S72: providing trajectory data. In one embodiment of the invention, the trajectory data includes trajectory combinations corresponding to each other and specific function instructions.
❹ 接著進行步驟S73 :藉由第一觸控區域與第二觸控 區域分別取得第一輸入執跡與第二輸入軌跡。 接著進行步驟S74:判斷第一輸入軌跡與第二輪入 軌跡是否符合軌跡組合。 若判斷為『是』’則進行步驟S75 :依據軌跡資料, 執行相對應之特定功能指令。如上述圖4-圖8的例子。 若判斷為『否』,則重複步驟S73。 本發明另提供一種筆記型電腦,係可以完成 Μ至步驟S75,但本發明不以此為限。 綜上所陳,本發明無論就目的、手段及功效,在在 =顯不其週異於習知技術之特徵,懇請責審查委員明 的β早::二專利俾嘉惠社會’實感德便。惟應注意 用二定發明已以較佳實施例揭露如上’然其並非 = 任何熟習此技藝者,在不脫離本發明 明之保轉内,當可作些許之更動與潤飾,因此本發 …&圍當魏附之申請專難圍所界定者為準。 11 201039203 【圖式簡單說明】 圖1係關於本發明之電子裝置之一實施例之架構示意 圖。 圖2係關於本發明之電子裝置之第一實施例之示意圖。 圖3係關於本發明之電子裝置之第一實施例之軌跡資 料之示意圖。 圖4至圖8係關於本發明之電子裝置之第一實施例之顯 示螢幕之晝面示意圖。 圖9係關於本發明之電子裝置之第二實施例之示意圖。 圖10係關於本發明之辨識觸控輸入之方法之一實施例 之步驟流程圖。 【主要元件符號說明】 電子裝置1、la、lb 顯示榮幕30、30a、30b 第一觸控區域31、31a、31b 第二觸控區域32、32a、32b 非觸控區域33a 軌跡比對模組40 軌跡資料41、41a 軌跡組合411 a 特定功能指令412a 處理器50 第一程式61 第二程式62 第一頁晝面81 12 201039203 第二頁晝面82 螢幕小鍵盤91Then, step S73 is performed: the first input track and the second input track are respectively obtained by the first touch area and the second touch area. Next, proceeding to step S74: determining whether the first input trajectory and the second round-in trajectory conform to the trajectory combination. If it is judged as "Yes", the process proceeds to step S75: the corresponding specific function command is executed in accordance with the track data. The example of Figures 4-8 above is shown. If the determination is "NO", step S73 is repeated. The present invention further provides a notebook computer, which can be completed to step S75, but the invention is not limited thereto. In summary, the present invention, regardless of its purpose, means, and efficacy, is inconsistent with the characteristics of the prior art, and is responsible for reviewing the members of the Ming Dynasty: 2: Patent 俾 惠 社会 社会 ' ' . However, it should be noted that the invention has been disclosed in the preferred embodiments as described above. However, it is not a matter of course that anyone skilled in the art can make some changes and refinements without departing from the invention. It shall be subject to the definition of Wei Fuzhi's application. 11 201039203 [Simplified description of the drawings] Fig. 1 is a schematic view showing an embodiment of an electronic device according to the present invention. Figure 2 is a schematic illustration of a first embodiment of an electronic device in accordance with the present invention. Fig. 3 is a view showing the trajectory of the first embodiment of the electronic apparatus of the present invention. 4 to 8 are schematic views of the display screen of the first embodiment of the electronic device of the present invention. Figure 9 is a schematic illustration of a second embodiment of an electronic device in accordance with the present invention. Figure 10 is a flow chart showing the steps of an embodiment of the method for recognizing touch input of the present invention. [Description of main component symbols] Electronic device 1, la, lb display glory 30, 30a, 30b first touch area 31, 31a, 31b second touch area 32, 32a, 32b non-touch area 33a trajectory comparison mode Group 40 track data 41, 41a track combination 411 a specific function command 412a processor 50 first program 61 second program 62 first page face 81 12 201039203 second page face 82 screen keypad 91