TWI709060B - Portable electronic device, operating method for the same, and non-transitory computer readable recording - Google Patents

Abstract

A portable electronic device, an operating method for the same, and a non-transitory computer readable recording medium are provided. The portable electronic device includes a body, a touch display screen disposed on the body, and an edge sensor disposed adjacent to an edge of the body. The operating method for the portable electronic device includes the following steps. A touch function of a region of the touch display screen or the whole touch display screen is disabled when an event is generated according to a first action sensed by the edge sensor.

Description

可攜式電子裝置、及其操作方法、與使用此方法之 記錄媒體 Portable electronic device, its operation method, and the use of this method Recording medium

本揭露是有關於一種可攜式電子裝置及其操作方法，且特別是關於一種具有邊緣感測器之可攜式電子裝置及其操作方法。 The present disclosure relates to a portable electronic device and its operating method, and more particularly to a portable electronic device with an edge sensor and its operating method.

目前，像是行動電話等具有觸控顯示螢幕的傳統可攜式電子裝置，其觸控顯示螢幕用以顯示影像或感測觸控動作。可攜式電子裝置可根據觸控動作執行對應的功能操作。 At present, traditional portable electronic devices with touch display screens, such as mobile phones, have touch display screens for displaying images or sensing touch actions. The portable electronic device can perform corresponding functional operations according to the touch action.

本揭露提供一種可攜式電子裝置、一種用於可攜式電子裝置之操作方法、及一種非暫態電腦可讀取記錄媒體。 The present disclosure provides a portable electronic device, an operation method for the portable electronic device, and a non-transitory computer-readable recording medium.

根據本揭露之一概念，提供一種用於一可攜式電子裝置之操作方法。可攜式電子裝置包括一主體、一觸控顯示螢幕及一邊緣感測器。觸控顯示螢幕設置於主體上。邊緣感測器設置於相鄰主體之一邊緣的位置。操作方法包括以下步驟。當一事件係根據由邊緣感 測器感測之一第一動作產生時，禁能觸控顯示螢幕之一區域或整個觸控顯示螢幕之一觸控功能。 According to a concept of the present disclosure, an operating method for a portable electronic device is provided. The portable electronic device includes a main body, a touch display screen and an edge sensor. The touch display screen is set on the main body. The edge sensor is arranged at the edge of one of the adjacent main bodies. The operation method includes the following steps. When an event is based on a sense of edge When the sensor detects that a first action occurs, one of the touch functions of a region of the touch display screen or the entire touch display screen is disabled.

根據本揭露之另一概念，提供一種非暫態電腦可讀取記錄媒體。非暫態電腦可讀取記錄媒體用以儲存一或多個程式。在該一或多個程式係載入一電腦且執行時，該一或多個程式致使一處理器執行如上所述之可攜式電子裝置之操作方法。 According to another concept of this disclosure, a non-transitory computer-readable recording medium is provided. The non-transitory computer can read the recording medium to store one or more programs. When the one or more programs are loaded into a computer and executed, the one or more programs cause a processor to execute the operation method of the portable electronic device as described above.

根據本揭露之又另一概念，提供一種可攜式電子裝置。可攜式電子裝置，包括一主體、一處理器、一觸控顯示螢幕及一邊緣感測器。觸控顯示螢幕設置於主體上。邊緣感測器電性耦接處理器，且設置於相鄰主體之一邊緣的位置。當一事件根據由邊緣感測器感測之一第一動作產生時，處理器禁能觸控顯示螢幕之一區域或整個觸控顯示螢幕之一觸控功能。 According to yet another concept of the present disclosure, a portable electronic device is provided. The portable electronic device includes a main body, a processor, a touch display screen and an edge sensor. The touch display screen is set on the main body. The edge sensor is electrically coupled to the processor, and is arranged at the edge of one of the adjacent main bodies. When an event is generated according to a first action sensed by the edge sensor, the processor disables a touch function of one area of the touch display screen or the entire touch display screen.

為了對本發明之上述及其他方面有更佳的瞭解，下文特舉實施例，並配合所附圖式詳細說明如下： In order to have a better understanding of the above and other aspects of the present invention, the following specific examples are given in conjunction with the accompanying drawings to describe in detail as follows:

40:邊緣感測器 40: Edge sensor

60:非觸控區域 60: Non-touch area

100、200、300、400:可攜式電子裝置 100, 200, 300, 400: portable electronic devices

101、201:背蓋 101, 201: back cover

102:處理器 102: processor

103:主體 103: main body

104:第一感測器 104: The first sensor

106:第二感測器 106: second sensor

108:顯示單元 108: display unit

109:觸控顯示螢幕 109: Touch display screen

110:第一顯示區域 110: The first display area

112:第二顯示區域 112: Second display area

114:捷徑圖式 114: Shortcut Schema

116:資訊 116: Information

117:週邊裝置 117: Peripheral Devices

118:螢幕記錄工具 118: Screen Recording Tool

210:第三感測器 210: third sensor

212:G感測器 212: G sensor

233:偵測單元 233: Detection Unit

477:近接感測器 477: Proximity Sensor

A:區域 A: area

D1:方向 D1: direction

PT1、PT2:時段 PT1, PT2: time period

S1:第一側 S1: First side

S2:第二側 S2: second side

S3:第三側 S3: Third side

S4:第四側 S4: Fourth side

S2401、S2402、S2501、S2502、S2503、S2601、S2602、S2701、S2702、S2801、S2802:流程步驟 S2401, S2402, S2501, S2502, S2503, S2601, S2602, S2701, S2702, S2801, S2802: Process steps

TH1:擠壓閥值 TH1: Squeeze threshold

TH1’:調整之擠壓閥值 TH1’: Adjusted squeeze threshold

TH2:釋放閥值 TH2: release threshold

TH2’:調整之釋放閥值 TH2’: Adjusted release threshold

TH3:特定壓力 TH3: specific pressure

TM1、TM2、TM3、TM4、TM5:時間點 TM1, TM2, TM3, TM4, TM5: time point

W:寬度 W: width

第1圖是根據本發明一實施例之可攜式電子裝置之方塊圖。 FIG. 1 is a block diagram of a portable electronic device according to an embodiment of the invention.

第2圖是可攜式電子裝置之示意圖。 Figure 2 is a schematic diagram of a portable electronic device.

第3圖是使用者撥動邊緣時之可攜式電子裝置之示意圖。 Figure 3 is a schematic diagram of the portable electronic device when the user moves the edge.

第4A圖是本發明一實施例之邊緣感測面板的示意圖。 FIG. 4A is a schematic diagram of an edge sensor panel according to an embodiment of the invention.

第4B圖是本發明另一實施例之邊緣感測面板之示意圖。 FIG. 4B is a schematic diagram of an edge sensor panel according to another embodiment of the invention.

第5圖是當使用者擠壓可攜式電子裝置時之示意圖。 Fig. 5 is a schematic diagram when a user squeezes the portable electronic device.

第6圖是當使用者手指於可攜式電子裝置之一長側上滑動時之示意圖。 FIG. 6 is a schematic diagram when the user's finger slides on one of the long sides of the portable electronic device.

第7圖是當使用者手指於可攜式電子裝置之兩長側上滑動時之示意圖。 FIG. 7 is a schematic diagram when the user's fingers slide on the two long sides of the portable electronic device.

第8圖是當使用者手指於可攜式電子裝置之一長側上快速滑動時之示意圖。 FIG. 8 is a schematic diagram when the user's finger slides quickly on one of the long sides of the portable electronic device.

第9圖是使用者在可攜式電子裝置於橫向模式中同時按壓其一長側之左部及右部時之示意圖。 Figure 9 is a schematic diagram of the portable electronic device when the user simultaneously presses the left and right parts of one long side of the portable electronic device in landscape mode.

第10圖是本發明一實施例之時間與壓力關係的曲線圖。 Figure 10 is a graph showing the relationship between time and pressure in an embodiment of the present invention.

第11圖是本發明一實施例之時間與壓力關係的曲線圖。 Figure 11 is a graph showing the relationship between time and pressure in an embodiment of the present invention.

第12圖是本發明一實施例之時間與壓力關係的曲線圖。 Figure 12 is a graph of the relationship between time and pressure in an embodiment of the present invention.

第13A至13I圖是依據按壓動作依序改變之視覺影像的示意圖。 Figures 13A to 13I are schematic diagrams of visual images sequentially changing according to pressing actions.

第14A圖至第14D圖是依據按壓動作依序改變之視覺影像的示意圖。 Figures 14A to 14D are schematic diagrams of visual images sequentially changing according to pressing actions.

第15圖是本發明一實施例之時間及壓力關係的曲線圖。 Figure 15 is a graph showing the relationship between time and pressure in an embodiment of the present invention.

第16圖是本發明一實施例之具有一特別區域之可攜式電子裝置之示意圖。 FIG. 16 is a schematic diagram of a portable electronic device with a special area according to an embodiment of the present invention.

第17圖是本發明另一實施例之可攜式電子裝置之方塊圖。 FIG. 17 is a block diagram of a portable electronic device according to another embodiment of the invention.

第18圖是本發明一實施例之時間及壓力關係的曲線圖。 Figure 18 is a graph showing the relationship between time and pressure in an embodiment of the present invention.

第19圖是本發明另一實施例之可攜式電子裝置之方塊圖。 FIG. 19 is a block diagram of a portable electronic device according to another embodiment of the invention.

第20圖是當使用者握持及搖動可攜式電子裝置時之示意圖。 FIG. 20 is a schematic diagram when the user holds and shakes the portable electronic device.

第21圖是當使用者擠壓且翻轉可攜式電子裝置之示意圖。 Figure 21 is a schematic diagram of the portable electronic device when the user squeezes and turns over.

第22圖是使用者以手覆蓋可攜式電子裝置時之示意圖。 Figure 22 is a schematic diagram of a user covering the portable electronic device with his hand.

第23圖是本發明另一實施例之可攜式電子裝置之方塊圖。 FIG. 23 is a block diagram of a portable electronic device according to another embodiment of the invention.

第24圖是可攜式電子裝置之操作方法之流程圖。 Figure 24 is a flowchart of the operation method of the portable electronic device.

第25圖是可攜式電子裝置之操作方法之另一流程圖。 Figure 25 is another flowchart of the operation method of the portable electronic device.

第26圖是可攜式電子裝置之操作方法之另一流程圖。 Figure 26 is another flowchart of the operation method of the portable electronic device.

第27圖是可攜式電子裝置之操作方法之另一流程圖。 Figure 27 is another flowchart of the operation method of the portable electronic device.

第28圖是可攜式電子裝置之操作方法之另一流程圖。 Figure 28 is another flowchart of the operation method of the portable electronic device.

第29圖是當右手握持可攜式電子裝置且可攜式電子裝置顯示鍵盤影像鄰近右拇指時之示意圖。 FIG. 29 is a schematic diagram when the portable electronic device is held by the right hand and the portable electronic device displays the keyboard image adjacent to the right thumb.

第30圖是當左手握持可攜式電子裝置且可攜式電子裝置顯示鍵盤影像鄰近左拇指時之示意圖。 FIG. 30 is a schematic diagram when the portable electronic device is held by the left hand and the portable electronic device displays the keyboard image adjacent to the left thumb.

第31圖是用於可攜式電子裝置之操作方法之流程圖。 Figure 31 is a flow chart of the operation method for the portable electronic device.

下述揭露於說明書中之實施例可為個別的實施例，或可根據實際需求結合以形成其他實施例。 The following embodiments disclosed in the specification can be individual embodiments, or can be combined according to actual needs to form other embodiments.

第1圖是本發明一實施例之可攜式電子裝置100之方塊圖。第2圖是可攜式電子裝置100之示意圖。可攜式電子裝置100包括主體103、處理器102、第一感測器104、第二感測器106、及顯示單元108。處理器102電性耦接第一感測器104、第二感測器106及顯示單元108。第一感測器104或第二感測器106包括設置在相鄰於主體103之邊緣的邊緣感測器40。於一實施例中，如 第1圖所示，第一感測器104與第二感測器106各包括邊緣感測器40。顯示單元108包括觸控顯示螢幕109，設置於主體103上。舉例來說，可攜式電子裝置100可為智慧型手機或平板。可攜式電子裝置100包括第一側S1、第二側S2、第三側S3、及第四側S4。第一側S1及第二側S2為可攜式電子裝置100之短側，及第三側S3及第四側S4為可攜式電子裝置100之長側。第一感測器104及第二感測器106舉例為壓力感測器、電阻感測器、光學感測器或超音波感測器。邊緣感測器40可由壓力感測器及觸控感測器之至少一者或其他類型感測器實現。基於本發明之實際需求，第一感測器104或第二感測器106亦可設置於電子設備之至少一短側上，而不以此為限。 FIG. 1 is a block diagram of a portable electronic device 100 according to an embodiment of the invention. FIG. 2 is a schematic diagram of the portable electronic device 100. The portable electronic device 100 includes a main body 103, a processor 102, a first sensor 104, a second sensor 106, and a display unit 108. The processor 102 is electrically coupled to the first sensor 104, the second sensor 106 and the display unit 108. The first sensor 104 or the second sensor 106 includes an edge sensor 40 disposed adjacent to the edge of the main body 103. In one embodiment, such as As shown in FIG. 1, the first sensor 104 and the second sensor 106 each include an edge sensor 40. The display unit 108 includes a touch display screen 109 and is disposed on the main body 103. For example, the portable electronic device 100 may be a smart phone or a tablet. The portable electronic device 100 includes a first side S1, a second side S2, a third side S3, and a fourth side S4. The first side S1 and the second side S2 are the short sides of the portable electronic device 100, and the third side S3 and the fourth side S4 are the long sides of the portable electronic device 100. The first sensor 104 and the second sensor 106 are, for example, a pressure sensor, a resistance sensor, an optical sensor, or an ultrasonic sensor. The edge sensor 40 may be implemented by at least one of a pressure sensor and a touch sensor or other types of sensors. Based on the actual requirements of the present invention, the first sensor 104 or the second sensor 106 can also be arranged on at least one short side of the electronic device, and is not limited to this.

處理器102包括可攜式電子裝置100之中央處理單元(central processing units，CPUs)，控制可攜式電子裝置100之整體操作。在特定實施例中，處理器102藉由執行儲存於記憶體(未繪示)中之軟體或韌體來達成此部份。處理器102可為或可包括一或多個可程式通用或專用微處理器、數位訊號處理器(digital signal processors，DSPs)、可程式控制器、特定應用積體電路(application specific integrated circuits，ASICs)、可程式邏輯裝置(programmable logic devices，PLDs)、或類似物、或此些裝置之組合。 The processor 102 includes central processing units (CPUs) of the portable electronic device 100 and controls the overall operation of the portable electronic device 100. In a specific embodiment, the processor 102 achieves this by executing software or firmware stored in a memory (not shown). The processor 102 may be or include one or more programmable general-purpose or special-purpose microprocessors, digital signal processors (digital signal processors, DSPs), programmable controllers, application specific integrated circuits (ASICs). ), programmable logic devices (PLDs), or the like, or a combination of these devices.

觸控顯示螢幕109可包括液晶顯示器(liquid-crystal display，LCD)、電漿顯示器、真空螢光顯示器、 發光二極體(light-emitting diode，LED)顯示器、場發射顯示器、及/或其他適合形式之顯示器，裝配以顯示使用者介面。 The touch display screen 109 may include a liquid-crystal display (LCD), a plasma display, a vacuum fluorescent display, Light-emitting diode (LED) displays, field emission displays, and/or other suitable forms of displays are assembled to display a user interface.

第一感測器104及第二感測器106設置於可攜式電子裝置100之第三側103及第四側S4上。第一感測器104及第二感測器106各包括數個感測元件，排列成一線。使用者可通過觸控、按壓(pressing)、滑動、撥動(flipping)、或擠壓(squeezing)可攜式電子裝置100之至少一長側，來觸發第一感測器104或/及第二感測器106輸出對應訊號。當使用者觸發第一感測器104或/及第二感測器106時，處理器102根據第一感測器104或/及第二感測器106之感測元件的輸出訊號來決定施加在感測元件之力，以及根據使用者所觸發之感測元件的位置，決定出施加在可攜式電子裝置100長側上之力的位置。使用者的觸發動作包括擠壓可攜式電子裝置100(例如為同時按壓第一感測器104及第二感測器106)、在可攜式電子裝置100之長側上滑動、按壓、及邊緣撥動。 The first sensor 104 and the second sensor 106 are disposed on the third side 103 and the fourth side S4 of the portable electronic device 100. Each of the first sensor 104 and the second sensor 106 includes a plurality of sensing elements arranged in a line. The user can touch, press, slide, flip, or squeeze at least one long side of the portable electronic device 100 to trigger the first sensor 104 or/and the first sensor 104 The second sensor 106 outputs the corresponding signal. When the user triggers the first sensor 104 or/and the second sensor 106, the processor 102 determines the application according to the output signal of the sensing element of the first sensor 104 or/and the second sensor 106 The force of the sensing element and the position of the sensing element triggered by the user determine the position of the force applied on the long side of the portable electronic device 100. The user's triggering actions include squeezing the portable electronic device 100 (for example, pressing the first sensor 104 and the second sensor 106 at the same time), sliding on the long side of the portable electronic device 100, pressing, and Flick the edge.

參照表1-1、1-2及1-3，可攜式電子裝置100之對應操作根據使用者動作及可攜式電子裝置100之狀態執行。 Referring to Tables 1-1, 1-2, and 1-3, the corresponding operations of the portable electronic device 100 are executed according to the user's actions and the state of the portable electronic device 100.

當使用者在可攜式電子裝置100不同狀態中撥動可攜式電子裝置100的邊緣(使用者動作1)時，執行對應操作。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態B/A)、相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、在可攜式電子裝置100上玩遊戲(狀態F)、使用者在通話中(狀態G)、鬧鐘/警報響起(狀態H)、使用者有來電(狀態I)、使用者利用輸入法編輯器(input method editor，IME)撰寫即時訊息(Instant Message，IM)/訊息(狀態J)、使用者不利用IME撰寫IM/訊息(狀態K)、或使用者瀏覽網路/相片(狀態L)時，使用者撥動邊緣，以觸發可攜式電子裝置100顯示邊緣感測面板於觸控顯示螢幕109上。參照第3圖，第3圖繪示當使用者撥動邊緣時之可攜式電子裝置100之示意圖。使用者動作「撥動邊緣」表示，當使用者握持可攜式電子裝置100時，使用者手指(舉例為拇指)觸碰可攜式電子裝置100之一長側，且沿方向D1由背蓋101往螢幕移動。基於所述使用者動作「撥動邊緣」，觸發第一感測器104或第二感測器106的至少一感測元件輸出對應的感測訊號及觸控顯示螢幕109之邊緣輸出對應的觸控訊號。因此，於特定時段內，處理器102可接收到 所述感測訊號與觸控訊號，並據以決定所述使用者動作為「撥動邊緣」。參照第4A圖及第4B圖，是本發明實施例之邊緣感測面板之示意圖。邊緣感測面板包括第一顯示區域110及第二顯示區域112。第一顯示區域110及第二顯示區域112顯示於觸控顯示螢幕109上，且靠近長側S3及S4。第一顯示區域110及第二顯示區域112顯示捷徑圖式114及資訊116，使得使用者可輕易地觸碰捷徑圖式114及資訊116。捷徑圖式114對應於應用程式，舉例為「Instagram」、「Facebook」或「Line」。當使用者觸碰捷徑圖式114時，開啟對應應用程式。資訊116包括圖像、天氣或新聞，但不以此為限。於一實施例中，當使用者以左手握持可攜式電子裝置100及使用左拇指在第三側S3上之邊緣撥動時，觸控顯示螢幕109顯示邊緣感測面板。在邊緣感測面板中，捷徑圖式114顯示於第一顯示區域110中，且資訊116顯示於第二顯示區域112中(如第4A圖所示)。當使用者以右手握持可攜式電子裝置100及使用右拇指在第四側S4上之邊緣撥動時，觸控顯示螢幕109顯示邊緣感測面板。於邊緣感測面板中，資訊116顯示於第一顯示區域110中，及捷徑圖式114顯示於第二顯示區域112中(如第4B圖所示)。於一實施例中，一指示器顯示於多個捷徑圖式114之其中一者或任何資訊116上。使用者可藉由滑動及按壓可攜式電子裝置100之長側來移動指示器，並選擇及執行多個捷徑圖式114之其中一者或顯示一資訊116。 When the user flicks the edge of the portable electronic device 100 in different states of the portable electronic device 100 (user action 1), a corresponding operation is performed. For example, when the screen of the portable electronic device 100 is turned on/off (state B/A), the camera is activated (state C), the user is watching videos (state D), listening to music (state E), Playing a game on the electronic device 100 (state F), the user is on a call (state G), the alarm/alarm sounds (state H), the user has an incoming call (state I), the user uses the input method editor (input method editor) , IME) when composing an instant message (IM)/message (state J), the user does not use IME to compose IM/message (state K), or when the user browses the Internet/photo (state L), the user dials Move the edge to trigger the portable electronic device 100 to display the edge sensor panel on the touch display screen 109. Referring to FIG. 3, FIG. 3 is a schematic diagram of the portable electronic device 100 when the user moves the edge. The user action "toggle edge" means that when the user holds the portable electronic device 100, the user's finger (for example, a thumb) touches a long side of the portable electronic device 100 and moves from the back along the direction D1. The cover 101 moves toward the screen. Based on the user action "pull the edge", at least one sensing element of the first sensor 104 or the second sensor 106 is triggered to output a corresponding sensing signal and the edge of the touch display screen 109 to output a corresponding touch Control signal. Therefore, in a certain period of time, the processor 102 can receive The sensing signal and the touch signal are used to determine the user action as "toggle edge". Referring to FIG. 4A and FIG. 4B, it is a schematic diagram of an edge sensor panel according to an embodiment of the present invention. The edge sensor panel includes a first display area 110 and a second display area 112. The first display area 110 and the second display area 112 are displayed on the touch display screen 109 and are close to the long sides S3 and S4. The first display area 110 and the second display area 112 display the shortcut pattern 114 and the information 116 so that the user can easily touch the shortcut pattern 114 and the information 116. The shortcut scheme 114 corresponds to an application, for example, "Instagram", "Facebook" or "Line". When the user touches the shortcut icon 114, the corresponding application is opened. The information 116 includes images, weather or news, but is not limited thereto. In one embodiment, when the user holds the portable electronic device 100 with the left hand and uses the left thumb to flick the edge on the third side S3, the touch display screen 109 displays the edge sensor panel. In the edge sensor panel, the shortcut pattern 114 is displayed in the first display area 110, and the information 116 is displayed in the second display area 112 (as shown in FIG. 4A). When the user holds the portable electronic device 100 with the right hand and flicks the edge on the fourth side S4 with the right thumb, the touch display screen 109 displays the edge sensing panel. In the edge sensor panel, the information 116 is displayed in the first display area 110, and the shortcut pattern 114 is displayed in the second display area 112 (as shown in FIG. 4B). In one embodiment, an indicator is displayed on one of the shortcut patterns 114 or any information 116. The user can move the indicator by sliding and pressing the long side of the portable electronic device 100, and select and execute one of multiple shortcut patterns 114 or display an information 116.

根據由第一感測器104與第二感測器106感側到的至少一手指位置與手掌位置，可攜式電子裝置100可識別出是右手或左手正握持可攜式電子裝置100。具體而言，當感測器感測到(具有較小面積的)點狀觸碰點，處理器102決定點狀觸碰點為手指觸碰，且點狀觸碰點的位置為手指位置。當感測器感側到(具有較大面積的)片狀觸碰點，處理器102決定片狀觸碰點為手掌觸碰，且片狀觸碰點的位置為手掌位置。因此根據手掌位置，處理器102可決定出位於片狀觸碰點上方之點狀觸碰點，即為拇指位置。 According to the position of at least one finger and the palm position sensed by the first sensor 104 and the second sensor 106, the portable electronic device 100 can recognize whether the portable electronic device 100 is being held by the right or left hand. Specifically, when the sensor detects a point-like touch point (with a smaller area), the processor 102 determines that the point-like touch point is a finger touch, and the position of the point-like touch point is a finger position. When the sensor side touches the flake touch point (with a larger area), the processor 102 determines that the flake touch point is a palm touch, and the position of the flake touch point is the palm position. Therefore, according to the palm position, the processor 102 can determine the point-like touch point located above the sheet-like touch point, which is the thumb position.

依據使用者的握持手勢，處理器102可對應控制觸控顯示螢幕109顯示鍵盤影像的位置，以便利使用者之操作。舉例來說，當使用者使用右手(其手指位置在第三側S3上且手掌位置在第四側S4上)握持可攜式電子裝置100時，觸控顯示螢幕109顯示鍵盤影像在鄰近第四側S4的區域中，如第29圖所示，以靠近使用者的右拇指。相反地，當使用者使用左手(其手指位置在第四側S4上且手掌位置在第三側S3上)握持可攜式電子裝置100時，觸控顯示螢幕109顯示鍵盤影像在鄰近第三側S3的區域中，如第30圖所示，以靠近使用者的左拇指。如此，使用者能夠輕易且精確地以拇指敲擊鍵盤。 According to the user's holding gesture, the processor 102 can correspondingly control the position of the keyboard image displayed on the touch display screen 109 to facilitate the user's operation. For example, when the user holds the portable electronic device 100 with his right hand (the finger position is on the third side S3 and the palm position is on the fourth side S4), the touch display screen 109 displays the keyboard image adjacent to the In the area of the four sides S4, as shown in Figure 29, it is close to the user's right thumb. Conversely, when the user uses his left hand (the position of his finger is on the fourth side S4 and the palm position is on the third side S3) to hold the portable electronic device 100, the touch display screen 109 displays that the keyboard image is adjacent to the third side. In the area of side S3, as shown in Fig. 30, it is close to the user's left thumb. In this way, the user can easily and accurately tap the keyboard with his thumb.

當使用者於可攜式電子裝置100之不同狀態中擠壓可攜式電子裝置100(使用者動作2)時，執行對應操作。舉例來說，當可攜式電子裝置100之相機啟動(狀態C)時，使用者擠壓可攜式電子裝置100以拍照或錄影。當使用者觀看影片(狀態D)、聆聽音 樂(狀態E)、或在可攜式電子裝置100上玩遊戲(狀態F)時，使用者擠壓可攜式電子裝置100以暫停/播放影片、音樂或遊戲。當鬧鐘/警報響起(狀態H)時，使用者擠壓可攜式電子裝置100以延遲鬧鐘/警報。當使用者有來電(狀態I)時，使用者擠壓可攜式電子裝置100以接聽來電。參照第5圖，是當使用者擠壓可攜式電子裝置100時之示意圖。使用者動作「擠壓」表示，當使用者握持可攜式電子裝置100時，指用者以手指或手牢牢地按壓可攜式電子裝置100之相對兩長側。當第一感測器104及第二感測器106之感測元件輸出訊號的訊號位準同時超過一力閥值時，處理器102決定使用者動作為「擠壓」。 When the user squeezes the portable electronic device 100 in different states of the portable electronic device 100 (user action 2), a corresponding operation is performed. For example, when the camera of the portable electronic device 100 is activated (state C), the user squeezes the portable electronic device 100 to take a photo or record a video. When the user watches the video (state D), listens to the audio When playing music (state E) or playing a game on the portable electronic device 100 (state F), the user squeezes the portable electronic device 100 to pause/play a video, music or game. When the alarm/alarm sounds (state H), the user squeezes the portable electronic device 100 to delay the alarm/alarm. When the user has an incoming call (state I), the user squeezes the portable electronic device 100 to answer the call. Referring to FIG. 5, it is a schematic diagram when a user squeezes the portable electronic device 100. The user action "squeezing" means that when the user holds the portable electronic device 100, the user firmly presses the opposite long sides of the portable electronic device 100 with his fingers or hands. When the signal levels of the sensing components of the first sensor 104 and the second sensor 106 simultaneously exceed a force threshold, the processor 102 determines that the user action is "squeeze".

當使用者於可攜式電子裝置100之不同狀態中長擠壓可攜式電子裝置100(使用者動作3)時，執行對應操作。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態B/A)、相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置100上玩遊戲(狀態F)、或使用者瀏覽網路/相片(狀態L)時，使用者長擠壓可攜式電子裝置100以藉由聲音或打字來記事。當使用者在通話中(狀態G)時，使用者長擠壓可攜式電子裝置100以結束通話。當鬧鐘/警報響起(狀態H)時，使用者長擠壓可攜式電子裝置100以解除鬧鐘/警報。當使用者有來電(狀態I)時，使用者長擠壓可攜式電子裝置100以拒絕來電。當使用者利用IME撰寫IM/訊息(狀態K)時，使用者長擠壓可攜式電子裝置100以進行語音輸入。當使用者不利用IME撰寫IM/訊息(狀態L)時，使用者長 擠壓可攜式電子裝置100以記錄且傳送語音訊息。使用者動作「長擠壓」表示，使用者持續擠壓第一感測器104及第二感測器106一段時間(大於一時間閥值)。舉例來說，當使用者持續擠壓可攜式電子裝置100的時間大於3秒時，處理器102決定使用者動作為「長擠壓」。 When the user squeezes the portable electronic device 100 in different states of the portable electronic device 100 (user action 3), the corresponding operation is performed. For example, when the screen of the portable electronic device 100 is turned on/off (state B/A), the camera is activated (state C), the user watches videos (state D), listens to music (state E), and is in the portable When playing a game on the electronic device 100 (state F), or when the user browses the Internet/photo (state L), the user squeezes the portable electronic device 100 to make notes by voice or typing. When the user is in a call (state G), the user squeezes the portable electronic device 100 to end the call. When the alarm/alarm sounds (state H), the user squeezes the portable electronic device 100 to release the alarm/alarm. When the user has an incoming call (state I), the user squeezes the portable electronic device 100 to reject the call. When the user composes IM/message (state K) using IME, the user squeezes the portable electronic device 100 for voice input. When the user does not use IME to compose IM/message (status L), the user Squeeze the portable electronic device 100 to record and transmit voice messages. The user action "long squeeze" means that the user continues to squeeze the first sensor 104 and the second sensor 106 for a period of time (greater than a time threshold). For example, when the user continues to squeeze the portable electronic device 100 for more than 3 seconds, the processor 102 determines that the user action is a "long squeeze".

當使用者在可攜式電子裝置100之不同狀態中雙擠壓可攜式電子裝置100(使用者動作4)時，執行對應操作。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態B/A)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置100上玩遊戲(狀態F)、使用者有來電(狀態G)、鬧鐘/警報響起(狀態H)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者雙擠壓可攜式電子裝置100以啟動相機。使用者動作「雙擠壓」表示，使用者在一時間間隔內連續擠壓第一感測器104及第二感測器106兩次。舉例來說，當使用者在兩秒內擠壓可攜式電子裝置100兩次時，處理器102決定使用者動作為「雙擠壓」。於一實施例中，使用者動作「雙擠壓」之對應操作可客製化。也就是說，使用者可重新設定對應操作。舉例來說，對應操作「開啟相機」重新設定成「開啟喜愛的應用程式(apps)」。 When the user double-squeezes the portable electronic device 100 in different states of the portable electronic device 100 (user action 4), the corresponding operation is performed. For example, when the screen of the portable electronic device 100 is turned on/off (state B/A), the user watches a video (state D), listens to music (state E), and plays a game on the portable electronic device 100 ( State F), the user has an incoming call (state G), the alarm/alarm goes off (state H), the user uses or does not use the IME to compose IM/messages (state J or K), or the user browses the Internet/photo (state In L), the user double-squeezes the portable electronic device 100 to activate the camera. The user action "double squeeze" means that the user squeezes the first sensor 104 and the second sensor 106 twice in a time interval. For example, when the user squeezes the portable electronic device 100 twice within two seconds, the processor 102 determines that the user action is "double squeeze". In one embodiment, the corresponding operation of the user action "double squeeze" can be customized. In other words, the user can reset the corresponding operation. For example, the corresponding operation "open camera" is reset to "open favorite apps (apps)".

當使用者的手指在可攜式電子裝置100之不同狀態中於可攜式電子裝置100之一長側上滑動(使用者動作5)時，執行對應操作。對應於使用者之滑動動作，第一感測器104或第二感測 器106之多個感測元件於特定時段內連續且相繼輸出感測訊號，處理器102據所述感測訊號以決定使用者動作為「滑動」。舉例來說，當可攜式電子裝置100之螢幕開啟(狀態B)，或使用者瀏覽網路/相片(狀態L)時，使用者在可攜式電子裝置100之一長側上滑動，以捲動顯示於觸控顯示螢幕109上之頁面/內容。當可攜式電子裝置100之相機啟動(狀態C)時，使用者手指以橫向模式握持可攜式電子裝置100並於上側(第三側S3)滑動以調整亮度，或在下側(第四側S4)滑動以縮放觸控顯示螢幕109的顯示畫面。當使用者觀看影片(狀態D)時，使用者手指以橫向模式握持可攜式電子裝置100並於上側(第三側S3)滑動以調整亮度，或在下側(第四側S4)滑動以調整進度條。當使用者聆聽音樂(狀態E)時，使用者手指在第三側S3或第四側S4上滑動，以調整進度條。當使用者玩遊戲(狀態F)時，使用者以橫向模式握持可攜式電子裝置100並於上側(第三側S3)滑動以關閉提醒及開啟勿擾模式(do not disturb，DND)。參照第6圖，是當使用者手指於可攜式電子裝置100之一長側上滑動時之示意圖。使用者動作「滑動」表示當使用者握持可攜式電子裝置100時，使用者使用一手指觸碰其一長側並沿長側移動手指。 When the user's finger slides on a long side of the portable electronic device 100 in different states of the portable electronic device 100 (user action 5), the corresponding operation is performed. Corresponding to the user’s sliding action, the first sensor 104 or the second sensor The multiple sensing elements of the device 106 continuously and successively output sensing signals in a specific time period, and the processor 102 determines the user's action as "slide" according to the sensing signals. For example, when the screen of the portable electronic device 100 is turned on (state B), or the user browses the Internet/photo (state L), the user swipes on one of the long sides of the portable electronic device 100 to Scroll the page/content displayed on the touch display screen 109. When the camera of the portable electronic device 100 is activated (state C), the user's fingers hold the portable electronic device 100 in landscape mode and slide on the upper side (third side S3) to adjust the brightness, or on the lower side (fourth side) Side S4) Slide to zoom the display screen of the touch display screen 109. When the user watches the video (state D), the user's fingers hold the portable electronic device 100 in landscape mode and slide on the upper side (third side S3) to adjust the brightness, or slide on the lower side (fourth side S4) to Adjust the progress bar. When the user listens to music (state E), the user's finger slides on the third side S3 or the fourth side S4 to adjust the progress bar. When the user is playing a game (state F), the user holds the portable electronic device 100 in landscape mode and slides on the upper side (the third side S3) to turn off the reminder and turn on the do not disturb (DND) mode. Referring to FIG. 6, it is a schematic diagram when a user's finger slides on one of the long sides of the portable electronic device 100. The user action "slide" means that when the user holds the portable electronic device 100, the user touches a long side of the portable electronic device 100 and moves the finger along the long side.

當使用者手指在可攜式電子裝置100之不同狀態中於可攜式電子裝置100之兩長側上滑動(使用者動作6)時，執行對應操作。對應於使用者之滑動動作，第一感測器104及第二感測器106之感測元件於特定時段內連續且相繼輸出之感測訊號，處理器 102據所述感測訊號以決定使用者動作。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態B/A)、相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置100上玩遊戲(狀態F)、使用者在通話中(狀態G)、鬧鐘/警報響起(狀態H)、使用者有來電(狀態I)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者手指在可攜式電子裝置100之兩長側上滑動，以擷取觸控顯示螢幕109的顯示畫面(螢幕擷取)。參照第7圖，是當使用者手指於可攜式電子裝置100之兩長側上滑動時之示意圖。使用者動作「滑動兩側」表示，當使用者握持可攜式電子裝置100時，使用者使用至少兩手指觸碰兩長側並沿著兩長側同時移動手指。 When the user's fingers slide on the two long sides of the portable electronic device 100 in different states of the portable electronic device 100 (user action 6), the corresponding operation is performed. Corresponding to the sliding action of the user, the sensing elements of the first sensor 104 and the second sensor 106 continuously and successively output the sensing signals in a specific period of time, the processor 102 determines user actions according to the sensing signal. For example, when the screen of the portable electronic device 100 is turned on/off (state B/A), the camera is activated (state C), the user watches videos (state D), listens to music (state E), and is in the portable Playing games on the electronic device 100 (state F), the user is on a call (state G), the alarm/alarm goes off (state H), the user has an incoming call (state I), the user uses or does not use IME to compose IM/messages (State J or K), or when the user browses the Internet/photo (state L), the user's fingers slide on the two long sides of the portable electronic device 100 to capture the display screen of the touch display screen 109 ( Screen capture). Referring to FIG. 7, it is a schematic diagram when the user's fingers slide on the two long sides of the portable electronic device 100. The user action "sliding both sides" means that when the user holds the portable electronic device 100, the user touches the two long sides with at least two fingers and moves the fingers along the two long sides simultaneously.

當使用者在可攜式電子裝置100之不同狀態中按壓音量位置(使用者動作7)時，執行對應操作。音量位置為在長側上之特定位置。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態E)、相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置100上玩遊戲(狀態F)、使用者在通話中(狀態G)、鬧鐘/警報響起(狀態H)、使用者有來電(狀態I)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者按壓可攜式電子裝置100之一長側之音量位置，以調整音量。舉例來說，使用者可按壓音量位置的第一部分(例如鄰近第一側S1的一長側的上方部分)以提高音量，或使 用者可按壓相對於第一部分之第二部分(例如鄰近第二側S2的一長側的下方部分)以降低音量。 When the user presses the volume position in different states of the portable electronic device 100 (user action 7), the corresponding operation is performed. The volume position is a specific position on the long side. For example, when the screen of the portable electronic device 100 is turned on/off (state E), the camera is activated (state C), the user watches a video (state D), listens to music (state E), and the portable electronic device Play a game on 100 (state F), user is in a call (state G), alarm/alarm goes off (state H), user has an incoming call (state I), user writes IM/message with or without IME (state H) J or K), or when the user browses the Internet/photo (state L), the user presses the volume position on the long side of the portable electronic device 100 to adjust the volume. For example, the user can press the first part of the volume position (for example, the upper part of a long side adjacent to the first side S1) to increase the volume, or make The user can press a second part opposite to the first part (for example, a lower part adjacent to a long side of the second side S2) to reduce the volume.

當使用者在可攜式電子裝置100之不同狀態中握持可攜式電子裝置100且手觸碰第三側S3與第四側S4時，手指在其中一側上快速滑動(使用者動作8)時，執行對應操作。舉例來說，當可攜式電子裝置100之螢幕開啟/關閉(狀態B/A)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置100上玩遊戲(狀態F)、使用者在通話中(狀態G)、鬧鐘/警報響起(狀態H)、使用者有來電(狀態I)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者握持可攜式電子裝置100且手指在其一長側上快速滑動，以開啟/關閉閃光燈。參照第8圖，是當使用者手指於可攜式電子裝置100之一長側上快速滑動時之示意圖。使用者動作「快速滑動」表示使用者手指於一預定期間內在可攜式電子裝置100之一長側上快速滑動一距離(大於一距離閥值)。舉例來說，於預定期間內，當使用者手指在可攜式電子裝置100之一長側之上滑動超過5公分時，處理器102決定使用者動作為「快速滑動」。於一實施例中，使用者動作「快速滑動」之對應操作可客製化。也就是說，使用者可重新設定對應操作。舉例來說，對應操作「開啟/關閉閃光燈」重新設定成「開啟靜音/DND模式」、「開啟飛航模式」、或「開啟Wi-Fi熱點」。 When the user holds the portable electronic device 100 in different states of the portable electronic device 100 and touches the third side S3 and the fourth side S4 with the hand, the finger slides quickly on one side (user action 8 ), execute the corresponding operation. For example, when the screen of the portable electronic device 100 is turned on/off (state B/A), the user watches a video (state D), listens to music (state E), and plays a game on the portable electronic device 100 ( State F), the user is in a call (state G), the alarm/alarm sounds (state H), the user has an incoming call (state I), the user uses or does not use IME to compose IM/messages (state J or K), Or when the user browses the Internet/photo (state L), the user holds the portable electronic device 100 and slides his finger quickly on one long side thereof to turn on/off the flash. Referring to FIG. 8, it is a schematic diagram when a user's finger slides quickly on one of the long sides of the portable electronic device 100. The user action "quick swipe" means that the user's finger quickly slides a distance (greater than a distance threshold) on a long side of the portable electronic device 100 within a predetermined period. For example, in a predetermined period, when the user's finger slides more than 5 cm on one of the long sides of the portable electronic device 100, the processor 102 determines that the user's action is "quick swipe". In one embodiment, the corresponding operation of the user action "quick swipe" can be customized. In other words, the user can reset the corresponding operation. For example, the corresponding operation "Turn on/off the flash" is reset to "Turn on silent/DND mode", "Turn on airplane mode", or "Turn on Wi-Fi hotspot".

當使用者在可攜式電子裝置100之不同狀態中於橫向模式中在其一長側之左及右部上按壓(使用者動作9)時，執行對 應操作。舉例來說，當使用者於橫向模式中之可攜式電子裝置100上玩遊戲(狀態F)時，使用者在可攜式電子裝置100之一長側(舉例為側S3)之左及右部上同時按壓，以開啟螢幕記錄工具。參照第9圖，是使用者在可攜式電子裝置100於橫向模式中同時按壓其一長側之左部及右部時之示意圖。螢幕記錄工具118為遊戲之控制界面。 When the user presses on the left and right parts of one long side of the portable electronic device 100 in the landscape mode in different states of the portable electronic device 100 (user action 9), the pairing is performed Should operate. For example, when the user plays a game on the portable electronic device 100 in landscape mode (state F), the user is on the left and right of one of the long sides of the portable electronic device 100 (for example, side S3) Press the buttons simultaneously to open the screen recording tool. Referring to FIG. 9, it is a schematic diagram of the portable electronic device 100 when the user simultaneously presses the left and right portions of one long side of the portable electronic device 100 in landscape mode. The screen recording tool 118 is the control interface of the game.

在擠壓可攜式電子裝置100的期間，使用者可能無法維持恆定的施力水平，故使用者的施力曲線會呈現或高或低的抖動曲線狀態。因此，於另一實施例中，針對擠壓及釋放將設定不同的比較閥值，以改善辨識擠壓動作的成功率。舉例來說，參照第10圖，擠壓閥值TH1用以輔助決定擠壓動作是否開始，釋放閥值TH2用以輔助決定擠壓動作是否結束，其中TH2小於TH1。 During the squeezing of the portable electronic device 100, the user may not be able to maintain a constant applied force level, so the user's force curve may show a higher or lower jitter curve state. Therefore, in another embodiment, different comparison thresholds are set for squeeze and release to improve the success rate of identifying the squeeze action. For example, referring to Figure 10, the squeeze threshold TH1 is used to assist in determining whether the squeezing action starts, and the release threshold TH2 is used to assist in deciding whether the squeezing action ends, where TH2 is less than TH1.

擠壓閥值TH1可經由在可攜式電子裝置100之擠壓設定程序期間測試使用者之擠壓力來設定。釋放閥值TH2可根據擠壓閥值TH1設定。 The squeeze threshold TH1 can be set by testing the squeeze force of the user during the squeeze setting procedure of the portable electronic device 100. The release threshold TH2 can be set according to the squeeze threshold TH1.

擠壓設定程序可包括請求使用者擠壓可攜式電子裝置100數次，並通過感測元件偵測使用者擠壓可攜式電子裝置100時之測試壓力F1，處理器102以根據測試壓力F1決定設定壓力F2為擠壓閥值TH1。 The squeeze setting procedure may include requesting the user to squeeze the portable electronic device 100 several times, and detect the test pressure F1 when the user squeezes the portable electronic device 100 through the sensing element, and the processor 102 can respond to the test pressure F1 determines the set pressure F2 as the squeeze threshold TH1.

設定壓力F2可為測試壓力F1之百分位值(percentile value)。舉例來說，於一實施例中，測試壓力F1可為100、150、及200(壓力單位)，及根據最小值100(壓力單位)及最 大值200(壓力單位)計算之設定壓力F2(或擠壓閥值TH1)為75th百分位值之175(壓力單位)。本揭露不以此為限。於另一實施例中，舉例來說，測試壓力F1可為100、150、及200(壓力單位)，及設定壓力F2(或擠壓閥值TH1)為150(壓力單位)，150(壓力單位)為此三個測試壓力F1之平均值。 The set pressure F2 can be the percentile value of the test pressure F1. For example, in one embodiment, the test pressure F1 can be 100, 150, and 200 (pressure unit), and according to the minimum value 100 (pressure unit) and the maximum The set pressure F2 (or squeeze threshold TH1) calculated with a maximum value of 200 (pressure unit) is 175 (pressure unit) of the 75th percentile value. This disclosure is not limited to this. In another embodiment, for example, the test pressure F1 can be 100, 150, and 200 (pressure unit), and the set pressure F2 (or squeeze threshold TH1) is 150 (pressure unit), 150 (pressure unit) ) Is the average value of the three test pressures F1.

於一實施例中，二或多個設定壓力F2可透過擠壓設定程序設定。設定壓力F2可依序分類(舉例為對應於100、150、200(壓力單位)之尺寸順序)成使用者介面中之數個圖式，及此二或多個設定壓力F2之其中一者(舉例為150(壓力單位))可由使用者選擇來作為擠壓閥值TH1。接著，如果使用者認為作為擠壓閥值TH1之此一設定壓力F2(舉例為150(壓力單位))不符合實際需求時，使用者可設定此二或多個設定壓力F2之另一者作為擠壓閥值TH1。舉例來說，當使用者認為150(壓力單位)太高時，使用者可重新設定低於150(壓力單位)之100(壓力單位)作為擠壓閥值TH1；或者當使用者認為150(壓力單位)太低時，使用者可重新設定高於150(壓力單位)之200(壓力單位)作為擠壓閥值TH1。 In one embodiment, two or more setting pressures F2 can be set through the squeeze setting procedure. The set pressure F2 can be sorted in order (for example, corresponding to the size sequence of 100, 150, 200 (pressure unit)) into several patterns in the user interface, and one of the two or more set pressures F2 ( For example, 150 (pressure unit)) can be selected by the user as the squeeze threshold TH1. Then, if the user thinks that the set pressure F2 (for example, 150 (pressure unit)) as the squeeze threshold TH1 does not meet the actual demand, the user can set the other of the two or more set pressures F2 as Squeeze threshold TH1. For example, when the user thinks 150 (pressure unit) is too high, the user can reset 100 (pressure unit) lower than 150 (pressure unit) as the squeeze threshold TH1; or when the user thinks 150 (pressure unit) When the unit is too low, the user can reset the 200 (pressure unit) higher than 150 (pressure unit) as the squeeze threshold TH1.

處理器102可根據擠壓閥值TH1決定釋放閥值TH2。於一實施例中，釋放閥值TH2可為擠壓閥值TH1之特定比(小於100%)。舉例來說，釋放閥值TH2為75%的擠壓閥值TH1。舉例來說，假設擠壓閥值TH1為175(壓力單位)時，釋放閥值TH2為131.25(壓力單位)。 The processor 102 may determine the release threshold TH2 according to the squeeze threshold TH1. In one embodiment, the release threshold TH2 may be a specific ratio (less than 100%) of the squeeze threshold TH1. For example, the release threshold TH2 is 75% of the squeeze threshold TH1. For example, if the squeeze threshold TH1 is 175 (pressure unit), the release threshold TH2 is 131.25 (pressure unit).

在設定TH1及TH2後，當開始於時間點TM1之按壓動作之壓力於時間點TM2達到擠壓閥值TH1時，處理器102決定擠壓動作開始。反之，當開始於時間點TM1之按壓動作之壓力沒有達到擠壓閥值TH1時，處理器102不會識別出擠壓動作的開始。舉例來說，沒有達到擠壓閥值之按壓動作可包括使用者於可攜式電子裝置100上之常態握持動作，如此處理器102將不觸發可攜式電子裝置100執行對應的功能操作，即處理器102識別擠壓動作為無效擠壓事件，故不執行相應預設功能。在壓力達到擠壓閥值TH1之後且低於釋放閥值TH2時，處理器102決定使用者之擠壓動作結束，即處理器102識別擠壓動作為有效的擠壓事件，故執行相應的預設功能。 After setting TH1 and TH2, when the pressure of the pressing action starting at the time point TM1 reaches the squeezing threshold TH1 at the time point TM2, the processor 102 determines to start the squeezing action. Conversely, when the pressure of the pressing action started at the time point TM1 does not reach the squeezing threshold TH1, the processor 102 will not recognize the beginning of the squeezing action. For example, the pressing action that does not reach the squeeze threshold may include the user's normal holding action on the portable electronic device 100, so that the processor 102 will not trigger the portable electronic device 100 to perform the corresponding functional operation. That is, the processor 102 recognizes that the squeezing action is an invalid squeezing event, and therefore does not execute the corresponding preset function. After the pressure reaches the squeeze threshold TH1 and is lower than the release threshold TH2, the processor 102 determines that the user’s squeezing action ends, that is, the processor 102 recognizes that the squeezing action is a valid squeezing event, and therefore executes the corresponding pre-processing. Set function.

處理器102決定時段PT1(到達擠壓閥值TH1時的時間點TM2及下達釋放閥值TH2時的時間點TM3間的區間)作為擠壓動作之時段。相較於時間閥值，處理器102依據時段PT1可決定擠壓動作為長擠壓動作或短擠壓動作。於一實施例中，當時段PT1小於或等於時間閥值0.7秒時，擠壓動作決定為短擠壓動作。當時段PT1大於時間閥值0.7秒時，擠壓動作決定為長擠壓動作。 The processor 102 determines the time period PT1 (the interval between the time point TM2 when the squeeze threshold TH1 is reached and the time point TM3 when the release threshold TH2 is issued) as the time period of the squeezing action. Compared with the time threshold, the processor 102 can determine whether the squeezing action is a long squeezing action or a short squeezing action according to the time period PT1. In one embodiment, when the time period PT1 is less than or equal to the time threshold of 0.7 seconds, the squeezing action is determined to be a short squeezing action. When the time period PT1 is greater than the time threshold of 0.7 seconds, the squeezing action is determined to be a long squeezing action.

根據擠壓動作(長擠壓動作或短擠壓動作)，處理器102可決定可攜式電子裝置100之功能操作。對應於感應之短/長擠壓動作的功能動作可由可攜式電子裝置100執行。於另一實施例中，只有長擠壓動作將啟動可攜式電子裝置100之特定功能動作，而忽略短擠壓動作。 According to the squeezing action (long squeezing action or short squeezing action), the processor 102 can determine the functional operation of the portable electronic device 100. The functional action corresponding to the short/long squeezing action can be executed by the portable electronic device 100. In another embodiment, only the long squeeze action will activate the specific functional action of the portable electronic device 100, and the short squeeze action is ignored.

於另一實施例中，依使用者擠壓可攜式電子裝置100的實際操作情況，處理器102可動態調整擠壓閥值TH1及釋放閥值TH2的數值。舉例來說，如果二或多個擠壓動作由使用者於短時間間隔內執行，舉例為快速及持續執行相片擷取功能時，則在第一個擠壓動作後的至少一接續擠壓動作可根據擠壓閥值TH1’及釋放閥值TH2’決定，擠壓閥值TH1’及釋放閥值TH2’分別根據擠壓閥值TH1及釋放閥值TH2來調整以取得，且分別小於擠壓閥值TH1及釋放閥值TH2。舉例來說，TH1’=0.95*(TH1)且TH2’=0.95*(TH2)。然而，本揭露不以此為限。如第11圖中所示，於一實施例中，如果第一及第二個擠壓動作間的時間間隔短於特定值，且所述時間間隔例如為，第二個擠壓動作之時間點TM5及第一個擠壓動作之時間點TM3間的時段PT2，則第二個擠壓動作可由擠壓閥值TH1’及釋放閥值TH2’決定。類似地，如果第二及第三擠壓動作間的時間間隔短於特定值，則第三個擠壓動作可由另一閥值TH1”及TH2”(未繪示)決定，閥值TH1”及TH2”係分別根據閥值TH1’及TH2’來調整以取得，且分別小於閥值TH1’及TH2’。舉例來說，TH1”=0.95*(TH1’)及TH2”=0.95*(TH2’)。反之，如果第二及第三擠壓動作間的時間間隔大於特定值，則第三個擠壓動作可由閥值TH1及TH2決定。 In another embodiment, the processor 102 can dynamically adjust the values of the squeeze threshold TH1 and the release threshold TH2 according to the actual operation of the user squeezing the portable electronic device 100. For example, if two or more squeezing actions are executed by the user in a short time interval, for example, when the photo capture function is executed quickly and continuously, at least one subsequent squeezing action after the first squeezing action It can be determined according to the squeeze threshold TH1' and the release threshold TH2'. The squeeze threshold TH1' and the release threshold TH2' are adjusted according to the squeeze threshold TH1 and the release threshold TH2, respectively, and they are smaller than the squeeze Threshold TH1 and release threshold TH2. For example, TH1'=0.95*(TH1) and TH2'=0.95*(TH2). However, this disclosure is not limited to this. As shown in Figure 11, in one embodiment, if the time interval between the first and second squeezing actions is shorter than a certain value, and the time interval is, for example, the time point of the second squeezing action In the time period PT2 between TM5 and the time point TM3 of the first squeezing action, the second squeezing action can be determined by the squeezing threshold TH1' and the release threshold TH2'. Similarly, if the time interval between the second and third squeezing actions is shorter than a certain value, the third squeezing action can be determined by another threshold TH1” and TH2” (not shown), the threshold TH1” and TH2" is obtained by adjusting according to the threshold values TH1' and TH2' respectively, and is smaller than the threshold values TH1' and TH2' respectively. For example, TH1"=0.95*(TH1') and TH2"=0.95*(TH2'). Conversely, if the time interval between the second and third squeezing actions is greater than a specific value, the third squeezing action can be determined by the thresholds TH1 and TH2.

於另一實施例中，擠壓閥值可動態地調整。有別於從設定程序取得之擠壓閥值TH1，擠壓閥值可根據使用者的經常擠壓動作以動態調整，而非依設定取得。舉例來說，由擠壓曲線 及擠壓閥值TH1定義之區域A(第12圖)之平均值係與固定特定值相較。舉例來說，區域A之平均值為區域A除以區域A之時段得出之壓力單位值。當區域A之平均值小於固定特定值時，動態調整擠壓閥值以低於原本的擠壓閥值TH1，且接續的擠壓動作根據調整後的擠壓閥值決定。類似地，當區域A之平均值大於固定特定值時，動態調整擠壓閥值以高於原本的擠壓閥值TH1，且接續的擠壓動作根據調整後的擠壓閥值決定。擠壓閥值的動態調整方式並不限定於上述的決定方法，而可根據其他的統計方式判定。 In another embodiment, the squeeze threshold can be dynamically adjusted. Different from the squeeze threshold TH1 obtained from the setting program, the squeeze threshold can be dynamically adjusted according to the user's frequent squeezing action, instead of being obtained by setting. For example, from the extrusion curve And the average value of area A (Figure 12) defined by the squeeze threshold TH1 is compared with a fixed specific value. For example, the average value of area A is the pressure unit value obtained by dividing area A by the time period of area A. When the average value of the area A is less than the fixed specific value, the squeeze threshold is dynamically adjusted to be lower than the original squeeze threshold TH1, and the subsequent squeeze action is determined according to the adjusted squeeze threshold. Similarly, when the average value of the area A is greater than the fixed specific value, the squeeze threshold is dynamically adjusted to be higher than the original squeeze threshold TH1, and the subsequent squeeze action is determined according to the adjusted squeeze threshold. The dynamic adjustment method of the squeeze threshold is not limited to the above-mentioned determination method, but can be determined according to other statistical methods.

於一實施例中，判斷為非常態擠壓動作所得出之曲線係不考慮用來動態調整擠壓閥值。舉例來說，判斷係根據對應於區域A之曲線的頂點之曲率值，或接近曲線之頂點之部份的斜率值進行。當曲率值或斜率值係小於一固定特定值時，擠壓動作係決定為非常態動作，故從此擠壓動作所取得之資料係不考慮用於動態調整擠壓閥值。 In one embodiment, the curve determined as an abnormal extrusion action is not considered for dynamically adjusting the extrusion threshold. For example, the judgment is made based on the curvature value of the apex of the curve corresponding to the area A, or the slope value of the part close to the apex of the curve. When the curvature value or the slope value is less than a fixed specific value, the squeezing action is determined to be an abnormal action, so the data obtained from the squeezing action is not considered for dynamically adjusting the squeezing threshold.

在按壓動作期間之壓力可繪示成在可攜式電子裝置100之觸控顯示螢幕109的視覺影像。於一實施例中，觸控顯示螢幕109開始顯示初始視覺影像(第13A圖)，對應於特定固定壓力TH3，如第15圖中所示。特定壓力TH3係低於任何一個閥值(例如是TH1、TH1’、TH1”等、TH2、TH2’、TH2”等)，用以決定擠壓動作是否執行。特定壓力TH3可為固定預定值，而無需考慮由使用者執行設定程序。在成功之擠壓過程中，當壓力從特定壓力TH3增加時，視覺影像逐漸地依序改變成如第13B圖至第13G 圖中所示之影像，且於壓力達到閥值TH1時更改變成如第13H圖至第13I圖所示之影像，用以表示有效擠壓動作係執行以執行預設功能。在不成功之擠壓過程中，舉例來說，當壓力從特定壓力TH3增加時，視覺影像逐漸地依序改變成如第13B圖至第13G圖中所示之影像，且當壓力從對應於第13D圖之時間點不久之後的時間點消失時，更依序改變成如第14A圖至第14D圖中所示之逐漸消失的影像，其表示沒有執行有效擠壓動作，故不執行對應預設功能。 The pressure during the pressing action can be drawn as a visual image on the touch display screen 109 of the portable electronic device 100. In one embodiment, the touch display screen 109 starts to display the initial visual image (FIG. 13A), which corresponds to the specific fixed pressure TH3, as shown in FIG. 15. The specific pressure TH3 is lower than any threshold (for example, TH1, TH1', TH1", etc., TH2, TH2', TH2", etc.) to determine whether the squeezing action is performed. The specific pressure TH3 can be a fixed predetermined value, regardless of the user performing the setting procedure. In the successful extrusion process, when the pressure increases from the specific pressure TH3, the visual image gradually changes sequentially as shown in Figure 13B to Figure 13G The image shown in the figure, and when the pressure reaches the threshold TH1, changes to the image shown in Figure 13H to Figure 13I to indicate that the effective squeezing action is executed to perform the preset function. In the unsuccessful extrusion process, for example, when the pressure increases from a specific pressure TH3, the visual image gradually changes to the image shown in Figure 13B to Figure 13G, and when the pressure changes from corresponding to When the time point in Figure 13D disappears shortly after the time point, it changes to the gradually disappearing image as shown in Figure 14A to Figure 14D, which means that no effective squeezing action is performed, so the corresponding pre-processing is not performed. Set function.

參照第16圖，根據可攜式電子裝置100之邊緣感測器40感測之按壓動作，禁能觸控顯示螢幕109中之特定區域的觸控功能。舉例來說，當處理器102經由第一感測器104及/或第二感測器104決定按壓動作(或擠壓動作)之力高於預設值(舉例為閥值TH1)時，禁能區域60之觸控功能，而觸控顯示螢幕109之顯示功能仍可作用。當按壓動作(或擠壓動作)之力小於預設值(舉例為閥值TH2)時，處理器102恢復區域60之觸控功能。換句話說，區域60的觸控功能在對應閥值TH1之時間點與對應閥值TH2之時間點間的時段期間被禁能，並在對應閥值TH2之時間點後恢復。於一實施例中，區域60之觸控功能在時段PT1中禁能，繪示於第10圖中。於一實施例中，對應於逐漸增加之壓力之情況下，可增加被禁能之區域60的面積，即從觸控顯示螢幕109之邊緣逐漸地朝向觸控顯示螢幕109之中心延伸而增加。也就是說，區域60之寬度W可在第一感測器104及/或第二感測器104感測之壓力增加時增加。於另一實施例中，當處理器102決定按壓動作(或擠壓動作) 之力高於預定值(舉例為閥值TH1)時，可禁能整個觸控顯示螢幕109之觸控功能。 Referring to FIG. 16, according to the pressing action sensed by the edge sensor 40 of the portable electronic device 100, the touch function of a specific area in the touch display screen 109 is disabled. For example, when the processor 102 determines through the first sensor 104 and/or the second sensor 104 that the force of the pressing action (or squeezing action) is higher than a preset value (for example, the threshold TH1), the The touch function of the area 60 can be used, but the display function of the touch display screen 109 can still work. When the force of the pressing action (or pressing action) is less than the preset value (for example, the threshold TH2), the processor 102 restores the touch function of the area 60. In other words, the touch function of the area 60 is disabled during the time period between the time point corresponding to the threshold value TH1 and the time point corresponding to the threshold value TH2, and is restored after the time point corresponding to the threshold value TH2. In one embodiment, the touch function of the area 60 is disabled during the time period PT1, as shown in FIG. 10. In one embodiment, corresponding to the gradually increasing pressure, the area of the disabled area 60 can be increased, that is, it gradually extends from the edge of the touch display screen 109 toward the center of the touch display screen 109 and increases. That is, the width W of the region 60 may increase when the pressure sensed by the first sensor 104 and/or the second sensor 104 increases. In another embodiment, when the processor 102 determines the pressing action (or squeezing action) When the force is higher than a predetermined value (for example, the threshold value TH1), the touch function of the entire touch display screen 109 can be disabled.

於一實施例中，當可攜式電子裝置偵測到週邊裝置之***事件或拔出事件時，忽略由邊緣感測器感應之擠壓事件。擠壓事件可在由邊緣感測器感測於第一時段期間發生之擠壓動作時產生。***事件或拔出事件係在第一時段期間發生。擠壓動作可在***事件或拔出事件發生後的第二時段中開始。 In one embodiment, when the portable electronic device detects the insertion event or the removal event of the peripheral device, the squeezing event sensed by the edge sensor is ignored. The squeezing event may be generated when the edge sensor detects the squeezing action occurring during the first time period. The plug-in event or the unplug event occurs during the first period. The squeezing action may start in the second period after the insertion event or the withdrawal event occurs.

參照第17圖，是本發明另一實施例之可攜式電子裝置200之方塊圖。可攜式電子裝置200更包括偵測單元233，其例如為USB、耳機或其他接口偵測電路，用以偵測硬體元件的***及拔出。處理器102電性耦接第一感測器104、第二感測器106、顯示單元108及偵測單元233。 Referring to FIG. 17, it is a block diagram of a portable electronic device 200 according to another embodiment of the present invention. The portable electronic device 200 further includes a detection unit 233, which is, for example, a USB, earphone or other interface detection circuit for detecting the insertion and removal of hardware components. The processor 102 is electrically coupled to the first sensor 104, the second sensor 106, the display unit 108, and the detection unit 233.

舉例來說，參照第18圖，於一實施例中，當週邊裝置117(舉例為USB裝置)舉例為耳機、照明裝置、電扇、或隨身碟等，且偵測單元233在時段PT1期間之時間點TM4偵測到週邊裝置117***可攜式電子裝置200或從可攜式電子裝置200拔出時，由邊緣感測器感測到之擠壓動作將被處理器102忽略，例如邊緣感測器40被處理器102禁能，或對應於感測到之(短/長)擠壓事件之功能動作係由可攜式電子裝置200取消(不執行)。 For example, referring to FIG. 18, in one embodiment, when the peripheral device 117 (for example, a USB device) is, for example, a headset, a lighting device, an electric fan, or a flash drive, etc., and the time of the detection unit 233 during the period PT1 When the point TM4 detects that the peripheral device 117 is inserted into or removed from the portable electronic device 200, the squeezing motion sensed by the edge sensor will be ignored by the processor 102, such as edge sensing The device 40 is disabled by the processor 102, or the functional action corresponding to the sensed (short/long) squeeze event is cancelled (not executed) by the portable electronic device 200.

於一實施例中，當可攜式電子裝置200於時間點TM4偵測到週邊裝置117之***事件或拔出事件時，邊緣感測器40係從時間點TM4開始之一時段禁能，此時段舉例為時間點TM4 及時間點TM3之間，或時間點TM4及晚於時間點TM3之時間點之間。 In one embodiment, when the portable electronic device 200 detects the insertion event or removal event of the peripheral device 117 at the time TM4, the edge sensor 40 is disabled for a period of time starting from the time TM4. Time period example is time point TM4 And the time point TM3, or between the time point TM4 and the time point later than the time point TM3.

舉例來說，週邊裝置117之USB驅動器可在***事件或拔出事件發生時通知感測器中樞(sensor hub)，且對應於由邊緣感測器40感測之功能動作不被可攜式電子裝置200啟動。也就是說，忽略在時間點TM4附近發生的擠壓動作。於一實施例中，在時間點TM4後之一特定時間間隔內之擠壓動作係被忽略。舉例來說，在時間點TM4及時間點TM3之時段期間的擠壓動作被忽略。在時間點TM4及時間點TM3後之一時間點間之時段期間的擠壓動作被忽略。或者，在時間點TM3後之擠壓動作被忽略。 For example, the USB driver of the peripheral device 117 can notify the sensor hub when an insertion event or an unplug event occurs, and corresponding to the functional action sensed by the edge sensor 40, the portable electronics The device 200 starts. In other words, the squeezing action occurring near the time point TM4 is ignored. In one embodiment, the squeezing action in a specific time interval after the time point TM4 is ignored. For example, the squeezing action during the period of time TM4 and time TM3 is ignored. The squeezing action during the period between the time point TM4 and a time point after the time point TM3 is ignored. Or, the squeezing action after the time point TM3 is ignored.

參照第19圖，是本發明另一實施例之可攜式電子裝置300之方塊圖。可攜式電子裝置300更包括第三感測器210及G感測器212。處理器102電性耦接第一感測器104、第二感測器106、顯示單元108、第三感測器210及G感測器212。第三感測器210可為電阻感測器或超音波感測器。第三感測器210設置於可攜式電子裝置300之背蓋的下方。第三感測器210包括以二維方式配置的數個感測元件。當使用者觸碰可攜式電子裝置300之背蓋時，第三感測器210的感測元件對應輸出訊號。處理器102根據第三感測器210的輸出訊號決定使用者是否觸碰可攜式電子裝置300之背蓋(例如如第22圖中所示之掌覆或敲擊背蓋)。此外，處理器102根據從G感測器212及/或其他合適之移動感測器例如加速感測 器、振動感測器、搖動感測器等感測器之輸出訊號來決定可攜式電子裝置300是否被搖動或翻轉(如第21圖所示)。 Referring to FIG. 19, it is a block diagram of a portable electronic device 300 according to another embodiment of the present invention. The portable electronic device 300 further includes a third sensor 210 and a G sensor 212. The processor 102 is electrically coupled to the first sensor 104, the second sensor 106, the display unit 108, the third sensor 210, and the G sensor 212. The third sensor 210 may be a resistance sensor or an ultrasonic sensor. The third sensor 210 is disposed under the back cover of the portable electronic device 300. The third sensor 210 includes several sensing elements arranged in a two-dimensional manner. When the user touches the back cover of the portable electronic device 300, the sensing element of the third sensor 210 correspondingly outputs a signal. The processor 102 determines whether the user touches the back cover of the portable electronic device 300 according to the output signal of the third sensor 210 (for example, palm covering or tapping the back cover as shown in FIG. 22). In addition, the processor 102 performs acceleration sensing based on the slave G sensor 212 and/or other suitable motion sensors such as The output signals of sensors, such as sensors, vibration sensors, and shaking sensors, determine whether the portable electronic device 300 is shaken or turned over (as shown in FIG. 21).

參照第19圖及表2-1、2-2及2-3，當使用者在可攜式電子裝置300之不同狀態中雙敲擊後蓋(使用者動作10)時，執行對應操作。舉例來說，當可攜式電子裝置300螢幕開啟(狀態A)、可攜式電子裝置300之相機啟動(狀態C)、使用者觀看影片(狀態D)、於可攜式電子裝置300上玩遊戲(狀態F)、或使用者瀏覽網路/相片(狀態L)時，使用者雙敲擊可攜式電子裝置300之後蓋，以放大顯示單元108之顯示內容。 Referring to Figure 19 and Tables 2-1, 2-2 and 2-3, when the user double taps the back cover in different states of the portable electronic device 300 (user action 10), the corresponding operation is performed. For example, when the screen of the portable electronic device 300 is turned on (state A), the camera of the portable electronic device 300 is activated (state C), the user watches a video (state D), and the portable electronic device 300 is played When a game (state F) or a user browses the Internet/photo (state L), the user double taps the back cover of the portable electronic device 300 to enlarge the display content of the display unit 108.

當使用者在可攜式電子裝置300之不同狀態中雙敲擊其後蓋且手指於一長側上滑動(使用者動作11)時，對應操作係執行。舉例來說，當可攜式電子裝置300螢幕開啟(狀態B)、可攜式電子裝置300之相機啟動(狀態C)、使用者觀看影片(狀態D)、於可攜式電子裝置300上玩遊戲(狀態F)、或使用者瀏覽網路/相片(狀態L)時，使用者雙敲擊可攜式電子裝置300之後蓋且手指於可攜式電子裝置300之一長側滑動，以放大/縮小顯示於顯示單元108上之內容。 When the user double taps the back cover of the portable electronic device 300 in different states and the finger slides on one long side (user action 11), the corresponding operation system is executed. For example, when the screen of the portable electronic device 300 is turned on (state B), the camera of the portable electronic device 300 is activated (state C), the user watches a video (state D), and the portable electronic device 300 is played During the game (state F) or when the user browses the Internet/photos (state L), the user double taps the back cover of the portable electronic device 300 and slides his finger on one of the long sides of the portable electronic device 300 to zoom in /Reduce the content displayed on the display unit 108.

當使用者在可攜式電子裝置300之不同狀態中以手握持而觸碰第三側S3與第四側S4，且搖動可攜式電子裝置300(使用者動作12)時，執行對應操作。舉例來說，當可攜式電子裝置300之螢幕開啟/關閉(狀態B/A)、可攜式電子裝置300之相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置300上玩遊戲(狀態F)、使用者在通話中(狀態G)、使用者有來電(狀態I)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者握持且搖動可攜式電子裝置300，以改善(boost)可攜式電子裝置300。也就是說，使用者握持且搖動可攜式電子裝置300，以暫時的提高資料連接、清除RAM、增加天線強度、增加CPU/GPU功率。於一實施例中，使用者動作「握持及搖動」係可客製化。也就是說，使用者可重新設定對應操作。舉例來說，對應操作「改善」係重新設定成「改變主題/桌布」。參照第20圖，是當使用者握持及搖動可攜式電子裝置300時之示意圖。 When the user touches the third side S3 and the fourth side S4 while holding the portable electronic device 300 in different states, and shakes the portable electronic device 300 (user action 12), perform the corresponding operation . For example, when the screen of the portable electronic device 300 is turned on/off (state B/A), the camera of the portable electronic device 300 is activated (state C), the user watches a video (state D), and listens to music (state E). Playing a game on the portable electronic device 300 (state F), the user is in a call (state G), the user has an incoming call (state I), the user uses or does not use IME to compose IM/message (state J or K), or when the user browses the Internet/photos (state L), the user holds and shakes the portable electronic device 300 to boost the portable electronic device 300. In other words, the user holds and shakes the portable electronic device 300 to temporarily increase data connection, clear RAM, increase antenna strength, and increase CPU/GPU power. In one embodiment, the user action "hold and shake" can be customized. In other words, the user can reset the corresponding operation. For example, the corresponding operation "improve" is reset to "change theme/wallpaper". Referring to FIG. 20, it is a schematic diagram when a user holds and shakes the portable electronic device 300.

當使用者於可攜式電子裝置300之一狀態中擠壓可攜式電子裝置300的長側並且由後往前、或由前往後翻轉可攜式電子裝置300(使用者動作13)時，執行對應操作。舉例來說，當可攜式電子裝置300之相機係啟動(狀態C)時，使用者擠壓且翻轉可攜式電子裝置300，以切換主相機及前相機。參照第21圖，是當使用者擠壓及翻轉可攜式電子裝置300時之示意圖。 When the user squeezes the long side of the portable electronic device 300 in a state of the portable electronic device 300 and turns the portable electronic device 300 from back to front or from front to back (user action 13), Perform the corresponding operation. For example, when the camera of the portable electronic device 300 is activated (state C), the user squeezes and turns the portable electronic device 300 to switch between the main camera and the front camera. Referring to FIG. 21, it is a schematic diagram when a user squeezes and turns the portable electronic device 300.

當使用者於可攜式電子裝置300之不同狀態中翻轉且掌覆可攜式電子裝置300(使用者動作14)時，執行對應操作。舉例來說，當可攜式電子裝置300之螢幕開啟/關閉(狀態B/A)、可攜式電子裝置300之相機啟動(狀態C)、使用者觀看影片(狀態D)、聆聽音樂(狀態E)、於可攜式電子裝置300玩遊戲(狀態F)、使用者在通話中(狀態G)、鬧鐘/警報響起(狀態H)、使用者有來電(狀態I)、使用者利用或不利用IME撰寫IM/訊息(狀態J或K)、或使用者瀏覽網路/相片(狀態L)時，使用者翻轉且掌覆可攜式電子裝置300，以開啟靜音模式，而未按壓可攜式電子裝置300的任何圖式或硬體按鈕，其中翻轉與掌覆可攜式電子裝置300分別由G感測器212與第三感測器210偵測。參照第22圖，是當使用者掌覆可攜式電子裝置300時之示意圖。舉例來說，當使用者開會時，使用者翻轉可攜式電子郵件300及放置可攜式電子裝置300於舉例為桌子之平面上，且掌覆可攜式電子裝置300之背蓋201，以開啟靜音模式。 When the user turns over and covers the portable electronic device 300 in different states of the portable electronic device 300 (user action 14), the corresponding operation is performed. For example, when the screen of the portable electronic device 300 is turned on/off (state B/A), the camera of the portable electronic device 300 is activated (state C), the user watches a video (state D), and listens to music (state E). Playing games on the portable electronic device 300 (state F), the user is in a call (state G), the alarm/alarm sounds (state H), the user has an incoming call (state I), the user uses or does not When using IME to compose IM/message (state J or K), or when the user browses the Internet/photo (state L), the user turns over and covers the portable electronic device 300 to turn on the silent mode without pressing the portable electronic device 300 Any graphic or hardware button of the portable electronic device 300, in which the flipped and palm-covered portable electronic device 300 are detected by the G sensor 212 and the third sensor 210, respectively. Referring to FIG. 22, it is a schematic diagram of the portable electronic device 300 when the user palms it. For example, when a user has a meeting, the user flips the portable email 300 and places the portable electronic device 300 on a plane such as a table, and covers the back cover 201 of the portable electronic device 300 to Turn on silent mode.

於一實施例中，當G感測器212感測到可攜式電子裝置300在一段時間內為靜止狀態時，可攜式電子裝置300之邊緣感測器40被禁能。於一實施例中，當G感測器212感測到可攜式電子裝置300從靜止狀態改變成非靜止狀態時，忽略在非靜止狀態開始之時間點後的一時段內發生的擠壓事件。 In one embodiment, when the G sensor 212 detects that the portable electronic device 300 is stationary for a period of time, the edge sensor 40 of the portable electronic device 300 is disabled. In one embodiment, when the G sensor 212 senses that the portable electronic device 300 changes from a stationary state to a non-stationary state, it ignores the squeezing event that occurs within a period of time after the time point when the non-stationary state starts .

可攜式電子裝置300的G感測器可感測可攜式電子裝置300之座標(x,y,z)。如果G感測器感測可攜式電子裝置300 之座標為(x,y,z)=(0,0,9.8)且持續一段時間時，可攜式電子裝置300可判斷為靜置在例如是書桌、桌子等支撐件上一段時間，而邊緣感測器40係在靜置狀態中禁能。 The G sensor of the portable electronic device 300 can sense the coordinates (x, y, z) of the portable electronic device 300. If the G sensor senses the portable electronic device 300 When the coordinates are (x,y,z)=(0,0,9.8) and last for a period of time, the portable electronic device 300 can be determined to be resting on a support such as a desk or a table for a period of time, and the edge The sensor 40 is disabled in the static state.

若可攜式電子裝置300根據座標係判斷出處在靜置狀態，當可攜式電子裝置300忽然從靜置狀態被移動為非靜置狀態時，在非靜置狀態發生後的一段時間期間內，處理器102禁能邊緣感測器40，或者，即使感測出擠壓動作的壓力達到擠壓閥值TH1，處理器102仍忽略邊緣感測器40感測到的擠壓動作，並且不執行對應的預設功能。 If the portable electronic device 300 is judged to be in the stationary state according to the coordinate system, when the portable electronic device 300 is suddenly moved from the stationary state to the non-stationary state, within a period of time after the non-stationary state occurs The processor 102 disables the edge sensor 40, or even if the pressure of the squeezing action is sensed to reach the squeezing threshold TH1, the processor 102 still ignores the squeezing action sensed by the edge sensor 40 and does not Perform the corresponding preset function.

舉例來說，可攜式電子裝置300從靜置狀態發生的移動動作可能由使用者從支撐件拿走可攜式電子裝置300的動作產生、或其他動作等產生。 For example, the moving action of the portable electronic device 300 from the resting state may be caused by the action of the user taking the portable electronic device 300 from the support or other actions.

可攜式電子裝置300的G感測器可感測可攜式電子裝置300之運動量(G值改變量)。於一實施例中，如果在瞬間移動動作期間，G值改變量達到特定量GV時，處理器102係執行中斷模式以禁能邊緣感測器40，或禁能可攜式電子裝置300對應於感測到的擠壓動作的觸控功能。 The G sensor of the portable electronic device 300 can sense the amount of movement (the amount of change in the G value) of the portable electronic device 300. In one embodiment, if the G value changes to a specific amount GV during the instant movement action, the processor 102 executes an interrupt mode to disable the edge sensor 40, or disable the portable electronic device 300 corresponding to The touch function of the sensed squeezing action.

如果判斷出G感測器感測之可攜式電子裝置300之運動量(G值之改變量)係來自使用者之非常態擠壓動作的動作(舉例來說，使用者於運動期間快速擺動手臂之握持動作)時，處理器102係禁能邊緣感測器40或禁能可攜式電子裝置300對應於擠壓動作的觸控功能。 If it is determined that the amount of movement of the portable electronic device 300 sensed by the G sensor (the amount of change in the G value) is derived from the user's extraordinary squeezing action (for example, the user quickly swings his arm during the exercise) During the holding action), the processor 102 disables the edge sensor 40 or the portable electronic device 300 with the touch function corresponding to the squeezing action.

可攜式電子裝置300之G感測器可感測可攜式電子裝置300之定向角。當G感測器感測可攜式電子裝置300係於座標(0,0,-9.8)時，處理器102判斷出觸控顯示螢幕109係面向下朝向地面。因此，處理器102禁能邊緣感測器40，或禁能可攜式電子裝置300對應於擠壓動作的觸控功能。 The G sensor of the portable electronic device 300 can sense the orientation angle of the portable electronic device 300. When the G sensor senses that the portable electronic device 300 is at the coordinates (0, 0, -9.8), the processor 102 determines that the touch display screen 109 is facing downwards toward the ground. Therefore, the processor 102 disables the edge sensor 40 or disables the touch function of the portable electronic device 300 corresponding to the squeezing action.

參照第23圖，是本發明另一實施例之可攜式電子裝置400之方塊圖。可攜式電子裝置400更包括近接感測器(proximity sensor)477。處理器102電性耦接第一感測器104、第二感測器106、顯示單元108及近接感測器477。近接感測器477可通過發射靜電或電磁場並監控所產生之場的表現超過一段時間來偵測物體。因此，當物體靠近近接感測器477時，接近可攜式電子裝置400之物體將改變產生之場。 Referring to FIG. 23, it is a block diagram of a portable electronic device 400 according to another embodiment of the present invention. The portable electronic device 400 further includes a proximity sensor (proximity sensor) 477. The processor 102 is electrically coupled to the first sensor 104, the second sensor 106, the display unit 108, and the proximity sensor 477. The proximity sensor 477 can detect objects by emitting static electricity or electromagnetic fields and monitoring the performance of the generated fields over a period of time. Therefore, when an object approaches the proximity sensor 477, the object approaching the portable electronic device 400 will change the generated field.

近接感測器477可用以偵測置於可攜式電子裝置400之前的外部物體。如果在邊緣感測器40感測到按壓動作的期間，近接感測器477偵測到可攜式電子裝置400接近一外部物體(例如可攜式裝置放置在使用者之口袋中)的狀態時，在可攜式電子裝置400接近外部物體的狀態期間，處理器102禁能邊緣感測器40，或禁能可攜式電子裝置400對應於擠壓動作的觸控功能。於一實施例中，如果近接感測器477判斷出可攜式電子裝置400在接近外部物體的狀態時，在可攜式電子裝置400接近外部物體的狀態期間，處理器102禁能邊緣感測器40，或禁能可攜式電子裝置400 對應於擠壓動作之觸控功能，且即使在可攜式電子裝置400接收到來電時，關閉觸控顯示螢幕109的螢幕。 The proximity sensor 477 can be used to detect external objects placed in front of the portable electronic device 400. If during the period when the edge sensor 40 senses the pressing action, the proximity sensor 477 detects that the portable electronic device 400 is approaching an external object (for example, the portable device is placed in the user's pocket) When the portable electronic device 400 is close to an external object, the processor 102 disables the edge sensor 40, or disables the touch function of the portable electronic device 400 corresponding to the squeezing action. In one embodiment, if the proximity sensor 477 determines that the portable electronic device 400 is in a state close to an external object, the processor 102 disables edge sensing while the portable electronic device 400 is close to an external object.器40, or disable portable electronic device 400 The touch function corresponds to the squeeze action, and even when the portable electronic device 400 receives an incoming call, the screen of the touch display screen 109 is turned off.

於一實施例中，當使用者握持可攜式電子裝置於第一感測器104或/及第二感測器106上且一些內容被顯示時，延遲可攜式電子裝置進入待機模式，以在使用者閱讀內容時不關閉顯示單元108。於一實施例中，當可攜式電子裝置之螢幕係關閉時，使用者擠壓可攜式電子裝置於第一感測器104及第二感測器106上以喚醒可攜式電子裝置。於一實施例中，當使用者有來電時，使用者握持可攜式電子裝置於第一感測器104或/及第二感測器106上並將可攜式電子裝置靠近耳朵處(由近接感測器477偵測)以回應來電，而不用點擊回應圖式(answer icon)。於一實施例中，當使用者握持可攜式電子裝置於第一感測器104或/及第二感測器106上時，左手或右手係確認符合指紋之最可能角度，以加強指紋辨識。於一實施例中，當手指逐漸不再握持時，使用者處於入睡狀態係決定。於一實施例中，當使用者在危險中時，使用者擠壓可攜式電子裝置於第一感測器104及第二感測器106上5秒以求救。 In one embodiment, when the user holds the portable electronic device on the first sensor 104 or/and the second sensor 106 and some content is displayed, the portable electronic device is delayed to enter the standby mode, Therefore, the display unit 108 is not turned off when the user is reading the content. In one embodiment, when the screen of the portable electronic device is closed, the user squeezes the portable electronic device on the first sensor 104 and the second sensor 106 to wake up the portable electronic device. In one embodiment, when the user has an incoming call, the user holds the portable electronic device on the first sensor 104 or/and the second sensor 106 and brings the portable electronic device close to the ear ( It is detected by the proximity sensor 477 to respond to the incoming call without clicking the answer icon. In one embodiment, when the user holds the portable electronic device on the first sensor 104 or/and the second sensor 106, the left or right hand confirms that it matches the most likely angle of the fingerprint to enhance the fingerprint Identify. In one embodiment, when the fingers are gradually no longer held, it is determined that the user is in a sleeping state. In one embodiment, when the user is in danger, the user squeezes the portable electronic device on the first sensor 104 and the second sensor 106 for 5 seconds for help.

參照第24圖，是可攜式電子裝置之操作方法的流程圖。可攜式電子裝置包括主體及邊緣感測器，邊緣感測器設置在相鄰主體之一邊緣的位置。操作方法係說明如下。於步驟S2401中，決定可攜式電子裝置是否偵測到週邊裝置之***事件或拔出事件。若是，執行步驟S2402。於步驟S2402中，忽略由邊緣感測 器感測之擠壓事件。擠壓事件係在由邊緣感測器於第一時段期間感測發生之擠壓動作時產生。***事件或拔出事件在第一時段期間發生，或擠壓動作在***事件或拔出事件發生後之第二時段中開始。 Refer to Figure 24, which is a flowchart of the operation method of the portable electronic device. The portable electronic device includes a main body and an edge sensor, and the edge sensor is arranged at an edge of an adjacent main body. The method of operation is described below. In step S2401, it is determined whether the portable electronic device detects the plug-in event or the unplug event of the peripheral device. If yes, perform step S2402. In step S2402, the edge sensing Squeeze event sensed by the device. The squeezing event is generated when the edge sensor detects the squeezing action that occurs during the first time period. The insertion event or the extraction event occurs during the first time period, or the squeezing action starts in the second time period after the insertion event or the extraction event occurs.

參照第25圖，是可攜式電子裝置的操作方法之另一流程圖。可攜式電子裝置包括主體及邊緣感測器，邊緣感測器設置在相鄰主體之一邊緣的位置。操作方法係說明如下。於步驟S2501中，設定擠壓閥值及釋放閥值。擠壓閥值高於釋放閥值。於步驟S2502中，根據邊緣感測器於於第一時間點與第二時間點之間的第一時間間隔期間感測之擠壓動作之已感測力決定擠壓事件是否產生。若是，執行步驟S2503。於步驟S2503，報告擠壓事件係產生。於第一時間點之已感測力係達到擠壓閥值。於第二時間點之已感測力係達到釋放閥值。第二時間點晚於第一時間點，及已感測力係在第一時段期間高於釋放閥值。 Referring to FIG. 25, it is another flowchart of the operation method of the portable electronic device. The portable electronic device includes a main body and an edge sensor, and the edge sensor is arranged at an edge of an adjacent main body. The method of operation is described below. In step S2501, the squeeze threshold and the release threshold are set. The squeeze threshold is higher than the release threshold. In step S2502, whether the squeezing event is generated is determined according to the sensed force of the squeezing action sensed by the edge sensor during the first time interval between the first time point and the second time point. If yes, execute step S2503. In step S2503, it is reported that the squeeze event is generated. The sensed force at the first time point reaches the squeeze threshold. The sensed force at the second time point reaches the release threshold. The second time point is later than the first time point, and the sensed force is higher than the release threshold during the first time period.

參照第26圖，是可攜式電子裝置的操作方法之另一流程圖。操作方法係說明如下。於步驟S2601中：決定可攜式電子裝置是否在一段時間為靜止狀態。若是，執行步驟S2602。於步驟S2602中，禁能可攜式電子裝置之邊緣感測器。 Refer to Fig. 26, which is another flowchart of the operation method of the portable electronic device. The method of operation is described below. In step S2601: determine whether the portable electronic device is in a static state for a period of time. If yes, go to step S2602. In step S2602, the edge sensor of the portable electronic device is disabled.

參照第27圖，是可攜式電子裝置的操作方法之另一流程圖。操作方法係說明如下。於步驟S2701中：決定可攜式電子裝置是否從靜止狀態改變至非靜止狀態。若是，執行步驟S2702。於步驟S2702中，忽略邊緣感測器感測之擠壓事件。擠壓 事件在可攜式電子裝置之非靜止狀態開始之時間點後的時段中發生。 Refer to Figure 27, which is another flowchart of the operation method of the portable electronic device. The method of operation is described below. In step S2701: determine whether the portable electronic device changes from a static state to a non-static state. If yes, execute step S2702. In step S2702, the squeezing event sensed by the edge sensor is ignored. extrusion The event occurs in a period after the point in time when the non-stationary state of the portable electronic device starts.

參照第28圖，是可攜式電子裝置的操作方法之另一流程圖。操作方法係說明如下。於步驟S2801中：決定可攜式電子裝置之前面是否鄰近一外部物體。若是，執行步驟S2802。於步驟S2802中，禁能可攜式電子裝置之邊緣感測器。 Refer to Figure 28, which is another flowchart of the operation method of the portable electronic device. The method of operation is described below. In step S2801: determine whether the front surface of the portable electronic device is adjacent to an external object. If yes, go to step S2802. In step S2802, the edge sensor of the portable electronic device is disabled.

參照第31圖，是可攜式電子裝置的操作方法之另一流程圖。可攜式電子裝置包括主體、觸控顯示螢幕及邊緣感測器，邊緣感測器設置在相鄰主體之一邊緣的位置。操作方法係說明而具有下述之步驟。步驟S3101中：決定使否有事件被邊緣感測器偵測。若是，執行步驟S3102。於步驟S3102中，禁能觸控顯示螢幕的觸控功能。 Refer to Fig. 31, which is another flowchart of the operation method of the portable electronic device. The portable electronic device includes a main body, a touch display screen, and an edge sensor. The edge sensor is arranged at an edge of an adjacent main body. The operation method is explained and has the following steps. In step S3101: determine whether an event is detected by the edge sensor. If yes, execute step S3102. In step S3102, the touch function of the touch display screen is disabled.

綜上所述，雖然本發明已以實施例揭露如上，然其並非用以限定本發明。本發明所屬技術領域中具有通常知識者，在不脫離本發明之精神和範圍內，當可作各種之更動與潤飾。因此，本發明之保護範圍當視後附之申請專利範圍所界定者為準。 In summary, although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Those who have ordinary knowledge in the technical field to which the present invention belongs can make various changes and modifications without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present invention shall be subject to those defined by the attached patent application scope.

40:邊緣感測器 40: Edge sensor

104:第一感測器 104: The first sensor

106:第一感測器 106: The first sensor

109:觸控顯示螢幕 109: Touch display screen

S1:第一側 S1: First side

S2:第二側 S2: second side

S3:第三側 S3: Third side

S4:第四側 S4: Fourth side

Claims (17)

一種用於一可攜式電子裝置之操作方法，該可攜式電子裝置包括一主體、一觸控顯示螢幕及一邊緣感測器，該觸控顯示螢幕設置於該主體上，該邊緣感測器設置於相鄰該主體之一邊緣的位置，該操作方法包括：通過該邊緣感測器偵測一擠壓動作；依據一擠壓閥值與一釋放閥值，判斷該擠壓動作是否為有效的一擠壓事件；對應於該擠壓動作被判斷為有效的該擠壓事件，執行一預定功能；通過該邊緣感測器偵測另一擠壓動作；判斷該擠壓動作與該另一擠壓動作間的一時間間隔是否小於一時間閥值；對應於該時間間隔小於該時間閥值，調整該擠壓閥值與該釋放閥值；以及依據調整後的該擠壓閥值與該釋放閥值，判斷該另一擠壓動作是否為有效的該擠壓事件。 An operation method for a portable electronic device, the portable electronic device comprising a main body, a touch display screen and an edge sensor, the touch display screen is arranged on the main body, and the edge sensor The device is arranged at a position adjacent to an edge of the main body, and the operation method includes: detecting a squeezing action by the edge sensor; determining whether the squeezing action is based on a squeezing threshold and a release threshold A valid squeeze event; corresponding to the squeeze event for which the squeeze action is judged to be valid, execute a predetermined function; detect another squeeze action through the edge sensor; determine the squeeze action and the other Whether a time interval between a squeeze action is less than a time threshold; corresponding to the time interval is less than the time threshold, adjust the squeeze threshold and the release threshold; and according to the adjusted squeeze threshold and The release threshold determines whether the other squeeze action is a valid squeeze event. 如申請專利範圍第1項所述之操作方法，其中該擠壓閥值大於該釋放閥值。 The operation method described in item 1 of the scope of patent application, wherein the squeeze threshold is greater than the release threshold. 如申請專利範圍第1項所述之操作方法，其中該擠壓動作的一壓力於一第一時間點達到該擠壓閥值，該壓力於一第二時間點達到該釋放閥值，該第二時間點晚於該第一時間點，且 該壓力於該第一時間點至該第二時間點之前係持續高於該釋放閥值。 The operation method described in item 1 of the scope of patent application, wherein a pressure of the squeezing action reaches the squeezing threshold at a first time point, the pressure reaches the release threshold at a second time point, and the first The second time point is later than the first time point, and The pressure is continuously higher than the release threshold from the first time point to the second time point. 如申請專利範圍第1項所述之操作方法，其中對應於該擠壓動作被判斷為有效的該擠壓事件，執行該預定功能的步驟，包括：判斷該擠壓動作的一持續時間；以及依據該持續時間是否大於另一時間閥值，以執行不同的該預定功能。 According to the operation method described in item 1 of the scope of patent application, the step of executing the predetermined function corresponding to the squeezing event for which the squeezing action is judged to be valid includes: judging a duration of the squeezing action; and According to whether the duration is greater than another time threshold, different predetermined functions are executed. 如申請專利範圍第1項所述之操作方法，其中調整後的該擠壓閥值低於未調整的該擠壓閥值，以及調整後的該釋放閥值低於未調整的該釋放閥值。 The operation method described in item 1 of the scope of patent application, wherein the adjusted squeeze threshold is lower than the unadjusted squeeze threshold, and the adjusted release threshold is lower than the unadjusted release threshold . 如申請專利範圍第1項所述之操作方法，更包括：紀錄隨時間變化之該擠壓動作的一壓力所對應的一擠壓曲線；以及依據該擠壓曲線調整該擠壓閥值。 The operation method described in item 1 of the scope of patent application further includes: recording an extrusion curve corresponding to a pressure of the extrusion action that changes with time; and adjusting the extrusion threshold according to the extrusion curve. 如申請專利範圍第6項所述之操作方法，其中依據該擠壓曲線調整該擠壓閥值的步驟，包括：依據該擠壓曲線與該擠壓閥值決定一區域平均值；以及依據該區域平均值，調整該擠壓閥值。 For the operation method described in item 6 of the scope of patent application, the step of adjusting the squeeze threshold value according to the squeeze curve includes: determining a regional average value according to the squeeze curve and the squeeze threshold value; and according to the Regional average, adjust the squeeze threshold. 如申請專利範圍第1項所述之操作方法，更包括：紀錄隨時間變化之該擠壓動作的一壓力所對應的一擠壓曲線；以及依據該擠壓曲線的一曲率值，決定是否調整該擠壓閥值。 The operation method described in item 1 of the scope of patent application further includes: recording an extrusion curve corresponding to a pressure of the extrusion action that changes with time; and determining whether to adjust or not according to a curvature value of the extrusion curve The squeeze threshold. 一種非暫態電腦可讀取記錄媒體，用以儲存一或多個程式，在該一或多個程式載入一電腦且在執行時，該一或多個程式致使一處理器執行如申請專利範圍第1~8項中任一項所述之方法。 A non-transitory computer-readable recording medium for storing one or more programs. When the one or more programs are loaded into a computer and executed, the one or more programs cause a processor to execute such as a patent application The method described in any one of items 1 to 8. 一種可攜式電子裝置，包括：一主體；一觸控顯示螢幕，設置於該主體上；一邊緣感測器，設置於相鄰該主體之一邊緣的位置，以及一處理器，電性耦接該觸控顯示螢幕與該邊緣感測器，該處理器經配置以執行：通過該邊緣感測器偵測一擠壓動作；依據一擠壓閥值與一釋放閥值，判斷該擠壓動作是否為有效的一擠壓事件；對應於該擠壓動作被判斷為有效的該擠壓事件，執行一預定功能；通過該邊緣感測器偵測另一擠壓動作；判斷該擠壓動作與該另一擠壓動作間的一時間間隔是否小於一時間閥值；對應於該時間間隔小於該時間閥值，調整該擠壓閥值與該釋放閥值；以及依據調整後的該擠壓閥值與該釋放閥值，判斷該另一擠壓動作是否為有效的該擠壓事件。 A portable electronic device includes: a main body; a touch display screen arranged on the main body; an edge sensor arranged at a position adjacent to an edge of the main body; and a processor, electrically coupled Connected to the touch display screen and the edge sensor, the processor is configured to execute: detect a squeezing action through the edge sensor; determine the squeeze according to a squeeze threshold and a release threshold Whether the action is a valid squeeze event; corresponding to the squeeze event for which the squeeze action is judged to be valid, execute a predetermined function; detect another squeeze action through the edge sensor; determine the squeeze action Whether a time interval between and the other squeeze action is less than a time threshold; corresponding to the time interval being less than the time threshold, adjust the squeeze threshold and the release threshold; and according to the adjusted squeeze The threshold value and the release threshold value are used to determine whether the other squeeze action is a valid squeeze event. 如申請專利範圍第10項所述之可攜式電子裝置，其中該擠壓閥值大於該釋放閥值。 In the portable electronic device described in claim 10, the squeeze threshold is greater than the release threshold. 如申請專利範圍第10項所述之可攜式電子裝置，其中該擠壓動作的一壓力於一第一時間點達到該擠壓閥值，該壓力於一第二時間點達到該釋放閥值，該第二時間點晚於該第一時間點，且該壓力於該第一時間點至該第二時間點之前係持續高於該釋放閥值。 The portable electronic device according to claim 10, wherein a pressure of the squeezing action reaches the squeezing threshold at a first time point, and the pressure reaches the release threshold at a second time point , The second time point is later than the first time point, and the pressure is continuously higher than the release threshold from the first time point to the second time point. 如申請專利範圍第10項所述之可攜式電子裝置，其中該處理器經配置以執行：判斷該擠壓動作的一持續時間；以及依據該持續時間是否大於另一時間閥值，以執行不同的該預定功能。 The portable electronic device according to claim 10, wherein the processor is configured to execute: determine a duration of the squeezing action; and execute according to whether the duration is greater than another time threshold The predetermined function is different. 如申請專利範圍第10項所述之可攜式電子裝置，其中調整後的該擠壓閥值低於未調整的該擠壓閥值，以及調整後的該釋放閥值低於未調整的該釋放閥值。 For the portable electronic device described in claim 10, the adjusted squeeze threshold is lower than the unadjusted squeeze threshold, and the adjusted release threshold is lower than the unadjusted Release threshold. 如申請專利範圍第10項所述之可攜式電子裝置，其中該處理器經配置以執行：紀錄隨時間變化之該擠壓動作的一壓力所對應的一擠壓曲線；以及依據該擠壓曲線調整該擠壓閥值。 The portable electronic device according to claim 10, wherein the processor is configured to execute: record a squeeze curve corresponding to a pressure of the squeeze action that changes with time; and according to the squeeze The curve adjusts the squeeze threshold. 如申請專利範圍第15項所述之可攜式電子裝置，其中該處理器經配置以執行：依據該擠壓曲線與該擠壓閥值決定一區域平均值；以及依據該區域平均值，調整該擠壓閥值。 For the portable electronic device described in claim 15, wherein the processor is configured to execute: determine a regional average according to the squeeze curve and the squeeze threshold; and adjust according to the regional average The squeeze threshold. 如申請專利範圍第10項所述之可攜式電子裝置，其中該處理器經配置以執行：紀錄隨時間變化之該擠壓動作的一壓力所對應的一擠壓曲線；以及依據該擠壓曲線的一曲率值，決定是否調整該擠壓閥值。 The portable electronic device according to claim 10, wherein the processor is configured to execute: record a squeeze curve corresponding to a pressure of the squeeze action that changes with time; and according to the squeeze A curvature value of the curve determines whether to adjust the squeeze threshold.

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