WO2010081355A1 - Method for switching input interface on handheld electronic device and switching device thereof - Google Patents

Abstract

A method for switching an input interface on a handheld electronic device and a switching device thereof are provided. The switching device comprises an input software system installed in a chip in the handheld electronic device and a touch sensing device connected to the input terminal of the chip in the handheld electronic device. An operator holds the handheld electronic device and touches the touch sensing device of the handheld electronic device by fingers. The input software system receives and analyzes finger touch information. The input interface is chosen and switched. The input interface is output to a touch display device. The touch display device receives the touch information and transmits the touch information to the input software system. Finally the input software outputs the input content to an application software. The method and the switching device can realize the high efficiency input of the handheld electronic device, and are more convenient, easier, simpler and faster in use.

Description

 Method for switching input interface on handheld electronic device and switching device thereof

 The present invention relates to a method of switching an input interface on a handheld electronic device and a switching device therefor.

Background technique

 Handheld electronic devices are small electronic devices that can be used by hand, such as tablet computers, mobile phones, mobile phones, PDAs, and handheld keyboards. Handheld electronic devices are generally small, lightweight, and portable, but at the same time have the problem of difficulty entering information. Currently, the input modes of the handheld electronic device include keyboard input, touch input, camera input, voice input, etc., but due to the small size and limited display area, a large number of different types of information input, usually need to use the keyboard. Or a special button to switch the input interface. Switching the input interface is more common on the keyboard of the computer. If you press the "Shift" button, the letter button will switch to the uppercase letter input interface; press the "Ctrl" button, "alt" button or "ctrl+alt" button. , the keyboard will switch to the control command input interface. However, this method of switching interfaces requires setting special buttons, and the types of interface combinations are small, and are not suitable for handheld electronic devices.

Summary of the invention

 It is an object of the present invention to provide a method and a switching device for switching an input interface on a handheld electronic device with high efficiency and ease of use, which makes the various inputs of the handheld electronic device more convenient, easier, and simpler.

 To achieve the above object, the present invention adopts the following technical solutions:

 The method for switching an input interface on a handheld electronic device according to the present invention includes the following steps: Step A: The operator hands hold the electronic device, and the operator's finger contacts the contact sensing device of the handheld electronic device; Step B: The touch sensing device of the handheld electronic device collects operator finger contact information; Step C: The input software system receives and analyzes the finger contact information; Step D: The input software system selects a switching input interface according to the finger contact information, and the input interface is Outputting to the touch display device; Step E: Touching the display device to receive the touch information, and transmitting the touch information to the input software system; Step F: The input software system converts the information input by the touch display device into an input according to the selected input interface Content; Step G: The input software outputs the input content to other application software.

 In step B, the operator finger contact information collected by the touch sensing device is a combination of finger contact information collected by a single touch sensing device or finger contact information collected by a plurality of contact sensing devices.

The switching device used in the method for switching an input interface on a handheld electronic device comprises an input software system installed in the handheld electronic device and a contact sensing device connected to the input end of the handheld electronic device, the contact sensing The device is a plurality of touch sensing sheets distributed on the side or the back of the handheld electronic device, and the touch sensing sheet is a sensing sheet for collecting pressure sensitive information or tactile information, and is distributed in an area where the finger contacts the device when the operator hands hold the electronic device. .

 After using this method, high-efficiency input of the handheld electronic device can be realized, which is more convenient, easier, and simpler to use.

DRAWINGS

 Figure 1 is a schematic view showing the state of use of the first preferred embodiment of the present invention;

 2 is a schematic diagram of a first input interface of the embodiment of FIG. 1;

 3 is a schematic diagram of a second input interface of the embodiment of FIG. 1;

 4 is a schematic diagram of a third input interface of the embodiment of FIG. 1;

 Figure 5 is a fourth input interface diagram of the embodiment of Figure 1;

 6 is a schematic diagram of a fifth input interface of the embodiment of FIG. 1;

 7 is a schematic diagram of a sixth input interface of the embodiment of FIG. 1;

 8 is a schematic diagram of a seventh input interface of the embodiment of FIG. 1;

 9 is a schematic diagram of an eighth input interface of the embodiment of FIG. 1;

 Figure 10 is a schematic view showing the state of use of the second preferred embodiment of the present invention;

 11 is a schematic diagram of a first input interface of the embodiment of FIG. 10;

 12 is a schematic diagram of a second input interface of the embodiment of FIG. 10;

 13 is a schematic diagram of a third input interface of the embodiment of FIG. 10;

 14 is a schematic diagram of a fourth input interface of the embodiment of FIG. 10;

 15 is a schematic diagram of a fifth input interface of the embodiment of FIG. 10;

 Figure 16 is a schematic view showing the state of use of the third preferred embodiment of the present invention;

 17 is a schematic diagram of a first input interface of the embodiment of FIG. 16;

 18 is a schematic diagram of a second input interface of the embodiment of FIG. 16;

 19 is a schematic diagram of a third input interface of the embodiment of FIG. 16;

 20 is a schematic diagram of a fourth input interface of the embodiment of FIG. 16;

 Figure 21 is a schematic view showing the state of use of the fourth preferred embodiment of the present invention;

 22 is a schematic diagram of a first input interface of the embodiment of FIG. 21;

 23 is another schematic diagram of the first input interface of the embodiment of FIG. 21;

 24 is a schematic diagram of a second input interface of the embodiment of FIG. 21;

 25 is a schematic diagram of a third input interface of the embodiment of FIG. 21;

Figure 26 is another schematic view of the third input interface of the embodiment of Figure 21; Figure 27 is a fourth input interface diagram of the embodiment of Figure 21;

detailed description

 The invention is further described below in conjunction with the drawings and specific embodiments.

 A method for switching an input interface on a handheld electronic device according to the present invention includes the following steps:

 Step A: The operator hands hold the electronic device, and the operator's finger contacts the contact sensing device of the handheld electronic device; Step B: The touch sensing device of the handheld electronic device collects the operator's finger contact information; Step C: The input software system receives and Analyze finger contact information; Step D: The input software system selects a switching input interface according to the finger contact information, and outputs the input interface to the touch display device; Step E: Touching the display device to receive the touch information, and transmitting the touch information to the input software System; Step F: The input software system converts the information input by the touch display device into the input content according to the selected input interface; Step G: The input software outputs the input content to other application software.

 In step B, the operator finger contact information collected by the touch sensing device is a combination of finger contact information collected by a single touch sensing device or finger contact information collected by a plurality of contact sensing devices.

 The switching device used in the method of switching an input interface on a handheld electronic device includes an input software system installed in the handheld electronic device and a contact sensing device connected to the input end of the handheld electronic device. The contact sensing device is distributed over A plurality of touch sensing sheets distributed on the side or the back of the handheld electronic device. The touch sensing sheet is a sensing sheet for collecting pressure sensitive information or tactile information, and is distributed in an area where the finger contacts the device when the operator hands hold the electronic device.

 The contact sensing device can be a mechanical button, a tact switch, a reed switch, a pressure sensitive capacitor, a pressure sensitive resistor, a thermal sensor, a photosensor, an infrared sensor, etc., and can sense pressure sensitive information or tactile information of the finger. The contact information of the finger and the contact sensing device according to the present invention is pressure sensitive information or tactile information of the finger contacting the touch sensing device. At the same time, the contact information of the finger and the contact sensing device is a set of finger contact device information, and each The group finger contact device information may be information of one finger contacting the device, or may be combined information of multiple finger contact devices. The transformation of the information of each group of finger contact devices can be realized by a single finger touching the change of the state of the contact sensing device, or by a combined transformation of the state of the plurality of finger contact sensing devices. The change of the contact state between the single finger and the contact sensing device is changed from the non-pressure state to the pressure state, or from the pressure state to the non-pressure state, or from the contact state to the non-contact state, or from the non-contact state. The state changes to the contact state.

The contact sensing device can be set in the following manners: a: According to the hand-held habit of the operator of the handheld electronic device, the contact sensing device is disposed at a position where the finger contacts the device in a state of being held by the operator, and each contact sensing device is An independent finger contact information collection point; b: according to the hand-held habit of the operator of the handheld electronic device, the contact sensing belt composed of the contact sensing device is disposed in a position area where the finger is easy to contact with the device in a state of being held by the operator, the operator actually The position where each finger touches the contact sensor belt when holding the device is an independent finger contact information. C: The handheld electronic device has an external component. According to the hand-held habit of the operator holding the combination of the device and the external component, the contact point is placed at a position where the finger contacts the external component in a state of being held by the operator, and the handheld electronic device is held. Each contact sensing device on the external component of the device is a separate finger contact information collection point; d: the handheld electronic device has external components, which are held by the operator according to the handheld habit of the operator holding the combination of the device and the external component. In the state where the finger is in contact with the external component, the contact sensing belt is formed by the contact sensing device. When the operator actually holds the assembly, the position where each finger contacts the contact sensing tape is an independent finger contact information collecting point.

 The external components of the handheld electronic device may be a device casing, a detachable keyboard, etc., and the external components provide power to the contact sensing device by installing an independent power supply system or using a handheld electronic device power system, and connecting the channels through wired or wireless signals. The contact sensing information of the touch sensing device is transmitted to the handheld electronic device.

 The input software system supporting the input interface switching method of the handheld electronic device of the present invention has one or more of the following features: comprising more than two input interfaces; capable of receiving and processing contact sensing devices to collect finger contact information; capable of receiving and processing the main Input system input information; switch input interface according to finger contact information; convert input information of main input system into input content in selected input interface; output input content to other application software and display system; In the input software system, a set of finger contact information can only define one input interface, and one input interface can define corresponding multiple sets of finger contact information.

 According to the actual needs of the input system, the input software developer or operator can define the number of input interfaces and the content of each input interface in the input software system, and define the correspondence between each input interface and each group of finger contact information. . The input interface of the input system is switched by the change of the finger contact information.

 Input interface switching method Embodiment 1: As shown in FIG. 1 to FIG. 9 , the switching device used in the method for switching the input interface on the handheld electronic device used in the embodiment includes an input software system and a connection installed in the handheld electronic device. a touch sensing device at the input end of the handheld electronic device, the touch sensing device being three touch sensing sheets or buttons distributed on the side of the handheld electronic device, the touch sensing sheet being a sensing sheet for collecting pressure sensitive information or tactile information, and touch sensing The patch or button is distributed over the area where the middle finger F1, the ring finger F2, and the little finger F3 are in contact with the device when the operator hands hold the electronic device.

This embodiment uses three fingers to define eight sets of finger contact information, and correspondingly defines eight input interfaces, and splits commonly used characters and commands into the eight input interfaces. As shown in FIG. 2, in the case of a normal holding device, the middle finger F1, the ring finger F2 and the little finger F3 of the operator are respectively in contact with the first switching key B1, the second switching key B2, and the third switching key B3, and the input interface In the first input interface A1, the first input interface A1 is a cancel key "©", an upward navigation key "†", an Arabic numeral "0", a left navigation key "one", and a confirmation key from top to bottom. "0K", right navigation key "→", telephone dialing button, down navigation key "", phone hang up button, these nine keys; As shown, after releasing the middle finger, the ring finger and the little finger at the same time, the middle finger, the ring finger and the little finger respectively change from the contact state to the non-contact state, and the input interface of the handheld electronic device switches to the second input interface A2. In the second input interface A2, there are 1-9 nine Arabic numeral keys from top to bottom; as shown in FIG. 4, after the middle finger is released, the middle finger and the first switching key B1 are changed from the contact state to the non-contact state, and the hand is held. The input interface of the electronic device will switch to the third input interface B3. The third input interface B3 is English letters "Q", "W", "E", "A", "S", "from top to bottom". The nine keys of D", "Z", "V," and "C"; as shown in Fig. 5, after the ring finger is released, the ring finger and the second switching key B2 are changed from the contact state to the non-contact state, and the handheld electronic The input interface of the device will switch to the fourth input interface. The fourth input interface is English letters "R", "T", "Y", "F", "G", "H" from top to bottom. "V", "B", "N" these nine keys; as shown in Figure 6, after releasing the little finger, the little finger and the third cut The key change B3 is changed from the contact state to the non-contact state, and the input interface of the handheld electronic device is switched to the fifth input interface. In the fifth input interface, the English letters "U", T, "0" are in order from top to bottom. "J", "K", "L", "Μ" keys and space bar, the English letter "Ρ"key; as shown in Figure 7, after releasing the middle finger and the ring finger at the same time, the middle finger and the ring finger respectively switch with the first The key B1 and the second switching key Β2 are changed from the contact state to the non-contact state, and the input interface of the handheld electronic device is switched to the sixth input interface. The sixth input interface is quotation marks "" and "underline" from top to bottom. - ", colon": ", semicolon";", function key "more symbols", exclamation mark "!", question mark "?", comma ",", period "." These nine keys; As shown, after the ring finger and the little finger are released at the same time, the ring finger and the little finger are respectively changed from the contact state to the non-contact state by the second switching key Β2 and the third switching key Β3, and the input interface of the handheld electronic device is switched to the seventh state. Input interface, the seventh input interface is from top to bottom Exit key "ESC", back key "BACKSPACE", enter key "ENTER", insert key "INS", file header "HOME", page up key "PAGE UP", delete key "DEL", file tail" END ", page down button "PAGE DOWN" these nine keys; as shown in Figure 9, after releasing the middle finger and the little finger at the same time, the middle finger and the little finger are respectively associated with the first switch button B1 and the third switch button B3 From the contact state to the non-contact state, the input interface of the handheld electronic device switches to the eighth input interface, and the eighth input interface is cut "cut", paste "paste", copy "copy" from top to bottom. ", Undo "Undo", Restore "Restore", Delete "Delete", Clear "Empty", Find "Find", Select All" Select All" shortcuts.

 Each of the eight input interfaces defines nine common characters or function keys, a total of 72 keys, including navigation keys, Arabic numerals, English letters, and several control keys commonly used in handheld electronic devices. Reasonable distribution and high efficiency are conducive to improving input efficiency and reducing errors.

Input interface switching method Embodiment 2: As shown in FIG. 10-15, this embodiment uses five fingers of the operator to define five sets of finger contact information, namely, a thumb Fl l, an index finger F12, a middle finger F13, and a ring finger. F14, small thumb F15, corresponding to the five fingers, respectively, corresponding to five mechanical buttons or touch buttons, these five mechanical buttons or touch buttons correspond to five touch screen handwriting input system interface, respectively define the Chinese "Chinese" , English "English", number "number The five touch screen handwriting input system interface of the word ", symbol" symbol, control "control". As shown in Figure 11, after releasing the thumb F11, the thumb F11 and the Chinese "Chinese" key are changed from contact state to non- In the contact state, the handheld electronic device will switch to the Chinese handwriting input interface named "Chinese", that is, the first input interface. In the first input interface, the input information received by the default handwriting screen is Chinese character information, and the input software system recognizes When the information is used, only the Chinese characters are recognized; as shown in Fig. 12, after the index finger F12 is released, the index finger F12 and the English "English" key are changed from the contact state to the non-contact state, and the handheld electronic device switches to the English handwriting input interface. At this time, the input information received by the default handwriting screen is English information, and the input software system only recognizes the English when identifying the information; as shown in FIG. 13, after releasing the middle finger F13, the middle finger F13 and the digital "number" key are When the contact state is changed to the non-contact state, the handheld electronic device switches to the digital handwriting input interface. At this time, the input information received by the default handwriting screen is Digital information, the input software system only recognizes the number when identifying the information; as shown in Figure 14, after the ring finger F14 is released, the ring finger F14 and the symbol "symbol" key are changed from the contact state to the non-contact state, and the handheld electronic device is Switch to the symbol handwriting input interface. At this time, the input information received by the default handwriting screen is symbol information. The input software system only recognizes the symbol when identifying the information; as shown in Figure 15, after releasing the little finger F15, the little finger The F15 and the control "control" key are changed from the contact state to the non-contact state, and the handheld electronic device switches to the command action input interface. At this time, the input information received by the default handwriting screen is a command action, and the input software system recognizes the information. Only the command action is recognized at the time.

Input interface switching method Embodiment 3: As shown in FIG. 16-20, in this embodiment, two sensing pressure buttons F21 and F22 are disposed at two corners of the handheld electronic device, and two index finger definitions of the operator are used. Four sets of finger pressure sensing information are defined, corresponding to four touch screen input system interfaces. As shown in FIG. 17, in the state of the normal handheld device, the two index fingers of the operator are not pressed on the buttons F21 and F22, and the input interface is at the first input interface. At this time, the touch screen is displayed from top to bottom. The copy key "Copy", Chinese punctuation key "Chinese punctuation", backspace key "one backspace", undo key "undo", cut key "cut", English punctuation key "English punctuation" are displayed in order. , up navigation key "†", enter key "ENTER", recovery key "restore", paste key "paste", left navigation key "one", down navigation key "", right navigation key "→", delete the key "Delete", and press the corresponding position with your finger or a pen to execute the corresponding command. As shown in FIG. 18, the two index fingers of the operator are simultaneously pressed on the buttons F21 and F22, and the input interface is at the second input interface. At this time, the Arabic numeral "1" is displayed from top to bottom on the touch display screen. "2", "3", "0", plus "+", Arabic numerals "4", "5", "6", period "." minus "-", Arabic numerals "7", "8 ", "9", the rice key "*", the left diagonal line "/", click the corresponding position with your finger or a pen, then execute the corresponding command or enter the corresponding symbol or number. As shown in FIG. 19, the operator's left index finger is pressed on the button F21, and when the right index finger is released, the input interface is at the third input interface. At this time, the English characters are displayed on the touch display screen from top to bottom. Q,,,"W,,,"E,,,"R,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, Z,,, "X,,,""C,,""V,,,"B", use your finger or pen to click the corresponding position, then enter the corresponding letter. As shown in Figure 20, the operator's right index finger presses Pressed on button F22, and the left hand index finger is released, the input interface is in the fourth input interface. At this time, the English letters "Y", "U", T, "0" are displayed in order from top to bottom on the touch screen. ", "Ρ", "Η", "J", "Κ", "L", semicolon ";", space bar, English letter "N", "M", comma ",", period "·" , Tap the corresponding position with your finger or a pen, and enter the corresponding symbol or letter.

 Input interface switching method embodiment 4:: As shown in Fig. 21-27, two operation keys F31 and F32 are used to define four sets of finger contact information, which are located at the upper right edge of the handheld electronic device, respectively The index finger of the left hand corresponds to the middle finger when the operator holds the device. The four sets of finger contact information correspond to four touch screen browsing input system interfaces that define scrolling, dragging, zooming, and rotating. As shown in FIG. 22 and FIG. 23, in the case of a normal handheld device, the index finger and the middle finger of the left hand of the operator are simultaneously pressed on the operation keys F31 and F32. At this time, the input interface is in the first interface, and the operator can pass the touch screen. Perform a normal browsing, as shown in Figure 22. You can also use the finger or stylus to horizontally traverse the browsing window to scroll the icon in the browsing interface, as shown in Figure 23. As shown in Figure 24, after simultaneously releasing the operation keys F31 and F32 corresponding to the index finger and the middle finger. The input interface will switch to the second input interface. At this time, the browsing interface can be dragged with a finger or a stylus; as shown in FIGS. 25 and 26, after the operation key F31 corresponding to the index finger is released, the handheld electronic device is The touch input interface will switch to the third interface. At this time, if the screen is tilted obliquely from top to bottom with a finger or a writing pen, the browsing interface can be reduced as shown in FIG. 25, and vice versa. By sliding the screen obliquely from bottom to top, the browsing interface can be enlarged as shown in FIG. 26; as shown in FIG. 27, after the corresponding operation key F32 of the middle finger is released, the touch input interface of the handheld electronic device is It will switch to the fourth interface. If you use your finger or a pen to draw a circle clockwise or counterclockwise on the screen, you can rotate the touch interface. The implementation of these specific operations is a well-known technique, and the content of the present invention relates only to the switching of the input interface, and therefore the implementation of the above operation will not be further described.

 The input methods of the handheld electronic device input system include touch input, key input, camera input, and voice input. The contents of the input interface are characters, commands, tracks, actions, images, and so on.

 When using the camera for input, the camera input interface can be divided into a high-resolution camera input interface, a mid-resolution camera input interface, a low-resolution camera input interface, a text recognition input interface, and a gesture command input interface. When using voice input, the voice input interface can be divided into a Chinese recognition input interface, an English recognition input interface, a voice command input interface, and a voice text input interface.

Claims

Claim

What is claimed is: 1. A method of switching an input interface on a handheld electronic device, comprising the steps of:

 Step A: The operator hands hold the electronic device, and the operator's finger contacts the contact sensing device of the handheld electronic device; Step B: The touch sensing device of the handheld electronic device collects the operator's finger contact information; Step C: The input software system receives and Analyze finger contact information; Step D: The input software system selects a switching input interface according to the finger contact information, and outputs the input interface to the touch display device; Step E: Touching the display device to receive the touch information, and transmitting the touch information to the input software System; Step F: The input software system converts the information input by the touch display device into the input content according to the selected input interface; Step G: The input software outputs the input content to other application software.

 2. The method of switching an input interface on a handheld electronic device according to claim 1, wherein: in step B, the operator finger contact information collected by the touch sensing device is collected by a single touch sensing device. A combination of finger contact information or finger contact information collected by a plurality of touch sensing devices.

 3. A switching device for use in a method of switching an input interface on a handheld electronic device as claimed in claim 1 or 2, comprising an input software system installed in the handheld electronic device and a contact connected to the input of the handheld electronic device The sensing device is characterized in that: the touch sensing device is a plurality of touch sensing sheets distributed on the side or the back of the handheld electronic device, and the touch sensing sheet is a sensing sheet for collecting pressure sensitive information or tactile information, and is distributed to the operator. The area where the finger touches the device while holding the electronic device.