WO2012092729A1 - Terminal and display method threrof - Google Patents

Abstract

A terminal and display method thereof is provided in the present invention, wherein, the terminal includes: a pose sensor, which is configured to obtain current three-dimension space information; a data analysis module, which is configured to judge the three-dimension space direction of the terminal according to the three-dimension space information; a display adjustment module, which is configured to adjust the display direction of the content on the display screen of the terminal according to the judged three-dimension space direction. The present invention achieves the effect of a more humanized terminal design, thus improving the use experience of users.

Description

TECHNICAL FIELD The present invention relates to the field of communications, and in particular to a terminal and a display method thereof. BACKGROUND With the development of communication and network technologies, handheld devices have become the most popular communication tools, and the use of handheld devices has brought great convenience to people's lives and travel. Since Apple released the iPhone, full-touch handheld devices have become more and more popular. Handheld devices that do not have too many buttons not only attract the attention of consumers in appearance, but also make the operation of handheld devices break the traditional mode. However, in the process of using a straight-bar full-touch handheld device like the iPhone, there is a problem that has been plaguing the user, that is: when picking up the handheld device for the first time, it is possible to take the handheld device down and it is difficult to use it. In the case of visual judgment, it is discriminated whether the handheld device has been taken down. In some applications, it is unacceptable to use the eyes to interpret whether the handheld device has been taken down. For example: When driving a vehicle, there is a sudden incoming call. In the absence of a Bluetooth headset, it is very dangerous for the user to use the eyes to judge whether the handheld device is taken up. Under normal circumstances, when the handheld device is found to be taken down, it is necessary to rotate the handheld device by 180 degrees, which is very troublesome for the user, and may also cause the handheld device to fall during the process of rotating the handheld device. Lightly affects the answering of this call, but it may cause damage to the handheld device. In short, in the process of using the full touch straight handheld device, the current handheld device can not solve the problem that the user takes the handheld device down, which brings inconvenience to the use of the handheld device and reduces the user experience. SUMMARY OF THE INVENTION A main object of the present invention is to provide a terminal and a display method thereof, which at least solve the problem that when the user pulls down the terminal device, the user needs to manually rotate the display screen to view, and the user experience is low. According to an aspect of the present invention, a terminal is provided, including: an attitude sensor configured to acquire current three-dimensional spatial information of a terminal; and a data analysis module configured to determine according to three-dimensional spatial information The three-dimensional direction of the terminal is broken; the display adjustment module is configured to adjust the display direction of the display content of the terminal according to the determined three-dimensional direction. The terminal further includes: at least two pairs of earpieces and microphones, and an audio control module; wherein, the audio control module is configured to adjust the working state of each pair of earpieces and microphones according to the three-dimensional direction of the terminal, and complete the voice call. The audio control module is configured to adjust at least two pairs of earpieces and one of the microphones and the plurality of microphones to work simultaneously according to the three-dimensional direction of the terminal to complete the voice call. The current three-dimensional spatial information of the terminal includes: current three-dimensional spatial change information of the terminal, rotation angle information of the terminal, and rotational angular acceleration information of the terminal. The display adjustment module includes: a determination module, configured to determine whether an angle between the three-dimensional space direction and the gravity direction exceeds a set range; the adjustment module is configured to adjust a display direction of the display content of the terminal when the determination result of the determination module is YES . According to another aspect of the present invention, a display method of a terminal is provided, including: acquiring current three-dimensional spatial information of a terminal; determining a three-dimensional spatial direction of the terminal according to the three-dimensional spatial information; and adjusting the terminal according to the determined three-dimensional spatial direction The display orientation of the display content. At least two pairs of earpieces and microphones are disposed in the terminal; the method further includes: adjusting a working state of each pair of earpieces and a microphone in a three-dimensional direction of the terminal to complete a voice call. The operation state of each pair of earpieces and microphones is adjusted according to the three-dimensional direction of the terminal. The steps of completing the voice call include: adjusting at least two pairs of earpieces and one of the microphones and the plurality of microphones simultaneously according to the three-dimensional direction of the terminal Work, complete the voice call. The current three-dimensional spatial information of the terminal includes: current three-dimensional spatial change information of the terminal, rotation angle information of the terminal, and rotational angular acceleration information of the terminal. The step of adjusting the display direction of the display content of the terminal according to the determined three-dimensional direction includes: determining whether the angle between the three-dimensional spatial direction and the gravity direction exceeds a set range; if yes, adjusting the display direction of the display content of the terminal . According to the invention, the posture sensor is set in the terminal, and the user can automatically sense the orientation of the terminal device and output the sensing data including the three-dimensional position information, and the direction of the display screen of the terminal can be automatically adjusted after the analysis, thereby solving the problem. In the prior art, when the user takes the mobile phone, It is necessary to manually rotate the screen of the mobile phone, and the user experience is low, thereby achieving a more user-friendly design of the terminal device and an effect of improving the user experience. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural block diagram of a terminal according to a first embodiment of the present invention; FIG. 2 is a structural block diagram of a terminal according to a second embodiment of the present invention; FIG. 3 is a process of using the terminal shown in FIG. Figure 4 is a flow chart showing the steps of a display method of a terminal according to the third embodiment of the present invention; and Figure 5 is a flow chart showing the steps of a display method of a terminal according to the fourth embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. Embodiment 1 Referring to FIG. 1 , a block diagram of a terminal according to a first embodiment of the present invention is shown, including: an attitude sensor 102 configured to acquire current three-dimensional spatial information of a terminal; and a data analysis module 104 configured to be The three-dimensional spatial direction of the terminal is determined according to the three-dimensional spatial information; the display adjustment module 106 is configured to adjust the display direction of the display content of the terminal according to the determined three-dimensional spatial direction. For example, the attitude sensor 102 senses current three-dimensional spatial information of a terminal such as a handheld device, such as vector data of the terminal in three-dimensional space, including a three-dimensional spatial direction, a rotation direction, and the like, and outputs the same to the data analysis module 104; the data analysis module 104 analyzes the attitude sensor. The output vector data of 102 determines the current three-dimensional spatial direction of the handheld device; the display adjustment module 106 adjusts the display direction of the display content of the handheld device in real time according to the analysis result of the data analysis module 104. In the related art, when the user takes the terminal device down, it is necessary to manually rotate the display screen for viewing, thereby causing the user to use the body-risk. In this embodiment, the posture sensor is set in the terminal, and the user can automatically sense the orientation of the terminal device and output the sensing data including the three-dimensional position information. After analysis, the direction of the terminal display screen can be automatically adjusted to solve the problem. In the prior art, when the user takes the mobile phone, the mobile phone screen rotation needs to be performed manually, and the user experience is low, thereby achieving the effect that the terminal device design is more user-friendly and the user experience is improved. Embodiment 2 Referring to FIG. 2, a block diagram of a terminal according to a second embodiment of the present invention is shown. At least two pairs of earpieces and microphones are disposed in the terminal of the embodiment, and each pair of earpieces and microphones can be set as usual, and the positions of each pair of earpieces and microphones and other pairs of earpieces and microphones can be opposite or adjacent. For example, in the case of two pairs of earpieces and microphones, in the first pair of earpieces and microphones, the earpieces can be placed on the upper side of the normal position of the terminal, and the microphones are relatively disposed on the lower side; and in the second pair of earpieces and microphones, the microphones can be set. On the upper side of the normal position of the terminal, the earpiece is relatively disposed on the lower side. If there is a third pair of earpieces and microphones, the third pair of earpieces can be placed on the left side of the terminal normal position, the microphone is set on the right side; if there is a fourth pair of earpieces and microphones, the fourth pair of earpieces and The microphone can be set relative to the third pair of handsets and microphones. Of course, in actual use, those skilled in the art can appropriately set according to actual conditions, and the present invention does not limit this. The terminal of the embodiment includes: at least two pairs of earpieces and a microphone, the method further includes: an attitude sensor 202 configured to acquire current three-dimensional spatial information of the terminal; and a data analysis module 204 configured to determine a three-dimensional spatial direction of the terminal according to the three-dimensional spatial information; The display adjustment module 206 is configured to adjust the display direction of the display content of the terminal according to the determined three-dimensional direction; the audio control module 208 is configured to adjust the working state of each pair of the handset and the microphone according to the three-dimensional direction of the terminal, and complete Voice calls. Preferably, when the terminal is in a call, only one earpiece can be set to work, and multiple microphones work simultaneously to complete the voice call. Preferably, the current three-dimensional spatial information of the terminal includes: current three-dimensional spatial change information of the terminal, rotation angle information of the terminal, and rotational angular acceleration information of the terminal. Preferably, the display adjustment module 206 includes: a determination module, configured to determine whether an angle between the three-dimensional spatial direction and the gravity direction exceeds a set range; and the adjustment module is configured to adjust the display screen of the terminal when the determination result of the determination module is yes The display direction of the content. Where the setting range can be The technical personnel in the field can flexibly set according to the actual situation, for example, the angle between the three-dimensional space direction and the gravity direction is greater than 90 degrees, or between 10-80 degrees, and the like, which is not limited by the present invention. Preferably, the attitude sensor 202 can be a gravity sensor, and the terminal obtains the gravity direction of the terminal through the gravity sensor, and further determines whether the angle between the two is within a set range compared with the direction of the earth's gravity, and if the setting range is exceeded, The display direction of the display content of the terminal is adjusted according to the gravity direction of the terminal. Of course, the attitude sensor 202 can also be other types of sensors, such as a gyroscope, etc., which is not limited by the present invention. For example, the attitude sensor 202 senses and outputs three-dimensional spatial direction information of the terminal, such as the handheld device, including data related to three-dimensional spatial position changes, rotation angles, and rotational angular accelerations; the data analysis module 204 analyzes data transmitted by the attitude sensor 202, including handheld The three-dimensional spatial change of the device, the rotation angle and the rotational angular acceleration information, the current three-dimensional state of the handheld device and the change related to the three-dimensional spatial position are determined by processing the information; the display adjustment module 206 determines according to the data analysis module 204. The result is to adjust the content and display direction of the LCD display of the handheld device to be suitable for the handheld device holder to view and operate; the audio control module 208 adjusts the Receiver that needs to be used during the call of the handheld device according to the result of the data analysis module 204. The (handset) and MIC (microphone) modes of operation allow the user to complete the voice call using the corresponding Receiver and MIC, regardless of whether the device is facing up or down. In this embodiment, by setting the attitude sensor, and the reasonable arrangement of the earpiece and the microphone (microphone), the terminal, such as the handheld device, can automatically sense the user's orientation, and output the sensing data including the three-dimensional position information, which is automatically analyzed. Adjust the display direction of the display, switch the Receiver and MIC working status, and let the user take the handheld device from that direction, from the user's point of view, through the reasonable interaction between the posture sensor inside the handheld device and the UI (User Interface) interface. The handheld devices are all positive, completely solving the problem of inconvenient use of the handheld device when it is taken down, reducing the user's use of the body, and bringing excellent user-risk. Referring to FIG. 3, a schematic diagram of the use process of the terminal shown in FIG. 2 is shown. In this embodiment, two pairs of receivers (receivers) and microphones (MICs) are disposed in the terminal, and the two pairs of earpieces are opposite to the microphones, and are respectively disposed on the upper and lower sides of the terminal. As shown in FIG. 3, when the handheld device is rotated 180 degrees in its display span (XY axis), the attitude sensor 202 will sense the rotation vector data and transmit it to the data analysis module 204, which analyzes the handheld device. The current three-dimensional position determines the current manner in which the user holds the handheld device, and the display adjustment module 206 adjusts the display to the front display or rotates the 180-degree display according to the current holding mode. From the user's point of view, the content on the display is always positive. The audio control module 208 switches the working states of the two sets of Recevier and MIC (if the handheld device is in a call state) placed on the handheld device according to the information given by the data analysis module 204, and the user uses the appropriate audio path to make a call. The Receiver can be handled by turning off one of the channels and opening the way to the user's ear. For the MIC, you can turn off the MIC. Use only the MIC at the user's mouth. You can also turn the two MICs on at the same time. The side MIC acts as the main MIC, and the J3⁄4 function turns on the dual MIC noise reduction function of the handheld mobile device. Embodiment 3 Referring to FIG. 4, a flow chart of steps of a display method of a terminal according to Embodiment 3 of the present invention is shown. The terminal in this embodiment can use any one of the terminals shown in FIG. 1 or FIG. 2. The display method of the terminal in this embodiment includes the following steps: Step S402: Acquire current three-dimensional spatial information of the terminal; for example, the posture sensor of the terminal acquires current three-dimensional spatial information of the terminal. For example: the current three-dimensional space change information of the terminal, the rotation angle information of the terminal, and the rotation angular acceleration information of the terminal. Step S404: determining the three-dimensional spatial direction of the terminal according to the three-dimensional spatial information; for example, the data analysis module of the terminal analyzes the three-dimensional spatial information of the terminal, and determines the three-dimensional spatial direction of the terminal, thereby obtaining the user's access to the terminal device. direction. Step S406: Adjust the display direction of the display content of the terminal according to the determined three-dimensional spatial direction. For example, the display adjustment module of the terminal is in the three-dimensional direction of the terminal, that is, the user takes the orientation of the terminal device to adjust the display direction of the display content of the terminal, so that the user can take the terminal device no matter which direction, the terminal device The display interface is positive. In the related art, when the user takes the terminal device down, it is necessary to manually rotate the display screen for viewing, thereby causing the user to use the body-risk. In this embodiment, the posture sensor is set in the terminal, and the user can automatically sense the orientation of the terminal device and output the sensing data including the three-dimensional position information. After analysis, the direction of the terminal display screen can be automatically adjusted to solve the problem. Existing technology During the operation, when the user takes the mobile phone, the user needs to manually rotate the screen of the mobile phone, and the use experience is low, thereby achieving the more humanized design of the terminal device and improving the user experience. Embodiment 4 Referring to FIG. 5, a flow chart of steps of a display method of a terminal according to Embodiment 4 of the present invention is shown. In this embodiment, two pairs of earpieces and microphones are disposed in the terminal, and the positions of the two pairs of earpieces and the microphone are oppositely disposed. The display method of the terminal in this embodiment includes the following steps: Step S502: Determine whether the terminal rotates, and if yes, execute step S504; if no, perform step 4 S510. In this step, the terminal obtains the three-dimensional spatial information of the terminal through the posture sensor provided therein, and further obtains the three-dimensional spatial direction of the terminal according to the three-dimensional spatial information, and determines whether the terminal rotates. Preferably, when it is determined whether the terminal rotates, it may be determined by determining whether the angle between the three-dimensional spatial direction of the terminal and the gravity direction exceeds a set range. Step S504: The display content of the terminal is rotated by 180 degrees. Step S506: determining whether the terminal needs to make a call or is in a call, if yes, perform step

Ml S508; If no, turn off the audio. Step S508: The audio path 2 operates, the audio path 1 is turned off, and the process returns to step S502. Step 4: S510: The display content of the terminal is normally displayed in the forward direction. Step S512: determining whether the terminal needs to make a call or is in a call, if yes, execute step M1 to S514; if not, turn off the audio. Step S514: The audio path 1 is operated, the audio path 2 is turned off, and the process returns to step S502. In this embodiment, the terminal first determines whether the current holding mode is forward or reverse, and adjusts the display mode of the display screen in real time according to the result of the determination. After the adjustment, it is determined whether the current terminal needs to make a call or is in a call state. If yes, the corresponding audio channel is switched, and if it is not in the call state, the audio channel on the terminal is closed. Finally, go back to the beginning and proceed to the next phase. The same process, through continuous loop judgment, completes the real-time control and response to the direction of the display and display content of the terminal. It should be noted that, in the process of switching the operation of the corresponding audio channel, the manner in which one of the two pairs of earpieces and the microphone and the two microphones are simultaneously in operation can also be used. In addition, in this embodiment, only two pairs of earpieces and microphones are set as an example, but the invention is not limited thereto. The terminal can also set more pairs of earpieces and microphones, and switch according to the holding manner of the terminal, so that the user can make a voice call. For example, two pairs of earpieces and microphones can be oppositely arranged in the horizontal direction of the terminal. When the user holds the terminal horizontally, the working states of the two pairs of earpieces and the microphone are switched, so that the user can smoothly even if the terminal is horizontally held. Make a call. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim

1. A terminal, comprising:

 An attitude sensor, configured to acquire current three-dimensional spatial information of the terminal; and a data analysis module, configured to determine a three-dimensional spatial direction of the terminal according to the three-dimensional spatial information;

 The display adjustment module is configured to adjust a display direction of the display content of the terminal according to the determined three-dimensional spatial direction.

The terminal according to claim 1, wherein the terminal further comprises: at least two pairs of earpieces and a microphone, and an audio control module; wherein the audio control module is configured to adjust according to a three-dimensional direction of the terminal The working state of each pair of earpieces and microphones completes a voice call.

The terminal according to claim 2, wherein the audio control module is configured to adjust one of the at least two pairs of earpieces and the microphone to work simultaneously according to a three-dimensional spatial direction of the terminal, Complete the voice call.

The terminal according to claim 1, 2 or 3, wherein the current three-dimensional spatial information of the terminal comprises: current three-dimensional spatial change information of the terminal, rotation angle information of the terminal, and the terminal Rotate angular acceleration information.

The terminal according to claim 1, 2 or 3, wherein the display adjustment module comprises: a determining module, configured to determine whether an angle between the three-dimensional spatial direction and the gravity direction exceeds a set range;

 The adjustment module is configured to adjust a display direction of the display content of the terminal when the determination result of the determination module is YES.

6. A method for displaying a terminal, comprising:

 Obtaining current three-dimensional space information of the terminal;

Determining the three-dimensional spatial direction of the terminal according to the three-dimensional spatial information; And determining the display direction of the display content of the terminal according to the determined three-dimensional spatial direction.

The method according to claim 6, wherein at least two pairs of earpieces and a microphone are disposed in the terminal; the method further includes:

 The working state of each pair of earpieces and microphones is adjusted in the three-dimensional direction of the terminal to complete a voice call.

8. The method according to claim 7, wherein the operating state of each pair of earpieces and microphones is adjusted according to a three-dimensional spatial direction of the terminal, and the step of completing a voice call comprises:

 According to the three-dimensional direction of the terminal, one of the at least two pairs of earpieces and the microphone is adjusted to work simultaneously to complete the voice call.

The method according to claim 6, 7 or 8, wherein the current three-dimensional spatial information of the terminal comprises: current three-dimensional spatial change information of the terminal, rotation angle information of the terminal, and the terminal Rotate angular acceleration information.

The method according to claim 6, 7 or 8, wherein the step of adjusting the display direction of the display content of the terminal according to the determined three-dimensional spatial direction comprises:

 Determining whether an angle between the three-dimensional spatial direction and the gravity direction exceeds a set range; if yes, adjusting a display direction of the display content of the terminal.