WO2017080250A1 - Method and system for implementing man-machine interaction of tablet computer - Google Patents

Abstract

The present invention relates to a method and system for implementing man-machine interaction of a tablet computer. The method comprises: dividing a touchscreen of a tablet computer into multiple zones; detecting the current position of a user, and determining a zone corresponding to the current position of the user; and displaying a preset touch functional key in the touchscreen, into the corresponding zone. By means of the present invention, the positions of suspended function keys can be automatically adjusted according to the position of an operator, thereby improving the operation convenience of man-machine interaction of a large-size tablet computer.

Description

 Method and system for realizing tablet human-computer interaction

Technical field

 The present invention relates to the field of touch screen control technologies, and in particular, to a method and system for implementing tablet human-computer interaction. Background technique

 With the development of touch technology, more and more large-sized flat panels are used, such as conference machines, educational flats for classrooms, etc. These large-sized flat panels are larger in size than conventional touch screens, and are usually larger than the human body. width. In actual use, such large-sized flat panels can provide human-computer interaction based on touch technology, which is convenient for users to implement functions such as presentation and teaching.

 Many functions of the existing tablet need to be activated by function keys. In order to improve the user experience, the size of the touch screen of the tablet is designed to be larger and larger; especially when the size of the touch screen is larger than the width of the human body, the user needs to move the body to touch. To the preset function keys; therefore, as the size of the touch screen increases, the user's convenience of operation is affected; more importantly, the user moving back and forth in front of the tablet will inevitably block the touch screen, thereby affecting the presentation and teaching effects. Summary of the invention

 Based on this, the method and system for realizing tablet human-computer interaction provided by the present invention can automatically adjust the position of the floating function key according to the position of the operator, thereby improving the operation convenience of the large-scale tablet human-computer interaction.

 The invention adopts the following technical solutions:

 An aspect of the present invention provides a method for implementing tablet human-computer interaction, including:

 Dividing the touch screen of the tablet into several partitions;

 Detecting the current location of the user, and determining the partition corresponding to the current location of the user;

 The touch function keys preset in the touch screen are displayed in the corresponding partitions.

 Preferably, the touch screen of the tablet is divided into several partitions, including,

Dividing the touch screen into a first partition, a second partition, and a third partition; wherein, the first partition, the first The three partitions are respectively located on the left and right sides of the second partition.

 Preferably, the dividing the touch screen into the first partition, the second partition, and the third partition comprises: dividing the touch screen into four horizontally arranged areas of equal width;

 The first area from left to right is the first partition, the second and third areas are the second partition, and the fourth area is the third partition;

 Or,

 Dividing the touch screen into three horizontally arranged areas of equal width;

 Set the first area from left to right to the first partition, the second area to the second partition, and the third area to the third partition.

 Preferably, the detecting the current location of the user, and determining the partition corresponding to the current location of the user, including,

 The preset infrared detecting device periodically detects the current location of the user, and determines that the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition.

 Preferably, the periodically detecting the current location of the user by using a preset infrared detecting device, including,

 The first infrared detecting device, the second infrared detecting device and the third infrared detecting device respectively disposed at the left portion, the bottom middle portion and the bottom right portion of the bottom of the flat plate are periodically detected to detect the current position of the user;

 The distance between the first infrared detecting device and the third infrared detecting device and the second infrared detecting device are equal.

 Preferably, the preset infrared detecting device periodically detects the current location of the user, and determines that the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition, including,

 Establishing a corresponding relationship between each of the infrared detecting devices and each of the partitions, wherein the first infrared detecting device corresponds to the first partition, the second infrared detecting device corresponds to the second partition, and the third infrared detecting device corresponds to The third partition;

Recording the sum of the intensities of the infrared signals emitted by the three infrared detecting devices during the set time, which are respectively recorded as S1, S2, S3; comparing the three infrared detecting devices at the set time Receiving the sum of the intensities of the infrared signals emitted by the human body;

 If SI>S2 and S1>S3, determining, according to the correspondence, a partition corresponding to the current location of the user as the first partition;

 If S3>S2 and S3>S1, determining, according to the correspondence, a partition corresponding to the current location of the user is a third partition;

 If S2>=S1 and S2>=S3, the partition corresponding to the current location of the user is determined to be the second partition according to the correspondence.

 Preferably, the touch function key preset in the touch screen is displayed in the corresponding partition, including,

 If the partition corresponding to the current location of the user is the first partition, the touch function key preset in the touch screen is displayed to the setting area on the left side of the touch screen;

 If the partition corresponding to the current location of the user is the third partition, the preset touch function key in the touch screen is displayed to the setting area on the right side of the touch screen;

 If the partition corresponding to the current location of the user is the second partition, the preset touch function key in the touch screen is displayed to the setting area in the middle of the bottom side of the touch screen.

 Another aspect of the present invention provides a system for implementing tablet human-computer interaction, including:

 a partition setting module, configured to divide the touch screen of the tablet into several partitions;

 a location detecting module, configured to detect a current location of the user, and determine a partition corresponding to the current location of the user;

 And a display control module, configured to display a preset touch function key in the touch screen into the corresponding partition.

 Preferably, the partition setting module is specifically configured to divide the touch screen into a first partition, a second partition, and a third partition. The first partition and the third partition are respectively located on the left and right sides of the second partition.

 Preferably, the dividing the touch screen into the first partition, the second partition, and the third partition comprises: dividing the touch screen into four horizontally arranged areas of equal width;

 The first area from left to right is the first partition, the second and third areas are the second partition, and the fourth area is the third partition;

or, Dividing the touch screen into three horizontally arranged areas of equal width;

 Set the first area from left to right to the first partition, the second area to the second partition, and the third area to the third partition.

 Preferably, the location detecting module is configured to periodically detect a current location of the user by using a preset infrared detecting device, and determine that the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition.

 Preferably, the periodically detecting the current location of the user by using a preset infrared detecting device, including,

 The first infrared detecting device, the second infrared detecting device and the third infrared detecting device respectively disposed at the left portion, the bottom middle portion and the bottom right portion of the bottom of the flat plate are periodically detected to detect the current position of the user;

 The distance between the first infrared detecting device and the third infrared detecting device and the second infrared detecting device are equal.

 Preferably, the location detecting module is specifically configured to establish a correspondence between each of the infrared detecting devices and each of the partitions, wherein the first infrared detecting device corresponds to the first partition, and the second infrared detecting device corresponds to the a second partition, the third infrared detecting device corresponding to the third partition; recording three infrared detecting devices receiving the sum of the intensity of the infrared signals emitted by the human body within a set time, respectively recorded as S1, S2, S3 Comparing the sum of the intensities of the infrared signals emitted by the three infrared detecting devices during the set time;

 If SI>S2 and S1>S3, determining, according to the correspondence, a partition corresponding to the current location of the user as the first partition;

 If S3>S2 and S3>S1, determining, according to the correspondence, a partition corresponding to the current location of the user is a third partition;

 If S2>=S1 and S2>=S3, the partition corresponding to the current location of the user is determined to be the second partition according to the correspondence.

Preferably, the display control module is specifically configured to: if the partition corresponding to the current location of the user is the first partition, display the preset touch function key in the touch screen to the setting area on the left side of the touch screen; The partition corresponding to the location is the third partition, and the touch function preset in the touch screen is The key is displayed to the setting area on the right side of the touch screen; if the partition corresponding to the current location of the user is the second partition, the touch function key preset in the touch screen is displayed to the setting area in the middle of the bottom side of the touch screen.

 The beneficial effects of the above technical solution of the present invention include: dividing a touch screen of the tablet into a plurality of partitions; detecting a current location of the user, determining a partition corresponding to the current location of the user; displaying a preset touch function key in the touch screen Go to the corresponding partition. Therefore, the large-sized flat plate can automatically adjust the position of the floating function key according to the position of the operator, and the user can operate the function key frequently in front of the screen without operating the user, thereby improving the convenience of man-machine interaction of the large-sized tablet. DRAWINGS

 1 is a schematic flowchart of a method for implementing tablet human-computer interaction according to an embodiment of the present invention; FIG. 2 is a schematic diagram of partitioning of a touch screen partition;

 FIG. 3 is a schematic diagram of another touch screen partition division;

 Figure 4 is a schematic view showing the installation of a flat panel infrared detecting device;

 FIG. 5 is a schematic diagram showing an effect of displaying a touch function key to a corresponding area of the touch screen according to a current position of the user;

 FIG. 6 is a schematic structural diagram of a system for implementing tablet human-computer interaction according to an embodiment of the present invention. detailed description

 The technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the drawings in the embodiments of the present invention. The embodiments are merely a part of the embodiments of the invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without departing from the inventive work are all within the scope of the present invention.

 The embodiments provided by the present invention include an embodiment of a method for implementing tablet human-computer interaction, and a corresponding system embodiment for implementing tablet human-computer interaction. The details are described below separately.

 FIG. 1 is a schematic flowchart of a method for implementing tablet human-computer interaction according to an embodiment of the present invention. As shown in FIG. 1, the method includes the following steps S101 to S103, which are described in detail as follows:

S101, dividing the touch screen of the tablet into several partitions; The flat panel in this embodiment is provided with a touch screen of a larger size, and the lateral width of the touch screen exceeds the width of the human body. It should be noted that the system function of the tablet in this embodiment needs to be activated by a touch function key (also referred to as a floating function key or a function key in the embodiment of the present invention). For example, based on the Android system tablet, the system function needs to be activated by three function keys. Based on the IOS system tablet, the system function needs to be activated by a function key.

 Preferably, in this embodiment, the touch screen area of the flat panel can be divided horizontally, and divided into two or more areas from left to right. For example: The touch screen area can be divided into two left and right partitions, and the touch function keys in the touch screen can be automatically displayed in the left partition or the right partition according to the specific position of the operator in front of the touch screen; or, as shown in the figure 2 shows that the touch screen area is divided into three areas from left to right, which are the first partition, the second partition, and the third partition. In the embodiment of the present invention, the first partition is the left partition, and the second partition is The middle partition, the third partition is the right partition), correspondingly according to the specific position of the operator in front of the touch screen, the touch function key in the touch screen is automatically displayed to the left partition, the middle partition or the right partition; or, as shown in FIG. 3 The touch screen area is divided into four areas from left to right, the first area from left to right is the first partition, the second and third areas are the second partition, and the fourth area is the first area. The three partitions, that is, the middle partition is larger than the partitions on the left and right sides.

 It should be noted that the above-mentioned left and right directions may be specifically referred to FIG. 2 and FIG. 3, and the form of dividing the touch screen of the tablet into a plurality of partitions includes, but is not limited to, the above manner, and may be adjusted according to actual conditions.

 S102, detecting a current location of the user, and determining a partition corresponding to the current location of the user. In the embodiment of the present invention, the image in front of the touch screen is obtained, and the image is analyzed to obtain a current location of the user in front of the touch screen; The sensor detects the current location of the user in front of the touch screen. The specific detection method may be an existing human body positioning technology, which is not described in the present invention.

As a preferred embodiment, the location of the current location of the user may be periodically detected by the preset infrared detecting device of the tablet, and the partition corresponding to the current location of the user is determined to be the first partition, the second partition, or the third partition. In view of this, it is also necessary to set a corresponding infrared detecting device on the tablet in advance to detect the current location of the user. The infrared detection device ensures the accuracy of detecting the current location of the user. Specifically, a plurality of infrared detecting devices are respectively installed on the left, middle, and right portions of the bottom of the flat plate, and the infrared detecting devices periodically detect that the current location of the user corresponds to the first partition, the second partition, or the third partition.

 Preferably, the number of the infrared detecting devices is set to be equal to the number of partitions divided in the above step S101, and the first infrared detecting device, the second infrared detecting device and the third portion are respectively installed at the left, middle and right portions of the bottom of the flat plate. Infrared detection device. The specific installation positions of the three infrared detecting devices can be: Assume that the horizontal width of the touch screen of the tablet is L, divide the width of the touch screen into three equal parts, and install the first infrared detecting device at the center of the 0-L/3 interval at the bottom of the flat plate. Install a second infrared detecting device at the L/2 position (ie, the central position of the L/3-2L/3 interval), and install a third infrared detecting device at the central position of the 2L/3-L interval, that is, the first The infrared detecting device and the third infrared detecting device are respectively located on the left and right sides of the second infrared detecting device, and the distances between the first infrared detecting device and the third infrared detecting device and the second infrared detecting device are equal. Preferably, the three infrared detecting devices respectively include an infrared emitter and an infrared receiver, and the positions of the infrared emitter and the infrared receiver are vertically aligned; the specific installation diagram can be referred to FIG. 4 and FIG.

 The above three sets of infrared emitters and infrared receivers are numbered, numbered 1-3 from left to right.

The No. 1 transmitter is located vertically above the No. 1 receiver and is placed at the left of the bottom of the plate; the No. 2 transmitter is located vertically above the No. 2 receiver and is placed in the middle of the bottom of the plate; the No. 3 transmitter is located at the No. 3 receiver. Vertically above, set to the right of the bottom of the plate. In this embodiment, the infrared signals transmitted by the three infrared emitters are weak, and the other side is used for energy saving, and the other side can control the detection range to be 1 meter in front of the touch screen, because the person who normally exceeds the range is a non-plate operator. Therefore, it is not considered, thereby preventing the interference of other people's movements on the tablet human-computer interaction.

Based on the above-mentioned infrared detecting device, the principle of detecting the current position of the user is as follows: Three infrared emitters send infrared signals to the front in real time, and the emitted infrared signals are reflected back to the human body and are received by the infrared receiver. Each infrared receiver records the sum of the signal strengths received during the set time. For example, counting from the time when the infrared signal is emitted, the sum of the signal strengths received by the infrared receivers every 1 second is counted. Since the sum of the signal strengths received by the infrared detecting device within the set time and the distance from the human body to the infrared detecting device are inversely proportional, the current position distance of the user can be determined based on the sum of the signal strengths received by the infrared receivers. Which infrared detection device Recently, it can be concluded that the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition.

 S103. Display a touch function key preset in the touch screen into the corresponding partition.

 In this embodiment, if the partition corresponding to the current location of the user is the first partition, the preset touch function key in the touch screen is displayed to the setting area on the left side of the touch screen, for example, as shown in FIG. 5, three functions are The key is displayed vertically in the middle of the left side of the touch screen; if the partition corresponding to the current location of the user is the third partition, the preset touch function key in the touch screen is displayed to the setting area on the right side of the touch screen (for example, the right side of the touch screen) If the partition corresponding to the current location of the user is the second partition, the touch function keys preset in the touch screen are displayed to the central area at the bottom of the touch screen.

 As a preferred implementation manner, in the foregoing step S102, the preset infrared detecting device periodically detects the current location of the user, and determines a specific manner in which the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition. Can be:

 a plurality of infrared detecting devices are provided in advance, and the number of the infrared detecting devices is compared with the number of the partitions to establish a corresponding relationship between the infrared detecting devices and the respective partitions; wherein the first infrared detecting device corresponds to the first partition, the second The infrared detecting device corresponds to the second partition, and the third infrared detecting device corresponds to the third partition;

 Recording the sum of the intensities of the infrared signals emitted by the three infrared detecting devices during the set time, which are respectively recorded as S1, S2, S3; comparing the three infrared detecting devices received by the human body within the set time The sum of the intensities of the transmitted infrared signals;

 If SI>S2 and S1>S3, determining, according to the correspondence, a partition corresponding to the current location of the user as the first partition;

 If S3>S2 and S3>S1, determining, according to the correspondence, a partition corresponding to the current location of the user is a third partition;

 If S2>=S1 and S2>=S3, determining, according to the correspondence, a partition corresponding to the current location of the user as a second partition;

In addition, if the comparison result does not belong to any of the above cases, the user position determined by the previous time is the current location of the user, and the position of the preset touch function key in the touch screen is kept unchanged. Continuing to refer to Figure 5, the operator is currently on the left side of the tablet. By comparing the infrared signal strengths received by the three infrared detectors, the infrared signal strength received by the No. 1 infrared detector at the left of the tablet can be obtained. The maximum, that is, SI>S2 and S1>S3, and further, the installation position of the infrared detecting device No. 1 (or the corresponding relationship between the infrared detecting device and the partition) can determine that the current position of the user corresponds to the left side of the tablet, so The position of the touch function key preset in the touch screen is updated, and displayed to the setting area on the left side of the touch screen, and the operator can operate the touch function key without moving the position, thereby improving the realization of the tablet human-computer interaction. Convenience; and because the number of movements of the operator in front of the display screen is reduced, the operator's body is prevented from blocking the screen display content, which is beneficial to improving the effect of the presentation or lecture.

 According to the above embodiment of the present invention, the touch screen of the tablet is divided into a plurality of partitions; the current location of the user is detected, and the partition corresponding to the current location of the user is determined; and the touch function keys preset in the touch screen are displayed to the corresponding In the partition. The resulting technical effects include: The large-sized flat panel automatically adjusts the position of the floating function keys according to the position of the operator, and does not require the user to frequently move in front of the screen to operate the function keys, thereby improving the human-computer interaction of the large-sized tablet. Operational convenience.

 It should be noted that, for the foregoing method embodiments, for the sake of brevity, they are all described as a series of action combinations, but those skilled in the art should understand that the present invention is not limited by the described action sequence, because In the present invention, certain steps may be performed in other orders or simultaneously. In the following, those skilled in the art should also understand that the embodiments described in the specification are preferred embodiments, and the actions and modules involved are not necessarily required by the present invention.

 A system for implementing tablet human-computer interaction of an embodiment of the present invention that can be used to perform the above-described method for implementing tablet human-computer interaction will be described below. FIG. 6 is a schematic structural diagram of a system for implementing tablet human-computer interaction according to an embodiment of the present invention. For convenience of description, only parts related to the embodiment of the present invention are shown in the figure, which can be understood by those skilled in the art. The resulting system structure does not constitute a limitation to the system, and may include more or fewer components than those illustrated, or some components may be combined, or different component arrangements.

FIG. 6 is a schematic structural diagram of a system for implementing tablet human-computer interaction according to an embodiment of the present invention. The system for implementing tablet human-computer interaction illustrated in FIG. 6 includes a partition setting module 610, a position detecting module 620, and a display control module 630, where: The partition setting module 610 is configured to divide the touch screen of the tablet into a plurality of partitions. Preferably, the partition setting module 610 in the embodiment may perform horizontal partitioning based on the touch screen area of the tablet, and divide the screen from left to right. For more than two areas. For example: The touch screen area can be divided into two left and right partitions, and the touch function keys in the touch screen can be automatically displayed in the left partition or the right partition according to the specific position of the operator in front of the touch screen; or, as shown in the figure 2, the touch screen area is divided into three areas from left to right, which are the first partition, the second partition, and the third partition. In the embodiment of the present invention, the first partition is the left partition, and the second partition is The middle partition, the third partition is the right partition), correspondingly according to the specific position of the operator in front of the touch screen, the touch function key in the touch screen is automatically displayed to the left partition, the middle partition or the right partition; or, as shown in FIG. 3 The touch screen area is divided into four areas from left to right, the first area from left to right is the first partition, the second and third areas are the second partition, and the fourth area is the first area. The three partitions, that is, the middle partition is larger than the partitions on the left and right sides.

 It should be noted that the above-mentioned left and right directions may be specifically referred to FIG. 2 and FIG. 3, and the form of dividing the touch screen of the tablet into a plurality of partitions includes, but is not limited to, the above manner, and may be adjusted according to actual conditions.

 The location detecting module 620 is configured to detect a location where the user is currently located, and determine a partition corresponding to the current location of the user;

 In the embodiment of the present invention, the position detecting module 620 can obtain an image in front of the touch screen and analyze the current location of the user; and can also detect the current location of the user through a corresponding sensor. The specific detection method may be an existing human body positioning technology, which is not described in the present invention.

 As a preferred embodiment, the position detecting module 620 can periodically detect the current location of the user by using the infrared detecting device preset by the tablet, and determine that the partition corresponding to the current location of the user is the first partition, the second partition, or the first Three partitions. In view of this, it is also necessary to previously set a corresponding infrared detecting device on the tablet to detect the current location of the user. The infrared detection device ensures the accuracy of detecting the user's current location.

Specifically, a plurality of infrared detecting devices are respectively installed on the left, middle, and right portions of the bottom of the flat plate, and the infrared detecting devices periodically detect that the current location of the user corresponds to the first partition, the second partition, or the third partition. Preferably, the number of the infrared detecting devices is set to be equal to the number of partitions divided in the above step S101, and the first infrared detecting device, the second infrared detecting device and the third portion are respectively installed at the left, middle and right portions of the bottom of the flat plate. Infrared detection device. The specific installation positions of the three infrared detecting devices can be: Assume that the horizontal width of the touch screen of the tablet is L, divide the width of the touch screen into three equal parts, and install the first infrared detecting device at the center of the 0-L/3 interval at the bottom of the flat plate. Install a second infrared detecting device at the L/2 position (ie, the central position of the L/3-2L/3 interval), and install a third infrared detecting device at the central position of the 2L/3-L interval, that is, the first The infrared detecting device and the third infrared detecting device are respectively located on the left and right sides of the second infrared detecting device, and the distances between the first infrared detecting device and the third infrared detecting device and the second infrared detecting device are equal. Preferably, the three infrared detecting devices each include an infrared emitter and an infrared receiver, and the positions of the infrared emitter and the infrared receiver are vertically aligned; the specific mounting diagram can be referred to FIG. 4 and FIG.

 The above three sets of infrared emitters and infrared receivers are numbered, numbered 1-3 from left to right. The No. 1 transmitter is located vertically above the No. 1 receiver and is placed at the left of the bottom of the plate; the No. 2 transmitter is located vertically above the No. 2 receiver and is placed in the middle of the bottom of the plate; the No. 3 transmitter is located at the No. 3 receiver. Vertically above, set to the right of the bottom of the plate. In this embodiment, the infrared signals transmitted by the three infrared emitters are weak, and the other side is used for energy saving, and the other side can control the detection range to be 1 meter in front of the touch screen, because the person who normally exceeds the range is a non-plate operator. Therefore, it is not considered, thereby preventing the interference of other people's movements on the tablet human-computer interaction.

 Based on the above-mentioned infrared detecting device, the principle of detecting the current position of the user is as follows: Three infrared emitters transmit infrared signals to the front in real time, and the emitted infrared signals are reflected back to the human body and are received by the infrared receiver. Each infrared receiver records the sum of the signal strengths received during the set time. For example, counting from the time when the infrared signal is emitted, the sum of the signal strengths received by the infrared receivers every 1 second is counted. Since the sum of the signal strengths received by the infrared detecting device within the set time and the distance from the human body to the infrared detecting device are inversely proportional, the current position distance of the user can be determined based on the sum of the signal strengths received by the infrared receivers. Which of the infrared detecting devices is closest, and further, it can be concluded that the partition corresponding to the current location of the user is the first partition, the second partition, or the third partition.

The display control module 630 is configured to display a preset touch function key in the touch screen to the pair Should be in the partition.

 As a preferred embodiment, the display control module 630 may be specifically configured to: if the partition corresponding to the current location of the user is the first partition, display the preset touch function key in the touch screen to the left side of the touch screen. The area, for example, as shown in FIG. 5, displays the three function keys vertically in the middle of the left side of the touch screen; if the partition corresponding to the current location of the user is the third partition, the preset touch function keys in the touch screen are displayed to The setting area on the right side of the touch screen (for example, the middle area on the right side of the touch screen); if the partition corresponding to the current location of the user is the second partition, the touch function keys preset in the touch screen are displayed to the bottom area of the bottom of the touch screen (for example The bottom area of the bottom of the touch screen).

 As a preferred embodiment, the position detecting module 620 may be specifically configured to: establish a correspondence between each infrared detecting device pre-installed on the flat plate and each partition (the number of pre-installed infrared detecting devices is equal to the number of the above-mentioned partitions) The first infrared detecting device corresponds to the first partition, the second infrared detecting device corresponds to the second partition, and the third infrared detecting device corresponds to the third partition; three infrared detections are recorded The device receives the sum of the intensities of the infrared signals emitted by the human body within the set time, respectively, as S1, S2, S3; comparing the three infrared detecting devices to receive the infrared signals emitted by the human body within the set time The sum of the strengths;

 If SI>S2 and S1>S3, determine, according to the correspondence, a partition corresponding to the current location of the user as the first partition; if S3>S2 and S3>S1, determine, according to the correspondence, the current location of the user. The partition is a third partition; if S2>=S1 and S2>=S3, the partition corresponding to the current location of the user is determined to be the second partition according to the corresponding relationship; and, if the comparison result does not belong to any of the above situations, By default, the user position determined by the previous time is the current location of the user, and the position of the preset touch function key in the touch screen is kept unchanged.

 According to the system embodiment for implementing the tablet human-computer interaction illustrated in FIG. 6 above, the touch screen of the tablet is divided into several partitions in advance; the partition corresponding to the current location of the user is detected; and the touch function keys preset in the touch screen are further Displayed into the corresponding partition. The technical effects brought about by the following include: The function keys that can be suspended in the large-sized flat panel can be automatically adjusted to the corresponding positions according to the position of the operator, so as to facilitate the operation of the operator, since the user does not need to operate frequently in front of the screen to operate. The function keys improve the convenience of human-computer interaction of large-sized tablets.

It should be noted that the information interaction, execution process, and the like between modules/units in the above embodiments The content is the same as the foregoing method embodiment of the present invention, and the technical effects of the foregoing method are the same as those of the foregoing method embodiments of the present invention. For details, refer to the description in the method embodiment of the present invention, and details are not described herein again.

 In addition, in the implementation of the system for implementing the tablet human-computer interaction in the above example, the logical division of each functional module is only an example, and the actual application may be considered according to requirements, for example, due to configuration requirements of the corresponding hardware or convenience of implementation of the software. The function distribution is completed by different function modules, that is, the internal structure of the system for realizing the tablet human-computer interaction is divided into different functional modules to complete all or part of the functions described above.

 In the above embodiments, the descriptions of the various embodiments are different, and the parts that are not detailed in an embodiment can be referred to the related descriptions of other embodiments.

 In addition, each functional module in the foregoing various embodiments of the present invention may be integrated into one processing module, or each module may exist physically separately, or two or more modules may be integrated into one module. The above integrated modules can be implemented in the form of hardware or in the form of software functional modules.

 The above is a description of the method and system for implementing the tablet human-computer interaction provided by the present invention. For those skilled in the art, according to the idea of the embodiment of the present invention, there are changes in the specific implementation manner and application scope. In summary, the content of the specification should not be construed as limiting the invention.

Claims

Claim

 1. A method for realizing tablet human-computer interaction, which is characterized in that:

 Dividing the touch screen of the tablet into several partitions;

 Detecting the current location of the user, and determining the partition corresponding to the current location of the user;

 The touch function keys preset in the touch screen are displayed in the corresponding partitions.

 2. The method for implementing a tablet human-computer interaction according to claim 1, wherein the dividing the touch screen of the tablet into a plurality of partitions comprises:

 Dividing the touch screen into a first partition, a second partition, and a third partition; wherein the first partition and the third partition are respectively located on left and right sides of the second partition;

 Displaying the touch function key preset in the touch screen into the corresponding partition, including: if the partition corresponding to the current location of the user is the first partition, displaying the touch function key preset in the touch screen to The setting area on the left side of the touch screen;

 If the partition corresponding to the current location of the user is the third partition, the preset touch function key in the touch screen is displayed to the setting area on the right side of the touch screen;

 If the partition corresponding to the current location of the user is the second partition, the preset touch function key in the touch screen is displayed to the setting area in the middle of the bottom side of the touch screen.

 The method for implementing a tablet human-computer interaction according to claim 2, wherein the dividing the touch screen into a first partition, a second partition, and a third partition,

 Dividing the touch screen into four horizontally arranged areas of equal width;

 The first area from left to right is the first partition, the second area and the third area are the second partition, and the fourth area is the third partition;

 Or,

 Dividing the touch screen into three horizontally arranged areas of equal width;

 Set the first area from left to right to the first partition, the second area to the second partition, and the third area to the third partition.

 The method for implementing the tablet human-computer interaction according to claim 2, wherein the detecting the current location of the user, determining the partition corresponding to the current location of the user, including,

Periodically detecting the current location of the user through a preset infrared detecting device, and determining the current user The partition corresponding to the location is the first partition, the second partition, or the third partition.

 The method for implementing the human-computer interaction of the tablet according to claim 4, wherein the preset infrared detecting device periodically detects the current location of the user, including,

 The user's current location is periodically detected by the first infrared detecting device, the second infrared detecting device, and the third infrared detecting device disposed at the bottom of the tablet;

 The first infrared detecting device and the third infrared detecting device are respectively located on the left and right sides of the second infrared detecting device, and the first infrared detecting device, the third infrared detecting device and the second infrared detecting device are respectively The distances of the devices are equal.

 The method for implementing the human-computer interaction of the tablet according to claim 5, wherein the preset infrared detecting device periodically detects the current location of the user, and determines that the partition corresponding to the current location of the user is the first Partition, second partition, or third partition, including,

 Establishing a corresponding relationship between each of the infrared detecting devices and each of the partitions, wherein the first infrared detecting device corresponds to the first partition, the second infrared detecting device corresponds to the second partition, and the third infrared detecting device corresponds to The third partition;

 Recording the sum of the intensities of the infrared signals emitted by the three infrared detecting devices during the set time, which are respectively recorded as S1, S2, S3; comparing the three infrared detecting devices received by the human body within the set time The sum of the intensities of the transmitted infrared signals;

 If SI>S2 and S1>S3, determining, according to the correspondence, a partition corresponding to the current location of the user as the first partition;

 If S3>S2 and S3>S1, determining, according to the correspondence, a partition corresponding to the current location of the user is a third partition;

 If S2>=S1 and S2>=S3, the partition corresponding to the current location of the user is determined to be the second partition according to the correspondence.

 7. A system for implementing tablet human-computer interaction, characterized in that:

 a partition setting module, configured to divide the touch screen of the tablet into several partitions;

 a location detecting module, configured to detect a current location of the user, and determine a partition corresponding to the current location of the user;

And a display control module, configured to display a preset touch function key in the touch screen to the pair Should be in the partition.

 The system for implementing a tablet human-computer interaction according to claim 7, wherein the partition setting module is specifically configured to divide the touch screen into a first partition, a second partition, and a third partition; wherein, the first The partition and the third partition are respectively located on the left and right sides of the second partition;

 The display control module is specifically configured to: if the partition corresponding to the current location of the user is the first partition, display the preset touch function key in the touch screen to the setting area on the left side of the touch screen; if the current location of the user If the corresponding partition is the third partition, the preset touch function key in the touch screen is displayed to the setting area on the right side of the touch screen; if the partition corresponding to the current location of the user is the second partition, the preset in the touch screen is The touch function key is displayed to a setting area in the middle of the bottom side of the touch screen;

 Dividing the touch screen into a first partition, a second partition, and a third partition,

 Dividing the touch screen into four horizontally arranged areas of equal width;

 The first area from left to right is the first partition, the second and third areas are the second partition, and the fourth area is the third partition;

 Or,

 Dividing the touch screen into three horizontally arranged areas of equal width;

 Set the first area from left to right to the first partition, the second area to the second partition, and the third area to the third partition.

 The system for implementing the human-computer interaction of the tablet according to claim 8, wherein the position detecting module is configured to periodically detect the current location of the user by using a preset infrared detecting device, and determine the current location of the user. The partition corresponding to the location is the first partition, the second partition, or the third partition;

 The periodically detecting the current location of the user by using the preset infrared detecting device includes: periodically detecting, by the first infrared detecting device, the second infrared detecting device, and the third infrared detecting device disposed at the bottom of the tablet, the current location of the user Location

 The first infrared detecting device and the third infrared detecting device are respectively located on the left and right sides of the second infrared detecting device, and the first infrared detecting device, the third infrared detecting device and the second infrared detecting device are respectively The distances of the devices are equal.

10. The system for implementing tablet human-computer interaction according to claim 9, wherein the bit is The detecting module is configured to establish a corresponding relationship between each of the infrared detecting devices and each of the partitions, wherein the first infrared detecting device corresponds to the first partition, and the second infrared detecting device corresponds to the second partition, The third infrared detecting device corresponds to the third partition;

 Recording the sum of the intensities of the infrared signals emitted by the three infrared detecting devices during the set time, which are respectively recorded as S1, S2, S3; comparing the three infrared detecting devices received by the human body within the set time The sum of the intensities of the transmitted infrared signals;

 If SI>S2 and S1>S3, determining, according to the correspondence, a partition corresponding to the current location of the user as the first partition;

 If S3>S2 and S3>S1, determining, according to the correspondence, a partition corresponding to the current location of the user is a third partition;

 If S2>=S1 and S2>=S3, the partition corresponding to the current location of the user is determined to be the second partition according to the correspondence.