CN105867675A - Human-machine interaction method and apparatus, and mobile device - Google Patents

Abstract

The application relates to a human-machine interaction method and apparatus, and a mobile device. The human-machine interaction method is applied to the mobile device equipped with a Force Touch touch screen. The method includes: receiving touch induction information of the touch screen of the mobile device, wherein the touch induction information comprises the touch pressure and the touch position; determining whether the touch pressure is greater than a preset pressure threshold; determining the operation type according to the touch position if the touch pressure is greater than the pressure threshold; and starting the corresponding function service according to the determined operation type and the current state of the mobile device. According to the method and apparatus, and the mobile device, the functions corresponding to physical buttons in the conventional touch screen can be realized on the mobile device, and the physical buttons can be prevented from being set on the mobile device so that the intelligence degree of the mobile device is improved, the hardware structure of the mobile device is simplified, and the usage experience is enhanced.

Description

Human-computer interaction method and device and mobile device

Technical Field

The invention relates to the field of communication, in particular to a man-machine interaction method and device and mobile equipment.

Background

Currently, mobile devices are widely used in people's daily lives. Especially, mobile phones are essential personal belongings for almost everyone. The man-machine interaction function is an important function of the mobile device, and the use of the function directly influences the use experience of the mobile device for a user. The following takes a mobile phone as an example to introduce related man-machine interaction technology related to mobile devices.

In a related technology, a user realizes human-computer interaction through a physical key on a mobile phone. The mobile phone adopting the technology is generally provided with a large number of solid keys, and the solid keys occupy a large amount of space of a main panel of the mobile phone, so that the space of a display screen is limited and only a small display screen can be used. The defects of the man-machine interaction technology are as follows: the keys are easy to be touched by mistake when the mobile phone is held; the entity key occupies a large space, which is not beneficial to the integration of a novel device; the position requirement of the solid key is strict, which greatly hinders the structural design of the inner part of the mobile phone; complicating the structure of the handset and increasing the cost of production and assembly.

In another related technology, a user realizes human-computer interaction through a touch screen on a mobile phone. The touch screen used in this technology is a conventional touch screen that can only operate in two dimensions. The traditional touch screen can only simply sense the touch action and the touch position of a user, and cannot identify the touch force. The mobile phone adopting the technology still keeps few entity keys, such as a power key, a volume up-down key, a return key (also called Home key) and the like. The defects of the man-machine interaction technology are as follows: an operation entrance is difficult to find, and if frequently-operated functions are realized by using a traditional touch screen, the operation efficiency is abnormally low; all application scenarios cannot be met, for example, waking up a mobile phone in a sleep state cannot be realized through a traditional touch screen; because the traditional touch screen can execute corresponding operation as long as the touch action is sensed regardless of the touch strength, if a user only touches the touch screen carelessly and does not want to execute the corresponding operation, some operations are executed to return the mobile phone to the original state, so that the traditional touch screen is easy to miss touch.

Disclosure of Invention

The invention aims to provide a human-computer interaction method and device and mobile equipment, which can avoid setting an entity key on the mobile equipment, improve the intelligent degree of the mobile equipment and improve the user experience.

In order to achieve the above object, the present invention provides a human-computer interaction method, which is applied to a mobile device equipped with a ForceTouch touch screen, and comprises:

receiving touch sensing information of a touch screen of a mobile device, wherein the touch sensing information comprises touch pressure and touch position;

judging whether the touch pressure is greater than a preset pressure threshold value or not;

when the touch pressure is larger than the pressure threshold value, determining an operation type according to the touch position;

and starting corresponding functional services according to the determined operation type and the current state of the mobile equipment.

Further, the method may further include the following feature, where the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device includes:

when the determined operation type is on/off screen and the current state of the mobile equipment is off screen, starting on-screen function service; or,

and starting the screen-off function service when the determined operation type is screen-on/screen-off, the current state of the mobile equipment is a screen-on state, and the current interface is a main interface state.

Further, the method may further include the following feature, where the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device includes:

and starting the function service of returning to the previous level interface of the current interface when the determined operation type is returning, the current state of the mobile equipment is a bright screen state, and the current interface is in a non-main interface state.

Further, the method may further include the following feature, where the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device includes:

and starting a function service for adjusting the volume when the determined operation type is the volume adjustment and the current state of the mobile equipment is that music or video is playing.

The man-machine interaction method provided by the embodiment of the invention can realize the function corresponding to the entity key in the traditional touch screen on the mobile equipment, and can avoid the entity key from being arranged on the mobile equipment, thereby improving the intelligent degree of the mobile equipment, simplifying the hardware structure of the mobile equipment and improving the user experience.

In order to achieve the above object, the present invention further provides a human-computer interaction device, which is applied to a mobile device equipped with a Force Touch screen, and comprises:

the mobile device comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving touch sensing information of a touch screen of the mobile device, and the touch sensing information comprises touch pressure and touch position;

the judging module is used for judging whether the touch pressure in the touch sensing information received by the receiving module is greater than a preset pressure threshold value or not;

the determining module is used for determining the operation type according to the touch position when the judgment result of the judging module is that the touch pressure is greater than the pressure threshold;

and the service module is used for starting corresponding functional services according to the operation type determined by the determination module and the current state of the mobile equipment.

Further, the above device may further have the following features, and the service module includes:

the screen turning-on/turning-off unit is used for starting the screen turning-on function service when the operation type determined by the determining module is the screen turning-on/turning-off state and the current state of the mobile equipment is the screen turning-off state; and starting the function service of screen turn-off when the operation type determined by the determination module is screen turn-on/turn-off, the current state of the mobile equipment is a screen turn-on state, and the current interface is a main interface state.

Further, the above device may further have the following features, and the service module includes:

and the returning unit is used for starting the function service of the previous interface returned to the current interface when the operation type determined by the determining module is returning, the current state of the mobile equipment is a bright screen state, and the current interface is a non-main interface state.

Further, the above device may further have the following features, and the service module includes:

and the volume adjusting unit is used for starting the function service of adjusting the volume when the operation type determined by the determining module is the volume adjustment and the current state of the mobile equipment is that music or video is playing.

The man-machine interaction device provided by the embodiment of the invention can realize the function corresponding to the entity key in the traditional touch screen on the mobile equipment, and can avoid the entity key from being arranged on the mobile equipment, so that the intelligent degree of the mobile equipment is improved, the hardware structure of the mobile equipment is simplified, and the user experience is improved.

In order to achieve the above object, the present invention further provides a mobile device, including a Force Touch screen and the human-computer interaction device described in any one of the foregoing, wherein:

the Force Touch screen is used for sensing Touch of a user, generating Touch sensing information and sending the Touch sensing information to the man-machine interaction device, wherein the Touch sensing information comprises Touch pressure and Touch position;

and the human-computer interaction device is used for receiving the touch sensing information and starting corresponding functional services according to the touch sensing information and the current state of the mobile equipment.

Further, the mobile device may further have the following characteristic that the mobile device is a mobile phone.

The mobile device provided by the embodiment of the invention can realize the function corresponding to the entity key in the traditional touch screen on the mobile device, and can avoid the entity key from being arranged on the mobile device, so that the intelligent degree of the mobile device is improved, the hardware structure of the mobile device is simplified, and the user experience is improved.

Drawings

Fig. 1 is a flowchart of a human-computer interaction method according to an embodiment of the present invention.

Fig. 2 is a block diagram of a human-computer interaction device according to a second embodiment of the present invention.

Fig. 3 is a block diagram of a mobile device according to a third embodiment of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth to illustrate, but are not to be construed to limit the scope of the invention. All embodiments obtained by the spirit of the present invention will fall within the scope of the present invention for a person of ordinary skill in the art without any inventive work.

Force Touch is a Touch sensor technology that can sense the degree of pressure. The "Force Touch screen" mentioned herein below refers to a Touch screen using Force Touch technology, which is capable of sensing the degree of pressure of a Touch.

Herein, the mobile device may be a mobile phone.

Fig. 1 is a flowchart of a human-computer interaction method according to an embodiment of the present invention. The man-machine interaction method of the embodiment shown in FIG. 1 is applied to a mobile device equipped with a Force Touch screen. As shown in fig. 1, in this embodiment, the human-computer interaction method may include the following steps:

step S101, receiving touch sensing information of a touch screen of the mobile device, wherein the touch sensing information comprises touch pressure and touch position;

the touch pressure is used to determine whether the current touch is valid, which may be determined according to a preset pressure threshold. The touch position is used for determining which operation type the current touch corresponds to. Different touch positions correspond to different operation types. This helps the mobile device to "understand" the user's operational intent.

Step S102, judging whether the touch pressure is greater than a preset pressure threshold value, if so, executing step S103, otherwise, ending;

by this step, a touch greater than the pressure threshold is considered by the mobile device to be a valid touch in the sense that the mobile device "understands" that the user wants to do something. While touches that are less than the pressure threshold are considered invalid touches by the mobile device in the sense that the mobile device "understands" that this touch is a false touch that the user inadvertently makes and the user does not want to do anything. The step effectively solves the problem of false touch of the touch screen, so that the mobile device can more accurately understand the intention of the user, the trouble that the user has to perform some operations to return the mobile device to the original state after the false touch is avoided, the intelligent degree of the mobile device is improved, and the satisfaction degree of the user on the mobile device is improved.

Step S103, determining an operation type according to the touch position;

here, the operation type may be on/off, return, volume adjustment, or the like. "on/off" means on or off. These operation types are generally operation types corresponding to physical keys in a conventional touch screen mobile device. For example, the on/off screen is an operation type corresponding to a power key in the conventional touch screen mobile device, the return is an operation type corresponding to a return key in the conventional touch screen mobile device, and the volume adjustment is an operation type corresponding to a volume adjustment key in the conventional touch screen mobile device.

The mobile equipment can determine the operation type corresponding to the entity key in the traditional touch screen mobile equipment according to the touch position, so that the function of the entity key in the traditional touch screen mobile equipment can be realized in the mobile equipment, and the entity keys can be prevented from being arranged in the mobile equipment.

And step S104, starting the corresponding functional service according to the determined operation type and the current state of the mobile equipment, and ending.

The current state of the mobile device may include whether it is in a screen-off state, whether it is in the Home interface (i.e., the Home interface), whether it is in a certain application, whether music or video is being played, and so on.

In this embodiment of the present invention, step S104 may specifically include: when the determined operation type is on/off screen and the current state of the mobile equipment is off screen, starting the function service of on screen; or, when the determined operation type is on/off screen, the current state of the mobile device is on screen, and the current interface is in a main interface state, starting the function service of off screen. Therefore, the function of the power key in the traditional touch screen mobile equipment can be realized by combining the operation type determined by the touch position and the current state of the mobile equipment, so that the physical key of the power key does not need to be arranged in the mobile equipment, the hardware structure of the mobile equipment is simplified, and the production and assembly cost is reduced.

In this embodiment of the present invention, step S104 may further specifically include: and when the determined operation type is return, the current state of the mobile equipment is a bright screen state, and the current interface is in a non-main interface state, starting the function service of returning to the previous interface of the current interface. Here, the function of the return key in the conventional touch screen mobile device is realized in combination with the operation type determined by the touch position and the current state of the mobile device, so that the physical key of the return key does not need to be arranged in the mobile device, which is also beneficial to simplifying the hardware structure of the mobile device and reducing the production and assembly costs.

In this embodiment of the present invention, step S104 may further specifically include: and starting the function service of adjusting the volume when the determined operation type is the volume adjustment and the current state of the mobile device is that music or video is playing. Here, the function of the volume adjustment key in the conventional touch screen mobile device is realized in combination with the operation type determined by the touch position and the current state of the mobile device, so that the physical key of the volume adjustment key does not need to be arranged in the mobile device, the hardware structure of the mobile device is simplified, and the production and assembly costs are reduced.

According to the man-machine interaction method, the functions corresponding to the entity keys in the traditional touch screen can be realized according to the information such as the touch strength, the touch position and the like, so that the functions corresponding to the entity keys in the traditional touch screen can be realized on the mobile equipment, the entity keys can be prevented from being arranged on the mobile equipment, the intelligent degree of the mobile equipment is improved, the hardware structure of the mobile equipment is simplified, and the user experience is improved.

Fig. 2 is a block diagram of a human-computer interaction device according to a second embodiment of the present invention. The human-computer interaction device in the embodiment shown in fig. 2 is applied to a mobile device equipped with a Force Touch screen, and can be used for executing the human-computer interaction method in any embodiment of the invention. The above description of the man-machine interaction method embodiment of the present invention is applicable to the following man-machine interaction device according to the embodiment of the present invention.

As shown in fig. 2, the human-computer interaction apparatus 200 in this embodiment may include a receiving module 210, a determining module 220, a determining module 230, and a service module 240. The receiving module 210 is configured to receive touch sensing information of a touch screen of a mobile device, where the touch sensing information includes a touch pressure and a touch position. The determining module 220 is configured to determine whether the touch pressure in the touch sensing information received by the receiving module 210 is greater than a preset pressure threshold. The determining module 230 is configured to determine the operation type according to the touch position when the determination result of the determining module 220 is that the touch pressure is greater than the pressure threshold. The service module 240 is configured to initiate a corresponding functional service according to the operation type determined by the determining module 230 and the current state of the mobile device.

In an embodiment of the present invention, the service module 240 may include a screen on/off unit. The screen-on/screen-off unit is configured to start a screen-on function service when the operation type determined by the determining module 230 is a screen-on/screen-off state and the current state of the mobile device is a screen-off state; and when the operation type determined by the determining module 230 is on/off screen, and the current state of the mobile device is on screen, and the current interface is a main interface state, starting a function service of off screen.

In the embodiment of the present invention, the service module 240 may further include a return unit. The returning unit is configured to start a function service of returning to a previous interface of the current interface when the operation type determined by the determining module 230 is returning, the current state of the mobile device is a bright screen state, and the current interface is a non-main interface state.

In the embodiment of the present invention, the service module 240 may further include a volume adjustment unit. The volume adjusting unit is configured to start a function service of adjusting the volume when the operation type determined by the determining module 230 is adjusting the volume and the current state of the mobile device is that music or video is being played.

The man-machine interaction device provided by the embodiment of the invention can realize the function corresponding to the entity key in the traditional touch screen according to the information such as the touch force, the touch position and the like, so that the function corresponding to the entity key in the traditional touch screen can be realized on the mobile equipment, the entity key can be prevented from being arranged on the mobile equipment, the intelligent degree of the mobile equipment is improved, the hardware structure of the mobile equipment is simplified, and the user experience is improved.

Fig. 3 is a block diagram of a mobile device according to a third embodiment of the present invention. As shown in fig. 3, in this embodiment, the mobile device 300 includes a Force Touch screen 400 and a human-computer interaction device 200. The human-computer interaction device 200 may be any one of the human-computer interaction devices in the foregoing embodiments of the present invention. The Force Touch screen 400 is used for sensing a Touch of a user, generating Touch sensing information, and sending the Touch sensing information to the human-computer interaction device 200, where the Touch sensing information includes a Touch pressure and a Touch position. The human-computer interaction device 200 is configured to receive Touch sensing information sent by the Force Touch screen 400, and start a corresponding functional service according to the Touch sensing information and the current state of the mobile device.

Specifically, the human-computer interaction device 200 may be configured to receive Touch sensing information of a Force Touch screen of the mobile device, where the Touch sensing information includes a Touch pressure and a Touch position; judging whether the touch pressure in the touch sensing information is larger than a preset pressure threshold value or not; determining the operation type according to the touch position when the judgment result is that the touch pressure is greater than the pressure threshold; and starting the corresponding functional service according to the determined operation type and the current state of the mobile equipment.

The mobile device may be a mobile phone.

The mobile device provided by the embodiment of the invention can realize the function corresponding to the entity key in the traditional touch screen according to the information such as the touch strength, the touch position and the like, so that the function corresponding to the entity key in the traditional touch screen can be realized on the mobile device, the entity key can be prevented from being arranged on the mobile device, the intelligent degree of the mobile device is improved, the hardware structure of the mobile device is simplified, and the user experience is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A man-machine interaction method is applied to mobile equipment equipped with a Force Touch screen, and is characterized by comprising the following steps:

receiving touch sensing information of a touch screen of a mobile device, wherein the touch sensing information comprises touch pressure and touch position;

judging whether the touch pressure is greater than a preset pressure threshold value or not;

when the touch pressure is larger than the pressure threshold value, determining an operation type according to the touch position;

and starting corresponding functional services according to the determined operation type and the current state of the mobile equipment.

2. The human-computer interaction method according to claim 1, wherein the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device comprises:

when the determined operation type is on/off screen and the current state of the mobile equipment is off screen, starting on-screen function service; or,

and starting the screen-off function service when the determined operation type is screen-on/screen-off, the current state of the mobile equipment is a screen-on state, and the current interface is a main interface state.

3. The human-computer interaction method according to claim 1, wherein the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device comprises:

and starting the function service of returning to the previous level interface of the current interface when the determined operation type is returning, the current state of the mobile equipment is a bright screen state, and the current interface is in a non-main interface state.

4. The human-computer interaction method according to claim 1, wherein the starting of the corresponding functional service according to the determined operation type and the current state of the mobile device comprises:

and starting a function service for adjusting the volume when the determined operation type is the volume adjustment and the current state of the mobile equipment is that music or video is playing.

5. A man-machine interaction device is applied to mobile equipment equipped with a Force Touch screen, and is characterized by comprising the following components:

the mobile device comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving touch sensing information of a touch screen of the mobile device, and the touch sensing information comprises touch pressure and touch position;

the judging module is used for judging whether the touch pressure in the touch sensing information received by the receiving module is greater than a preset pressure threshold value or not;

the determining module is used for determining the operation type according to the touch position when the judgment result of the judging module is that the touch pressure is greater than the pressure threshold;

and the service module is used for starting corresponding functional services according to the operation type determined by the determination module and the current state of the mobile equipment.

6. The human-computer interaction device of claim 5, wherein the service module comprises:

the screen turning-on/turning-off unit is used for starting the screen turning-on function service when the operation type determined by the determining module is the screen turning-on/turning-off state and the current state of the mobile equipment is the screen turning-off state; and starting the function service of screen turn-off when the operation type determined by the determination module is screen turn-on/turn-off, the current state of the mobile equipment is a screen turn-on state, and the current interface is a main interface state.

7. The human-computer interaction device of claim 5, wherein the service module comprises:

and the returning unit is used for starting the function service of the previous interface returned to the current interface when the operation type determined by the determining module is returning, the current state of the mobile equipment is a bright screen state, and the current interface is a non-main interface state.

8. The human-computer interaction device of claim 5, wherein the service module comprises:

and the volume adjusting unit is used for starting the function service of adjusting the volume when the operation type determined by the determining module is the volume adjustment and the current state of the mobile equipment is that music or video is playing.

9. A mobile device, characterized by comprising a Force Touch screen and a human-computer interaction device of any one of claims 5 to 8, wherein:

the Force Touch screen is used for sensing Touch of a user, generating Touch sensing information and sending the Touch sensing information to the man-machine interaction device, wherein the Touch sensing information comprises Touch pressure and Touch position;

and the human-computer interaction device is used for receiving the touch sensing information and starting corresponding functional services according to the touch sensing information and the current state of the mobile equipment.

10. The mobile device of claim 9, wherein the mobile device is a cell phone.