CN104007913A - Electronic device and human-computer interaction method - Google Patents

Abstract

An electronic device comprises a substrate member and a display member coupled to the substrate member. A keyboard and a touch board located on the front side of the keyboard are arranged on the working face of the substrate member. The touch board is used for receiving touch gestures input by a user. When the touch gestures comprise two separated press gestures which are triggered simultaneously and a sliding gesture approximately perpendicular to a connection line of touch points of the two press gestures, the touch board is further used for simulating mouse roller operation through the sliding gesture. A human-computer interaction method is further disclosed.

Description

Electronic installation and man-machine interaction method

Technical field

The present invention relates to field of human-computer interaction, particularly relate to a kind of electronic installation and man-machine interaction method with Trackpad.

Background technology

Trackpad (TouchPad) is the most widely used indication input equipment in current mobile computer, for general mouse function is provided, such as what control cursor on screen, move and complete corresponding click action, can also realize more complicated gesture operation, such as handwriting input etc.Yet traditional Trackpad does not provide the function of mouse roller, the external mouse of having to when user need to use function of mouse roller, this is very inconvenient concerning user.And traditional Trackpad is can induction region less, be only one fritter rectangular area, keyboard below, user operates and is subject to very large limitation, and man-machine interaction is experienced and is difficult to satisfy the demands.Therefore, how to improve Trackpad and man-machine interaction method in mobile computer, always be the problem that designer considers.

Summary of the invention

In view of above content, be necessary to provide a kind of electronic installation and man-machine interaction method, can provide better man-machine interaction to experience to user.

A kind of electronic installation, comprise basal component and be coupled to the display member of described basal component, the workplace of described basal component is provided with keyboard and is positioned at the Trackpad of described keyboard front side, described Trackpad is for receiving the touch-control gesture of user's input, when described touch-control gesture comprises two separated slip gestures of pressing the line that gesture and is approximately perpendicular to described two touch points of pressing gesture that simultaneously trigger, described Trackpad is also for being modeled as described slip gesture mouse roller operation.

Preferably, described Trackpad is also pressed gesture and is modeled as left mouse button operation for pressing of gesture by described two, and another is pressed gesture and is modeled as right mouse button operation.

Preferably, described Trackpad is also for judging whether the distance between described two touch points of pressing gesture is greater than a predefine value.

Preferably, described display member is used for providing user interface, and from described user interface, receives the described predefine value of user's input.

Preferably, the width of described Trackpad is the width that is suitable for bimanualness.

A kind of man-machine interaction method, for an electronic installation, described electronic installation comprises basal component and is coupled to the display member of described basal component, and the workplace of described basal component is provided with keyboard and is positioned at the Trackpad of described keyboard front side, and described method comprises:

Touch-control sensing step, described Trackpad receives the touch-control gesture of user's input;

The first determining step, judges whether described touch-control gesture comprises two separated gestures of pressing that simultaneously trigger;

The second determining step, when described touch-control gesture comprises two trigger separated while pressing gesture simultaneously, judges whether described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture;

Mouse roller simulation steps, when described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture, is modeled as mouse roller operation by described slip gesture.

Preferably, described method also comprises, mouse right and left key simulation steps is pressed gesture by described two of pressing in gesture and is modeled as left mouse button operation, and another is pressed gesture and is modeled as right mouse button operation.

Preferably, described the first determining step also comprises: judge whether the distance between described two touch points of pressing gesture is greater than a predefine value.

Preferably, described method also comprises setting step, and user interface is provided, and from described user interface, receives the described predefine value of user's input.

Preferably, the width of described Trackpad is the width that is suitable for bimanualness.

Compared with prior art, above-mentioned electronic installation and man-machine interaction method, described Trackpad is modeled as mouse roller operation by described slip gesture, make user to obtain the support to function of mouse roller by external access of mouse, and make user can not be limited to the rolling of general mouse roller hierarchy type, can obtain operation more accurately.

Accompanying drawing explanation

Fig. 1 is the stereographic map of the electronic installation in one embodiment of the present invention.

Fig. 2 is the functional block diagram of the electronic installation in one embodiment of the present invention.

Fig. 3 is the functional block diagram of the man-machine interactive system in one embodiment of the present invention.

Fig. 4 is the schematic diagram of the touch-control gesture in one embodiment of the present invention.

Fig. 5 is the process flow diagram of the man-machine interaction method in one embodiment of the present invention.

Main element symbol description

Electronic installation	10
		Display member	20
Basal component	30
		Workplace	32
Keyboard	34
		Trackpad	36
Central processing unit	101
		Storer	102
Display	103
		Man-machine interactive system	40
Touch-control sensing module	401
		The first judge module	402
The second judge module	403
		Mouse roller analog module	404
Mouse right and left key analog module	405
		Setting module	406
Touch point	A、B
		Slip gesture	L

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1, in figure, schematically show according to the stereographic map of the electronic installation 10 of one embodiment of the present invention.Described electronic installation 10 can be mobile computer or laptop computer, but those skilled in the art is to be understood that, described electronic installation 10 can be the electronic equipment of any type, such as but not limited to tablet personal computer, PDA(Personal Digital Assistant), desk-top computer, game station, video frequency player, wireless device, televisor, coffee machine, or the portable or non-portable electronic equipment of any other type.

Described electronic installation 10 comprises display member 20 and basal component 30, and described display member 20 is coupled on described basal component 30 rotationally, and described display member 20 can open and close between these two positions and rotate relative to described basal component 30.Described display member 20 comprises display, for visual user interface is provided.

Described basal component 30 is main parts of described electronic installation 10, for taking in and the integrated electron device that comprises mainboard, central processing unit (CPU), random memory access storer (RAM), ROM (read-only memory) (ROM), expansion card etc.

The workplace 32 of described basal component 30 is provided with keyboard 34 and Trackpad 36.Described Trackpad 36 is positioned at the front side of described keyboard 34.Described Trackpad 36 is supported multi-point touch.

The width of described Trackpad 36 is the width that is suitable for bimanualness.In current many industrial designs, the minimum widith that is suitable for bimanualness is defined within 18 centimetres, therefore for meeting, is suitable for bimanualness, and the width of described Trackpad 36 is not less than 18 centimetres.In the embodiment shown in Fig. 1, the width of the width of described Trackpad 36 and described keyboard 34 is roughly suitable.In another embodiment, it is roughly suitable with the width of described basal component 30 that the width of described Trackpad 36 is extended to, and like this, the front area of the described keyboard 34 of described basal component 30 substantially all becomes can touch area.Having the described Trackpad 36 that large area can touch area can provide better operating experience to user, also can support more complicated man-machine interaction application.In some embodiments, the touch-control sensing district of described Trackpad 36 is made by carbon nano-tube material.

Refer to Fig. 2, schematically show according to the functional block diagram of the electronic installation 10 of one embodiment of the present invention in figure, described electronic installation 10 comprises central processing unit 101, storer 102, display 103 and Trackpad 36.One man-machine interactive system 40 can run in described electronic installation 10.

Described central processing unit 101, for the treatment of the repertoire assembly of electronic installation 10 described in data and control and management, comprises described storer 102, described display 103 and described Trackpad 36.

Described storer 102, for storing data, can comprise the memory storages such as random-access memory (ram), flash memory, hard disk.

Described display 103 is for providing visual user interface.In some embodiments, described display 103 can comprise resistance-type or capacitance type touch control screen.

Described man-machine interactive system 40 is the touch-control gesture in described Trackpad 36 inputs for the treatment of user.

Refer to Fig. 3, in figure, schematically used according to the functional block diagram of the man-machine interactive system of one embodiment of the present invention, described man-machine interactive system 40 comprises touch-control sensing module 401, the first judge module 402, the second judge module 403, mouse roller analog module 404, mouse right and left key analog module 405 and setting module 406.Described man-machine interactive system 40 can be realized by the programmed instruction being stored in described storer 102, can be also to be realized by the programmed instruction being solidificated in hardware chip.

Described touch-control sensing module 401, receives for controlling described Trackpad 36 the touch-control gesture that user inputs.Because the width of described Trackpad 36 is the width that is suitable for bimanualness, make user not be limited to one-handed performance, can obtain better user and experience.

Described the first judge module 402, for judge whether described touch-control gesture comprises two separated gestures of pressing that trigger simultaneously.Described the first judge module 402 judges whether the distance between described two touch points of pressing gesture is greater than a predefine value, described predefine value can be for example 5 centimetres, if so, judging described two, to press gesture be to meet predefined two separated gestures of pressing.

Described the second judge module 403, for comprise two trigger separated while pressing gesture when described touch-control gesture simultaneously, judges whether described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture.

Described mouse roller analog module 404, for also comprising that when described touch-control gesture one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture, is modeled as mouse roller operation by described slip gesture.

Described mouse right and left key analog module 405, presses gesture and is modeled as left mouse button operation for pressing of gesture by described two, and another is pressed gesture and is modeled as right mouse button operation.

Described setting module 406, for an order line or patterned user interface are provided, and receives from described user interface the described predefine value that user inputs.

Refer to Fig. 4, in figure, schematically show according to the schematic diagram of the touch-control gesture of one embodiment of the present invention.Described touch-control gesture comprises that two are pressed gesture, these two touch points of pressing gesture are designated as respectively touch point A and touch point B, described touch-control gesture also comprises a slip gesture L, and described slip gesture L is approximately perpendicular to the line of described touch point A and described touch point B.

Refer to Fig. 5, in figure, schematically show according to the process flow diagram of the man-machine interaction method of one embodiment of the present invention.Said method comprising the steps of:

Step S501, controls the touch-control gesture that described Trackpad 36 receives user's input.

Step S502, judges whether described touch-control gesture comprises two separated gestures of pressing that simultaneously trigger.If described two are pressed gesture and trigger simultaneously, and the distance between described two touch points of pressing gesture is greater than a predefine value, enters step S503, otherwise enters step S506.

Step S503, judges that whether described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture, if so, enters step S504, otherwise enters step S506.

Step S504, is modeled as mouse roller operation by described slip gesture.

Step S505, presses gesture by described two of pressing in gesture and is modeled as left mouse button operation, and another is pressed gesture and is modeled as right mouse button operation.

Step S506, judges that described touch-control gesture is as other touch control operations, such as zoom operations.

In some embodiments, described man-machine interaction method also comprises setting step, and an order line or patterned user interface are provided, and from described user interface, receives the described predefine value of user's input.

With respect to prior art, above-mentioned man-machine interactive system 40 and man-machine interaction method, described Trackpad 36 is modeled as mouse roller operation by described slip gesture, make user to obtain the support to function of mouse roller by external access of mouse, and make user can not be limited to the rolling of general mouse roller hierarchy type, can obtain operation more accurately.

To one skilled in the art, can in conjunction with the actual needs of producing, make other corresponding changes or adjustment according to scheme of the invention of the present invention and inventive concept, and these changes and adjustment all should belong to the protection domain of the claims in the present invention.

Claims (10)

1. an electronic installation, comprise basal component and be coupled to the display member of described basal component, the workplace of described basal component is provided with keyboard and is positioned at the Trackpad of described keyboard front side, it is characterized in that: described Trackpad is for receiving the touch-control gesture of user's input, when described touch-control gesture comprises two separated slip gestures of pressing the line that gesture and is approximately perpendicular to described two touch points of pressing gesture that simultaneously trigger, described Trackpad is also for being modeled as described slip gesture mouse roller operation.

2. electronic installation as claimed in claim 1, is characterized in that: described Trackpad is also pressed gesture and is modeled as left mouse button operation for pressing of gesture by described two, and another is pressed gesture and is modeled as right mouse button operation.

3. electronic installation as claimed in claim 1, is characterized in that: described Trackpad is also for judging whether the distance between described two touch points of pressing gesture is greater than a predefine value.

4. electronic installation as claimed in claim 3, is characterized in that: described display member is used for providing user interface, and from described user interface, receives the described predefine value of user's input.

5. electronic installation as claimed in claim 1, is characterized in that: the width of described Trackpad is the width that is suitable for bimanualness.

6. a man-machine interaction method, for an electronic installation, described electronic installation comprises basal component and is coupled to the display member of described basal component, and the workplace of described basal component is provided with keyboard and is positioned at the Trackpad of described keyboard front side, it is characterized in that, described method comprises:

Touch-control sensing step, described Trackpad receives the touch-control gesture of user's input;

The first determining step, judges whether described touch-control gesture comprises two separated gestures of pressing that simultaneously trigger;

The second determining step, when described touch-control gesture comprises two trigger separated while pressing gesture simultaneously, judges whether described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture;

Mouse roller simulation steps, when described touch-control gesture also comprises that one is approximately perpendicular to the slip gesture of the line of described two touch points of pressing gesture, is modeled as mouse roller operation by described slip gesture.

7. man-machine interaction method as claimed in claim 6, it is characterized in that: described method also comprises, mouse right and left key simulation steps, presses gesture by described two of pressing in gesture and is modeled as left mouse button operation, and another is pressed gesture and is modeled as right mouse button operation.

8. man-machine interaction method as claimed in claim 6, is characterized in that: described the first determining step also comprises:

Judge whether the distance between described two touch points of pressing gesture is greater than a predefine value.

9. man-machine interaction method as claimed in claim 8, is characterized in that: described method also comprises setting step, and user interface is provided, and from described user interface, receives the described predefine value of user's input.

10. man-machine interaction method as claimed in claim 6, is characterized in that: the width of described Trackpad is the width that is suitable for bimanualness.