CN104866196A - Method and device for adjusting numerical values of large-screen vehicle-mounted system - Google Patents

Abstract

The invention provides a method and device for adjusting the numerical values of a large-screen vehicle-mounted system. The method comprises the steps of: detecting the region where hands stay; reading the numerical values stored last time, and driving a vibration motor to vibrate; detecting the sort, direction, speed and variable quantity of guesture operation; changing the current numerical values according to the variable quantity of a gesture; converting data, and driving the vibration motor to vibrate. The method and the device can achieve higher operation interaction, so that the user experience is improved.

Description

A kind of numerical value control method of giant-screen onboard system and device

Technical field

The present invention relates to human-computer interaction technique field, particularly relate to a kind of numerical value control method and device of giant-screen onboard system.

Background technology

Current giant-screen onboard system incorporates air-conditioner control system usually, and due to screen size comparatively large (more than 10 inches), but central control panel limited space, therefore this onboard system does not often have traditional vehicle loading system that for regulating the entity knob of air-conditioner temperature, system sound volume, user is when regulating air-conditioner temperature, system sound volume, operating interactive sense is not strong, and Consumer's Experience is poor.

Summary of the invention

The invention provides a kind of numerical value control method and device of giant-screen onboard system, being intended to solve does not have the large-size screen monitors onboard system of the entity knob problem that operating interactive sense is not strong when regulating numerical value at present, realizes good man-machine interaction, promotes Consumer's Experience.

For achieving the above object, the technical solution used in the present invention is:

One aspect of the present invention provides a kind of numerical value control method of giant-screen onboard system, comprising:

Detect the region that hand stops;

Read the last numerical value stored, drive vibrations motor to shake;

Detect the classification of gesture operation, direction, speed and knots modification;

Knots modification according to gesture changes current value;

Carry out data conversion, drive vibrations motor to shake.

Further, also comprised before the region that described detection hand stops:

Whether the time that detection hand stops in screen upper stationary exceedes threshold value.

Further, also comprise after the region that described detection hand stops:

Superposition one hovering interbedded formation on the interface region that hand stops, the touch operation in shielding present user interface region.

Further, carry out data conversion described, also comprise after driving vibrations motor shakes:

Carry out voice broadcast;

Close hovering interbedded formation, whether the time continuing to detect hand stop exceedes threshold value.

The present invention provides a kind of numerical value regulating device of giant-screen onboard system on the other hand, comprises distance induction module, gesture recognition module, driver module, processing module, vibrations motor;

Described distance induction module, whether the time of hovering in screen upper stationary for detecting hand exceedes threshold value;

Described gesture recognition module, for identifying the classification of gesture operation, direction, speed and knots modification;

Described driver module, for carrying out driving vibrations motor;

Described processing module, for the control between each module;

Described vibrations motor, for carrying out vibration prompting according to current numerical value.

Further, the numerical value regulating device of described giant-screen onboard system, also comprises:

UI laminating module, superposes a hovering interbedded formation, the touch operation of shielding present user interface in the user interface in current operation.

Further, the numerical value regulating device of described giant-screen onboard system, also comprises:

Voice broadcast module, for carrying out voice broadcast.

Beneficial effect of the present invention is: the numerical value Direct driver vibrations motor in operating process by detecting gesture operation, and is carried out tactile feedback by the present invention, carries out audio feedback, achieve stronger operating interactive sense, improve Consumer's Experience by speech play.

Accompanying drawing explanation

Fig. 1 is the adjustment air-conditioner temperature operation chart of large-size screen monitors onboard system of the present invention;

Fig. 2 is the regulating system volume operation schematic diagram of large-size screen monitors onboard system of the present invention;

Fig. 3 is the schematic flow sheet of the numerical value control method of giant-screen onboard system of the present invention;

Fig. 4 is the structural representation of the numerical value regulating device of giant-screen onboard system of the present invention.

Embodiment

Specifically illustrate embodiments of the present invention below in conjunction with accompanying drawing, accompanying drawing is only for reference and use is described, does not form the restriction to scope of patent protection of the present invention.

As shown in Figure 1, embodiments of the invention provide a kind of numerical value control method of giant-screen onboard system on the one hand, comprising:

Step 1. detects the region that hand stops.

In the present embodiment, as shown in Figure 1, the user interface of large-size screen monitors onboard system is generally divided into several main region such as air-conditioning information display area, media play viewing area.Be appreciated that owing to designing difference, the possibility that puts in order of air-conditioning information display area, media play viewing area is different.

Particularly, can by installing multiple infrared ray, hyperacoustic transmitter and receiver (quantity of installation depends on division degree and the detection sensitivity of user interface) in screen surrounding, when hand presses close to screen surface, the infrared ray that transmitter sends or ultrasound wave will be blocked, and can be determined the position at hand place by the receiver position be blocked.

Step 2. reads the last numerical value stored, and drives vibrations motor to shake.

Particularly, according to method described in step 1, when the region detecting stop in one's hands is air-conditioning information display area, then read the last air-conditioner temperature value (as 25 DEG C) stored; If when the region detecting stop in one's hands is media play viewing area, then read the last system sound volume (as 30) stored, and above-mentioned numerical value (air-conditioner temperature value or system sound volume) is sent to driver module (as driving chip) by communication interface (as I2C, SPI etc.), drive vibrations motor to shake.Further, in order to make user obtain information more accurately, can be reminded by the mode of voice broadcast.

Step 3. detects the classification of gesture operation, direction, speed and knots modification, and the knots modification according to gesture changes current value, carries out data conversion, drives vibrations motor to shake.

According to the region of the hand stop that step 1 is determined, process is as follows respectively:

As shown in Figure 1, when the region that hand stops is air-conditioning information display area: the direction detecting volar glide, if slide, then increases temperature left, if slide, then reduce air-conditioner temperature to the right; Detect the speed of sliding, change air-conditioner temperature with the relation be directly proportional to sliding speed; Detect the distance of sliding, with the end value of the relation determination air-conditioner temperature be directly proportional to sliding distance; In sliding process, read current value, carry out data conversion, drive vibrations motor to shake.

Particularly, judge whether to there is slide by the changes in coordinates of the interior palm center of Preset Time (as 50ms), and the direction of sliding and speed, by the sliding distance in described Preset Time with the last air-conditioner temperature data sum that stores or differ from the end value determining air-conditioner temperature.

As shown in Figure 2, when hand dwell regions is media information viewing area: detect the direction that finger delineates camber line, if clockwise, then increase volume, if counterclockwise, then reduce volume; Detect the speed of delineating, change volume with the relation be directly proportional to the speed of delineating; Detect the length of camber line, with the end value of the relation determination volume be directly proportional to arc length; In the process of delineating camber line, read current value, carry out data conversion, drive vibrations motor to shake.

Particularly, judge whether that operation is delineated in existence by the change of finger coordinate in Preset Time (as 50ms), and the direction delineated and speed, by the arc length of delineating and the last system sound volume data sum stored or the end value differing from certainty annuity volume of (as 100ms) in described Preset Time.

In an embodiment of the present invention, also comprise before step 1:

Step a. detects hand and whether exceedes threshold value (as 1 second) in the time that screen upper stationary stops.

Particularly, can judge whether hand is still in above screen by distance-sensor or by the infrared ray being arranged on screen surrounding, hyperacoustic transmitter and receiver, and detect the time threshold that hand stops in screen upper stationary can arrange as required, as 1 second, 2 seconds or other suitable time.

In an embodiment of the present invention, also comprise after step 1:

Superposition one hovering interbedded formation on the interface region that step b. stops at hand, the touch operation in shielding present user interface region.

Particularly, the transparency of described hovering interbedded formation can regulate, as transparent, translucent, opaque and other transparency.By arranging described hovering interbedded formation, user can be guaranteed in operation, only changing the numerical value expecting to regulate, and can not maloperation be caused.

In an embodiment of the present invention, also comprise after step 3:

Step c carries out voice broadcast.

Steps d. close hovering interbedded formation, whether the time continuing to detect hand stop exceedes threshold value.

Embodiments of the invention provide a kind of numerical value regulating device of giant-screen onboard system on the other hand, comprise distance induction module, gesture recognition module, driver module, processing module, vibrations motor;

Described distance induction module, whether the time of hovering in screen upper stationary for detecting hand exceedes threshold value;

Described gesture recognition module, for identifying the classification of gesture operation, direction, speed and knots modification;

Described driver module, for carrying out driving vibrations motor;

Described processing module, for the control between each module;

Described vibrations motor, for carrying out vibration prompting according to current numerical value.

Further, the numerical value regulating device of described giant-screen onboard system, also comprises:

UI laminating module, superposes a hovering interbedded formation, the touch operation of shielding present user interface in the user interface in current operation.

Further, the numerical value regulating device of described giant-screen onboard system, also comprises:

Voice broadcast module, for carrying out voice broadcast.

The course of work of the numerical value regulating device of giant-screen onboard system of the present invention is:

S1. whether described distance induction module detection hand exceedes threshold value (as 1 second) in the time that screen upper stationary stops, and detects the region of hand stop;

S2. superposition one hovering interbedded formation on the interface region that stops at hand of described UI laminating module, the touch operation in shielding present user interface region;

S3. described processing module reads the last numerical value stored from memory module, drives vibrations motor to shake;

S4. described gesture recognition module detects the classification of gesture operation, direction, speed and knots modification, and described processing unit changes current value according to the knots modification of gesture, carries out data conversion, and is sent to described driver module, drive described vibrations motor to shake;

S5. described voice broadcast module carries out voice broadcast to current numerical value;

S6. described processing module closes hovering interbedded formation, and whether the time that described distance induction module continuation detection hand stops exceedes threshold value.

Above disclosedly be only preferred embodiment of the present invention, the scope of the present invention can not be limited with this, therefore according to the equivalent variations that the present patent application the scope of the claims is done, still belong to the scope that the present invention is contained.

Claims (6)

1. a numerical value control method for giant-screen onboard system, is characterized in that, comprising:

Detect the region that hand stops;

Read the last numerical value stored, drive vibrations motor to shake;

Detect the classification of gesture operation, direction, speed and knots modification;

Knots modification according to gesture changes current value;

Carry out data conversion, drive vibrations motor to shake.

2. the numerical value control method of giant-screen onboard system according to claim 1, is characterized in that, also comprises before the region that described detection hand stops:

Whether the time that detection hand stops in screen upper stationary exceedes threshold value.

3. the numerical value control method of giant-screen onboard system according to claim 1, also comprises after it is characterized in that the region that described detection hand stops:

Superposition one hovering interbedded formation on the interface region that hand stops, the touch operation in shielding present user interface region.

4. a numerical value regulating device for giant-screen onboard system, is characterized in that:

Described onboard system is provided with distance induction module, gesture recognition module, driver module, processing module, vibrations motor;

Described distance induction module, whether the time of hovering in screen upper stationary for detecting hand exceedes threshold value;

Described gesture recognition module, for identifying the classification of gesture operation, direction, speed and knots modification;

Described driver module, for carrying out driving vibrations motor;

Described processing module, for the control between each module;

Described vibrations motor, for carrying out vibration prompting according to current numerical value.

5. the numerical value regulating device of giant-screen onboard system according to claim 4, is characterized in that, also comprise:

UI laminating module, superposes a hovering interbedded formation, the touch operation of shielding present user interface in the user interface in current operation.

6. the numerical value regulating device of giant-screen onboard system according to claim 4, is characterized in that, also comprise:

Voice broadcast module, for carrying out voice broadcast.