CN101159126A - Method for stabilizing handhold equipment image and device - Google Patents

Abstract

The invention discloses a method for stabilizing image of handheld equipment, which comprises the steps: (a) starting a sensor in the handheld equipment to acquire swaying data; and (b) converting an analog signal in the step (a) into a digital signal, transmitting the digital signal to a digital signal processor and a CPU for processing, controlling the start position of dot array and scan row of a display screen by a display screen driver to control the image position, and storing the position. The invention also discloses a device for implementing the method, which comprises the CPU, the sensor, an analog-digital conversion module, the digital signal processor, an asynchronous serial interface, the display screen driver, and the display screen and a storage, which are connected with each other in sequence, wherein the storage is connected with the CPU. The invention provides the method and a device for stabilizing image of the handheld equipment, which are capable of alleviating or eliminating visual fatigue caused by image of the handheld equipment in swaying environment.

Description

A kind of method of stabilizing handhold equipment image and device

[technical field]

The present invention relates to the communications field, relate in particular to a kind of method and device of stabilizing handhold equipment image.

[background technology]

At present, along with the quickening of people's rhythm of life and work rhythm, handheld devices such as a lot of National People's Congress wait for a long time to need to see the mobile phone on the car, PDA, laptop computer are because the image on the handheld device constantly rocks with car in the driving process, be easy to cause visual fatigue, if things go on like this affect one's power of vision unavoidably.Because human eye is just can see at the moment object clearly by the adjusting of eyes ciliary muscle, when seeing the relatively-stationary object of distance, the contraction of human eye ciliary muscle and upholding just can keep relative stability, and it is tired that eyes also are not easy to feel; If object always is in vibrating state, eyes are in order to see target object clearly, and ciliary muscle will be forced to ceaselessly regulate to see image clearly, when this adjusting is too much, overfrequency just causes kopiopia easily.

Existing market has part digital camera, video camera, telescope product that anti-trembling function is arranged, these products are obtained stabilized image dual mode: one is anti-shake for optics, and it is to rely on the structure of special camera lens or CCD photo-sensitive cell farthest reducing the operator in use because shake causes the image instability.The 2nd, electronic flutter-proof is to analyze at the image on the CCD, utilizes edge image to compensate then, and it just carries out post-processed to the data that collect, inconvenient operation and step complexity, poor effect.

[summary of the invention]

The invention provides and a kind ofly can slow down method and the device that person very eliminates the stabilizing handhold equipment image of seeing the visual fatigue that handhold equipment image causes in rocking environment.

In order to solve above technical matters, the invention provides a kind of method of stabilizing handhold equipment image, comprise step:

A), the sensor that starts in the handheld device rocks data to obtain;

B), convert the mimotope shifting signal in the step a) to digital signal and send to digital signal processor and central processing unit is handled, and adjust the position and the storage of image by the reference position of display driver control display screen lattice array and scan line.

The present invention also provides a kind of device of stabilizing handhold equipment image, comprise central processing unit (CPU), sensor, analog-to-digital conversion module, digital signal processor and display screen, described sensor, analog-to-digital conversion module, digital signal processor, CPU and display screen are connected in turn.

The device of above-described stabilizing handhold equipment image also comprises Asynchronous Serial Interface and display driver, and described Asynchronous Serial Interface is connected between analog-to-digital conversion module and the digital signal processor; Described display driver is connected between central processing unit and the display screen.

The device of above-described stabilizing handhold equipment image also comprises storer, and described storer connects with CPU.

The device of above-described stabilizing handhold equipment image, described sensor are dual spindle gyroscopes, and first, second of described dual spindle gyroscopes connects with described analog-to-digital conversion module respectively.

The method of stabilizing handhold equipment image of the present invention and device are because of built-in sensors in handheld device, can obtain the displacement data that rocks of image in good time, and through analog-to-digital conversion module and signal processor processes, thereby adjust the display position of image, so that the relative displacement value of being maintained fixed between human eye and the image, thereby alleviate that image rocks and the visual fatigue that causes.

The method of stabilizing handhold equipment image of the present invention and install easy to operate, simple in structure, and very practical.

[description of drawings]

The present invention is further detailed explanation below in conjunction with the drawings and specific embodiments.

Fig. 1 is the process flow diagram of the method embodiment 1 of stabilizing handhold equipment image of the present invention.

Fig. 2 is the structured flowchart of the device embodiment 1 of stabilizing handhold equipment image of the present invention.

[embodiment]

The method of stabilizing handhold equipment image of the present invention comprises step: the sensor that starts in the handheld device rocks data to obtain; The data of rocking that sensor is obtained convert digital signal to through analog-to-digital conversion module, send digital signal processor to after the Asynchronous Serial Interface coupling; Digital signal processor passes through the reference position of display driver control display screen lattice array and scan line to adjust the position of image, thereby keep the image display position relatively stable, to reduce the user sees handhold equipment image under the environment that rocks visual fatigue.

The device of stabilizing handhold equipment image of the present invention comprises CPU, sensor, analog-to-digital conversion module, digital signal processor, Asynchronous Serial Interface, display driver, display screen and storer; Described sensor, analog-to-digital conversion module, Asynchronous Serial Interface, digital signal processor, CPU, display driver and display screen are connected in turn; Described storer is connected with CPU.

In the present invention, described sensor is a dual spindle gyroscopes.

In the method embodiment 1 of stabilizing handhold equipment image of the present invention shown in Figure 1, comprise step:

101, start sensor;

102, obtain image and rock displacement;

103, convert step 102 gained simulating signal to digital signal through analog-to-digital conversion module;

104, step 103 gained digital signal is sent to the signal digital signal processor processes;

105, step 104 gained signal being sent to central processing unit handles and stores;

106, step 105 gained signal is sent to display driver, by the reference position of display driver control display screen lattice array and scan line;

107, the image display position on the display screen is moved through the adjustment of above-mentioned steps, to keep the relative distance between image and the human eye.

In the device embodiment 1 of stabilizing handhold equipment image of the present invention shown in Figure 2, comprise CPU5, sensor 1, the first analog-to-digital conversion module 2a, the second analog-to-digital conversion module 2b, digital signal processor 4, Asynchronous Serial Interface 3, LCDs driver 7, LCDs 8 and storer 6; Described sensor, analog-to-digital conversion module, Asynchronous Serial Interface, digital signal processor, CPU, display driver and display screen are connected in turn; Described storer is connected with CPU.

In the present embodiment, described sensor is a dual spindle gyroscopes, and wherein first of dual spindle gyroscopes connects with described first analog-to-digital conversion module, and second connects with several second analog-to-digital conversion modules of institute.First X component that obtaining image is rocked displacement of described dual spindle gyroscopes converts digital signal to and sends to Asynchronous Serial Interface through first analog-to-digital conversion module, second Y component that obtaining image is rocked displacement unexpectedly second analog-to-digital conversion module converts digital signal to and sends to Asynchronous Serial Interface, X, the digital signal of Y component sends to digital signal processor after the Asynchronous Serial Interface coupling, central processing unit and display driver are handled the back and are shown through adjusted image in LCDs, can guarantee that like this relative displacement between human eye and the image fixes, the human eye ciliary muscle is excessively flexible when seeing handhold equipment image to reduce in rocking environment, thereby slows down human eye vision fatigue.

Claims (5)

1. the method for a stabilizing handhold equipment image is characterized in that, comprises step:

A), the sensor that starts in the handheld device rocks data to obtain;

B), convert the mimotope shifting signal in the step a) to digital signal and send to digital signal processor and central processing unit is handled, and adjust the position and the storage of image by the reference position of display driver control display screen lattice array and scan line.

2. the device of a stabilizing handhold equipment image, it is characterized in that, comprise central processing unit (CPU), sensor, analog-to-digital conversion module, digital signal processor and display screen, described sensor, analog-to-digital conversion module, digital signal processor, CPU and display screen are connected in turn.

3. the device of stabilizing handhold equipment image according to claim 2 is characterized in that, also comprises Asynchronous Serial Interface and display driver, and described Asynchronous Serial Interface is connected between analog-to-digital conversion module and the digital signal processor; Described display driver is connected between central processing unit and the display screen.

4. the device of stabilizing handhold equipment image according to claim 2 is characterized in that, also comprises storer, and described storer connects with CPU.

5. according to the device of the described stabilizing handhold equipment image of arbitrary claim in the claim 2 to 4, it is characterized in that described sensor is a dual spindle gyroscopes, first, second of described dual spindle gyroscopes connects with described analog-to-digital conversion module respectively.

Images