CN105516507A

CN105516507A - Information processing method and electronic equipment

Info

Publication number: CN105516507A
Application number: CN201511000349.6A
Authority: CN
Inventors: 靳玉茹; 章丹峰
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-12-25
Filing date: 2015-12-25
Publication date: 2016-04-20

Abstract

The invention discloses an information processing method and electronic equipment. The information processing method comprises the steps of acquiring a first parameter when image acquisition is performed through an image acquisition unit of first electronic equipment, wherein the first parameter is related with image acquisition; transmitting the first parameter to second electronic equipment through a network so that the second electronic equipment can determine a second parameter according to the first parameter, wherein the second parameter is used for adjusting the photographing parameter of the image acquisition unit; receiving a second parameter which is returned from the second electronic equipment through the network; and adjusting the photographing parameter according to the second parameter and performing image acquisition. The information processing method according to the invention is used for settling a technical problem of overhigh local calculation amount of the electronic equipment in a manner of determining the photographing parameter based on local data.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of information processing method and electronic equipment.

Background technology

The development of science and technology has driven social progress, the development of the communication technology is maked rapid progress and is become the technology that the numerous common people rely on day by day, along with the electronic equipments such as smart camera, smart mobile phone and panel computer enter the life of people, take pictures whenever and wherever possible and become possibility, and,, the change for shooting technology provides more possibility for camera technique and communication technology set electron equipment.

In the prior art, when user is taken pictures by electronic equipment, first, user finds a view according to the experience of taking pictures, such as, determine shooting angle, reference object or communication way etc.Secondly, user such as, by experience or the acquisition parameters being regulated image acquisition units by the automatic regulation function of electronic equipment, aperture size, aperture time and focal length etc.

Wherein, for determining that the data of acquisition parameters are obtained by the transducer of image acquisition units inside, such as, by charge coupled cell (Charge-coupledDevice, or complementary metal oxide semiconductors (CMOS) (ComplementaryMetalOxideSemiconductor CCD), CMOS) gather related data, then determine acquisition parameters by the processor of electronic equipment.

Present inventor is in the process realizing technical scheme in the embodiment of the present application, find that prior art exists following technical problem: the acquisition parameters being determined image acquisition units in prior art by the data of the experience of user and transducer collection, first, when user take pictures lack experience time, acquisition parameters and the mode of composition of the image acquisition units regulated may not be best, secondly, when obtaining acquisition parameters by the processor automatic data processing of electronic equipment, because the computing capability of native processor is limited, so result may not be optimum, also cause local computing amount excessive simultaneously, require too high to the handling property of this locality.

Summary of the invention

The invention provides a kind of information processing method and electronic equipment, in order to solve in prior art when electronic equipment gathers image, the technical problem that the mode based on local data determination acquisition parameters causes electronic equipment local computing amount excessive.

For solving the problems of the technologies described above, on the one hand, the embodiment of the present invention provides a kind of information processing method, comprising:

When the image acquisition units by the first electronic equipment carries out IMAQ, obtain the first parameter, wherein, described first parameter is relevant to IMAQ;

Send described first parameter to the second electronic equipment by network, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described image acquisition units;

Receive described second parameter that described second electronic equipment is returned by described network;

Regulate described acquisition parameters according to described second parameter and carry out IMAQ.

Optionally, described send described first parameter to the second electronic equipment by network after, described method also comprises:

Receive the tutorial message that described second electronic equipment is sent by described network;

The display unit of described first electronic equipment shows described tutorial message, enables user according to described tutorial message adjustment composition.

Receive the parameter request that described second electronic equipment is sent by described network, the 3rd parameter required when described parameter request indicates the second electronic equipment to need for determining the second parameter;

Described 3rd parameter is obtained according to described parameter request;

Send described 3rd parameter by described network to described second electronic equipment, make described second electronic equipment can determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, described acquisition parameters is regulated according to described second parameter and after carrying out IMAQ, described method also comprises described:

Obtain the first image that described image acquisition units gathers;

Obtain the 4th parameter when gathering described first image, wherein said 4th parameter is one or more in current environment parameter, the current shooting parameter of described image acquisition units and the hardware parameter of described image acquisition units;

Described first image and described 4th parameter is sent to described second electronic equipment by described network.

On the other hand, the embodiment of the present invention also provides a kind of information processing method, comprising:

Receive the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

Determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

Described second parameter is sent to described first electronic equipment by described network.

Optionally, after the first parameter that described reception first electronic equipment is sent by network, described method also comprises:

Judge whether to determine described second parameter according to described first parameter;

When described second parameter can not be determined according to described first parameter, by described network to the parameter request of described first electronic equipment transmission for asking the 3rd parameter, wherein, the parameter also needed when described 3rd parameter is and determines described second parameter;

By the 3rd parameter described in described network reception;

Described second parameter is determined according to described first parameter and described 3rd parameter.

Optionally, described first parameter comprises the environmental parameter residing for described first electronic equipment, describedly determines the second parameter according to described first parameter, comprising:

The first environment parameter corresponding with described environmental parameter is determined in the corresponding relation of environmental parameter with acquisition parameters;

Obtain the acquisition parameters corresponding with described first environment parameter;

The second parameter is determined based on described acquisition parameters.

Optionally, described first parameter comprises the preview image that described image acquisition units gathers, and describedly determines the second parameter according to described first parameter, comprising:

The first image mated with described preview image is determined in the corresponding relation of image with acquisition parameters;

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

Optionally, described determine the second parameter according to described first parameter after, described method also comprises:

According to described first parameter determination tutorial message, described tutorial message is used to guide user and adjusts composition;

Described second tutorial message is sent to described first electronic equipment by described network.

Optionally, described after described second parameter of described first electronic equipment transmission, described method also comprises:

Receive the first image and the 4th parameter of described first electronic equipment transmission;

When described first image meets pre-conditioned, according to described 4th parameter determination acquisition parameters;

The corresponding relation of described first image and described acquisition parameters is preserved in a database.

On the other hand, the embodiment of the present invention provides a kind of electronic equipment, comprising:

Image acquisition units;

Processor, for when carrying out IMAQ by described image acquisition units, obtains the first parameter, and wherein, described first parameter is relevant to IMAQ;

Reflector, for being sent described first parameter by network to the second electronic equipment, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described image acquisition units;

Receiver, for receiving described second parameter that described second electronic equipment is returned by described network;

Described processor also for: regulate described acquisition parameters according to described second parameter and control described image acquisition units and carry out IMAQ.

Optionally, described receiver also for:

Described send described first parameter to the second electronic equipment by network after, receive the tutorial message that described second electronic equipment is sent by described network;

Described processor also for: on the display unit of described first electronic equipment, show described tutorial message, enable user according to described tutorial message adjustment composition.

Optionally, described receiver also for:

Described send described first parameter to the second electronic equipment by network after, receive the parameter request that described second electronic equipment is sent by described network, the 3rd parameter required when described parameter request indicates the second electronic equipment to need for determining the second parameter;

Described processor also for: obtain described 3rd parameter according to described parameter request;

Described reflector also for: by described network to described second electronic equipment send described 3rd parameter, make described second electronic equipment can determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, described processor also for:

Regulate described acquisition parameters according to described second parameter described and control after described image acquisition units carries out IMAQ, to obtain the first image that described image acquisition units gathers;

Described reflector also for: send described first image and described 4th parameter by described network to described second electronic equipment.

Receiver, for receiving the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

Processor, for determining the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

Reflector, for sending described second parameter by described network to described first electronic equipment.

Optionally, described processor also for:

After the first parameter that described reception first electronic equipment is sent by network, judge whether to determine described second parameter according to described first parameter;

Described reflector also for: when described second parameter can not be determined according to described first parameter, by described network to the parameter request of described first electronic equipment transmission for asking the 3rd parameter, wherein, the parameter also needed when described 3rd parameter is and determines described second parameter;

Described receiver also for: by the 3rd parameter described in described network reception;

Described processor also for: determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, described processor is used for:

When described first parameter comprises the environmental parameter residing for described first electronic equipment, in the corresponding relation of environmental parameter with acquisition parameters, determine the first environment parameter corresponding with described environmental parameter;

The second parameter is determined based on described acquisition parameters.

Optionally, described processor is used for:

When described first parameter comprises the preview image of described image acquisition units collection, in the corresponding relation of image with acquisition parameters, determine the first image mated with described preview image;

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

Optionally, described processor also for:

Described determine the second parameter according to described first parameter after, according to described first parameter determination tutorial message, described tutorial message is used to guide user and adjusts composition;

Described reflector also for: by described network to described first electronic equipment send described second tutorial message.

Optionally, described receiver also for:

Described after described second parameter of described first electronic equipment transmission, receive the first image and the 4th parameter of described first electronic equipment transmission;

Described processor also for: when described first image meets pre-conditioned, according to described 4th parameter determination acquisition parameters;

First acquisition module, for when the image acquisition units by the first electronic equipment carries out IMAQ, obtains the first parameter, and wherein, described first parameter is relevant to IMAQ;

First sending module, for being sent described first parameter by network to the second electronic equipment, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described image acquisition units;

First receiver module, for receiving described second parameter that described second electronic equipment is returned by described network;

First acquisition module, for regulating described acquisition parameters according to described second parameter and carrying out IMAQ.

First receiver module, for receiving the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

First determination module, for determining the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

First sending module, for sending described second parameter by described network to described first electronic equipment.

By the embodiment of in the above-described embodiment in the present invention or multiple embodiment, at least following technique effect can be realized:

In the first electronic equipment, when the image acquisition units by the first electronic equipment carries out IMAQ, first first parameter relevant to IMAQ is obtained, then the first parameter is sent to the second electronic equipment by network, make the second electronic equipment can determine the second parameter according to the first parameter, wherein the second parameter is for regulating the acquisition parameters of image acquisition units.After receiving the second parameter that the second electronic equipment returned by network, regulate acquisition parameters according to the second parameter and carry out IMAQ.In the technical program, first electronic equipment obtains first parameter relevant to IMAQ when gathering image, second parameter corresponding with the first parameter is got by the second electronic equipment, and regulate the acquisition parameters of image acquisition units according to the second parameter and gather image, the technical scheme that can only be processed the data gathered by native processor in prior art, the present invention carries out data processing by the second electronic equipment, when making the first electronic equipment gather image, except can by except local data determination acquisition parameters, acquisition parameters can also be obtained by the second electronic equipment on network, the complexity of the first electronic equipment deal with data can be reduced, avoid the technical problem occurring that local computing amount is excessive, and can not the disposal ability of native processor and the restriction of memory memory function be subject to when determining acquisition parameters, better photographic schemes can be obtained by the second electronic equipment, realize the technique effect gathering high quality graphic.

In addition, in the second electronic equipment, receive the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when the first parameter is the first electronic equipment collection image.Determine the second parameter according to the first parameter, wherein, the second parameter is for regulating the acquisition parameters of the first electronic equipment.The second parameter is sent to the first electronic equipment by network.In the technical program, second electronic equipment stores a large amount of data relevant to IMAQ, after receiving the first parameter, according to the first parameter in corresponding second parameter of large data acquisition, and send it to the first electronic equipment, the first electronic equipment is enable to regulate the acquisition parameters of image acquisition units according to the second parameter, to obtain the image of better quality, namely, in the embodiment of the present invention, achieve as other electronic equipment provides better photographic schemes to obtain the technique effect of high quality graphic.

Accompanying drawing explanation

The flow chart of a kind of information processing method that Fig. 1 provides for the embodiment of the present invention one;

The flow chart of the another kind of information processing method that Fig. 2 provides for the embodiment of the present invention one;

The structure chart of a kind of electronic equipment that Fig. 3 provides for the embodiment of the present invention two;

The structure chart of a kind of electronic equipment that Fig. 4 provides for the embodiment of the present invention three;

The structure chart of a kind of electronic equipment that Fig. 5 provides for the embodiment of the present invention four;

The structure chart of a kind of electronic equipment that Fig. 6 provides for the embodiment of the present invention five.

Embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, in order to solve in prior art when electronic equipment gathers image, and the technical problem that the mode based on local data determination acquisition parameters causes electronic equipment local computing amount excessive.

Technical scheme in the embodiment of the present invention is solve above-mentioned technical problem, and general thought is as follows:

In addition, term "and/or" herein, being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, and such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, when not illustrating, general expression forward-backward correlation is to the relation liking a kind of "or".

In order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present invention and embodiment is the detailed description to technical solution of the present invention, instead of the restriction to technical solution of the present invention, when not conflicting, the technical characteristic in the embodiment of the present invention and embodiment can combine mutually.

Embodiment one

The invention provides a kind of information processing method, the electronic equipment that one has image collecting function and communication function can be applied to, wherein, electronic equipment can be smart camera, smart mobile phone or panel computer etc., for described electronic equipment specifically which type of equipment the present invention be not restricted.

Below by the implementation process of the information processing method in the detailed description embodiment of the present invention.First, please refer to shown in Fig. 1, Fig. 1 is the main flow figure of the information processing method of the first electronic equipment side, specifically describes as follows:

Step 101: when the image acquisition units by the first electronic equipment carries out IMAQ, obtain the first parameter, wherein, described first parameter is relevant to IMAQ;

Step 102: send described first parameter to the second electronic equipment by network, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described image acquisition units;

Step 103: receive described second parameter that described second electronic equipment is returned by described network;

Step 104: regulate described acquisition parameters according to described second parameter and carry out IMAQ.

In a step 101, obtaining first parameter relevant to IMAQ, specifically, when image acquisition units photographic images being detected, obtaining first parameter relevant to gathering image by dissimilar transducer or the corresponding element obtaining data.The process gathering an image is: under the present circumstances, and selected photographic subjects, determines composition, obtains the different image of picture effect by regulating the acquisition parameters of image acquisition units.So in whole image acquisition process, relatively should there is the first different parameters, specifically comprise one or more in the pre-acquisition parameters that the environmental parameter of environment residing for the first electronic equipment, the hardware parameter of the first electronic equipment, preview image and image acquisition units determine.

Specifically, the environmental parameter of acquisition comprises the parameter affecting the acquisition parameters of image acquisition units in parameter for determining photographic subjects and the current residing environment of the first electronic equipment.Wherein, for determining that the parameter of photographic subjects comprises the location parameter determining the first electronic equipment present position, and height above sea level, shooting angle and the shooting direction etc. for determining shooting orientation.When obtaining this first parameter, longitude and latitude can be gathered by global position system, obtain height above sea level by seashore height sensor, obtain shooting angle and shooting direction by acceleration transducer, gyroscope or gravity sensor.The parameter of the acquisition parameters of image acquisition units is affected in the current residing environment of first electronic equipment, specifically, comprise time, intensity of illumination, temperature, humidity, air visibility, haze index etc., such first parameter can be obtained by related sensor, and partial parameters can also be obtained by the information that network is correlated with as weather forecast etc.In actual applications, those skilled in the art can obtain the first parameter according to specific needs, and the present invention is not construed as limiting this.

The hardware parameter of the first electronic equipment, specifically, comprises the model and configuration etc. of the configuration of image acquisition units, the first electronic equipment.Wherein, the configuration of image acquisition units comprises the type of photo-sensitive cell, the model etc. of camera lens.Photo-sensitive cell mainly comprises two kinds, one is widely used CCD imageing sensor (ChargeCoupledDevice, CCD), another is complementary metal oxide semiconductors (CMOS) (ComplementaryMetalOxideSemiconductor, CMOS).The model of camera lens comprises much information, the manufacturer of such as camera lens, the burnt section characterizing focusing range, maximum ring, whether stabilization, whether uses ultrasonic motor etc.The model of the first electronic equipment is that electronic equipment is when dispatching from the factory, manufacturer is its fixed name, such as associate happy lemon X3 or Nikon (Nikon) D7000 etc., type, pixel, image-signal processor, the much information such as different zoom mode and screening-mode of processor can be obtained by the model of the first electronic equipment.

When the pre-acquisition parameters that image acquisition units is determined is user's photographic images, the data of photo-sensitive cell collection for taking of image acquisition units, native processor carries out data processing the acquisition parameters later determined.Such as according to aperture, aperture time, white balance, contrast, focal length, ISO photosensitivity, acutance and saturation etc. that the intensity of illumination obtained and photographic subjects are determined.

The image that preview image gathers according to current pre-acquisition parameters for image acquisition units, wherein, preview image is corresponding with pre-acquisition parameters, much information can be obtained by analysis of preview images, specifically comprise photographic subjects, contrast, resolution, acutance and saturation etc., and camera site is compared to the angle and distance etc. of spot for photography.

Wherein, the first parameter can be obtained by different modes in embodiments of the present invention.One is image acquisition units automatic acquisition, such as, after user stops Preset Time facing to shot object, or when photographic subjects is focused, and image acquisition units automatic acquisition first parameter.Another is that user manually obtains, such as, on the display interface gathering image, arrange relevant action-item, after user's clicking operation item, obtain the first parameter, also can obtain the first parameter by the button preset.In actual applications, user can determine the mode of acquisition first parameter according to concrete demand, the present invention does not limit this.

When after execution step 101, perform step 102, send the first parameter to the second electronic equipment by network, make the second electronic equipment can determine the second parameter according to the first parameter, wherein, the second parameter is for regulating the acquisition parameters of image acquisition units.

Specifically, first electronic equipment and the second electronic equipment are all interconnected with cordless communication network, after first electronic equipment has gathered the first parameter, by cordless communication network, the first parameter is sent to the second electronic equipment, wherein, the second electronic equipment can be the server in high in the clouds, on the second electronic equipment, collect have from all parts of the world to the relevant data of shooting, comprise great amount of images, and the relevant information etc. of environmental parameter, acquisition parameters and electronic equipment during photographic images.Second electronic equipment, by doing advanced treating to the large data of collecting, to obtain optimum shooting skill and acquisition parameters, and generates one for storing the database as the corresponding relation between environmental parameter and acquisition parameters.After the first electronic equipment obtains the first parameter, the first parameter comprising many kinds of parameters is sent to the second electronic equipment, acquisition request second parameter, wherein, the second parameter comprises the acquisition parameters for regulating image acquisition units.

In an embodiment of the present invention, the first electronic equipment performs step 102, and the first parameter be sent to the second electronic equipment, wherein, the second electronic equipment can be the server in high in the clouds.After receiving the first parameter, the main flow figure of the information processing method of the second electronic equipment side as shown in Figure 2, specifically describes as follows:

Step 201: receive the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

Step 202: determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

Step 203: send described second parameter to described first electronic equipment by described network.

In step 201, receive the first parameter that the first electronic equipment is sent by network, wherein, the first parameter is the first parameter that in abovementioned steps 102, first electronic equipment sends, and after the first parameter being detected, receives this first parameter.

After execution step 201, next perform step 202, determine the second parameter according to the first parameter.Specifically, the second electronic equipment have collected and relevant data of making a video recording, after advanced treating is carried out to it, optimum shooting skill and acquisition parameters can be obtained.After the second electronic equipment receives the first parameter, resolve and process the first parameter, obtaining the data with the first parameter correlation in a database, and then determine the second parameter.

Specifically, when determining the second parameter by the first parameter, there is multiple possible implementation, wherein, according to the difference of the first parameter, have following two kinds of possible implementations at least:

The first possible implementation:

In this implementation, first parameter comprises the environmental parameter residing for the first electronic equipment, step 202 is specially: first, the first environment parameter corresponding with environmental parameter is determined in the corresponding relation of environmental parameter with acquisition parameters, then obtain the acquisition parameters corresponding with first environment parameter, finally determine the second parameter based on acquisition parameters.

Specifically, in the database of the second electronic equipment, store a large amount of data relevant to IMAQ, comprising the image taken in all parts of the world, and various environmental parameter when this image is collected and acquisition parameters.Second electronic equipment by doing advanced treating to the large data of collecting, to obtain optimum shooting skill and acquisition parameters, and the corresponding relation in a database between storage environment parameter and acquisition parameters.When the first parameter comprises environmental parameter, the second electronic equipment obtains the corresponding relation of environmental parameter and acquisition parameters in a database, and then obtains in this corresponding relation and the first environment parameter corresponding to environmental parameter in the first parameter.After determining first environment parameter, obtain in corresponding relation and the acquisition parameters corresponding to first environment parameter, when after acquisition acquisition parameters, then generate second parameter corresponding with the first parameter based on acquisition parameters.

For example, first parameter comprises the location parameter of intensity of illumination, weather, time, shooting angle, shooting direction and the first electronic equipment, wherein intensity of illumination is 1000 luxs (lx), weather is fine, time is 11:00 in morning July 22, and shooting angle is upwards 30 degree, horizontal plane, and shooting direction is eastwards, location parameter is north latitude 39 degree, east longitude 116 degree.Second electronic equipment carries out analysis to the first parameter can be known, current is summer, and solar irradiation is better, and fine, under the first electronic equipment is in the irradiation of the sun in the morning, position is in Tian An-men, Beijing, and shooting direction is for facing upward bat.According to the data analyzed, can infer user's shooting may for places of cultural interest Tian An-men.Wherein, the exact position of the landscape of the first electronic equipment periphery obtained on network according to the exact position of the first electronic equipment, shooting angle, shooting direction and the second electronic equipment, the second electronic equipment can also be inferred and photographic subjects.Such as, the first electronic equipment is positioned at the national flag place before Tian An-men, and shooting direction facing to Tian An-men, then can determine that photographic subjects is the rostrum of Tian An Men.After the second electronic equipment analyzes photographic subjects, obtain the data relevant to Tian An-men in a database, and to filter out intensity of illumination in these data be about 1000lx, shooting time is in summer, shooting angle is for facing upward bat, the first environment parameter of location parameter difference within 50 meters, suppose the image storing a Tian An-men in a database, it is 1350 luxs (lx) that corresponding first environment parameter comprises intensity of illumination, time is 13:40 in afternoon August 9, location parameter is north latitude 39 degree, east longitude 116 degree, acquisition parameters when obtaining the image in this Tian An-men is focal length 50mm, aperture is f/11, ISO photosensitivity is 80, screening-mode is landscape configuration.After getting acquisition parameters, the second electronic equipment determines the second parameter according to this acquisition parameters, wherein, in the first parameter, time is the morning, and intensity of illumination is less, so determine that the first parameter is focal length 50mm, aperture is adjusted to f/8, and ISO photosensitivity is 80, and screening-mode is landscape configuration.

The implementation that the second is possible:

In this implementation, first parameter comprises the preview image that image acquisition units gathers, step 202 is specially: first, the first image mated with preview image is determined in the corresponding relation of image with acquisition parameters, secondly, obtain the acquisition parameters corresponding with the first image, finally, determine the second parameter based on acquisition parameters.In this kind of implementation, directly can determine the second parameter according to preview image.

Specifically, after the preview image getting the first electronic equipment collection, by analyzing and identifying that this preview image can determine that picture/mb-type is that landscape, personage, building, plant or cuisines etc. are polytype any, and photographic subjects is determined.By the image quality analysis to preview image, can the contrast of evaluate image, resolution, acutance and saturation etc.After get the information relevant to IMAQ according to preview image, the first image matched with preview image can be obtained in a database, and then obtain the acquisition parameters of image acquisition units when taking this first image.By this acquisition parameters and evaluate the second parameter that relevant information determines the image acquisition units of adjustment first electronic equipment.

For example, suppose that preview image is the guest-welcoming pine in Mount Huang, first, the second electronic equipment determines that shot type is landscape, and photographic subjects is guest-welcoming pine, and the image quality of analysis of preview images determines the information such as contrast, resolution, acutance and saturation.Then obtaining photographic subjects is in a database the image of guest-welcoming pine, and then obtains acquisition parameters when taking this guest-welcoming pine.Then acquisition parameters is defined as the second parameter, or the acquisition parameters combining the information adjustment acquisition relevant to preview image determines the second parameter.Suppose that the saturation of previewing photos is lower, the color of guest-welcoming pine is lighter, then regulate the saturation in the second parameter according to the saturation obtained in preview picture and database, enables the first electronic equipment photograph the better guest-welcoming pine of color.

Certainly, above two kinds of possible implementations be only used to description technique scheme and for example, in actual applications, have multiple possible implementation.Wherein, one or more in the pre-acquisition parameters that the information that the first parameter comprises can be determined for the hardware parameter of the environmental parameter of environment residing for the first electronic equipment, the first electronic equipment, preview image and image acquisition units.So in actual applications, when determining the second parameter according to the first parameter, different according to the information in the first parameter, implementation has polytype.Two kinds of possible implementations listed above can be implemented separately; also can combine and determine the second parameter; certainly the second parameter can also be determined in conjunction with information such as the hardware parameters of the first electronic equipment; just do not repeat one by one at this; it should be noted that; as long as on the second electronic equipment, the first parameter uploaded according to the first electronic equipment determines the implementation of the second parameter, all within protection scope of the present invention.

After execution step 202, next perform step 203, send the second parameter by network to the first electronic equipment.Specifically, after getting the second parameter, the second parameter is sent in the first electronic equipment by cordless communication network.

In the embodiment of the present application, the second electronic equipment receives the first parameter that the first electronic equipment is sent by network, wherein, and parameter relevant when the first parameter is the first electronic equipment collection image.Determine the second parameter according to the first parameter, wherein, the second parameter is for regulating the acquisition parameters of the first electronic equipment.The second parameter is sent to the first electronic equipment by network.In the technical program, second electronic equipment stores a large amount of data relevant to IMAQ, after receiving the first parameter, according to the first parameter in corresponding second parameter of large data acquisition, and send it to the first electronic equipment, the first electronic equipment is enable to regulate the acquisition parameters of image acquisition units according to the second parameter, to obtain the image of better quality, namely, in the embodiment of the present invention, achieve as other electronic equipment provides better photographic schemes to obtain the technique effect of high quality graphic.

After the second electronic equipment side performs step 203, second parameter is sent to the first electronic equipment, step 103 is performed in the first electronic equipment side, receive the second parameter that the second electronic equipment is returned by network, specifically, after the second electronic equipment receives the first parameter, first parameter is analyzed, and obtain related data in a database, and then determine second parameter corresponding with the first parameter, such as regulating the aperture of image acquisition units, aperture time, white balance, contrast, focal length, ISO photosensitivity, the parameter of acutance and saturation.After the second parameter determined by the second electronic equipment, this second parameter is sent to the first electronic equipment by cordless communication network.When the first electronic equipment detects the second electronic equipment return messages, obtain the second parameter.

After execution of step 103, perform step 104, regulate acquisition parameters according to the second parameter and carry out IMAQ.Specifically, after the first electronic equipment receives the second parameter, the acquisition parameters that obtains for regulating image acquisition units being resolved to it, when gathering image, regulating image acquisition units, to obtain the image of better quality according to acquisition parameters.

Wherein, the regulative mode that different acquisition parameters is corresponding different, image acquisition units is configured with the adjusting device of adjustment portion acquisition parameters, and the mode that user can manually regulate operates adjusting device, and then changes acquisition parameters.Generally speaking, manually operated adjusting device can be carried out to comprise: focus control, aperture, photoflash lamp and macro mode etc.Other acquisition parameters can be regulated by the menu on display unit, and the acquisition parameters that can regulate according to menu comprises aperture time, white balance, contrast, ISO photosensitivity, resolution, acutance, saturation, exposure compensating and flash of light output etc.Acquisition parameters also comprises screening-mode, specifically, has intelligence to focus pattern, IGBT function, auto-focusing fill-in light, Digital Zoom pattern, portrait pattern, landscape configuration and night scene mode etc. automatically.In embodiments of the present invention, the acquisition parameters that the second electronic equipment returns comprises at least one in above-mentioned parameter.

After getting the second parameter, the acquisition parameters of image acquisition units can be regulated according to the second parameter.Specifically, following two kinds of possible implementations are had at least:

The first implementation: after the first electronic equipment receives the second parameter, image acquisition units automatically regulates acquisition parameters according to the second parameter and carries out IMAQ.In this approach, the operation that user does the first electronic equipment is little, only needs to determine to upload the first parameter, and to receive the second parameter, regulate acquisition parameters and carry out the operations such as IMAQ be all that the first electronic equipment carries out automatically.Wherein, when the information in the second parameter can only adjustment portion acquisition parameters time, other acquisition parameters is then determined automatically by the native processor of the first electronic equipment.

Such as, it is 1/60 that the second parameter comprises aperture time, and focal length is 50mm, and exposal model is landscape configuration.When gathering image, according to the second optimum configurations aperture time, focal length and exposal model, other acquisition parameters such as aperture, contrast, acutance and saturation are then determined according to current shooting environment and the first parameter automatically by the first electronic equipment.

The second implementation: after the first electronic equipment is resolved the second parameter, tutorial message is generated according to the second parameter, and be presented on the display unit of the first electronic equipment, user can by the tutorial message manual adjustments acquisition parameters on display unit, after user carries out input operation according to information, the first electronic equipment carries out IMAQ according to the input of user, the second parameter and the acquisition parameters automatically determined.

Such as, it is 1/60 that the second parameter comprises aperture time, and focal length is 50mm, and exposal model is landscape configuration.Display reminding information on the display unit, points out the optimal values of user's aperture time, focal length, and best exposal model.Suppose that user have adjusted aperture time and exposal model according to information, but do not focus, then according to fast gate value and the exposal model of user's input, and second the focal length value determined of parameter determine the focal length of actual use, and then carry out IMAQ, other acquisition parameters is then determined automatically by the first electronic equipment, such as white balance, contrast, ISO photosensitivity, acutance and saturation etc.

Optionally, in the second electronic equipment side, after step 201, method also comprises: judge whether to determine the second parameter according to the first parameter, when the second parameter can not be determined according to the first parameter, by network to the parameter request of the first electronic equipment transmission for asking the 3rd parameter, wherein, the parameter also needed when the 3rd parameter is and determines the second parameter; By network reception the 3rd parameter; The second parameter is determined according to the first parameter and the 3rd parameter.

Accordingly, in the first electronic equipment side, after step 102, method also comprises: receive the parameter request that the second electronic equipment is sent by network, the 3rd parameter required when parameter request indicates the second electronic equipment to need for determining the second parameter; The 3rd parameter is obtained according to parameter request; Send the 3rd parameter by network to the second electronic equipment, make the second electronic equipment can determine the second parameter according to the first parameter and the 3rd parameter.

Specifically, after the second electronic equipment receives the first parameter, when analyzing it and determining the second parameter, information in the first parameter may be run into sufficiently complete, to such an extent as to can not determine out the situation of the second parameter.When not determining the second parameter according to the first parameter, the second electronic equipment needs to determine the 3rd lacked parameter, and by cordless communication network to the parameter request of the first electronic equipment transmission for asking the 3rd parameter, to obtain the 3rd parameter.

After the first electronic equipment receives parameter request, it is resolved, to determine the 3rd parameter needed for the second electronic equipment, so by transducer or accordingly other element to obtain the 3rd parameter, and be sent to the second electronic equipment by cordless communication network.

After the second electronic equipment receives the 3rd parameter that the first electronic equipment returns, the 3rd parameter and the first parameter are combined, to obtain the second parameter.

For example, when the second electronic equipment needs to determine the aperture in the second parameter, find parameter not relevant to intensity of illumination in the first parameter, then generate the parameter request for asking intensity of illumination, and parameter request is issued the first electronic equipment.After the first electronic equipment receives parameter request, parameter request is resolved, determine that the 3rd parameter is intensity of illumination, then gather the intensity of illumination in current environment by optical sensor, and turn back to the second electronic equipment.

In actual applications, when the first electronic equipment receives parameter request, can again obtain the first parameter, and the first parameter and the 3rd parameter are sent to the second electronic equipment simultaneously, the parameter that the second electronic equipment is obtained is current up-to-date parameter.

Optionally, in the second electronic equipment side, after step 202, method also comprises: according to the first parameter determination tutorial message, tutorial message is used to guide user and adjusts composition, sends the second tutorial message by network to the first electronic equipment.That is, the second electronic equipment except return to the first electronic equipment directly can regulate image acquisition units the second parameter except, the tutorial message for adjusting composition can also be returned.

Specifically, in the database of the first electronic equipment, also store the information relevant to composition, and the corresponding relation of image and composition.By the analysis to the first parameter, the composition information corresponding with the first parameter can be determined in the information of database, and then generate tutorial message, and tutorial message is sent to the first electronic equipment by cordless communication network.In actual applications, can also sample picture be returned, make that user is open-and-shut knows mode of composition.

For example, the mode of composition stored in database has multiple, comprising: nine grids composition, guide line composition, diagonal composition, frame-type composition, triangle composition, close-coupled composition, prospect virtualization, background blurring or regulate depth of field etc.Dissimilar image can use different modes of composition, such as, can use when clapping landscape use when nine grids composition, shooting personage background blurring etc.After second electronic equipment receives the first parameter, determine that photographic subjects is higher building according to the first parameter information, then similar building image is obtained in a database, the best mode of composition determined is diagonal composition, i.e. below picture first jiao of the bottom of building, above picture with first jiao catercorner second jiao, the top of corresponding building.Second electronic equipment determines tutorial message according to diagonal composition, also shooting skill is comprised in tutorial message, namely mode of composition how is made to be diagonal, in this example, instruct the tutorial message of composition to be: " your shooting be building; suggestion uses the mode pictures taken of diagonal composition; please avoid in larger distance with the angle shot close to level; would you please come into building; take with the gimmick of facing upward bat; squat down with the angle of 45 degree to take building, making it seem higher more has imposing manner.Remarks: diagonal composition can be used for clapping personage, scenery, can realize taller and bigger, to have imposing manner shooting effect." wherein, the building picture of acquisition can also be sent to the first electronic equipment by the second electronic equipment together with tutorial message.If the first parameter comprises preview image, can also process preview image, such as on preview image, add arrow, the first arrow of sensing first jiao is generated in the bottom of building, generate the second arrow of sensing second jiao at the top of building, and the preview image after process is sent to the first electronic equipment together with tutorial message.

Accordingly, in the first electronic equipment side, after step 102, method also comprises: receive the tutorial message that the second electronic equipment is sent by network, the display unit of the first electronic equipment shows tutorial message, enables user adjust composition according to tutorial message.Specifically, after receiving tutorial message, the Word message in tutorial message may be displayed on display unit, also can display the play out by voice, enable user know composition skill.Sample picture in tutorial message or the preview image after processing may be displayed on display unit, make the open-and-shut understanding mode of composition of user and shooting effect.

Optionally, in the first electronic equipment side, after step 104, method also comprises: obtain the first image that image acquisition units gathers, obtain the 4th parameter during collection the first image, wherein the 4th parameter is one or more in current environment parameter, the current shooting parameter of image acquisition units and the hardware parameter of image acquisition units, sends the first image and the 4th parameter by network to the second electronic equipment.In order to the database of abundant second electronic equipment, after the first electronic equipment gathers image, the relevant parameter by the first image gathered and when gathering the first image uploads to the second electronic equipment.

Specifically, when image acquisition units gathers image, obtain the first image collected, gather and relevant the 4th parameter of acquisition the first image, the 4th parameter is one or more in current environment parameter, the current shooting parameter of image acquisition units and the hardware parameter of image acquisition units simultaneously.Wherein, current environment parameter, comprises at least one in location parameter, seashore height, shooting angle, shooting direction, time, intensity of illumination, temperature, humidity, air visibility and haze index.The current shooting parameter of image acquisition units comprises at least one in aperture, aperture time, white balance, contrast, focal length, ISO photosensitivity, acutance and saturation.After having gathered the 4th parameter, the first image and the 4th parameter have been sent to the second electronic equipment by cordless communication network by the first electronic equipment.

In the second electronic equipment side, after step 203, method also comprises: the first image and the 4th parameter that receive the first electronic equipment transmission, when the first image meets pre-conditioned, according to the 4th parameter determination acquisition parameters, the corresponding relation of the first image and acquisition parameters is preserved in a database.

Specifically, after the first electronic equipment receives data, the picture quality judging the first image is needed whether to meet the demands.The information such as the image quality of the first image, mode of composition and color effect determined by second electronic equipment, and then the picture quality of assessment the first image.When the quality of the first image satisfies the demands, the 4th parameter is resolved, obtain the acquisition parameters in the 4th parameter, and preserve the corresponding relation of the first image and acquisition parameters in a database.In actual applications, when determining that according to the first parameter the mode of the second parameter is different, the different data in the 4th parameter can be preserved, such as, when environmentally parameter determines acquisition parameters to the second electronic equipment, then the corresponding relation of Conservation environment parameter and the 4th parameter.

In embodiments of the present invention, when the first electronic equipment gathers image, obtain first parameter relevant to IMAQ, uploaded to the second electronic equipment.Second electronic equipment obtains second parameter corresponding with the first parameter, and turn back to the first electronic equipment, enable the first electronic equipment according to the acquisition parameters of the second parameter adjustment image acquisition units, and the second electronic equipment can also return the tutorial message instructing composition.Enable user obtain best acquisition parameters and mode of composition, reach the technique effect obtaining the more excellent image of quality.After collecting the first image, the first image and the 4th relevant parameter are uploaded to the second electronic equipment by the first electronic equipment, to increase the information of the database purchase of the second electronic equipment, can reach the technique effect enriching database.

Embodiment two

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 3, and described electronic equipment comprises:

Image acquisition units 301;

Processor 302, for when carrying out IMAQ by image acquisition units 301, obtains the first parameter, and wherein, described first parameter is relevant to IMAQ;

Reflector 303, for being sent described first parameter by network to the second electronic equipment, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of image acquisition units 301;

Receiver 304, for receiving described second parameter that described second electronic equipment is returned by described network;

Described processor also for: regulate described acquisition parameters according to described second parameter and control image acquisition units 301 and carry out IMAQ.

Specifically, processor 302 can be specifically general central processing unit (CPU), can be that ASIC(Application Specific Integrated Circuit) is (English: ApplicationSpecificIntegratedCircuit, being called for short: ASIC), can be one or more integrated circuits performed for control program.

Further, described electronic equipment can also comprise memory, and the quantity of memory can be one or more.Memory can comprise read-only memory (English: ReadOnlyMemory, be called for short: ROM), random access memory (English: RandomAccessMemory, RAM) and magnetic disc store be called for short:.

Optionally, described electronic equipment also comprises display unit, receiver 304 also for:

Described display unit is used for: show described tutorial message, enables user according to described tutorial message adjustment composition.

Optionally, receiver 304 also for:

Processor 302 also for: obtain described 3rd parameter according to described parameter request;

Reflector 303 also for: by described network to described second electronic equipment send described 3rd parameter, make described second electronic equipment can determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, processor 302 also for:

Regulate described acquisition parameters according to described second parameter described and after carrying out IMAQ, obtain the first image that described image acquisition units gathers;

Reflector 303 also for: send described first image and described 4th parameter by described network to described second electronic equipment.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to specification, be not described in detail in this.

Embodiment three

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 4, and described electronic equipment comprises:

Receiver 401, for receiving the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

Processor 402, for determining the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

Reflector 403, for sending described second parameter by described network to described first electronic equipment.

Specifically, processor can be specifically general central processing unit (CPU), can be that ASIC(Application Specific Integrated Circuit) is (English: ApplicationSpecificIntegratedCircuit, being called for short: ASIC), can be one or more integrated circuits performed for control program.In embodiments of the present invention, store mass data in electronic equipment, processor 402 has the ability of process mass data.

Further, described electronic equipment can also comprise memory, and the quantity of memory can be one or more.Memory can be the memory in high in the clouds, can comprise read-only memory (English: ReadOnlyMemory, be called for short: ROM), random access memory (English: RandomAccessMemory, RAM) and magnetic disc store be called for short:.Specifically, in embodiments of the present invention, a large amount of data relevant to IMAQ are stored in memory, comprising the image taken in all parts of the world, and this image collected time various environmental parameter and acquisition parameters, and the corresponding relation between environmental parameter and acquisition parameters.

Optionally, processor 402 also for:

Reflector 403 also for: when described second parameter can not be determined according to described first parameter, by described network to the parameter request of described first electronic equipment transmission for asking the 3rd parameter, wherein, the parameter also needed when described 3rd parameter is and determines described second parameter;

Receiver 401 also for: by the 3rd parameter described in described network reception;

Processor 402 also for: determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, processor 402 for:

The second parameter is determined based on described acquisition parameters.

Optionally, processor 402 for:

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

Optionally, processor 402 also for:

Reflector 403 also for: by described network to described first electronic equipment send described second tutorial message.

Optionally, receiver 401 also for:

Processor 402 also for: when described first image meets pre-conditioned, according to described 4th parameter determination acquisition parameters;

Embodiment four

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 5, and described electronic equipment comprises:

First acquisition module 501, for when the image acquisition units by the first electronic equipment carries out IMAQ, obtains the first parameter, and wherein, described first parameter is relevant to IMAQ;

First sending module 502, for being sent described first parameter by network to the second electronic equipment, make described second electronic equipment can determine the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described image acquisition units;

First receiver module 503, for receiving described second parameter that described second electronic equipment is returned by described network;

First acquisition module 504, for regulating described acquisition parameters according to described second parameter and carrying out IMAQ.

Optionally, described electronic equipment also comprises the second receiver module and the first display module, and described second receiver module is used for:

Described first display module for: on the display unit of described first electronic equipment, show described tutorial message, enable user according to described tutorial message adjustment composition.

Optionally, described electronic equipment also comprises the 3rd receiver module, the second acquisition module and the second sending module, and described 3rd receiver module is used for:

Described second acquisition module is used for: obtain described 3rd parameter according to described parameter request;

Described second sending module is used for: send described 3rd parameter by described network to described second electronic equipment, make described second electronic equipment can determine described second parameter according to described first parameter and described 3rd parameter.

Optionally, described electronic equipment also comprises the 3rd acquisition module, the 4th acquisition module and the 3rd sending module, and described 3rd acquisition module is used for:

Described 4th acquisition module is used for: obtain the 4th parameter when gathering described first image, and wherein said 4th parameter is one or more in current environment parameter, the current shooting parameter of described image acquisition units and the hardware parameter of described image acquisition units;

Described 3rd sending module is used for: send described first image and described 4th parameter by described network to described second electronic equipment.

Embodiment five

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 6, and described electronic equipment comprises:

First receiver module 601, for receiving the first parameter that the first electronic equipment is sent by network, wherein, parameter relevant when described first parameter is described first electronic equipment collection image;

First determination module 602, for determining the second parameter according to described first parameter, wherein, described second parameter is for regulating the acquisition parameters of described first electronic equipment;

First sending module 603, for sending described second parameter by described network to described first electronic equipment.

Optionally, described electronic equipment also comprises the first judge module, the second sending module, the second receiver module and the second determination module, and described first judge module is used for:

Described second sending module is used for: when not determining described second parameter according to described first parameter, by described network to the parameter request of described first electronic equipment transmission for asking the 3rd parameter, wherein, the parameter also needed when described 3rd parameter is and determines described second parameter;

Described second receiver module is used for: by the 3rd parameter described in described network reception;

Described second determination module is used for: determine described second parameter according to described first parameter and described 3rd parameter.

Further, the first determination module 602 for:

The second parameter is determined based on described acquisition parameters.

Further, the first determination module 602 for:

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

Optionally, described electronic equipment also comprises the 3rd determination module and the 3rd sending module, and described 3rd determination module is used for:

Described 3rd sending module is used for: send described second tutorial message by described network to described first electronic equipment.

Optionally, described electronic equipment also comprises the 3rd receiver module, the 4th determination module and first preserves module, and described 3rd receiver module is used for:

Described 4th determination module is used for: when described first image meets pre-conditioned, according to described 4th parameter determination acquisition parameters;

Described first preserves module is used for: preserved in a database by the corresponding relation of described first image and described acquisition parameters.

By the one or more technical schemes in the embodiment of the present invention, following one or more technique effect can be realized:

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable device, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable device is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Specifically, the computer program instructions that information processing method in the embodiment of the present invention is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

In embodiments of the present invention, on the one hand, in the first electronic equipment, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: describedly send described first parameter by network and be performed after the second electronic equipment, comprise the steps: in implementation

Described 3rd parameter is obtained according to described parameter request;

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: describedly regulate described acquisition parameters according to described second parameter and be performed after carrying out IMAQ, comprising the steps: in implementation

Obtain the first image that described image acquisition units gathers;

On the other hand, in the second electronic equipment, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: be performed after the first parameter that described reception first electronic equipment is sent by network, comprise the steps: in implementation

By the 3rd parameter described in described network reception;

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions is performed when the first parameter comprises the environmental parameter residing for described first electronic equipment, store in described storage medium with step: determine that computer program instructions corresponding to the second parameter is when being performed, and specifically comprises the steps: according to described first parameter

The second parameter is determined based on described acquisition parameters.

Optionally, other computer program instructions is also stored in described storage medium, the preview image that this other computer program instructions comprises described image acquisition units collection in the first parameter is performed, store in described storage medium with step: determine that computer program instructions corresponding to the second parameter is when being performed, and specifically comprises the steps: according to described first parameter

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

Optionally, in described storage medium, also store other computer program instructions, this other computer program instructions with step: described determine the second parameter according to described first parameter after be performed, comprise the steps: in implementation

Optionally, in described storage medium, also store other computer program instructions, this other computer program instructions with step: to be describedly performed after described first electronic equipment sends described second parameter, to comprise the steps: in implementation

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. an information processing method, comprising:

2. the method for claim 1, is characterized in that, described send described first parameter to the second electronic equipment by network after, described method also comprises:

3. the method for claim 1, is characterized in that, described send described first parameter to the second electronic equipment by network after, described method also comprises:

Described 3rd parameter is obtained according to described parameter request;

4. the method for claim 1, is characterized in that, regulates described acquisition parameters and after carrying out IMAQ, described method also comprises described according to described second parameter:

Obtain the first image that described image acquisition units gathers;

5. an information processing method, comprising:

6. method as claimed in claim 5, it is characterized in that, after the first parameter that described reception first electronic equipment is sent by network, described method also comprises:

By the 3rd parameter described in described network reception;

7. method as claimed in claim 5, it is characterized in that, described first parameter comprises the environmental parameter residing for described first electronic equipment, describedly determines the second parameter according to described first parameter, comprising:

The second parameter is determined based on described acquisition parameters.

8. method as claimed in claim 5, is characterized in that, described first parameter comprises the preview image that described image acquisition units gathers, and describedly determines the second parameter according to described first parameter, comprising:

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

9. method as claimed in claim 5, is characterized in that, described determine the second parameter according to described first parameter after, described method also comprises:

10. method as claimed in claim 5, is characterized in that, described after described second parameter of described first electronic equipment transmission, described method also comprises:

11. 1 kinds of electronic equipments, comprising:

Image acquisition units;

12. electronic equipments as claimed in claim 11, it is characterized in that, described electronic equipment also comprises display unit,

Described receiver also for: described send described first parameter to the second electronic equipment by network after, receive the tutorial message that described second electronic equipment is sent by described network;

13. electronic equipments as claimed in claim 11, is characterized in that, described receiver also for:

14. electronic equipments as claimed in claim 11, is characterized in that, described processor also for:

15. 1 kinds of electronic equipments, comprising:

16. electronic equipments as claimed in claim 15, is characterized in that, described processor also for:

17. electronic equipments as claimed in claim 15, it is characterized in that, described processor is used for:

The second parameter is determined based on described acquisition parameters.

18. electronic equipments as claimed in claim 15, it is characterized in that, described processor is used for:

Obtain the acquisition parameters corresponding with described first image;

The second parameter is determined based on described acquisition parameters.

19. electronic equipments as claimed in claim 15, is characterized in that, described processor also for:

20. electronic equipments as claimed in claim 15, is characterized in that, described receiver also for:

21. 1 kinds of electronic equipments, comprising:

22. 1 kinds of electronic equipments, comprising: