CN104125397A - Data processing method and electronic equipment - Google Patents

Abstract

The invention discloses a data processing method and electronic equipment. The method is applied to the electronic equipment. The electronic equipment comprises an infrared sensing unit, an image acquisition unit and a display unit. The method comprises the following steps: acquiring a first image of a current scene through the image acquisition unit; triggering the infrared sensing unit to perform image acquisition in order to generate a first command; acquiring a second image of the current scene through the infrared sensing unit in response to the first command, wherein the second image is a thermally-generated image; acquiring the first image of the current scene and the second image of the current scene, combining the two images to obtain a target object, wherein the target object is used for representing a synthetic image obtained by overlapping the first image of the current scene on the second image of the current scene, and temperature information obtained on the basis of a first infrared parameter in the second image can be displayed on the target object; displaying the target object through the display unit.

Description

A kind of data processing method and electronic equipment

Technical field

The present invention relates to mechanics of communication, relate in particular to a kind of data processing method and electronic equipment.

Background technology

Present inventor is realizing in the process of the embodiment of the present application technical scheme, at least finds to exist in correlation technique following technical problem:

Now a lot of electronic equipments, particularly popular portable user, as panel computer, smart mobile phone, personal digital assistant (PDA) etc., most of temp sensing function can support to make a video recording time, below describes for example as an example of mobile phone example.

Existing scheme one: a kind of mobile phone with temp sensing function carrys out measures ambient temperature by external sensor, and ambient temperature is presented on mobile phone.Adopt this programme, owing to need to connect extra transducer on mobile phone, therefore, can increase too much cost, use also inconvenience, and measurement result is simple.Measurement result is mainly the simple temperature that shows, is generally the simple numerical value of this class of ambient temperature, such as 70 DEG C, measures efficiency single, can only on mobile phone, show simply this information of ambient temperature, can not show other relevant informations.

Existing scheme two: a kind of Thermo mobile telephone with infrared induction, adopt built-in infrared transducer to respond to and carry out test environment temperature, built-in infrared transducer can be integrated on cell phone mainboard.Adopt this programme, respond to owing to adopting built-in infrared transducer, therefore, without connect extra transducer on mobile phone, can not increase too much cost, be beneficial to use, but this Thermo mobile telephone with infrared induction can only show the thermometric picture of low pixel and comprise monochromatic temperature, monochromatic temperature adopts specific color to represent a certain temperature, such as conventionally representing specific monochromatic temperature by several colors, as red, Huang, the blue different temperature value etc. that represents respectively, the demonstration of temperature value is not directly perceived, is not easy to user and checks.

In sum, adopt prior art, support that the electronic equipment of temp sensing function can only be at this single piece of information of the viewing area of electronic equipment displays temperature value, and for the demonstration of multiple temperature values, the demonstration of temperature value is not directly perceived, is not easy to user and checks.In correlation technique, for this problem, there is no effective solution.

Summary of the invention

In view of this, the embodiment of the present invention is desirable to provide a kind of data processing method and electronic equipment, can show the many information including temperature value, and for the demonstration of multiple temperature values, the intuitive display of temperature value, is convenient to user and checks at any time.

The technical scheme of the embodiment of the present invention is achieved in that

A kind of data processing method, described method is applied in electronic equipment, and described electronic equipment comprises infrared sensing unit, image acquisition units and display unit, and described method comprises:

Gather the first image of current scene by described image acquisition units;

Trigger described infrared sensing unit and carry out IMAQ, generate the first instruction;

Respond described the first instruction, gather the second image of described current scene by described infrared sensing unit, described the second image is hot synthetic image;

Obtain the first image of described current scene and the second image of described current scene and synthesize, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Show described destination object by described display unit.

Preferably, the described infrared sensing of described triggering unit carries out IMAQ, comprising:

Judge that system resource occupancy, whether lower than the first preset value, obtains a judged result;

If described judged result is yes, triggers immediately described infrared sensing unit and carry out IMAQ;

If described judged result is no, described in delayed trigger, infrared sensing unit carries out IMAQ.

Preferably, described method also comprises:

Gather the first image of current scene by described image acquisition units after, based on a preset rules, the first image of described current scene is divided into N the first subimage; Described N is greater than 1 natural number;

Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

Preferably, describedly show that by described display unit described destination object specifically comprises:

Described destination object is cut apart demonstration according to described preset rules with gridding form, is split into N target sub-object, and in each grid, shows a target sub-object;

N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

Receive the second user's operation that is directed to arbitrary target sub-object at display unit;

Respond described second user's operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

Preferably, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.

A kind of electronic equipment, described electronic equipment comprises:

Image acquisition units, for gathering the first image of current scene;

Trigger element, carries out IMAQ for triggering described infrared sensing unit, generates the first instruction;

Infrared sensing unit, for responding described the first instruction, gathers the second image of described current scene, and described the second image is hot synthetic image;

Processing unit, for obtaining the first image of described current scene and the second image of described current scene and synthesizing, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Display unit, for showing described destination object.

Preferably, described trigger element, specifically comprises:

Judgment sub-unit, for judging that system resource occupancy, whether lower than the first preset value, obtains a judged result;

Trigger and carry out subelement,, trigger immediately described infrared sensing unit and carry out IMAQ when being for described judged result, and described judged result is while being no, infrared sensing unit carries out IMAQ described in delayed trigger.

Preferably, described electronic equipment also comprises:

Image split cells, after gathering the first image of current scene by described image acquisition units, is divided into N the first subimage based on a preset rules by the first image of described current scene; Described N is greater than 1 natural number; Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules;

Described processing unit, specifically for obtaining described N the first subimage and described N the second subimage and synthesizing to obtain described destination object, described destination object is described composograph, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

Preferably, described display unit, specifically for:

Described destination object is cut apart to demonstration according to described preset rules with gridding form, be split into N target sub-object, and in each grid, show a target sub-object; N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

And, receive the second user's operation that is directed to arbitrary target sub-object, respond described second user's operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

Preferably, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.

The data processing method of the embodiment of the present invention comprises: the first image that gathers current scene by described image acquisition units; Trigger described infrared sensing unit and carry out IMAQ, generate the first instruction; Respond described the first instruction, gather the second image of described current scene by described infrared sensing unit, described the second image is hot synthetic image; Obtain the first image of described current scene and the second image of described current scene and synthesize, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains; Show described destination object by described display unit.

Adopt the embodiment of the present invention, can gather by described image acquisition units the first image of current scene, gather the second image of described current scene by described infrared sensing unit, the first image and the second image are synthesized, obtain destination object, destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains, offering user by display unit watches, thereby, can show the many information including temperature value, and for the demonstration of multiple temperature values, the intuitive display of temperature value, being convenient to user checks at any time.

Brief description of the drawings

Fig. 1 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 2 is the schematic diagram with the embodiment of the present invention one application scenarios;

Fig. 3 is a realization flow schematic diagram of the inventive method embodiment;

Fig. 4 is the realization flow figure that shows described destination object;

Fig. 5 is a composition structural representation of electronic equipment embodiment of the present invention;

Fig. 6 is a composition structural representation of electronic equipment embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the enforcement of technical scheme is described in further detail.

Embodiment of the method one:

A kind of data processing method of the embodiment of the present invention, described method is applied in electronic equipment, and described electronic equipment comprises infrared sensing unit, image acquisition units and display unit, and as described in Figure 1, described method comprises:

Step 101, gather the first image of current scene by described image acquisition units;

Step 102, trigger described infrared sensing unit and carry out IMAQ, generate the first instruction;

Step 103, respond described the first instruction, gather the second image of described current scene by described infrared sensing unit, described the second image is hot synthetic image;

Step 104, obtain the first image of described current scene and the second image of described current scene and synthesize, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Step 105, show described destination object by described display unit.

Adopt the embodiment of the present invention, can be by the first image of described image acquisition units collection current scene by 101; Can trigger described infrared sensing unit by step 102-103 and carry out IMAQ, generate the first instruction, respond described the first instruction, gather the second image of described current scene by described infrared sensing unit; Can synthesize the first image and the second image by step 104, obtain destination object, destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains; Can finally synthetic destination object be offered to user by display unit by step 105 watches, on destination object, can show the temperature information that the first IR parameters based in described the second image obtains, thereby, can show the many information including temperature information, and for the demonstration of multiple temperature informations, the demonstration of temperature information is superimposed upon on corresponding image, can be directly perceived, and be convenient to user and check at any time.

Be an application scenarios of example taking electronic equipment as mobile phone, the embodiment of the present invention be described as follows:

Resolution ratio of camera head on mobile phone is more and more higher, and mobile phone can built-in infrared transducer; In the situation that utilizing mobile phone camera to take pictures, the infrared sensor of mobile phone is Heat of Formation image simultaneously, processes through CPU, and camera is taken pictures and is presented in real time the shot region of mobile phone after picture and thermograph stack, as shown in Figure 2, the CPU integrated image processing capacity here.

Can also have another kind of mode, change CPU into image processor, through the image processor of mobile phone camera, or it is synthetic that the image processor arranging separately carries out image, obtains composograph.In such cases, to when mobile phone camera is taken a picture, infrared sensor is Heat of Formation image simultaneously, two real-time synchronous transmission of picture arrive image processor, through image overlap-add procedure, on LCD, show, user can click arbitrary region on LCD of mobile phone screen, checks the temperature information of institute's click on area.

Mobile phone camera resolution is more and more higher at present, and LCD of mobile phone display screen size is used for greatly, adopts the embodiment of the present invention, and user can directly read the temperature of arbitrary region on mobile phone high definition LCD display curtain, and convenient succinct, visuality improves greatly; Meanwhile, after cellphone subscriber takes pictures, image and temperature parameter are preserved simultaneously, user can be in the time of picture browsing, scene temperature information while reading picture shooting, from the time opening camera and take pictures or make a video recording, random demonstration that can be real-time captures the temperature of institute's shot region; Can be on high-definition image displays temperature, improve visual effect.

Certainly, except showing multiple temperature informations, the application embodiment of the present invention, can also show the target information to be shown of extra increase, as weather, personage, the information such as navigation, these non-temperature informations also can be preserved simultaneously, as the material of composograph so that according to user need composograph for show.

Embodiment of the method two:

A kind of data processing method of the embodiment of the present invention, described method is applied in electronic equipment, and described electronic equipment comprises infrared sensing unit, image acquisition units and display unit, and as described in Figure 3, described method comprises:

Step 201, gather the first image of current scene by described image acquisition units;

Step 202, judge that system resource occupancy, whether lower than the first preset value, obtains a judged result, if judged result is yes, perform step 203; Otherwise, execution step 204;

Step 203, trigger described infrared sensing unit immediately and carry out IMAQ; Proceed to execution step 205;

Described in step 204, delayed trigger, infrared sensing unit carries out IMAQ;

Step 205, generation the first instruction;

Step 206, respond described the first instruction, gather the second image of described current scene by described infrared sensing unit, described the second image is hot synthetic image;

Step 207, obtain the first image of described current scene and the second image of described current scene and synthesize, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Step 208, show described destination object by described display unit.

Adopt the embodiment of the present invention, can be by the first image of described image acquisition units collection current scene by 201; Can judge that by step 202-205 whether system resource occupancy is lower than the first preset value, the judged result obtaining determines whether triggering immediately described infrared sensing unit and carries out IMAQ, to generate the first instruction; Can respond described the first instruction by step 206, gather the second image of described current scene by described infrared sensing unit; Can synthesize the first image and the second image by step 207, obtain destination object, destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains; Can finally synthetic destination object be offered to user by display unit by step 208 watches, on destination object, can show the temperature information that the first IR parameters based in described the second image obtains, thereby, can show the many information including temperature information, and for the demonstration of multiple temperature informations, the demonstration of temperature information is superimposed upon on corresponding image, can be directly perceived, and be convenient to user and check at any time.

In the embodiment of the present invention one preferred implementation, described method also comprises:

Gather the first image of current scene by described image acquisition units after, based on a preset rules, the first image of described current scene is divided into N the first subimage; Described N is greater than 1 natural number;

Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

Based on said method embodiment mono-, two and above-mentioned preferred implementation, show described destination object by described display unit, as shown in Figure 4, specifically comprise:

Step 401, described destination object are cut apart demonstration according to described preset rules with gridding form, are split into N target sub-object, and in each grid, show a target sub-object;

Here, N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

Step 402, receive the second user operation that is directed to arbitrary target sub-object at display unit;

Step 403, respond described the second user operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

In the embodiment of the present invention one optimal way, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.

Here it is to be noted: the description of following electronic equipment item, describing with said method is similarly, describes with the beneficial effect of method, does not repeat.For the ins and outs that do not disclose in electronic equipment embodiment of the present invention, please refer to the description of the inventive method embodiment.

Electronic equipment embodiment mono-:

A kind of electronic equipment of the embodiment of the present invention, as shown in Figure 5, described electronic equipment comprises:

Image acquisition units 11, for gathering the first image of current scene;

Trigger element 12, carries out IMAQ for triggering described infrared sensing unit, generates the first instruction;

Infrared sensing unit 13, for responding described the first instruction, gathers the second image of described current scene, and described the second image is hot synthetic image;

Processing unit 14, for obtaining the first image of described current scene and the second image of described current scene and synthesizing, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Display unit 15, for showing described destination object.

Electronic equipment embodiment bis-:

A kind of electronic equipment of the embodiment of the present invention, as shown in Figure 6, described electronic equipment comprises:

Image acquisition units 11, for gathering the first image of current scene;

Trigger element 12, specifically comprises: subelement 122 is carried out in judgment sub-unit 121 and triggering, and wherein, judgment sub-unit 121 is for judging that system resource occupancy, whether lower than the first preset value, obtains a judged result; Trigger and carry out subelement 122,, trigger immediately described infrared sensing unit and carry out IMAQ when being for described judged result, and described judged result is while being no, infrared sensing unit carries out IMAQ described in delayed trigger; Trigger described infrared sensing unit and carry out after IMAQ, generate the first instruction;

Infrared sensing unit 13, for responding described the first instruction, gathers the second image of described current scene, and described the second image is hot synthetic image;

Processing unit 14, for obtaining the first image of described current scene and the second image of described current scene and synthesizing, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Display unit 15, for showing described destination object.

In the embodiment of the present invention one preferred implementation, described electronic equipment also comprises:

Image split cells, after gathering the first image of current scene by described image acquisition units, is divided into N the first subimage based on a preset rules by the first image of described current scene; Described N is greater than 1 natural number; Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules;

Described processing unit, specifically for obtaining described N the first subimage and described N the second subimage and synthesizing to obtain described destination object, described destination object is described composograph, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

Based on above-mentioned electronic equipment embodiment mono-, two and above-mentioned preferred implementation, described display unit, specifically for:

Described destination object is cut apart to demonstration according to described preset rules with gridding form, be split into N target sub-object, and in each grid, show a target sub-object; N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

And, receive the second user's operation that is directed to arbitrary target sub-object, respond described second user's operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

In the embodiment of the present invention one optimal way, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.

In the several embodiment that provide in the application, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, for example, the division of described unit, be only that a kind of logic function is divided, when actual realization, can there is other dividing mode, as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can ignore, or do not carry out.In addition, the coupling each other of shown or discussed each part or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit as separating component explanation can or can not be also physically to separate, and the parts that show as unit can be or can not be also physical locations, can be positioned at a place, also can be distributed in multiple network element; Can select according to the actual needs part or all of unit wherein to realize the object of the present embodiment scheme.

In addition, the each functional unit in various embodiments of the present invention can all be integrated in a processing unit, can be also that each unit is distinguished separately as a unit, also can be integrated in a unit two or more unit; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that also can adopt hardware to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can complete by the relevant hardware of program command, aforesaid program can be stored in a computer read/write memory medium, this program, in the time carrying out, is carried out the step that comprises said method embodiment; And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.

Or, if the above-mentioned integrated unit of the present invention is realized and during as production marketing independently or use, also can be stored in a computer read/write memory medium using the form of software function module.Based on such understanding, the part that the technical scheme of the embodiment of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in a storage medium, comprises that some instructions are in order to make a computer equipment (can be personal computer, server or the network equipment etc.) carry out all or part of of method described in the present invention each embodiment.And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims (10)

1. a data processing method, described method is applied in electronic equipment, and described electronic equipment comprises infrared sensing unit, image acquisition units and display unit, and described method comprises:

Gather the first image of current scene by described image acquisition units;

Trigger described infrared sensing unit and carry out IMAQ, generate the first instruction;

Respond described the first instruction, gather the second image of described current scene by described infrared sensing unit, described the second image is hot synthetic image;

Obtain the first image of described current scene and the second image of described current scene and synthesize, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Show described destination object by described display unit.

2. method according to claim 1, the described infrared sensing of described triggering unit carries out IMAQ, comprising:

Judge that system resource occupancy, whether lower than the first preset value, obtains a judged result;

If described judged result is yes, triggers immediately described infrared sensing unit and carry out IMAQ;

If described judged result is no, described in delayed trigger, infrared sensing unit carries out IMAQ.

3. according to the method described in claim 1 to 2 any one, described method also comprises:

Gather the first image of current scene by described image acquisition units after, based on a preset rules, the first image of described current scene is divided into N the first subimage; Described N is greater than 1 natural number;

Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

4. method according to claim 3, describedly shows that by described display unit described destination object specifically comprises:

Described destination object is cut apart demonstration according to described preset rules with gridding form, is split into N target sub-object, and in each grid, shows a target sub-object;

N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

Receive the second user's operation that is directed to arbitrary target sub-object at display unit;

Respond described second user's operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

5. method according to claim 1, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.

6. an electronic equipment, described electronic equipment comprises:

Image acquisition units, for gathering the first image of current scene;

Trigger element, carries out IMAQ for triggering described infrared sensing unit, generates the first instruction;

Infrared sensing unit, for responding described the first instruction, gathers the second image of described current scene, and described the second image is hot synthetic image;

Processing unit, for obtaining the first image of described current scene and the second image of described current scene and synthesizing, obtain destination object, described destination object is superimposed with the composograph that the second image of described current scene obtains on the first image of described current scene for being characterized in, and on described destination object, can show the temperature information that the first IR parameters based in described the second image obtains;

Display unit, for showing described destination object.

7. electronic equipment according to claim 6, described trigger element, specifically comprises:

Judgment sub-unit, for judging that system resource occupancy, whether lower than the first preset value, obtains a judged result;

Trigger and carry out subelement,, trigger immediately described infrared sensing unit and carry out IMAQ when being for described judged result, and described judged result is while being no, infrared sensing unit carries out IMAQ described in delayed trigger.

8. according to the electronic equipment described in claim 6 to 7 any one, described electronic equipment also comprises:

Image split cells, after gathering the first image of current scene by described image acquisition units, is divided into N the first subimage based on a preset rules by the first image of described current scene; Described N is greater than 1 natural number; Accordingly, the second image of described current scene is divided into N the second subimage based on described preset rules;

Described processing unit, specifically for obtaining described N the first subimage and described N the second subimage and synthesizing to obtain described destination object, described destination object is described composograph, and according to described N the second subimage respectively corresponding the first IR parameters obtain N temperature information, a described N temperature information can be presented on the corresponding region being made up of individual the first subimage of described N and individual the second subimage of described N on described composograph;

Between described N the first subimage, described N the second subimage and N temperature information, possess mapping relations and corresponding preservation.

9. electronic equipment according to claim 8, described display unit, specifically for:

Described destination object is cut apart to demonstration according to described preset rules with gridding form, be split into N target sub-object, and in each grid, show a target sub-object; N target sub-object is corresponding with the corresponding region being made up of described N the first subimage and individual the second subimage of described N on described composograph;

And, receive the second user's operation that is directed to arbitrary target sub-object, respond described second user's operation, obtain a corresponding temperature information according to described mapping relations; The described temperature information that Overlapping display obtains in described target sub-object.

10. electronic equipment according to claim 6, described the first IR parameters comprises: surface radiation temperature parameter, object radiation temperature parameter and/or environmental radiation temperature parameter.