CN102254078A - Multifunctional carbon footprint calculation terminal and implementation method thereof - Google Patents

Abstract

The invention provides a multifunctional carbon footprint calculation terminal and an implementation method thereof, and belongs to the technical field of energy conservation and environmental protection. The system comprises a carbon footprint mode module, a camera device, a camera data transmission structure, a data analysis rule module, a data processor and an energy-saving mode output module. By utilizing the terminal, the carbon footprint state of a target object can be acquired conveniently. The implementation method comprises the following steps: photographing a target environment to acquire the carbon footprint state of the target object after analysis and identification; and on the other hand, acquiring a recommended energy-saving mode corresponding to the target environment, and outputting the recommended energy-saving mode to a user. Therefore, the user can quickly identify the carbon footprint information of various objects of services, energy-saving and environmentally-friendly information and a recommended energy-saving and environmentally-friendly solution.

Description

A kind of multi-functional carbon footprint computing terminal and its implementation

Technical field

The present invention relates to the energy-conserving and environment-protective technical field, relate in particular to a kind of carbon footprint computing terminal and its implementation.

Background technology

The current energy and environmental issue form are very severe.The CO2 emissions in the whole world are sharply soaring, and various pollution problems, energy problem emerge in an endless stream.At present, our employed energy form still is the fossil fuel based on coal and oil.Gradually reducing of fossil fuel, and the environmental pollution that caused after burning of huge fossil fuel amount have become the severeest problem that the whole mankind faces.Under such objective environment, the whole world is all more suitable in research, effectively utilize the mode of the energy more.Wherein, the best mode of utilizing the energy is exactly an energy savings more.Wherein, calculating by the carbon footprint, may be present most basic technology.

Knowledge as a setting, the calculating of carbon footprint has two kinds of methods:

First kind, utilize LCA (LCA) method (this method is more accurate also more specifically);

Second kind is to calculate (this method is more general) by employed energy mineral fuel discharge capacity.

With your the carbon footprint of car as an example: first method can be estimated all carbon emission amounts, from the manufacturing (comprise and make all metal, plastics, glass and other materials of automobile) of automobile, drives and Wagon for medical treatment.The carbon emission amount of used fossil fuel when second method is then only calculated manufacturing, driving and Wagon for medical treatment.

Give an example at present energy consumption situation.

Present construction style is to use an aspect of energy maximum, and in the world, the energy resource consumption relevant with building accounts for about 30 to 40 percent of global total energy consumption.And other instrument or place, also consume huge energy, such as, the various vehicles.The buildings that how to make people live or work is more energy-conservation, and particularly the vehicles are more energy-conservation to make employed at ordinary times various tool, are the emphasis that present people are seeking always.But these aspects need a lot of professional knowledge.Such as, energy saving building just needs special energy-saving design, and use corresponding energy-saving material, circuit of being laid and electrical equipment also need to adopt energy-conservation form, the discharging of air and adjusting, also need to adopt energy-conservation form, various electrical equipment use, and equally also need to adopt energy-conservation form to realize.Because the object that we ran into is very complicated, in this case,, be very difficult if seek out a power save mode very efficiently.And, also need very many professional knowledge usually.

On the other hand, for existing tangible products, such as the house that builds up for many years, how the automobile of having bought makes its energy-saving and environmental protection more by transformation; Perhaps, the user wishes to understand the carbon footprint of an own product of being bought, and, might form in the future so situation fully: the user is when buying certain products or specific service, all might investigate and the amount of the carbon footprint that this product is associated, thereby judge the whether environmental protection, whether energy-conservation of this product, in this case, the huge general public of quantity has this great demand, but does not have this ability to go to obtain relevant information.

In view of the foregoing, based on developing rapidly of field of image recognition in recent years, the present invention wishes to adopt a kind of technology type easily exactly, can allow the user discern various article fast, perhaps Fu Wu energy-conserving and environment-protective information, the solution of the energy-conserving and environment-protective aspect that matches with it further, can also be provided according to user's demand.

Summary of the invention

The purpose of this invention is to provide a kind of multi-functional carbon footprint computing terminal and its implementation, in order to a kind of computing terminal that can utilize the mode of taking pictures to calculate carbon footprint situation easily to be provided to the user, and the method for energy-conserving and environment-protective aspect is guided.

A kind of multi-functional carbon footprint computing terminal, it is achieved in that this terminal includes following ingredient:

Carbon footprint mode module, it and the following corresponding setting of data processor include the carbon footprint computation schema that prestores, and and the corresponding energy saver mode of specific environment pattern;

Camera head, it is the modular construction that is used to realize camera function, is used for the associated images information of photographic subjects environment, is connected with following data processor, is provided for the targeted environment image of data analysis;

The camera data transmission structure, it is by adopting wired or wireless data transmission channel, the image information of the targeted environment that aforesaid camera head is captured is transferred to the functional structure in the following data processor;

The data analysis rule module, it is connected with following data processor, is to be used to provide the targeted environment image that aforesaid camera head is obtained to carry out the modular structure of the mode of data analysis;

Data processor, it is to be used for the camera data that obtains according to aforesaid camera head, judges the operation processing structure of the energy saver mode that targeted environment is required, includes carbon footprint amount determination module and energy saver mode determination module;

The energy saver mode output module, it is according to default energy saver mode output rule, the functional structure that the energy saver mode that the energy saver mode determination module in the aforesaid data processor is judged at targeted environment is exported.

Further, described terminal also includes following technical characterictic:

Described multi-functional carbon footprint computing terminal, also include to be used in reference to and quote the family different positions is taken, and take with specific sharpness, and take with specific angle, and take, and guide module with the shooting that specific quantity is taken with specific illuminance.

Described multi-functional carbon footprint computing terminal also includes the shooting locating module of the position that is used for determining that the user takes.

Described carbon footprint mode module, include the environmental pattern submodule that stores default environmental pattern, and with the corresponding energy saver mode submodule of the corresponding concrete energy saver mode of specific environment pattern, and be used to judge the pairing specific energy saver mode submodule of specific environment pattern.

Described data analysis rule module includes the corresponding assembly that the layout structure that is directed to the room is set up recognition rule, and the furnishings that are directed to the room are set up the corresponding assembly of recognition rule.

Described carbon footprint amount determination module, in order to handle aforesaid camera head captured the targeted environment image, judge the concrete pattern of targeted environment image according to the data analysis rule in the described data analysis rule module, this pattern can be mapped with described carbon footprint mode module.

Described energy saver mode determination module is to be used for according to described carbon footprint amount determination module, and described carbon footprint mode module, judges the modular structure of targeted environment energy saver mode.

The present invention also provides a kind of implementation method of multi-functional carbon footprint computing terminal, it is characterized in that this method includes following steps:

Step 1 prestores in data processor and the corresponding carbon footprint of specific environment pattern mode module;

Step 2 is utilized camera head to be directed to targeted environment and is taken, and obtains the image information that is associated with targeted environment;

Step 3 with the rapid image information that is associated with targeted environment that obtain of previous step, is imported in the set data processor with corresponding carbon footprint pattern of step 1;

Step 4, the image information that analysis and identification are associated with targeted environment in data processor obtains carbon footprint mode module according to analysis rule, and this carbon footprint mode module can be set up corresponding relation with the carbon footprint mode module in the step 1;

Step 5 with the pairing carbon footprint of the rapid corresponding relation that obtains of previous step mode module, is exported to the user according to the predetermined way of output.

Further, described method also includes following technical characterictic:

In the step 2, targeted environment is being carried out in the process of image taking, every undesirable picture, system all can remind the user to continue to take or send, and comprises both one at least of following situation,

One is a purpose to save data stream, particular picture can be generated the littler little picture form of size and send to data processor and carry out preview, the picture that every preview is passed through, just can trigger the pairing functional structure of filming apparatus automatically, clear picture is transferred in the data server

Its two, in shooting process, every required different pictures if the user do not provide, then allow the user continue to take to user's request of sending.

In the step 2, targeted environment is being carried out in the process of image taking, system can guide the user that different positions is taken, and take with specific sharpness, and take with specific angle, and take, and take with specific quantity with specific illuminance.

In the step 5, the output rule that is adopted is a following scheme one at least,

One, in the maximization energy-saving scheme way of output of disregarding under the cost situation, under this mode, it is just passable only need to export maximized energy-saving scheme to the user, need not to consider concrete cost,

Its two, taking into full account under the situation of cost, adopt the minimum low-cost energy-saving scheme of cost,

Its three, under the prerequisite of considering cost and maximum energy-saving effect, set up optimality price ratio energy-saving scheme sequence, for output,

Its four, have the user to export budget constraints, provide the energy-saving scheme that approaches this budget constraints most according to this budget constraints.

Advantage of the present invention:

Utilize the present invention, can obtain the carbon footprint situation of target item easily.The mode that realizes, comprise targeted environment is taken, the identification back obtains the carbon footprint situation of target object by analysis, on the other hand, can draw the suggestion energy saver mode of corresponding targeted environment and output it to the user, thereby allow the user discern the carbon footprint information of various article or service fast, and energy-conserving and environment-protective information, and the solution of energy-conserving and environment-protective aspect suggestion.

Description of drawings

Below in conjunction with accompanying drawing, the present invention is further detailed explanation:

Fig. 1 is the structured flowchart of multi-functional carbon footprint computing terminal of the present invention.

Fig. 2 is the process flow diagram of implementation method of the present invention.

Fig. 3 is a kind of embodiment of multi-functional carbon footprint computing terminal of the present invention.

Label declaration among the figure:

Multi-functional carbon footprint computing terminal-100, camera head-110, camera data transmission structure-120, data analysis rule module-130, carbon footprint mode module-140, environmental pattern submodule-141, corresponding energy saver mode submodule-142, specific energy saver mode submodule-143, data processor-150, carbon footprint amount determination module-151, energy saver mode determination module-152, air conditioner-153, energy saver mode output module-160, take and guide module-170, take locating module-180, target room-200.

Embodiment

The technical scheme that multi-functional carbon footprint computing terminal of the present invention is adopted is mainly: utilize camera head that targeted environment is taken, in data processor, analyze the captured image information of identification, carbon footprint mode module that will be corresponding with targeted environment is set up corresponding relation with the energy saver mode that prestores, draw the carbon footprint situation of corresponding targeted environment and output it to the user, thereby allow the carbon footprint situation of various article of user's quick identification or service, the proposed projects of the energy-conserving and environment-protective aspect that matches can also be provided according to user's demand simultaneously.

Relate generally to following work in the present invention:

1. targeted environment is taken,, set up carbon footprint mode module based on picture shot;

2. set up energy saver mode in advance;

3. carbon footprint mode module and energy saver mode are compared, draw the energy saver mode of targeted environment correspondence;

4. with carbon footprint situation, and supporting energy saver mode exports the user to and provides related advisory.

At first, the present invention is done an integral body introduction with reference to the structured flowchart of of the present invention multi-functional carbon footprint computing terminal shown in Figure 1.

To realize that " 1. targeted environment being taken; based on picture shot; set up carbon footprint mode module " is purpose, multi-functional carbon footprint computing terminal 100 of the present invention, include camera head 110, camera data transmission structure 120, data analysis rule module 130, and take and guide module 170 and take locating module 180.

Described camera head 110, it is to be connected with following data processor 150, is used for the associated images information of photographic subjects environment, is provided for the modular construction of the targeted environment image of data analysis.This camera head 110 can realize that it both can be arranged on the terminal device by camera, also camera can be arranged on the supporting construction in the targeted environment, is connected with terminal device by wireless or wire transmission structure.

Described camera data transmission structure 120, it is by adopting wired or wireless data transmission channel, the functional structure that connects aforesaid camera head 110 and following data processor 150, the image information that is used for the targeted environment that aforesaid camera head 110 is captured is transferred to following data processor 150.For example and without limitation, the user adopts corresponding aforesaid camera head 110 and this camera head transmission structure 120 the two is all realized by the mobile phone that can take pictures.

Described data analysis rule module 130, it is connected with following data processor 150, is the modular structure that is used to provide targeted environment image that aforesaid camera head 110 is obtained to carry out data analysis.This data analysis rule module 130 includes the corresponding assembly that the layout structure that is directed to the room is set up recognition rule, and the furnishings that are directed to the room are set up the corresponding assembly of recognition rule.For example and without limitation, the layout structure that is directed to the room is set up the corresponding assembly of recognition rule, mainly discerns the distribution, door and window distribution of north and south layout, height state, room (parlor, primary and secondary bedroom, kitchen, toilet, greenhouse, the balcony etc.) in room etc.; The furnishings that are directed to the room are set up the corresponding assembly of recognition rule, discern mainly that indoor electrical equipment layout, circuit distribute, the water route distributes, the distribution of lighting, flowers distribution, wardrobe distribution etc.

Utilize the associated images of the targeted environment that the assembly of these recognition rule correspondences can take aforesaid camera head 110 to discern, thereby draw carbon footprint mode module corresponding to targeted environment.

Further, in order to improve the acquisition rate of user to the targeted environment picture, in shooting process, system will give corresponding prompting, thereby make the user take the different angles in room according to the requirement of reminding.To should purpose, in the present invention, be provided with to take corresponding to aforesaid camera head 110 and guide module 170 and take locating module 180.Module 170 is guided in shooting wherein, be used in reference to and quote the family different positions (is for example taken, balcony, master bedroom, inferior crouching, the parlor, wall, indoor verandas etc.), and (for example take with specific sharpness, wall requires high definition, furnishings in the toilet require general), and (for example take with specific angle, the parlor, the layout of kitchen and balcony requires to be the overall situation and distributes), and take (bedroom with specific illuminance, the parlor respectively in the morning, noon, take afternoon), and take with specific quantity and (wall to be taken respectively discontinuously according to the variation of illumination, for example, morning 6:00～9:00, per half an hour, take once, and noon, 12:00～14:00 took once in per 10 minutes).

Described shooting locating module 180 is used for the position of determining that the user takes.This shooting locating module 180 comprises the corresponding relation of a system: the effective picture of a cover, if reach the purpose of effective identification, need the picture of which angle, and the optimum photographing position of the picture of these angles; Comprise a cover user locating device in addition, this user's locating device can directly be realized by space orientation, effectively come consumer positioning location in space and height, can also realize by the anti-method that pushes away of picture, utilize the effect of pictures taken, the anti-angle that pushes away the user, and verify by the formed angle of other photo, the final position of determining the user is carried out the user according to this position and is taken guide.In this case, when the user can not effectively carry out photographic images, just can there be system to send guide and allows the user continue to take.

To realize that " 2. setting up energy saver mode in advance " is purpose, multi-functional carbon footprint computing terminal 100 of the present invention includes carbon footprint mode module 140.

Described carbon footprint mode module 140, it and following data processor 150 corresponding settings include the energy saver mode that prestores, and and the corresponding energy saver mode of specific environment pattern.This carbon footprint mode module 140 includes the environmental pattern submodule 141 (being primarily aimed at carbon footprint metering situation commonly used in varying environment analyzes) that stores default environmental pattern, and with the corresponding energy saver mode submodule 142 of the corresponding concrete energy saver mode of specific environment pattern (for example, the energy saver mode of one side backer's with water on three sides house correspondence, be distributed with the energy saver mode of the buildings correspondence of Gao Shu all around, height above sea level is higher than the energy saver mode in the house of each floor of correspondence more than 100 meters), and be used to judge that the pairing specific energy saver mode submodule 143 of specific environment pattern is (for example, at being located in sun power, wind energy, the energy saver mode of the buildings in the location that geothermal energy is abundant).

To realize that " 3. carbon footprint mode module and energy saver mode are compared, draw the energy saver mode of targeted environment correspondence " is purpose, multi-functional carbon footprint computing terminal 100 of the present invention includes data processor 150.

Described data processor 150, it is to be connected with aforesaid camera head 110 and data analysis rule module 130 to obtain the carbon footprint mode module corresponding with targeted environment, according to default energy saver mode in the aforesaid carbon footprint mode module 140, judge the operation processing structure of the energy saver mode that targeted environment is required.This data processor 150 includes carbon footprint amount determination module 151 and energy saver mode determination module 152.

Carbon footprint amount determination module 151 wherein, in order to handle aforesaid camera head 110 captured the targeted environment image, judge the concrete pattern of targeted environment image according to the data analysis rule in the described data analysis rule module 130, this pattern can be mapped with described carbon footprint mode module.

Energy saver mode determination module 152 wherein is to be used for according to described carbon footprint amount determination module 151, and described carbon footprint mode module 140, judges the modular structure of targeted environment energy saver mode.

Described carbon footprint amount determination module 151, major function is in links such as production, consumption, processing, the consumption situation of the carbon footprint of comprehensively being judged according to special article.

For example and without limitation, judge via this data processor 150 and can comprise the following information content by the energy saver mode that draws: the carbon footprint situation of each article in (1) room is respectively A, B, C ton carbon dioxide.(2) to the modification scheme of room wall, such as, heat insulating coat can be set on wall, can in the information content, show the kind of heat insulating coat, the thickness of heat insulating coat, the performance of heat insulating coat, the energy-saving effect of heat insulating coat, the form of construction work of heat insulating coat, the cost of heat insulating coat etc.(3) for the electrical equipment in room, under the situation of indication carbon footprint, can guide the energy-saving effect that is in its corresponding different electrical equipment too.(4) for the lighting in room, under the situation of indication carbon footprint, equally also can guide out energy-saving effect, the brightness of illumination of different lamps, and form of construction work, construction cost or the like.

To realize that " 4. energy saver mode is exported to the user and provide related advisory " is purpose, multi-functional carbon footprint computing terminal 100 of the present invention includes energy saver mode output module 160.

Described energy saver mode output module 160, it is according to default energy saver mode output rule, the functional structure that the energy saver mode that the energy saver mode determination module 152 in the aforesaid data processor 150 is judged at targeted environment is exported.Corresponding this energy saver mode output module 160 is provided with display screen or loudspeaker.

In conjunction with the structured flowchart of multi-functional carbon footprint computing terminal shown in Figure 1, Fig. 2 has provided process flow diagram of the present invention.The specific implementation process comprises the steps:

Step 1 prestores in data processor and the corresponding energy saver mode of specific environment pattern.

In this step, set up in advance or (for example store default environmental pattern, be distributed in the mountain area, the seashore, the Plain, the energy saver mode of the back in the house in the environment such as forest or sunny side correspondence), and with the corresponding energy saver mode of the corresponding concrete energy saver mode of specific environment pattern (for example, the energy saver mode of one side backer's with water on three sides house correspondence, be distributed with the energy saver mode of the buildings correspondence of Gao Shu all around, height above sea level is higher than the energy saver mode in the house of each floor of correspondence more than 100 meters), and be used to judge that the pairing specific energy saver mode of specific environment pattern is (for example, at being located in sun power, wind energy, the energy saver mode of the buildings in the location that geothermal energy is abundant).

Step 2 is utilized camera head to be directed to targeted environment and is taken, and obtains the image information that is associated with targeted environment.

Targeted environment is being carried out in the process of image taking, system can guide the user that different positions is taken, and takes with specific sharpness, and takes with specific angle, and take, and take with specific quantity with specific illuminance.In this step, targeted environment is being carried out in the process of image taking, every undesirable picture, system all can remind the user to continue to take or send, and comprise following situation: one is a purpose to save data stream, particular picture can be generated the littler little picture form of size sends to data processor and carries out preview, the picture that every preview is passed through just can trigger the pairing functional structure of filming apparatus automatically, and clear picture is transferred in the data server; Its two, in shooting process, every required different pictures if the user do not provide, then allow the user continue to take to user's request of sending.

Step 3 with the rapid image information that is associated with targeted environment that obtain of previous step, is imported in the set data processor with corresponding energy saver mode of step 1.

By adopting wired or wireless data transmission channel, the image information of the targeted environment that aforesaid camera head is captured is transferred in the following data processor.

Step 4, the image information that analysis and identification are associated with targeted environment in data processor obtains carbon footprint mode module according to analysis rule, and this carbon footprint mode module can be set up corresponding relation with the energy saver mode in the step 1.

Utilization is arranged on the corresponding assembly that the layout structure that is directed to the room in the data analysis rule module is set up recognition rule, and the corresponding assembly pair image that is associated with targeted environment that the furnishings that are directed to the room are set up recognition rule analyzes, thereby draws corresponding carbon footprint mode module.Carbon footprint amount determination module and energy saver mode determination module that utilization is arranged in the data processor are set up corresponding relation with carbon footprint mode module and energy saver mode, thereby draw the energy saver mode that is suitable for targeted environment.For example and without limitation, the distribution of the north and south layout in main identification room, height state, room (parlor, primary and secondary bedroom, kitchen, toilet, greenhouse, balcony etc.), door and window distribution etc., and indoor electrical equipment layout, circuit distribute, the water route distributes, the distribution of lighting, flowers distribution, wardrobe distribution etc.

Step 5 with the rapid corresponding relation that obtains pairing carbon footprint result of previous step and energy saver mode, is exported to the user according to the predetermined way of output.

According to default energy saver mode output rule,, export to the user with the energy saver mode that the energy saver mode determination module in the aforesaid data processor is judged at targeted environment.Can the result directly be shown to the user by display devices such as display screen or loudspeakers.When carrying out energy saver mode output, generally follow following output rule:

One, in the maximization energy-saving scheme way of output of disregarding under the cost situation, under this mode, it is just passable only need to export maximized energy-saving scheme to the user, need not to consider concrete cost,

Its two, taking into full account under the situation of cost, adopt minimum, the lower at least low-cost energy-saving scheme of cost,

Its three, under the prerequisite that takes into full account cost and maximum energy-saving effect, set up optimality price ratio energy-saving scheme sequence, for output,

Its four, have the user to export budget constraints, provide the energy-saving scheme that approaches this budget constraints most according to this budget constraints.

Embodiment

Fig. 3 is a kind of embodiment of multi-functional carbon footprint computing terminal of the present invention.

In the present embodiment, at first do following setting: the targeted environment that the user will take is target room 200; The two all realizes camera head that the user adopted and camera head transmission structure by the multi-functional carbon footprint computing terminal 100 that can take pictures; In pairing data analysis rule module, be provided with the corresponding assembly that the layout structure that is directed to target room 200 is set up recognition rule; The output rule that the energy saver mode output module is adopted is: have the user to export budget constraints, provide the energy-saving scheme that approaches this budget constraints most according to this budget constraints; The carbon footprint amount determination module that is adopted is mainly used in and judges that the captured room type of user is to belong to any environmental pattern; The energy saver mode determination module that is adopted is according to the pairing default energy saver mode of different room types, judges the corresponding various energy saver modes that targeted environment was suitable for.

Detailed process is: the user takes target room 200 by the camera that is arranged on the multi-functional carbon footprint computing terminal 100, its reference object is each article related with this target room 200, and door and window distributes and towards, outside window environment, the layout of distribution, electrical equipment and corresponding circuits of layout, indoor illumination light fitting in related room around the doorway and distribution etc.

In data processor, the image that carries out all angles according to the assembly in the data analysis rule module is synthetic, and generates the model corresponding with this target room 200 by carbon footprint amount determination module.Be directed to this room model, by the energy saver mode determination module judge with this room in article, such as the situation of the carbon footprint of air conditioner 153, and these air conditioner 153 pairing energy saver modes.Draw situation that should the room through judgement, obtain comprising the following information content:

1, this air conditioner carbon footprint in a year is 1.52 tons of carbon dioxide;

2, energy-conservation suggestion is: heat insulating coat is set on wall.

Further, can also be at this heat insulating coat configuration information content display window, show thickness, the heat insulating coat of kind, the heat insulating coat of heat insulating coat performance, heat insulating coat energy-conservation ' effect, the form of construction work of heat insulating coat, the cost of heat insulating coat etc.

By being arranged on the display screen on the multi-functional carbon footprint computing terminal 100, the room picture material in conjunction with taking is shown to the user with the above-mentioned information content.

More than be the description of this invention and non-limiting, based on other embodiment of inventive concept, all among protection scope of the present invention.

Claims (11)

1. multi-functional carbon footprint computing terminal is characterized in that this terminal includes following ingredient:

Carbon footprint mode module, it and the following corresponding setting of data processor include the carbon footprint computation schema that prestores, and and the corresponding energy saver mode of specific environment pattern;

Camera head, it is the modular construction that is used to realize camera function, is used for the associated images information of photographic subjects environment, is connected with following data processor, is provided for the targeted environment image of data analysis;

The camera data transmission structure, it is by adopting wired or wireless data transmission channel, the image information of the targeted environment that aforesaid camera head is captured is transferred to the functional structure in the following data processor;

The data analysis rule module, it is connected with following data processor, is to be used to provide the targeted environment image that aforesaid camera head is obtained to carry out the modular structure of the mode of data analysis;

Data processor, it is to be used for the camera data that obtains according to aforesaid camera head, judges the operation processing structure of the energy saver mode that targeted environment is required, includes carbon footprint amount determination module and energy saver mode determination module;

The energy saver mode output module, it is according to default energy saver mode output rule, the functional structure that the energy saver mode that the energy saver mode determination module in the aforesaid data processor is judged at targeted environment is exported.

2. according to the described a kind of multi-functional carbon footprint computing terminal of claim 1, it is characterized in that: described multi-functional carbon footprint computing terminal, also include to be used in reference to and quote the family different positions is taken, and take with specific sharpness, and take with specific angle, and take, and guide module with the shooting that specific quantity is taken with specific illuminance.

3. a kind of multi-functional carbon footprint computing terminal according to claim 1 is characterized in that: described multi-functional carbon footprint computing terminal also includes the shooting locating module of the position that is used for determining that the user takes.

4. a kind of multi-functional carbon footprint computing terminal according to claim 1, it is characterized in that: described carbon footprint mode module, include the environmental pattern submodule that stores default environmental pattern, and with the corresponding energy saver mode submodule of the corresponding concrete energy saver mode of specific environment pattern, and be used to judge the pairing specific energy saver mode submodule of specific environment pattern.

5. a kind of multi-functional carbon footprint computing terminal according to claim 1, it is characterized in that: described data analysis rule module, include the layout structure that is directed to the room and set up the corresponding assembly of recognition rule, and the furnishings that are directed to the room are set up the corresponding assembly of recognition rule.

6. a kind of multi-functional carbon footprint computing terminal according to claim 1, it is characterized in that: described carbon footprint amount determination module, in order to handle aforesaid camera head captured the targeted environment image, judge the concrete pattern of targeted environment image according to the data analysis rule in the described data analysis rule module, this pattern can be mapped with described carbon footprint mode module.

7. a kind of multi-functional carbon footprint computing terminal according to claim 1, it is characterized in that: described energy saver mode determination module, be to be used for, and described carbon footprint mode module, judge the modular structure of targeted environment energy saver mode according to described carbon footprint amount determination module.

8. the implementation method of a multi-functional carbon footprint computing terminal is characterized in that this method includes following steps:

Step 1 prestores in data processor and the corresponding carbon footprint of specific environment pattern mode module;

Step 2 is utilized camera head to be directed to targeted environment and is taken, and obtains the image information that is associated with targeted environment;

Step 3 with the rapid image information that is associated with targeted environment that obtain of previous step, is imported in the set data processor with corresponding carbon footprint pattern of step 1;

Step 4, the image information that analysis and identification are associated with targeted environment in data processor obtains the targeted environment pattern according to analysis rule, and this targeted environment pattern can be set up corresponding relation with the carbon footprint mode module in the step 1;

Step 5 with the pairing carbon footprint of the rapid corresponding relation that obtains of previous step mode module, is exported to the user according to the predetermined way of output.

9. the implementation method of a kind of multi-functional carbon footprint computing terminal according to claim 8, it is characterized in that: in the step 2, targeted environment is being carried out in the process of image taking, every undesirable picture, system all can remind the user to continue to take or send, and comprises both one at least of following situation:

One is a purpose to save data stream, particular picture can be generated the littler little picture form of size and send to data processor and carry out preview, the picture that every preview is passed through, just can trigger the pairing functional structure of filming apparatus automatically, clear picture is transferred in the data server

Its two, in shooting process, every required different pictures if the user do not provide, then allow the user continue to take to user's request of sending.

10. the implementation method of a kind of multi-functional carbon footprint computing terminal according to claim 8, it is characterized in that: in the step 2, targeted environment is being carried out in the process of image taking, system can guide the user that different positions is taken, and take with specific sharpness, and take with specific angle, and take with specific illuminance, and take with specific quantity.

11. the implementation method of a kind of multi-functional carbon footprint computing terminal according to claim 8 is characterized in that: in the step 5, the output rule that is adopted is a following scheme one at least,

One, in the maximization energy-saving scheme way of output of disregarding under the cost situation, under this mode, it is just passable only need to export maximized energy-saving scheme to the user, need not to consider concrete cost,

Its two, taking into full account under the situation of cost, adopt the minimum low-cost energy-saving scheme of cost,

Its three, under the prerequisite of considering cost and maximum energy-saving effect, set up optimality price ratio energy-saving scheme sequence, for output,

Its four, have the user to export budget constraints, provide the energy-saving scheme that approaches this budget constraints most according to this budget constraints.

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