CN102254080A - Carbon footprint computing terminal realized through following principle and realizing method thereof - Google Patents

Abstract

The invention provides a carbon footprint computing terminal realized through a following principle and a realizing method thereof, belonging to the technical field of environment friendly equipment. The carbon footprint computing terminal comprises a host machine, a data identifying assembly and a carbon footprint computing assembly, wherein a machine body is arranged corresponding to the host machine; a following assembly is arranged on the machine body; and the following assembly comprises a positioning module, a shooting module, a time recording module and a data transmitting module. The following assembly is used for recording the trace and related information of a user and transmitting the records to the host machine; and the data identifying assembly in the host machine is used for identifying the recorded data, transmitting the identification result into the carbon footprint computing assembly to identify the recorded data, and outputting the carbon footprint identification result. The carbon footprint computing terminal can be used for tracking the user in real time and collecting the behavior mode or the information related to other activities of the user, recording the track of the user in details, computing the carbon footprint correspondingly, and further urging people to avoid unnecessary waste or energy consumption in daily life, work or learning.

Description

A kind of by following carbon footprint computing terminal and the implementation method that principle realizes

Technical field

The invention belongs to the environmental protection equipment technical field, particularly a kind of by following carbon footprint computing terminal and the implementation method that principle realizes.

Background technology

Development low-carbon ecological economy reduces enterprise's carbon discharge capacity, and " carbon footprint " as individual or participation environmental protection, realized that the new coordinate of social responsibility becomes the important issue that current society is discussed.

Carbon footprint (Carbon Footprint) is also referred to as " carbon consumption " usually, refers to a kind of newly developedly, is used for measuring mechanism or individual because of CO2 emission that every day, consumes energy the produced index to environmental impact.As the important weapon of antagonism climate change, the enterprises and individuals understands " carbon discharge capacity " by determining oneself " carbon footprint ", and then goes to control and retrain the behavior of individual and enterprise to reach the purpose that reduces the carbon discharge capacity.But problem is, do more system, more efficient methods go to realize that the individual is to self-covenant of works bundle how to seek one? United States Patent (USP) (US20080233008) has proposed " Methods and systems for monitoring andrecording carbon footprint data ", this system comprises the information gathering entity, further be equipped with GPS equipment, accelerometer, pressure transducer, can catch the tourism data, and the carbon footprint of computational entity and generate the carbon footprint report of entity.

In view of the above-mentioned state of the art, the present invention is based on the appraisement system of current images data identification technology and carbon footprint, proposed a kind ofly to realize terminal and its implementation that its carbon footprint is calculated by the user being carried out real-time follow-up.

Summary of the invention

The purpose of this invention is to provide a kind of by following carbon footprint computing terminal and the implementation method that principle realizes, trace that can the detail record user, and make the calculating of corresponding carbon footprint at it, in daily, work or study, avoid producing unnecessary waste or energy resource consumption to supervise people.

A kind of by following the carbon footprint computing terminal that principle realizes, this carbon footprint computing terminal includes:

(1) main frame, it is in order to the functional structure of following data identification assembly and carbon footprint gauge assembly to be set, to include in order to the following fuselage of following assembly to be set;

(2) follow assembly, it is to be connected with aforesaid main frame and to be arranged on functional module on the aforesaid fuselage, this is followed assembly and includes locating module, photographing module, the time keeping module, and data transmission module, locating module wherein, it is the modular structure that positions in order to described position of following the assembly place, photographing module wherein, it is the position that corresponding aforesaid locating module is located, in order to functional structure to taking with user-dependent behavior pattern or other content association, time keeping module wherein, it is that corresponding aforesaid locating module and photographing module are set, functional structure in order to the record time locus relevant with user's behavior pattern or other content association, data transmission module wherein, it is the time locus data that obtain in order to view data that aforesaid photographing module is shot with video-corder and aforesaid time keeping module, transfers to the functional structure of following data identification assembly with wireless or wire transmission mode;

(3) data identification assembly, it is arranged on the aforesaid main frame, in order to follow the data that assembly is gathered to aforesaid, analyzes identification, draws and the functional structure of calculating the data pattern that the carbon footprint is associated;

(4) carbon footprint gauge assembly, it is arranged on the aforesaid main frame, in order to the default carbon footprint quantitative relation formula of basis, and the data that are associated with calculating carbon footprint that aforesaid data identification assembly is discerned, carry out calculation process, draw the functional structure of carbon footprint result of calculation.

Further, described by following the carbon footprint computing terminal that principle realizes, also have following technical characterictic:

On described carbon footprint computing terminal, also be provided with in order to preestablish and can adjust in real time the carbon footprint threshold module of carbon footprint threshold values.

Corresponding described carbon footprint threshold module, described main frame is provided with alarm set, and when the result of calculation of the carbon footprint of user's correspondence surpassed preset threshold, this alarm set can be made prompting to the user.

Described fuselage can be worn on the waistband, has the structure of wearing.

On described fuselage, also be provided with in temperature measurement module, air-flow test module, the audio recording module one at least.

The described assembly of following, be arranged on and comprise cap, hair band, glasses, the ear pendant headwear of one at least, include necklace, necklace at least one at interior necklace, comprise bracelet, bangle, wrist-watch, the ring jewelry of one at least, and tie clip, clasp, wearing structure one one at least in interior dress ornament structure at least.

Described photographing module includes can measuring distance and the camera of object size.

Corresponding and user-dependent behavior pattern or other content association, described data identification assembly, include in order to identification the user with work, the user behavior pattern identification module of all behavior forms that life is related, and corresponding the behavior pattern of aforesaid user behavior pattern identification module identification, to with the behavior environmental goals thing identification module discerned of the object that is associated of pattern, and corresponding the object of aforesaid environmental goals thing identification module, the object relating attribute identification module that the particular community that is associated with this object is discerned.

Described carbon footprint gauge assembly, include the quantitative model respective modules, carbon footprint computing module, the result of calculation integrate module, quantitative model respective modules wherein, it is based on the data pattern of aforesaid data identification component recognition, select the functional module of the suitable carbon footprint quantitative relation formula of this data pattern, carbon footprint computing module wherein, it is the data with aforesaid data identification component recognition, carbon footprint quantitative relation formula according to correspondence, carry out the functional module of calculation process, result of calculation integrate module wherein, it is the result of calculation with aforesaid carbon footprint computing module, classify, gather, be integrated into corresponding user's functional module.

A kind of by following the implementation method of the carbon footprint computing terminal that principle realizes, this method comprises the steps:

Step 1 is utilized the trace and the related information of following the component record user;

Step 2 will write down the result and be sent on the main frame;

Step 3 utilizes the data identification assembly that record data are discerned in main frame;

Step 4 is transferred to recognition result in the carbon footprint gauge assembly and discerns;

Step 5, output carbon footprint recognition result.

Further, described by following the implementation method of the carbon footprint computing terminal that principle realizes, also have following technical characterictic:

In the step 1, at first the position to the user place positions, utilize camera to shoot with video-corder the image information of the environmental goals thing related with user's trace, utilize the zero-time of time keeping module records User Activity, utilize the temperature of temperature measurement module record object thing correspondence, utilize the audio recording module to record the associated audio content.

In the step 3, will be via described data message of following the assembly collection, utilize the data identification assembly to discern, wherein, by user behavior pattern identification module identification user with work, all related behavior forms of life, by environmental goals thing identification module pair with the behavior object that is associated of pattern discern, discern by the object relating attribute identification module pair particular community that is associated with this object.

In the step 4, data pattern based on aforesaid data identification component recognition, select the suitable carbon footprint quantitative relation formula of this data pattern by the quantitative model respective modules, carry out calculation process by carbon footprint computing module according to the carbon footprint quantitative relation formula of correspondence, by the result of calculation of result of calculation integrate module with aforesaid carbon footprint computing module, classify, gather, be integrated into corresponding user.

The invention has the advantages that:

Of the present invention by following the carbon footprint computing terminal that principle realizes, include main frame, main frame is provided with data identification assembly and carbon footprint gauge assembly, corresponding the supporting fuselage that is provided with of main frame, this fuselage is provided with in order to carry out the assembly of following of data acquisition, this is followed assembly and includes locating module, photographing module, time keeping module, and data transmission module.Component record user's trace and related information followed in utilization, to write down the result is sent on the main frame, in main frame, utilize the data identification assembly that record data are discerned, recognition result is transferred in the carbon footprint gauge assembly discerns, and output carbon footprint recognition result.Simultaneously, this carbon footprint computing machine also is provided with carbon footprint threshold module, and when the result of calculation of the carbon footprint of user's correspondence surpassed preset threshold, this alarm set can be made prompting to the user.This carbon footprint computing terminal can the real-time follow-up user also be gathered and user's the behavior pattern or the information of other activity associations, detail record user's trace, and make the calculating of corresponding carbon footprint at it, thereby behavior that can standard people consciousness, improve people's environmental consciousness, supervise people in daily, work or study, to avoid producing unnecessary waste or energy resource consumption.

Description of drawings

The present invention will be described in more detail below in conjunction with accompanying drawing.

Fig. 1 is the theory diagram of carbon footprint computing terminal of the present invention.

Fig. 2 is the process flow diagram of the implementation method of carbon footprint computing terminal of the present invention.

To be carbon footprint computing terminal of the present invention carrying out the carbon footprint when calculating, the demonstration graph of a kind of embodiment to Fig. 3.

Embodiment

With reference to the accompanying drawings, the present invention is described further in conjunction with specific embodiments.

At first, this carbon footprint computing terminal is done an integral body introduction with reference to the theory diagram of Fig. 1 to carbon footprint computing terminal of the present invention.

Carbonfootprint computing terminal 100 of the present invention mainly includesmain frame 120, followsassembly 130,data identification assembly 140, carbonfootprint gauge assembly 150, and carbon footprint threshold module 160.Be specially:

(1)main frame 120, and it is in order to the functional structure of describeddata identification assembly 140 and carbonfootprint gauge assembly 150 to be set, include passive, in order to describedfuselage 110 of followingassembly 130 to be set.In the present invention, in preferable mobile terminal end, personal computer or the terminal server one as themain frame 120 of this carbon footprint computing terminal 100.For example and without limitation, thisfuselage 110 can be worn on the waistband, has the structure of wearing.

(2) followassembly 130, it is to be connected with aforesaidmain frame 120 and to be arranged on functional module on theaforesaid fuselage 110, is to be used to gather and user's the trace and the construction module of other related data messages.This followsassembly 130, be arranged on and comprise cap, hair band, glasses, the ear pendant headwear of one at least, include necklace, necklace at least one at interior necklace, comprise bracelet, bangle, wrist-watch, the ring jewelry of one at least, and tie clip, clasp, wearing structure one one at least in interior dress ornament structure at least.

Further, the describedassembly 130 of following includes locatingmodule 131, photographingmodule 132,time keeping module 133, and data transmission module 134.Locatingmodule 131 wherein is in order to position described position of followingassembly 130places.Photographing module 132 wherein, the position that corresponding aforesaid locatingmodule 131 is located is in order to taking with user-dependent behavior pattern or other content association.Thisphotographing module 132 includes camera at least.Time keepingmodule 133 wherein, corresponding aforesaid locatingmodule 131 and photographingmodule 132 are set, in order to behavior pattern or other the content association relevant time locus of record with the user.Data transmission module 134 wherein, the time locus data in order to view data that aforesaidphotographing module 132 is shot with video-corder and aforesaidtime keeping module 133 obtain transfer to followingdata identification assembly 140 with wireless or wire transmission mode.Thisdata transmission module 134 is for being arranged on the data sending terminal mouth that the information of can carrying out on theaforesaid fuselage 110 sends

Further, this followsassembly 130, also includes thetemperature measurement module 135 that detects associated environment or object temperature, records theaudio recording module 137 of associated audio content and detects the air-flow test module 136 of the air-flow in corresponding environment or place.

(3) thedata identification assembly 140, and it is arranged on the aforesaidmain frame 120, in order to follow the data thatassembly 130 is gathered to aforesaid, analyze identification, draw and the functional structure of calculating the data pattern that the carbon footprint is associated.As further going deep into to of the present invention, in order to discern and user-dependent behavior pattern or other content association, thisdata identification assembly 140 includes user behaviorpattern identification module 141, environmental goalsthing identification module 142, and object relatingattribute identification module 143.

User behaviorpattern identification module 141 wherein, in order to identification user and work, all related behavior forms of life, specifically comprise: the behavior of riding public transportation means, work behavior, learning behavior, rest behavior, the behavior of preparing and carry out food and drink, amusement and recreation behavior or the like.

Environmental goalsthing identification module 142 wherein, the object that is associated with user behavior pattern is discerned, be specially: 1. corresponding the behavior of user's riding public transportation means, to the vehicles, for example, aircraft (first-class cabin, economy class), automobile (private car, bus, taxi etc.), subway, train (motor-car, express train, ordinary passenger express train), bicycle, steamer etc. are discerned; 2. corresponding work behavior, to the finishing (light fixture, door and window setting, ground laying, indoor greening, wall decoration or the like) in workplace (independent cubicle or Structure in Shared Hall or little lattice cubicle or the like) and place, office equipment of use (office desk and chair, air-conditioning, drinking equipment, entrance guard device) and office accommodations (digital equipment, writing appliance, books material, receiving and dispatching mail or the like) are discerned; 3. corresponding learning behavior is provided with (light fixture, desk and chair, supply equipment, entrance guard device, air-conditioning or heating equipment or the like) and discerns study place (teacher, library etc.), place; 4. corresponding rest behavior, to recreating facility (common room, individual exclusively enjoy rest room, family expenses parlor, bedroom etc.), indoor temperature controlling instruments (air-conditioning, heating equipment), light adjusting device (curtain, glass, lighting), place fitting case or the like, discern; 5. corresponding the behavior of preparing and carry out food and drink is discerned the method for operation of food and drink place, food and drink place fitting case, tableware, kitchen tools, cooker etc.; 6. corresponding amusement and recreation behavior is discerned body-building equipment, amusement equipment, amusement and recreation place and interior decoration or the like.

Object relatingattribute identification module 143 is wherein discerned the particular community that is associated with object.For example and without limitation, for example, corresponding bus, the temperature in the identification car, the time history that the user rides, the media device in the car etc.; Corresponding receiving and dispatching mail, the packing material of identification mail, the mailing approach of mail and mode etc.; Corresponding kitchen tools, the material of identification kitchen tools, operation energy resource supply mode, mode of washing etc.

(4) carbonfootprint gauge assembly 150, it is arranged on the aforesaidmain frame 120, in order to the default carbon footprint quantitative relation formula of basis, to aforesaiddata identification assembly 140 data that are associated with calculating carbon footprint that discerned, carry out calculation process, draw the functional structure of carbon footprint result of calculation.This carbonfootprint gauge assembly 150 includes quantitative modelrespective modules 151, carbonfootprint computing module 152, result ofcalculation integrate module 153.

Quantitative modelrespective modules 151 wherein, it is based on aforesaiddata identification assembly 140 recognition data patterns, selects the functional module of the suitable carbon footprint quantitative relation formula of this data pattern.For example, the behavior pattern of certain user's carbon footprint mainly concentrates on: riding public transportation means (comprising self driving, aircraft, motor-car), the electricity consumption of receiving a visitor, and electricity consumption at home.Then the quantitative relation formula of its corresponding carbon footprint is:

1. CO2 emissions of drive private car (Kg): oil consumption litre number * 0.785

2. the CO2 emissions of airplane: excursion: 200 kilometers with the unit main cabin of interior=this aircraft of milimeter number * 0.275x carbon emission per capita; Travelling midway: 200-1000 kilometer=55+0.105 * (milimeter number-200);

3. take the CO2 emissions of train: long-distance travel: more than 1000 kilometers=milimeter number * 0.139;

4. CO2 emissions of electricity consumption (Kg): CO2 emissions (Kg)=30 * 0.785 * regenerative resource electric power correction factor of office electricity consumption; The CO2 emissions of household electricity consumption (the Kg)=power consumption number of degrees * 0.785x regenerative resource electric power correction factor.

Carbonfootprint computing module 152 wherein, it is with aforesaiddata identification assembly 140 recognition data, according to the carbon footprint quantitative relation formula of correspondence, carries out the functional module of calculation process.For example, one day stroke of certain user and movable as follows: morning drive private car, travel to 0.5 liter of gasoline of unit consumption from family; Airplane to the destination of going on business, is travelled 500 kilometers by the city of working; Arrive after the destination, meet with the related personnel in a hotel, power consumption 30 degree; Take via going to another city in the destination of going on business, travel 100 kilometers; Take the city that motor-car returns work by another city, travel 1200 kilometers; After Hours, culinary art at home and rest, power consumption 15 degree.Then according to above-mentioned carbon footprint quantitative relation formula, the carbon footprint that draws its Activities correspondence is:

1. the CO2 emissions of self driving (Kg): 0.5 * 0.785=0.3925

2. CO2 emissions of airplane (Kg): travelling: 55+0.105 * (500-200)=86.5 midway; Excursion: 100 * 0.275 * 27=742.5;

3. take the CO2 emissions (Kg) of motor-car: long-distance travel: 1200 * 0.139=166.8

4. CO2 emissions of electricity consumption (Kg): office electricity consumption 30 * 0.785 * 0.5=11.775; Household electricity consumption 15 * 0.785 * 0.8=9.42.

Result of calculation integratemodule 153 wherein, it is with the result of calculation of aforesaid carbonfootprint computing module 152, classifies, gathers, and is integrated into corresponding user's functional module.For example, corresponding every carbon footprint of aforesaid user is integrated above-mentioned concrete carbon footprint, draws one day carbon footprint of user and is:

0.3925+86.5+742.5+166.8+11.775+9.42＝1017.3875(Kg)

(5) carbonfootprint threshold module 160, it is the functional structure in order to preestablish and can adjust carbon footprint threshold values in real time.Further, corresponding described carbonfootprint threshold module 160, describedmain frame 120 is provided with alarm set, and when the result of calculation of the carbon footprint of user's correspondence surpassed preset threshold, this alarm set can be made prompting to the user.

In conjunction with the theory diagram of aforesaid carbon footprint computing terminal, Fig. 2 has provided the process flow diagram of the implementation method of this carbon footprint computing terminal, and this method includes following steps:

Step 1 is utilized the trace and the related information of following the component record user.Be specially: at first the position to the user place positions, utilize camera to shoot with video-corder the image information of the environmental goals thing related with user's trace, utilize the zero-time of time keeping module records User Activity, utilize the temperature of temperature measurement module record object thing correspondence, utilize the audio recording module to record the associated audio content.

Step 2 will write down the result and be sent on the main frame.Be specially: utilize data transmission module with aforesaid data message of following the assembly collection, be sent to the data identification assembly that is arranged on the main frame and carry out data identification.

Step 3 utilizes the data identification assembly that record data are discerned in main frame.Be specially:, will be via described data message of following the assembly collection, utilize the data identification assembly to discern, wherein, by user behavior pattern identification module identification user with work, all related behavior forms of life, by environmental goals thing identification module pair with the behavior object that is associated of pattern discern, discern by the object relating attribute identification module pair particular community that is associated with this object.

Step 4 is transferred to recognition result in the carbon footprint gauge assembly and discerns.Be specially: based on the data pattern of aforesaid data identification component recognition, select the suitable carbon footprint quantitative relation formula of this data pattern by the quantitative model respective modules, carry out calculation process by carbon footprint computing module according to the carbon footprint quantitative relation formula of correspondence, by the result of calculation of result of calculation integrate module with aforesaid carbon footprint computing module, classify, gather, be integrated into corresponding user.

Step 5, output carbon footprint recognition result.Be specially: via the data transmission blocks of association analysis result being sent to about user's carbon footprint analysis result of analyzing on the main frame (for example had display device, display screen or loudspeaker) portable terminal on, make the user can be in real time or in time understand oneself carbon footprint situation.

Specific embodiment

To be carbon footprint computing terminal of the present invention carrying out the carbon footprint when calculating, the demonstration graph of a kind of embodiment to Fig. 3.

Activity with user A some day is an example below, utilizes this carbon footprint computing terminal pair carbon footprint related with user A to do a calculating.In the present embodiment, be provided with and comprise thatcamera 132a's follows the wearing on the clothes thatstructure 200 is worn on user A of assembly.Simultaneously, on wearing themain body 210 ofstructure 200, this also is provided with in order to image data is sent to the data sendingterminal mouth 211 of theterminal server 300 that is provided with data identification software and carbon footprint gauge assembly.

(1) utilize one day stroke ofcamera 132a recording user A to be:

Morning, drive private car travelled to 0.5 liter of gasoline of unit consumption from family;

Airplane to the destination of going on business, is travelled 500 kilometers by the city of working;

Arrive after the destination, user A meets with the related personnel in a hotel, power consumption 30 degree;

Airplane is travelled 100 kilometers via going to another city in the destination of going on business;

Take the city that motor-car returns work by another city, travel 1200 kilometers;

After Hours, user A culinary art at home and rest, power consumption 15 degree.

(2) data outputting module will be followed the data transmission of assembly collection to the data identification assembly, after the relating module of data identification assembly is discerned these data, the behavior pattern that draws the carbon footprint related with user A mainly concentrates on: riding public transportation means (comprising self driving, aircraft, motor-car), the electricity consumption of receiving a visitor, and electricity consumption at home.

(3) data that these are identified are sent to carbon footprint metering module, and the relating module correspondence in the carbon footprint metering module recognition data, select the quantitative relation formula of the corresponding carbon footprint of its difference as follows:

1. CO2 emissions of drive private car (Kg): oil consumption litre number * 0.785

2. the CO2 emissions of airplane: excursion: 200 kilometers with the unit main cabin of interior=this aircraft of milimeter number * 0.275x carbon emission per capita; Travelling midway: 200-1000 kilometer=55+0.105 * (milimeter number-200);

3. take the CO2 emissions of train: long-distance travel: more than 1000 kilometers=milimeter number * 0.139;

4. CO2 emissions of electricity consumption (Kg): CO2 emissions (Kg)=30 * 0.785 * regenerative resource electric power correction factor of office electricity consumption; The CO2 emissions of household electricity consumption (the Kg)=power consumption number of degrees * 0.785x regenerative resource electric power correction factor;

(4) according to the quantitative relation formula of the carbon footprint that goes out of above-mentioned correspondence, recognition data is carried out calculation process, the result of calculation that draws the carbon footprint is as follows:

1. CO2 emissions of self driving (Kg):

0.5×0.785＝0.3925

2. CO2 emissions of airplane (Kg):

Travel midway: 55+0.105 * (500-200)=86.5;

Excursion: 100 * 0.275 * 27=742.5;

3. take the CO2 emissions (Kg) of motor-car:

Long-distance travel: 1200 * 0.139=166.8

4. CO2 emissions of electricity consumption (Kg):

Office electricity consumption 30 * 0.785 * 0.5=11.775;

Household electricity consumption 15 * 0.785 * 0.8=9.42.

Above-mentioned concrete carbon footprint is integrated, is drawn one day carbon footprint of user A and be:

0.3925+86.5+742.5+166.8+11.775+9.42＝1017.3875(Kg)

Terminal server 300 will be sent on themobile phone 400 of user A about the carbon footprint of user A metering result, via thedisplay screen 410 that is arranged on themobile phone 400 result is shown to the user.

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 (13)

1. one kind by following the carbon footprint computing terminal that principle realizes, this carbon footprint computing terminal includes:

(1) main frame, it is in order to the functional structure of following data identification assembly and carbon footprint gauge assembly to be set, to include in order to the following fuselage of following assembly to be set;

(2) follow assembly, it is to be connected with aforesaid main frame and to be arranged on functional module on the aforesaid fuselage, and this is followed assembly and includes locating module, photographing module, time keeping module, and data transmission module,

Locating module wherein, it is the modular structure that positions in order to described position of following the assembly place,

Photographing module wherein, it is the position that corresponding aforesaid locating module is located, in order to functional structure to taking with user-dependent behavior pattern or other content association,

Time keeping module wherein, it is that corresponding aforesaid locating module and photographing module are set, in order to the functional structure of the relevant time locus of record and user's behavior pattern or other content association,

Data transmission module wherein, it is the time locus data that obtain in order to view data that aforesaid photographing module is shot with video-corder and aforesaid time keeping module, transfers to the functional structure of following data identification assembly with wireless or wire transmission mode;

(3) data identification assembly, it is arranged on the aforesaid main frame, in order to follow the data that assembly is gathered to aforesaid, analyzes identification, draws and the functional structure of calculating the data pattern that the carbon footprint is associated;

(4) carbon footprint gauge assembly, it is arranged on the aforesaid main frame, in order to the default carbon footprint quantitative relation formula of basis, and the data that are associated with calculating carbon footprint that aforesaid data identification assembly is discerned, carry out calculation process, draw the functional structure of carbon footprint result of calculation.

2. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: on described carbon footprint computing terminal, also be provided with in order to preestablish and can adjust in real time the carbon footprint threshold module of carbon footprint threshold values.

3. according to claim 1 and 2 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: corresponding described carbon footprint threshold module, described main frame is provided with alarm set, when the result of calculation of the carbon footprint of user's correspondence surpassed preset threshold, this alarm set can be made prompting to the user.

4. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: described fuselage can be worn on the waistband, has the structure of wearing.

5. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: on described fuselage, also be provided with in temperature measurement module, air-flow test module, the audio recording module one at least.

6. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: the described assembly of following, be arranged on and comprise cap, hair band, glasses, the ear pendant headwear of one at least, include necklace, necklace at least one at interior necklace, comprise bracelet, bangle, wrist-watch, the ring jewelry of one at least, and tie clip, clasp, wearing structure one one at least in interior dress ornament structure at least.

7. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: described photographing module includes can measuring distance and the camera of object size.

8. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: corresponding and user-dependent behavior pattern or other content association, described data identification assembly includes

The user behavior pattern identification module, it is in order to the identification user and functional modules work, related all the behavior forms of life,

Environmental goals thing identification module, it is corresponding the behavior pattern of aforesaid user behavior pattern identification module identification, to the behavior functional module discerned of the object that is associated of pattern,

Object relating attribute identification module, it is corresponding the object of aforesaid environmental goals thing identification module, the functional module that the particular community that is associated with this object is discerned.

9. according to claim 1 by following the carbon footprint computing terminal that principle realizes, it is characterized in that: described carbon footprint gauge assembly, include quantitative model respective modules, carbon footprint computing module, result of calculation integrate module,

The quantitative model respective modules, it is based on the data pattern of aforesaid data identification component recognition, selects the functional module of the suitable carbon footprint quantitative relation formula of this data pattern,

Carbon footprint computing module, it is the data with aforesaid data identification component recognition, according to the carbon footprint quantitative relation formula of correspondence, carries out the functional module of calculation process,

The result of calculation integrate module, it is with the result of calculation of aforesaid carbon footprint computing module, classifies, gathers, and is integrated into corresponding user's functional module.

10. one kind by following the implementation method of the carbon footprint computing terminal that principle realizes, it is characterized in that this method comprises the steps:

Step 1 is utilized the trace and the related information of following the component record user;

Step 2 will write down the result and be sent on the main frame;

Step 3 utilizes the data identification assembly that record data are discerned in main frame;

Step 4 is transferred to recognition result in the carbon footprint gauge assembly and discerns;

Step 5, output carbon footprint recognition result.

11. it is according to claim 10 by following the implementation method of the carbon footprint computing terminal that principle realizes, it is characterized in that: in the step 1, at first the position to the user place positions, utilize camera to shoot with video-corder the image information of the environmental goals thing related with user's trace, utilize the zero-time of time keeping module records User Activity, utilize the temperature of temperature measurement module record object thing correspondence, utilize the audio recording module to record the associated audio content.

12. it is according to claim 10 by following the implementation method of the carbon footprint computing terminal that principle realizes, it is characterized in that: in the step 3, will be via described data message of following the assembly collection, utilize the data identification assembly to discern, wherein, by user behavior pattern identification module identification user with work, all related behavior forms of life, by environmental goals thing identification module pair with the behavior object that is associated of pattern discern, discern by the object relating attribute identification module pair particular community that is associated with this object.

13. it is according to claim 10 by following the implementation method of the carbon footprint computing terminal that principle realizes, it is characterized in that: in the step 4, data pattern based on aforesaid data identification component recognition, select the suitable carbon footprint quantitative relation formula of this data pattern by the quantitative model respective modules, carry out calculation process by carbon footprint computing module according to the carbon footprint quantitative relation formula of correspondence, by the result of calculation of result of calculation integrate module with aforesaid carbon footprint computing module, classify, gather, be integrated into corresponding user.

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