Summary of the invention
The present invention aims to provide a kind of air-conditioning and air conditioning control method, and the air conditioning control method computing cycle that can solve in the correlation technique is longer, realizes complicated problem.
To achieve these goals, according to an aspect of the present invention, provide a kind of air conditioning control method, may further comprise the steps: gathered clothing amount parameter, metabolic rate parameter; Gather initial indoor temperature, initial relative humidity and initial wind speed; Receive the targeted environment requirement of user's input; According to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate air-conditioning object run temperature, and the control air-conditioning moves under target temperature, until after re-entering the targeted environment requirement, again calculate new air-conditioning object run temperature, until shutdown.
Preferably, in said method, according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculating target temperature comprises: according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, calculate initial anticipation heat comfort index PMV0Require to carry out iterative computation according to initial p MV and targeted environment, obtain current anticipation heat comfort index PMVnAccording to current anticipation heat comfort index PMVnObtain target temperature with current relative humidity calculation.
Preferably, in said method, when air conditioner refrigerating moved, targeted environment required to comprise: nice and cool, cold-peace is terribly cold, wherein, nice and cool corresponding targeted environment requires to be δ1, the targeted environment of cold correspondence requires to be δ2, the targeted environment of terribly cold correspondence requires to be δ3, and δ1<δ2<δ3
Preferably, in said method, when air-conditioning heating moved, targeted environment required to comprise: warm, heat and awfully hot, wherein, the targeted environment of warm correspondence requires to be δ1, targeted environment corresponding to heat requires to be δ2, the targeted environment of awfully hot correspondence requires to be δ3, and δ1<δ2<δ3
Preferably, in said method, gathering clothing amount parameter and metabolic rate parameter comprises: receive user's input the clothing amount, and arranging the clothing amount be clothing amount parameter; Receive the metabolic rate of user's input, and metabolic rate is set is metabolic rate parameter.
Preferably, in said method, gathering clothing amount parameter and metabolic rate parameter comprises: clothing amount default value is being set is clothing amount parameter; It is metabolic rate parameter that metabolic rate default value is set.
Preferably, in said method, when air conditioner refrigerating moves, according to clothing amount parameter, metabolism rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate air-conditioning object run temperature, and the control air-conditioning moves under target temperature, until after re-entering the targeted environment requirement, again calculate new air-conditioning object run temperature, until shutdown may further comprise the steps: according to clothing amount parameter, metabolism rate parameter, initial indoor temperature, initial relative humidity and initial wind speed calculate initial anticipation heat comfort index PMV0According to PMV0First object environmental requirement C with the 1st setting of user1, calculate primary anticipation heat comfort index PMV1=PMV0+ (C0-C1), C0=0, C1Be δ1, δ2, δ3In one of them, according to PMV1Current relative humidity with actual measurement calculates the first air-conditioning object run temperature T1, and the control air-conditioning is pressed T1Operation; According to PMVN-1The n targeted environment of setting for the n time with the user requires Cn, obtain the n time anticipation heat comfort index PMVn=PMVN-1+ (CN-1-Cn), CN-1And CnBe δ1, δ2, δ3In one of them, according to PMVnWith the current relative humidity of actual measurement, calculate the corresponding object run temperature T constantly of n air-conditioningn, and the control air-conditioning is pressed TnOperation is until shutdown.
Preferably, in said method, when air-conditioning heating moves, according to clothing amount parameter, metabolism rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate air-conditioning object run temperature, and the control air-conditioning moves under target temperature, until after re-entering the targeted environment requirement, again calculate new air-conditioning object run temperature, until shutdown may further comprise the steps: according to clothing amount parameter, metabolism rate parameter, initial indoor temperature, initial relative humidity and initial wind speed calculate initial anticipation heat comfort index PMV0According to PMV0The targeted environment of setting for the 1st time with the user requires C1, obtain primary anticipation heat comfort index PMV1=PMV0+ (C1-C0), C0=0, C1Be δ1, δ2, δ3In one of them, according to the current relative humidity of PMV1 and actual measurement, calculate the first air-conditioning object run temperature T1, and the control air-conditioning is pressed T1Operation; According to PMVN-1The targeted environment of setting for the n time with the user requires Cn, obtain the n time anticipation heat comfort index PMVn=PMVN-1+ (Cn-CN-1), CN-1And CnBe δ1, δ2, δ3In one of them, according to PMVnCurrent relative humidity with actual measurement calculates n air-conditioning object run temperature Tn, air-conditioning is pressed TnOperation is until shutdown.
To achieve these goals, according to a further aspect in the invention, also provide a kind of air-conditioning, having comprised: the first acquisition module is used for gathering clothing amount parameter, metabolic rate parameter; The second acquisition module is used for gathering initial indoor temperature, initial relative humidity and initial wind speed; Input module is used for receiving the targeted environment requirement of user's input; Control module, be used for according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate air-conditioning object run temperature, and the control air-conditioning moves under target temperature, until after re-entering the targeted environment requirement, again calculate new air-conditioning object run temperature, until shutdown.
Preferably, in above-mentioned air-conditioning, control module comprises: the initial calculation unit is used for calculating initial p MV according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed; The iterative computation unit is used for requiring to carry out iterative computation according to initial p MV and targeted environment, obtains current PMV; The temperature computation unit is used for obtaining target temperature according to current PMV and current relative humidity calculation; Control module is used for the control air-conditioning and moves under target temperature.
Preferably, above-mentioned air-conditioning is when refrigerating operaton, and targeted environment requires to comprise: nice and cool, cold-peace is terribly cold, wherein, nice and cool corresponding targeted environment requires to be δ1, the targeted environment of cold correspondence requires to be δ2, the targeted environment of terribly cold correspondence requires to be δ3, and δ1<δ2<δ3
Preferably, above-mentioned air-conditioning is when heating operation, and targeted environment requires to comprise: warm, heat and awfully hot, wherein, the targeted environment of warm correspondence requires to be δ1, targeted environment corresponding to heat requires to be δ2, the targeted environment of awfully hot correspondence requires to be δ3, and δ1<δ2<δ3
Above-described embodiment is at first gathering clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, then receive the targeted environment requirement of user's input, require to calculate target temperature according to above-mentioned collection value and targeted environment at last, and the control air-conditioning moves under target temperature.Because targeted environment requires to have reflected user's current thermal comfort impression, so can obtain being suitable for the target temperature of current environment to initial parameter correction according to the targeted environment requirement, reduced the complexity that realizes control, thereby improved the real-time of control, improved user's experience, so the air conditioning control method computing cycle that has overcome in the correlation technique in the correlation technique is longer, realize complicated problem.
The specific embodiment
Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the present invention in detail.
Fig. 1 shows the flow chart according to the air conditioning control method of first embodiment of the invention, and the method may further comprise the steps:
Step 101 is gathering clothing amount parameter, metabolic rate parameter;
Step 102 gathers initial indoor temperature, initial relative humidity and initial wind speed;
Step 103, the targeted environment that receives user's input requires Cn
Step 104 according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate target temperature, and the control air-conditioning moves under target temperature.
Present embodiment is at first gathering clothing amount parameter and metabolic rate (activity) parameter, the initial indoor temperature of air-conditioning, initial relative humidity and initial wind speed, then receive the targeted environment requirement of user's input, at last according to above-mentioned collection value and targeted environment requirement, calculate target temperature, and the control air-conditioning moves under target temperature.Because targeted environment requires to have reflected user's current thermal comfort impression, so can obtain being suitable for the target temperature of current environment to initial parameter correction according to the targeted environment requirement, reduced the complexity that realizes control, thereby improved the real-time of control, improved user's experience, so the air conditioning control method computing cycle that has overcome in the correlation technique in the correlation technique is longer, realize complicated problem.
Preferably, in said method, according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculating target temperature comprises: according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, calculate PMV0According to PMV0Require to carry out iterative computation with targeted environment, obtain PMVnAccording to PMVnObtain target temperature T with current relative humidity calculationn
Present embodiment (is PMV according to the calculation of parameter initial p MV that gathers at first0), each PMV after this all need not to be obtained by measurement parameter again, (is PMV but directly adopt last PMVN-1), to require (be C for this targeted environmentn) to require with last targeted environment (be CN-1) add and subtract and calculate, do like this, simplified PMVnComputational process, thereby be conducive to provide the real-time of air-conditioning control.
Preferably, in said method, when air conditioner refrigerating moved, targeted environment required CnComprise: nice and cool, cold-peace is terribly cold, wherein, nice and cool corresponding targeted environment requires to be δ1, the targeted environment of cold correspondence requires to be δ2, the targeted environment of terribly cold correspondence requires to be δ3, and δ1<δ2<δ3
Present embodiment is that operation of air conditioner is in the situation of refrigeration mode, at this moment for the alternative targeted environment requirement C of usernComprise: nice and cool (corresponding to Cn=δ1), cold (corresponding to Cn=δ2) and terribly cold (corresponding to Cn=δ3), the user can select one of them according to the thermal comfort impression of oneself, the alternative environmental requirement such as nice and cool, cold, terribly cold can directly arrange respective keys on remote controller or air-conditioner host, but also can be set to the button of move left and right or suitable/rotate counterclockwise, indirectly to reach the user to the selection of the environmental requirement such as nice and cool, cold, terribly cold.Do like this, satisfied the requirement of user to different thermal comforts.
Preferably, in said method, when the air-conditioning heating operational mode, targeted environment requires CnComprise: warm, heat and awfully hot, wherein, the targeted environment of warm correspondence requires to be δ1, targeted environment corresponding to heat requires to be δ2, the targeted environment of awfully hot correspondence requires to be δ3, and δ1<δ2<δ3
Present embodiment is that operation of air conditioner is in the situation of heating mode, at this moment for the alternative targeted environment requirement C of usernComprise: warm (corresponding to Cn=δ1), heat (corresponding to Cn=δ2) and awfully hot (corresponding to Cn=δ3), the user can select one of them according to the thermal comfort impression of oneself, warm, heat and the alternative environmental requirement such as awfully hot can directly arrange respective keys on remote controller or air-conditioner host, but also can be set to the button of move left and right or suitable/rotate counterclockwise, indirectly to reach the user to the selection of warm, heat and the environmental requirement such as awfully hot.Do like this, satisfied the requirement of user to different thermal comforts.
Preferably, in said method, step 101 comprises: receive user's input the clothing amount, and arrange be somebody's turn to do the clothing amount be clothing amount parameter; Receive the metabolic rate of user's input, and this metabolism rate is set is metabolic rate parameter.
Present embodiment be the situation that clothing amount parameter and metabolic rate parameter are set by the user.The user can input clothing amount and metabolic rate (current active amount) at remote controller, also can input at air-conditioner host, receive user input after clothing amount and the metabolic rate, again with relative parameters setting for be used for calculating clothing amount parameter and metabolic rate parameter.Do like this, so that the initial p MV that calculates more meet the user current clothing amount and current metabolic rate (current active amount), satisfied user's diversified demand during from different activity under the different weather condition, and avoid the remote controller setting of user's complexity, reached the purpose of Energy and comfort.
Preferably, in said method, step 101 comprises: clothing amount default value is being set is clothing amount parameter; It is metabolic rate parameter that metabolic rate default value is set.
Present embodiment be clothing amount parameter and metabolic rate parameter be made as the situation of default value.After multiple clothing amount and metabolic rate are added up, obtain the most frequently used clothing amount and metabolic rate and be worth by default.When user's current clothing amount and current metabolic rate meet this default value, need not to input setting, in follow-up control procedure, adopt this default value.Do like this, so that when user's current state meets the relevant default value, need not to set separately, convenient for users to use.
Preferably, in said method, step 102 comprises: the collecting temperature sensor detects the indoor temperature that obtains; Gather humidity sensor and detect the relative humidity that obtains; Gather air velocity transducer and detect the wind speed that obtains.
Indoor temperature in the present embodiment, relative humidity and wind speed collect by corresponding sensor, have realized the collection to indoor temperature, relative humidity and wind speed simplely.
Preferably, in said method, step 102 comprises: the collecting temperature sensor detects the indoor temperature that obtains; Gather humidity sensor and detect the relative humidity that obtains; Collect wind speed according to rotation speed of fan.
Indoor temperature in the present embodiment and relative humidity are collected by corresponding sensor, and wind speed is then obtained by rotation speed of fan, do like this, need not to depend on air velocity transducer and gather wind speed, have saved and have controlled cost.
Preferably, in said method, when air conditioner refrigerating moved, step 104 may further comprise the steps: according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, calculate initial anticipation heat comfort index PMV0According to PMV0The targeted environment of setting for the 1st time with the user requires C1, calculate primary anticipation heat comfort index PMV1=PMV0+ (C0-C1), C wherein0=0, C1Be δ1, δ2, δ3In one of them, according to PMV1Current relative humidity with actual measurement calculates the first air-conditioning object run temperature T1, and the control air-conditioning is pressed T1Operation; According to PMVN-1The targeted environment of setting for the n time with the user requires Cn, obtain the n time anticipation heat comfort index PMVn=PMVN-1+ (CN-1-Cn), CN-1And CnBe δ1, δ2, δ3In one of them, according to PMVnWith the current relative humidity of actual measurement, calculate the corresponding object run temperature T constantly of n air-conditioningn, and the control air-conditioning is pressed TnOperation is until shutdown.
Preferably, in said method, when air-conditioning heating moved, step 104 may further comprise the steps: according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, calculate initial anticipation heat comfort index PMV0According to PMV0The targeted environment of setting for the 1st time with the user requires C1, calculate primary anticipation heat comfort index PMV1=PMV0+ (C1-C0), C wherein0=0, C1Be δ1, δ2, δ3In one of them, according to PMV1Current relative humidity with actual measurement calculates the first air-conditioning object run temperature T1, and the control air-conditioning is pressed T1Operation; According to PMVN-1The targeted environment of setting for the n time with the user requires Cn, obtain the n time anticipation heat comfort index PMVn=PMVN-1+ (Cn-CN-1), CN-1And CnBe δ1,δ2, δ3In one of them, according to PMVnWith the current relative humidity of actual measurement, calculate the corresponding object run temperature T constantly of n air-conditioningn, and the control air-conditioning is pressed TnOperation is until shutdown.
Present embodiment (is PMV according to the calculation of parameter initial p MV that gathers at first0), each PMV after this all need not to be obtained by measurement parameter again, (is PMV but directly adopt last PMVN-1), to require (be C for this targeted environmentn) to require with last targeted environment (be CN-1) add and subtract and calculate, do like this, simplified PMVnComputational process, thereby be conducive to provide the real-time of air-conditioning control.
Fig. 2 shows the flow chart according to the air conditioner refrigerating control method of second embodiment of the invention, and the flow process of present embodiment is applicable to the refrigerating operaton pattern, and the method may further comprise the steps:
Step 201, receive that the user sets clothing amount and metabolic rate (activity) as clothing amount and metabolic rate (activity) parameter, perhaps will clothing amount and metabolic rate the default value conduct clothing amount and metabolic rate (activity) parameter;
Step 202 gathers indoor temperature, relative humidity, wind speed (calculating by rotation speed of fan), and according to clothing amount parameter and activity calculation of parameter PMVN-1, and receive the instruction C that the user inputsn, this instruction is that the user is to the environmental requirement selection of (comprising nice and cool, cold, terribly cold);
Step 203 is utilized PMVn=PMVN-1+ (CN-1-Cn) calculate PMVn
Step 204 is according to this PMV that calculatesnObtain target temperature with the actual measurement relative humidity calculation, and the control air-conditioning is by this target temperature operation;
Step 205, judge whether the user inputs new instruction, be whether the user changes original selection and re-start setting, if the user has inputted new instruction, thenforward step 203 to, namely when user input is different from the new instruction of present instruction, again according to user's new instruction, and the new data that gather are controlled; Otherwiseforward step 206 to;
Step 206 is not if the user inputs new instruction, then still by above-mentioned target temperature operation, until shutdown.
In the present embodiment user only need set oneself clothing amount and activity, and select oneself to the requirement (nice and cool, cold or terribly cold) of environment, and do not need to set concrete control temperature, the air conditioning control method of present embodiment is then set running temperature according to above factor and in conjunction with at that time indoor temperature, humidity situation, and control air-conditioning and under this temperature, move always, until changing, the user selects or shutdown.
Present embodiment be operation of air conditioner in the situation of refrigeration mode, present embodiment (is PMV according to the calculation of parameter initial p MV that gathers at first0), each PMV after this all need not to be obtained by measurement parameter again, (is PMV but directly adopt last PMVN-1), to require (be C for this targeted environmentn) to require with last targeted environment (be CN-1) add and subtract and calculate, do like this, simplified PMVnComputational process, thereby be conducive to provide the real-time of air-conditioning control.
Fig. 3 shows the flow chart according to the air-conditioning heating control method of third embodiment of the invention, and the flow process of present embodiment is applicable to the heating operation pattern, and the method may further comprise the steps:
Step 301, receive that the user sets clothing amount and metabolic rate (activity) as clothing amount and metabolic rate (activity) parameter, perhaps will clothing amount and metabolic rate the default value conduct clothing amount and metabolic rate (activity) parameter;
Step 302 gathers indoor temperature, relative humidity, wind speed (calculating by rotation speed of fan), and according to clothing amount parameter and activity calculation of parameter PMVN-1, and receive the instruction C that the user inputsn, this instruction is that the user is to the environmental requirement selection of (comprising warm, hot, awfully hot);
Step 303 is utilized PMVn=PMVN-1+ (Cn-CN-1) calculate PMVn
Step 304 is according to this PMV that calculatesnObtain target temperature with the actual measurement relative humidity calculation, and the control air-conditioning is by this target temperature operation;
Step 305, judge whether the user inputs new instruction, be whether the user changes original selection and re-start setting, if the user has inputted new instruction, then forward step 303 to, namely when user input is different from the new instruction of present instruction, again according to user's new instruction, and the new data that gather are controlled; Otherwise forward step 306 to;
Step 306 is not if the user inputs new instruction, then still by above-mentioned target temperature operation, until shutdown.
In the present embodiment user only need set oneself clothing amount and activity, and select oneself to the requirement (warm, heat or awfully hot) of environment, and do not need to set concrete control temperature, the air conditioning control method of present embodiment is then set running temperature according to above factor and in conjunction with at that time indoor temperature, humidity situation, and control air-conditioning and under this temperature, move always, until changing, the user selects or shutdown.
Fig. 4 shows the according to an embodiment of the invention structure chart of air-conditioning, and this air-conditioning comprises:
Thefirst acquisition module 401 is used for gathering clothing amount parameter, metabolic rate parameter;
Thefirst acquisition module 402 is used for initial indoor temperature, initial relative humidity and initial wind speed;
Input module 403 is used for receiving the targeted environment requirement of user's input;
Control module 404, be used for according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate air-conditioning object run temperature, and the control air-conditioning moves under target temperature, until after re-entering the targeted environment requirement, again calculate new air-conditioning object run temperature, until shutdown.
Present embodiment at first adopts the first and second acquisition modules 401,402 gathering clothing amount parameter and metabolic rate (activity) parameter, the initial indoor temperature of air-conditioning, initial relative humidity and initial wind speed, then adoptinput module 403 to receive the targeted environment requirement of user's input, adopt atlast control module 404 according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity, initial wind speed and targeted environment requirement, calculate target temperature, and the control air-conditioning moves under target temperature.Because targeted environment requires to have reflected user's current thermal comfort impression, so can obtain being suitable for the target temperature of current environment to initial parameter correction according to the targeted environment requirement, reduced the complexity that realizes control, thereby improved the real-time of control, improved user's experience, so the air conditioning control method computing cycle that has overcome in the correlation technique in the correlation technique is longer, realize complicated problem.
Preferably, in above-mentioned air-conditioning,control module 404 comprises: the initial calculation unit, be used for according to clothing amount parameter, metabolic rate parameter, initial indoor temperature, initial relative humidity and initial wind speed, and calculating initial p MV (is PMV0); The iterative computation unit, being used for according to initial p MV (is PMV0) to require with targeted environment (be CN-1With Cn) carry out iterative computation, obtaining current PMV (is PMVn); The temperature computation unit, being used for according to current PMV (is PMVn) obtain target temperature with current relative humidity calculation; Control module is used for the control air-conditioning and moves under target temperature.
Present embodiment at first adopts the initial calculation unit according to the calculation of parameter PMV that collects0, next adopt the iterative computation unit in conjunction with PMV0The targeted environment requirement of inputting with the user (is CN-1With Cn) calculate PMVn, PMVnFor according to PMVN-1, CN-1With CnObtain through iterative computation, then adopt the temperature computation unit according to PMVnObtain target temperature with current actual measurement relative humidity calculation, adopt at last control module to move under target temperature with the control air-conditioning.Present embodiment (is PMV according to the calculation of parameter initial p MV that gathers at first0), each PMV after this all need not to be obtained by measurement parameter again, (is PMV but directly adopt last PMVN-1), to require (be C for this targeted environmentn) to require with last targeted environment (be CN-1) add and subtract and calculate, do like this, simplified PMVnComputational process, thereby be conducive to provide the real-time of air-conditioning control.
Preferably, above-mentioned air-conditioning is when refrigerating operaton, and targeted environment requires to comprise: nice and cool, cold-peace is terribly cold, wherein, nice and cool corresponding targeted environment requires to be δ1, the targeted environment of cold correspondence requires to be δ2, the targeted environment of terribly cold correspondence requires to be δ3, and δ1<δ2<δ3
Present embodiment is that operation of air conditioner is in the situation of refrigeration mode, at this moment for the alternative targeted environment requirement C of usernComprise: nice and cool (corresponding to Cn=δ1), cold (corresponding to Cn=δ2) and terribly cold (corresponding to Cn=δ3), the user can select one of them according to the thermal comfort impression of oneself, the alternative environmental requirement such as nice and cool, cold, terribly cold can directly arrange respective keys on remote controller or air-conditioner host, but also can be set to the button of move left and right or suitable/rotate counterclockwise, indirectly to reach the user to the selection of the environmental requirement such as nice and cool, cold, terribly cold.Do like this, satisfied the requirement of user to different thermal comforts.
Preferably, above-mentioned air-conditioning is when heating operation, and targeted environment requires to comprise: warm, heat and awfully hot, wherein, the targeted environment of warm correspondence requires to be δ1, targeted environment corresponding to heat requires to be δ2, the targeted environment of awfully hot correspondence requires to be δ3, and δ1<δ2<δ3
Present embodiment is that operation of air conditioner is in the situation of heating mode, at this moment for the alternative targeted environment requirement C of usernComprise: warm (corresponding to Cn=δ1), heat (corresponding to Cn=δ2) and awfully hot (corresponding to Cn=δ3), the user can select one of them according to the thermal comfort impression of oneself, warm, heat and the alternative environmental requirement such as awfully hot can directly arrange respective keys on remote controller or air-conditioner host, but also can be set to the button of move left and right or suitable/rotate counterclockwise, indirectly to reach the user to the selection of warm, heat and the environmental requirement such as awfully hot.Do like this, satisfied the requirement of user to different thermal comforts.
As can be seen from the above description, the above embodiments of the present invention have reduced the complexity of realization control, thereby have improved the real-time of control, have improved user's experience.
Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, carried out by calculation element thereby they can be stored in the storage device, perhaps they are made into respectively each integrated circuit modules, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the present invention is not restricted to any specific hardware and software combination.
The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.