Disclosure of Invention
The invention aims to provide a system for classifying, collecting and processing urban domestic garbage, which firstly carries out formulaic evaluation on the comprehensive condition of various types of garbage in a community, then calls the collection and placement condition of the garbage according to a comparison relationship, divides the garbage into blocks after dispersion and equalization processing, combines and matches the divided blocks with the called distance information, and makes targeted judgment according to subsequent verification and feedback, thereby ensuring that the urban domestic garbage is properly processed and simultaneously achieving the purpose of targeted collection and optimization for the use of the property; the invention also carries out formula analysis on the total garbage amount in the community, combines the formula analysis with the flow configuration condition of the community, accurately obtains the processing grade of the community through a double grading mechanism, and further carries out accurate judgment and reasonable adjustment on the garbage condition of the community according to a stacking type processing mode so as to ensure the long-term cleanness and environmental protection degree of the community.
The technical problems to be solved by the invention are as follows:
(1) how to carry out overall analysis processing on garbage in the existing community, and how to do not carry out detailed regional division and mutual allocation processing on the garbage, is difficult to carry out multi-level data analysis on the comprehensive conditions of various types of garbage in the community and the collection conditions of various garbage collection positions, combines and matches the analysis results, and makes targeted judgment according to subsequent verification and feedback, thereby ensuring that the urban domestic garbage is properly processed and simultaneously achieving the purpose of targeted collection and optimization of the best use of the things;
(2) how to solve in the current community, it is direct to carry out subsequent processing to rubbish total amount mostly, and then do not have other accurate standard definition to the analysis and judgment process, easily lead to the analysis result to appear the condition such as deviation for the long-term clean environmental protection degree of community is difficult to obtain the problem of fully guaranteeing.
The purpose of the invention can be realized by the following technical scheme:
a system for classifying, collecting and processing urban domestic garbage comprises a data acquisition module, an information analysis module, a data collection library, a controller, a collection analysis module, a matching processing module, a verification and judgment module, a heat processing module and a grade processing platform;
the data acquisition module is used for acquiring comprehensive component information of various types of garbage in the community and transmitting the comprehensive component information to the information analysis module, and the various types of garbage can be dry garbage, wet garbage, harmful garbage, recoverable garbage and the like, and are respectively provided with corresponding garbage collection devices;
the information analysis module carries out quantitative analysis operation on the information analysis module to obtain collection processing values Ri of various types of garbage of the community in a first time period, when Ri is larger than or equal to a preset value r, the garbage types corresponding to Ri are transmitted to a data collection base, collection placement information of the garbage types in the first time period is called from the data collection base and transmitted to the collection analysis module through a controller, and Ri and the preset value r are in other conditions, no processing is carried out;
the data collection library is used for collecting the collection placement information of various types of garbage and the position distance data among the garbage collection positions and storing the information to an internal folder;
the collection analysis module performs planning analysis operation on the garbage category according to the received collection placement information of the garbage category in the first time period to obtain a stacking amount Po of the garbage category in each garbage collection position in the first time period, the stacking amount Po is arranged in a descending order and divided into three sections, and position distance data Ajk, j =1.. m, k =1.. c corresponding to the stacking amount Po is taken from the data collection library according to each garbage collection position in the first section and the third section, namely when j =1 and k =2, A12 represents the position distance data between the first garbage collection position in the first section and the second garbage collection position in the third section, the position distance data can be obtained by a sensor and the like, and the difference between the Po of the two garbage collection positions is calibrated to be Sjk, j =1.. m, k =1.. c, and Ajk and Sjk are in one-to-one correspondence, that is, S12 when j =1 and k =2 represents the difference between the stacking amount Po of the first garbage collection position in the first interval and the stacking amount Po of the second garbage collection position in the third interval, according to the formula
J =1.. m, k =1.. c, and the matching between each garbage collection position in the first interval and each garbage collection position in the third interval is obtainedThe values s, a are correction factors, s is greater than a and
the units of s and a, Sjk and Ajk are reciprocal, and Djk is transmitted to the matching processing module without any processing on the second interval;
the matching processing module generates a matching metric table according to the received Djk, j and k respectively correspond to rows and columns of the matching metric table, when k =1 or 2 or.. n, the largest Djk corresponding to the matching metric table is extracted, if k =1 and k =3 are the same as the largest Djk corresponding to the matching metric table, k =1 and j =5 are matched according to the sequence of k, k =3 takes the largest subsequent Djk, and a garbage collection position in a first interval corresponding to the j and k and a garbage collection position in a third interval generate a replacement matching signal together and transmit the replacement matching signal to the verification judging module;
after the verification and evaluation module receives the replacement matching signal, the corresponding garbage collection positions in the two intervals and the edited text of exchanging the garbage collection devices of the two intervals and additionally adding one garbage collection device are sent to the mobile phone of the manager together, the mobile phone of the manager and the verification and evaluation module can be connected in a wireless mode through Bluetooth and the like, the garbage collection devices are exchanged and additionally added according to the text, the verification and evaluation module is further used for collecting the difference of the average garbage collection amount between the corresponding garbage collection positions in the two intervals of the second time period and marking the difference as Dh, h =1. Generating a feedback detection signal at the garbage collection position corresponding to the Dh, sending the edited re-matching and optimizing text to the mobile phone of the manager together, and re-matching and exchanging the relevant equipment at the garbage collection position according to the re-matching and optimizing text; the comprehensive conditions of various types of garbage in the community are firstly evaluated in a formula mode, the collection and placement conditions of the garbage are called according to a comparison relation, after the garbage is subjected to dispersion and equalization treatment, the garbage is divided into blocks, the blocks are combined and matched with called distance information, and the pertinence judgment is carried out according to subsequent verification and feedback, so that the aims of pertinence collection and optimization for the use of the best of things can be achieved while the urban domestic garbage is ensured to be properly treated;
the information analysis module is also used for transmitting the collection processing values Ri of various types of garbage of the community in the first time period to the heat processing module;
the heat processing module is based on a formula
Obtaining a total value of collection and treatment of all the garbage of the community in a first time period, and when G is within a preset range t or outside the preset range t, respectively generating a primary regulation signal or an advanced regulation signal for the community;
the heat processing module is also used for acquiring the flow configuration information of the community in a first time period, regulating and analyzing the flow configuration information to obtain a high heat signal, a common heat signal or a low heat signal, generating a high processing level for the community when the community corresponds to a high-level regulating signal, the high heat signal or the common heat signal, generating a low processing level for the community when the community corresponds to a primary regulating signal, the common heat signal or the low heat signal, generating a medium processing level for the community under other conditions, and transmitting the processing levels to the level processing platform;
the grade processing platform respectively edits texts of increasing supervision intensity, keeping normal supervision or reducing financial investment according to received high processing grade, medium processing grade or low processing grade, displays the texts through a display screen, namely performs formula analysis on the total garbage amount in the community, combines the texts with the flowing configuration condition of the community, accurately obtains the processing grade of the community through a dual grading mechanism, and further performs accurate judgment and reasonable adjustment on the garbage condition of the community according to a cascading processing mode to guarantee the long-term clean environmental protection degree of the community.
Furthermore, the comprehensive component information comprises garbage weight data, garbage number data and interval time data of two adjacent garbage collection, all kinds of data can be obtained according to elements such as sensors and counters, and the elements such as the sensors and the counters are installed at the same positions of all kinds of garbage collection devices, so that a data collection effect is achieved.
Further, the specific steps of the quantitative analysis operation are as follows:
the method comprises the following steps: acquiring comprehensive component information of various types of garbage of the community in a first time period, respectively calibrating total garbage weight data, total garbage number data and average interval time data of two adjacent garbage collections as Qi, Wi and Ei, i =1.. n, wherein Qi, Wi and Ei are in one-to-one correspondence, and the first time period is defined as one month time, namely Q1, W1 and E1 when i =1 are respectively represented as the total garbage weight data, the total garbage number data and the average interval time data of the two adjacent garbage collections of the community in the first time period;
step two: first according to the formula
N, obtaining collection processing values of various types of garbage of the community in the first time period, wherein q, w and e are correction factors, q is larger than e and larger than w, and q is larger than e and larger than w
Q, w and e are inverse to the units of Qi, Wi and Ei.
Furthermore, the collection placement information is represented as the amount of each time of garbage collection at each garbage collection position, and can be obtained by combining a positioning technology and a sensor or directly recording the information and the like.
Further, the specific steps of the planning and analyzing operation are as follows:
the method comprises the following steps: acquiring collection placement information of the garbage category in a first time period, and marking the amount of each garbage collection of the garbage category at each garbage collection as Tol, o =1.. b, l =1.. v, namely when o =1, T1l represents the amount of each garbage collection of the garbage category at the first garbage collection in the first time period;
step two: first according to the formula
O =1.. b, obtaining the average garbage collection amount of the garbage category at each garbage collection position in the first time period, and then obtaining the average garbage collection amount according to a formula
O =1.. b, obtaining the discrete value of the garbage collection quantity of the garbage category at each garbage collection position in the first time period, and finally obtaining the discrete value according to a formula
B, obtaining the accumulation amount of the garbage category at each garbage collection position in the first time period, wherein y and u are weight coefficients, y is larger than u and
。
furthermore, the mobile configuration information comprises the number of community registration frequent dwellings, the number of community garbage collection points and the number of community sanitation workers, and can be acquired by means of direct recording and the like.
Further, the specific steps of the regulation and control analysis operation are as follows:
the method comprises the following steps: acquiring flow configuration information of the community in a first time period, and respectively marking the number of community registration standing population, the number of community garbage collection points and the number of community sanitation workers of the community as Z, X and C, wherein Z, X and C are in one-to-one correspondence;
step two: first according to the formula
Obtaining a regulation value of the community in the first time period, wherein α, β and rho are weight coefficients, and α is larger than rho and is more than β and
and comparing the V with a preset value f, when the V is greater than or equal to the preset value f, if the conditions that Z is less than the preset value f, X is less than the preset value and C is greater than the preset value f are met, and the conditions that Z is greater than or equal to the preset value f, X is greater than or equal to the preset value and C is less than or equal to the preset value f are met, when the V is less than the preset value f, the conditions that Z is greater than or equal to the preset value f, X is greater than or equal to the preset value and C is less than or equal to the preset value are met, the community generates a low-heat signal, and under other conditions, the community generates a common-heat signal.
The invention has the beneficial effects that:
the invention collects the comprehensive component information of various wastes in the community, and carries out quantitative analysis operation on the comprehensive component information, namely, the total garbage weight data, the total garbage number data and the average interval time data of two adjacent garbage collections of various wastes in the community are calibrated and formulaically analyzed to obtain the collection processing value Ri of various wastes in the community, the collection placement information corresponding to the garbage category is retrieved from a data collection base according to a comparison relation, and the planning analysis operation is carried out on the collection processing value Ri, namely, the garbage collection amount of each time of the garbage category at each garbage collection position is calibrated, dispersed and equalized analyzed to obtain the accumulation amount Po of the garbage category at each garbage collection position in a first time period, the accumulation amount Po is divided into blocks, calibrated, analyzed and matched with tables to generate a replacement matching signal, and the corresponding information part of the replacement matching signal is sent to a mobile phone of a manager, meanwhile, the corresponding information part is calibrated, compared and analyzed in a range mode to generate a feedback detection signal, and the corresponding information part is sent to a mobile phone of a manager to match and exchange relevant equipment at the garbage collection position again;
the comprehensive conditions of various types of garbage in the community are firstly evaluated in a formula mode, the collection and placement conditions of the garbage are called according to a comparison relation, after the garbage is subjected to dispersion and equalization treatment, the garbage is divided into blocks, the blocks are combined and matched with called distance information, and the pertinence judgment is carried out according to subsequent verification and feedback, so that the aims of pertinence collection and optimization for the use of the best of things can be achieved while the urban domestic garbage is ensured to be properly treated;
the invention also generates a primary regulation signal or a high-level regulation signal by comparison and formula analysis according to the collection processing value Ri of each type of garbage of the community, collects the flow configuration information of the community, and performs regulation analysis operation on the flow configuration information, namely, the community registration regular population number, the community garbage collection point number and the community sanitation worker number of the community are calibrated and subjected to primary grading analysis to obtain a heat signal, a common heat signal or a low heat signal, and the two types of signals are combined with each other secondarily to generate a high processing level, a medium processing level or a low processing level, and the corresponding information part of the high processing level, the medium processing level or the low processing level is displayed by a display screen;
the method comprises the steps of firstly carrying out formula analysis on the total garbage amount condition in the community, then combining the formula analysis with the flow configuration condition of the community, accurately obtaining the processing grade of the community through a dual grading mechanism, and then carrying out accurate judgment and reasonable adjustment on the garbage condition of the community according to a stacking processing mode so as to guarantee the long-term cleanness and environmental protection degree of the community.
Detailed Description
As shown in fig. 1, a system for classifying, collecting and processing municipal solid waste comprises a data acquisition module, an information analysis module, a data collection library, a controller, a collection analysis module, a matching processing module, a verification and evaluation module, a heat processing module and a grade processing platform;
the data acquisition module is used for acquiring comprehensive component information of various types of garbage in the community, wherein the comprehensive component information comprises garbage weight data, garbage number data and interval time data of two adjacent garbage collection, and is transmitted to the information analysis module, and the various types of garbage can be dry garbage, wet garbage, harmful garbage, recoverable garbage and the like;
the information analysis module carries out quantitative analysis operation on the information, and the specific steps are as follows:
the method comprises the following steps: acquiring comprehensive component information of various types of garbage of the community in a first time period, respectively calibrating total garbage weight data, total garbage number data and average interval time data of two adjacent garbage collections as Qi, Wi and Ei, i =1.. n, wherein Qi, Wi and Ei are in one-to-one correspondence, and the first time period is defined as one month time, namely Q1, W1 and E1 when i =1 are respectively represented as the total garbage weight data, the total garbage number data and the average interval time data of the two adjacent garbage collections of the community in the first time period;
step two: first according to the formula
N, obtaining collection processing values of various types of garbage of the community in the first time period, wherein q, w and e are correction factors, q is larger than e and larger than w, and q is larger than e and larger than w
Q, w and e are reciprocal to the units of Qi, Wi and Ei;
acquiring collection processing values Ri of various types of garbage of the community in a first time period, transmitting the garbage types corresponding to Ri to a data collection base when Ri is larger than or equal to a preset value r, calling collection placement information of the garbage types in the first time period from the data collection base, wherein the collection placement information represents each garbage collection amount of each garbage collection position and is transmitted to a collection analysis module through a controller, and Ri and the preset value r are in other conditions, and no processing is performed;
the data collection library is used for collecting the collection placement information of various types of garbage and the position distance data among the garbage collection positions and storing the information to an internal folder;
the collection analysis module performs planning analysis operation on the garbage category according to the received collection placement information of the garbage category in the first time period, and the specific steps are as follows:
the method comprises the following steps: acquiring collection placement information of the garbage category in a first time period, and marking the amount of each garbage collection of the garbage category at each garbage collection as Tol, o =1.. b, l =1.. v, namely when o =1, T1l represents the amount of each garbage collection of the garbage category at the first garbage collection in the first time period;
step two: first according to the formula
O =1.. b, obtaining the average garbage collection amount of the garbage category at each garbage collection position in the first time period, and then obtaining the average garbage collection amount according to a formula
O =1.. b, obtaining the discrete value of the garbage collection quantity of the garbage category at each garbage collection position in the first time period, and finally obtaining the discrete value according to a formula
B, obtaining the accumulation amount of the garbage category at each garbage collection position in the first time period, wherein y and u are weight coefficients, y is larger than u and
;
so as to obtain the accumulation amount Po of the garbage category at each garbage collection position in the first time period, arranging the accumulation amounts Po in the order from large to small and dividing the accumulation amounts Po into three intervals, and according to each garbage collection position in the first interval and the third interval, the corresponding position distance data Ajk, j =1.. m, k =1.. c is called from the data collection base, that is, a12 when j =1 and k =2 represents the position and distance data between the first garbage collection location in the first interval and the second garbage collection location in the third interval, and can be obtained by means of a sensor or the like, and the difference between Po and Sjk is marked as Sjk, j =1.. m, k =1.. c, and Ajk and Sjk are in one-to-one correspondence, that is, S12 when j =1 and k =2 indicates the amount of deposit Po at the first garbage collection in the first section.The difference value between the accumulated quantity Po of the second garbage collection position in the third interval is calculated according to the formula
J =1.. m, k =1.. c, and obtaining a matching value between each garbage collection position in the first interval and each garbage collection position in the third interval, wherein s and a are correction factors, and s is larger than a and is larger than a
The units of s and a, Sjk and Ajk are reciprocal, and Djk is transmitted to the matching processing module without any processing on the second interval;
the matching processing module generates a matching metric table according to the received Djk, j and k respectively correspond to rows and columns of the matching metric table, and when k =1 or 2 or.. n, the largest Djk corresponding to the matching metric table is extracted, if k =1 and k =3 are the same as the largest Djk corresponding to the matching metric table when j =5, k =1 is matched with j =5 according to the sequence of k, k =3 takes the largest Djk after k =3, and a garbage collection position in a first interval corresponding to the j and k and a garbage collection position in a third interval generate a replacement matching signal together and transmit the replacement matching signal to the verification judging module;
after receiving the replacement matching signal, the verification and evaluation module sends the corresponding garbage collection places in the two intervals and the edited text of exchanging the garbage collection devices of the two intervals and additionally adding one garbage collection device to the mobile phone of the administrator, the mobile phone of the administrator and the verification and evaluation module can be connected in a wireless mode through Bluetooth and the like, and accordingly the garbage collection devices are exchanged and additionally added, the verification and evaluation module is further used for collecting the difference of the average garbage collection quantity between the corresponding garbage collection places in the two intervals of the second time interval and marking the difference as Dh, h =1. Generating a feedback detection signal at the garbage collection position corresponding to the Dh, sending the edited re-matching and optimizing text to the mobile phone of the manager together, and re-matching and exchanging the relevant equipment at the garbage collection position according to the re-matching and optimizing text; the comprehensive conditions of various types of garbage in the community are firstly evaluated in a formula mode, the collection and placement conditions of the garbage are called according to a comparison relation, after the garbage is subjected to dispersion and equalization treatment, the garbage is divided into blocks, the blocks are combined and matched with called distance information, and the pertinence judgment is carried out according to subsequent verification and feedback, so that the aims of pertinence collection and optimization for the use of the best of things can be achieved while the urban domestic garbage is ensured to be properly treated;
the information analysis module is also used for transmitting the collection processing values Ri of various types of garbage of the community in the first time period to the heat processing module;
the heat processing module is based on the formula
Obtaining a total value of collection and treatment of all the garbage of the community in a first time period, and when G is within a preset range t or outside the preset range t, respectively generating a primary regulation signal or an advanced regulation signal for the community;
the heat processing module is also used for collecting the mobile configuration information of the community in the first time period, wherein the mobile configuration information comprises the number of community registration standing population, the number of community garbage collection points and the number of community sanitation workers, and the mobile configuration information is regulated, controlled and analyzed, and specifically comprises the following steps:
the method comprises the following steps: acquiring flow configuration information of the community in a first time period, and respectively marking the number of community registration standing population, the number of community garbage collection points and the number of community sanitation workers of the community as Z, X and C, wherein Z, X and C are in one-to-one correspondence;
step two: first according to the formula
Obtaining a regulation value of the community in the first time period, wherein α, β and rho are weight coefficients, and α is larger than rho and is more than β and
comparing the V with a preset value f, when the V is greater than or equal to the preset value f, if the conditions that Z is less than the preset value f, X is less than the preset value and C is greater than the preset value f are met, and the conditions that Z is greater than or equal to the preset value f, X is greater than or equal to the preset value and C is less than or equal to the preset value f are met, when the V is less than the preset value f, the conditions that Z is greater than or equal to the preset value f, X is greater than or equal to the preset value and C is less than or equal to the preset value are met, the community generates a low-heat signal, and under other conditions, the community generates a common-heat signal;
obtaining an intense heat signal, a common heat signal or a low heat signal, generating a high processing level for the community when the community corresponds to a high level regulation signal and the intense heat signal or the common heat signal, generating a low processing level for the community when the community corresponds to a primary regulation signal and the common heat signal or the low heat signal, and generating a medium processing level for the community under other conditions and transmitting the processing levels to a level processing platform;
the grade processing platform then according to the high treatment level received, well treatment level or low treatment level, come edit respectively "increase supervision degree", "keep normal supervision" or "reduce financial resources and put into" text, and show through the display screen, carry out formulaization analysis to the rubbish total amount situation in the community earlier, combine together its mobile configuration condition with the community again, through the accurate processing grade who reachs the community of dual grade division mechanism, and then according to the processing mode of formula of stepping, come to carry out the accurate judgement and rationalization adjustment to the rubbish condition of community, with the long-term clean environmental protection degree of guarantee community.
A municipal domestic waste classification collects the processing system, in the course of working, gather the comprehensive component information of all kinds of rubbish in the community by the data acquisition module first, and transmit it to the information analysis module, and all kinds of rubbish can be dry rubbish, wet rubbish, harmful rubbish and recoverable rubbish, etc. the comprehensive component information includes weight data of rubbish, number data of rubbish and interval time data that two pieces of rubbish of adjacent collection;
the information analysis module carries out quantitative analysis operation on the garbage collection and analysis module, namely, the total garbage weight data, the total garbage number data and the average interval time data of two adjacent garbage collections of each type of garbage are calibrated and analyzed in a formula mode to obtain collection processing values Ri of each type of garbage of the community in a first time period, when Ri is larger than or equal to a preset value r, the garbage types corresponding to Ri are transmitted to a data collection base, the collection placement information of the garbage types in the first time period is called from the data collection base and is transmitted to the collection analysis module through the controller, and when Ri and the preset value r are in other conditions, no processing is carried out;
the data collection library is used for collecting the collection placement information of various types of garbage and the position distance data among the garbage collection positions and storing the information to an internal folder;
the collection analysis module performs planning analysis operation on the collected placement information expressed as each garbage collection amount of each garbage collection position according to the received collected placement information of the garbage category in the first time period, namely, the garbage collection amount of each garbage collection position of the garbage category is calibrated, discretized and equalized to obtain the accumulation amount Po of the garbage category in each garbage collection position in the first time period, the accumulation amount Po is arranged and divided into three intervals according to the sequence from large to small, the position distance data Ajk, j =1. According to the formula
J =1.. m, k =1.. c, and obtaining a matching value between each garbage collection position in the first interval and each garbage collection position in the third interval, wherein s and a are correction factors, and s is larger than a and is larger than a
And transmits Djk to the matchA processing module is configured, and no processing is carried out on the second interval;
the matching processing module generates a matching measurement table according to the received Djk, wherein j and k respectively correspond to rows and columns of the matching measurement table, and when k =1 or 2 or.
After receiving the replacement matching signal, the verification and evaluation module sends the corresponding garbage collection positions in the two intervals and the edited 'garbage collection device for exchanging the two and additionally adding a garbage collection device' text to the mobile phone of the manager together, and is also used for collecting the difference between the average garbage collection amounts of the corresponding garbage collection positions in the two intervals of the second time period and calibrating the difference as Dh, h =1.. x, the second time period is defined as half month time after the first time period, when the Dh is out of the preset range d, the verification and evaluation module generates a feedback detection signal at the garbage collection position corresponding to the Dh, and sends the edited're-matching and optimization' text to the mobile phone of the manager together, and then re-matches and exchanges the related equipment at the garbage collection position; the comprehensive conditions of various types of garbage in the community are firstly evaluated in a formula mode, the collection and placement conditions of the garbage are called according to a comparison relation, after the garbage is subjected to dispersion and equalization treatment, the garbage is divided into blocks, the blocks are combined and matched with called distance information, and the pertinence judgment is carried out according to subsequent verification and feedback, so that the aims of pertinence collection and optimization for the use of the best of things can be achieved while the urban domestic garbage is ensured to be properly treated;
the information analysis module also collects and transmits collection processing values Ri of various types of garbage of the community in a first time period to the heat processing module;
the heat processing module is based on the formula
Obtaining the community within the first time periodWhen G is within a preset range t or outside the preset range t, generating a primary regulation signal or an advanced regulation signal for the community respectively;
the heat processing module also collects the flow configuration information of the community in the first time period, wherein the flow configuration information comprises the number of registered frequent population of the community, the number of garbage collection points of the community and the number of sanitation workers of the community, and carries out regulation and analysis operation on the flow configuration information, namely, the community registration frequent population number, the community garbage collection point number and the community sanitation worker number of the community are calibrated and subjected to preliminary grading analysis to obtain an intense heat signal, a common heat signal or a low heat signal, when the community corresponds to the advanced regulation and control signal and the intense heat signal or the common heat signal, generating a high processing level for the community, generating a low processing level for the community when the community corresponds to the primary regulation signal and the general heat signal or the low heat signal, under other conditions, the processing stages in the community generation are transmitted to the level processing platform together;
the grade processing platform then according to the high treatment level received, well treatment level or low treatment level, come edit respectively "increase supervision degree", "keep normal supervision" or "reduce financial resources and put into" text, and show through the display screen, carry out formulaization analysis to the rubbish total amount situation in the community earlier, combine together its mobile configuration condition with the community again, through the accurate processing grade who reachs the community of dual grade division mechanism, and then according to the processing mode of formula of stepping, come to carry out the accurate judgement and rationalization adjustment to the rubbish condition of community, with the long-term clean environmental protection degree of guarantee community.
The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.