CN113409171A - Control method and device for determining enterprise grading and policy through economic evaluation of land parcel - Google Patents

Abstract

The invention discloses a control method for determining enterprise grading and policy through economic evaluation of land parcels, which determines the grading and policy application of enterprises through the economic evaluation of land units of different land parcels, realizes accurate strategy and improves the centralized utilization rate of land, and comprises the following steps: a. determining basic information of enterprises on each land, wherein the basic information comprises tax, industrial output value, water and electricity consumption, fixed asset investment, intellectual property, research and development cost, the number of research and development personnel, social security number, safe production, environmental protection, legal action, industry type, equity index, importance, enterprise property and enterprise qualification label; b. determining economic evaluation of the unit land of each land block based on the basic information of the enterprises on each land block; c. and determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit, and determining policy application based on different grades. The invention has the advantages of simple operation, convenient use, strong function and extremely high value.

Description

Control method and device for determining enterprise grading and policy through economic evaluation of land parcel

Technical Field

The invention belongs to the field of economic construction, and particularly relates to a control method and device for determining enterprise grading and policy through economic evaluation of land parcels.

Background

The government or the developer needs to attract the enterprises to stay in the land, but the situation of the enterprise is unknown, so that the relevant policies of the government cannot be well corresponded, the relevant policies cannot be reasonably utilized to deal with different enterprise requirements, meanwhile, the enterprises in different fields and different scales can be distributed on one land frequently, the unified management cannot be carried out, and the enterprises cannot be supervised, promoted and actively coordinated.

For the resident enterprises, the government or the developer can not provide support for the enterprises with good operation condition and market prospect, and can not punish and supervise the enterprises which have illegal operation and cannot bring economic benefit.

How to divide the economic evaluation of land parcels according to the basic conditions of different enterprises on different land parcels, how to realize accurate enforcement, improve the centralized utilization rate of land, how to actively supervise the enterprises, how to realize hierarchical management of the enterprises through the land parcels, and how to effectively support or punish each different enterprise becomes a technical problem to be urgently solved at present.

At present, a technical scheme capable of solving the technical problems does not exist, and specifically, a control method and a control device for determining enterprise grading and policies through economic evaluation of a land parcel are lacked.

Disclosure of Invention

Aiming at the technical defects in the prior art, the invention aims to provide a control method and a control device for determining enterprise grading and policies through economic evaluation of land parcels, according to one aspect of the invention, the control method for determining the enterprise grading and policies through economic evaluation of land parcels is provided, the grading and policy application of the enterprise are determined through the economic evaluation of land units of different land parcels, the accurate strategy is realized, and the land centralized utilization rate is improved, and the method comprises the following steps:

a. determining basic information of one or more enterprises on each land, wherein the basic information at least comprises tax, industrial output value, water and electricity consumption, fixed asset investment, intellectual property, research and development cost, the number of research and development personnel, social security number, safe production, environmental protection, lawsuit, industry type, right and benefit index of the enterprises in the industry chain node, importance, enterprise property and enterprise qualification label;

b. determining an economic evaluation of the unit land of each land block based on basic information of one or more enterprises on each land block;

c. and determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit, and determining the policy application of the enterprise corresponding to each land block based on different grades.

Preferably, before the step a, the method further comprises:

establishing different grades for plots with different economic evaluations, wherein the different grades at least comprise a first grade, a second grade and a third grade, wherein,

the policy information corresponding to the first file at least comprises: reducing or exempting land price, renting, reducing or exempting land use tax, increasing water and electricity energy consumption use index, and giving special financial tax policy support;

the policy information corresponding to the second level at least includes: maintaining land use tax, maintaining water and electricity energy consumption use indexes, and maintaining normal land price and house renting;

the policy information corresponding to the third gear at least comprises: the method has the advantages of improving land use tax, improving water and electricity charge, improving normal land price, reducing water and electricity consumption use indexes, reducing enterprise safety and environmental evaluation level, and preventing the enterprise from being allowed to be accessed and shut down.

Preferably, the step a comprises the steps of:

a 1: dividing a plurality of plots based on territorial planning and land detail planning, and determining the number of enterprises on the plots and land areas occupied by enterprise operation or building areas;

a 2: basic information for one or more businesses on each land parcel is determined.

Preferably, the step b comprises the steps of:

b 1: determining the investment intensity index of each land unit on the basis of the hydroelectric energy consumption, the fixed asset investment and the research and development cost;

b 2: determining the economic density index of each land unit based on tax and industrial output value;

b 3: determining a risk index for each plot unit of land based on whether one or more enterprises on each plot are safe to produce, whether an environmental protection problem exists, and whether legal action exists;

b 4: determining the technical density index of each land unit based on intellectual property, research and development cost, the number of research and development personnel and the number of social insurance personnel;

b 5: determining an industry relevance index of each land unit of land based on industry types, interest indexes and importance degrees of enterprises in industry chain nodes, enterprise properties and enterprise qualification labels;

b 6: taking the investment intensity index, the economic density index, the risk index, the technical density index and the industry relevance index as economic evaluation of each plot unit land.

Preferably, the step c includes:

c1, judging whether the risk index of each land unit is lower than a first threshold value, if so, executing the step c2, and if not, determining the risk index is a third grade;

c2, judging whether the investment intensity index of each land unit is larger than a second threshold value, if so, executing a step c 3; if not, determining that the land parcel is a second gear;

c 3: judging whether the economic density index of the unit land of each land block is greater than a third threshold value, if so, executing a step c 4; if not, determining that the land parcel is a second gear;

c 4: judging whether the technical density index of the unit land of each land block is greater than a fourth threshold value, if so, executing a step c 5; if not, determining that the land parcel is a second gear;

c 5: judging whether the industry correlation index of the unit land of each land block is larger than a fifth threshold value or not, and if so, determining that the land block is a first gear; if not, determining that the land parcel is the second gear.

Preferably, the step c includes:

c 6: determining an economic evaluation index per plot unit of land based on the investment intensity index, the economic density index, the risk index, the technical density index, and the industry correlation index;

c 7: when the economic evaluation index is larger than a sixth threshold value, determining that the plot is a first gear;

c 8: when the economic evaluation index is smaller than a sixth threshold and larger than a seventh threshold, determining that the plot is a second gear;

c 9: and when the economic evaluation index is smaller than a seventh threshold value, determining that the plot is a third gear.

Preferably, the unit land is determined in units of acres, and the buildings are determined in units of square meters.

According to another aspect of the present invention, there is provided a control apparatus for determining enterprise grading and policy through economic evaluation of land blocks, which determines grading and policy application of enterprises through economic evaluation of land units in different land blocks by using the control method, so as to achieve accurate strategy and improve centralized utilization rate of land, comprising:

the first determination means: determining basic information of one or more enterprises on each land, wherein the basic information at least comprises tax, industrial output value, water and electricity consumption, fixed asset investment, research and development cost, intellectual property, the number of research and development personnel, social security number, safe production, environmental protection, lawsuit, industry type, right and benefit index of the enterprises in the industry chain node, importance, enterprise property and enterprise qualification label;

second determining means: determining an economic evaluation of the unit land of each land block based on basic information of one or more enterprises on each land block;

third determining means: and determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit, and determining the policy application of the enterprise corresponding to each land block based on different grades.

Preferably, the first determination means comprises:

a first processing device: dividing a plurality of plots based on territorial planning and land detail planning, and determining the number of enterprises on the plots and land areas occupied by enterprise operation or building areas;

fourth determining means: basic information for one or more businesses on each land parcel is determined.

Preferably, the second determination means includes:

fifth determining means: determining the investment intensity index of each land unit on the basis of the hydroelectric energy consumption, the fixed asset investment and the research and development cost;

sixth determining means: determining the economic density index of each land unit based on tax and industrial output value;

seventh determining means: determining a risk index for each plot unit of land based on whether one or more enterprises on each plot are safe to produce, whether an environmental protection problem exists, and whether legal action exists;

eighth determining means: determining the technical density index of each land unit based on intellectual property, research and development cost, the number of research and development personnel and the number of social insurance personnel;

ninth determining means: determining an industry relevance index of each land unit of land based on industry types, interest indexes and importance degrees of enterprises in industry chain nodes, enterprise properties and enterprise qualification labels;

a second processing device: taking the investment intensity index, the economic density index, the risk index, the technical density index and the industry relevance index as economic evaluation of each plot unit land.

Preferably, the third determining means includes:

the first judgment device is used for judging whether the risk index of the unit land of each land block is lower than a first threshold value or not;

the second judgment device is used for judging whether the investment intensity index of each land unit is larger than a second threshold value or not;

a third judging device: judging whether the economic density index of the unit land of each land block is greater than a third threshold value;

a fourth judging device: judging whether the technical density index of the unit land of each land block is greater than a fourth threshold value or not;

fifth judging means: and judging whether the industry relevance index of the land of each land block unit is larger than a fifth threshold value.

Preferably, the third determining means includes:

tenth determining means: determining an economic evaluation index per plot unit of land based on the investment intensity index, the economic density index, the risk index, the technical density index, and the industry correlation index;

sixth judging means: when the economic evaluation index is larger than a sixth threshold value, determining that the plot is a first gear;

seventh judging means: when the economic evaluation index is smaller than a sixth threshold and larger than a seventh threshold, determining that the plot is a second gear;

eighth judging means: and when the economic evaluation index is smaller than a seventh threshold value, determining that the plot is a third gear.

The invention determines the economic evaluation of the enterprise on the land parcel through the basic information of the enterprise, realizes different enterprise grades and policy application according to different economic evaluations, realizes accurate enforcement and improves the land centralized utilization rate, can make decisions corresponding to different land parcels according to the grades of different enterprises, thereby providing support for the enterprises with good operating condition and market prospect, punishment and supervision are carried out on enterprises which have illegal operation and cannot bring economic benefits, local enterprises can actively finish government indexes, actively seek the progress of the enterprises and actively face the requirements of the local governments, and meanwhile, the governments can actively help the enterprises seeking the progress to give certain policy support, the passive handling method is simple to operate, convenient to use, powerful in function and extremely high in value.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic flow chart illustrating a control method for determining enterprise grading and policy through economic evaluation of a land parcel according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating a specific process for determining basic information of one or more businesses per land area according to a first embodiment of the present invention;

FIG. 3 is a schematic flow chart showing the detailed process of determining the economic valuation of the land unit of each land based on the basic information of one or more enterprises on each land according to the second embodiment of the invention;

FIG. 4 is a schematic flow chart showing a third embodiment of the present invention, which is used for determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit and determining the policy application of the enterprise corresponding to each land block based on different grades;

FIG. 5 is another detailed flowchart of a fourth embodiment of the present invention, which is used for determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit and determining the policy application of the enterprise corresponding to each land block based on different grades; and

fig. 6 is a schematic block diagram of a control device for determining enterprise grading and policy through economic evaluation of a geographical area according to another embodiment of the present invention.

Detailed Description

In order to better and clearly show the technical scheme of the invention, the invention is further described with reference to the attached drawings.

Fig. 1 shows a detailed flowchart of a control method for determining enterprise grades and policies through economic evaluation of land parcels according to a specific embodiment of the present invention, and the present invention discloses a control method for determining enterprise grades and policies through economic evaluation of land parcels, which determines the grades and policies of enterprises through economic evaluation of land units of different land parcels, so as to implement accurate strategy and improve the centralized utilization rate of land, and includes the following steps:

firstly, step S101 is entered, basic information of one or more enterprises on each land is determined, wherein the basic information at least comprises tax, industrial output value, water and electricity consumption, fixed asset investment, research and development cost, intellectual property, the number of research and development personnel, social security number, safety production, environmental protection, legal proceedings, industry type, interest index of the enterprises in the nodes of the industrial chain, importance, enterprise property and enterprise qualification label, and the technical personnel in the field understand that whether the enterprises are ready to be parked or already parked, the corresponding basic information is preferably required to the enterprises in the form of tables or spreadsheets before the enterprises are parked, meanwhile, effective information of the parked enterprises can be obtained in other third-party platforms of the Internet by means of big data, and the information is used for calculating economic evaluation of the land of the enterprises, and the basic information comprises but is not limited to the data, which will be further described in the detailed description which follows.

Then, step S102 is proceeded to determine the economic evaluation of land per land unit based on the basic information of one or more enterprises on each land, in such an embodiment, there may be one enterprise or multiple enterprises in each land, but the present invention mainly determines the economic evaluation of land per land unit by performing economic evaluation on land blocks rather than for each enterprise, so that it is necessary to aggregate the information of the enterprises or the enterprises, and in a preferred embodiment, the land unit is determined in units of mu, and the building is determined in units of square meters. Therefore, in combination with the context information, the present invention mainly determines the economic evaluation of each land unit by the economic evaluation of each land unit, and the enterprise grade mentioned in the following also corresponds to the economic evaluation of each land unit, for example, a land exists 100 acres, but many enterprises exist in the land unit at the same time, what the present invention needs to determine is to determine the economic evaluation of the land unit where each acre of land exists by combining the basic information of the enterprises, the economic evaluation includes but is not limited to the industrial production value and the tax contribution of each acre of land, or the production value and the tax contribution of each square meter of office land.

Finally, step S103 is performed, the grade corresponding to each land parcel is determined based on the economic evaluation of land unit of each land parcel, and the policy application of the enterprise corresponding to each land parcel is determined based on different grades, and to explain step S103, the steps before step S101 are combined, that is, before step S101, the method further includes:

different grades are established for plots with different economic evaluations, and the different grades at least comprise a first grade, a second grade and a third grade, while in other embodiments, more grades can be set, which does not affect the specific implementation scheme of the invention and is not described herein.

Further, the policy information corresponding to the first file at least includes: in the embodiment of reducing or reducing the land price, renting, reducing or avoiding the land use tax, increasing the water and electricity energy consumption use index and supporting the special financial tax policy, the first grade is the enterprise with positive benefits for the local economy and the development of the enterprise, the enterprise is developing at a high speed and is urgently required to be supported by the government, so the government reduces or reduces the land price, rents, reduces or avoids the land use tax, increases the water and electricity energy consumption use index and supports the special financial policy to a certain extent.

Further, the policy information corresponding to the second level at least includes: in such an embodiment, the second level is an enterprise which is developing steadily or is in a transition stage, and such an enterprise needs a certain degree of stability, so that such an enterprise can be supported by maintaining the land use tax, maintaining the water and electricity consumption use index, and maintaining the normal land price and the house renting.

Further, the policy information corresponding to the third gear at least includes: in such an embodiment, the third grade may have illegal operations or be in behaviors or states of various disputes and damaging local economic conditions, so that such enterprises can be supervised or treated by improving the land use tax, improving the water and electricity fee, improving the normal land price, reducing the water and electricity consumption use index, reducing the enterprise safety and environment evaluation level, not allowing the enterprises to enter, and stopping the enterprises.

In another preferred embodiment, we can also split the third gear into two gears, i.e. a third gear and a fourth gear, and in such an embodiment, the policy information corresponding to the third gear at least includes: the method has the advantages that land use tax is improved, water and electricity charge is improved, normal land price is improved, water and electricity consumption use indexes are reduced, the safety and environment protection evaluation level of an enterprise is reduced, the enterprise is required to increase research and development investment and safety and environment protection investment, the third gear is used as a gear for strengthening supervision and supervising rectification, and on the basis of the third gear, if specified problems still exist in specified time, the problem can be solved through the fourth gear, and policy information corresponding to the fourth gear at least comprises the following steps: the enterprise is not allowed to enter, the enterprise is stopped, and the enterprise is required to migrate out within the specified time range.

Fig. 2 is a schematic specific flowchart illustrating a first embodiment of the present invention, which is a detailed description of step S101, in which step S101 includes the following steps:

firstly, entering step S1011, dividing a plurality of plots based on territorial planning and land detail planning, and determining the number of enterprises on the plots, the land area occupied by enterprise operation or the building area, in such an embodiment, the land area of each plot can be the same or different, the invention mainly aims at the economic evaluation of enterprises on a unit land area, so that whether the areas divided into the plurality of plots based on territorial planning and land detail planning are the same or not has little influence on the application, but the number of enterprises on the plots, the land area occupied by enterprise operation or the building area can be determined on each plot, thus better promoting the calculation of the plots and the subsequent economic evaluation of the enterprises, in a preferred embodiment, if a plurality of enterprises exist on the plots, the average level of the plurality of enterprises is preferably calculated, that is, the parameters in all the basic information are summed and then averaged.

Finally, step S1012 is entered to determine basic information of one or more businesses in each land, and in such an embodiment, the determination of the basic information of one or more businesses will be based on the determination of the number of businesses, the name of the business, the land area occupied by business operations, or the building area in each land, and this will facilitate the calculation of the subsequent economic evaluation.

Fig. 3 is a detailed flowchart illustrating the second embodiment of the present invention, wherein the economic evaluation of land per land unit is determined based on basic information of one or more enterprises on each land, and fig. 3 is a detailed decomposition step of step S102, and specifically, step S102 comprises the following steps:

firstly, step S1021 is entered, the investment intensity index of each land unit is determined based on hydroelectric energy consumption, namely the synthesis of water and electricity used by an enterprise in a certain time range, and development cost, namely the fixed asset existing when the enterprise stays in the land unit, the fixed asset investment in the invention includes but is not limited to factory building, registered capital and the like, meanwhile, in order to better deal with more challenges, the development cost used by the enterprise for continuous innovation is one of the standards for determining the enterprise investment intensity index, in such an embodiment, the hydroelectric energy consumption, the fixed asset investment and the development cost can be converted into numerical values, for example, the hydroelectric energy consumption can be calculated through continuous characteristics or discrete characteristics, in the continuous characteristics, the hydroelectric energy consumption can be expressed through the form of functions and finally form numerical value representation, for example, the larger the water and electricity energy consumption is, the larger the numerical value is, and in the discrete feature, different water and electricity energy consumption may be divided into different gears, and different values exist in different gears, and such a manner is also applicable to the aspects of subsequent fixed asset investment, research and development costs, and the like, in these prior arts, for example, by calculating the water and electricity energy consumption in unit time, the water and electricity energy consumption is 56 based on the value of 100, and the fixed asset investment, research and development costs are 70 and 20 respectively, a numerical value with a value in the range of 100 is finally obtained by calculating through a weighted average algorithm or simply by adding the fixed asset investment, research and development costs and then subtracting the water and electricity energy consumption, and such a numerical value is the investment intensity index of the enterprise, and at the same time, the investment intensity indexes of other enterprises in all land blocks need to be calculated simultaneously, and finally, obtaining the final investment intensity index of each land unit through an average or weighted average algorithm, wherein the investment intensity index of each land unit is used as one of evaluation criteria of economic evaluation of each land unit for subsequent calculation.

Then, step S1022 is performed, and the economic density index of land in each land unit is determined based on tax and industrial output value, where tax is a standard form for the country to participate in the distribution, enforcement and non-payment of social products to provide public products to the society and meet the social needs according to the legal regulations. Tax is a very important policy tool, tax can reflect the economic situation of an enterprise to a certain extent, an industrial output value can reflect the operating condition of the enterprise more intuitively, the economic density index of a unit land of the enterprise can be obtained by calculating the tax and the industrial output value, specifically referring to the calculation mode in step S1021, the economic density index of other enterprises on the land block can be calculated, and the final economic density index of each land block unit land can be obtained by an average or weighted average algorithm, and the economic density index of each land block unit land can also be used as one of evaluation criteria of the economic evaluation of each land block unit land for subsequent calculation.

Then, step S1023 is performed, and the risk index of each land unit is determined based on whether one or more enterprises on each land are safely produced, whether an environmental protection problem exists, and whether legal action exists, in such an embodiment, if the enterprises have the safety production problem and the environmental protection problem belong to a decision form of direct one-vote rejection, that is, if the enterprises have the problem, the enterprises are directly classified as the lowest stage and then ranked after adjustment, if the problems still exist, the enterprises can be directly shut down, meanwhile, the risk index of each land unit also has a certain ranking standard, but the final risk index is preferably divided into only two states of risk and non-risk, and if legal action exists, the risk index of the enterprises can be used as a parameter to participate in the calculation of whether the enterprises are safely produced or not and whether the environmental protection problem exists or not, and the risk index of each land unit is also used for subsequent calculation as one of evaluation criteria of economic evaluation of each land unit.

Then, step S1024 is performed, and the technical density index of each land unit is determined based on the intellectual property, the research and development cost, the number of research and development personnel, the number of social security personnel, and the like in the enterprise, in such an embodiment, the intellectual property, the research and development cost, the number of research and development personnel, the number of social security personnel, and the like in the enterprise determine the potential capability of the enterprise, and the intellectual property, the research and development cost, the number of research and development personnel, and the number of social security personnel can be converted into a value within the value range of 100 according to the calculation method in step S1021 for expression, such a value represents the technical density index of each land unit, and the technical density index of each land unit is used for subsequent calculation as one of the evaluation criteria of the economic evaluation of each land unit.

Then, proceeding to step S1025, determining the industry relevance index of land of each land unit based on the industry type, the equity index and the importance degree of the enterprise in the industry chain node, the enterprise property and the enterprise qualification label, the industry type is a management item of an industry, contents, for example, manufacturing industry, chemical industry, electric business, and the like, the equity index and importance of the enterprise in the nodes of the industrial chain represent the status of the enterprise in the economic chain, such as the lowest level supplier, the middle processor or the upper level seller, the enterprise property and the enterprise qualification standard can also be used as a reference standard for determining the industry relevance index of each land unit of each land block, and further, the industry relevance index of each land unit is also used as one of evaluation criteria of economic evaluation of each land unit for subsequent calculation.

Those skilled in the art will understand that the execution sequence of the steps S1021 to S1025 is not sequential, and may be executed simultaneously, or any step may be executed first, and any step may be executed later, which do not affect the implementation of the specific solution of the present invention.

Finally, step S1026 is performed, and the investment intensity index, the economic density index, the risk index, the technical density index, and the industry correlation index are used as economic evaluations of each land unit, in such an embodiment, the indexes may be comprehensively calculated and then used for evaluating the economic evaluations of each land unit, or may be individually used as evaluation criteria to perform successive evaluations to finally obtain an enterprise classification, which will be further described in the detailed description below, and will not be repeated herein.

Fig. 4 is a schematic flowchart illustrating a third embodiment of the present invention, which is a specific flowchart for determining a grade corresponding to each land unit based on economic evaluation of land of each land unit, and determining a policy application of a business corresponding to each land unit based on different grades, and as a preferred embodiment of the present invention, fig. 4 illustrates an implementation manner of step S103, and specifically, the step S103 includes:

firstly, step S1031 is entered, whether the risk index of each plot unit land is lower than a first threshold is determined, if yes, step S1032 is executed, and if not, the risk index is determined to be a third grade.

Then, step S1032 is entered, whether the investment intensity index of each plot unit land is greater than a second threshold value is judged, if yes, step S1033 is executed; if not, determining that the plot is a second grade, wherein the value of the second threshold can be 80, the value of the second threshold can be macroscopically regulated and controlled through a policy, and if the investment intensity index of the enterprise is higher, the enterprise strength of the enterprise is considered to be stronger, and subsequent judgment of economic evaluation can be performed.

Then, step S1033 is carried out, whether the economic density index of the unit land of each land block is larger than a third threshold value or not is judged, and step S1034 is carried out if the economic density index of the unit land of each land block is larger than the third threshold value; if not, determining that the parcel is a second file, wherein the value of the third threshold value can be 85, the value of the third threshold value can also be macroscopically regulated and controlled through a policy, and if the economic density index of the enterprise is higher, the higher the economic income of the enterprise is, the subsequent economic evaluation judgment can be carried out.

Subsequently, step S1034 is performed, whether the technical density index of each unit land of the land block is greater than a fourth threshold is judged, and if yes, step S1035 is performed; if not, determining that the plot is a second grade, wherein the value of the fourth threshold can be 75, the value of the fourth threshold can also be macroscopically regulated and controlled through a policy, and if the technical density index of the enterprise is higher, the potential capability of the enterprise is considered to be stronger, and subsequent judgment of economic evaluation can be performed.

Finally, step S1035 is carried out, whether the industry relevance index of the unit land of each land block is larger than a fifth threshold value or not is judged, and if yes, the land block is determined to be the first gear; if not, determining that the parcel is the second file, and as a last link for judging whether the enterprise in the parcel can be brought into the first file, referring to the industry type of the enterprise, the equity index and the importance degree of the enterprise in an industry chain node, the property of the enterprise, and an enterprise qualification label, wherein the value of the fifth threshold value may be 60, and the value of the fifth threshold value may also be macroscopically regulated and controlled through a policy.

Fig. 5 shows another specific flowchart of a fourth embodiment of the present invention, which is used for determining the grade of each land parcel based on the economic evaluation of land units in each land parcel and determining the policy application of enterprises corresponding to each land parcel based on different grades, in such an embodiment, the present invention provides another technical solution for determining the grade of land parcels, specifically, the step S103 includes:

first, the flow proceeds to step S1036: determining an economic evaluation index of each land unit based on the investment intensity index, the economic density index, the risk index, the technical density index and the industry relevance index, wherein in such an embodiment, the weight of the risk index is higher than that of other indexes due to the particularity of the risk index, so in one embodiment, the risk index can be calculated as a weighted average of one of the rings, or the economic density index, the technical density index and the industry relevance index are added and then multiplied by the percentage of the risk index to serve as the economic evaluation index.

Then, step S1037 is performed, and when the economic evaluation index is greater than a sixth threshold, the parcel is determined to be the first gear, where the sixth threshold may be 80, that is, if the economic evaluation index is greater than 80, the parcel is determined to be the first gear.

Next, in step S1038, when the economic evaluation index is smaller than the sixth threshold and larger than the seventh threshold, it is determined that the parcel is the second gear, and the seventh threshold is 40, and when the economic evaluation index is smaller than 80 and larger than 40, it is determined that the parcel is the second gear.

Finally, in step S1039, when the economic evaluation index is smaller than a seventh threshold value, the parcel is determined to be the third gear, that is, when the economic evaluation index is smaller than 40, the parcel is determined to be the third gear.

Fig. 6 is a schematic diagram showing a module connection of a control device for determining enterprise grading and policy through economic evaluation of land blocks according to another embodiment of the present invention, and specifically, the present invention discloses not only a control method for determining enterprise grading and policy through economic evaluation of land blocks, but also a control device for determining grading and policy application of enterprises through economic evaluation of land units of different land blocks by using the control method, so as to implement accurate policy enforcement and improve centralized utilization of land, including: the first determination device 1: determining basic information of one or more enterprises on each land, wherein the basic information at least includes tax, industrial output value, water and electricity consumption, fixed asset investment, research and development cost, intellectual property, research and development cost, the number of research and development personnel, social security personnel, safe production, environmental protection, lawsuits, industry types, equity indexes of enterprises in industrial chain nodes, importance, enterprise properties, and enterprise qualification tags, and the working principle of the first determining device 1 may refer to the step S101, which is not described herein again.

Further, the control device further includes second determination means 2: the economic evaluation of the land of each land unit is determined based on the basic information of one or more enterprises on each land, and the operation principle of the second determining device 2 can refer to the aforementioned step S102, which is not described herein again.

Further, the control device further includes third determining means 3: the grade corresponding to each land parcel is determined based on the economic evaluation of the land of each land parcel unit, and the policy application of the enterprise corresponding to each land parcel is determined based on different grades, and the operation principle of the third determining device 3 may refer to the aforementioned step S103, which is not described herein again.

Further, the first determining means 1 comprises first processing means 11: based on the territory planning and the land detail planning, a plurality of plots are divided, and the number of enterprises on the plots, the land area occupied by the enterprise operation or the building area are determined, and the working principle of the first processing device 11 may refer to the step S1011, which is not described herein again.

Further, the first determination device 1 further includes a fourth determination device 12: determining basic information of one or more enterprises in each land, and the working principle of the fourth determining device 12 may refer to the foregoing step S1012, which is not described herein again.

Further, the second determining means 2 includes fifth determining means 21: the investment intensity index of each land unit is determined based on the hydroelectric power consumption, the fixed asset investment and the research and development cost, and the operation principle of the fifth determining device 21 may refer to the foregoing step S1021, which is not described herein again.

Further, the second determining device 2 further includes a sixth determining device 22: the economic density index of each land unit is determined based on the tax rate and the industrial output value, and the operation principle of the sixth determining device 22 can refer to the foregoing step S1022, which is not described herein again.

Further, the second determining device 2 further includes a seventh determining device 23: the operation principle of the seventh determining device 23 may refer to the foregoing step S1023, and will not be described herein again, based on whether one or more enterprises in each land block are safe to produce, whether an environmental protection problem exists, and whether legal action exists to determine the risk index of the land in each land block unit.

Further, the second determining device 2 further includes an eighth determining device 24: the technical density index of the land of each block unit is determined based on intellectual property, research and development cost, the number of research and development personnel, and the number of social security personnel, and the operation principle of the eighth determining device 24 may refer to the step S1024, which is not described herein again.

Further, the second determination device 2 further includes a ninth determination device 25: the operation principle of the ninth determining device 25 may refer to the step S1025, and will not be described herein again, based on the industry type, the equity index and the importance degree of the enterprise in the industry chain node, the enterprise property, and the enterprise qualification tag.

Further, the second determining means 2 further comprises second processing means 26: taking the investment intensity index, the economic density index, the risk index, the technical density index and the industry correlation index as economic evaluation of each land unit, the operation principle of the second processing device 26 may refer to the aforementioned step S1026, and details thereof are omitted here.

Further, the third determining device 3 includes a first determining device 31, which determines whether the risk index of land in each land block unit is lower than a first threshold, and the operation principle of the first determining device 31 may refer to the foregoing step S1031, which is not described herein again.

Further, the third determining device 3 further includes a second determining device 32, which determines whether the investment intensity index of each land unit is greater than a second threshold, and the working principle of the second determining device 32 may refer to the foregoing step S1032, which is not repeated herein.

Further, the third determining device 3 further includes a third judging device 33: whether the economic density index of the land of each land unit is greater than the third threshold is determined, and the operation principle of the third determining device 33 may refer to the foregoing step S1033, which is not described herein again.

Further, the third determining device 3 further includes a fourth judging device 34: whether the technical density index of the land of each plot unit is greater than the fourth threshold is determined, and the working principle of the fourth determining device 34 may refer to the step S1034, which is not described herein again.

Further, the third determining device 3 further includes a fifth judging device 35: whether the industry correlation index of each land unit in each land block is greater than a fifth threshold is determined, and the operation principle of the fifth determining device 35 may refer to the step S1035, which is not described herein again.

Further, the third determining device 3 further includes a tenth determining device 36: the economic evaluation index of each land unit is determined based on the investment intensity index, the economic density index, the risk index, the technical density index and the industry correlation index, and the operation principle of the tenth determining device 36 may refer to the step S1036, which is not described herein again.

Further, the third determining device 3 further includes a sixth judging device 37: when the economic evaluation index is greater than the sixth threshold, it is determined that the parcel is the first gear, and the operation principle of the sixth determining device 37 may refer to the step S1037, which is not described herein again.

Further, the third determining device 3 further includes a seventh judging device 38: when the economic evaluation index is smaller than the sixth threshold and larger than the seventh threshold, it is determined that the parcel is the second gear, and the operation principle of the seventh determining device 38 may refer to the step S1038, which is not described herein again.

Further, the third determining device 3 further includes an eighth judging device 39: when the economic evaluation index is smaller than the seventh threshold, it is determined that the parcel is the third gear, and the working principle of the eighth determining device 39 may refer to the step S1039, which is not described herein again.

It should be noted that the specific implementation of each of the above device embodiments is the same as the specific implementation of the corresponding method embodiment, and is not described herein again. In conclusion, the technical scheme of the invention integrates land resources for governments and improves enterprise efficiency.

The algorithms and displays presented herein are not inherently related to any particular computer, virtual machine, or other apparatus. Various general purpose devices may be used with the teachings herein. The required structure for constructing such a device will be apparent from the description above. Moreover, the present invention is not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of the present invention as described herein, and any descriptions of specific languages are provided above to disclose the best mode of the invention.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some embodiments, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the invention and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that the invention as claimed requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Furthermore, those of skill in the art will understand that although some embodiments described herein include some features included in other embodiments, not others, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components according to embodiments of the present invention. The present invention may also be embodied as apparatus or device programs (e.g., computer programs and computer program products) for performing a portion or all of the methods described herein. Such programs implementing the present invention may be stored on computer-readable media or may be in the form of one or more signals. Such a signal may be downloaded from an internet website or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (12)

1. A control method for determining enterprise grading and policy through economic evaluation of land parcels is characterized by comprising the following steps of:

a. determining basic information of one or more enterprises on each land, wherein the basic information at least comprises tax, industrial output value, water and electricity consumption, fixed asset investment, intellectual property, research and development cost, the number of research and development personnel, social security number, safe production, environmental protection, lawsuit, industry type, right and benefit index of the enterprises in the industry chain node, importance, enterprise property and enterprise qualification label;

b. determining an economic evaluation of the unit land of each land block based on basic information of one or more enterprises on each land block;

c. and determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit, and determining the policy application of the enterprise corresponding to each land block based on different grades.

2. The control method according to claim 1, characterized by, before the step a, further comprising:

establishing different grades for plots with different economic evaluations, wherein the different grades at least comprise a first grade, a second grade and a third grade, wherein,

the policy information corresponding to the first file at least comprises: reducing or exempting land price, renting, reducing or exempting land use tax, increasing water and electricity energy consumption use index, and giving special financial tax policy support;

the policy information corresponding to the second level at least includes: maintaining land use tax, maintaining water and electricity energy consumption use indexes, and maintaining normal land price and house renting;

the policy information corresponding to the third gear at least comprises: the method has the advantages of improving land use tax, improving water and electricity charge, improving normal land price, reducing water and electricity consumption use indexes, reducing enterprise safety and environmental evaluation level, and preventing the enterprise from being allowed to be accessed and shut down.

3. The control method according to claim 1 or 2, wherein the step a includes the steps of:

a 1: dividing a plurality of plots based on territorial planning and land detail planning, and determining the number of enterprises on the plots and land areas occupied by enterprise operation or building areas;

a 2: basic information for one or more businesses on each land parcel is determined.

4. The control method according to claim 3, wherein the step b includes the steps of:

b 1: determining the investment intensity index of each land unit on the basis of the hydroelectric energy consumption, the fixed asset investment and the research and development cost;

b 2: determining the economic density index of each land unit based on tax and industrial output value;

b 3: determining a risk index for each plot unit of land based on whether one or more enterprises on each plot are safe to produce, whether an environmental protection problem exists, and whether legal action exists;

b 4: determining the technical density index of each land unit based on intellectual property, research and development cost, the number of research and development personnel and the number of social insurance personnel;

b 5: determining an industry relevance index of each land unit of land based on industry types, interest indexes and importance degrees of enterprises in industry chain nodes, enterprise properties and enterprise qualification labels;

b 6: taking the investment intensity index, the economic density index, the risk index, the technical density index and the industry relevance index as economic evaluation of each plot unit land.

5. The control method according to claim 1, wherein the step c includes:

c1, judging whether the risk index of each land unit is lower than a first threshold value, if so, executing the step c2, and if not, determining the risk index is a third grade;

c2, judging whether the investment intensity index of each land unit is larger than a second threshold value, if so, executing a step c 3; if not, determining that the land parcel is a second gear;

c 3: judging whether the economic density index of the unit land of each land block is greater than a third threshold value, if so, executing a step c 4; if not, determining that the land parcel is a second gear;

c 4: judging whether the technical density index of the unit land of each land block is greater than a fourth threshold value, if so, executing a step c 5; if not, determining that the land parcel is a second gear;

c 5: judging whether the industry correlation index of the unit land of each land block is larger than a fifth threshold value or not, and if so, determining that the land block is a first gear; if not, determining that the land parcel is the second gear.

6. The control method according to claim 1, wherein the step c includes:

c 6: determining an economic evaluation index per plot unit of land based on the investment intensity index, the economic density index, the risk index, the technical density index, and the industry correlation index;

c 7: when the economic evaluation index is larger than a sixth threshold value, determining that the plot is a first gear;

c 8: when the economic evaluation index is smaller than a sixth threshold and larger than a seventh threshold, determining that the plot is a second gear;

c 9: and when the economic evaluation index is smaller than a seventh threshold value, determining that the plot is a third gear.

7. The control method according to claim 1, wherein the unit land is determined in units of acres and the building is determined in units of square meters.

8. A control device for determining enterprise grading and policy through economic evaluation of land parcels, which determines enterprise grading and policy application through economic evaluation of land units of different land parcels by the control method of any one of claims 1-7, thereby realizing accurate strategy and improving centralized utilization rate of land, comprising:

first determination means (1): determining basic information of one or more enterprises on each land, wherein the basic information at least comprises tax, industrial output value, water and electricity consumption, fixed asset investment, intellectual property, research and development cost, the number of research and development personnel, social security number, safe production, environmental protection, lawsuit, industry type, right and benefit index of the enterprises in the industry chain node, importance, enterprise property and enterprise qualification label;

second determination means (2): determining an economic evaluation of the unit land of each land block based on basic information of one or more enterprises on each land block;

third determination means (3): and determining the grade corresponding to each land block based on the economic evaluation of the land of each land block unit, and determining the policy application of the enterprise corresponding to each land block based on different grades.

9. The control device according to claim 8, characterized in that the first determining means (1) comprises:

first processing device (11): dividing a plurality of plots based on territorial planning and land detail planning, and determining the number of enterprises on the plots and land areas occupied by enterprise operation or building areas;

fourth determination means (12): basic information for one or more businesses on each land parcel is determined.

10. The control device according to claim 8, characterized in that the second determining means (2) comprises:

fifth determination means (21): determining the investment intensity index of each land unit on the basis of the hydroelectric energy consumption, the fixed asset investment and the research and development cost;

sixth determination means (22): determining the economic density index of each land unit based on tax and industrial output value;

seventh determining means (23): determining a risk index for each plot unit of land based on whether one or more enterprises on each plot are safe to produce, whether an environmental protection problem exists, and whether legal action exists;

eighth determining means (24): determining the technical density index of each land unit based on intellectual property, research and development cost, the number of research and development personnel and the number of social insurance personnel;

ninth determining means (25): determining an industry relevance index of each land unit of land based on industry types, interest indexes and importance degrees of enterprises in industry chain nodes, enterprise properties and enterprise qualification labels;

second processing device (26): taking the investment intensity index, the economic density index, the risk index, the technical density index and the industry relevance index as economic evaluation of each plot unit land.

11. The control device according to claim 8, characterized in that the third determining means (3) comprises:

a first judgment means (31) for judging whether the risk index of land per block unit is lower than a first threshold value;

a second judgment device (32) for judging whether the investment intensity index of each land unit is larger than a second threshold value;

third judgment means (33): judging whether the economic density index of the unit land of each land block is greater than a third threshold value;

fourth judgment means (34): judging whether the technical density index of the unit land of each land block is greater than a fourth threshold value or not;

fifth judging means (35): and judging whether the industry relevance index of the land of each land block unit is larger than a fifth threshold value.

12. The control device according to claim 8, characterized in that the third determining means (3) comprises:

tenth determination means (36): determining an economic evaluation index per plot unit of land based on the investment intensity index, the economic density index, the risk index, the technical density index, and the industry correlation index;

sixth judging means (37): when the economic evaluation index is larger than a sixth threshold value, determining that the plot is a first gear;

seventh judging means (38): when the economic evaluation index is smaller than a sixth threshold and larger than a seventh threshold, determining that the plot is a second gear;

eighth judging means (39): and when the economic evaluation index is smaller than a seventh threshold value, determining that the plot is a third gear.

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