CN110717209A

CN110717209A - Design scheme quantization result obtaining method, device, equipment and storage medium

Info

Publication number: CN110717209A
Application number: CN201810677455.5A
Authority: CN
Inventors: 张海明
Original assignee: Xi'an Sea Square Network Technology Co Ltd
Current assignee: Nanjing Runshijing Environmental Engineering Co ltd
Priority date: 2018-06-27
Filing date: 2018-06-27
Publication date: 2020-01-21
Anticipated expiration: 2038-06-27
Also published as: CN110717209B

Abstract

The application relates to a method, a device, equipment and a storage medium for obtaining a quantization result of a design scheme, wherein the method comprises the following steps: the method comprises the steps that computer equipment obtains a design scheme to be quantized and a first quantization index of the design scheme; the computer equipment determines a quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution. The execution process of the method is automatically processed by computer equipment, so that the manual participation process is reduced, the execution efficiency is greatly improved, the influence of the subjective consciousness of designers on the evaluation result is reduced, and the matching degree of the evaluation result and the actual effect of the design scheme is further improved.

Description

Design scheme quantization result obtaining method, device, equipment and storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to a method, an apparatus, a device, and a storage medium for obtaining a quantization result of a design solution.

Background

With the continuous development of social economy, people have higher and higher requirements on comfort, attractiveness and the like of areas such as residential areas, office areas and the like. In daily life, an excellent area design scheme not only needs careful design of designers, but also needs evaluation, analysis of advantages and disadvantages of the scheme and relevant opinions.

Currently, an evaluator usually performs evaluation on a design according to subjective awareness or accumulated experience of an individual during the evaluation process.

However, in the conventional technology, an evaluator is low in efficiency in evaluating design, and the difference between the output evaluation result and the actual effect of the design scheme is large.

Disclosure of Invention

Therefore, it is necessary to provide a method, an apparatus, a device and a storage medium for obtaining a quantized result of a design solution, which are directed to the problems in the conventional technology that an evaluator is low in efficiency in evaluating the design and the difference between the output evaluation result and the actual effect of the design solution is large.

In a first aspect, an embodiment of the present application provides a method for obtaining a quantization result of a design solution, including:

the method comprises the steps that computer equipment obtains a design scheme to be quantized and a first quantization index of the design scheme;

the computer equipment determines a quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution.

According to the method for obtaining the quantization result of the design scheme, the computer equipment firstly obtains the design scheme to be quantized and the first quantization index of the design scheme, and then determines the quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and the preset quantization model. The execution process of the method is automatically processed by computer equipment, so that the manual participation process is reduced, the execution efficiency is greatly improved, the influence of the subjective consciousness of designers on the evaluation result is reduced, and the matching degree of the evaluation result and the actual effect of the design scheme is further improved.

In a second aspect, an embodiment of the present application provides an apparatus for obtaining a quantization result of a design, including:

the device comprises an acquisition module, a calculation module and a calculation module, wherein the acquisition module is used for acquiring a design scheme to be quantized and a first quantization index of the design scheme;

the determining module is used for determining a quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution.

In a third aspect, an embodiment of the present application provides a computer device, including a memory and a processor, where the memory stores a computer program, and the processor implements the following steps when executing the computer program:

obtaining a design scheme to be quantized and a first quantization index of the design scheme;

determining a quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution.

In a fourth aspect, an embodiment of the present application provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the following steps:

The device, the equipment and the storage medium for obtaining the quantization result of the design scheme can enable computer equipment to obtain the design scheme to be quantized and the first quantization index of the design scheme, and then determine the quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model. The execution process of the method is automatically processed by computer equipment, so that the manual participation process is reduced, the execution efficiency is greatly improved, the influence of the subjective consciousness of designers on the evaluation result is reduced, and the matching degree of the evaluation result and the actual effect of the design scheme is further improved.

Drawings

FIG. 1 is a schematic diagram illustrating an internal structure of a computer device according to an embodiment;

FIG. 2 is a flow chart illustrating a method for obtaining a quantization result of a design according to an embodiment;

FIG. 3 is a schematic flow chart of a method for obtaining a quantization result of a design according to another embodiment;

FIG. 4 is a schematic flow chart illustrating a method for obtaining a quantization result of a design according to yet another embodiment;

FIG. 5 is a schematic flow chart illustrating a method for obtaining a quantization result of a design according to yet another embodiment;

FIG. 6 is a flow chart illustrating a method for obtaining a quantization result of a design according to yet another embodiment;

FIG. 7 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment;

FIG. 8 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment;

fig. 9 is a flowchart illustrating a method for obtaining a quantization result of a design solution according to an embodiment;

fig. 10 is a flowchart illustrating a method for obtaining a quantization result of a design according to another embodiment;

fig. 11 is a schematic structural diagram of a quantized result obtaining apparatus according to an embodiment;

fig. 12 is a schematic structural diagram of a quantized result obtaining apparatus according to another embodiment;

fig. 13 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment;

fig. 14 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment;

fig. 15 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The method for obtaining the quantization result of the design scheme provided by the embodiment of the application can be applied to the computer equipment shown in fig. 1. The computer device comprises a processor and a memory connected by a system bus, wherein a computer program is stored in the memory, and the steps of the method embodiments described below can be executed when the processor executes the computer program. Optionally, the computer device may further comprise a network interface, a display screen and an input device. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a nonvolatile storage medium storing an operating system and a computer program, and an internal memory. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the computer device is used for communicating with an external terminal through a network connection. Optionally, the computer device may be a server, a personal computer (PC for short), a personal digital assistant, other terminal devices such as a tablet computer (PAD for short), a mobile phone, and the like, or a cloud or a remote server, and the specific form of the computer device is not limited in the embodiments of the present invention.

In the traditional evaluation of the room design scheme, designers usually carry out the evaluation according to subjective consciousness or accumulated experience of the individuals, but the efficiency of artificial evaluation is low, and the evaluation result greatly differs from the actual effect of the design scheme due to the fact that the evaluation excessively depends on the experience and the subjective consciousness of the individuals. The method, the device, the equipment and the storage medium for obtaining the quantization result of the design scheme provided by the embodiment of the application aim to solve the technical problems of the traditional technology.

It should be noted that the execution subject of the method embodiments described below may be a device for obtaining a quantized result of a design, and the device may be implemented as part of or all of the computer apparatus described above by software, hardware, or a combination of software and hardware. The method embodiments described below are described by way of example with the execution subject being a computer device.

Fig. 2 is a schematic flow chart of a method for obtaining a quantization result of a design scheme according to an embodiment, where the embodiment relates to a specific process of determining, by a computer device, a quantization result of a design scheme according to a preset quantization model, an obtained design scheme to be quantized, and a first quantization index of the design scheme. As shown in fig. 2, the method includes:

s101, computer equipment obtains a design scheme to be quantized and a first quantization index of the design scheme.

The design scheme to be quantified refers to a design scheme that has been designed and completed and needs to be evaluated for quality, and the design scheme may be a scheme designed by a designer using computer software or a scheme designed automatically by computer equipment, which is not limited in this embodiment. The first quantitative index of the design scheme may be an index that needs to be evaluated on the design scheme, may be a preset default index, and may also be an index input by a designer. Optionally, when the first quantization index is an index input by a designer, the first quantization index may be input to the computer device by the designer in a text input manner, or may be input to the computer device by a voice input manner.

Optionally, the process of acquiring the design scheme by the computer device may be input by a designer, or may be automatic calling of the design scheme stored in the computer.

S102, the computer equipment determines a quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution.

The attribute of the design solution is information that can represent the characteristics of the design solution itself, and may be a building type (such as office building, residential building, etc.), a space size (such as 100m in area)²) And pattern distribution (e.g., one-room, three-room, two-room, etc.). The preset quantization model may be a trained model or a model set according to a user requirement, and this embodiment is not limited. Illustratively, the process of the computer device obtaining the quantitative model may be as follows:

s102, 102a, inputting the training design scheme in the training data to an initial quantization model by the computer equipment to obtain an initial quantization result of the training design scheme.

S102, 102b, the computer equipment compares the initial quantization result with an actual quantization result corresponding to the training design scheme in the training data, adjusts a correlation coefficient of the initial quantization model according to the comparison result, and obtains an adjusted quantization model until the quantization result output by the adjusted quantization model is the same as the actual quantization result corresponding to the training design scheme or within an allowable error range. The actual quantization result of the training design scheme can be a result obtained after an evaluator performs manual evaluation on the training design scheme according to experience.

S102 c: the computer device determines the adjusted quantization model as the preset quantization model in the embodiment.

Specifically, the quantization model includes a model function for characterizing a correlation between the quantization result and a plurality of first quantization indexes. Optionally, the model function may be a high-order nonlinear equation, which is described by taking a quadratic equation as an example, where the quadratic equation may include a plurality of coefficients and unknown quantities, a value of each unknown quantity is a quantization result corresponding to each first quantization index, each coefficient is a weight occupied by the corresponding first quantization index, and the weight occupied by the first quantization index may be preset in the quantization model or may be input by a designer according to a user requirement. For example, assume that the first quantization index for evaluating a certain design is a and B, and the above quadratic equation is y ═ ax₁ ²+bx₂The unknown quantity corresponding to the index A is x₁The unknown quantity corresponding to the index B is x₂The weight a of the index a is 0.4, the weight B of the index B is 0.6, the quantization result of the index a is 8 and the quantization result of the index B is 7 through the analysis of the completion degree of the two indexes, and then the quantization result of the design scheme can be obtained by utilizing the quadratic equation. Optionally, when the quantitative result of the design scheme adopts a score form, if the obtained score is greater than 100, the score can be mapped to 1-100 according to a certain mapping rule.

In the above quantization model, the first quantization parameter is more specific parameter information under the first quantization index, for example, if the first quantization index is a cost, the first quantization parameter may be a material cost, a maintenance cost, and the like. The quantitative result is a specific result which can indicate the quality of the design scheme and can be in the form of score, star level, good and bad and the like. Alternatively, the quantization result of the design may be at least one of a quantization result of the design under each first quantization index and a total quantization result of the design under all first quantization indexes.

Optionally, the quantization model may further include a plurality of second quantization indexes, which may implement different quantization operations on different design schemes, so that different quantization models do not need to be established on different design schemes, thereby improving the working efficiency of the computer device.

In the method for obtaining the quantization result of the design scheme provided by this embodiment, the computer device first obtains the design scheme to be quantized and the first quantization index of the design scheme, and then automatically determines the quantization result of the design scheme according to the attribute of the design scheme, the first quantization index and the preset quantization model. The execution process of the method is automatically processed by computer equipment, so that the manual participation process is reduced, the execution efficiency is greatly improved, the influence of the subjective consciousness of designers on the evaluation result is reduced, and the matching degree of the evaluation result and the actual effect of the design scheme is further improved.

Fig. 3 is a flowchart illustrating a method for obtaining a quantization result of a design according to another embodiment, where the embodiment relates to a specific process in which a computer device determines a quantization result of a design according to an attribute of the design, a first quantization index, and a preset quantization model. On the basis of the foregoing embodiment, optionally, as shown in fig. 3, the foregoing S102 includes:

s201, the computer device determines a quantization result of the design scheme under each first quantization index according to the attribute of the design scheme, the first quantization index and a preset quantization model.

Specifically, the computer device determines a quantization result of the design scheme under each first quantization index according to the attribute of the design scheme, the first quantization index and a preset quantization model. Each first quantization index may include a plurality of first quantization parameters, and the preset quantization model may include a model function of an association relationship between a quantization result of the first quantization index and the plurality of first quantization parameters. Alternatively, the model function may be a complex equation, in the case of a linear equation, such as y ═ ax₁+bx₂. For example, assuming that the design is a kitchen, a certain first quantitative index is comfort level, which includes two first quantitative parameters of permeability and space utilization, corresponding to x in the above equation₁And x₂The weight a occupied by permeability is 0.7, and the weight b occupied by space utilizationAnd the permeability is 0.3, and the quantized result of the permeability is 6 and the quantized result of the space utilization is 8 through the analysis of the degree of completion of the two first quantized parameters, so that the quantized result of the design scheme under the first quantized index comfort level can be obtained by using the above equation. Of course, the form of the model function is only an example, and the present embodiment does not limit this.

In addition, assuming that the first quantization index for evaluating the design is A, B, C, D four indexes, the computer device needs to be able to determine the quantization results of the four indexes respectively using the above equation.

And S202, the computer equipment carries out summation operation on the quantization results of the design scheme under each first quantization index according to the quantization model to obtain the total quantization result of the design scheme.

Specifically, after the computer device determines the quantization result of each of the first quantization indexes, the computer device may perform a summation operation on the respective quantization results to determine the total quantization result of the design solution. Alternatively, the summation operation may be directly added summation, or weighted power summation, or other calculation methods. Optionally, if the quantization result is in the form of a star level or a grade, the computer device may convert the quantization result into the form of a score according to a corresponding relationship between the star level or the grade and the score, and then perform a summation operation.

For example, assuming that the quantization results of the first quantization index A, B, C, D are 9, 8, and 7, respectively, and the summing operation is direct addition summing, the computer apparatus may determine that the total quantization result of the design is (9+8+8+7) ═ 32.

In the method for obtaining the quantization result of the design scheme provided in this embodiment, the computer device determines the quantization result of the design scheme under each first quantization index according to the attribute of the design scheme, the first quantization index and the preset quantization model, and further obtains the total quantization result of the design scheme. The method determines the final total quantization result of the design scheme according to the quantization result of each first quantization index, improves the accuracy of the total quantization result of the design scheme, and obtains the quantization result of each first quantization index, so that the evaluation process of the design scheme is more sufficient.

Fig. 4 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment, where this embodiment relates to a specific process in which a computer device determines a quantization result of a design under each first quantization index according to an attribute of the design, the first quantization index, and a preset quantization model. On the basis of the foregoing embodiment, optionally, as shown in fig. 4, the foregoing S201 includes:

s301, the computer device performs quantization operation on the attribute of the design scheme according to the first quantization parameter and a preset design experience standard library to obtain a quantization result of the design scheme under each first quantization parameter; wherein, the design experience standard library comprises design standards of different design schemes under different quantization parameters.

Since each first quantization index may include a plurality of first quantization parameters, the computer device may first determine a quantization result of the design under each first quantization parameter. Specifically, the computer device may analyze and compare attributes of the design solution under each first quantization parameter according to a preset design experience standard library to obtain a quantization result under each first quantization parameter, where the design experience standard library includes design standards of different design solutions under different quantization parameters. For example, in the design experience standard library, for the "space utilization" quantization parameter, the design standard is that the utilization is 70% passing, above 70% may be classified as higher and higher according to the higher degree, and below 70% may be classified as lower and lower according to the lower degree.

For example, assume a design scenario of a room model with a total room area of 100m²The design standard of the room under the quantitative parameter of the space utilization rate is that the utilization rate reaches 70 percent, and the use area of the room is 80m by analyzing the use area in the room²Then the space utilization is 80%. According to the design criteria, it can be determined that the space utilization of the room is high.

And S302, the computer equipment performs summation operation on the quantization result of the design scheme under each first quantization parameter according to the quantization model to obtain the quantization result of the design scheme under each first quantization index.

Specifically, after the computer device determines the quantization result of the design at each first quantization parameter, a summation operation may be performed on the quantization results to determine the quantization result of the design at each quantization index. Alternatively, the summation operation may be directly added summation, or weighted power summation, or other calculation methods. Optionally, if the quantization result is in the form of a star level or a grade, the computer device may convert the quantization result into the form of a score according to a corresponding relationship between the star level or the grade and the score, and then perform a summation operation.

For example, if the first quantization indexes of a certain design are respectively a comfort index and a visual index, the first quantization parameters included in the comfort index are convenience in use and space utilization, the first quantization parameters included in the visual index are decoration style, space distribution and color co-scheduling, and the comparison with the design standard in the design experience standard library results in that the quantization results of the convenience in use and the space utilization are respectively 9 and 8, the quantization results of the decoration style, the space distribution and the color co-scheduling are respectively 8, 8 and 7, and the summation operation is summation average, the computer device may determine that the quantization result of the design under the comfort index is (9+ 8)/2-8.5, and the quantization result under the visual index is (8+8+ 7)/3-7.7.

Further, after determining the quantization result of the design under each first quantization index, the computer device may determine the total quantization result of the design according to the method of S202 in the above embodiment.

Optionally, the first quantization index may include at least one of a comfort index and a visual index. The comfort indicator may comprise at least one of the following first quantization parameters: the system comprises a region use convenience degree, a region function realization degree, a region independence degree, a space utilization rate and a space permeability. The visual indicator may comprise at least one of the following first quantization parameters: decoration style, spatial distribution and color coordination.

Wherein, the convenience degree of the area use represents the convenience degree when using the area, such as: the larger the use space of the area is, the more convenient and fast the use space is; the implementation degree of the region function represents the implementation degree of the basic function of the region, such as: for the rest area, the basic functions can be met only by setting a bed or a sofa for rest; the region independence degree represents the independence degree between the regions, such as: the separation from the areas where water is needed and the areas where water is not needed, such as toilets and kitchens, is visually or physically satisfied; the space utilization rate represents the proportion of the use area of the space to the whole space area, and the larger the space utilization rate is, the poorer the comfort degree is; spatial permeability represents the lighting and ventilation of a space, such as: north and south are through; the finishing style represents the overall style of a room, such as: the user needs the European style, but many furniture are Chinese, the decoration style is poor, and the visual effect is also poor; the spatial distribution represents the distribution of each space, such as: compactness or spaciousness of spatial distribution; the color co-scheduling represents the collocation condition of the colors in the whole space, such as: the red, blue and red are combined, and the coordination is worse.

Optionally, the quantization result of the first quantization parameter in the comfort level index may be classified into three levels, namely comfort level, good level and general level, or may be classified into ten degree values of 1 to 10. The quantization result of the first quantization parameter in the visual index may be divided into three levels of a good level, a good level and a bad level, or may be divided into ten degree values of 1 to 10.

In the method for obtaining the quantization result of the design solution provided in this embodiment, the computer device first determines the quantization result of the design solution under each first quantization parameter according to the first quantization parameter and the preset design experience standard library, and then determines the quantization result of the design solution under each first quantization index according to the quantization result under each first quantization parameter. According to the method, the quantization result under each first quantization index is determined according to the quantization result under each first quantization parameter, so that the accuracy of the quantization result of the first quantization index in the design scheme is improved, the accuracy of the total quantization result of the design scheme is further improved, and the quantization result of each first quantization parameter is obtained at the same time, so that the evaluation process of the design scheme is more sufficient.

Fig. 5 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment, where this embodiment relates to a further specific process in which a computer device determines a quantization result of a design under each first quantization index according to an attribute of the design, the first quantization index, and a preset quantization model. On the basis of the foregoing embodiment, optionally, as shown in fig. 5, the foregoing S201 includes:

s401, the computer equipment determines a plurality of functional areas in the design scheme according to the attributes of the design scheme.

Specifically, the computer device divides the design into a plurality of functional areas according to the input attributes of the design, such as the function and the space size of the design, and the functional areas are areas capable of satisfying the minimum function. For example, if the design scheme is a home housing with two rooms and one living room, the home housing can be divided into five areas, namely a main sleeping area, a secondary sleeping area, a living room, a kitchen and a bathroom, the main sleeping area and the secondary sleeping area are divided into a rest area, a wardrobe area, a dressing area and the like, the living room is divided into a video area, a leisure area and the like, the bathroom is divided into a washing area, a shower area, a closestool area and the like, and the kitchen is divided into a storage area, a kitchen range area and the like, so that the areas are functional areas meeting the minimum functions. Alternatively, each functional area is not limited to only one component, but may be a collection of multiple components, for example a bed and a bedside table may be included for the rest area, since a single bedside table may not fulfill the minimum functionality.

Optionally, the area of the functional area may include a fixed area, a use area, and a pass area. The fixed area represents the area actually occupied by the functional area, such as how large the bed itself occupies; the use area represents the area occupied when the functional area is normally used, and if a wardrobe is used, the wardrobe door needs to be ensured to be opened; the passing area indicates an area which needs to pass to the functional area when the functional area is used, and if a user wants to have a rest, the user needs to be ensured to pass to the position of the bed.

In a possible implementation manner, the computer device may determine a plurality of functional regions in the design scheme according to the attribute of the design scheme and a preset splitting rule base; the splitting rule base comprises mapping relations between attributes of different design schemes and splitting modes of the functional areas.

The computer equipment splits the design scheme into a plurality of functional areas according to the mapping relation between the attribute of the design scheme and the splitting mode of the functional areas in the splitting rule base. For example, assume that for a design scenario with properties of home housing in a three or two living room, the area is 120m²If the living room and the main sleeping south are in the south, the corresponding functional areas in the splitting rule base are a sleeping area, a body-building area, a reading area, an entertainment area, a toilet area and the like, and then the computer equipment can split the design scheme into the above areas.

In addition, after determining the plurality of functional areas in the design, optionally, the computer device may further determine information of the components and required material information in each functional area according to each functional area and a preset mapping relationship; wherein the mapping relationship comprises: different functional areas correspond to the components and materials.

For example, for a wardrobe area, the computer device may determine its corresponding components wardrobe, dressing mirror, the corresponding materials are wood boards, screws, and the number of wood boards, the number of screws, etc.

S402, the computer device carries out quantization operation on the functional areas according to the first quantization indexes and the quantization model to obtain quantization results of each functional area under each first quantization index.

Specifically, after the computer device determines a plurality of functional regions in the design, the computer device determines a quantization result of each functional region under each first quantization index according to the attribute of the functional region and the quantization model. Each first quantization index may include a plurality of first quantization parameters, and the preset quantization model may include a quantization result and a plurality of first quantization indexes in the functional regionA model function of the correlation between the first quantization parameters. Alternatively, the model function may be a complex equation, in the case of a linear equation, such as y ═ ax₁+bx₂. Exemplarily, a and b are taken as 1, the functional region is assumed to be a sleep region, a certain first quantization index is a cost, the cost includes two first quantization parameters of material cost and construction cost, and the two first quantization parameters respectively correspond to x in the above equation₁And x₂If the two first quantization parameter completion degrees are analyzed to obtain a quantization result of the material cost as 6 and a quantization result of the construction cost as 8, the above equation can be used to obtain a quantization result of the functional region under the first quantization index "cost". Of course, the form of the model function is only an example, and the present embodiment does not limit this.

In addition, assuming that a certain design solution can be divided into 5 different functional areas, and the corresponding first quantization indexes are a and B, the computer device can determine the quantization results of the 5 functional areas under the index a and the quantization results under the index B by using the above equations.

And S403, the computer device performs summation operation on the quantization results of each functional area under each first quantization index to obtain the quantization result of the design scheme under each first quantization index.

Specifically, after the computer device determines the quantization result of each functional region under each first quantization index, the quantization results of different functional regions under each first quantization index may be summed respectively to determine the quantization result of the design solution under each first quantization index. Alternatively, the summation operation may be directly added summation, or weighted power summation, or other calculation methods. Optionally, if the quantization result is in the form of a star level or a grade, the computer device may convert the quantization result into the form of a score according to a corresponding relationship between the star level or the grade and the score, and then perform a summation operation.

For example, assuming that the quantization results of the above 5 functional regions are 8, 9, 7, and 8 respectively under the first quantization index "construction difficulty", the quantization results under the first quantization index "health degree" are 9, 7, 6, 8, and 8 respectively, and the summation operation is direct addition summation, the quantization result of the design under the first quantization index "construction difficulty" is (8+9+9+7+8) ═ 41, and the quantization result under the first quantization index "health degree" is (9+7+6+ 8) ═ 38.

In the method for obtaining the quantization result of the design solution provided in this embodiment, the computer device first determines a plurality of functional regions in the design solution, and then determines the quantization result of each functional region under each first quantization index according to the first quantization index and the quantization model, and further determines the quantization result of the design solution under each first quantization index. According to the method, the quantization result of the design scheme under each first quantization index is determined according to the quantization result of each functional area under each first quantization index, so that the accuracy of the quantization result of the first quantization index in the design scheme is improved, the accuracy of the total quantization result of the design scheme is further improved, and meanwhile, the quantization result of each functional area is obtained, so that the evaluation process of the design scheme is more sufficient.

Fig. 6 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment, where this embodiment relates to a specific process in which a computer device performs a quantization operation on a functional region according to a first quantization index and a quantization model to obtain a quantization result of each functional region under each first quantization index. On the basis of the foregoing embodiment, optionally, as shown in fig. 6, the foregoing S402 includes:

and S501, the computer device performs quantization operation on the attribute of the functional area according to the first quantization parameter in the first quantization index and a preset design experience standard library to obtain a quantization result of the functional area under each first quantization parameter.

Since each of the first quantization indexes includes a plurality of first quantization parameters, the computer device may first determine a quantization result of each of the functional regions under each of the first quantization parameters. Specifically, the computer device may analyze and compare the attribute of the functional region under each first quantization parameter according to a preset design experience standard library to obtain a quantization result under each first quantization parameter, where the design experience standard library includes design standards of different functional regions under different quantization parameters. Optionally, the attribute of the functional area may include information about components included in the area and distribution of the components. For example, in the design experience standard library, for a quantitative parameter of "material cost" in a sleep area, the design standard is that the cost is 1 ten thousand normal, and the higher than 1 ten thousand can be classified into higher and higher according to the higher degree. The time less than 1 ten thousand can be divided into lower time, lower time and the like according to the low-out degree.

For example, assuming that a certain functional area is a sleep area including a bed and a bedside table, the design criterion of the sleep area under the quantitative parameter of "material cost" is that the cost is 1 ten thousand as normal, and the material cost is 2 ten thousand by analyzing the materials of the bed and the bedside table. It can be determined that the rest area is relatively expensive in material cost, based on design criteria.

And S502, the computer equipment performs summation operation on the quantization result of the functional area under each first quantization parameter according to the quantization model to obtain the quantization result of the functional area under each first quantization index.

Specifically, after the computer device determines the quantization result of each functional region at each first quantization parameter, the computer device may perform a summation operation on the quantization results to determine the quantization result of each functional region at each quantization index. Alternatively, the summation operation may be directly added summation, or weighted power summation, or other calculation methods. Optionally, if the quantization result is in the form of a star level or a grade, the computer device may convert the quantization result into the form of a score according to a corresponding relationship between the star level or the grade and the score, and then perform a summation operation.

Optionally, the first quantization index may include: at least one of a function realization degree of the functional area, a cost of the functional area, a construction difficulty of the functional area, and a health degree of the functional area. The functional realizability of the functional region may include at least one of the following first quantization parameters: the basic function realization degree of the functional area and the auxiliary function realization degree of the functional area. The cost of the functional area includes at least one of the following first quantization parameters: material cost, construction cost, maintenance cost. The construction difficulty of the functional area comprises at least one of the following first quantization parameters: the type requirement of work, the production difficulty of materials, the processing difficulty and the installation difficulty. The health of the functional region includes at least one of the following first quantitative parameters: environmental protection degree of the material and pollution degree of the scene where the functional area is located.

Wherein, the basic function implementation degree of the function area represents the implementation condition of the basic function of the function area, and the auxiliary function implementation degree of the function area represents the implementation condition of the auxiliary function of the function area, such as: for the illumination area, the illumination function is a basic function, and the color and the shape are auxiliary functions; the work type requirement represents the requirement on the work type during the construction of the functional area, such as: corresponding qualifications need to be held by hydraulic workers and electric welders; the environmental protection degree of the material represents the environmental protection degree of the material used in the functional area, and the more environmental protection, the healthier the material is.

Optionally, the quantization result of the first quantization parameter in the function implementation degree index of the functional area may be classified into three levels of important, common, and unimportant, or may be classified into 1 to 10 degree values. The quantization result of the first quantization parameter in the cost index of the functional area can be classified into three levels of high, medium and low, and can also be classified into 1-10 degree numerical values. The quantization result of the first quantization parameter in the construction difficulty index of the functional area can be classified into three grades of difficulty, general and simplicity, and can also be classified into 1-10 degree numerical values. The quantization result of the first quantization parameter in the health degree index of the functional area can be classified into two grades of health and unhealthy, and can also be classified into 1-10 degree numerical values.

In the method for obtaining the quantization result of the design solution provided in this embodiment, the computer device first determines the quantization result of the functional region under each first quantization parameter according to the first quantization parameter and a preset design experience standard library, and then determines the quantization result of the functional region under each first quantization index according to the quantization result under each first quantization parameter. According to the method, the quantization result of each first quantization index of the functional area is determined according to the quantization result of each first quantization parameter, so that the accuracy of the quantization result of the first quantization index of the functional area is improved, the accuracy of the quantization result of the design scheme is further improved, and the quantization result of each first quantization parameter of the functional area is obtained, so that the evaluation process of the design scheme is more sufficient.

Fig. 7 is a flowchart illustrating a method for obtaining a quantization result of a design according to yet another embodiment, where this embodiment relates to another specific process in which a computer device determines a quantization result of a design according to an attribute of the design, a first quantization index, and a preset quantization model. On the basis of the foregoing embodiment, optionally, as shown in fig. 7, the foregoing S102 includes:

s601, the computer equipment determines a plurality of functional areas in the design scheme according to the attributes of the design scheme.

The process of S601 may refer to the specific process of S401 in the above embodiment, and the implementation process is similar and is not described herein again.

And S602, the computer device performs quantization operation on the functional regions according to the first quantization indexes and the quantization model to obtain a quantization result of each functional region under each first quantization index.

The process of S602 may refer to the specific process of S402 in the above embodiment, and the implementation process is similar and is not described herein again.

And S603, the computer equipment performs summation operation on the quantization results of the same functional area under each first quantization index to obtain a comprehensive quantization result of the functional area.

Specifically, after the computer device determines the quantization result of each functional region under each first quantization index, the quantization results of each first quantization index in the same functional region may be summed to obtain a comprehensive quantization result of each functional region. Alternatively, the summation operation may be directly added summation, or weighted power summation, or other calculation methods. Optionally, if the quantization result is in the form of a star level or a grade, the computer device may convert the quantization result into the form of a score according to a corresponding relationship between the star level or the grade and the score, and then perform a summation operation.

For example, assuming that the quantization results of the above 5 functional regions under the first quantization index "cost" are 8, 9, 7, and 8, the quantization results under the first quantization index "function implementation degree" are 9, 7, 6, 8, and 8, respectively, and the summation operation is direct addition summation, the integrated quantization result of the 1 st functional region is (8+9) 17, the integrated quantization result of the 2 nd functional region is (9+7) 16, the integrated quantization result of the 3 rd functional region is (9+6) 15, the integrated quantization result of the 4 th functional region is (7+8) 15, and the integrated quantization result of the 5 th functional region is (8+8) 16.

S604, the computer equipment carries out summation operation on the comprehensive quantization result of each functional area to obtain the total quantization result of the design scheme under all the first quantization indexes.

Specifically, after the integrated quantization results of each functional area are determined, the computer device may perform a summation operation on the integrated quantization results, so as to obtain a total quantization result of the design solution. For example, in the above example, the total summation result of the design solution can be obtained as (17+16+15+15+16) ═ 79.

In the method for obtaining the quantization result of the design scheme provided in this embodiment, the computer device first determines a plurality of functional regions in the design scheme, then determines the quantization result of each functional region under each first quantization index according to the first quantization index and the quantization model, then determines the comprehensive quantization result of each functional region, and further determines the total quantization result of the design scheme under all the first quantization indexes. According to the method, the comprehensive quantization result of each functional area and the total quantization result of the design scheme are determined according to the quantization result of each functional area under each first quantization index, so that the evaluation process of the design scheme is more sufficient.

Optionally, in some embodiments of the present application, if there are a plurality of design schemes to be quantized, as shown in fig. 8, the method for obtaining a quantization result of a design scheme may further include:

s701, the computer equipment sorts the quantization results of the multiple design schemes according to the goodness and the inferiority to obtain a quantization result queue.

Specifically, if there are multiple input designs, the computer device may sort the quantization results after obtaining the quantization result of each design to determine a better design.

S702, the computer device determines the design scheme corresponding to the first quantization result in the quantization result queue as a target design scheme.

For example, if there are 5 design solutions with quantization results of 90, 93, 88, 84, and 96, and the computer device sorts the quantization results according to the scores to obtain a sort queue of 96, 93, 90, 88, and 84, 96 scores of corresponding design solutions may be selected as the target design solution.

Furthermore, after the computer device determines the target design scheme, the quantization results of each functional area in the target design scheme can be sequenced, so that a user can conveniently know the quality result of each functional area design.

Optionally, in some embodiments of the present application, in order to enable a designer to improve a design scheme through a quantization result, after determining the quantization result of the design scheme, the computer device may further determine, according to the quantization result of the design scheme under each first quantization index and a preset improvement suggestion library, whether the design scheme needs to be modified, and determine a modification suggestion when the design scheme needs to be modified; the improvement suggestion library comprises mapping relations between quantization results corresponding to different quantization indexes and modification suggestions.

Specifically, the computer device may obtain a suggestion corresponding to the quantization result of each first quantization index from a preset improvement suggestion library, if the suggestion needs to be modified or does not need to be modified, when the suggestion needs to be modified, the computer device may obtain a corresponding modification suggestion for a designer to refer to and modify. For example, assuming that the design solution quantifies high in "cost to manufacture" indicators, the corresponding modification recommendations may be to reduce certain components or replace certain materials, etc.

In order to better understand the quantization result obtaining method of the whole design scheme, two specific examples are described below.

Fig. 9 is a flowchart illustrating a method for obtaining a quantization result of a design solution according to an embodiment, as shown in fig. 9, including:

s801, computer equipment acquires a design scheme to be quantized and a first quantization index of the design scheme; wherein the first quantization index comprises a plurality of first quantization parameters, the first quantization parameters characterizing quantization angles of the design.

S802, the computer device performs quantization operation on the attribute of the design scheme according to the first quantization parameter and a preset design experience standard library to obtain a quantization result of the design scheme under each first quantization parameter; wherein, the design experience standard library comprises design standards of different design schemes under different quantization parameters.

And S803, the computer device sums the quantization results of the design scheme under each first quantization parameter according to the quantization model to obtain the quantization result of the design scheme under each first quantization index.

And S804, the computer equipment carries out summation operation on the quantization results of the design scheme under each first quantization index according to the quantization model to obtain the total quantization result of the design scheme.

The implementation manner of the embodiment shown in fig. 9 is similar to the implementation manner of the process of the embodiment shown above, and is not described again here.

Fig. 10 is a schematic flow chart of a method for obtaining a quantization result of a design solution according to another embodiment, as shown in fig. 10, including:

s901, a computer device obtains a design scheme to be quantized and a first quantization index of the design scheme; wherein the first quantization index comprises a plurality of first quantization parameters, the first quantization parameters characterizing quantization angles of the design.

S902, the computer equipment determines a plurality of functional areas in the design scheme according to the attributes of the design scheme.

And S903, the computer device performs quantization operation on the attribute of the functional area according to the first quantization parameter in the first quantization index and a preset design experience standard library to obtain a quantization result of the functional area under each first quantization parameter.

And S904, the computer equipment performs summation operation on the quantization result of the functional area under each first quantization parameter according to the quantization model to obtain the quantization result of the functional area under each first quantization index.

And S905, the computer equipment performs summation operation on the quantization results of each functional area under each first quantization index to obtain the quantization result of the design scheme under each first quantization index.

And S906, the computer equipment performs summation operation on the quantization results of the design scheme under each first quantization index according to the quantization model to obtain the total quantization result of the design scheme.

The implementation manner of the embodiment shown in fig. 10 is similar to the implementation manner of the process of the embodiment shown above, and is not described again here.

It should be understood that although the various steps in the flowcharts of fig. 2-10 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-10 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

Fig. 11 is a schematic structural diagram of a quantization result obtaining apparatus according to an embodiment of the present invention. As shown in fig. 11, the apparatus includes: an acquisition module 11 and a determination module 12.

Specifically, the obtaining module 11 is configured to obtain a design scheme to be quantized and a first quantization index of the design scheme.

A determining module 12, configured to determine a quantization result of the design solution according to the attribute of the design solution, the first quantization index, and a preset quantization model; wherein the quantization model comprises a model function for characterizing a correlation between a quantization result and a plurality of first quantization indexes, the first quantization indexes comprising a plurality of first quantization parameters, the first quantization parameters characterizing a quantization angle of the design solution.

The apparatus for obtaining a quantization result of a design scheme provided in this embodiment may implement the method embodiments described above, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the quantization result of the design comprises: at least one of a quantization result of the design at each first quantization index and a total quantization result of the design at all first quantization indexes.

In one embodiment, the determining module 12 is specifically configured to determine a quantization result of the design scheme under each first quantization index according to the attribute of the design scheme, the first quantization index and a preset quantization model; and according to the quantization model, summing the quantization results of the design scheme under each first quantization index to obtain the total quantization result of the design scheme.

Fig. 12 is a schematic structural diagram of a quantized result obtaining apparatus according to another embodiment. On the basis of the embodiment shown in fig. 11, as shown in fig. 12, the determining module 12 may specifically include: a first processing unit 121 and a second processing unit 122.

Specifically, the first processing unit 121 is configured to perform a quantization operation on the attribute of the design solution according to the first quantization parameter and a preset design experience standard library, so as to obtain a quantization result of the design solution under each first quantization parameter; wherein, the design experience standard library comprises design standards of different design schemes under different quantization parameters.

And the second processing unit 122 is configured to perform a summation operation on the quantization result of the design scheme under each first quantization parameter according to the quantization model, so as to obtain a quantization result of the design scheme under each first quantization index.

In one embodiment, the first quantization index includes at least one of a comfort index and a visual index; the comfort indicator comprises at least one of the following first quantization parameters: the method comprises the following steps of (1) convenience degree of area use, area function realization degree, area independence degree, space utilization rate and space permeability; the visual indicator comprises at least one of the following first quantization parameters: decoration style, spatial distribution and color coordination.

Fig. 13 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment. On the basis of the embodiment shown in fig. 11 or fig. 12, as shown in fig. 13, the determining module 12 may specifically include: a first determination unit 123, a third processing unit 124 and a fourth processing unit 125.

Specifically, the first determining unit 123 is configured to determine a plurality of functional regions in the design according to the attribute of the design.

A third processing unit 124, configured to perform quantization operation on the functional regions according to the first quantization index and the quantization model, so as to obtain a quantization result of each functional region under each first quantization index.

And the fourth processing unit 125 is configured to perform a summation operation on the quantization result of each functional region under each first quantization index, so as to obtain the quantization result of the design scheme under each first quantization index.

It should be noted that the structure of fig. 13 is shown on the basis of the embodiment shown in fig. 11, and of course, fig. 13 may also be shown on the basis of the structure shown in fig. 12, which is merely an example.

In one embodiment, the third processing unit 124 is specifically configured to perform a quantization operation on the attribute of the functional region according to a first quantization parameter in the first quantization index and a preset design experience standard library, so as to obtain a quantization result of the functional region under each first quantization parameter; and according to the quantization model, summing the quantization results of the functional area under each first quantization parameter to obtain the quantization result of the functional area under each first quantization index.

In one embodiment, the determining module 12 is specifically configured to determine a plurality of functional areas in the design according to the attribute of the design; according to the first quantization indexes and the quantization model, performing quantization operation on the functional areas to obtain a quantization result of each functional area under each first quantization index; summing the quantization results of the same functional area under each first quantization index to obtain a comprehensive quantization result of the functional area; and summing the comprehensive quantization results of each functional area to obtain a total quantization result of the design scheme under all the first quantization indexes.

In one embodiment, the first quantization index includes: at least one of a function realization degree of the functional area, a cost of the functional area, a construction difficulty of the functional area, and a health degree of the functional area.

In one embodiment, the function implementation degree of the functional region includes at least one of the following first quantization parameters: the basic function realization degree of the functional area and the auxiliary function realization degree of the functional area; the cost of the functional area includes at least one of the following first quantization parameters: material cost, construction cost, maintenance cost; the construction difficulty of the functional area comprises at least one of the following first quantization parameters: the type requirement of work, the production difficulty of materials, the processing difficulty and the installation difficulty; the health of the functional region comprises at least one of the following first quantitative parameters: environmental protection degree of the material and pollution degree of the scene where the functional area is located.

In one embodiment, the first determining unit 123 is specifically configured to determine a plurality of functional areas in the design scheme according to the attribute of the design scheme and a preset splitting rule base; the splitting rule base comprises mapping relations between attributes of different design schemes and splitting modes of the functional areas.

In one embodiment, the determining module 12 is further configured to determine, after determining the plurality of functional areas in the design, information of components and required material information in each functional area according to each functional area and a preset mapping relationship; wherein the mapping relationship comprises: different functional areas correspond to the components and materials.

Fig. 14 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment. On the basis of the above embodiments shown in fig. 11-13, if there are a plurality of designs to be quantized, as shown in fig. 14, the apparatus further includes a sorting module 13 and a selecting module 14.

Specifically, the sorting module 13 is configured to sort the quantization results of the multiple design schemes according to the goodness and badness to obtain a quantization result queue.

And the selecting module 14 is configured to determine a design scheme corresponding to the first quantization result in the quantization result queue as a target design scheme.

It should be noted that the structure of fig. 14 is shown on the basis of the embodiment shown in fig. 11, and of course, fig. 14 may also be shown on the structure shown in fig. 12 or fig. 13, which is only an example.

In one embodiment, the sorting module 13 is further configured to sort the quantization results of the functional regions in the target design.

Fig. 15 is a schematic structural diagram of a quantized result obtaining apparatus according to a further embodiment. On the basis of the embodiment shown in fig. 14 described above, the apparatus further comprises a suggestion module 15, as shown in fig. 15.

Specifically, the suggestion module 15 is configured to determine whether the design solution needs to be modified and determine a modification suggestion when the design solution needs to be modified according to a quantization result of the design solution under each first quantization index and a preset improvement suggestion library; the improvement suggestion library comprises mapping relations between quantization results corresponding to different quantization indexes and modification suggestions.

For the specific definition of the device for obtaining the quantization result of the design, reference may be made to the above definition of the method for obtaining the quantization result of the design, which is not described herein again. The modules in the quantization result obtaining device of the above design can be wholly or partially implemented by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 1. The computer device includes a processor, a memory, a network interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of design quantization result acquisition. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 1 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A method for obtaining a quantization result of a design, comprising:

2. The method of claim 1, wherein the design solution quantification result comprises: at least one of a quantization result of the design at each first quantization index and a total quantization result of the design at all first quantization indexes.

3. The method according to claim 2, wherein the computer device determines a quantization result of the design solution according to the attribute of the design solution, the first quantization index and a preset quantization model, and comprises:

the computer equipment determines a quantization result of the design scheme under each first quantization index according to the attribute of the design scheme, the first quantization index and a preset quantization model;

and the computer equipment carries out summation operation on the quantization results of the design scheme under each first quantization index according to the quantization model to obtain the total quantization result of the design scheme.

4. The method according to claim 3, wherein the determining, by the computer device, the quantization result of the design under each first quantization index according to the attributes of the design, the first quantization index and a preset quantization model comprises:

the computer equipment performs quantization operation on the attribute of the design scheme according to the first quantization parameter and a preset design experience standard library to obtain a quantization result of the design scheme under each first quantization parameter; wherein the design experience standard library comprises design standards of different design schemes under different quantization parameters;

and the computer equipment performs summation operation on the quantization result of the design scheme under each first quantization parameter according to the quantization model to obtain the quantization result of the design scheme under each first quantization index.

5. The method of claim 4, wherein the first quantitative indicator comprises at least one of a comfort indicator and a visual indicator;

the comfort indicator comprises at least one of the following first quantization parameters: the method comprises the following steps of (1) convenience degree of area use, area function realization degree, area independence degree, space utilization rate and space permeability;

the visual indicator comprises at least one of the following first quantization parameters: decoration style, spatial distribution and color coordination.

6. The method according to claim 3, wherein the determining, by the computer device, the quantization result of the design under each first quantization index according to the attributes of the design, the first quantization index and a preset quantization model comprises:

the computer equipment determines a plurality of functional areas in the design scheme according to the attributes of the design scheme;

the computer equipment carries out quantization operation on the functional areas according to the first quantization indexes and the quantization model to obtain a quantization result of each functional area under each first quantization index;

and the computer equipment performs summation operation on the quantization results of each functional area under each first quantization index to obtain the quantization result of the design scheme under each first quantization index.

7. The method according to claim 6, wherein the computer device performs a quantization operation on the functional regions according to the first quantization index and the quantization model to obtain a quantization result of each functional region under each first quantization index, and the method comprises:

the computer equipment performs quantization operation on the attribute of the functional area according to a first quantization parameter in the first quantization index and a preset design experience standard library to obtain a quantization result of the functional area under each first quantization parameter;

and the computer equipment performs summation operation on the quantization result of the functional area under each first quantization parameter according to the quantization model to obtain the quantization result of the functional area under each first quantization index.

8. The method according to claim 2, wherein the computer device determines a quantization result of the design solution according to the attribute of the design solution, the first quantization index and a preset quantization model, and comprises:

the computer equipment carries out summation operation on the quantization results of the same functional area under each first quantization index to obtain a comprehensive quantization result of the functional area;

and the computer equipment carries out summation operation on the comprehensive quantization result of each functional area to obtain the total quantization result of the design scheme under all the first quantization indexes.

9. The method according to any of claims 6-8, wherein the first quantization index comprises: at least one of a function realization degree of the functional area, a cost of the functional area, a construction difficulty of the functional area, and a health degree of the functional area.

10. The method of claim 9, wherein the functional implementation of the functional region comprises at least one of the following first quantization parameters: the basic function realization degree of the functional area and the auxiliary function realization degree of the functional area;

the cost of the functional area includes at least one of the following first quantization parameters: material cost, construction cost, maintenance cost;

the construction difficulty of the functional area comprises at least one of the following first quantization parameters: the type requirement of work, the production difficulty of materials, the processing difficulty and the installation difficulty;

the health of the functional region comprises at least one of the following first quantitative parameters: environmental protection degree of the material and pollution degree of the scene where the functional area is located.

11. The method of any of claims 6-8, wherein the computer device determines a plurality of functional regions in the design based on the attributes of the design, comprising:

the computer equipment determines a plurality of functional areas in the design scheme according to the attributes of the design scheme and a preset splitting rule base; the splitting rule base comprises mapping relations between attributes of different design schemes and splitting modes of the functional areas.

12. The method of claim 11, further comprising, after determining the plurality of functional regions in the design:

the computer equipment determines the information of the components in each functional area and the required material information according to each functional area and a preset mapping relation; wherein the mapping relationship comprises: different functional areas correspond to the components and materials.

13. The method according to any one of claims 6 to 8, wherein if there are a plurality of designs to be quantified, the method further comprises:

the computer equipment sorts the quantization results of the plurality of design schemes according to the goodness and the badness to obtain a quantization result queue;

and the computer equipment determines the design scheme corresponding to the first quantization result in the quantization result queue as a target design scheme.

14. The method of claim 13, further comprising:

the computer device orders the quantitative results for each functional zone in the target design.

15. The method according to any one of claims 2-8, further comprising:

the computer equipment determines whether the design scheme needs to be modified or not according to the quantization result of the design scheme under each first quantization index and a preset improvement suggestion library, and determines modification suggestions when the design scheme needs to be modified; the improvement suggestion library comprises mapping relations between quantization results corresponding to different quantization indexes and modification suggestions.

16. An apparatus for obtaining a quantization result of a design, comprising:

17. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method according to any of claims 1-15.

18. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 15.