KR101560447B1 - Method and apparatus for suggesting the construction performance - Google Patents

Abstract

The method of presenting construction performance of the present invention includes: a step of inputting process data information on a construction work performed; A step of acquiring performance information of a material used to acquire utilization information of the material in real time through an RFID reader installed in a moving path of a material equipped with an RFID (Radio Frequency Identification) tag; Deriving processing information on usage information of the material obtained in real time based on the process data information; And an information presenting step of grasping the machining information characteristic based on the process data information, and converting the characteristic of the machining information into a normal distribution through a Bayesian method and presenting it to the manager in real time.
According to the method and apparatus for presenting the construction performance according to the present invention, the manager can monitor the construction performance changing in real time by objective data analysis information, actively cope with the situation of the construction site, Successful construction projects can be carried out by removing them in advance.
In addition, it is possible to present objective data analysis information that can be monitored by the manager only by the data on the construction process which has been performed insufficiently, so that the difference between the construction performance of the planned construction process and the actual construction performance is objectively It can be grasped quickly.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and apparatus for providing construction performance,

The present invention relates to a method and apparatus for presenting construction performance, and more particularly to a method and apparatus for presenting construction performance in real time.

The construction performance related to the productivity (unit / hour) or the cost (cost / hour) of the process plan established before construction is used as an index to compare the construction performance measured by carrying out the actual process in the construction site have.

However, even if the process is planned considering all the predictable conditions of the construction site, the construction performance of the process plan is affected by the unexpected sudden delay factor in performing the actual process, Lt; / RTI >

In other words, the construction performance in actual process execution is influenced by various factors such as the complaints of neighboring residents, the climate of the area, the laws related to construction, terrain, productivity of labor, construction infrastructure, The construction performance of the conventional identical project may be different.

In summary, the construction performance of the planned process before the construction work is an outlier derived from the ideal environment, and the difference from the realistic value of the construction performance measured during the actual process is inevitable.

As described above, in the course of the construction, it is inevitable that the difference between the planned and actual results is inevitable, so the site manager must continuously monitor the process.

That is, whether or not the site manager determines whether or not the construction performance is successful depends on whether or not the difference in the construction performance is quickly detected and the difference is minimized.

On the other hand, the technology of the background of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2009-0051459.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and system for realizing the construction performance measured in real time so that the manager can grasp the difference between the construction performance of the planned construction process and the actual construction performance objectively and quickly And to provide a method and apparatus for presenting construction performance.

In order to achieve the above object, there is provided a method of presenting a construction performance using a construction performance presentation apparatus, the method comprising: inputting only one piece of information corresponding to each random variable so that the process data information on the construction work performed is evenly distributed; An information input step; A step of acquiring performance information of a material used to acquire utilization information of the material in real time through an RFID reader installed in a moving path of a material equipped with an RFID (Radio Frequency Identification) tag; Deriving any one of productivity information or unit cost information by processing usage information of the material obtained in real time based on the process data information; And an information presenting step of grasping the machining information characteristic based on the process data information, and converting the characteristics of the machining information into a normal distribution through a Bayesian method and presenting it to the outside in real time.

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The construction performance presentation method may further include a cost correction step of revising the unit cost information.

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The construction performance presentation method may further include deleting the redundant data among the process data information related to each of the random variable parameters so that the process data information is uniformly distributed.

The information presentation step may switch to a normal distribution in real time as the processing information is added to the uniformly distributed process data information using the Bayesian method.

The information presentation step may switch to a normal distribution in real time by adding the machining information to the uniformly distributed process data information using the following Bayesian-applied mathematical expression.

,

,

는 베이지안 방법에 의해 계산된 표준편차,

는 새로운 데이터의 평균,

는 기존 데이터의 평균,

는 새로운 데이터의 표준편차,

는 기존 데이터의 표준편차,

는 데이터의 개수를 나타낸다.Here, μ is an average value calculated by the Bayesian method,

Is the standard deviation calculated by the Bayesian method,

The average of new data,

Is the average of existing data,

Is the standard deviation of the new data,

Is the standard deviation of the existing data,

Represents the number of data.

The information presentation step may present each piece of information according to an attribute of the data.

Meanwhile, the construction performance presentation apparatus of the present invention includes a process data information input unit for inputting only one piece of information corresponding to each random variable so that the process data information regarding the construction work performed is uniformly distributed; An achievement information acquisition unit for acquiring utilization information of the material in real time through an RFID reader installed in a movement path of the RFID tag; A process data information input unit connected to the process data information input unit and the material use result acquiring unit and configured to use the material obtained in real time from the material use information acquisition unit based on the process data information input from the process data information input unit, A processing information deriving unit for deriving one of productivity information or unit cost information by processing information; And an information presentation unit connected to the processing information derivation unit to grasp the processing information characteristic based on the process data information, and to convert the characteristic of the processing information into a normal distribution through a Bayesian method and present it to the outside.

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The process data information input unit includes a process information input unit for inputting process data information related to the performed construction work and a process information input unit for deleting the duplicated process data information among the process data information related to each of the random variables, And a redundant information deletion unit.

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The information presentation unit can switch to a normal distribution in real time by adding the machining information to the uniformly distributed process data information using the following Bayesian-applied mathematical expression.

,

,

는 베이지안 방법에 의해 계산된 표준편차,

는 새로운 데이터의 평균,

는 기존 데이터의 평균,

는 새로운 데이터의 표준편차,

는 기존 데이터의 표준편차,

는 데이터의 개수를 나타낸다.Here, μ is an average value calculated by the Bayesian method,

Is the standard deviation calculated by the Bayesian method,

The average of new data,

Is the average of existing data,

Is the standard deviation of the new data,

Is the standard deviation of the existing data,

Represents the number of data.

The information presentation unit can present each piece of information according to the attribute of the data.

According to the method and apparatus for presenting the construction performance according to the present invention, the manager can monitor the construction performance changing in real time by objective data analysis information, actively cope with the situation of the construction site, Successful construction projects can be carried out by removing them in advance.

In addition, it is possible to present objective data analysis information that can be monitored by the manager only by the data on the construction process which has been performed insufficiently, so that the difference between the construction performance of the planned construction process and the actual construction performance is objectively It can be grasped quickly.

1 is a flowchart of a construction performance presentation method according to an embodiment of the present invention;
FIG. 2 is an exemplary diagram for explaining acquisition of material utilization information using an RFID tag and a reader. FIG.
Figure 3 shows a normal distribution graph that varies with the addition of construction process data,
4 is a configuration diagram of a construction performance presentation apparatus according to another embodiment of the present invention.

Before describing in detail the preferred embodiments according to the present invention, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, It should be interpreted in the meaning and concept consistent with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain it by a method.

Hereinafter, a construction performance presentation method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the construction performance presentation method includes a process data information input step S100, an achievement information acquisition step S200, a process information derivation step S300, and an information presentation step S400 do.

In the step of inputting the process data information (S100), the process data information on the construction work already performed is input. The process data information includes various information such as construction performance, material cost, labor cost, equipment cost, installation cost, general expenses, and the like, as well as the construction material utilization information obtained using an RFID (Radio Frequency Identification) May be included.

Meanwhile, the process data information input step S100 may input only one piece of information corresponding to each random variable such that the process data information is uniformly distributed. The construction performance presentation method may further include deleting the redundant data among the process data information related to each of the random variable parameters so that the process data information is uniformly distributed.

It is also possible to extract only one piece of information corresponding to each random variable such that the process data information input in the information step S400 is uniformly distributed. The step of uniformly distributing the process data information is related to the information presentation step (S400), which will be described later.

In the achievement information acquisition step (S200), the utilization information of the material is acquired in real time through the RFID reader installed in the movement path of the material on which the RFID tag is mounted.

That is, the RFID tag 120 is mounted on the material 110 used in the construction process, and the usage information of the material 110 can be confirmed through a plurality of RFID readers 130 installed on the site. The utilization information of the material 110 may include resource information of the material 110 or utilization time information.

Hereinafter, a method of acquiring the utilization information of the material 110 will be described in detail with reference to FIG.

The RFID tag 120 is attached to the material 110. For example, if the material 110 is a reinforcing structure, the RFID tag 120 may be attached to the outside, and if it is difficult to attach the RFID tag 120 such as sand, gravel, or cement, The RFID tag 120 may be attached to the transportation packaging sheet. In the RFID tag 120, identification information that is different according to each material 110 is stored. The RFID reader 130 may be installed at a plurality of locations on a construction site, and may be installed in a path along which the material 110 moves. The RFID reader 130 senses the RFID tag 120 attached to the material 110 in real time so that resource information indicating the type of the material 110 or movement of the material 110 Time, time used at a specific location, and the like can be acquired through the relay 140.

The step of deriving the processing information (S300) derives the processing information required by the manager by processing the utilization information of the material obtained in real time based on the processing data information.

That is, the utilization information of the material obtained in the acquisition step (S200) of material use is processed. Such processing information may include productivity information, unit cost information, and the like.

For example, the productivity information, which is one of the processing information, may be derived as described below.

When the RFID 110 with the RFID tag 120 is moved from the position A to the position B, the time when the RFID reader 130 installed at the position A senses the material 110 And the time when the RFID reader 130 installed at the position B senses the material 110 may be calculated to measure the movement time of the material 110. [ In this case, the utilization information of the material 110 can be grasped according to the installation location of the RFID reader 130. For example, when the process information on the material 110 that is not moved for a predetermined period of time is received from the RFID reader 130 installed at a place where the material 110 is temporarily loaded, If it is determined that the material 110 has not been moved for a predetermined period of time from the RFID reader 130 installed at a location where the material 110 is actually used, As shown in FIG.

The unit cost information, which is one of the processing information, can be derived as described later.

The cost of the material 110 can be processed into material costs extracted from the process data information related to the construction work already performed corresponding to the material 110. [

However, since the cost information of the material 110 may greatly differ from the actual cost due to various factors such as the contract content, the price, and other social factors, the construction performance presentation method may include a cost correction step (S350).

In the information presentation step (S400), the machining information characteristic is grasped on the basis of the process data information, and the characteristic of the machining information is converted into a normal distribution using the Bayesian method and presented to the manager in real time.

The information presentation step S400 may switch to a normal distribution in real time by adding the processing information to the uniformly distributed process data information using the Bayesian method. Can be used.

,

≪

,

는 베이지안 방법에 의해 계산된 표준편차,

는 새로운 데이터의 평균,

는 기존 데이터의 평균,

는 새로운 데이터의 표준편차,

는 기존 데이터의 표준편차,

는 데이터의 개수를 나타낸다.Here, μ is an average value calculated by the Bayesian method,

Is the standard deviation calculated by the Bayesian method,

The average of new data,

Is the average of existing data,

Is the standard deviation of the new data,

Is the standard deviation of the existing data,

Represents the number of data.

The Bayesian is a method of quantitative information analysis, which sets data for a plurality of random variables, and additionally deduces statistical inference of a transition of probability variation with respect to inputted data.

That is, in the construction performance presentation method of the present invention, the process data information on the already performed construction work inputted in the process data information input step (S100) is set in advance so as to form an even distribution.

Hereinafter, with reference to FIG. 3, the meaning indicated by the normal distribution will be described with reference to data on productivity.

First, we planned the productivity to be 5 units / hour in the process plan. In the process data information on the construction work already performed, the data on the productivity is uniformly distributed in the process data information input step S100.

That is, in the process data information input step (S100), the productivity data among the data related to the construction process performed in the past can not be obtained because the productivity information having the same value can not be inputted redundantly or the same value And the data of the duplicated information is deleted.

The information on the productivity of the material among the information on the material usage obtained in the step of acquiring the performance information of the material use (S200) is added to the data on the productivity among the data on the construction process that has been uniformly distributed , The uniform distribution is transformed into a normal distribution and presented to the manager in real time.

First, when the first data set (data set 1) is added to the data on productivity among the data on the constructed construction process that has been uniformly distributed, a normal distribution curve with an average near 4 units / hour productivity (1 Is formed. The normal distribution curve (1) has a relatively large standard deviation.

Next, when a second data set (data set 2) is added to the data for the constructed construction process that is evenly distributed with the first data set (data set 1), an average is obtained near 6 units / hour productivity A normal distribution curve 2 is formed. The normal distribution curve (2) has a standard deviation smaller than the normal distribution curve (1).

Next, when a third data set (data set 3) has been added to the data relating to the performed construction process equally distributed with the first data set (data set 1) and the second data set (data set 2) , A normal distribution curve (3) with an average near to productivity of 4.5 unit / hour is formed. The normal distribution curve (3) has a standard deviation smaller than the normal distribution curve (2).

Finally, a fourth data set (data set 4) is divided into a first data set (data set 1), a second data set (data set 2) and a third data set (data set 3) When added to the data on the construction process, a normal distribution curve (4) with an average near 5 units / hour productivity is formed. The normal distribution curve (4) has a standard deviation smaller than the normal distribution curve (3).

As described above, as new information is added, the manager grasps the trend of the normal distribution presented in real time, and adds or cuts the work force and equipment related to the real-time productivity or changes the construction method so as to approach the planned productivity , It is possible to approach the planned productivity in the process and also to reduce the standard deviation of the productivity.

In other words, if the manager initially approached the productivity of the process plan through the coordination of the workforce and equipment, the construction process would eventually lead to a successful outcome.

Meanwhile, the information presenting step (S400) may present each piece of information according to the attribute of the data. For example, the information presentation step (S400) may not only provide productivity information on formwork construction, productivity related to the construction of reinforcing bars, and productivity information on concrete casting, but may also suggest each of them separately . In addition, the information presentation step (S400) may be integrated presentation of information on labor costs, equipment costs, etc., as well as presentation.

Hereinafter, a construction performance presentation apparatus according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 4, the construction performance presentation apparatus may include a process data information input unit 100, a material usage result information acquisition unit 200, a processing information derivation unit 300, and an information presentation unit 400.

The process data information input unit 100 inputs the process data information related to the performed construction work.

The process data information may be used for construction performance, material cost, labor cost, equipment cost, and the like, as well as construction material utilization information obtained using the above-described RFID (Radio Frequency Identification) Various information such as installation costs, general expenses, and the like can be included. The process data information is stored in a construction information database 250 connected to the process data information input unit 100.

The process data information input unit 100 may include a process information input unit (not shown) and an overlapped information deletion unit (not shown).

The process information input unit (not shown) inputs process data information related to the performed construction work, and the redundant information deletion unit (not shown) deletes duplicated process data information related to each random variable, Deletes process data information.

Of course, the process data information input unit 100 may input only one piece of information corresponding to each random variable so that the process data information is uniformly distributed. It is also possible to extract only one piece of information corresponding to each random variable so that the process data information input by the information presentation unit 400 is uniformly distributed.

The material utilization result information obtaining unit 200 may obtain the material information of the material using the RFID reader 130 installed in the moving path of the material 110 on which the RFID tag 120 is mounted , And obtains usage information of the material 110 in real time.

Usage information of the material is obtained through the material 110, the RFID tag 120, the RFID reader 130, and the relay 140 as described above. The utilization information of the material may include resource information or utilization time information of the material and is stored in the construction information database 250 connected to the performance information acquisition unit 200 of the material use.

The processing information deriving unit 300 is connected to the construction information database 250 and generates the processing information based on the process information data inputted from the process data information input unit 100, ), And derives the processing information required by the manager.

Such processing information may include productivity information or unit cost information as described above, and a detailed description thereof will be omitted in order to avoid duplication of description.

However, the cost information of the material 110 may be significantly different from the actual cost due to various factors such as the contract content, the price, and other social factors. Therefore, the construction performance presentation apparatus according to another embodiment of the present invention may include the unit And a processing information modifying unit 350 for modifying the cost information.

The information presentation unit 400 is connected to the machining information derivation unit 300 to grasp the machining information characteristic based on the process data information, converts the machining information characteristic into a normal distribution through the Bayesian method described above, .

The information presentation unit 400 switches the normal distribution in real time as the processing information is added to the uniformly distributed process data information by using the Bayesian method described above. .

Meanwhile, the information presentation unit 400 can present each piece of information according to the attribute of the data, and the details thereof are the same as those described above, and a detailed description thereof will be omitted in order to avoid duplication of description.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100 ... Process data information input unit
110 ... Material
120 ... RFID ID Tag
130 ... RFID ID Reader
140 ... repeater
200 ... Achievement information acquisition unit of material use
250 ... construction information database
300 ... processing information deriving unit
350 ... < / RTI >
400 ... information presentation unit

Claims (15)

A construction performance presentation method using a construction performance presentation apparatus,
A process data information input step of inputting only one piece of information corresponding to each probability variable so that the process data information related to the performed construction work is uniformly distributed;
A step of acquiring performance information of a material used to acquire utilization information of the material in real time through an RFID reader installed in a moving path of a material equipped with an RFID (Radio Frequency Identification) tag;
Deriving any one of productivity information or unit cost information by processing usage information of the material obtained in real time based on the process data information; And
And an information presenting step of grasping the processing information characteristic based on the process data information, and converting the characteristic of the processing information into a normal distribution through a Bayesian method and presenting it to the outside in real time.
delete delete The method according to claim 1,
And a cost correction step of correcting the unit cost information.
delete The method according to claim 1,
Further comprising the step of deleting redundant data among the process data information related to each of the random variable parameters so that the process data information is uniformly distributed.
The method of claim 6,
The information presentation step includes:
Wherein the processing information is added to the uniformly distributed process data information using a Bayesian method to convert the processed information into a normal distribution in real time.
The method of claim 6,
The information presentation step includes:
Wherein the processing information is added to the uniformly distributed process data information using the following Bayesian mathematical expression to switch to a normal distribution in real time.

,

Here, μ is an average value calculated by the Bayesian method,

Is the standard deviation calculated by the Bayesian method,

The average of new data,

Is the average of existing data,

Is the standard deviation of the new data,

Is the standard deviation of the existing data,

Represents the number of data.
The method according to claim 1,
The information presentation step includes:
And presenting each information according to the attribute of the data.
A process data information input unit for inputting only one piece of information corresponding to each probability variable so that the process data information related to the performed construction work is uniformly distributed;
An achievement information acquisition unit for acquiring utilization information of the material in real time through an RFID reader installed in a movement path of the RFID tag;
A process data information input unit connected to the process data information input unit and the material use result acquiring unit and configured to use the material obtained in real time from the material use information acquisition unit based on the process data information input from the process data information input unit, A processing information deriving unit for deriving one of productivity information or unit cost information by processing information; And
A construction performance displaying device connected to the processing information deriving part to recognize the processing information characteristic based on the process data information and to convert the characteristic of the processing information into a normal distribution through a Bayesian method to present it to the outside, .
delete The method of claim 10,
The process data information input unit,
A process information input unit for inputting process data information related to the performed construction work;
And an overlap information deleting unit for deleting redundant process data information among the process data information related to each of the random variable parameters so that the process data information is uniformly distributed.
delete The method of claim 12,
The information presentation unit,
And the processing information is added to the uniformly distributed process data information by using the following Bayesian equation to switch to a normal distribution in real time.

,

Here, μ is an average value calculated by the Bayesian method,

Is the standard deviation calculated by the Bayesian method,

The average of new data,

Is the average of existing data,

Is the standard deviation of the new data,

Is the standard deviation of the existing data,

Represents the number of data.
The method of claim 10,
The information presentation unit,
And presents each information according to the attribute of the data.

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