JP6785076B2 - Pile driving data management system and management method - Google Patents

Description

The present invention relates to a pile driving data management system and a management method, and more particularly to a system for appropriately managing pile driving data composed of image data.

When constructing a structure, it is necessary to construct a foundation structure to support the weight of the structure, and especially for large-scale structures, pile foundations that reach the support layer in the ground have come to be constructed. ing. There are various forms of such pile foundations, but they can be roughly classified into cast-in-place piles and ready-made piles. In recent urban development, noise regulation and vibration regulation are enforced because existing structures such as office buildings and condominiums exist in the surrounding area. Therefore, in areas where noise regulation and vibration regulation are enforced, the pre-boring method using ready-made piles is often adopted as a method for constructing pile foundations with low noise and low vibration.

The pre-boring method using ready-made piles is, for example, a method of excavating the ground to be constructed using an earth auger and injecting a rooting liquid or a pile fixing liquid into the excavation hole to lay the ready-made piles. In addition, the ground structure is grasped by conducting survey boring at the construction site, and the design is such that the tip of the existing pile, which is the foundation structure, reaches the support layer.

In the pre-boring method using a ready-made pile, a method of measuring the penetration resistance of the pile and determining whether or not the tip of the ready-made pile has reached the support layer is used (see Patent Document 1). The technique described in Patent Document 1 can accurately determine the arrival at the support layer by comparing the N value data obtained in the standard penetration test with the measurement data of the workload of the hydraulically driven auger. It was made like this.

Specifically, before excavating the ground with the auger device, a standard penetration test is conducted near the excavation point, the N value is measured at certain depth sections, and while excavating the ground with the auger device, the auger device The rotation speed of the drive shaft, the pressure of the pressure oil, and the excavation depth are measured, and the work performed by the auger device is calculated for each fixed excavation section from the rotation speed, the pressure value of the pressure oil, and the excavation speed, and the standard penetration test is performed. By plotting the obtained N-value data and the work performed by the auger on the same screen graph on the same depth scale, and comparing and contrasting the change in N-value and the change in work, the excavation depth is the support layer. Estimate if you have reached.

The pile driving data obtained in this way is managed by management books and the like, and is used as a material indicating that the existing piles have reached the support layer. Then, when it is determined that the existing pile has not reached the support layer by referring to the pile driving data, it is necessary to ensure the construction quality by taking appropriate measures.

Japanese Unexamined Patent Publication No. 2013-72271

However, the management of pile driving data is generally performed manually by the administrator, and a huge amount of pile driving data must be managed. If the soil quality of the ground on which the ready-made piles are constructed is different, the pile driving data will be different, but if the soil quality is the same, the pile driving data will be similar. For this reason, it cannot be said that there is a possibility that data collected at other construction sites will be mixed when managing a huge amount of pile driving data, and management of pile driving data is important for proper construction management. It has meaning.

The present invention has been proposed in view of the above circumstances, and provides a pile driving data management system and a management method capable of preventing duplicate use of pile driving data and performing appropriate construction management. The purpose is.

The pile driving data management system and management method according to the present invention have the following features in order to achieve the above-mentioned object. That is, the pile driving data management system and the management method according to the present invention are techniques for comparing a plurality of pile driving data with each other, quantifying the degree of similarity, and outputting the data. The piling data management system includes a data acquisition means, a data correction means, a comparison range specifying means, a comparison parameter setting means, a data comparison means, and a data output means. This is a method of managing pile driving data by a pile driving data management system.

The data acquisition means is a means for acquiring a plurality of pile driving data composed of image data. The data correction means is a means for performing correction processing on a plurality of acquired pile driving data so that they can be compared with each other. The comparison range designating means is a means for designating a range for performing comparison processing based on an instruction input for the corrected pile driving data. The comparison parameter setting means is a means for setting comparison parameters based on instruction input for a plurality of pile driving data for which a range for performing comparison processing is specified. The data comparison means is a means for mutually comparing a plurality of pile driving data for which a range for performing comparison processing is specified by using comparison parameters. The data output means is a means for digitizing and outputting the comparison result in the data comparison means.

Further, it is preferable that the step of comparing a plurality of pile driving data with each other by the data comparison means is carried out as a distributed process by a plurality of computers.

According to the pile driving data management system and the management method according to the present invention, correction processing, comparison range designation processing, and comparison parameter setting processing necessary for comparing a plurality of pile driving data stored as image data with each other. , And the comparison result of each pile driving data can be quantified and output.

Therefore, it is possible to perform appropriate construction management by finding out the possibility that the pile driving data is used more than once based on the comparison result and eliminating the inappropriate pile driving data as the management data.

In addition, by performing the process of comparing a plurality of pile driving data with each other as a distributed process by a plurality of computers, it is possible to perform the comparison process even with a huge amount of data without requiring a long time. It becomes.

The block diagram which shows the schematic structure of the pile driving data management system which concerns on embodiment of this invention. The flowchart which shows the procedure of the pile driving data management method which concerns on embodiment of this invention. The explanatory view which shows the procedure of the pile driving data management method which concerns on embodiment of this invention. Explanatory drawing (same data) showing comparison of pile driving data. Explanatory drawing (different data) showing comparison of pile driving data.

Hereinafter, the pile driving data management system and the management method according to the embodiment of the present invention will be described with reference to the drawings. 1 to 5 show a pile driving data management system and a management method according to an embodiment of the present invention, FIG. 1 is a block diagram showing a schematic configuration of a pile driving data management system, and FIG. 2 is a pile driving data management. A flowchart showing the procedure of the method, FIG. 3 is an explanatory diagram showing the procedure of the pile driving data management method, and FIGS. 4 and 5 are explanatory views showing a comparison of the pile driving data.

<Overview of pile driving data management system and management method>
The pile driving data management system and management method according to the embodiment of the present invention are for appropriately managing a huge amount of pile driving data managed by a management book or the like, and in particular, pile driving data which is image data. This is to prevent accidental duplicate use and enable appropriate construction management.

<Pile driving data management system>
As shown in FIG. 1, the pile driving data management system 10 includes a data acquisition means 11, a data correction means 12, a comparison range designation means 13, a comparison parameter setting means 14, a data comparison means 15, and a data output means. It has 16. Each means is composed of a computer, a program installed on the computer, and devices attached to the computer.

<Data acquisition means>
The data acquisition means 11 is a means for acquiring a plurality of pile driving data composed of image data, and the pile driving data stored in a storage means such as an HDD or the pile driving data scanned by a scanner is used as image data. get. The pile driving data (image data) acquired by the data acquisition means 11 is the original data that has not been corrected in various ways.

<Data correction means>
The data correction means 12 is a means for performing correction processing on a plurality of acquired pile driving data so that they can be compared with each other. The pile driving data to be compared may not be able to be compared with each other as the original data due to the difference in equipment when the original data is acquired, the inclination at the time of scanning, and the like. Therefore, the function of the data correction means 12 is used to make corrections so that a plurality of pile driving data can be compared with each other. The contents of the correction by the data correction means 12 include unification of the data format, correction of image tilt and distortion, and the like.

<Comparison range designation means>
The comparison range designating means 13 is a means for designating a range for performing comparison processing based on instruction input for the corrected pile driving data. Comparing the entire range of the acquired and corrected pile driving data would require unnecessary time for the comparison process. Therefore, it is preferable to extract only the range necessary for the comparison processing from the acquired and corrected pile driving data and perform the comparison processing. Therefore, in the present invention, the range for performing the comparison process on the corrected pile driving data is specified by the function of the comparison range designating means 13.

To specify the range to be compared, for example, the range is selected by the user's judgment and the instruction is input using an input means such as a mouse or a keyboard. The comparison range designating means 13 specifies a range for performing comparison processing based on this instruction input. Further, the instruction input may be automatically generated in order to specify a preset range instead of the instruction input by the user.

<Comparison parameter setting means>
The comparison parameter setting means 14 is a means for setting comparison parameters based on instruction input for a plurality of pile driving data for which a range for performing comparison processing is specified. The comparison parameters are the size of the mesh, the size of the data as a criterion for determining whether or not the data exists in the mesh, the brightness, the threshold value of the contrast, and the like. To set the comparison parameters, for example, the comparison parameters are selected at the user's discretion, and instructions are input using an input means such as a mouse or a keyboard. The comparison parameter setting means 14 specifies the comparison parameter based on this instruction input. Further, the comparison parameter set in advance may be used as the instruction input instead of the instruction input by the user.

<Data comparison means>
The data comparison means 15 is a means for mutually comparing a plurality of pile driving data for which a range for performing comparison processing is specified by using comparison parameters. As the comparison algorithm in the data comparison means 15, a comparison algorithm such as a histogram match or a corner match can be used. The comparison algorithm is not limited to these, and other comparison algorithms may be used as long as the image data can be compared.

Specifically, as shown in FIG. 3, the ruled lines are erased for an arbitrary image (graph of pile driving data). Then, the image (graph of pile driving data) is cut into a mesh (for example, 300 mesh). Then, with respect to the image (graph of pile driving data), it is determined whether or not data (pixels of the graph) exists in the mesh for each coordinate of the mesh. That is, if the data (graph pixels) exists in the mesh, it is set to "1", and if the data (graph pixels) does not exist in the mesh, it is set to "0". Then, for the two images, the existence of data (pixels of the graph) is compared for each coordinate of each mesh, and points are given depending on whether or not they match. For example, in the example shown in FIG. 4, the two data to be compared are the same, and in the example shown in FIG. 5, the two data to be compared are different.

The comparison process is performed for all pile driving data to be compared. It is not necessary to compare the pile driving data existing on the same page in the management books and the like. That is, if the pile driving data exists on the same page, the user can visually compare them instantly, so that it is unlikely that the same pile driving data exists on the same page.

<Data output means>
The data output means 16 is a means for digitizing and outputting the comparison result in the data comparison means 15 . The comparison result data output by the data output means 16 is presented to the user by the data presenting means 20.

<Data presentation means>
The comparison result data output by the data output means 16 is presented to the user by the data presenting means 20. Specifically, the comparison result data can be confirmed by the user by displaying the comparison result data on the display screen of a display device connected to the computer or printing the comparison result data by a printer.

<Pile driving data management procedure>
The pile driving data management method of this embodiment is carried out by using the pile driving data management system 10 described above. That is, as shown in FIGS. 2 and 3, the management of the pile driving data is performed with respect to the step (S1) of acquiring a plurality of pile driving data consisting of image data and the acquired plurality of pile driving data. The step of performing the correction process so that the comparison can be performed (S2), the step of designating the range of the corrected pile driving data based on the instruction input (S3), and the range of the comparison process are A step (S4) of setting comparison parameters based on instruction input for a plurality of specified pile driving data, and a plurality of pile driving data for which a range for performing comparison processing is specified by using the comparison parameters. It is carried out by a step of comparing (S5) and a step of digitizing and outputting the comparison result (S6). Further, the step (S5) of comparing a plurality of pile driving data with each other is preferably performed as a distributed process by a plurality of computers. Then, the output comparison result data is displayed on the display screen of the display device or printed by the printer.

10 Pile driving data management system 11 Data acquisition means 12 Data correction means 13 Comparison range designation means 14 Comparison parameter setting means 15 Data comparison means 16 Data output means 20 Data presentation means

Claims (3)

It is a pile driving data management system for comparing multiple pile driving data with each other and quantifying and outputting the similarity.
Data acquisition means for acquiring multiple pile driving data consisting of image data,
A data correction means that performs correction processing on the acquired plurality of pile driving data so that they can be compared with each other.
A comparison range specifying means for designating a range for performing comparison processing based on an instruction input for the corrected pile driving data, and
A comparison parameter setting means for setting comparison parameters based on instruction input for a plurality of pile driving data for which a range for performing the comparison processing is specified, and
A data comparison means for mutually comparing a plurality of pile driving data for which a range for performing the comparison process is specified using the comparison parameters.
A data output means that digitizes and outputs the comparison result in the data comparison means, and
A pile driving data management system characterized by being equipped with. It is a pile driving data management method for comparing multiple pile driving data with each other and quantifying and outputting the similarity.
The process of acquiring multiple pile driving data consisting of image data,
A step of performing correction processing on the acquired plurality of pile driving data so that they can be compared with each other, and
A step of designating a range for performing comparison processing based on instruction input for the corrected pile driving data, and
A process of setting comparison parameters based on instruction input for a plurality of pile driving data for which a range for performing the comparison process is specified, and
Using the comparison parameters, a step of comparing a plurality of pile driving data for which a range for performing the comparison process is specified with each other, and
The process of digitizing and outputting the comparison results and
A pile driving data management method characterized by including. The pile driving data management method according to claim 2, wherein the step of comparing the plurality of pile driving data with each other is performed as a distributed process by a plurality of computers.

Images