CN111368501A - Seismic auxiliary data flow processing system - Google Patents

Abstract

The invention provides a seismic auxiliary data flow processing system. The system comprises: a process control subsystem and a data management subsystem; the flow control subsystem comprises a control module, a data transmission module and a plurality of data processing modules with different functions; the data management subsystem comprises a data storage module; the data transmission module acquires the regularized data in the data storage module according to the data input instruction output by the control module and sends the regularized data to the corresponding data processing module; the data processing module is called by the control module to process the regularized data, obtain corresponding processed data and processing information, send the processed data and the processing information to the data storage module and send the processing information to the control module; and the control module judges whether the regularized data is processed by all the data processing modules according to the processing information, if not, the control module calls the data processing modules which are not called to process the regularized data until the regularized data is processed by all the data processing modules.

Description

Seismic auxiliary data flow processing system

Technical Field

The invention relates to the technical field of seismic auxiliary data processing, in particular to a seismic auxiliary data flow processing system.

Background

The seismic auxiliary data refers to other production data generated in seismic acquisition besides seismic data, and mainly comprises an SPS file, a seismic source attribute file, an instrument LOG file and the like. The seismic auxiliary data are mainly text data and play an important role in seismic acquisition quality control and subsequent seismic data processing.

In the process of seismic acquisition and production, a large amount of seismic auxiliary data are generated every day, and need to be processed quickly in time. The seismic assistance data has the following characteristics: 1) as most earthquake auxiliary data are text data, the format and the content of the earthquake auxiliary data can be changed greatly; 2) different types of output seismic auxiliary data are different due to different seismic exploration instruments and different acquisition modes; 3) the processing requirements of different oilfield companies for seismic assistance data are also different. The above characteristics of the seismic auxiliary data pose great challenges to the data processing, so that the seismic auxiliary data processing is difficult to form a uniform processing mode and method. In order to adapt to the characteristic of diverse quality control and processing of earthquake auxiliary data, the industry mainly adopts an interactive processing mode to process the earthquake auxiliary data. Although the interactive processing function adapts to the characteristics of the processing diversity of the auxiliary data, the seismic auxiliary data processing through the interactive function causes a large amount of repetitive work, and the efficiency is very low. At present, along with the popularization and application of the seismic exploration and collection efficient collection technology, the efficiency of seismic exploration and collection is continuously improved, the seismic auxiliary data is rapidly increased, and the interactive processing mode and method cannot meet the requirements of seismic exploration and efficient collection.

Disclosure of Invention

In order to solve the problems of low efficiency and the like in the conventional seismic auxiliary data processing, the embodiment of the invention provides a seismic auxiliary data flow processing system, which comprises: a process control subsystem and a data management subsystem; the flow control subsystem comprises a control module, a data transmission module and a plurality of data processing modules with different functions; the data management subsystem comprises a data storage module;

the data transmission module acquires the regularized data in the data storage module according to the data input instruction output by the control module and sends the regularized data to the corresponding data processing module;

the data processing module is called by the control module to process the regularized data to obtain corresponding processed data and processing information, the processed data is sent to the data storage module through the data transmission module, and the processing information is sent to the control module;

and the control module judges whether the regularized data is processed by all the data processing modules according to the processing information, if not, the control module calls the data processing modules which are not called to process the regularized data until the regularized data is processed by all the data processing modules.

Optionally, in an embodiment of the present invention, the data management subsystem further includes a data receiving module; the data receiving module is used for receiving original data.

Optionally, in an embodiment of the present invention, the data management subsystem further includes a regularization module, configured to process the original data in the data receiving module according to a preset rule, generate the regularized data, and send the regularized data to the data storage module.

Optionally, in an embodiment of the present invention, the process control subsystem further includes an information module, configured to receive and store the processing information sent by the control module.

Optionally, in an embodiment of the present invention, the data processing module includes a sampling data checking module, an earthquake auxiliary data field replacing module, a waste cannon removing module, and a sampling data outputting module.

Optionally, in an embodiment of the present invention, the data processing module has corresponding processing parameters and unique identifiers; wherein the unique identifier is used for enabling the control module to call the data processing module.

Optionally, in an embodiment of the present invention, the data processing module is further configured to send a data reading instruction to the data transmission module; the processing the regularized data to obtain corresponding processed data and processing information further comprises: and the data processing module receives the read data sent by the data transmission module by using the data reading instruction, and processes the regulated data according to the read data and the processing parameters to obtain the corresponding processed data and processing information.

Optionally, in an embodiment of the present invention, the data processing module is further configured to send a data reading instruction to the data storage module; the processing the regularized data to obtain corresponding processed data and processing information further comprises: the data processing module acquires read data in the data storage module by using the data read instruction, and processes the regularized data according to the read data and the processing parameters to obtain corresponding processed data and processing information.

Optionally, in an embodiment of the present invention, the processing information includes error reminding information and processing detail information.

Optionally, in an embodiment of the present invention, the control module is further configured to end the processing of the regularized data by the data processing module according to the error reminding information.

The seismic auxiliary data flow processing system provided by the invention realizes the processing of the seismic auxiliary data in a flow processing mode, thereby not only enhancing the applicability of the technology, but also reducing the manual participation, realizing one-key processing in the processing process and meeting the requirement of efficient processing of the seismic auxiliary data.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

FIG. 1 is a schematic diagram of a seismic assistance data processing system according to an embodiment of the present invention;

fig. 2 is a data processing flow chart of a seismic assistance data flow processing system according to an embodiment of the invention.

Detailed Description

The embodiment of the invention provides a seismic auxiliary data flow processing system.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of a seismic assistance data flow processing system according to an embodiment of the present invention, where the system includes: a process control subsystem and a data management subsystem; the flow control subsystem comprises a control module 10, a data transmission module 11 and a plurality of data processing modules 12 with different functions; the data management subsystem includes a data storage module 20;

the data transmission module 11 acquires the regularized data in the data storage module 20 according to the data input instruction output by the control module 10, and sends the regularized data to the corresponding data processing module 12;

the data processing module 12 is called by the control module 10 to process the regularized data to obtain corresponding processed data and processing information, and the processed data is sent to the data storage module 20 through the data transmission module 11, and the processing information is sent to the control module 10;

the control module 10 determines whether the regularized data is processed by all the data processing modules 12 according to the processing information, and if not, the control module 10 calls the data processing modules 12 which are not called to process the regularized data until the regularized data is processed by all the data processing modules 12.

In this embodiment, the data storage module 20 of the data management subsystem holds the regularized data. The control module 10 in the process control subsystem can be used to control the start and stop of the data processing process, the data processing process is started by sending a data input instruction to the data transmission module 11, and the data transmission module 11 sends the acquired regularized data to the data processing module 12. The flow control subsystem has a plurality of data processing modules 12 with different functions, and the control module 10 calls the different data processing modules 12 to process the regularized data. After the single data processing module 12 finishes processing, processed data and corresponding processing information are obtained, the processed data are sent to the data storage module 20 through the data transmission module 11, and the processing information is sent to the control module 10. The control module 10 can know whether the processing of the regularized data is completed currently according to the processing information, specifically, whether the regularized data is processed by all the data processing modules 12, if not, the control module 10 continues to call the data processing modules that are not called to perform corresponding processing on the regularized data until the regularized data is processed by all the data processing modules 12, and the processing flow is ended.

As an embodiment of the present invention, the data management subsystem further comprises a data receiving module 22; the data receiving module 22 is used for receiving the original data. The data receiving module 22 is configured to obtain raw data of seismic auxiliary data to be processed.

In this embodiment, the data management subsystem further includes a regularization module 21, configured to process the original data in the data receiving module 22 according to a preset rule, generate the regularized data, and send the regularized data to the data storage module 20. The regularization module 21 performs regularization processing on the raw data in the data receiving module 22 according to a preset processing rule. The preset rule may be, for example, acquiring shot coordinate data in the original data, generating an abscissa in all coordinate data as a regularized data, generating all ordinates as a regularized data, converting a data type of the original data, and the like.

As an embodiment of the present invention, the flow control subsystem further includes an information module 13, configured to receive and store the processing information sent by the control module. The information module 13 stores processing information, and the information module 13 is also used to output the processing information. For example, when the data processing flow is completed, the worker may check the processed data through the processing information output from the information module 13.

As an embodiment of the invention, the data processing module 12 comprises a sampling data checking module, a seismic auxiliary data field replacing module, a waste cannon removing module and a sampling data output module.

In this embodiment, the data processing module 12 has corresponding processing parameters and unique identifiers; wherein the unique identifier is used to enable the control module 10 to invoke the data processing module 12. The control module 10 makes calls when calling different data processing modules 12, by means of a unique Identification (ID) of the data processing module 12. Meanwhile, through the unique identifier of the data processing module 12, the processing parameters of different data processing modules 12 can be edited, or editing operations such as deletion or addition can be performed on the data processing module 12.

As an embodiment of the present invention, the data processing module 12 is further configured to send a data reading instruction to the data transmission module 11; the processing the regularized data to obtain corresponding processed data and processing information further comprises: the data processing module 12 receives the read data sent by the data transmission module 11 by using the data read instruction, and processes the regularized data according to the read data and the processing parameters to obtain the corresponding processed data and processing information.

In this embodiment, when the data processing module 12 processes the regularized data, there is a case where it is necessary to call other data for assistance, and the data for assistance in this case is read data, and the read data may be regularized data. The data processing module 12 may obtain the required read data through the data transmission module 11, and further, the data processing module 12 may obtain the regularized data or the processed data in the data storage module 20 as the read data through the data transmission module 11.

As an embodiment of the present invention, the data processing module 12 is further configured to send a data reading instruction to the data storage module 20; the processing the regularized data to obtain corresponding processed data and processing information further comprises: the data processing module 12 obtains the read data in the data storage module 20 by using the data read instruction, and processes the regularized data according to the read data and the processing parameters to obtain the corresponding processed data and processing information.

In this embodiment, when the data processing module 12 processes the regularized data, there is a case where it is necessary to call other data for assistance, and the data for assistance in this case is read data, and the read data may be regularized data. The data processing module 12 may directly obtain the read data from the data storage module 20, and further, may obtain the regularized data or the processed data in the data storage module 20 as the read data.

As an embodiment of the present invention, the processing information includes error reminding information and processing detail information.

In this implementation, the control module 10 is further configured to end the processing of the regularized data by the data processing module 12 according to the error reminding information. Wherein, when an error occurs during the processing of the data processing module 12, an error reminding message can be generated and sent to the control module 10. The control module 10 stops the data processing flow after receiving the error reminding information. Further, the control module 10 may analyze the error reminding information to determine a current error type and an error level, and allow the current error type to be ignored if the current error type is a negligible error or the current error level is low. The control module 10 does not follow the process flow but proceeds to call the data processing module 12 for processing. In addition, the error reminding information and the processing detail information are both sent to the information module 13 by the control module 10 to assist the operator in performing the subsequent work.

The seismic auxiliary data flow processing system provided by the invention realizes the processing of the seismic auxiliary data by using a flow processing mode, thereby enhancing the applicability of the technology, reducing the manual participation, realizing one-key processing in the processing process and meeting the requirement of high-efficiency processing of the seismic auxiliary data.

Fig. 2 is a data processing flow chart of a seismic assistance data flow processing system according to an embodiment of the invention, and the data management subsystem and the flow control subsystem in fig. 2.

In this embodiment, the seismic auxiliary data flow processing system includes editing of the flow in the data processing process, and the editing of the flow is realized in an interactive manner, and mainly completes functions of creating the flow, adding, deleting, moving, setting processing parameters, and the like of the data processing module in the flow. The flow control subsystem mainly completes the functions of starting, stopping, processing information output and the like of the flow. In the process operation, the process control subsystem sequentially executes each data processing module in the process. During the execution of the data processing module, the data processing module returns various processing information, including error, prompt and other information. When the data processing module returns error information, the process control subsystem outputs the information to the information module and terminates the operation of the process. When the data processing module returns other information, the flow control subsystem outputs the information to the information module and starts the operation of the next data processing module until the operation of all the data processing modules is completed.

In addition, the seismic auxiliary data flow processing system also comprises module management in the data processing process, and mainly realizes the management of the data processing module. The data processing module is realized through the extension point, a unique ID is set for the data processing module when the data processing module is realized, and the system realizes the management of the data processing module through the ID.

The seismic auxiliary data flow processing system completes the regularization processing of data in the data management subsystem, and a uniform data model needs to be established because the seismic auxiliary data have more types and larger content difference. The data model comprises a shot point data model, a receiving point data model and a shot-checking relation data model. And generating a system data file according to the model, adding the system data file to a data management subsystem, and obtaining regulated data through regulation processing.

The flow control subsystem obtains the regularized data through the data transmission module, the module inputs the regularized data into the flow control subsystem, and the processing data transferred among the modules in the auxiliary data processing flow is the data input by the module. The flow control subsystem agrees that the block is a must block and is at the top of the flow.

The data processing module in the flow control subsystem is used for processing the seismic auxiliary data and mainly comprises the following steps: SPS data inspection, seismic auxiliary data field replacement, waste shot removal, repeated shot deletion, SPS data output and the like. In the implementation of a data processing module, three principles need to be followed: (1) the modules manage own processing parameters respectively; (2) the modules respectively manage the data input and output (if the data input and output exist) of the modules; (3) the module itself performs integrity checks of the input parameters and data before the module is run.

The seismic auxiliary data flow processing system also comprises data management in the data processing process, and mainly manages the system regularization data after regularization processing. Seismic assistance data for a work area is typically managed in the form of a bundle of lines. The data model of each line is consistent and the flow of processing the data is the same. The flow control subsystem acquires data from the data management subsystem by managing the data of all the wire harnesses in a list form, and stores the processed result into each wire harness data file of the data storage module.

The files 1 to n in the data management subsystem shown in fig. 2 are system data files, and are data files generated after being subjected to regularization processing. In the flow control subsystem, firstly, the data transmission module inputs regularized data from the data management subsystem in the implementation process. The data transmission module only inputs the file name list actually, and actual data is not read. And secondly, the running data processing module i in the process reads data from the data management subsystem according to the input file list, processes the data and outputs the processing result to a corresponding data file of a data storage module in the data management subsystem.

In one embodiment, the seismic assistance data flow processing process comprises: 1. and (4) creating and editing the flow. First, a process flow is created and named. Then, a processing module is added. The first processing module is a system data input module. The second processing module is a data regularization module and is used for creating a system data file. The subsequent processing modules are common processing modules, can be added according to requirements, and generally comprise modules for data inspection, waste file rejection, repeated gun rejection, SPS output and the like. Finally, parameters are set for each processing module. The modules in the processing flow are as follows: (1) the system data input module comprises the following parameters: start-stop harness 1001 and 1005; (2) the data regularization module comprises the following parameters: the input data directory is E: \ Test, and the data format selects sps and vaps; (3) an sps check module; (4) the waste file eliminating module has the parameters as follows: the input data directory is E: \ Test, and the data format selects obs and vaps; (5) a repeated gun rejecting module; (6) the output module of sps inputs E: \ Out in data directory, and selects sps2.1 in data format. 2. And (5) running the process. First, the flow is saved, the flow and the input parameters are saved. And then, running the flow, and running the modules one by the system to finally finish the processing work of the seismic auxiliary data.

In the flow control subsystem, each module manages data reading and writing and parameters, the flow of the data and the parameters is not needed in the process of flow operation, and the flow control subsystem only controls the flow to operate and stop according to the processing information returned by the modules, so that the complexity of the realization of the technology is reduced. The data management subsystem is responsible for managing the data files, and a unified data model is established by the data regularization module and the data files are created. Aiming at different data types, the creation of data files can be realized through different data regularization modules so as to meet the requirements of seismic auxiliary data types and various contents.

In a specific implementation, the useless file elimination module in the seismic auxiliary data processing flow is taken as an example. According to the three principles implemented by the processing module, the module manages two input parameters: one is the file path where the OBS file and the VAPS file are located; the other is the harness range parameter inputted by the system data input module, which is the harness 1001 and 1005 in this embodiment. When the data processing module is used for setting parameters, the module firstly checks input parameters. The data processing module firstly queries whether the wiring harness 1001 and 1005 exist from the data storage module in fig. 1, and if not, pops up prompt information to remind a user to modify input parameters. And then, the data processing module checks the paths of the input OBS file and the input VAPS file, and if the paths do not exist, a prompt message is popped up to remind a user to modify the input parameters. When the data processing module runs, three steps are mainly performed. Firstly, the module searches all OBS files and VAPS files in the input paths of the OBS files and the VAPS files according to the suffix names of the files to form an OBS file list and a VAPS file list. And secondly, analyzing each file in the file list by the data processing module, extracting seismic times with waste file identifications, such as abnormal seismic source state codes, overproof seismic source combination centers and the like, and forming a waste file list. Thirdly, the data processing module reads the regularization data in the wire harnesses 1001 to 1005 from the data management system in sequence, searches the data with the same vibration times as the waste file list in the regularization data, deletes the data, and then stores the data with the waste file deleted in the data management subsystem. And after the data processing module finishes the work of deleting the waste files, returning the information that the module normally finishes data processing, and transmitting the information to the control module. The control module outputs the module processing information to the information module and then enters the operation of the next data processing module.

The seismic auxiliary data flow processing system provided by the invention realizes the processing of the seismic auxiliary data by using a flow processing mode, thereby enhancing the applicability of the technology, reducing the manual participation, realizing one-key processing in the processing process and meeting the requirement of high-efficiency processing of the seismic auxiliary data.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by relevant hardware instructed by a program, and the program may be stored in a computer readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A seismic assistance data flow processing system, the system comprising: a process control subsystem and a data management subsystem; the flow control subsystem comprises a control module, a data transmission module and a plurality of data processing modules with different functions; the data management subsystem comprises a data storage module;

the data transmission module acquires the regularized data in the data storage module according to the data input instruction output by the control module and sends the regularized data to the corresponding data processing module;

the data processing module is called by the control module to process the regularized data to obtain corresponding processed data and processing information, the processed data is sent to the data storage module through the data transmission module, and the processing information is sent to the control module;

and the control module judges whether the regularized data is processed by all the data processing modules according to the processing information, if not, the control module calls the data processing modules which are not called to process the regularized data until the regularized data is processed by all the data processing modules.

2. The system of claim 1, wherein the data management subsystem further comprises a data receiving module; the data receiving module is used for receiving original data.

3. The system of claim 2, wherein the data management subsystem further comprises a regularization module configured to process raw data in the data receiving module according to a preset rule, generate the regularized data, and send the regularized data to the data storage module.

4. The system of claim 1, wherein the process control subsystem further comprises an information module configured to receive and store the processing information sent by the control module.

5. The system of claim 1, wherein the data processing module comprises a sampled data inspection module, a seismic assistance data field replacement module, a waste shot culling module, and a sampled data output module.

6. The system of claim 5, wherein the data processing module has corresponding processing parameters and a unique identifier; wherein the unique identifier is used for enabling the control module to call the data processing module.

7. The system of claim 1, wherein the data processing module is further configured to send a data reading instruction to the data transmission module;

the processing the regularized data to obtain corresponding processed data and processing information further comprises:

and the data processing module receives the read data sent by the data transmission module by using the data reading instruction, and processes the regulated data according to the read data and the processing parameters to obtain the corresponding processed data and processing information.

8. The system of claim 1, wherein the data processing module is further configured to send a data reading instruction to the data storage module;

the processing the regularized data to obtain corresponding processed data and processing information further comprises:

the data processing module acquires read data in the data storage module by using the data read instruction, and processes the regularized data according to the read data and the processing parameters to obtain corresponding processed data and processing information.

9. The system of claim 1, wherein the processing information comprises error alert information and processing detail information.

10. The system of claim 9, wherein the control module is further configured to end the processing of the regularization data by the data processing module according to the error notification message.

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