CN107589444A - The treating method and apparatus of geological data - Google Patents

The treating method and apparatus of geological data Download PDF

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Publication number
CN107589444A
CN107589444A CN201710637852.5A CN201710637852A CN107589444A CN 107589444 A CN107589444 A CN 107589444A CN 201710637852 A CN201710637852 A CN 201710637852A CN 107589444 A CN107589444 A CN 107589444A
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China
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geological data
data
geophone station
shot point
big gun
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CN201710637852.5A
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Chinese (zh)
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CN107589444B (en
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朱旭江
杨敬磊
梁晓峰
李康虎
于敏杰
许友宝
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中国石油天然气集团公司
中国石油集团东方地球物理勘探有限责任公司
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Priority to CN201710637852.5A priority Critical patent/CN107589444B/en
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Abstract

The invention provides a kind for the treatment of method and apparatus of geological data, wherein, this method includes:Obtain the geological data that the first geophone station gathers in node instrument;In the geological data that first geophone station is gathered in multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point, wherein, shot point corresponds with big gun collection file;In the case of it is determined that the geological data of each shot point has been stored in corresponding big gun collection file in the geological data of the first geophone station collection, the geological data that the second geophone station gathers in node instrument is obtained, and by big gun collection file corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of the second geophone station collection.In embodiments of the present invention, by way of this data processing, the processing time of geological data can be significantly reduced, so as to improve the efficiency of seismic data analysis.

Description

The treating method and apparatus of geological data

Technical field

The present invention relates to technical field of geological exploration, more particularly to a kind for the treatment of method and apparatus of geological data.

Background technology

At present, seismic exploration data continuously can be recorded using node instrument.The seismic prospecting under node instrument record After data, it can be downloaded by data, the process such as data cutout processing is handled seismic exploration data.It is specific real Existing process description is as follows:All detection point datas in collector node instrument, wherein, all geophone stations difference in node instrument Diverse location in work area to be measured, geological data is gathered by these geophone stations;To the earthquake number of all geophone stations collection According to the overall download of progress;After the geological data of all geophone stations collection has been downloaded, earthquake that all geophone stations are gathered Data carry out intercepting cutting processing;Again according to shot point relational file, extracted and shot point pair to be measured from above-mentioned all geological datas All geological datas answered;And spliced all geological datas corresponding with shot point to be measured, so as to export one The single-shot big gun collection of complete shot point to be measured.Each geophone station can repeat above-mentioned data processing method afterwards, i.e., according to be measured Shot point is read out to all node datas, so as to obtain big gun collection file corresponding to all shot points in work area.

Specifically, regular node data processing method schematic diagram as shown in Figure 1, has downloaded the earthquake number of all geophone stations According to afterwards, according to shot point relational file, all geological datas corresponding with shot point 1000 to be measured are extracted from all geological datas. Before geological data corresponding to shot point to be measured is chosen every time, the communication between each geophone station in foundation and node instrument is intended to Connection.After communication connection is established, the geological data in each geophone station is read respectively, lookup and big gun from each geophone station Geological data corresponding to point 1000, and splice output and the single-shot big gun collection of shot point 1000.Each geophone station can repeat afterwards Above-mentioned data processing method, i.e., all node datas are read out according to shot point to be measured, so as to obtain institute in work area There is big gun collection file corresponding to shot point.It was found from foregoing description, data processing speed is slow, time-consuming longer in aforesaid way, and then The collection efficiency of construction of geological prospecting can be influenceed.

In view of the above-mentioned problems, not yet propose effective solution at present.

The content of the invention

The invention provides a kind for the treatment of method and apparatus of geological data, to solve data processing speed in the prior art The problem of relatively slow, time-consuming longer.

The embodiments of the invention provide a kind of processing method of geological data, can include:Obtain first in node instrument The geological data of geophone station collection, the geological data of the first geophone station collection include the geological data of multiple shot points;By institute State in big gun collection file corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of the first geophone station collection, Wherein, shot point corresponds with big gun collection file;It is determined that in the geological data of first geophone station collection each shot point ground In the case that shake data have all been stored in corresponding big gun collection file, the earthquake number that the second geophone station gathers in node instrument is obtained According to, and by big gun corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of second geophone station collection Collect in file.

In one embodiment, by the ground of each shot point in multiple shot points in the geological data of first geophone station collection Shake in big gun collection file corresponding to data deposit, can include:According to shot point from the geological data of first geophone station collection Order intercepts geological data corresponding to each shot point one by one;By in big gun collection file corresponding to the geological data deposit shot point of interception.

In one embodiment, shot point can be corresponded to according to the geological data of interception blows out initial time and earthquake number According to the record time, geological data corresponding to each shot point is intercepted.

In one embodiment, by the ground of each shot point in multiple shot points in the geological data of second geophone station collection Shake in big gun collection file corresponding to data deposit, can include:It is determined that the first bombard point data in first geophone station is stored in Big gun collection file and second geophone station in the second shot point data deposit big gun collection file be identical big gun collection file situation Under, according to the first bombard point data and the interception time of the second shot point data, determine the first bombard point data and institute State position of the second shot point data in the big gun collection file.

In one embodiment, the geological data that the first geophone station gathers in node instrument is obtained, can be included:Utilize One thread obtains the geological data that the first geophone station gathers in the node instrument;Accordingly, gathered from first geophone station Geological data according to shot point order intercept geological data corresponding to each shot point one by one, can include:Utilize the second thread Geological data corresponding to each shot point is intercepted one by one according to shot point order from the geological data of first geophone station collection;Phase Answer, by the geological data of interception, be stored in big gun collection file corresponding to shot point, can include:Using the 3rd thread by interception Geological data, it is stored in big gun collection file corresponding to shot point.

In one embodiment, methods described can also include:It is determined that the earthquake of first geophone station collection obtained Whether the data volume of data exceeds the first predetermined threshold value;It is determined that in the case of beyond first predetermined threshold value, institute will be exceeded State the data deposit first buffering area of the first predetermined threshold value.

In one embodiment, methods described can also include:Determine the geological data of the interception data volume whether Beyond the second predetermined threshold value;In the case of it is determined that exceeding second predetermined threshold value, by beyond second predetermined threshold value Data are stored in second buffering area.

In one embodiment, methods described can also include:Determine the text of big gun collection file corresponding to the deposit shot point Whether number of packages amount exceeds the 3rd predetermined threshold value;It is determined that in the case of beyond the 3rd predetermined threshold value, the described 3rd will be exceeded The data of predetermined threshold value are stored in the 3rd buffering area.

In one embodiment, it is determined that in the geological data of first geophone station collection each shot point geological data In the case of in big gun collection file corresponding to being all stored in, the geological data that the first geophone station gathers in the node instrument is deleted.

The embodiment of the present invention additionally provides a kind of processing unit of geological data, can include:Seismic data acquisition module, For obtaining the geological data that the first geophone station gathers in node instrument, the geological data of the first geophone station collection is including more The geological data of individual shot point;First data storage module, for multiple big guns in the geological data that gathers first geophone station In point in big gun collection file corresponding to the geological data deposit of each shot point, wherein, shot point corresponds with big gun collection file;Second number According to preserving module, for it is determined that the geological data of each shot point has been stored in the geological data of first geophone station collection In the case of in corresponding big gun collection file, the geological data that the second geophone station gathers in node instrument is obtained, and by described second In the geological data of geophone station collection in multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point.

The embodiment of the present invention additionally provides a kind of processing unit of geological data, can include processor and for storing The memory of processor-executable instruction, realized described in the computing device during instruction:Obtain the first detection in node instrument The geological data of point collection, the geological data of the first geophone station collection include the geological data of multiple shot points;By described In the geological data of one geophone station collection in multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point, its In, shot point corresponds with big gun collection file;It is determined that each earthquake of shot point in the geological data of first geophone station collection In the case that data have all been stored in corresponding big gun collection file, the geological data that the second geophone station gathers in node instrument is obtained, And by big gun collection corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of second geophone station collection In file.

In embodiments of the present invention, after the geological data that the first geophone station in obtaining node instrument gathers, and it is existing Before choosing geological data corresponding to shot point to be measured every time in technology, it is intended in foundation and node instrument between each geophone station Communication connection is compared, and is directly stored in the geological data of each shot point in multiple shot points in the geological data of the first geophone station collection In corresponding big gun collection file, the communication connection once between the first geophone station in node instrument is only established, so can be with The time of data processing is saved, improves the speed of data processing.It is determined that the first geophone station collection geological data in each big gun In the case that the geological data of point has all been stored in corresponding big gun collection file, the ground that the second geophone station gathers in node instrument is obtained Shake data, and by big gun corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of the second geophone station collection Collect in file.So can be to collect geological data corresponding to each shot point.By way of this data processing, Neng Gouming The processing time of geological data is reduced aobviously, so as to improve the efficiency of seismic data analysis.

Brief description of the drawings

, below will be to embodiment or existing in order to illustrate more clearly of the embodiment of the present application or technical scheme of the prior art There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments described in application, for those of ordinary skill in the art, do not paying the premise of creative labor Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the regular node data processing method schematic diagram that the application provides;

Fig. 2 is a kind of process flow figure for geological data that the application provides;

Fig. 3 is the schematic diagram that the processing method using geological data that the application provides carries out seismic data process;

Fig. 4 is a kind of a kind of structured flowchart of the processing unit for geological data that the application provides.

Embodiment

In order that those skilled in the art more fully understand the technical scheme in the application, it is real below in conjunction with the application The accompanying drawing in example is applied, the technical scheme in the embodiment of the present application is clearly and completely described, it is clear that described implementation Example only some embodiments of the present application, rather than whole embodiments.It is common based on the embodiment in the application, this area The every other embodiment that technical staff is obtained under the premise of creative work is not made, it should all belong to the application protection Scope.

During in view of handling in the prior art the geological data of node instrument collection, can first it establish and node Communication connection in instrument between each geophone station;After above-mentioned multiple communication connections are established, each geophone station collection is read Geological data, therefrom search corresponding with shot point to be measured geological data.It was found from from foregoing description, prior art interior joint instrument Each node (in the seismic data processing technique described by the present embodiment, node is geophone station) recycles efficiency in device It is relatively low, data processing speed is slow.For drawbacks described above, inventors herein propose the first geophone station in node instrument is obtained and gather Geological data after, can by multiple shot points in the geological data collected each shot point geological data deposit corresponding to In big gun collection file, so as to realize the processing to all geological datas.Based on this, it is proposed that a kind of processing method of geological data, As shown in Fig. 2 it may comprise steps of:

S101:Obtain the geological data that the first geophone station gathers in node instrument, the earthquake number of first geophone station collection According to the geological data for including multiple shot points.

In the present embodiment, the geological data that the first geophone station gathers in node instrument can be obtained first, first inspection The geological data of wave point collection includes the geological data of multiple shot points.

Wherein, above-mentioned node instrument can include multiple nodes, can be gathered from multiple shot points in each node Geological data.Wherein, the node in node instrument is geophone station in geological prospecting.Accordingly, can be wrapped in node instrument Containing multiple geophone stations, each geophone station can gather the geological data from multiple shot points.Therefore, each geophone station is gathered Geological data can include the geological datas of multiple shot points.Such as:From closely to far there are four shot points in somewhere successively, respectively For:Big gun 1, big gun 2, big gun 3, big gun 4, there are two geophone stations, inspection 1, inspection 2, then big gun 1, big gun 2, big gun 3, the earthquake number of big gun 4 can be gathered by examining 1 According to inspection 2 can gather big gun 1, big gun 2, big gun 3, the geological data of big gun 4.

It is worth noting that, the geophone station that above-mentioned first geophone station and the second geophone station hereinafter are each meant, with " One " is intended merely to make a distinction the geophone station of two opening positions with " second ", not other special implications.

In one embodiment of the application, before the geological data that the first geophone station is gathered is obtained, node instrument In can only exist the data that first geophone station is gathered, without waiting other all detections in addition to the first geophone station After geological data in point is ready, the acquisition of geological data in the first geophone station is just carried out.Which and existing skill To ensure the integrality of geological data in art, the geological data of all geophone station collections in node instrument is generally waited to prepare completely Afterwards, the geological data of all geophone stations is just downloaded, geophone station recycles less efficient mode and compared, and the present embodiment is significantly Improve the effective rate of utilization of geophone station.

S102:The geological data of each shot point in multiple shot points in the geological data of first geophone station collection is stored in corresponding Big gun collection file in, wherein, shot point and big gun collection file correspond.

In the present embodiment, can be by the first geophone station after the geological data of above-mentioned first geophone station collection is obtained In the geological data of collection in multiple shot points corresponding to the geological data deposit of each shot point in big gun collection file, wherein, shot point with Big gun collection file corresponds.

In one embodiment of the application, above-mentioned data storage method may comprise steps of:

S2-1-1:Intercepted one by one corresponding to each shot point according to shot point order from the geological data of the first geophone station collection Geological data;

S2-1-2:By in big gun collection file corresponding to the geological data deposit shot point of interception.Can be according to the earthquake number of interception Initial time (that is, the gps time of effective shot point) and seismic data recording time are blown out according to corresponding shot point, intercepts each big gun Geological data corresponding to point.

Such as:Above-mentioned inspection 1 acquires big gun 1, big gun 2, big gun 3, the geological data of big gun 4, then can intercept big gun 1, big gun 2, big gun respectively 3rd, geological data corresponding to big gun 4, and the geological data big gun 1 of interception is stored in big gun collection file (collection 1) corresponding with big gun 1, it will cut The geological data big gun 2 taken is stored in big gun collection file (collection 2) corresponding with big gun 2, and it is right with big gun 3 that the geological data big gun 3 of interception is stored in In the big gun collection file (collection 3) answered, the geological data big gun 4 of interception is stored in big gun collection file (collection 4) corresponding with big gun 4.

It is of course also possible to each shot point pair is intercepted one by one according to shot point backward from the geological data of the first geophone station collection The geological data answered, or using geological data corresponding to each shot point is intercepted one by one at random, for intercept method the application couple This is not construed as limiting.

In the present embodiment, directly by the earthquake of each shot point in multiple shot points in the geological data of the first geophone station collection In big gun collection file corresponding to data deposit, so as to each shot point in multiple shot points in the geological data to the collection of the first geophone station Geological data is stored.Therefore, before the geological data of the first geophone station collection is stored, it is only necessary to establish once with first The communication connection of geophone station, you can to realize the data storage of each shot point in multiple shot points, solve in the prior art every Before geological data corresponding to secondary selection shot point to be measured, the communication link between each geophone station in foundation and node instrument is intended to Connect, take the defects of longer, greatly reduce data processing time, improve data processing speed.

S103:Corresponding to it is determined that the geological data of each shot point has been stored in the geological data of the first geophone station collection In the case of in big gun collection file, the geological data that the second geophone station gathers in node instrument is obtained, and the second geophone station is gathered Geological data in multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point.

In the present embodiment, can be it is determined that what the first geophone station gathers after S102 geological data storage is carried out In geological data the geological data of each shot point be stored in corresponding in big gun collection file in the case of, obtain in node instrument the The geological data of two geophone stations collection, and by the geological data of the second geophone station collection in multiple shot points each shot point earthquake In big gun collection file corresponding to data deposit.

In one embodiment of the application, after S102 geological data storage is carried out, it is determined that the first geophone station In the case that the geological data of each shot point has been stored in corresponding big gun collection file in the geological data of collection, section can be deleted The geological data that the first geophone station gathers in point instrument.Solving in the prior art can be in all geophone station collection of node instrument Geological data stored after, the defects of just node data can be removed, the method proposed using the present embodiment is big The big collection efficiency of construction for improving geological prospecting.

In one embodiment of the application, if the first geophone station collection geological data in some shot points geological data Be not stored in corresponding big gun collection file, then can be by the geological data of each shot point in multiple shot points in the geological data not being stored in In big gun collection file corresponding to deposit.

Further, the geological data of each shot point in multiple shot points in the geological data of the second geophone station collection is stored in In corresponding big gun collection file, it can include:It is determined that the big gun collection file and the of the first bombard point data deposit in the first geophone station In the case that the big gun collection file of the second shot point data deposit in two geophone stations is identical big gun collection file, according to first bombard point data With the interception time of the second shot point data, first bombard point data and position of the second shot point data in big gun collection file are determined.Example Such as:All data in above-mentioned inspection 1 has been stored:After big gun 1, big gun 2, big gun 3, big gun 4, when the data in 2 are examined in storage, due to inspection 2 The data of the big gun 1 collected are after inspection 1, then 1 big gun 1 collected is examined in first deposit in collection 1, are restored again into what inspection 2 collected Big gun 2.

Further, in the present embodiment, due to above-mentioned acquisition node data cutting, interception and synthesis shot gather data Data volume is very big, while data input and output also take for a long time, will certainly influence at the data information of computer node The efficiency of reason.So in order to maximumlly utilize I/O resources, can be by the input of geological data and output, the computing of intercepting process Using multithreading, each several part can be run simultaneously, that is, use more buffering multithreading designs.

Specifically, in the present embodiment, first thread can be utilized to obtain the ground that the first geophone station gathers in node instrument Shake data;Each shot point pair is intercepted one by one according to shot point order in the geological data gathered using the second thread from the first geophone station The geological data answered;Using the 3rd thread by the geological data of interception, in big gun collection file corresponding to deposit shot point.

After the geological data that the first geophone station in obtaining node instrument gathers, in the earthquake gathered from the first geophone station Before geological data corresponding to each shot point being intercepted one by one in data according to shot point order, it may be determined that the first geophone station of acquisition Whether the data volume of the geological data of collection exceeds the first predetermined threshold value;, will in the case of it is determined that exceeding the first predetermined threshold value Data beyond the first predetermined threshold value are stored in first buffering area.

Earthquake corresponding to each shot point is intercepted one by one according to shot point order in the geological data gathered from the first geophone station After data, before the geological data of interception is stored in big gun collection file corresponding to shot point, it may be determined that the earthquake number of interception According to data volume whether exceed the second predetermined threshold value;It is determined that in the case of beyond the second predetermined threshold value, will be preset beyond second The data deposit second buffering area of threshold value.

After the geological data of interception is stored in big gun collection file corresponding to shot point, it may be determined that corresponding to deposit shot point Whether the quantity of documents of big gun collection file exceeds the 3rd predetermined threshold value;It is determined that in the case of beyond the 3rd predetermined threshold value, will exceed The data of 3rd predetermined threshold value are stored in the 3rd buffering area.

Further, it is contemplated that the improved efficiency of single computer node is limited, in order to further improve efficiency, also The interception cutting processing work of the above-mentioned data of multiple computer nodes progress in cluster can be used simultaneously.By using above-mentioned more The data processing design of thread, multiple buffer and more calculate nodes, further increase the treatment effeciency of geological data.

The processing method of above-mentioned geological data is specifically described with reference to a specific embodiment, but is worth It is noted that the specific embodiment merely to the present invention is better described, does not form inappropriate limitation of the present invention.

When handling somewhere node data, it may comprise steps of:

Step 1:Download the initial data of a complete node.Establish shot-file database;

Node data (can be whole piece, whole beam or partial node) in recovery wire harness can be carried out under data Carry, the data file of the acquisition node of output, the data file is node from start recording to the company for terminating recording period Continuous initial data, usual document format data are larger.

Step 2:By effective shot point excitation data file, using the gps time of effective shot point, the interception cutting geophone station is adopted The geological data of collection;

Step 3:The acquisition node data finished successively to single cutting, enter according to shot point relation is corresponded in shot point database Trade data file write-in;

Specifically, the processing method using geological data as shown in Figure 3 carries out the method schematic diagram of seismic data process, By different shot points in a geophone station (such as:Shot point pile No. 1000,1001) single track data, according to shot point relational file will Ask, be written in corresponding shot gather data.After the data processing for completing a node, then carry out the data manipulation of next node.

Step 4:Exported to writing complete shot gather data;And to the work of the new acquisition node Data duplication first step Make flow.

In acquisition node data flow is handled, data input thread and acquisition node cutting computational methods thread (CPU core Number) first buffering area can be shared, the node data mainly used including current computational methods thread and the node data pre-read. When the complete a number of acquisition node digital independent of computational methods thread process, if the acquisition node data pre-read have been Whole, then first buffering area can utilize, and computational threads can carry out the cutting processing of data in the buffering area.Then after intercepting Any shot point corresponding to geological data, according to the shot-file of corresponding relation file in shot point database in second buffering area Write-in.The acquisition node is stored in 3rd buffering area and exports geological data corresponding to any shot point finished every time, until this is adopted Collection node data entirely completes the cutting and data write-in work of data.It can be waited when buffering area takes, at the same it is defeated by data Go out thread to write on disk or in hard disk the data in buffering area.

As can be seen from the above description, the embodiment of the present invention realizes following technique effect:Obtaining node instrument In the first geophone station gather geological data after, and choose every time in the prior art geological data corresponding to shot point to be measured it Before, it is intended to establish compared with the communication connection between each geophone station in node instrument, the ground for directly gathering the first geophone station Shake in big gun collection file corresponding to the geological data deposit of each shot point in multiple shot points in data, only establish once with node instrument In the first geophone station between communication connection, so can improve the speed of data processing to save the time of data processing. It is determined that the geological data of each shot point has been stored in corresponding big gun collection file in the geological data of the first geophone station collection In the case of, the geological data that the second geophone station gathers in node instrument is obtained, and by the geological data of the second geophone station collection In multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point.So can be corresponding to collect each shot point Geological data.By way of this data processing, the processing time of geological data can be significantly reduced, so as to carry The efficiency of high seismic data analysis.

Based on same inventive concept, a kind of processing unit of geological data is additionally provided in the embodiment of the present invention, it is such as following Embodiment described in.It is similar to the processing method of geological data to solve the principle of problem due to the processing unit of geological data, because The implementation of the processing unit of this geological data may refer to the implementation of the processing method of geological data, repeats part and repeats no more. Used below, term " unit " or " module " can realize the combination of the software and/or hardware of predetermined function.Although with Device described by lower embodiment is preferably realized with software, but hardware, or the realization of the combination of software and hardware May and it be contemplated.Fig. 4 is a kind of structured flowchart of the processing unit of the geological data of the embodiment of the present invention, such as Fig. 4 institutes Show, including:Seismic data acquisition module 401, the first data storage module 402, the second data storage module 403, below to this Structure illustrates.

Seismic data acquisition module 401, it can be used for obtaining the geological data that the first geophone station gathers in node instrument, institute Stating the geological data of the first geophone station collection includes the geological data of multiple shot points;

First data storage module 402, it can be used for multiple shot points in the geological data of first geophone station collection In each shot point geological data deposit corresponding in big gun collection file, wherein, shot point corresponds with big gun collection file;

Second data storage module 403, it can be used for it is determined that in the geological data of first geophone station collection each In the case that the geological data of shot point has all been stored in corresponding big gun collection file, obtain what the second geophone station in node instrument gathered Geological data, and by the geological data of second geophone station collection in multiple shot points each shot point geological data deposit pair In the big gun collection file answered.

In one embodiment, first data storage module can include:Data cutout unit, it can be used for from institute State in the geological data of the first geophone station collection and intercept geological data corresponding to each shot point one by one according to shot point order;Big gun collection text Part memory cell, it can be used in big gun collection file corresponding to the geological data deposit shot point of interception.

In one embodiment, shot point can be corresponded to according to the geological data of interception blows out initial time and earthquake number According to the record time, geological data corresponding to each shot point is intercepted.

In one embodiment, the second data storage module can be used for it is determined that the first bombard in first geophone station The big gun collection file of the second shot point data deposit in the big gun collection file and second geophone station of point data deposit is identical big gun collection In the case of file, according to the first bombard point data and the interception time of the second shot point data, the first bombard is determined Point data and position of the second shot point data in the big gun collection file.

In one embodiment, the seismic data acquisition module is used to obtain in the node instrument using first thread The geological data of first geophone station collection;The data cutout unit is used to gather from first geophone station using the second thread Geological data according to shot point order intercept geological data corresponding to each shot point one by one;The big gun collection file storage unit is used In the 3rd thread of utilization by the geological data of interception, in big gun collection file corresponding to deposit shot point.

In one embodiment, described device also includes:First threshold determining module, in node instrument is obtained After the geological data of one geophone station collection, in the geological data gathered from first geophone station according to shot point order one by one Before intercepting geological data corresponding to each shot point, it is determined that the data volume of the geological data of first geophone station collection obtained Whether the first predetermined threshold value is exceeded;First buffering area memory module, for it is determined that situation beyond first predetermined threshold value Under, first buffering area will be stored in beyond the data of first predetermined threshold value.

In one embodiment, described device also includes:Second Threshold determining module, for from first geophone station After intercepting geological data corresponding to each shot point one by one according to shot point order in the geological data of collection, by the earthquake of interception Before in big gun collection file corresponding to data deposit shot point, determine whether the data volume of the geological data of the interception is pre- beyond second If threshold value;Second buffering area memory module, for described the it is determined that in the case of second predetermined threshold value, will to be exceeded The data deposit second buffering area of two predetermined threshold values.

In one embodiment, described device also includes:3rd predetermined threshold value determining module, for by the earthquake of interception After in big gun collection file corresponding to data deposit shot point, whether the quantity of documents for being stored in big gun collection file corresponding to shot point is determined Beyond the 3rd predetermined threshold value;3rd buffering area memory module, for it is determined that in the case of beyond the 3rd predetermined threshold value, inciting somebody to action Data beyond the 3rd predetermined threshold value are stored in the 3rd buffering area.

In one embodiment, described device also includes:Geological data removing module, for it is determined that first detection In the case that the geological data of each shot point has been stored in corresponding big gun collection file in the geological data of point collection, described in deletion The geological data that the first geophone station gathers in node instrument.

The embodiment of the processing unit of the geological data provided using the various embodiments described above, it can implement automatically described The processing method of geological data, reservoir is carried out to geological data, it may not be necessary to implement the specific participation of personnel, can be directly defeated Go out big gun collection file corresponding to each shot point, it is simple and quick, effectively increase Consumer's Experience.

In the processing unit of the geological data, the storage mode of the big gun collection file, the interception foundation of geological data The extension of embodiment is referred to the associated description of preceding method.

The application is not limited to be the situation described by the embodiment of the present application.Some professional standards use certainly Definition mode or embodiment description practice processes on embodiment amended slightly can also realize above-described embodiment it is identical, The implementation result being anticipated that after equivalent or close or deformation.Using data acquisition/storage/judgement after these modifications or deformation Deng the embodiment of acquisition, still may belong within the scope of the optional embodiment of the application.

Although this application provides the method operating procedure as described in embodiment or flow chart, based on conventional or noninvasive The means for the property made can include more or less operating procedures.The step of being enumerated in embodiment order is only numerous steps A kind of mode in execution sequence, does not represent unique execution sequence., can be with when device in practice or end product perform According to embodiment, either method shown in the drawings order performs or parallel performs (such as parallel processor or multiple threads Environment, even distributed data processing environment).Term " comprising ", "comprising" or its any other variant are intended to Nonexcludability includes, so that process, method, product or equipment including a series of elements not only will including those Element, but also the other element including being not expressly set out, or it is this process, method, product or equipment also to include Intrinsic key element.In the absence of more restrictions, be not precluded from the process including the key element, method, product or Other identical or equivalent elements in person's equipment also be present.

Unit, device or module that above-described embodiment illustrates etc., it can specifically be realized by computer chip or entity, or Realized by the product with certain function.For convenience of description, various modules point are divided into function when describing apparatus above Do not describe.Certainly, when implementing the application can the function of each module in same or multiple softwares and/or hardware it is real It is existing, the module for realizing same function can also be realized by the combination of multiple submodule or subelement etc..Dress described above Put that embodiment is only schematical, for example, the division of the unit, only a kind of division of logic function, when actually realizing There can be other dividing mode, such as multiple units or component can combine or be desirably integrated into another system, or one A little features can be ignored, or not perform.It is another, shown or discussed mutual coupling or direct-coupling or communication link It can be by some interfaces, the INDIRECT COUPLING or communication connection of device or unit to connect, and can be electrical, mechanical or other shapes Formula.

It is also known in the art that in addition to realizing controller in a manner of pure computer readable program code, it is complete Entirely can by by method and step carry out programming in logic come controller with gate, switch, application specific integrated circuit, may be programmed The form of logic controller and embedded microcontroller etc. realizes identical function.Therefore this controller is considered one kind Hardware component, and what its inside was included is used to realize that the device of various functions can also to be considered as the structure in hardware component.Or Person even, not only can be able to will be the software module of implementation method but also can be hardware for realizing that the device of various functions is considered as Structure in part.

The application can be described in the general context of computer executable instructions, such as program Module.Usually, program module includes performing particular task or realizes routine, program, object, the group of particular abstract data type Part, data structure, class etc..The application can also be put into practice in a distributed computing environment, in these DCEs, By performing task by communication network and connected remote processing devices.In a distributed computing environment, program module can With in the local and remote computer-readable storage medium including storage device.

As seen through the above description of the embodiments, those skilled in the art can be understood that the application can Realized by the mode of software plus required general hardware platform.Based on such understanding, the technical scheme essence of the application On the part that is contributed in other words to prior art can be embodied in the form of software product, the computer software product It can be stored in storage medium, such as ROM/RAM, magnetic disc, CD, including some instructions are causing a computer equipment (can be personal computer, mobile terminal, server, either network equipment etc.) perform each embodiment of the application or implementation Method described in some parts of example.

Each embodiment in this specification is described by the way of progressive, same or analogous portion between each embodiment Divide mutually referring to what each embodiment stressed is the difference with other embodiment.The application can be used for crowd In more general or special purpose computing system environments or configuration.Such as:Personal computer, server computer, handheld device or Portable set, laptop device, multicomputer system, the system based on microprocessor, set top box, programmable electronics are set Standby, network PC, minicom, the DCE etc. of mainframe computer including any of the above system or equipment.

Although depicting the application by embodiment, it will be appreciated by the skilled addressee that the application have it is many deformation and Change is without departing from spirit herein, it is desirable to which appended claim includes these deformations and changed without departing from the application's Spirit.

Claims (11)

  1. A kind of 1. processing method of geological data, it is characterised in that including:
    The geological data that the first geophone station gathers in node instrument is obtained, the geological data of the first geophone station collection is including more The geological data of individual shot point;
    By big gun corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of first geophone station collection Collect in file, wherein, shot point corresponds with big gun collection file;
    It is determined that the geological data of each shot point has been stored in corresponding big gun collection in the geological data of first geophone station collection In the case of in file, the geological data that the second geophone station gathers in node instrument is obtained, and second geophone station is gathered Geological data in multiple shot points in big gun collection file corresponding to the geological data deposit of each shot point.
  2. 2. the method as described in claim 1, it is characterised in that by multiple big guns in the geological data of first geophone station collection In point in big gun collection file corresponding to the geological data deposit of each shot point, including:
    Earthquake number corresponding to each shot point is intercepted one by one according to shot point order from the geological data of first geophone station collection According to;
    By in big gun collection file corresponding to the geological data deposit shot point of interception.
  3. 3. method as claimed in claim 2, it is characterised in that when blowing out initial of shot point is corresponded to according to the geological data of interception Between and the seismic data recording time, intercept geological data corresponding to each shot point.
  4. 4. method as claimed in claim 2, it is characterised in that by multiple big guns in the geological data of second geophone station collection In point in big gun collection file corresponding to the geological data deposit of each shot point, including:
    It is determined that in the big gun collection file and second geophone station of first bombard point data deposit in first geophone station the In the case that the big gun collection file of Second Artillery Force's point data deposit is identical big gun collection file, according to the first bombard point data and described second The interception time of shot point data, determine the first bombard point data and position of the second shot point data in the big gun collection file Put.
  5. 5. method as claimed in claim 2, it is characterised in that obtain the earthquake number that the first geophone station gathers in node instrument According to, including:
    The geological data that the first geophone station gathers in the node instrument is obtained using first thread;
    Accordingly, intercepted one by one corresponding to each shot point according to shot point order from the geological data of first geophone station collection Geological data, including:
    Each shot point is intercepted one by one according to shot point order in the geological data gathered using the second thread from first geophone station Corresponding geological data;
    Accordingly, by the geological data of interception, it is stored in big gun collection file corresponding to shot point, including:
    Using the 3rd thread by the geological data of interception, in big gun collection file corresponding to deposit shot point.
  6. 6. method as claimed in claim 2, it is characterised in that the earthquake number that the first geophone station gathers in node instrument is obtained According to afterwards, in the geological data gathered from first geophone station according to shot point order with intercepting one by one corresponding to each shot point Before shaking data, methods described also includes:
    It is determined that whether the data volume of the geological data of first geophone station collection obtained exceeds the first predetermined threshold value;
    It is determined that in the case of beyond first predetermined threshold value, the data deposit first beyond first predetermined threshold value is delayed Rush area.
  7. 7. method as claimed in claim 2, it is characterised in that in the geological data gathered from first geophone station according to After shot point order intercepts geological data corresponding to each shot point one by one, in big gun corresponding to the geological data deposit shot point by interception Before collecting in file, methods described also includes:
    Determine whether the data volume of the geological data of the interception exceeds the second predetermined threshold value;
    It is determined that in the case of beyond second predetermined threshold value, the data deposit second beyond second predetermined threshold value is delayed Rush area.
  8. 8. method as claimed in claim 2, it is characterised in that in big gun collection text corresponding to the geological data deposit shot point by interception After in part, methods described also includes:
    Determine whether the quantity of documents of big gun collection file corresponding to the deposit shot point exceeds the 3rd predetermined threshold value;
    It is determined that in the case of beyond the 3rd predetermined threshold value, the data deposit the 3rd beyond the 3rd predetermined threshold value is delayed Rush area.
  9. 9. the method as described in claim 1, it is characterised in that it is determined that in the geological data of first geophone station collection often In the case that the geological data of individual shot point has all been stored in corresponding big gun collection file, the first geophone station in the node instrument is deleted The geological data of collection.
  10. A kind of 10. processing unit of geological data, it is characterised in that including:
    Seismic data acquisition module, for obtaining the geological data that the first geophone station gathers in node instrument, first detection The geological data of point collection includes the geological data of multiple shot points;
    First data storage module, for each shot point in multiple shot points in the geological data that gathers first geophone station In big gun collection file corresponding to geological data deposit, wherein, shot point corresponds with big gun collection file;
    Second data storage module, for it is determined that in the geological data of first geophone station collection each shot point earthquake number In the case of being all stored in corresponding big gun collection file, the geological data that the second geophone station gathers in node instrument is obtained, and By big gun collection text corresponding to the geological data deposit of each shot point in multiple shot points in the geological data of second geophone station collection In part.
  11. 11. a kind of processing unit of geological data, it is characterised in that processor is executable to be referred to including processor and for storing The memory of order, realized described in the computing device during instruction:
    The geological data that the first geophone station gathers in node instrument is obtained, the geological data of the first geophone station collection is including more The geological data of individual shot point;By the geological data of each shot point in multiple shot points in the geological data of first geophone station collection In big gun collection file corresponding to deposit, wherein, shot point corresponds with big gun collection file;It is determined that the ground of first geophone station collection In the case that the geological data of each shot point has been stored in corresponding big gun collection file in shake data, obtain second in node instrument The geological data of geophone station collection, and by the geological data of second geophone station collection in multiple shot points each shot point ground Shake in big gun collection file corresponding to data deposit.
CN201710637852.5A 2017-07-31 2017-07-31 Seismic data processing method and device CN107589444B (en)

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