CN108845355A - Seismic migration imaging method and device - Google Patents

Abstract

The present invention provides a kind of seismic migration imaging method and devices, including：Wave field residual error objective function is established based on seismic observation data and analogue data to be solved；Current wave field residual values are determined in conjunction with current reflectance model and wave field residual error objective function；Offset method based on time shift image-forming condition deviates current wave field residual values, obtains target function gradient；Updated reflectivity model is determined using conjugate gradient method based on target function gradient；It is updated iteration using updated reflectivity model as current reflectance model, until reaching default the number of iterations, obtains target reflection factor model, and then obtain migration imaging result.The process employs least-squares algorithms, effectively increase the precision of seismic migration imaging, imaging effect is good, time shift image-forming condition is used during migration imaging, calculation amount is small, the efficiency for improving migration imaging alleviates traditional migration imaging inefficiency, and the technical problem that imaging effect is bad.

Description

Seismic migration imaging method and device

Technical field

The present invention relates to the technical fields of seismic prospecting, more particularly, to a kind of seismic migration imaging method and device.

Background technique

Method of seismic prospecting is the important means that the mankind obtain underground space information, wherein seismic migration imaging is earthquake The committed step of Data processing.Offset can make back wave accurately playback, diffracted wave convergence, to intuitively show subterranean The true form made.

The seismic imaging that migration and imaging techniques traditional at present generally use under single-point scattering approximation is theoretical, is mainly base In the matching analysis of source wavefield and geophone station wave field, forward and reverse is carried out respectively to source wavefield and geophone station wave field first Continuation reapplies suitable image-forming condition and reflecting surface is imaged.Suitable image-forming condition for migration velocity analysis and at As effect has great influence.It is to be protected in image-forming condition using a kind of wide image-forming condition at present that sky, which moves image-forming condition, Offset distance information is stayed, realizes the angle domain imaging of wave equation migration.But sky moves image-forming condition and needs huge cross-correlation calculation Amount, computational efficiency is lower, is unfavorable for the processing of real data；And traditional migration imaging is easy to produce noise and offset is false As.

To sum up, traditional migration imaging inefficiency, and imaging effect is bad.

Summary of the invention

In view of this, the purpose of the present invention is to provide a kind of seismic migration imaging method and device, it is traditional to alleviate Migration imaging inefficiency, and the technical problem that imaging effect is bad.

In a first aspect, the embodiment of the invention provides a kind of seismic migration imaging methods, including：

Seismic observation data and analogue data to be solved based on pending area establish wave field residual error objective function；

Current wave field residual values are determined in conjunction with current reflectance model and the wave field residual error objective function, wherein institute Current reflectance model is stated for determining the analogue data to be solved；

Offset method based on time shift image-forming condition deviates the current wave field residual values, obtains target with determination Functional gradient；

Updated reflectivity model is determined using conjugate gradient method based on the target function gradient；

It is updated iteration using the updated reflectivity model as the current reflectance model, until reaching To default the number of iterations, target reflection factor model is obtained, and then obtains migration imaging result.

With reference to first aspect, the embodiment of the invention provides the first possible embodiments of first aspect, wherein base Establishing wave field residual error objective function in the seismic observation data of pending area and analogue data to be solved includes：

Obtain the seismic observation data and migration velocity body of the pending area；

The wave field residual error target between the seismic observation data and the analogue data to be solved is established by L2 norm Function.

With reference to first aspect, the embodiment of the invention provides second of possible embodiments of first aspect, wherein knot It closes current reflectance model and the wave field residual error objective function determines that current wave field residual values include：

Formula d is calculated according to analogue data_mod=Lm_kCalculate the analogue data to be solved, wherein d_modIndicate it is described to Analogue data is solved, L indicates the seismic wave field forward operator that velocity information is depended under Born approximate condition, m_kWork as described in expression Front-reflection Modulus Model；

According to the calculating formula of the wave field residual error objective functionWork as prewave described in calculating Field residual values, wherein E (m_k) indicate the current wave field residual values, d_modIndicate the analogue data to be solved, d_obsIndicate institute State seismic observation data.

With reference to first aspect, the embodiment of the invention provides the third possible embodiments of first aspect, wherein base The current wave field residual values are deviated in the offset method of time shift image-forming condition, target function gradient packet is obtained with determination It includes：

Geophone station wave field is subjected to backward extension by the migration velocity body, and passes through the migration velocity body for focus Wave field carries out positive continuation；

Based on time shift image-forming condition to the geophone station wave field after backward extension and the source wavefield after positive continuation carry out at Picture obtains the migrated section about time shift amount；

Using the migrated section of zero moment as the target function gradient in the migrated section about time shift amount.

With reference to first aspect, the embodiment of the invention provides the 4th kind of possible embodiments of first aspect, wherein base The geophone station wave field after the backward extension and the source wavefield after the positive continuation are imaged in time shift image-forming condition Including：

According to the imaging formula R (m based on time shift image-forming condition_k, t, τ) and=P_r(m_k,t+τ)*P_s(m_k, t- τ) and it is imaged, Obtain the migrated section about time shift amount, wherein R (m, t, τ) indicates that the migrated section about time shift amount, * indicate Time-domain cross-correlation, t indicate the time, and τ indicates the time shift amount in time shift image-forming condition, P_rDetection after indicating the backward extension Point wave field, P_sSource wavefield after indicating the positive continuation, m_kIndicate the current reflectance model.

With reference to first aspect, the embodiment of the invention provides the 5th kind of possible embodiments of first aspect, wherein base Determine that updated reflectivity model includes using conjugate gradient method in the target function gradient：

It is determined based on the target function gradient and updates step-length and more new direction；

Formula m is updated according to reflectivity model_k+1=m_k+α_kd_kCalculate the updated reflectivity model, wherein m_k+1Indicate the updated reflectivity model, m_kIndicate current reflectance model, α_kIndicate the update step-length, d_kTable Show the more new direction.

With reference to first aspect, the embodiment of the invention provides the 6th kind of possible embodiments of first aspect, wherein base Update step-length is determined in the target function gradient and more new direction includes：

According to more new direction formulaDetermine the more new direction, whereind_kIndicate the more new direction, d_k-1Table Show a more new direction, g (m_k) indicate in the current reflectance model m_kUnder target function gradient, g (m_k-1) indicate Upper reflectivity model m_k-1Under target function gradient；

The update step-length is determined according to step-length condition is updated, wherein the update step-length condition is：When meeting E (m_k+α_kd_k)≤E(m_k)+α_kcg(m_k)d_kWhen, then α_k=α_k-1, otherwise, α_k=λ α_k-1, α_kIndicate the update step-length, α_k-1Indicate upper one Update step-length, E (m_k+α_kd_k) indicate that in more new direction and update step-length be respectively d_kAnd α_kWhen, updated reflectivity model Under wave field residual values, g (m_k) indicate in the current reflectance model m_kUnder target function gradient, 0<c<1,0<λ<1.

Second aspect, the embodiment of the invention also provides a kind of seismic migration imaging devices, including：

Establish module, for based on pending area seismic observation data and analogue data to be solved establish wave field residual error Objective function；

First determining module, for working as prewave in conjunction with current reflectance model and wave field residual error objective function determination Field residual values, wherein the current reflectance model is for determining the analogue data to be solved；

Offset module deviates the current wave field residual values for the offset method based on time shift image-forming condition, Target function gradient is obtained with determination；

Second determining module, for determining that updated reflection is using conjugate gradient method based on the target function gradient Exponential model；

Update iteration module, for using the updated reflectivity model as the current reflectance model into Row updates iteration, until reaching default the number of iterations, obtains target reflection factor model, and then obtain migration imaging result.

In conjunction with second aspect, the embodiment of the invention provides the first possible embodiments of second aspect, wherein institute It states and establishes module and include：

Acquiring unit, for obtaining the seismic observation data and migration velocity body of the pending area；

Unit is established, for establishing between the seismic observation data and the analogue data to be solved by L2 norm Wave field residual error objective function.

In conjunction with second aspect, the embodiment of the invention provides second of possible embodiments of second aspect, wherein institute Stating the first determining module includes：

First computing unit, for calculating formula d according to analogue data_mod=Lm_kThe analogue data to be solved is calculated, Wherein, d_modIndicate the analogue data to be solved, L indicates depending on the seismic wave field of velocity information just under Born approximate condition Calculation, m_kIndicate the current reflectance model；

Second computing unit, for the calculating formula according to the wave field residual error objective function Calculate the current wave field residual values, wherein E (m_k) indicate the current wave field residual values, d_modIndicate the simulation to be solved Data, d_obsIndicate the seismic observation data.

The embodiment of the present invention brings following beneficial effect：

In the present embodiment, first to establish wave field residual for the seismic observation data based on pending area and analogue data to be solved Poor objective function, and then current reflectance model and wave field residual error objective function is combined to determine current wave field residual values, then Offset method based on time shift image-forming condition deviates current wave field residual values, obtains target function gradient with determination, into One step determines updated reflectivity model using conjugate gradient method based on target function gradient, finally by updated reflection Modulus Model is updated iteration as current reflectance model, until reaching default the number of iterations, obtains target reflection system Exponential model, and then obtain migration imaging result.As can be seen from the above description, seismic migration imaging method of the invention uses most Small square law effectively increases the precision of seismic migration imaging, and imaging effect is good, in addition, when using during migration imaging Image-forming condition is moved, calculation amount is small, improves the efficiency of migration imaging, alleviate traditional migration imaging inefficiency, and at As ineffective technical problem.

Other features and advantages of the present invention will illustrate in the following description, also, partly become from specification It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention are in specification, claims And specifically noted structure is achieved and obtained in attached drawing.

To enable the above objects, features and advantages of the present invention to be clearer and more comprehensible, preferred embodiment is cited below particularly, and cooperate Appended attached drawing, is described in detail below.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of flow chart of seismic migration imaging method provided in an embodiment of the present invention；

Fig. 2 is that the seismic observation data provided in an embodiment of the present invention based on pending area and analogue data to be solved are built The method flow diagram of vertical wave field residual error objective function；

Fig. 3 is that the offset method provided in an embodiment of the present invention based on time shift image-forming condition carries out current wave field residual values The method flow diagram of offset；

Fig. 4 is the schematic diagram of common imaging gather provided in an embodiment of the present invention；

Fig. 5 determines updated reflection using conjugate gradient method based on target function gradient to be provided in an embodiment of the present invention The method flow diagram of Modulus Model；

Fig. 6 (a) is the schematic diagram for the migration imaging result that seismic migration imaging method provided in an embodiment of the present invention obtains；

Fig. 6 (b) is the schematic diagram for the migration imaging result that conventional migration technique imaging method provided in an embodiment of the present invention obtains；

Fig. 7 is a kind of schematic diagram of seismic migration imaging device provided in an embodiment of the present invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with attached drawing to the present invention Technical solution be clearly and completely described, it is clear that described embodiments are some of the embodiments of the present invention, rather than Whole embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, shall fall within the protection scope of the present invention.

For convenient for understanding the present embodiment, first to a kind of seismic migration imaging side disclosed in the embodiment of the present invention Method describes in detail.

Embodiment one：

According to embodiments of the present invention, a kind of embodiment of seismic migration imaging method is provided, it should be noted that attached The step of process of figure illustrates can execute in a computer system such as a set of computer executable instructions, though also, So logical order is shown in flow charts, but in some cases, it can be to be different from shown by sequence execution herein Or the step of description.

Fig. 1 is a kind of flow chart of seismic migration imaging method according to an embodiment of the present invention, as shown in Figure 1, this method Include the following steps：

Step S102, seismic observation data and analogue data to be solved based on pending area establish wave field residual error target Function；

In embodiments of the present invention, pending area is the region of field acquisition.Seismic observation data is to pending district Domain carries out the data that seismic wave collects, which is given data.Analogue data to be solved is related to reflectivity model, After obtaining reflectivity model, corresponding analogue data to be solved is assured that, is hereinafter described in detail again.

Step S104 determines current wave field residual values in conjunction with current reflectance model and wave field residual error objective function, In, current reflectance model is for determining analogue data to be solved；

It, can be according to current anti-if obtaining current reflectance model after obtaining wave field residual error objective function It penetrates Modulus Model and determines analogue data to be solved, then analogue data to be solved is substituted into wave field residual error objective function, it can be really Settled preceding wave field residual values.

Step S106, the offset method based on time shift image-forming condition deviate current wave field residual values, with determining To target function gradient；

After obtaining current wave field residual values, the offset method of time shift image-forming condition is based further on to current wave field residual error Value is deviated, and is obtained target function gradient, is hereinafter described in detail again.

Step S108 determines updated reflectivity model using conjugate gradient method based on target function gradient；

After obtaining target function gradient, be based further on target function gradient using conjugate gradient method determine it is updated Reflectivity model.

Updated reflectivity model is updated iteration by step S110, until Reach default the number of iterations, obtain target reflection factor model, and then obtains migration imaging result.

Specifically, reach the target reflection factor model obtained after default the number of iterations be migration imaging as a result, according to Target reflection factor model is drawn, and the image of final migration imaging result is obtained.

In the present embodiment, first to establish wave field residual for the seismic observation data based on pending area and analogue data to be solved Poor objective function, and then current reflectance model and wave field residual error objective function is combined to determine current wave field residual values, then Offset method based on time shift image-forming condition deviates current wave field residual values, obtains target function gradient with determination, into One step determines updated reflectivity model using conjugate gradient method based on target function gradient, finally by updated reflection Modulus Model is updated iteration as current reflectance model, until reaching default the number of iterations, obtains target reflection system Exponential model, and then obtain migration imaging result.As can be seen from the above description, seismic migration imaging method of the invention uses most Small square law effectively increases the precision of seismic migration imaging, and imaging effect is good, in addition, when using during migration imaging Image-forming condition is moved, calculation amount is small, improves the efficiency of migration imaging, alleviate traditional migration imaging inefficiency, and at As ineffective technical problem.

Above content has carried out brief introduction to seismic migration imaging method of the invention, below to the tool being directed to Hold in vivo and describes in detail.

In an optional embodiment of the invention, with reference to Fig. 2, seismic observation data based on pending area and to Solution analogue data is established wave field residual error objective function and is included the following steps：

Step S201 obtains the seismic observation data and migration velocity body of pending area；

Specifically, migration velocity body is handled seismic observation data, and in embodiments of the present invention, offset Body of velocity is Depth Domain body of velocity.It all include SEGY standard trace header letter in obtained seismic observation data and migration velocity body Breath.

Step S202 establishes the wave field residual error target between seismic observation data and analogue data to be solved by L2 norm Function.

After obtaining seismic observation data, can be established by L2 norm seismic observation data and analogue data to be solved it Between wave field residual error objective function.

Specifically, the wave field residual error objective function established is：

Wherein, E indicates wave field residual error, d_modIndicate analogue data to be solved, d_obsIndicate seismic observation data, | | | |₂Table Show L2 norm.In fact, the process is the process so that the seismic observation data of analogue data approaching to reality to be solved.

The process for establishing wave field residual error objective function is described in detail in above content, below to the current wave field of determination The process of residual values is described in detail.

It is true in conjunction with current reflectance model and wave field residual error objective function in an optional embodiment of the invention Settled preceding wave field residual values include the following steps：

(1) formula d is calculated according to analogue data_mod=Lm_kCalculate analogue data to be solved, wherein d_modIndicate to be solved Analogue data, L indicate the seismic wave field forward operator that velocity information is depended under Born approximate condition, m_kIndicate current reflective system Exponential model；

When calculating first time, current reflectance model is initial reflection Modulus Model, the initial reflection Modulus Model For preset reflectivity model.

(2) according to the calculating formula of wave field residual error objective functionCalculate current wave field residual error Value, wherein E (m_k) indicate current wave field residual values, d_modIndicate analogue data to be solved, d_obsIndicate seismic observation data.

As described in (1), analogue data d to be solved is being obtained_modAfterwards, by analogue data d to be solved_modSubstitute into wave field residual error mesh In the calculating formula of scalar functions, it will be able to current wave field residual values be calculated.

The process of the current wave field residual values of determination is described in detail in above content, terraced to objective function is determined below The process of degree describes in detail.

In an optional embodiment of the invention, with reference to Fig. 3, the offset method based on time shift image-forming condition is to current Wave field residual values are deviated, to determine that obtaining target function gradient includes the following steps：

Geophone station wave field is carried out backward extension by migration velocity body, and will be shaken by migration velocity body by step S301 Source wave field carries out positive continuation；

Step S302, based on time shift image-forming condition to the geophone station wave field after backward extension and the focus wave after positive continuation Field is imaged, and the migrated section about time shift amount is obtained；

Specifically, according to the imaging formula R (m based on time shift image-forming condition_k, t, τ) and=P_r(m_k,t+τ)*P_s(m_k, t- τ) into Row imaging, obtains the migrated section about time shift amount, wherein R (m, t, τ) indicates the migrated section about time shift amount, when * is indicated Between domain cross-correlation, t indicate the time, τ indicate time shift image-forming condition in time shift amount, P_rGeophone station wave after indicating backward extension , P_sSource wavefield after indicating positive continuation, m_kIndicate current reflectance model.

Step S303, using the migrated section of zero moment as target function gradient in the migrated section about time shift amount.

Specifically, g (m_k)=L^T(d_mod-d_obs)=R (m, τ, t=0), wherein g (m_k) indicate zero moment migrated section, L^TIndicate the transposition of forward operator.

In fact, R obtained in above-mentioned steps S402 (m, t, τ) is 3D data volume, Z axis is depth, and X-axis is time t, Y-axis is τ, and the progress common imaging gather superposition (as shown in Figure 4) of section when t=0 is taken (when superposition, it is lateral to carry out same depth Superposition is built up together), migrated section has just been obtained after superposition.Common imaging gather superposition when why taking t=0, be because When speed is accurate, it can be focused at 0 moment, that is, most strong in 0 moment energy.

The process for determining objective function is described in detail in above content, below to the updated reflection coefficient of determination The process of model describes in detail.

It is true using conjugate gradient method based on target function gradient with reference to Fig. 5 in an optional embodiment of the invention Fixed updated reflectivity model includes the following steps：

Step S501 is determined based on target function gradient and is updated step-length and more new direction；

Specifically, in conjugate gradient method, the more new formula of reflectivity model is：

m_k+1=m_k+α_kd_k, wherein m_k+1Indicate updated reflectivity model, m_kIndicate current reflectance model, α_k It indicates to update step-length, d_kIndicate more new direction.

Specifically：

(1) according to more new direction formulaDetermine more new direction, whereind_kIndicate more new direction, d_k-1In expression One more new direction, g (m_k) indicate in current reflectance model m_kUnder target function gradient, g (m_k-1) indicate in a upper reflection Modulus Model m_k-1Under target function gradient；

(2) according to updating, step-length condition is determining to update step-length, wherein updating step-length condition is：When meeting E (m_k+α_kd_k)≤ E(m_k)+α_kcg(m_k)d_kWhen, then α_k=α_k-1, otherwise, α_k=λ α_k-1, α_kIt indicates to update step-length, α_k-1Indicate that upper one updates step-length, E (m_k+α_kd_k) indicate that in more new direction and update step-length be respectively d_kAnd α_kWhen, the wave field under updated reflectivity model is residual Difference, g (m_k) indicate in current reflectance model m_kUnder target function gradient, 0<c<1,0<λ<1.

It is, more new direction is：Wherein, β_kIt can be calculated by following formula It obtains：

Wherein, (g (m_k),g(m_k)-g(m_k-1)) indicate vector g (m_k) and to Measure g (m_k)-g(m_k-1) inner product, similarly, this is no longer going to repeat them for the meaning of other parameters.

It updates step-length to be calculated using searching algorithm, sets a larger initial step length α_k, reduction factor λ (0<λ<1), than Example factor c (0<c<1), if it meets condition：E(m_k+α_kd_k)≤E(m_k)+α_kcg(m_k)d_k, then α_k=α_k-1, otherwise α_k=λ α_k-1, The meaning of each parameter can the content with reference to documented by other positions in the present invention.

Step S502 updates formula m according to reflectivity model_k+1=m_k+α_kd_kUpdated reflectivity model is calculated, Wherein, m_k+1Indicate updated reflectivity model, m_kIndicate current reflectance model, α_kIt indicates to update step-length, d_kIt indicates More new direction.

After obtaining updated reflectivity model, using updated reflectivity model as current reflectance mould Type is updated iteration, until reaching default the number of iterations, obtains target reflection factor model, and then obtain migration imaging knot Fruit.As shown in Fig. 6 (a), the migration imaging that seismic migration imaging method as according to the present invention obtains is as a result, Fig. 6 (b) is normal The migration imaging result that rule offset imaging method obtains.By comparison it is found that the resolution for the migration imaging result that Fig. 6 (a) is obtained Rate significantly improves, and becomes apparent especially for portraying for infrastructure.

The invention proposes a kind of seismic migration imaging method and apparatus, this method constructs Green's letter with time shift image-forming condition Number carries out wave-field simulation using the linear Born approximate form of seismic wave field, passes through the wave field to analogue data and observation data Residual error carries out least-squares iteration, obtains least-squares migration imaging section.The present invention is based on time shift image-forming conditions, utilize minimum Two, which multiply migration technology, carries out earthquake data offset imaging, and since time shift image-forming condition calculates, cost is relatively low, and then alleviates existing It is calculated as this higher technical problem in technology, improves the efficiency of migration imaging, while least-squares migration algorithm, it can be effective Improve the precision of seismic migration imaging.

Embodiment two：

The embodiment of the invention also provides a kind of seismic migration imaging device, which is mainly used for holding Seismic migration imaging method provided by row above content of the embodiment of the present invention, it is inclined to earthquake provided in an embodiment of the present invention below It moves imaging device and does specific introduction.

Fig. 7 is a kind of schematic diagram of seismic migration imaging device according to an embodiment of the present invention, as shown in fig. 7, the earthquake Migration imaging device mainly includes：Establish module 11, the first determining module 12, offset module 13, the second determining module 14 and more New iteration module 15, wherein：

Establish module, for based on pending area seismic observation data and analogue data to be solved establish wave field residual error Objective function；

First determining module, for combining current reflectance model and wave field residual error objective function to determine that current wave field is residual Difference, wherein current reflectance model is for determining analogue data to be solved；

Offset module deviates current wave field residual values for the offset method based on time shift image-forming condition, with true Surely target function gradient is obtained；

Second determining module, for determining updated reflection coefficient mould using conjugate gradient method based on target function gradient Type；

Iteration module is updated, for being updated updated reflectivity model as current reflectance model repeatedly In generation, obtains target reflection factor model, and then obtain migration imaging result until reaching default the number of iterations.

In the present embodiment, first to establish wave field residual for the seismic observation data based on pending area and analogue data to be solved Poor objective function, and then current reflectance model and wave field residual error objective function is combined to determine current wave field residual values, then Offset method based on time shift image-forming condition deviates current wave field residual values, obtains target function gradient with determination, into One step determines updated reflectivity model using conjugate gradient method based on target function gradient, finally by updated reflection Modulus Model is updated iteration as current reflectance model, until reaching default the number of iterations, obtains target reflection system Exponential model, and then obtain migration imaging result.As can be seen from the above description, seismic migration imaging device of the invention uses most Small square law effectively increases the precision of seismic migration imaging, and imaging effect is good, in addition, when using during migration imaging Image-forming condition is moved, calculation amount is small, improves the efficiency of migration imaging, alleviate traditional migration imaging inefficiency, and at As ineffective technical problem.

Optionally, establishing module includes：

Acquiring unit, for obtaining the seismic observation data and migration velocity body of pending area；

Unit is established, for establishing the wave field residual error between seismic observation data and analogue data to be solved by L2 norm Objective function.

Optionally, the first determining module includes：

First computing unit, for calculating formula d according to analogue data_mod=Lm_kCalculate analogue data to be solved, wherein d_modIndicate analogue data to be solved, L indicates the seismic wave field forward operator that velocity information is depended under Born approximate condition, m_k Indicate current reflectance model；

Second computing unit, for the calculating formula according to wave field residual error objective functionMeter Calculate current wave field residual values, wherein E (m_k) indicate current wave field residual values, d_modIndicate analogue data to be solved, d_obsIndicate ground Shake observation data.

Optionally, offset module includes：

Continuation unit for geophone station wave field to be carried out backward extension by migration velocity body, and passes through migration velocity body Source wavefield is subjected to positive continuation；

Imaging unit, for based on time shift image-forming condition to the geophone station wave field after backward extension and the shake after positive continuation Source wave field is imaged, and the migrated section about time shift amount is obtained；

Setup unit, for terraced using the migrated section of zero moment as objective function in the migrated section about time shift amount Degree.

Optionally, imaging unit is also used to：

According to the imaging formula R (m based on time shift image-forming condition_k, t, τ) and=P_r(m_k,t+τ)*P_s(m_k, t- τ) and it is imaged, Obtain the migrated section about time shift amount, wherein R (m, t, τ) indicates that the migrated section about time shift amount, * indicate that time-domain is mutual Correlation, t indicate the time, and τ indicates the time shift amount in time shift image-forming condition, P_rGeophone station wave field after indicating backward extension, P_sIt indicates Source wavefield after positive continuation, m_kIndicate current reflectance model.

Optionally, the second determining module includes：

Determination unit updates step-length and more new direction for determining based on target function gradient；

Third computing unit, for updating formula m according to reflectivity model_k+1=m_k+α_kd_kCalculate updated reflection Modulus Model, wherein m_k+1Indicate updated reflectivity model, m_kIndicate current reflectance model, α_kIt indicates to update step It is long, d_kIndicate more new direction.

Optionally it is determined that unit is also used to：

According to more new direction formulaDetermine more new direction, whereind_kIndicate more new direction, d_k-1In expression One more new direction, g (m_k) indicate in current reflectance model m_kUnder target function gradient, g (m_k-1) indicate in a upper reflection Modulus Model m_k-1Under target function gradient；

Step-length is updated according to updating step-length condition and determining, wherein updating step-length condition is：When meeting E (m_k+α_kd_k)≤E (m_k)+α_kcg(m_k)d_kWhen, then α_k=α_k-1, otherwise, α_k=λ α_k-1, α_kIt indicates to update step-length, α_k-1Indicate that upper one updates step-length, E (m_k+α_kd_k) indicate that in more new direction and update step-length be respectively d_kAnd α_kWhen, the wave field under updated reflectivity model is residual Difference, g (m_k) indicate in current reflectance model m_kUnder target function gradient, 0<c<1,0<λ<1.

The technical effect and preceding method embodiment phase of device provided by the embodiment of the present invention, realization principle and generation Together, to briefly describe, Installation practice part does not refer to place, can refer to corresponding contents in preceding method embodiment.

The computer program product of seismic migration imaging method and device provided by the embodiment of the present invention, including store The computer readable storage medium of program code, the instruction that said program code includes can be used for executing in previous methods embodiment The method, specific implementation can be found in embodiment of the method, and details are not described herein.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description It with the specific work process of device, can refer to corresponding processes in the foregoing method embodiment, details are not described herein.

In addition, in the description of the embodiment of the present invention unless specifically defined or limited otherwise, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product It is stored in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially in other words The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a People's computer, server or network equipment etc.) it performs all or part of the steps of the method described in the various embodiments of the present invention. And storage medium above-mentioned includes：USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited The various media that can store program code such as reservoir (RAM, Random Access Memory), magnetic or disk.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

Finally it should be noted that：Embodiment described above, only a specific embodiment of the invention, to illustrate the present invention Technical solution, rather than its limitations, scope of protection of the present invention is not limited thereto, although with reference to the foregoing embodiments to this hair It is bright to be described in detail, those skilled in the art should understand that：Anyone skilled in the art In the technical scope disclosed by the present invention, it can still modify to technical solution documented by previous embodiment or can be light It is readily conceivable that variation or equivalent replacement of some of the technical features；And these modifications, variation or replacement, do not make The essence of corresponding technical solution is detached from the spirit and scope of technical solution of the embodiment of the present invention, should all cover in protection of the invention Within the scope of.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. a kind of seismic migration imaging method, which is characterized in that including：

Seismic observation data and analogue data to be solved based on pending area establish wave field residual error objective function；

Current wave field residual values are determined in conjunction with current reflectance model and the wave field residual error objective function, wherein described to work as Front-reflection Modulus Model is for determining the analogue data to be solved；

Offset method based on time shift image-forming condition deviates the current wave field residual values, obtains objective function with determination Gradient；

Updated reflectivity model is determined using conjugate gradient method based on the target function gradient；

It is updated iteration using the updated reflectivity model as the current reflectance model, until reaching pre- If the number of iterations, target reflection factor model is obtained, and then obtains migration imaging result.

2. the method according to claim 1, wherein seismic observation data based on pending area and to be solved Analogue data establishes wave field residual error objective function：

Obtain the seismic observation data and migration velocity body of the pending area；

The wave field residual error objective function between the seismic observation data and the analogue data to be solved is established by L2 norm.

3. the method according to claim 1, wherein in conjunction with current reflectance model and the wave field residual error mesh Scalar functions determine that current wave field residual values include：

Formula d is calculated according to analogue data_mod=Lm_kCalculate the analogue data to be solved, wherein d_modIndicate described to be solved Analogue data, L indicate the seismic wave field forward operator that velocity information is depended under Born approximate condition, m_kIndicate described current anti- Penetrate Modulus Model；

According to the calculating formula of the wave field residual error objective functionCalculate the current wave field residual error Value, wherein E (m_k) indicate the current wave field residual values, d_modIndicate the analogue data to be solved, d_obsIndicate the earthquake Observe data.

4. according to the method described in claim 2, it is characterized in that, the offset method based on time shift image-forming condition is to described current Wave field residual values are deviated, to determine that obtaining target function gradient includes：

Geophone station wave field is subjected to backward extension by the migration velocity body, and passes through the migration velocity body for source wavefield Carry out positive continuation；

The geophone station wave field after backward extension and the source wavefield after positive continuation are imaged based on time shift image-forming condition, obtained To the migrated section about time shift amount；

Using the migrated section of zero moment as the target function gradient in the migrated section about time shift amount.

5. according to the method described in claim 4, it is characterized in that, based on time shift image-forming condition to the inspection after the backward extension Source wavefield after wave point wave field and the positive continuation carries out imaging and includes：

According to the imaging formula R (m based on time shift image-forming condition_k, t, τ) and=P_r(m_k,t+τ)*P_s(m_k, t- τ) and it is imaged, it obtains The migrated section about time shift amount, wherein R (m, t, τ) indicates that the migrated section about time shift amount, * indicate the time Domain cross-correlation, t indicate the time, and τ indicates the time shift amount in time shift image-forming condition, P_rGeophone station wave after indicating the backward extension , P_sSource wavefield after indicating the positive continuation, m_kIndicate the current reflectance model.

6. the method according to claim 1, wherein true using conjugate gradient method based on the target function gradient Determining updated reflectivity model includes：

It is determined based on the target function gradient and updates step-length and more new direction；

Formula m is updated according to reflectivity model_k+1=m_k+α_kd_kCalculate the updated reflectivity model, wherein m_k+1 Indicate the updated reflectivity model, m_kIndicate current reflectance model, α_kIndicate the update step-length, d_kIt indicates The more new direction.

7. according to the method described in claim 6, it is characterized in that, based on the determining update step-length of the target function gradient and more New direction includes：

According to more new direction formulaDetermine the more new direction, whereind_kIndicate the more new direction, d_k-1Table Show a more new direction, g (m_k) indicate in the current reflectance model m_kUnder target function gradient, g (m_k-1) indicate Upper reflectivity model m_k-1Under target function gradient；

The update step-length is determined according to step-length condition is updated, wherein the update step-length condition is：When meeting E (m_k+α_kd_k) ≤E(m_k)+α_kcg(m_k)d_kWhen, then α_k=α_k-1, otherwise, α_k=λ α_k-1, α_kIndicate the update step-length, α_k-1Indicate that upper one updates Step-length, E (m_k+α_kd_k) indicate that in more new direction and update step-length be respectively d_kAnd α_kWhen, under updated reflectivity model Wave field residual values, g (m_k) indicate in the current reflectance model m_kUnder target function gradient, 0<c<1,0<λ<1.

8. a kind of seismic migration imaging device, which is characterized in that including：

Establish module, for based on pending area seismic observation data and analogue data to be solved establish wave field residual error target Function；

First determining module, for determining that current wave field is residual in conjunction with current reflectance model and the wave field residual error objective function Difference, wherein the current reflectance model is for determining the analogue data to be solved；

Offset module deviates the current wave field residual values for the offset method based on time shift image-forming condition, with true Surely target function gradient is obtained；

Second determining module, for determining updated reflection coefficient mould using conjugate gradient method based on the target function gradient Type；

Iteration module is updated, for carrying out the updated reflectivity model as the current reflectance model more New iteration obtains target reflection factor model, and then obtain migration imaging result until reaching default the number of iterations.

9. device according to claim 8, which is characterized in that the module of establishing includes：

Acquiring unit, for obtaining the seismic observation data and migration velocity body of the pending area；

Unit is established, for establishing the wave field between the seismic observation data and the analogue data to be solved by L2 norm Residual error objective function.

10. device according to claim 8, which is characterized in that first determining module includes：

First computing unit, for calculating formula d according to analogue data_mod=Lm_kCalculate the analogue data to be solved, wherein d_modIndicate the analogue data to be solved, L indicates that the seismic wave field under Born approximate condition dependent on velocity information just calculates Son, m_kIndicate the current reflectance model；

Second computing unit, for the calculating formula according to the wave field residual error objective functionMeter Calculate the current wave field residual values, wherein E (m_k) indicate the current wave field residual values, d_modIndicate the simulation number to be solved According to d_obsIndicate the seismic observation data.