RU2639649C2 - Computer system for processing and analysis of geophysical data - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: creation of a distributed computer system to handle different types of geophysical data, allowing functionally separate the processes of the developer and the user of the software confidential transfer upon request required user correctly examined and tested in practice, the software developer for industrial inspection processing of data arrays of different types of geophysical exploration.

EFFECT: expansion of the arsenal of tools for their processing and analysis of geophysical data through a distributed computer system that allows the data processor user to process data without loss of time while ensuring confidentiality of the transmitted information.

7 cl, 1 dwg

Description

The technical solution relates to computer systems using knowledge-based models and can be used in the processing and analysis of geophysical data.

With the depletion of mineral resources, the problem of modernizing existing and developing new air-conditioned, efficient and approved technologies for processing geophysical data to identify, refine and detail the boundaries and thickness of deposits becomes more and more urgent.

It is well known (see, for example, RU 2107309 C1, 03.20.1998) that an obstacle to effective industrial exploration and development of fields (including hydrocarbon deposits) is the unpredictable number of unproductive (“dry”) wells and the associated high financial costs. More than 50% of all drilled wells are unproductive, which is associated with errors in forecasts and imperfection of software (software) based on existing scientific knowledge and properties of sedimentary rocks. Until recently, completely reliable methods and devices for spatial determination of deposits have not been created, so the software of geophysical science and technology is constantly being improved, and edited and tested software for data processing (including archival) is in many cases a decisive factor in identifying and detailing deposits ( see, for example, RU 2490677 C2, 08.20.2013; RU 2566424 C2, 10.27.2015; RU 2567432 C2, 11/10/2015).

One of the tasks of in situ processing of geophysical data arrays is the use of correct (valid, edited and verified by multiple approbations) computer versions of software. As a rule, the development of adequate software requires highly qualified geophysicists, who, along with the subject of geophysical exploration, possess broad skills of programmers in the formation and modernization of software, which is not always possible and justified in cases of practical (cameral and routine) processing of large arrays of in situ and archived data .

This contradiction can be resolved by separating the functions of the active developer (supplier) of software and the direct processor-practitioner of geophysical data (user of software), which does not have the required training in geophysical science and technology.

Moreover, in a computer system for processing and analyzing geophysical data, due attention should be paid to protection against unauthorized use of intellectual property and software based on innovative scientific knowledge, research and technology, as well as on the creative experience of a software developer. Currently known information protection technologies often turn out to be ineffective (see, for example, [4, 5]): numerous data have been published on the vulnerability of computer systems and networks, including the Pentagon network and the systems of large financial banks. Ensuring adequate security of scientific information and intellectual property objects prevents fraudulent manipulations and criminal hacker attacks by crackers.

The courier communication technology adopted by law enforcement and diplomatic structures allows the traditional, but quite reliable (“old and good”) method to minimize the risk and realize the minimum likelihood of theft-breaking. It seems that courier communication technology can be effective in computer systems for processing and analyzing geophysical data.

There are known computer systems proposed in the USA ([3], as well as RU 2142158 C1, 11.27.1999; RU 2155372 C2, 08.27.2000) for managing storage and transmission of computer programs in a computer network from two computers, as well as a computer system consisting of two computers with data protection against unauthorized access. However, these computer systems are presented in a very general declarative form, their structure and functioning are not related to specific tasks and geophysics software, and data is transmitted via electronic network communication channels that are vulnerable to hacker attacks.

Well-known systems [2], US 610297 A, 08/15/2000 support for computer users, although they contain many software versions in one computer, but these versions are presented in a general formal form and are not intended to solve special problems of geophysics. Their use for processing geophysical data is impossible without geophysicists and highly qualified programmers to develop and modernize software, and for changing (replacing, expanding) software it is necessary to interact with external devices, communication with which in a computer network requires protection against unauthorized access.

The issue of developing specific software in well-known systems [2, 3] is not considered, and it concerns only the redistribution of resources in networks, although the prerogative of developing the correct software over its use and storage is necessary for the industrial applicability of a technical solution, and the software security problem is essential for any computer systems.

At the same time, in addition to classical and traditional, many new technologies have been proposed for processing geophysical data (see, for example, RU 2144683 C1, 01.20.2000; RU 2206910 C2, 06.20.2003; RU 2324205 C1, 05.10.2008; RU 2519058 C2, 06/20/2014) with declared high efficiency, however, they are mainly not tested in practical implementation and can cause serious difficulties for a user who does not have the corresponding creative experience.

The technology [1] of complex processing of geophysical data that implements the LITOSCAN computer system according to patent RU 2490677 C2, 08.20.2013 is adopted as a prototype. A computer system [1] includes a series-connected unit for accumulating information from a module for measuring geophysical field parameters and a data processing unit made in the form of a programmable processor, the outputs of which are connected to the inputs of a data analysis and interpretation unit, while the processor is made in the form of computing devices implementing processing algorithms data in accordance with established regulations and software steps.

Unlike other known systems (see above), system [1] is valid, correct and approved for processing geophysical data (mainly in situ), but is limited by a rather narrow range of tasks (only seismic exploration), and for editing and / or changes Software requires experienced geophysicists. Debugging new software or upgrading it can take a lot of time, which reduces the productivity of the software user, the industrial applicability of the system [1] is difficult without a patent holder. The disadvantage of the prototype [1] should also be considered that the system [1] does not provide for the protection of information from unauthorized access.

The essence of the proposed technical solution is to create a distributed computer system for processing various types of geophysical data that allows you to functionally separate the processes of the software developer and user with confidential transfer, at the request of the user, of the required correctly researched and tested by the software developer for industrial cameral processing of data arrays of various types of geophysical exploration.

The main technical result is an increase in the functionality and expansion of the arsenal of devices for the conditional processing of geophysical data through a distributed computer system that allows the user data processor to use ready-made, tested software provided by the developer without waste of time. The advantage of the system is the elimination of programming errors and the elimination of the need for user editing software, which increases the reliability of data processing and, accordingly, increases the reliability of information about the properties of sedimentary rocks, the boundaries and thickness of deposits. Along with improving the quality and productivity of the data processing process, the system allows comprehensive processing of measurement data of various types of geophysical exploration (seismic, gravity, electrical exploration, etc.). The system ensures the confidentiality of information when transmitting it from the software developer to the user, as well as the ability to process archive materials using a new, more efficient version of the software.

The technical result is achieved as follows.

A computer system for processing and analyzing geophysical data has the following features common with the prototype [1]: the system includes a series-connected unit for accumulating information from the module for measuring geophysical field parameters and a data processing unit made in the form of a programmable processor whose outputs are connected to the inputs of the analysis unit and data interpretation. Moreover, the processor is made in the form of computing devices that implement data processing algorithms in accordance with established regulations and software steps.

Other than the prototype [1], the essential features of the claimed object, providing the specified technical result, are: the computer system is distributed and divided by the composition and functional purpose into two nodes connected by communication channels, the first of which is a client-client software for practical cameral processing in situ of data arrays, and the second node is a remote ex situ provider center for the developer of correct and tested versions of software. At the same time, the first client-customer node includes a terminal with a processor for processing geophysical data from the measured information accumulation unit of the first system node, as well as a data analysis and interpretation unit that executes an edited and tested version specified by the software system’s provider second center node. The provider center of the second node of the system contains a server and a data bank with program modules of a frame structure, configured to interact with removable removable computer-readable storage media with software, which are transaction tools that are transmitted to the terminal of the first node to the client-customer upon request and installed in its processing unit for practical cameral processing of in situ geophysical data. Moreover, the means of the courier communication service were used as the main communication channels between the first and second nodes of the system, and cryptographic smart cards are the means of transaction.

The computer system is also characterized in that the databank of the provider center of the second node of the system with program modules is formed in the form of frames with identifiers with a set of programs, instructions and rules for processing data in accordance with the regulations of special geophysics tasks selected from at least a number of tasks for the assessment and analysis of data: seismic exploration using the common depth point method (MOGT), geophysical well survey data (GIS), electrical exploration data, gravimetric exploration data, geo data agnitnoy exploration, geochemical exploration data, data intelligence field waters hydro, geo-environmental monitoring data.

In addition, the difference in the computer system is that the software modules of the provider data bank are formed with the possibility of implementing a set of algorithms and data processing steps, including at least components: data filtering, statistical processing and correlation analysis, vector and matrix algorithms algebras, regression analysis, algorithms for constructing 2D and 3D sections, slices, slides, cubes using the "sliding window" technology, algorithms of the MOGT and GIS method, AVO, Wavelet transforms, m del forming a trained artificial neural network (ANN), imaging files and maps, as well as upgraded and re-designed, exclusive codes and proven algorithms.

At the same time, communication means of the closed type for unauthorized use of Ethernet local area networks or wireless LAN means such as Wireless LAN can be used as duplicate communication channels for transactions of correct and tested versions of software from the provider center to the client-customer of the software.

The peculiarity of the computer system is that the provider center is made with the possibility of providing the client-customer, at his request, with a menu and tariffs of developed and tested software modules.

In the specific case of the implementation of a computer system, the transaction tool can be made in the form of an intelligent ISO smart card such as Compact Flash with a capacity of up to 64 MB.

At the same time, the difference is that the system distributed and divided by functional purpose may contain one provider center for the development of correct and tested versions of software and a group of software customers, each of which is equipped with a unique identifier.

The drawing shows a General structural diagram of a computer system for processing and analysis of geophysical data, where the following notation:

1 - the first node of a distributed computer system (terminal client-customer software);

1.1 - block accumulation of information from the module measuring instruments parameters of geophysical fields;

1.2 - programmable processor processing geophysical data;

1.3 - block analysis and interpretation of data;

1.4 - removable removable computer-readable storage medium with tested software of the developer (2.3 → 3 → 1.4);

2 - the second node of a distributed computer system (provider center of a software developer);

2.1 - server provider center;

2.2 - a data bank with program modules of a frame structure for solving special problems of geophysics and a set of algorithms and stages of data processing;

2.3 - removable removable machine-readable storage medium transmitted by the software developer to the user in the client node (2.3 → 3 → 1.4);

3 - transaction tool transmitted by the developer to the software user (cryptographic smart card (2.3 → 3 → 1.4);

4 - communication channel between the second and first nodes of a distributed computer system (means of a courier communication service);

5 - communication channel for requesting software versions, menus and tariffs by the identifier of the first node in the second node.

The work of the proposed distributed computer system that provides a solution to the unified problem of processing geophysical data in the information space of a software user in which the prerogative of software development belongs to the provider center is as follows.

In-situ data processing in situ (at the location) is performed by the first system node by means of a programmable data processor 1.2 from the information storage unit 1.1. Processed by processor 1.2, the data enters block 1.3 analysis and interpretation. Processing, analysis and interpretation of data is carried out in accordance with programs, instructions and rules specified from the information medium 1.4 with approved software, which was transferred from the second node of the system (ex situ remote from node 1 of the provider center).

At the request of the user of the client node 1 of the system via the communication channel 5, the software developer of the provider center of node 1 using the server 2.1 and bank 2.2 of program modules forms a removable computer-readable medium 2.3 of information. In this case, the formation of media 2.3 is carried out using software modules of the frame structure (a frame-structural fragment of situational information and software for this type of geophysical exploration) of data bank 2.2 containing various special tasks of geophysics (seismic exploration, electrical exploration, gravity exploration, geomagnetic exploration, etc.). Together with software of various types of geophysical exploration, medium 2.3 (3) may include software for the correct implementation of the basic algorithmic components of software for complex processing of geophysical data (for example, such as data filtering, correlation analysis, vector and matrix analysis, “sliding window” transformations, AVO, Wavelet and ANN, the formation of image files and maps) tested and effectively proven in the practice of geophysical exploration in recent years. Transformations of the "sliding window", AVO, Wavelet and ANN are considered in [1], RU 2566424 C2, 10.27.2015; RU 2559123 C2, 08/10/2015; RU 2567432 C2, 11/10/2015. When generating image files and maps, for example, technologies similar to RU 2144683 C1, 01.20.2000, RU 2519058 C2, 06.20.2014 can be used.

The carrier 2.3 formed in the node 2 is transmitted to the client-customer in the node 1 (2.3 → 1.4) for practical cameral processing of in situ data arrays. To protect against unauthorized access and hacker attacks, the reliable means of courier communication 4 are proposed as the main communication channels between the first and second nodes 1 and 2 of the system, unreasonably overshadowed by other means of communication, but so far successfully used in the power and diplomatic services.

The advantage of courier communication is that, somewhat slowing down when two parties come into contact, it eliminates unproductive software development by the geophysical data processor, and avoids errors and editing complex exclusive algorithms while reducing processing time, which is enhanced by synergy with reliable information protection and intellectual property. At the same time, courier communication can be implemented on the basis of modern computer technology - chips, using, for example, an intelligent ISO smart card such as Compact Flash with a capacity of up to 64 MB, used in modern cryptographic protection technology [5], RU 2262732 C2, 20.10 .2005; US 6513720 B1, 04/04/2003.

At the same time, as duplicate communication channels for transactions of correct and tested versions of software from a provider center 2 to a client-client 1 software in some cases (for example, in cases of emergency by express request without the need for reliable protection, but only with passwords [ 3-5]) can be used means of communication closed for unauthorized use of local area networks Ethernet or means of wireless local area networks such as Wireless LAN, described, for example, in RU 2321062 C1, 03/27/2008.

The second node 2 (provider center) is configured to form the menu and the amount of payment (remuneration) for the services of the developer and provider of the software in accordance with the menu and the request of the client-customer, which can be transmitted via communication channel 5. An analogue of the software payment evaluation unit can be the device of patent RU 2324966 C2, 05.20.2008.

A data processing specialist should understand that a system distributed and divided by functional purpose may contain one provider center 2 for the development of correct and tested versions of software and a group of customer customers 1 software, each of which is equipped with a unique identifier (see drawing).

When implementing a specific computer system, known devices and elements can be partially used (see above), similar in structure and function, which, when modernized and improved by the developer, provide their effective synergy in solving a single task with the achievement of the specified technical result.

An example of a distributed computer system for processing geophysical data is the technology developed for seismic measurements (one of the main types of geophysical exploration), based on innovative technical solutions [1], RU 2566424 C2, 10.27.2015; RU 2559123 C2, 08/10/2015; RU 2567432 C2, 11/10/2015 and tested in 2015-2016 in the Arctic zone of the Russian Federation, in Western Siberia, in the Yamal region, on the West Kamchatka shelf and other complex geological structures (including archival materials) [RU 2566424 C2, 10.27.2015; RU 2567432 C2, 10.11.2015], which allowed to clarify and detail the boundaries and capacities of hydrocarbon deposits. At the same time, the productivity of the user’s work in office processing with ready-made edited and tested developer software was increased several times and the synergy of a single data processing process in a distributed system was implemented with inaccessibility from counterfeit manipulations of third parties. The universality of the system allows us to recommend it for solving problems of various types of geophysical exploration.

Thus, the invention implements the specified purpose and is carried out with the achievement of the specified technical result, which is in a causal relationship with the totality of the essential features of the claims.

Sources of the prior art

I. Prototype and analogues:

1. RU 2490677 C2, 08.20.2013 (prototype).

2. RU 2303809 C2, 07.27.2007 (analogue).

3. RU 2226711 C2, 04/10/2004 (analog).

II. Additional sources of prior art:

4. RU 2152691 C1, 07/10/2000.

5. RU 2339081 C2, 11.20.2008.

III. Sources of prior art are also described.

Claims (7)

1. A computer system for processing and analysis of geophysical data, including a series-connected unit for accumulating information from the module for measuring geophysical field parameters and a data processing unit made in the form of a programmable processor, the outputs of which are connected to the inputs of the data analysis and interpretation unit, while the processor is made in the form of computing devices that implement data processing algorithms in accordance with established regulations and software steps (software), characterized by We assume that the computer system is distributed and divided in composition and functional purpose into two nodes connected by communication channels, the first of which is a client-client for practical cameral processing of in situ data arrays, and the second node is a remote ex situ provider of the correct developer and tested software versions, while the first client-customer node includes a terminal with a processor for processing geophysical data from the measured data accumulation unit of the first node with systems, as well as a data analysis and interpretation unit that perform the edited and tested version according to the instructions given by the provider center of the software developer of the second node of the system, the provider center of the second node of the system contains a server and a data bank with program modules of the frame structure, configured to interact with removable removable machine-readable storage media with software, which are transaction tools transmitted to the terminal of the first node to the client-customer upon his request and install E in its practical processing unit for post-processing in situ geophysical data, wherein as the main channels of communication between the first and second nodes of the system used means courier service and transaction means are cryptographic smart card. 2. The computer system according to claim 1, characterized in that the data center of the provider center of the second node of the system with software modules is formed in the form of frames with identifiers with a set of programs, instructions and rules for processing data in accordance with the regulations of special geophysics tasks selected according to at least from a number of tasks for evaluating and analyzing data: seismic surveying using the common deep point method (MOGT), geophysical well survey data (GIS), electrical exploration data, gravimetric exploration data, data geomagnetic exploration, geochemical exploration data, hydrophysical field reconnaissance data, geoecological monitoring data. 3. The computer system according to claim 2, characterized in that the software modules of the provider center data bank are formed with the possibility of implementing a set of algorithms and data processing steps, including at least components: data filtering, statistical processing and correlation analysis, algorithms vector and matrix algebra, regression analysis, algorithms for constructing 2D and 3D sections, slices, slides, cubes using the "sliding window" technology, algorithms of the MOGT and GIS method, AVO and Wavelet transforms, model the formation of a trained artificial neural network (ANN), the formation of image and map files, as well as modernized and newly developed, exclusive valid and tested algorithms. 4. The computer system according to claim 1, characterized in that, as duplicate communication channels for transactions of correct and tested versions of software from the provider center to the client-client software, communication devices of the closed type for unauthorized use of local Ethernet computing networks or wireless local-area networks are used Wireless LAN 5. The computer system according to claim 1, characterized in that the provider center is configured to provide the client-customer, at his request, with a menu and tariffs of developed and tested software modules. 6. The computer system according to claim 1, characterized in that the transaction tool is made in the form of an intelligent ISO smart card such as Compact Flash with a capacity of up to 64 MB. 7. The computer system according to claim 1, characterized in that the system distributed and divided by functional purpose contains one provider center for the development of correct and tested versions of software and a group of software customers, each of which is equipped with a unique identifier.

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