RU2564641C1 - Intelligent information selection system "optimel" - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: intelligent information selection system "Optimel" comprises serially connected a machine-readable carrier, where the following components are placed: a unit of task distribution, a data base unit, a knowledge input unit, a vocabulary data base unit, a dialogue working part unit, and a computer, via technical capabilities of which the user has an access to the intelligent information system "Optimel" and its results of operation.

EFFECT: provision of an accelerated access to generated knowledge for the user when solving selection tasks.

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Description

The invention relates to computer systems (CS) using knowledge-based models, namely, systems synthesizing intelligent solutions in the form of selecting the necessary knowledge from a given field of knowledge.

From the prior art, the following analogues are known.

A well-known computer system for solving inventive problems “Inventing machine” (V.M. Tsurikov. Project “Inventing machine”. Current state and real prospects. - Scientific-practical conference “Theory and practice of teaching technical creativity”, Miass, May 23-27 , 1988. - S. 37 - 43), which consists of a computer, computer-readable medium, software (PS) and user and is designed to solve technical problems. Different knowledge models are used here, combined into a knowledge base, and a logical inference machine is also used. This system searches for documents in local databases (DB) and on the Internet using semantic analysis.

This system has knowledge about technical special effects from different fields of knowledge, is equipped with methods for solving inventive problems, and uses visual and graphic images to increase work efficiency.

The system was implemented on standard machine-readable media, protected against copying by access codes without special devices for reading machine-readable media and their protection. It is connected to computers through readers, and during operation, the PS core is read into the computer and the work is performed in the computer's RAM with pumping volumes of information from a computer-readable medium.

The disadvantages of this technical solution are:

the inability to solve the problem of choosing an optimization method for the optimization problem to be solved, since the main task of this computer system is to solve an inventive problem (basically it is to help the user in the solution, and not the fact that the solution will be found), without checking the already known solution options which can be already quite effective;

although the system searches for documents in local databases (DB) and on the Internet using semantic analysis, the user still has to independently work on the material found in order to choose the right one for solving a specific problem;

the currently available technologies for selling and advertising PS and KS are not used, which allow saving on the method of protecting information used in the database and knowledge bases (KB);

not such effective ways of presenting data in the database and KB are used that do not allow you to abandon unnecessary data manipulations;

“Inventing Machine” uses technology of the theory of solving inventive problems (TRIZ), in which new technical solutions are searched for using the same set of technologies that is unchanged and functions and is used in our own knowledge bases and databases;

also, “Inventing Machine” is not intended to find already known and proven technologies, since other knowledge bases are needed for these purposes;

- technologies that allow replenishing the database and knowledge base are not used so that they remain relevant.

Also known is the "Electronic Book" from the application US 2008/0076103, which consists of a laptop computer with a standard set of devices. This includes a display (using two screens), a printing device, a device for reproducing sound, a keyboard, a central processor with random access memory, a reader for computer-readable media, computer-readable media with a PS core that controls the operation of the system, a translator, and a system for writing texts to computer-readable media and playback for the user with translation. In this case, the data is stored in the form of graphic and visual images together with the text. Also, for ease of use, an audio playback option is used. Information is stored in a database on a machine-readable medium in the original format.

The disadvantages of this technical solution are:

- Allows you to solve only the problem of finding the source information that the user will have to independently process for the selection of the most valuable information;

-the problem of analyzing the knowledge gained contained in the literature found remains entirely with the user, so he must make the choice of the necessary knowledge from the knowledge found independently;

-can not find the right solution for the user, from the analysis of the large information databases available;

-does not use special technologies for processing, presenting and storing the found knowledge to solve problems of choosing an optimization method.

Closest to the claimed technical solution is a SYSTEM FOR WORKING WITH INTELLECTUAL ELECTRONIC BOOK - ELINGA, US Pat. RU2440610C1, publ. 01/20/2012, which consists of a computer, an elingi reader, a special connector, and computer-readable media. User uses technical

the capabilities of a computer to access the boathouse and the results of its work. A machine-readable medium consists of an encoder / decoder, a task distribution unit, a logical output machine block, a knowledge base block, a knowledge input block, a dictionary database block (it contains dictionaries of terms, relationships, qualitative attributes, quantitative attributes, linguistic and logical connections (all with their synonyms ), together with a dictionary of input sources), a block of computational models, a block of graphic and visual images, a block of the working part of the dialogue, a block of the saved part of the dialogue. Physically, these units are implemented on the basis of electronic components and operate only within the specified computer system. There are two basic operating modes of the slipway - the knowledge input mode and the working mode, which consists of the text output mode (these are the source and cohesion output modes), the dialogue mode (these are the source and cohesion output modes) and the logical output mode. The input mode of knowledge is sharply separated from the operational work of the user. It is carried out by a trained expert editor who fills the knowledge base block for the eling manufacturer for a long time, but in a high-quality way, and the user's online work is already happening quickly without additional loss of time for converting source texts, knowledge bases, searching for source texts in external databases and some their selections, as in previous prototypes. The mode of entering knowledge takes place through the unit for entering knowledge into blocks of the knowledge base, dictionaries database, calculation models, and graphic and visual images.

The knowledge is entered into the Eling using the technology developed by the author of the patent, which speeds up and simplifies the modeling of knowledge from the source texts, compared with the CAO structures of the previous prototypes. And it also greatly simplifies the obtaining of inference results for the Eling, allowing you to give the user a coherent meaningful text, very convenient for reading and understanding.

Knowledge input in the knowledge input mode is performed by the expert editor as follows. There are many specially selected source texts of a certain subject area; they are divided into simple sentences, mainly 3-15 words long. These proposals turn into special models of knowledge - moldings that have the data structure given in the above patent, with which the inference engine works.

The logical inference mode is implemented by the logical inference machine with the participation of the knowledge base block and the working part block of the dialogue. And it performs two functions - viewing existing facts (terms) from the working memory of the logical inference machine and molding from the knowledge base block ”and then adding (if possible) new terms (for output) to the working memory; determining the order of viewing and applying molding. The specified mechanism controls the output process, saving for the user information about the findings in the block of the working part of the dialogue.

The logical conclusion is based on the rule modus ponens - "if it is known that statement A is true and a rule of the form" IF A, THEN B " _{5 is} true then statement B is also true." The technology used to output information from the database and knowledge base in this system is represented by a short semantic network in the form of a connected graph (the vertices are the terms from the dictionary database block). And the rule has the form - "if there is a certain level of truthfulness of the statement (term) A and there is a chain in molding that connects A with the statement (term) B, then there is a certain level of truthfulness (reliability) of the statement (term) B". This level of reliability is determined by the level of reliability of the moldings, the calculation and verification of which is performed by the inference machine.

The Elingi knowledge base seems to be an expanding "web" of expanding and gathering in places of "humps" of knowledge, where they are either completely duplicated (only one new identifier is indicated), or they are increasingly refining this focal area of knowledge of a specific subject area, which is called the "effect" crest. " This construction of the knowledge base provides the ability to output the required source in a form close to the source text, it is enough to set the number of the source text from the dictionary of input sources.

The dictionary database contains a glossary of terms. It stores the terms, their synonyms, phraseological units, metaphors, professional words, borrowed words, neologisms, dialectisms and archaisms. Also in the block of the dictionaries database is a dictionary of relations, which contains all the relations of synonyms, dictionaries of qualitative and quantitative attributes, they are stored all qualitative and quantitative features of synonyms, and a dictionary of linguistic and logical connections, in which the linguistic and logical connections of synonyms are recorded.

The sequence of words and elements of simple sentences expressed in terms of terms and so on from the corresponding dictionaries of the dictionaries database is expressed as a short semantic network. Therefore, the knowledge base block consists of a set of short semantic networks.

In the mode of work with the dialogue, implemented by the block of the working part of the dialogue, all the necessary information is given to the user through a computer.

To protect against unauthorized copying, the elling and to reduce the response time to user requests, a special elling reader is used to start machine-readable media with elling and special mechanical, software and organizational methods for protecting machine-readable media.

To protect against copying, a machine-readable medium has mechanical changes that prevent it from being read on reading devices other than that specified in this invention. For this, the connectors have dimensions other than standard. Also, all data from the blocks on a machine-readable medium with each new version is encrypted by the encoder / decoder block. The moldings of the knowledge base block of each version have small changes that impede working with the old logical inference engine, that is, the presentation of molding codes changes. And also the working elements of the knowledge base block of the inference machine with the block of the working part of the dialogue and with the block of the saved part of the dialogue are changed. Here, the representation of the molding codes also changes.

Thus, this prototype solves the problem of preliminary systematization of knowledge and data on a special machine-readable medium, made in the form of an intellectual electronic book - elings. This book ("Elinga") is prepared by a group of expert editors in a separate field of knowledge, based on published print media, as well as other reliable sources of information. Unlike print publications and their electronic versions, it is read only in a computer system and is able to recognize user questions and synthesize reliable answers that sometimes are not in the original sources. The invention also solves the problem of increasing the effectiveness of semantic analysis, increasing the reliability of the results, improving the protection against illegal copying, as well as increasing the speed of finding informed decisions.

The technical result from the use of "Elings" is to create and use a mass demand product that contains systematic knowledge and is able to formulate new knowledge at the request of users. The centralized creation and replication of the eling should ensure their moderate cost and accessibility to a wide range of users.

The disadvantages of this technical solution are:

- does not allow the user to select the necessary optimization method to solve the optimization problem posed to him, since Elinga solves the problem of preliminary systematization of knowledge and data in a separate area of knowledge, based on published print media, as well as other reliable sources of information, which allows to increase the speed finding independent informed decisions, but is not able to help the user make the right choice in the amount of knowledge found; therefore, this prototype can be effective for finding the necessary information on all currently known optimization methods (literature and patent review on optimization methods), among which you need to choose the right method suitable for the current optimization problem and the corresponding literature for its correct solution;

the group of editors "Elings", experts in a particular field of knowledge, carry out only professional selection of information sources and enter them correctly in the moldings, so that it is convenient for the user to search for the necessary information sources, but they do not carry out an expert assessment of knowledge from these sources for their use to solve the optimization task necessary for the user;

the specified prototype solves the problem of increasing the efficiency of semantic analysis and increasing the reliability of the search results, while we need to increase the efficiency of choosing knowledge from the field of knowledge (choose the necessary optimization method for the current optimization task using an intelligent information system that will help both save time and choose the most suitable method for the desired optimization task);

the technical result in this prototype is achieved by a different set of knowledge and a more complex structure of knowledge representation, which complicates the very design and input, the conclusion of knowledge, and also does not take into account modern technologies in the distribution and sale of this kind of product, which is reflected in the need to use the protection technology presented in the prototype from copying.

The tasks to be solved by the claimed invention is directed by the Optel knowledge intellectual information selection system, are providing the user with access to pre-systematized knowledge selected by analyzing the information sources found, as well as ensuring the effective selection of the most suitable method for solving the optimization problem. The technical result is to reduce the time to solve optimization problems.

This technical result is achieved due to the fact that the claimed Optel knowledge intellectual information selection system consists of a machine-readable medium connected in series, in which there are tasks distribution block, knowledge base block, knowledge input block, dictionary database block, dialog working block block, and a computer, through the technical capabilities of which the user has access to the Optimal intellectual knowledge selection system and its results.

In the Optel intellectual knowledge selection system on a machine-readable medium, between the task distribution unit and the knowledge base block, an on / off block of the Optimal intellectual knowledge selection system can be located.

In the Optel intellectual knowledge selection information system, the knowledge base block can consist of series-connected selection control blocks, which are connected to the Optel knowledge intellectual knowledge selection system start / stop unit, with a dialog working section block and a dictionary database block, and a block for selecting an element from the binary tree of the system of “questions and answers”, which is connected to the block for entering knowledge.

In the intellectual information choice system of knowledge “Optel” in the block of knowledge bases, a binary tree of a system of questions and answers can be used as a model for representing knowledge.

In the optimal knowledge knowledge selection system "Optel", the dictionary database block can consist of two separate blocks - a database question block that reflects the properties of the methods, and a database block of optimization methods that are connected to the block of the working part of the dialogue, to the selection control block and to the input block knowledge.

In the Optimal intellectual knowledge selection information system, the database block of questions reflecting the properties of the methods can consist of two blocks connected in series - a key data search block connected to a selection control block and a question list data block that is connected to the knowledge input block and data output unit.

In the Optel intellectual knowledge selection information system, a search can be used in the key data search unit,

In the Optel knowledge system, the database of optimization methods may consist of a data search block by key connected to a selection control block, as well as a data block of the list of optimization methods, a data block of description of methods and a data block of literature references, which are connected to the knowledge input unit and to the data output unit.

In the optimal knowledge knowledge selection system "Optel", the block of the working part of the dialogue can consist of two separate parts - the input block of the answer option "yes" or "no", which is connected to the selection control block, and the data output block, which is connected to the list data block questions, with the data block of the list of optimization methods, with the data block of the description of the methods and with the data block of literature references.

In the Optimal intellectual knowledge selection information system, the initial binary tree of the Q & A system can be compiled by experts in the field of optimization methods according to the developed rules, which will be further replenished with new elements without reforming its structure, directly through the knowledge input unit, which also allows you to add data directly to data blocks - data list of questions list, data block of list of optimization methods, data block of description of methods and data block references to the literature.

In the Optel intellectual knowledge selection system, knowledge can be automatically entered into the necessary cells of the necessary blocks in the knowledge input mode, using the technical capabilities of the computer.

In the Optel intellectual knowledge selection system, the operating mode can consist of two modes - a data output mode, when data from a knowledge base block and a dictionary database block are output by computer means, and a dialogue mode when working with the binary tree of the system “ questions and answers ”and the necessary questions are displayed sequentially by computer, and the user answers them by computer.

In the intelligent knowledge selection information system

"Optel" selection control unit may consist of eight

sequential blocks - the block that starts the work of the selection control block, the block that makes the transition to the root question of the binary tree of the question and answer system, connected to the block for selecting an element from the binary tree of the question and answer system, the block that displays the question of the binary tree of the question and answer system connected to a block of a database of questions reflecting the properties of methods, a block for inputting an answer to a question connected to a block for data input, a block for switching to the next question, is connected first with the block select an item from a binary tree system of questions and answers, unit condition, the block data output, connected to the database optimization methods block, and the block ends the operation selection control unit; the block that displays the question of the binary tree of the system of questions and answers, the block for entering the answer to the question, and the block for switching to the next question are sequentially executed until the condition from the condition block is fulfilled.

In the Optel knowledge system, the knowledge input block can consist of two groups of blocks executed sequentially, where the first group of blocks consists of sequentially executed blocks for creating the first cell, block for filling the first cell, block for creating the second cell, block for filling the second cell and block overwrite the cell, and the second group of blocks consists of sequentially executed block of entering the question, block of entering the optimization method, block of entering the description of the optimization method and block and reference to the literature.

In the Optel intellectual knowledge selection system, the element selection block from the binary tree of the question and answer system can be represented by cells connected to two blocks from the choice control block - with the block that makes the transition to the root question of the binary tree of the question and answer system , and with the transition block to the next question; cells can consist of three fields that are connected to the first group of blocks from the knowledge input block, and formed into a given data structure — a binary tree of a question and answer system; in the second and third field of cells, pointers to the left and right son, respectively, can be located, and in the first field of cells numerical data can be located in a certain order with a given step, so that after a symmetric tree traversal, a sorted sequence is obtained, since the selected step between numbers allows for the unmistakable further addition of knowledge to the knowledge base; if the cell corresponds to the question that will need to be answered in the block block of the working part of the dialogue, then it will have a left and right son, therefore, the addresses of the left and right son of the tree of the system of questions and answers are indicated in the second and third fields, otherwise In this case, the cell corresponds to the optimization method found as a result of going through the tree, and the service word nil will be located in the second and third fields.

In the optimal knowledge knowledge selection system “Optel”, the question list data block, which is located in the question database, can be structurally represented by a matrix of dimension / XI, which consists of / cells of the same type, consisting of two fields that are connected to the question entry block, the second field of which are questions reflecting the properties of methods that are related to the block of entering questions from the second group of blocks of the knowledge input block and the data output block, and in the first field, which is connected to the block data search by key and with a data output unit, a numerical data from the first field of the cell of the block for selecting an element from the binary tree of the question and answer system is located, which corresponds to the question from the second field of the cell.

In the Optimal intellectual knowledge selection information system, the data block of the list of optimization methods, the data block of the method description and the data block of literature references located in the database block of the optimization methods can be structurally represented by three matrices of dimension / xl, each of which consists of / cells of the same type, consisting of two fields, which are connected, respectively, with the block of entering the optimization method, with the block of entering the description of the optimization method and with the block of entering references to the literature; in each matrix in the first field, which is connected to the data search unit by key and to the data output unit, its cells can contain numerical data from the first field of the unit cell of the element selection block from the binary tree of the question and answer system, which correspond to their optimization methods, and in the second field of these cells can be located respectively the names of optimization methods, descriptions of these methods and links to literature, the data of which correspond to the numbers from the first field of each cell.

The technical result provided by the given set of features is to provide accelerated access to specially shaped knowledge for the mass user when solving problems of choice, for example, an optimization method from a variety of known methods. The specified technical result is achieved by modeling the knowledge base using the binary tree of the system of questions and answers. This model of knowledge representation allows us to simplify not only the implementation of the entire system, its use, but also the further filling of the knowledge base with new knowledge. The specifics of the selection tasks requires periodic filling of the knowledge base with new knowledge, otherwise this system will cease to be relevant. You can not worry about unauthorized copying if you regularly release machine-readable media with an updated knowledge base and developed databases, or sell an access code to the update site of an already purchased system. This will also increase profits from the sale of the Optimal intellectual knowledge selection information system and accelerate access to knowledge for the mass user. Such a short period of time between versions of the Optimal intellectual knowledge selection information system is possible due to the applied model for implementing the knowledge base - a binary tree of a question and answer system. All illegally copied versions of the Optimal intellectual knowledge selection information system can be considered p versions. Thus, you can save on advertising.

The invention is illustrated by drawings, which depict:

In FIG. 1 - Generalized structural diagram in which the invention operates;

In FIG. 2 - Block diagram of block connections on a computer-readable medium;

Figure 3 is a block diagram of the connections of the knowledge base block;

In FIG. 4 - Block diagram of the connections of the block database of dictionaries;

In FIG. 5 - Block diagram of the connections of the block of the working part of the dialogue;

In FIG. 6 - An expanded block diagram of block connections on a computer-readable medium;

In FIG. 7 - Basic modes of operation of the intellectual information system for the selection of knowledge "Optel";

In FIG. 8 - A knowledge representation model implemented by a binary tree of a question and answer system.

The present invention is implemented by a computer system (Fig. 1), consisting of a computer 1 and a computer-readable medium 2 with an intellectual knowledge selection system "Optel". To the intellectual information system of knowledge selection "Optel" and its results, user 3 has access through the technical capabilities of computer 1.

On a machine-readable medium 2 (Fig. 2) there is a task distribution unit 4, a start / shutdown unit for the Optel intellectual knowledge selection system 5, a knowledge base unit 6, a knowledge input unit 7, a dictionary database unit 8, a dialog work section block 9. The knowledge base block 6 (Fig. 3) consists of a series-connected selection control block 10 and the element selection block from the binary tree of the question and answer system 11. The dictionary database block 8 (Fig. 4) consists of two separate blocks - block b data bases of questions reflecting the properties of methods 12 and a database block of optimization methods 13. A database block of questions reflecting the properties of methods 12 (Fig. 4) consists of a series-connected data search block by key 14 and a data block of a list of questions 15. the database of optimization methods 13 (Fig. 4) consists of a data search block by key 16 connected to a data block of the list of optimization methods 17, which is connected to a data block of the description of methods 18 and a data block of literature references 19. The block of the working part of the dialogue 9 ( 5) state from two separate blocks ~ input unit variant "yes" or the answer "no" output unit 20 and data 21. Unfolded block diagram of a computer readable medium blocks connections shown in FIG. 6.

The Intelligent Knowledge Selection Information System "Optel" is physically a computer-readable medium 2 with the blocks indicated in FIGS. 3-5, which can be implemented both on the basis of electronic components and in software. The use of blocks implemented in software allows simplifying the filling of the knowledge base of the Optimal intellectual knowledge choice information system and makes possible the accelerated periodic production of a new version of the Optimal intellectual knowledge choice information system.

The basic modes of operation of the intellectual information system for choosing knowledge "Optimal" 22 (Fig.7) is the mode of entering knowledge 23 and operating mode 24. Operating mode 24 consists of a mode of operation with the dialogue 25 and the data output mode 26.

The indicated modes 22 - 26 (Fig. 7) differ sharply from the modes of operation of the prototype, since they are designed to simplify the user’s work with the Optimal intellectual knowledge selection system, its simple and quick filling and editing by an expert.

The mode of operation with the dialogue 25 and the data output mode 26 (Fig. 7) is carried out using the block of the working part of the dialogue 9 (Fig. 5). The data output unit 21 is used not only to output dialog questions from the data block of the list of questions 15 (Fig. 4), but also to output the resulting data from the data block of the list of optimization methods 17, the data block of the method description 18 and the data block of literature references 19. Data entry is the entry of data into the data input unit 20 by the technical capabilities of the computer, for example, the mouse marks in the specified place the answer option “yes” or “no” to the question that is displayed in the data output unit 21 (Fig. 5), and the option is selected "to answer".

The input of knowledge in the input mode of knowledge 23 is done automatically or by an expert editor 3. The knowledge base block 6 and the corresponding blocks 15, 17-19 of the dictionary database 8 are completed quickly and efficiently (Fig. 6). This is possible due to the fact that knowledge in the Optimal intellectual knowledge selection system is presented in the form of a binary tree model of a system of questions and answers (fit. 8). Each cell of the data structure of the binary tree of the system of questions and answers 27 consists of three fields - data field 28, field pointer to the left son 29 and below the pointer to the right son 30. Field 28 contains numbers in a certain order with a given step, so that after a symmetric traversal tree turned out sorted sequence. The selected step between the numbers allows you to accurately add further knowledge to the knowledge base 7. If the cell has a left and right son, then the fields (pointers) of the left and right son are indicated in fields 29 and 30. This cell corresponds to the question that will need to be answered in block 20 of the block of the working part of dialogue 9. Otherwise, nil is set in fields 29 and 30. Such cells correspond to the optimization method found as a result of going through the tree.

The formulated questions are located in the database of questions (Fig. 8), reflecting the properties of the methods, 12 in the data block of the list of questions 15, which is structurally represented by a matrix of dimension / xl. Therefore, we can assume that it consists of / cells of the same type. Each / ~ th question has its own / - th cell 31, which consists of two fields. The first field 32 contains the number from the field 28 of cell 27 from the block for selecting an element from the binary tree of the system of questions and answers 11, which corresponds to the / th question. In the second field 33 is the / - th question, reflecting the property of the method, and which corresponds to the number located in field 32.

The data block of the list of optimization methods 17, the data block of the description of the method 18 and the data block of literature references 19 are structurally represented by three matrices of dimension * * 1 (Fig. 8). Therefore, we can assume that each of them consists of / cells of the same type. In the first matrix of the data block of the list of optimization methods 17, each i-th method corresponds to its own i -th cell 34, which consists of two fields. The first field 35 contains the number from the field 28 of cell 27 from the block for selecting an element from the binary tree of the system of questions and answers 11, which corresponds to the ith optimization method. In the second field 36, the / - optimization method is located, which corresponds to the number located in the field 34. In the second and third matrices, the data block of the method description 18 and the data block of literature references 19 each i-th method has its own i-th cell 37 and 38, also consisting of two fields. In the first field 39 of cell 37 and the first field 40 of cell 38, there is a number from field 28 of cell 27 from the block for selecting an element from the binary tree of the JI question and answer system, which corresponds to the / - optimization method. In the second field 41 of cell 37, the description of the / - optimization method is located, which corresponds to the number located in field 39. In the second field 42 of cell 38, there are references to the literature in which one can read about the / - optimization method and its application, which corresponds to the number located in field 40 (Fig. 8).

The knowledge input unit 7 consists of two groups of blocks (Fig. 8). The first of them creates and fills two new cells 43 and 44, then attaches them to cell 45 and fills it. All this happens in the block for selecting an element from the binary tree of the question and answer system 11. The block for creating the first cell 46 creates a new empty first cell 43, and then connects it to the desired cell 45, writing the address of cell 43 in the field 47 of cell 45 (Fig. .8). The filling unit of the first cell 48 fills an empty new first cell 43 with data that corresponds to the method previously located in the cell of the junction 45. In the field 49 of the cell 43, a number equal to the one given from the field 50 of the cell 45 minus a certain step is written. In the fields 51 and 52, the service word nil is entered. The second cell creation block 53 creates a new empty second cell 44, and then connects it to the desired cell 45. The address of cell 44 is entered in the field 54 of cell 45. The second cell 55 filling unit fills in an empty new the second cell 44 with data that corresponds to the new method, that is, new knowledge recorded in the knowledge base 6. In field 56, a number equal to the sum of the given from field 50 of cell 45 and the given step is placed. The service word nil is entered in fields 57 and 58 of cell 44. The rewrite unit of cell 59 records data for a new question in the cell of the junction 45. This question shares two knowledge. The first is the optimization method from join cell 45, and the second knowledge is the new optimization method being added. The second group enters the data into the database of dictionaries 8. The question entry block 60 enters data into the last cell 61 of the data block of the list of questions \ 5. In the second field 62 of cell 61, a question is entered that separates the optimization method from cell 43 and the new optimization method from cell 44 being added. The number from the first field 50 of cell 45 is entered in the first field 63 of cell 61. The optimization method 64 records the data in the last cell 65 of the data block of the list of optimization methods 17. In the second field 66 of cell 65, the name of the optimization method is entered. In the first field 67 of cell 65, the number from the first field 56 of cell 44 is entered. The block for entering the description of the optimization method 68 enters data into the last cell 69 of the data block of the method description 18. In the second field 70 of cell 69, a description of the corresponding optimization method is entered from the field 66 of cell 65 The number from the first field 56 of the cell 44 is entered in the first field 71 of the cell 69. The block of references to the literature 72 implements data in the last cell 73 of the block of data of the references to the literature 19. The second field 74 of the cell 73 contains the references to the literature for the corresponding optimization method from the field 66 of the cell 65. The number from the first field 56 of the cell 44 is entered in the first field 75 of the cell 73.

The selection control unit 10 is used in the dialogue mode 25 and the data output mode 26 (Fig. 8). The knowledge model itself in the form of a system of questions and answers is a complex of questions, answering which, there is a movement in the right direction along the tree to the selected method. Answers to questions are two options “no” and “yes”. Therefore, in the mode of operation with the dialogue 25, the joint operation of the working part block of the dialogue 9, the knowledge base block 6 and the dictionaries database block 8 is accordingly controlled.

The selection control unit 10 consists of eight consecutive blocks that determine its operation (Fig. 8). The first block 76 carries out] the start of the selection control block 10. Next comes block 77, which makes the transition to the root question of the binary tree of the question and answer system using the address of cell 27. Then three blocks are executed sequentially - block 78, which displays the binary tree question system of questions and answers, which is stored in the database of dictionaries 8, to the data output unit 21; an input unit for answering a question 79 from a data input unit 20; block transition to the next question 80, which takes into account the answer and makes the transition in the corresponding direction. So, for example, if the answer to the question from field 28 of cell 27 is “no”, then a transition occurs to the cell whose address is stored in field 29 of cell 27. And when the answer is “yes”, there is a transition to the cell whose address is stored in field 30 cells 27. These three blocks will be executed until the condition of the SL block is met If the “optimization method is found”, that is, for example, in the fields 57 and 58 of cell 44 there should be a service word nil . After that, block 82 is executed, which displays the found optimization method, its description and links to the appropriate literature from the dictionary database 8 to data output block 21. So blocks 77 and 80 are connected to the block for selecting an element from the binary tree of the Q & A 11. Block 78 is connected to the database block of questions reflecting the properties of the methods, 12. Block 82 is connected to the database block of the optimization methods 13. Last is block 83, which completes the operation of the selection control block 10. So, the main differences from the prototype:

- other technical implementation of the goals, in particular, another implementation of the knowledge base block 6, the database dictionary block 8, the working part block of the dialogue 9, the task distribution block 4 and the knowledge input block 7 (Figs. 6 and 8);

the use of the binary tree of the system of “questions and answers”, which uses the properties of optimization methods, expressed as questions asked to the user, provides a better and faster choice of optimization method, a clear volume of blocks used, operating modes and actions performed with the data (but comparison with traditional knowledge management systems), which is almost impossible with a prototype, which uses moldings as knowledge models;

knowledge input mode 23 occurs in automatic mode (a computer is used that is part of the Optel intellectual knowledge selection information system, the Internet connection and the developer's website) when it is newly received (monitoring of new optimization methods is performed monthly) and the data are processed accordingly through the knowledge input unit 7 enter the corresponding cells of the knowledge base unit 6 and the dictionaries database unit, in order to ensure the possibility of selling both machine-readable medium and the code for updating the data x included in its base blocks (Fig.6 and 8).

The device operates as follows.

Using the task distribution unit 4 (Fig. 2) located on a machine-readable medium 2 (Fig. 1), the user selects one of the basic operating modes of the Optimal intelligent knowledge information system 22 - operating mode 24 (Fig. 7). After the user 3 (Fig. 1) has selected the operating mode 24, using the technical capabilities of the computer 1, the start-up / shutdown block for the operation of the intellectual knowledge information system "Optimal" 5 (Fig. 2) is launched, which determines the beginning and end of the user's work Optimal intellectual knowledge system.

Next, the operation mode starts with the dialogue 25. The selection control unit 10 (Fig. 8) is launched, which is located in the knowledge base unit 6, after the start of its first unit 76, which starts the operation of the selection control unit 10. Then, the block 77 makes a transition to the root question of the binary tree of the system of questions and answers, using the address of the cell 27 taken from the block for selecting an element from the binary tree of the system of questions and answers 11. After that, block 78 is executed. For this, a transition to the block of the database of questions reflecting properties methods, 12. Using the obtained numerical value from the first field of the root question cell, for example, field 28 of cell 27, the data search unit by key 14 sequentially searches for the desired cell among all the cells of the data block of the list of questions 15, in which the same numeric is located in the first field this, for example, cell 31 with field 32. Next, using the data output unit 21 located in the working part block of dialogue 9. and the technical capabilities of computer 1, it displays the root question of the binary tree of the system in the data output mode 26 to the user Roses and Answers, located in the second field found using the data search unit for the key 14 of the cell, for example, from the field 33 of the cell 31. Then, the input unit for answering question 79 is executed using the data obtained from the data input unit 20, which are entered there by the technical capabilities of the computer - the answer option “yes” or “no” is marked in the given place and the option “answer” is selected. Then, the block for transition to the next question 80 takes into account the answer and makes the transition in the corresponding direction along the binary tree of the system of “questions and answers”, located in the block for selecting an element from the binary tree of the system of questions and answers 11. So if user 3 chose the answer “no”, then we turn to the question by the pointer located in the second zero of the cell element of the binary tree of the system of “questions and answers”, for example, by the pointer from the field 29 of cell 27. And when the answer is “yes”, the question goes to the pointer from the tre the third cell field of the element of the binary tree of the system of “questions and answers”, for example, by the pointer from the field 30 of cell 27. Three blocks 78 - 80 will be executed (for other questions that the user will see, for example, on the monitor, and for which will answer further, for example, using the mouse) until the condition of block 81 is satisfied (“the optimization method was found”). In other words, in the cell fields of the binary tree of the system of "questions and answers", storing pointers to the next left and next right elements, for example, in fields 57 and 58 of cell 44, there should be a service word nil . After that, block 82 is executed, which transfers to the data search block by key 16 a numeric data from the first field of the cell of the found method, for example, from field 56 of cell 44. Next, the transition to the database block of optimization methods 13, located in the block of the database of dictionaries 8 Sequentially in all cells of its three blocks - the data block of the list of optimization methods 17, the data block of the method description 18 and the data block of literature references 19, cells are searched for in which the desired numerical data is in the first field, for example, cells 34, 37 and 39 in the first where fields 35, 39 and 40 are located the same desired numerical data. Then, data is selected from the data block of the list of optimization methods 17, the data block of the description of the method 18 and the data block of the literature links 19 located in the second fields of the found cells, the optimization method, its description and links to the relevant literature, for example, from the fields 36, 41 and 42 cells 34, 37 and 38. Then they are displayed through the data output unit 21, using the technical capabilities of computer 1, for example, to a monitor. Next, the operation of the control unit selection 10 is completed by block 83.

If it is necessary to add new knowledge found by experts 3 to the binary tree of the system of “questions and answers”, the following actions occur.

In the input mode of knowledge 23, using the technical capabilities of computer 1, user 3 enters the purchased code. After that, there is a connection with the developer's website through the knowledge input unit 7. Next, in the automatic mode, the following manipulations with the blocks of the Optimal intellectual knowledge selection system take place, which enter the necessary data updating the system.

Automatically put in the knowledge base 6 and dictionary database 8 a new optimization method. For this, two groups of blocks from the knowledge input unit 7 are sequentially activated (Fig. 8). First, two new cells 43 and 44 are created and filled, and then they join the cell 45 and fill it. All this happens in the block for selecting an element from the binary tree of the Q & A system 11. Next, through the block for creating the first cell 46, a new empty first cell 43 is created, and then it is connected to the desired cell 45. For this, the address of cell 43 is recorded in field 47 cell 45 (Fig. 8). Then, through the filling unit of the first cell 48, an empty new first cell 43 is filled with data. This data corresponds to the previously located method in cell 45 of the attachment point. After that, in the field 49 of cell 43, the number equal to that given from the field 50 of cell 45 will be written minus a certain step for the possibility of further adding data to the tree. Next, the service word nil is entered in fields 51 and 52. Through the block for creating the second cell 53, a new empty second cell 44 is created, and then it is connected to the desired cell 45. The address of cell 44 is entered in the field 54 of cell 45. Then, the second new cell 55 fills the empty new second cell 44 with data that correspond to the new method, that is, the new knowledge entered into the knowledge base 6. Next, in field 56, a number is placed equal to the sum of the given from field 50 of cell 45 and the given step to provide a further opportunity to add new data. Then, the service word nil is entered in fields 57 and 58 of cell 44. After that, the rewrite unit of cell 59 records the data for a new question in the cell at the point of attachment 45. This question will share two knowledge. The first knowledge is an optimization method from join cell 45, and the second knowledge is a new optimization method added.

The second group of blocks (Fig. 8) will then enter the data into the database of dictionaries 8. Through the block of entering question 60, data will be entered into the last cell 61 of the data block of the list of questions 15. Thus, the question separating the optimization method will be entered in the second field 62 of cell 61 from cell 43 and a new method is added that is optimized from cell 44. In the first field 63 of cell 61, the number from the first zero 50 of cell 45 will be entered. Then, through the block of the optimization method 64, data will be entered into the last cell 65 of the data block of the list of optical methods optimization 17. Here, in the second field 66 of cell 65, the name of the optimization method will be entered. And in the first field 67 of cell 65, the number from the first field 56 of cell 44 will be entered. Then, through the entry block of the description of the optimization method 68, data will be entered into the last cell 69 of the data block of the description of the method 18. So, a description of the corresponding field will be entered in the second field 70 of cell 69 optimization method from field 66 of cell 65. The number from the first field 56 of cell 44 will be entered in the first field 71 of cell 69. Next, through the block for entering references to literature 72, data will be entered into the last cell 73 of the block of data for links to literature 19. Then ak to the second field 74 of the cell 73 will be included by reference in the literature for the respective optimization method from the field 66 of the cell 65. The first field 75 of the cell 73 will be the number entered in the first field 56 of the cell 44.

The rules for obtaining a binary tree of the system of “questions and answers” indicated in the invention were obtained by the authors and published in the literature (Binary tree for choosing knowledge from the field of knowledge using a system of questions and answers. Theory and practice: monograph / O.B. Popova, B.K. Popov, V.I. Klyuchko; Federal State-Funded Educational Institution of Higher Professional Education “Kuban. State Technological University.” ~ Krasnodar: Publishing House - South, 2013 - 166 p).

An initial binary tree of the system of “questions and answers” for optimization methods was also obtained and published in the above literature. For experimental verification of the operation of all blocks of the Optimal intellectual knowledge information system, they were physically represented by blocks that were implemented in software, without implementing the knowledge input mode. As a result, the Optel work program was obtained, which was registered (CERTIFICATE of official registration of the computer program No. 2012615868,27.06.12).

Claims (1)

Intelligent knowledge selection information system “Optimal”, consisting of a machine-readable medium connected in series, which contains a task distribution unit, a knowledge base unit, a knowledge input unit, a dictionary database unit, a dialog working part block and a computer through which technical capabilities the user has access to the intellectual information system of choice of knowledge "Optel" and its results; moreover, on a machine-readable medium between the task distribution unit and the knowledge base unit, an “Optel” intellectual knowledge selection information system start / stop unit is located; and the knowledge base block consists of series-connected selection control block, which is connected to the start / stop block of the Optimal intellectual knowledge choice information system, with the working part block of the dialogue and the dictionary database block, and the element selection block from the binary tree of the system " questions and answers ”, which is connected to the unit of knowledge input; whereas in the block of knowledge bases the binary tree of the system of questions and answers is used as a model for representing knowledge; in this case, the block of the database of dictionaries consists of two separate blocks - the block of the database of questions reflecting the properties of the methods, and the block of the database of optimization methods, which are connected to the block of the working part of the dialogue, to the block of selection control and to the block of knowledge input; here the block of the database of questions reflecting the properties of the methods consists of two blocks connected in series - a key data search block connected to a selection control block and a question list data block that is connected to a knowledge input unit and a data output unit; in the data search block by key, a search is used; moreover, the database block of optimization methods consists of a data search block by key connected to a selection control block, as well as a data block of a list of optimization methods, a data block of description of methods and a data block of literature links that are connected to the knowledge input block and the block data output; and the block of the working part of the dialogue consists of two separate parts - the input block of the answer option “yes” or “no”, which is connected to the selection control unit, and the data output unit, which is connected to the data block of the list of questions, with the data block of the list of optimization methods, with a data block describing the methods and with a data block of literature references; the initial binary tree of the system of “questions and answers” is compiled by experts in the field of optimization methods according to the developed rules, then it is replenished with new elements without reforming its structure directly through the knowledge input unit; knowledge input is carried out automatically in the necessary cells of the necessary blocks in the knowledge input mode using the technical capabilities of the computer; Thus, the operating mode of the system consists of two modes: the data output mode, when computer data is used to output data from the knowledge base block and the dictionary database block, and the dialogue mode is when working with the binary tree of the system of “questions and answers” and is output sequentially by means computer needs questions, and the user answers them with computer tools; and the selection control block consists of eight consecutive blocks - the block that starts the work of the selection control block, the block that makes the transition to the root question of the binary tree of the question and answer system, connected to the block of element selection from the binary tree of the question and answer system, the block that displays a question of a binary tree of a system of questions and answers connected to a block of a database of questions reflecting the properties of methods, a block for inputting an answer to a question connected to a block for data input, a block Ode to the next question which is connected with the block select an item from a binary tree system of questions and answers, the unit conditions, the block data output, connected to the database optimization methods block, and the block ends the operation selection control unit; a block that displays the question of the binary tree of the system of questions and answers, a block for entering the answer to the question, and a block for moving to the next question are sequentially executed until the condition from the condition block is fulfilled; whereas the knowledge input block consists of two groups of blocks executed sequentially, where the first group of blocks consists of sequentially executed blocks for creating the first cell, block for filling the first cell, block for creating the second cell, block for filling the second cell and block for rewriting the cell, and the second group of blocks consists of a sequentially executed block of entering the question, block of entering the optimization method, block of entering the description of the optimization method, and block of entering references to the literature; a block for selecting an item from the binary tree of the Q&A system is represented by cells connected to two blocks from the selection control block — with a block that moves to the root question of the binary tree of the Q&A system and with a block for moving to the next question; the cells consist of three fields that are connected to the first group of blocks from the knowledge input block, and are formed into a given data structure - a binary tree of a question and answer system; in the second and third field of cells there are pointers to the left and right son, respectively, and in the first field of cells there are numerical data in a certain order with a given step, so that after a symmetric tree walk, a sorted sequence is obtained, since the selected step between the numbers allows you to correctly add further knowledge in the knowledge base; if the cell corresponds to the question that will need to be answered in the block block of the working part of the dialogue, then it has a left and right son, therefore, the addresses of the left and right son of the tree of the question and answer system are indicated in the second and third fields, otherwise the cell corresponds the optimization method found as a result of going through the tree, and the service word nil is located in the second and third fields; the data block of the list of questions, which is located in the database of questions, is structurally represented by a matrix of dimension j * 1, which consists of j cells of the same type, consisting of two fields that are connected to the question box, in the second field of which are questions reflecting the properties of the methods, which are connected with the unit for submitting questions from the second group of blocks of the knowledge input unit and with the data output unit, and in the first field, which is connected to the data search unit by key and with the data output unit, is a numerical data of the first field element selecting unit cell of the binary tree of questions and answers system, which corresponds to the question from the second field of the cell; moreover, the data block of the list of optimization methods, the data block of the method description and the data block of literature references located in the database block of the optimization methods are structurally represented by three matrices of dimension i * 1, each of which consists of i cells of the same type, consisting of two fields, which connected, respectively, with the block recording the optimization method, with the block recording the description of the optimization method and with the block recording links to the literature; in each matrix, in the first field, which is connected to the data search unit by key and with the data output unit of its cells, numerical data from the first field of cells of the element selection block from the binary tree of the question and answer system to which their optimization methods correspond, and in the second field These cells are respectively the names of optimization methods, descriptions of these methods and references to literature, the data of which correspond to numbers from the first field of each cell.

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