Concepts of information given by various sciences. Difference from information data and knowledge. Difference between information and data

There are many definitions and views on the concept "information". So, for example, the most general philosophical definition is as follows: “Information is a reflection of the real world. Information is reflected diversity, that is, a violation of monotony. Information is one of the main universal properties of matter.” In a narrow, practical interpretation, the definition of the concept “information” is presented as follows: “Information is all information that is the object of storage, transmission and transformation.”

The author of information theory, K. Shannon (1916), defined the concept of information as communication, a connection in the process of which uncertainty is eliminated. Shannon proposed in the 1940s a unit of information measurement - a bit. In theory, each signal was assigned an a priori probability of its occurrence. The less likely the occurrence of a particular signal, the more information it carries for the consumer (i.e., the more unexpected the news, the more informative it is).

Information is zero when only one event is possible. As the number of events increases, it increases and reaches maximum value when events are equally probable. With this understanding, information is the result of a choice from a set of possible alternatives. However, mathematical information theory does not cover all the richness of information content, since it does not take into account the content side of the message.

Further development mathematical approach to the concept of “information” is noted in the works of logicians (R. Carnap, I. Bar-Hillel) and mathematicians (A.N. Kolmogorov). In these theories, the concept of information is not associated with either the form or the content of messages transmitted over a communication channel. The concept of "information" in in this case is defined as an abstract quantity that does not exist in physical reality, just as an imaginary number or a point that does not have linear dimensions does not exist.

WITH cybernetic point of view, information (information processes) exists in all self-governing systems (technical, biological, social). At the same time, one part of cybernetics defines information as the content of a signal, a message received by a cybernetic system from the outside world. Here the signal is identified with information; they are considered as synonyms. Another part of cybernetics interprets information as a measure of the complexity of structures, a measure of organization. This is how the American scientist B. Wiener defines the concept of “information,” who formulated the main directions of cybernetics and the author of works on mathematical analysis, probability theory, electrical networks And computer technology: Information is a designation for content received from the outside world.

IN physics information acts as a measure of diversity. The higher the orderliness (organization) of an object’s system, the more “related” information it contains. From here the conclusion is drawn that information is a fundamental natural science category, located next to such categories as “matter” and “energy”, that it is an integral property of matter and therefore has existed and will exist forever. For example, the French physicist L. Brillouin (1889-1969), the founder of the band theory of solids, the author of works on quantum mechanics, magnetism, radiophysics, philosophy of natural science, information theory, defines information as the negation of entropy (entropy is a measure of uncertainty that takes into account the probability of occurrence and information content of certain messages).

Since the 50-60s, the terminology of information theory began to be used in physiology(D. Adam). A close analogy was discovered between control and communication in a living organism and in information technology devices. As a result of the introduction of the concept of “sensory information” (i.e. optical, acoustic, taste, thermal and other signals coming to the body from the outside or generated inside it, which are converted into impulses of electrical or chemical nature, transmitted along neural circuits to the central nervous system and from it - to the corresponding effectors) new opportunities have emerged for describing and explaining the physiological processes of irritability, sensitivity, perception of the environment by the senses and the functioning of the nervous system.

Within genetics The concept of genetic information was formulated - as a program (code) for the biosynthesis of proteins, materially represented by polymer chains of DNA. Genetic information is contained primarily in chromosomes, where it is encrypted in a specific sequence of nucleoids in DNA molecules. This information is realized during the development of the individual (ontogenesis).

Thus, systematizing the above, we can conclude that for engineers, biologists, geneticists, psychologists the concept of “information” is identified with those signals, impulses, codes that are observed in technical and biological systems. Radio technicians, telemechanics, programmers Information is understood as a working fluid that can be processed and transported, just like electricity in electrical engineering or fluid in hydraulics. This working fluid consists of ordered discrete or continuous signals, with which information technology deals.

WITH legal point of view, information is defined as “a certain set of different messages about events occurring in legal system society, its subsystems and elements and in the environment external to the given legal information formations, about changes in the characteristics of information formations and the external environment, or as a measure of the organization of socio-economic, political, legal, spatial and temporal factors of the object. It eliminates the legal information education, phenomena and processes, uncertainty and is usually associated with new, previously unknown to us phenomena and facts."

Information from economic point of view - this is a strategic resource, one of the main resources for increasing the productivity of an enterprise. Information is the basis for an entrepreneur’s maneuver with matter and energy, since it is information that allows one to set the strategic goals and objectives of an enterprise and take advantage of emerging opportunities; make informed and timely management decisions; coordinate the actions of various departments, directing their efforts to achieve common goals. For example, marketers R.D. Basel, D.F. Cox, R.W. Brown define the concept of “information” as follows: “information consists of all objective facts and all assumptions that influence the decision maker’s perception of the nature and degree of uncertainty associated with a given problem or opportunity (in the management process). Everything that is potentially will reduce the degree of uncertainty, whether facts, estimates, forecasts, general communications or rumors, should be considered information."

IN management Information is understood as information about the control object, external environmental phenomena, their parameters, properties and state at a specific point in time. Information is the subject of managerial work, a means of justifying management decisions, without which the process of influence of the control subsystem on the managed one and their interaction is impossible. In this sense, information is the fundamental basis of the management process.

The value of the information for business identified D.I. Blumenau and A.V. Sokolov: “information is a product of scientific knowledge, a means of studying reality within the framework allowed by the methodology of one of the information approaches to the study of objects of various natures (biological, technical, social). The approach involves describing and considering these objects in the form of a system that includes a source, channel and receiver of control actions that allow for their meaningful interpretation." If you try to combine the proposed approaches, you will get the following:

Data carry information about events that occurred in the material world, since they are a registration of signals that arose as a result of these events. However, data is not the same as information. Whether data becomes information depends on whether a method is known to transform the data into known concepts. That is, in order to extract information from data, it is necessary to select an adequate method for obtaining information that corresponds to the form of the data. The data that makes up the information has properties that uniquely determine an adequate method for obtaining this information. Moreover, it is necessary to take into account the fact that information is not a static object - it changes dynamically and exists only at the moment of interaction between data and methods. All other times it remains in a state of data. Information exists only at the moment of occurrence information process. The rest of the time it is contained in the form of data.

The same data may present different information at the time of consumption depending on the degree of adequacy of the methods interacting with it.

By its nature, data is objective, since it is the result of recording objectively existing signals caused by changes in material bodies or fields. The methods are subjective. Artificial methods are based on algorithms (ordered sequences of commands) compiled and prepared by people (subjects). Natural methods are based on biological properties subjects of the information process. Thus, information arises and exists at the moment of dialectical interaction between objective data and subjective methods.

Moving on to the consideration of approaches to defining the concept of “knowledge”, the following interpretations can be distinguished. Knowledge- This:

• * type of information reflecting the knowledge, experience and perception of a person - a specialist (expert) in a certain subject area;
• * set of all current situations in objects of this type and ways of moving from one description of an object to another;
• * awareness and interpretation of certain information, taking into account the ways of its best use to achieve specific goals, the characteristics of knowledge are: internal interpretability, structuredness, coherence and activity.

Based on the above interpretations of the concepts under consideration, we can state the fact that knowledge is information, but not all information is knowledge. Information acts as knowledge, alienated from its carriers and socialized for general use. In other words, information is a transformed form of knowledge that ensures its dissemination and social functioning. Receiving information, the user transforms it through intellectual assimilation into his personal knowledge. Here we are dealing with the so-called information-cognitive processes associated with the representation of personal knowledge in the form of information and the reconstruction of this knowledge based on the information.

The transformation of information into knowledge involves a number of patterns regulating the activity of the brain and various mental processes, as well as various rules that include knowledge of the system of social relations - the cultural context of a certain era. Thanks to this, knowledge becomes the property of society, and not just of individuals. There is a gap between information and knowledge. A person must creatively process information to gain new knowledge.

Thus, given the above, we can do conclusion, that the recorded perceived facts of the surrounding world represent data. When using data in the process of solving specific problems, it appears information. Results of problem solving, true, verified information ( intelligence), generalized in the form of laws, theories, sets of views and ideas, represents knowledge.

Data and information are often equated, but there is a significant difference between the two terms:

● Information- knowledge relating to concepts and objects (facts, events, things, processes, ideas) in the human brain;

● Data- presentation of processed information suitable for transmission, interpretation, or processing ( computer files, paper documents, records in the information system).

The difference between information and data is that:

1) data is fixed information about events and phenomena that is stored on certain media, and information appears as a result of data processing when solving specific problems.

For example, various data are stored in databases, and upon a certain request, the database management system provides the required information.

2) data are information carriers, not the information itself.

3) Data turns into information only when a person becomes interested in it. A person extracts information from data, evaluates, analyzes it and, based on the results of the analysis, makes one decision or another.

Data turns into information in several ways:

Contextualization: we know what the data is for;

Counting: We process data mathematically;

Correction: we correct errors and eliminate omissions;

Compression: We compress, concentrate, aggregate data.

Thus, if it is possible to use data to reduce the uncertainty of knowledge about a subject, then data turns into information. Therefore, it can be argued that information is the data used.

4) Information can be measured. The measure of measuring the content of information is associated with a change in the degree of ignorance of the recipient and is based on methods of information theory.

2. Subject area- this is a part of the real world, the data about which we want to reflect in the database. The subject area is infinite and contains both essentially important concepts and data, as well as insignificant or non-significant data. Thus, the importance of data depends on the choice of domain.

Domain model. A domain model is our knowledge about a domain. Knowledge can be either in the form of informal knowledge in the expert’s brain or expressed formally using some means. Experience shows that the textual way of representing a domain model is extremely ineffective. Much more informative and useful when developing databases are descriptions of the subject area made using specialized graphical notations. Available large number methods for describing the subject area. The most well-known include the SADT structural analysis technique and IDEF0 based on it, Gein-Sarson data flow diagrams, the UML object-oriented analysis technique, etc. The domain model rather describes the processes occurring in the subject area and the data used by these processes. The success of further application development depends on how correctly the subject area is modeled.

3. Database- a set of independent materials presented in an objective form (articles, calculations, regulations, court decisions and other similar materials), systematized in such a way that these materials can be found and processed using electronic computer(COMPUTER).

Many experts point out the common mistake of incorrectly using the term “database” instead of the term “database management system”, and point out the need to distinguish between these concepts.

When thinking about the difference between information and data, you can’t help but wonder if they have anything in common?
We so often replace one word with another in speech that we do not notice how our statements become absurd. In order not to get into a stupid situation, you should figure out what each of them means.
There is such a close connection between data and information that the existence of one without the other is either impossible or simply meaningless.
Data is the basis of information. Essentially, they are just a set of characters. But after they have been interpreted by some perceiving system, the data becomes information.

Occurrence condition

So, information arises only if there is a certain source containing data and, directly, a recipient. Data can be transformed into information in several ways: through counting, correction, compression, contextualization and categorization.
Data is information recorded on some source. IN lately The amount of data has grown incredibly. This was caused by the rapid growth of the Internet.

Measurement

Data cannot be measured. As soon as we begin to count the data, the processing process will begin. This means that the data will automatically move into the category of “information”. Information can be measured. To do this, it is enough to assess the level of knowledge before and after the receipt of information.

Conversion Result

The human brain, like the most advanced computer, processes the data we receive and produces some information. And when the need arises to apply it to another thought process, then for him this information in turn becomes data from which new information will be obtained.
The final stage of transformation of information that has undergone repeated processing over a certain period of time becomes knowledge.

Thus, ImGist highlights the following main differences between information and data:

Data and information are closely interconnected.
Data is fixed; it actually exists in each unit of time. Information arises only when this data is processed.
Data after transformation becomes information. Repeatedly verified information - knowledge.
Information, unlike data, is a measurable substance.

Information- this is information about objects and phenomena of the environment, their parameters, properties and states, which reduce the degree of uncertainty and incomplete knowledge about them.

Data is a collection of information recorded on a specific medium in a form suitable for permanent storage, transmission and processing. Transformation and processing of data allows you to obtain information. Become information when used

2.Properties of information: objectivity, reliability, completeness, relevance, adequacy, accessibility.

Information properties:

1. Objectivity of information. Objective – existing outside and independently of human consciousness. Information is a reflection of the external objective world. Information is objective if it does not depend on the methods of its recording, anyone’s opinion, or judgment. Example. The message “It’s warm outside” carries subjective information, while the message “It’s 22°C outside” carries objective information. Objective information can be obtained using working sensors and measuring instruments. Reflected in a person’s consciousness, information can be distorted depending on the opinion, judgment, experience, knowledge of a particular subject, and thus cease to be objective.
2. Reliability of information. Information is reliable if it reflects the true state of affairs. Objective information is always reliable, but reliable information can be both objective and subjective. Reliable information helps us make the right decision. Information may be inaccurate for the following reasons:

• intentional or unintentional distortion of a subjective property;
• distortion as a result of interference and insufficiently accurate means of fixing it.

Topic 1.1: Theoretical foundations of economic informatics

Topic 1.2: Technical means of information processing

Topic 1.3: System Software

Topic 1.4: Service software and algorithmic basics

Economic informatics and information

1.1. Theoretical foundations of economic informatics

1.1.2. Data, information and knowledge

Basic concepts of data, information, knowledge.

TO basic concepts that are used in economic informatics include: data, information and knowledge. These concepts are often used interchangeably, but there are fundamental differences between these concepts.

The term data comes from the word data - fact, and information (informatio) means explanation, presentation, i.e. information or message.

Data is a collection of information recorded on a specific medium in a form suitable for permanent storage, transmission and processing. Transformation and processing of data allows you to obtain information.

Information is the result of data transformation and analysis. The difference between information and data is that data is fixed information about events and phenomena that is stored on certain media, and information appears as a result of data processing when solving specific problems. For example, various data are stored in databases, and upon a certain request, the database management system provides the required information.

There are other definitions of information, for example, information is information about objects and phenomena of the environment, their parameters, properties and state, which reduce the degree of uncertainty and incomplete knowledge about them.

Knowledge– this is recorded and practice-tested processed information that has been used and can be repeatedly used for decision-making.

Knowledge is a type of information that is stored in a knowledge base and reflects the knowledge of a specialist in a specific subject area. Knowledge is intellectual capital.

Formal knowledge can be in the form of documents (standards, regulations) regulating decision-making or textbooks, instructions describing how to solve problems.

Informal knowledge is the knowledge and experience of specialists in a certain subject area.

It should be noted that there are no universal definitions of these concepts (data, information, knowledge), they are interpreted differently.

Decisions are made based on the information received and existing knowledge.

Decision Making- this is the choice of the best, in a certain sense, solution option from a set of acceptable ones based on the available information.

The relationship between data, information and knowledge in the decision-making process is presented in the figure.

Rice. 1.

To solve the problem, fixed data is processed on the basis of existing knowledge, then the information received is analyzed using existing knowledge. Based on the analysis, all are offered feasible solutions, and as a result of choice, one decision that is best in some sense is made. The results of the solution add to knowledge.

Depending on the scope of use, information can be different: scientific, technical, management, economic, etc. Economic information is of interest to economic informatics.