1 a group of independent but interrelated elements comprising a unified whole; "a vast system of production and distribution and consumption keep the country going" [syn: scheme]
2 instrumentality that combines interrelated interacting artifacts designed to work as a coherent entity; "he bought a new stereo system"; "the system consists of a motor and a small computer"
3 a complex of methods or rules governing behavior; "they have to operate under a system they oppose"; "that language has a complex system for indicating gender" [syn: system of rules]
4 a procedure or process for obtaining an objective; "they had to devise a system that did not depend on cooperation"
5 a group of physiologically or anatomically related organs or parts; "the body has a system of organs for digestion"
6 an organized structure for arranging or classifying; "he changed the arrangement of the topics"; "the facts were familiar but it was in the organization of them that he was original"; "he tried to understand their system of classification" [syn: arrangement, organization, organisation]
7 (physical chemistry) a sample of matter in which substances in different phases are in equilibrium; "in a static system oil cannot be replaced by water on a surface"; "a system generating hydrogen peroxide"
8 the living body considered as made up of interdependent components forming a unified whole; "exercise helped him get the alcohol out of his system"
9 an ordered manner; orderliness by virtue of being methodical and well organized; "his compulsive organization was not an endearing quality"; "we can't do it unless we establish some system around here" [syn: organization, organisation]
- Hyphenation: sys·tem
Derived termsrel-top Derived terms
- biological system
- closed system
- complex adaptive system
- complex system
- conceptual system
- cultural system
- dynamical system
- economic system
- formal system
- global positioning system
- information system
- isolated system
- legal system of the world
- metric system
- multi-agent system
- nervous system
- open system
- operating system
- physical system
- political system
- sensory system
- social system
- sociotechnical system theory
- solar system
- system dynamics
- systems art
- systems biology
- systems categories
- systems ecology
- systems engineering
- systems of measurement
- systems science
- systems theory
- Albanian: sistem
- Armenian: համակարգ (hamakarg)
- Azerbaijani: sistem
- Bosnian: sistem
- Bulgarian: система
- Cantonese: ,
- Mandarin: 系统 (xìtǒng)
- Cantonese: ,
- Croatian: sistem, sustav
- Czech: systém, soustava
- Danish: system g Danish
- Dutch: systeem
- Esperanto: sistemo
- Finnish: elimistö, järjestelmä, systeemi
- French: système
- Galician: sistema
- Georgian: სისტემა (sist‘ema)
- German: System (1,2,3), Ordnung (2)
- Greek: σύστημα
- Hebrew: שִׁיטָה (šīta)
- Hindi: रीति (rīti), क्रम (krama), सारणी (sāraṇī) g Hindi
- Hungarian: rendszer
- Ido: sistemo
- Indonesian: sistem
- Interlingua: systema
- Irish: córas
- Italian: sistema
- Japanese: 系 (けい), 制度 (せいど)
- Korean: 체계 (chegye), 제도 (jedo)
- Latvian: sistēma
- Lithuanian: sistema
- Mongolian: журам
- Norwegian: system
- Persian: سامانه
- Polish: układ
- Portuguese: sistema
- Romanian: sistem
- Russian: система
- Serbian: sustav
- Sindhi: (sirishtow)
- Slovak: systém
- Slovene: sistem
- Spanish: sistema
- Swahili: kawaida
- Swedish: system
- Tagalog: sistema
- Telugu: వ్యవస్థ
- Thai: (rábòp), (náyōbāy), (khrǔā)
- Turkish: usul
- Ukrainian: система
- Uyghur: tüzümi
- Vietnamese: hệ thống
- Welsh: system or
- Yiddish: סיסטעם
System (from Latin systēma, in turn from Greek systēma) is a set of interacting or interdependent entities, real or abstract, forming an integrated whole. The concept of an 'integrated whole' can also be stated in terms of a system embodying a set of relationships which are differentiated from relationships of the set to other elements, and from relationships between an element of the set and elements not a part of the relational regime.
There are natural and man-made (designed) systems. Man-made systems normally have a certain purpose, set of objectives. They are “designed to work as a coherent entity”. Natural systems may not have an apparent objective but they are sustainable, efficient and resilient. There are many kinds of systems.
A system is a fundamental concept of systems theory, which views the world as a complex system of interconnected parts. We determine a system by choosing the relevant interactions we want to consider plus choosing the system boundary —– or, equivalently, providing membership criteria to determine which entities are part of the system, and which entities are outside of the system and are therefore part of the environment of the system. We then make simplified representations (models) of the system in order to understand it and to predict or impact its future behavior.
An open system usually interacts with some entities in their environment. A closed system is isolated from its environment.
A subsystem is a set of elements, which is a system itself, and a part of a larger system.
OverviewThe scientific research field which is engaged in the transdisciplinary study of universal system-based properties of the world is general system theory, systems science and recently systemics. They investigate the abstract properties of the matter and mind, their organization, searching concepts and principles which are independent of the specific domain, independent of their substance, type, or spatial or temporal scales of existence.
The term system has multiple meanings :
- A collection of organized things; as, a solar system.
- A way of organizing or planning.
- A whole composed of relationships among the members.
Most systems share the same common characteristics. These common characteristics include the following:
- Systems have a structure that is defined by its parts and processes.
- Systems are generalizations of reality.
- Systems tend to function in the same way. This involves the inputs and outputs of material (energy and/or matter) that is then processed causing it to change in some way.
- The various parts of a system have functional as well as structural relationships between each other.
HistoryThe term System has a long history which can be traced back to the Greek language.
In the 19th century the first to develop the concept of a "system" in the natural sciences was the French physicist Sadi Carnot who studied thermodynamics. In 1824 he studied what he called the working substance (system), i.e. typically a body of water vapor, in steam engines, in regards to the system's ability to do work when heat is applied to it. The working substance could be put in contact with either a heat reservoir (a boiler), a cold reservoir (a stream of cold water), or a piston (to which the working body could do work by pushing on it). In 1850, the German physicist Rudolf Clausius generalized this picture to include the concept of the surroundings and began to use the term "working body" when referring to the system.
In the 1980s the term complex adaptive system was coined at the interdisciplinary Santa Fe Institute by John H. Holland, Murray Gell-Mann and others.
Types of systemsEvidently, there are many types of systems that can be analyzed both quantitatively and qualitatively. For example, with an analysis of urban systems dynamics, [A.W. Steiss] defines five intersecting systems, including the physical subsystem and behavioral system. For sociological models influenced by systems theory, where Kenneth D. Bailey defines systems in terms of conceptual, concrete and abstract systems; either isolated, closed, or open, Walter F. Buckley defines social systems in sociology in terms of mechanical, organic, and process models. Bela H. Banathy cautions that with any inquiry into a system that understanding the type of system is crucial and defines Natural and Designed systems.
In offering these more global definitions, the author maintains that it is important not to confuse one for the other. The theorist explains that natural systems include sub-atomic systems, living systems, the solar system, the galactic system and the Universe. Designed systems are our creations, our physical structures, hybrid systems which include natural and designed systems, and our conceptual knowledge. The human element of organization and activities are emphazized with their relevant abstract systems and representations. A key consideration in making distinctions among various types of systems is to determine how much freedom the system has to select purpose, goals, methods, tools, etc. and how widely is the freedom to select distributed (or concentrated) in the system.
George J. Klir maintains that no "classification is complete and perfect for all purposes," and defines systems in terms of abstract, real, and conceptual physical systems, bounded and unbounded systems, discrete to continuous, pulse to hybrid systems, et cetera. The interaction between systems and their environments are categorized in terms of absolutely closed systems, relatively closed, and open systems. The case of an absolutely closed system is a rare, special case. Important distinctions have also been made between hard and soft systems. Hard systems are associated with areas such as systems engineering, operations research and quantitative systems analysis. Soft systems are commonly associated with concepts developed by Peter Checkland through Soft Systems Methodology (SSM) involving methods such as action research and emphasizing participatory designs. Where hard systems might be identified as more "scientific," the distinction between them is actually often hard to define.
Cultural systemA cultural system may be defined as the interaction of different elements of culture. While a cultural system is quite different from a social system, sometimes both systems together are referred to as the sociocultural system. A major concern in the social sciences is the problem of order. One way that social order has been theorized is according to the degree of integration of cultural and social factors.
Economic systemAn economic system is a mechanism (social institution) which deals with the production, distribution and consumption of goods and services in a particular society. The economic system is composed of people, institutions and their relationships to resources, such as the convention of property. It addresses the problems of economics, like the allocation and scarcity of resources.
Application of the system concept
Generally systems modeling is a basic principle in engineering and in social sciences. The system is the representation of the entities under concern. Hence inclusion to or exclusion from system context is dependent of the intention of the modeler.
No model of a system will include all features of the real system of concern, and no model of a system must include all entities belonging to a real system of concern.
Systems in information and computer scienceIn computer science and information science, system could also be a method or an algorithm. Again, an example will illustrate: There are systems of counting, as with Roman numerals, and various systems for filing papers, or catalogues, and various library systems, of which the Dewey Decimal System is an example. This still fits with the definition of components which are connected together (in this case in order to facilitate the flow of information).
System can also be used referring to a framework, be it software or hardware, designed to allow software programs to run, see platform.
Systems in engineeringIn engineering, the concept of a system is usually well defined. It is used in numerous different concrete contexts, and it is the subject of the basic engineering activities, such as: planning, design, implementation, building, and maintaining. Systems engineering is also a generalized theoretical branch of the different engineering approaches and paradigms.
Systems in social and cognitive sciences and management researchSocial and cognitive sciences recognize systems in human person models and in human societies. They include human brain functions and human mental processes as well as normative ethics systems and social/cultural behavioral patterns.
In management science, operations research and organizational development (OD), human organizations are viewed as systems (conceptual systems) of interacting components such as subsystems or system aggregates, which are carriers of numerous complex processes and organizational structures. Organizational development theorist Peter Senge developed the notion of organizations as systems in his book The Fifth Discipline.
Systems thinking is a style of thinking/reasoning and problem solving. It starts from the recognition of system properties in a given problem. It can be a leadership competency. Some people can think globally while acting locally. Such people consider the potential consequences of their decisions on other parts of larger systems. This is also a basis of systemic coaching in psychology.
Organizational theorists such as Margaret Wheatley have also described the workings of organizational systems in new metaphoric contexts, such as quantum physics, chaos theory, and the self-organization of systems.
In modern systemic socio-cognitive engineering the concept system is generalized to so-called intelligence-based systems. The Top-down Object-based Goal-oriented Approach (TOGA meta-theory) integrates formally the concepts of system, process, function and goal in frame of one congruent conceptualization meta-system. Among others, this paradigm enables the computational analysis of heterogeneous human-organization-technology aggregates and recognition of their pathological properties such as organization vulnerability, crisis and changes .
- Complexity and organization
- Glossary of systems theory
- System of Systems
- System of Systems Engineering
- Alexander Backlund, The definition of system, in: Kybernetes, (2000) Vol. 29 nr. 4, pp. 444-451.
- Bela H. Banathy, "A Taste of Systemics", ISSS The Primer Project, 1997.
- Kenneth D. Bailey, Sociology and the New Systems Theory: Toward a Theoretical Synthesis, New York: State of New York Press, 1994.
- Walter F. Buckley, Sociology and Modern Systems Theory, New Jersey: Englewood Cliffs. 1967
- Peter Checkland, Systems Thinking, Systems Practice. Chichester: John Wiley & Sons, Ltd, 1997.
- Flood, R.L. Rethinking the Fifth Discipline: Learning within the unknowable, London: Routledge, 1999.
- George J. Klir, Approach to General Systems Theory, 1969.
- Steiss, A.W. Urban Systems Dynamics, Toronto: Lexington Books, 1967.
system in Arabic: نظام
system in Bosnian: Sistem
system in Bulgarian: Система
system in Catalan: Sistema
system in Czech: Systém
system in Danish: System
system in German: System
system in Estonian: Süsteem
system in Modern Greek (1453-): Σύστημα
system in Spanish: Sistema
system in Esperanto: Sistemo
system in Persian: سامانه
system in French: Système
system in Galician: Sistema
system in Korean: 계 (물리학)
system in Hindi: तंत्र
system in Ido: Sistemo
system in Indonesian: Sistem
system in Italian: Sistema
system in Hebrew: מערכת
system in Latin: Systema
system in Latvian: Sistēma
system in Lithuanian: Sistema
system in Hungarian: Rendszer
system in Macedonian: Систем
system in Dutch: Systeem (wetenschap)
system in Japanese: システム
system in Norwegian: System
system in Polish: System
system in Portuguese: Sistema
system in Russian: Система
system in Albanian: Sistemi
system in Simple English: System
system in Slovak: Systém (kybernetika)
system in Slovenian: Sistem
system in Serbian: Систем
system in Finnish: Järjestelmä
system in Swedish: System
system in Tamil: ஒழுங்கமைப்பு
system in Thai: การวิเคราะห์และออกแบบระบบ
system in Vietnamese: Hệ thống
system in Turkish: Sistem
system in Ukrainian: Система
system in Yiddish: סיסטעם
system in Chinese: 系統
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