Difference between revisions of "Knowledge"
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Revision as of 09:38, 4 July 2013
Contents
Definition
Summary
Description 1
Since the time of the earliest philosophers men and women have attempted to both understand and define the concept of knowledge. There is no generic form of words that can adequately express what we understand to be knowledge. However, the following definition [5] can be offered as one that meets the needs of this report: “Knowledge is a fluid mix of framed experience, values, contextual information, and expert insight that provides a framework for evaluating and incorporating new experiences and information. It originates in the minds of knowers. In organizations, it often becomes embedded not only in documents or repositories but also in organizational routines, processes, practices, and norms.” It is very difficult, in a publication about the management of radioactive waste knowledge, to use specific terminology in an absolutely accurate and consistent way where the subject (the knowledge) can be framed in so many ways. Figure 1 shows how knowledge is created.
Reference will be made in this report to ‘contextual information’. This is information that helps the reader to understand, to recognize value, relevance, constraints and trustworthiness of other information — particularly if that information is highly complex and specialized. It will, inter alia, help the reader to answer questions such as ‘why should I believe this information?’, ‘what value can I attribute to this information?’ and ‘can I use this information to create new knowledge?’ The International Council on Archives (ICA) has published guidance on the management of contextual information in the field of safety of radioactive waste disposal facilities [6]. The IAEA has compiled a glossary of knowledge management terms [7] that are particularly applicable in the nuclear sector. The following sections contain brief descriptions of the important terms, as used in this report. The aim here is achieve consistency within this report.
Knowledge types
When reading this report, knowledge should be thought of as not just documented information but also undocumented personal insight, experience and skills. Thus, knowledge extends beyond pure information, because it includes the means for understanding and interpreting it in the way intended by the person who created it. There are three different types of knowledge to which reference is often made: explicit, implicit and tacit. These are briefly discussed below — further information can be found in the NKM Glossary (see Ref. [7]) and related IAEA guidance [8].
Explicit knowledge
Explicit knowledge is that which can be contained and conveyed in documents, drawings, calculations, designs, databases, procedures and manuals. This type of knowledge is also referred to as information. Explicit knowledge can be recalled and articulated by the bearer, and subsequently recorded (for example, RWM documentation and databases).
Implicit knowledge
Implicit knowledge can sometimes be difficult to recall and articulate but, when it is, it can be recorded in a document. Implicit knowledge is often gained through personal exposure to circumstances (for example, the working environment) or experiences (for example, packaging radioactive waste).
Tacit knowledge
The third type of knowledge, tacit knowledge, is generally regarded as that which is difficult to recall, and virtually impossible to articulate and record. All humans possess tacit knowledge and they are only aware of it when they apply it. So-called ‘common sense’ may be regarded by some as a form of tacit knowledge and its technical content may be more limited than that of implicit knowledge (for example, not recordable experience in the head of a WM facility operator).
Source: Knowledge management for radioactive waste management organisations
Description 2
A mix of experiences, values, contextual information and expert insight for acquiring, understanding and interpreting information. Together with attitudes and skills, it forms a capacity for effective actions.
Source: Knowledge Management for Nuclear Industry Operating Organizations
Description 3
Before any meaningful discussion about KP can be undertaken, it is important to first clarify what is meant by ‘knowledge’. Many definitions of the term are used in literature, but they do not all agree. Fig 1 [2–7] provides some of the more widely cited definitions found.
In general, academics agree there are three different types of knowledge: explicit, implicit and tacit. Explicit knowledge is contained and conveyed in documents, drawings, calculations, designs, databases, procedures and manuals. Explicit knowledge is knowledge that has already been codified (i.e. written down) or declared. In contrast to such relatively accessible information, implicit knowledge is difficult to reveal, but it is still possible to record. It is generally feasible to convert implicit knowledge into explicit knowledge through a knowledge conversion processes generally referred to as ‘codification’ or ‘transformation’. The third type of knowledge, tacit knowledge, is the most difficult to recall and to articulate, and thus to transfer. Tacit knowledge cannot be completely explained, since it is wholly embodied in the individual, rooted in practice and experience, expressed through skilful execution, and transmitted through apprenticeship and training by watching and doing. Tacit knowledge can be observed; however, it is doubtful that all of this knowledge can be converted into explicit knowledge. Thus, the saying developed, “We know more than we realize we know.” Tacit knowledge includes skills, experience, insight, intuition and judgment. It is the ‘know-how’ accumulated in an individual’s mind.
In this report, knowledge is defined to include tacit, implicit and explicit knowledge, meaning it encompasses everything from technical information laid down on paper or in electronic media to insights or capabilities and skills embodied in people. Knowledge then clearly extends beyond just information. It includes the expertise required to turn raw data or information into understanding (i.e. the ability to find a meaningful interpretation of relevant issues using information). Knowledge may be applied for such purposes as problem solving and learning; forming judgments and opinions; decision making, forecasting and strategic planning; and generating feasible options for action so that action can be taken to achieve desired results. Knowledge also protects intellectual assets from decay, augments intelligence and provides increased flexibility.
Source: Comparative Analysis of Methods and Tools for Nuclear Knowledge Preservation
References
[5] DAVENPORT, T.H., PRUSAK, L., Working Knowledge: How Organizations Manage What They Know, Harvard Business School Press, Boston, MA (2000).
[6] INTERNATION COUNCIL ON ARCHIVES, Radioactive Waste Information: Meeting Our Obligations to Future Generations with Regard to Safety of Waste Disposal Facilities, ICA Study 18, ICA, Paris (2006).
[7] INTERNATIONAL ATOMIC ENERGY AGENCY, Planning and Execution of Knowledge Management Assist missions for Nuclear Organizations, IAEA-TECDOC-1586, IAEA, Vienna (2008).
[8] INTERNATIONAL ATOMIC ENERGY AGENCY, Knowledge Management for Nuclear Industry Operating Organizations, IAEA-TECDOC-1510, IAEA, Vienna (2006).