Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Fishbone diagram

Use Fishbone diagrams to identify all the process needs. This will draw heavily on the work to identify the PSM and ESH programs and elements and the Quality Management requirements. It will also identify any special expertise, information or equipment needs. Fishboning is described in several of the quality management references given in Chapter 1, and an example is provided in Exhibit 5-4. [Pg.66]

Fishbone diagrams to help identify detailed requirements. Most likely to be used during development work within the project team and during consultation within your company. [Pg.84]

Fishbone Diagrams are cause-and-effect diagrams used in quality management to help describe all the activities that can influence the management process and its outcome. These diagrams show the relationship between different activities and how they are grouped around specific types of activity. [Pg.185]

A cause and effect diagram (sometimes known as the Ishikawa"" or the fishbone diagram"") represents the relationships between a given effect and its potential causes. The cause and effect analysis relates the interactions among the factors affecting a process. [Pg.129]

Identification of uncertainty sources Could be described e.g. by a fishbone diagram... [Pg.255]

Figure 1.3 Fishbone diagram of ADME/Tox process elements. The scale up of the ADME/Tox screening laboratory requires careful consideration of all crucial elements involved in its process. The commonly accepted approach of route cause analysis has been applied to identify potential hurdles that should be reviewed when planning a... Figure 1.3 Fishbone diagram of ADME/Tox process elements. The scale up of the ADME/Tox screening laboratory requires careful consideration of all crucial elements involved in its process. The commonly accepted approach of route cause analysis has been applied to identify potential hurdles that should be reviewed when planning a...
Cause and effect diagrams, which are produced after group discussions on the problem, or its effect, involve the production of detailed check lists and a structured brainstorming (see Section C, 1.8.3). Following this process the diagram will become very complex and has the appearance of the skeleton of a fish hence they are often called fishbone diagrams. [Pg.136]

In the preparation stage, many of the analytical or problem identification techniques, described in the paragraphs on the continuous improvement aspects of TQM, are very useful. These methods include Ishikawa Fishbone Diagrams, Pareto Charts, and Flow Charts etc. (see Section B, 3.4). [Pg.166]

The fishbone diagram, as illustrated in Figure 17.11, can be used to structure the identification of numerous opportunities for removing waste in the validation process. Each will then have top be quantified and opportunities prioritized for implementation. There are seven basic types of waste ... [Pg.429]

The Cause Effect Diagram is also called a fishbone diagram because of its resemblance to a boned fish. Fishbone diagrams were first demonstrated in the 1940s by Dr. Kaoru Ishikawa, a Japanese engineer. He wanted a simple, graphical way to show the relationships between the inputs and outputs of a... [Pg.326]

However, cause-and-effect relationships in these situations are obscured by rampant variability and multiple mysterious causes. The approach is passive. Classical observational tools for industry usually include sampling plans, control charts, and process capability studies. In addition, Branning has found two of the most useful observational tools for validation and PAT are process flow charts and fishbone diagrams, which help define the process and identify the potential sources of variability. These observational tools need to be used on a routine basis to collect background data for validation and PAT. [Pg.95]

The other six are the check sheet, the flowchart, the histogram, the Pareto chart, the cause and effect (or fishbone) diagram and stratification. [Pg.41]

Collect aU available causes and other data—make fishbone diagrams. [Pg.1561]

Cause-and-effect diagram Fishbone diagram Ishikawa diagram Control charts Why-why diagram Brainstorming Flowcharts... [Pg.168]

Fig. 6.3 A fishbone diagram showing the effect of various factors on the performance of a microforming system. With permission from Jain et al. (2014). Copyright IMechE 2014... Fig. 6.3 A fishbone diagram showing the effect of various factors on the performance of a microforming system. With permission from Jain et al. (2014). Copyright IMechE 2014...
This is a tool for analyzing process dispersion (Figure 54.1). The process was developed by Dr. Karou Ishikawa and is also known as the fishbone diagram because the diagram resembles a fish skeleton. The... [Pg.814]

Attachments can include pertinent supporting information collected in support of the investigation such as timelines, drawings, calculations, pictures, decision matrix, risk matrices, fault trees, fishbone diagrams, and cause and effect diagrams. [Pg.509]

Figure 3 shows an Ishikawa (fishbone) diagram of the factors that influence the value of Pp in a telegram transmission scenario. The value of Pp depends on the... [Pg.2186]

Cause and effect diagram (fishbone diagram) A tool that uses a graphical description of contributing elements to identify root causes of process variation. [Pg.520]

See other pages where Fishbone diagram is mentioned: [Pg.370]    [Pg.138]    [Pg.105]    [Pg.156]    [Pg.318]    [Pg.16]    [Pg.398]    [Pg.400]    [Pg.217]    [Pg.747]    [Pg.1703]    [Pg.1816]    [Pg.1859]    [Pg.163]    [Pg.138]    [Pg.63]    [Pg.205]    [Pg.283]    [Pg.299]    [Pg.685]    [Pg.686]   
See also in sourсe #XX -- [ Pg.84 ]

See also in sourсe #XX -- [ Pg.95 , Pg.127 ]

See also in sourсe #XX -- [ Pg.191 ]

See also in sourсe #XX -- [ Pg.99 ]

See also in sourсe #XX -- [ Pg.256 ]



SEARCH



Fishbone

Fishbone diagramming

© 2024 chempedia.info