Fishbone diagram analysis
Developed by Maria Konstantina Papaioannou
Contents |
Abstract
Risk project management is a broad and complex field. It is well established that every project at every stage carries risk. Possible risks for a running or finished project are countless and may vary from anticipated to unexpected. In addition, their result ranges from minor inconvenience to disrupt of the project. Thus, identifying possible risks is a key challenge for every project. Once identified and listed those risks can be categorized using qualitative risk analysis. This article introduces the Ishikawa fishbone diagram as a method to analyze numerous reasons why a project may fail. The diagram provides a visualization that simplifies the identification of risks and categorizes them. It heavily relies on the idea that minor problems matter and can lead to causes that affect badly the existing project. It is commonly used by safety and reliability engineers to detect faults in constructions. Firstly, this article gives a historical overview of the diagram. It analyzes its basic components, provides detailed guidance to its building, and briefly presents its implementation on the Apollo 13 case. Additionally, the article displays the technique’s benefits and refers to its disadvantages. Finally, it reflects critically on its limitations and makes recommendations on how to maximize the diagram’s utility.
Description of Ishikawa fishbone diagram
Historical overview
Japanese organizational theorist Kaoru Ishikawa(石川 馨)was born in 1915 in Tokyo, Japan and he is considered key figure in the development of quality initiatives. (book Guide to Quality Control. Tokyo: Asian Productivity Organization) During the year 1968, while working as a full-time professor at the Faculty of Engineering at the University of Tokyo, Ishikawa studied the concept of quality and introduced the seven quality management tools for projects’ improvement in his book Guide to Quality Control. In the book Ishikawa explains thoroughly the concept and the utility of each of the following tools: Ishikawa diagram, the histogram, the Pareto chart, the check sheet, the control chart, the flowchart, and the scatter diagram. The book includes instructions on building and the reading the quality control techniques mentioned above. The Ishikawa diagram became increasingly popular since it is a simple visual technique for problem solving and is used until today in modern management projects.