![]() ![]() Probability refers to the likeliness of a hazard to take place. Risk analysis is the process of laying out the probability of a particular hazard taking place and the events having consequences. In other words, a qualitative risk analysis is a method used during a particular hazard to calculate the risk associated with it. Partnerships with external parties who own, manage or have access to green assets are vital to ensure risk mitigation plans are effective and can move forward smoothly.Qualitative Risk Analysis (RAM) is the measure of the probability of occurrence of risk and the impact through the use of relative scale. Green assets, such as a green roof or a forest, are likely not owned by the system and may involve several outside entities to implement any mitigation strategies. Gray assets such as pipes are owned and managed by a system, and that system has direct control over the mitigation options (i.e., repair, replacement, rehabilitate etc.). Risk mitigation options can be more complex and harder to implement for green assets because they are often owned, managed or accessed by third parties. Each case must be considered individually to determine the correct response for the given situation. The main point is that there is not a “right” response for each asset. The criticality score, along with the asset’s condition rating and estimate of useful life, should be used to prioritize assets for repair, replacement, or upgrade. If additional data becomes available, especially condition data, these risk score thresholds should be re-evaluated. When selecting a threshold score, systems should pay close addition to the availability of condition data and the distribution of risks. ![]() Additionally, systems can pick a threshold criticality score which they can use to define which assets are eligible for funding for inspection or repair or replacement projects. Visualizing criticality scores with a matrix is also a useful tool, especially when discussing the criticality of assets with stakeholders who were not part of the process. GIS is a useful tool to spatially identify high-concentration locations of critical assets, and this can then be factored into the prioritization framework for each asset type. The impacts of one critical asset failing in those areas will have heightened impact due to the proximity to other critical assets, including those of another asset type. ![]() Special attention should be given to areas in the system where multiple critical assets exist at the same location. A complete risk plan will specify the type of management action necessary as well as a timeline for the action and identify the personnel within the organization who are responsible for the risk mitigation. A risk response plan delineates levels of risk tolerance and identifies the risk mitigation options that are most effective and suitable for the system. Once the criticality score is calculated for all assets, system staff should evaluate the data and create a prioritization framework or a risk response plan. Any changes like these should prompt an update to the criticality scores of impacted assets. The consequence rating associated with related assets should be lowered because adding redundancy reduces the consequences of those assets failing. Another example is installing a new asset to add redundancy to the system. For example, if an asset that was critical primarily due to its probability of failure is replaced with a new asset, the criticality score for the replacement asset will be lower and records should be updated to reflect both the new asset and its lower probability of failure. Ideally systems should review the criticality of all assets annually, but if a complete review and revision is not practical given available resources, system staff should focus on reassessing the criticality of assets that are known to have experienced some type of significant change or event. Thus, it is necessary to periodically review the criticality scores of assets and make adjustments to account for changing circumstances or asset decay. Climate change and continued urbanization pressures are also changing the likelihood, frequency, and intensity of many risks discussed in the Factors Impacting Probability of Failure (POF) and Consequence of Failure (COF) sections. If community characteristics or service needs change, financial factors increase (e.g., cost of repair, rehabilitation or replacement) or environmental regulations become more stringent, the probability of failure and/or the consequence of failure for any assets impacted by any of these scenarios can change. The criticality of assets changes over time. For examples of criticality calculations click here. ![]()
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