Thursday, December 26, 2019

Off the Grid How to Map Engineering Competency

Off the Grid How to Map Engineering Competency Off the Grid How to Map Engineering Competency In todays aging engineering workforce, a rash of retirements and other factors pose a threat to technology companies.Those that dont fully understand the skills and contributions of their engineers risk losing their engineering know-how along with their engineers. The process known as competency mapping can help ansicht companies preserve the knowledge that safeguards their future. Competency mapping looks for the soft skills or behaviors that distinguish effective employees and potential leaders.But in a profession as complex as engineering, how is it possible to assess a persons competency?A case study from the South American energy company Ecopetrol, S.A., shows one approach.Ecopetrol and its consultant, RWD, LLC, launched a project to understand the objective skills engineers need to function effectively in a refinery operation. RWD uses a grid format to measure engineering competence, e stablish skill gaps and identify areas for training or other responses.RWD follows a simple premise when mapping engineering competency. Because engineers are problem-solvers by nature, the only two parameters to measure them against are The Problem and How to Solve the Problem.Thats where the grids come in. Those two parameters form the x- and y-axes of two 2-dimensional grids that shed light on an engineers competency.Grid 1 The Outcome/Experience MapThe Outcome/Experience (or O/E) map decomposes each required task into an action and an object of the action. For example, to map the task of troubleshooting compressors, your x-axis would be labeled Troubleshoot, and your y-axis would be Compressors.All identifiable engineering actions associated with the compressor tasks such as inspection and documentation and vibration analysis, for example would all go on the x-axis. The y-axis would consist of the different schriftarts of compressors in the plant.Each type of equipment and its corresponding actions needs its own O/E map, plotted in the same way. Similarly, preparing the mapping model to all tasks associated with each discipline in engineering will help you make sure all tasks on the list are visually distinct and that the list is exhaustive.Grid 2 The Knowledge/Capability MapThe Knowledge/Capability, or K/C, map defines the resources needed to prepare an engineer to perform a particular task and suggests the correct level of skill or cognitive ability he or she must have to be considered qualified to do that task.You create the K/C map by reverse-engineering each task on the O/E map. On this grid, organize your resources on the y-axis by degree of utility from top to bottom. Divide the x-axis into three or four cognitive levels of complexity.Each cell in the map contains a competency statement that matches a specific resource item with a specific cognitive level on the x-axis.What Can You Do?The K/C maps main use is to determine an engineers capabilities . You can use a completed K/C map to create training programs that address an engineers gaps in competence.At Ecopetrol, the discipline of process engineering was chosen as the first subject for competency mapping. After building a training plan to address findings in process engineering, subsequent phases of the project would apply lessons learned to other engineering disciplines.Within two months, it was the mechanical engineers turn. The project focused first on two roles fixed-equipment engineers and rotating-equipment engineers.Separate teams of subject-matter experts were formed for fixed-and rotating-equipment engineering. We first made Outcome/Experience maps for both of these roles before tackling the K/C maps. The maps are designed to be used together to assess the competency status quo (through as is maps) and to visualize the desired results (through to be maps).In this four-step process, you first, create the to be maps. Each job level should ultimately have two complet ed to be maps charting the appropriate job level for each task on the O/E map, and assigning a competence level for all resources itemized on the K/C map.Next, have each engineer map his or her own current level of experience and competency on blank K/C maps. These self-assessments are the as is maps.Then compare and analyze the to be maps and the as is maps to reveal each engineers competency gaps.Finally, recommend an action plan for engineers who show competency gaps. The curriculum map can help match the best training strategies.All told, these analyses are providing valuable insights that shape the companys training agenda an issue more important than ever in light of the aging engineering workforce. All companies much map the competencies of its current professionals and take steps to replace knowledge at risk of disappearing.Adapted from Mapping Competencies by Saidas Ranade, Cassio Tamara, Edgar Castiblanco,and Anibal Serna, for Mechanical Engineering, February 2010.All tol d, these analyses are providing valuable insights that shape the companys training agenda an issue more important than ever in light of the aging engineering workforce.

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