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Show the knowledge of mathematics, physics and chemistry required to understand automation and industrial electronic engineering.
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Use the methods, techniques and tools of automation and industrial electronic engineering.
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Manage a project in automation and industrial electronic engineering, including planning, direction, implementation and evaluation.
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Draw up and direct projects involving automated installations, control and regulation of industrial electrical functions and all types of engineering projects involving industrial electronics and automation.
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Report on engineering projects in the field of industrial electronics and automation, orally and in writing, and including technical details where necessary.
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Control the operation of continuous and discrete systems, including the measurement and selection of sensors, feedback and regulation.
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Implement systems using analogue and digital control devices, and also those based on microprocessors.
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Supervise industrial processes, including interconnections between teams or systems and their communications.
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Show knowledge of the different industrial sciences and technologies required to understand electronic engineering.
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Independently acquire new knowledge, and learn new techniques, methods and theories throughout one’s career.
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Manage time and organise work.
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Use ICT tools for processing and communicating information.
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Work in multidisciplinary teams in different roles, with absolute respect for the rights of others and equality between men and women.
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Develop critical reasoning and thinking.
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Show an interest in quality.
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Take ethical responsibility and economic, environmental, social, legal, safety and sustainability factors into account in professional practice.
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Show initiative, be creative and able to make decisions.