ENGINEERING - AUTOMATION |
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Automation (ancient Greek: = self dictated) or industrial automation or numerical control is the use of control systems such as computers to control industrial machinery and processes, replacing human operators. In the scope of industrialization, it is a step beyond mechanization, where human operators are provided with machinery to assist them with the physical requirements of work.
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ENGINEERING - INSTRUMENTATION |
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Instrumentation Engineering is a discipline relying on connecting multiple disciplines of engineering.
Measurement and controls, the two facets of instrumentation, have brought technology to an unprecedented degree of precision. Instrumentation enables the measurement of various variables such as flow and pressure. Control works to keep these variables at a desired level of safe, economic and other constrained values. Instrument engineers usually have degrees in chemical engineering, electrical engineering, or mechanical engineering and sometimes in the newer field of control systems engineering.
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INDUSTRIAL AUTOMATION |
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Automation (ancient Greek: = self dictated) or industrial automation or numerical control is the use of control systems such as computers to control industrial machinery and processes, replacing human operators. In the scope of industrialization, it is a step beyond mechanization. Whereas mechanization provided human operators with machinery to assist them with the physical requirements of work, automation greatly reduces the need for human sensory and mental requirements as well.
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QUALITY ASSURANCE |
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In engineering and manufacturing, quality control and quality engineering are involved in developing systems to ensure products or services are designed and produced to meet or exceed customer requirements and expectations. These systems are often developed in conjunction with other business and engineering disciplines using a cross-functional approach.
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