Instrumentation and Control engineering is one of the most challenging branches of engineering and offers a very bright career for its aspirants. It is an extension of electronics and fluid dynamics.

This course applies fundamental instrumentation and control engineering principles to oil and gas facilities design and operation and is designed for Facilities Engineers with or without a background ...

This publication serves as a high-level introduction to systems engineering for instrumentation and control at nuclear facilities. Systems engineering is a holistic, interdisciplinary and cooperative ...

Kurien Isaac, Senior Professor, Indian Institute of Space Science and Technology, Thiruvananthapuram, highlighted the importance of instrumentation and control engineering in space technologies such ...

The power generation industry is constantly evolving, with advanced technologies becoming more ubiquitous in power plants. Along with this evolution, instrumentation and control equipment continues to ...

Experts and novices alike can use a helping hand when making measurements. Many test-and-measurement companies offer software tools with their instruments, helping to speed instrument setup and avoid ...

Safety, reliability, and productivity in the nuclear industry result from a systematic consideration of human performance. A plant or other facility consists of both the engineered system and the ...

There are many books and articles on the Fourier Transform and its implementation available. A quick survey of these resources shows that they are not geared to the needs of the “Practicing ...

IEEE 1687 is an active IEEE standard that defines a way to access monitoring data inside an integrated circuit using the IEEE 1149.1 test access port (TAP) or other additional means. The standard does ...

Python is powerful, extendable, intuitive programming language that you can use to automate test equipment. PyVISA is one of Python’s many libraries that extend its power to communicate with ...