DC7: In-situ evaluation of the EMI footprint of large interconnected systems

Project: In-situ evaluation of the EMI footprint of large interconnected systems (WP2)

Host institution: TU/e (Netherlands)

Supervisor: Anne Roc’h (TU/e, Netherlands)

Co-supervisor(s): Guus Pemen (TU/e, Netherlands), Guillaume Andrieu (Unilim, France), Wim Ophelders (Canon, Netherlands)

Objectives:

1. Advance the concept of the EMI footprint to in-situ evaluations for complex interconnected systems.
2. Explore advanced measurement setups such as the Vibrating Intrinsic Reverberation Chamber (VIRC), near-field scanning and distributed sensing.
3. Incorporate cutting-edge algorithms, including machine learning, to the EMI footprint.

Expected Results:

1. Comprehensive framework for evaluating the EMI footprint in complex interconnected systems.
2. Providing engineers with more detailed and accurate information about the electromagnetic characteristics of products in real-world environments.

Planned secondment(s):

1. Academic secondment: UNILIM, Guillaume Andrieu, M17-M19, 2M, EMI footprints using reverberation chambers.
2. Industrial secondment: Canon, Wim Ophelders, M30-M32, 2M, EMI footprints of consumer devices such as a printer

Enrolment in Doctoral degree: TU/e (Netherlands)

 

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