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Non-invasive radio frequency (RF)-driven in-process monitoring and control for enhancing micro-electrical discharge machining stability and efficiency

Zequan Yao, Ming Wu, Jun Qian, Dominiek Reynaerts

2026Mechanical Systems and Signal Processing9 citationsDOI

Topics & Concepts

MachiningElectrical discharge machiningServoServo controlComputer scienceAdaptive controlProcess (computing)EngineeringStability (learning theory)Radio frequencyReliability (semiconductor)Control engineeringRepresentation (politics)Feature (linguistics)Transient (computer programming)Electronic engineeringStatistical process controlVoltageControl theory (sociology)ServomechanismInstrumentation (computer programming)Steady state (chemistry)Control systemArtificial neural networkProcess stateModel predictive controlRobotProcess controlServo driveAdvanced Machining and Optimization TechniquesAdvanced machining processes and optimizationEnergy Efficiency and Management
Non-invasive radio frequency (RF)-driven in-process monitoring and control for enhancing micro-electrical discharge machining stability and efficiency | Litcius