Litcius/Paper detail

Optimal processing of surface facial EMG to identify emotional expressions: A data-driven approach

Joanna M. Rutkowska, Tecla Ghilardi, Stefania V. Vacaru, Johanna E. van Schaik, Marlene Meyer, Sabine Hunnius, Robert Oostenveld

2024Behavior Research Methods17 citationsDOIOpen Access PDF

Abstract

Surface facial electromyography (EMG) is commonly used to detect emotions from subtle facial expressions. Although there are established procedures for collecting EMG data and some aspects of their processing, there is little agreement among researchers about the optimal way to process the EMG signal, so that the study-unrelated variability (noise) is removed, and the emotion-related variability is best detected. The aim of the current paper was to establish an optimal processing pipeline for EMG data for identifying emotional expressions in facial muscles. We identified the most common processing steps from existing literature and created 72 processing pipelines that represented all the different processing choices. We applied these pipelines to a previously published dataset from a facial mimicry experiment, where 100 adult participants observed happy and sad facial expressions, whilst the activity of their facial muscles, zygomaticus major and corrugator supercilii, was recorded with EMG. We used a resampling approach and subsets of the original data to investigate the effect and robustness of different processing choices on the performance of a logistic regression model that predicted the mimicked emotion (happy/sad) from the EMG signal. In addition, we used a random forest model to identify the most important processing steps for the sensitivity of the logistic regression model. Three processing steps were found to be most impactful: baseline correction, standardisation within muscles, and standardisation within subjects. The chosen feature of interest and the signal averaging had little influence on the sensitivity to the effect. We recommend an optimal processing pipeline, share our code and data, and provide a step-by-step walkthrough for researchers.

Topics & Concepts

Facial expressionComputer scienceFacial electromyographySurface (topology)Speech recognitionArtificial intelligencePattern recognition (psychology)PsychologyCognitive psychologyMathematicsGeometryGaze Tracking and Assistive TechnologyEmotion and Mood RecognitionMuscle activation and electromyography studies