Investigation of Multimodal Features, Classifiers and Fusion Methods for Emotion Recognition
This work addresses emotion recognition for human-computer interaction applications, but it is incremental, building on existing methods with minor improvements.
The authors tackled emotion recognition from audio-video clips by developing a multimodal system using handcrafted and deep bottleneck features, achieving 60.34% accuracy on a benchmark dataset, which was competitive but slightly below the winner.
Automatic emotion recognition is a challenging task. In this paper, we present our effort for the audio-video based sub-challenge of the Emotion Recognition in the Wild (EmotiW) 2018 challenge, which requires participants to assign a single emotion label to the video clip from the six universal emotions (Anger, Disgust, Fear, Happiness, Sad and Surprise) and Neutral. The proposed multimodal emotion recognition system takes audio, video and text information into account. Except for handcraft features, we also extract bottleneck features from deep neutral networks (DNNs) via transfer learning. Both temporal classifiers and non-temporal classifiers are evaluated to obtain the best unimodal emotion classification result. Then possibilities are extracted and passed into the Beam Search Fusion (BS-Fusion). We test our method in the EmotiW 2018 challenge and we gain promising results. Compared with the baseline system, there is a significant improvement. We achieve 60.34% accuracy on the testing dataset, which is only 1.5% lower than the winner. It shows that our method is very competitive.