Improving continuous gesture recognition with spoken prosody

Abstract

Despite recent advances in gesture recognition, reliance on the visual signal alone to classify unrestricted continuous gesticulation is inherently error-prone. Since spontaneous gesticulation is mostly coverbal in nature, there have been some attempts of using speech cues to improve gesture recognition. Some attempts have been made in using speech cues to improve gesture recognition, e.g., keyword-gesture co-analysis. Use of such scheme is burdened by the complexity of natural language understanding. This paper offers a signal-level perspective by exploring prosodic phenomena of spontaneous gesture and speech co-production. We present a computational framework for improving continuous gesture recognition based on two phenomena that capture voluntary (co-articulation) and involuntary (physiological) contributions of prosodic synchronization. Physiological constraints, manifested as signal interruptions in multimodal production, are exploited in an audio-visual feature integration framework using hidden Markov models (HMMs). Co-articulation is analyzed using a Bayesian network of naive classifiers to explore alignment of intonationally prominent speech segments and hand kinematics. The efficacy of the proposed approach was demonstrated on a multimodal corpus created from the Weather Channel broadcast. Both schemas were found to contribute uniquely by reducing different error types, which subsequently improves the performance of continuous gesture recognition.