Bootstrapping Sign Language Annotations with Sign Language Models
This work addresses the problem of costly annotation for sign language datasets, enabling better utilization of existing resources for researchers and developers in AI-driven sign language interpretation.
The paper tackles the lack of high-quality annotated data for sign language interpretation by developing a pseudo-annotation pipeline that generates likely annotations from signed video and English input, achieving state-of-the-art results such as 6.7% CER on FSBoard and 74% top-1 accuracy on ASL Citizen datasets.
AI-driven sign language interpretation is limited by a lack of high-quality annotated data. New datasets including ASL STEM Wiki and FLEURS-ASL contain professional interpreters and 100s of hours of data but remain only partially annotated and thus underutilized, in part due to the prohibitive costs of annotating at this scale. In this work, we develop a pseudo-annotation pipeline that takes signed video and English as input and outputs a ranked set of likely annotations, including time intervals, for glosses, fingerspelled words, and sign classifiers. Our pipeline uses sparse predictions from our fingerspelling recognizer and isolated sign recognizer (ISR), along with a K-Shot LLM approach, to estimate these annotations. In service of this pipeline, we establish simple yet effective baseline fingerspelling and ISR models, achieving state-of-the-art on FSBoard (6.7% CER) and on ASL Citizen datasets (74% top-1 accuracy). To validate and provide a gold-standard benchmark, a professional interpreter annotated nearly 500 videos from ASL STEM Wiki with sequence-level gloss labels containing glosses, classifiers, and fingerspelling signs. These human annotations and over 300 hours of pseudo-annotations are being released in supplemental material.