HALSIE -- Hybrid Approach to Learning Segmentation by Simultaneously Exploiting Image and Event Modalities

Standard frame-based algorithms fail to retrieve accurate segmentation maps in challenging real-time applications like autonomous navigation, owing to the limited dynamic range and motion blur prevalent in traditional cameras. Event cameras address these limitations by asynchronously detecting changes in per-pixel intensity to generate event streams with high temporal resolution, high dynamic range, and no motion blur. However, event camera outputs cannot be directly used to generate reliable segmentation maps as they only capture information at the pixels in motion. To augment the missing contextual information, we postulate that fusing spatially dense frames with temporally dense events can generate semantic maps with fine-grained predictions. To this end, we propose HALSIE, a hybrid approach to learning segmentation by simultaneously leveraging image and event modalities. To enable efficient learning across modalities, our proposed hybrid framework comprises two input branches, a Spiking Neural Network (SNN) branch and a standard Artificial Neural Network (ANN) branch to process event and frame data respectively, while exploiting their corresponding neural dynamics. Our hybrid network outperforms the state-of-the-art semantic segmentation benchmarks on DDD17 and MVSEC datasets and shows comparable performance on the DSEC-Semantic dataset with upto 33.23$\times$ reduction in network parameters. Further, our method shows upto 18.92$\times$ improvement in inference cost compared to existing SOTA approaches, making it suitable for resource-constrained edge applications.