计算机科学
人工智能
障碍物
分割
计算机视觉
特征(语言学)
编码器
先验概率
接头(建筑物)
对偶(语法数字)
图像分割
面子(社会学概念)
模式识别(心理学)
编码(内存)
补语(音乐)
特征向量
机器人
边界(拓扑)
基本事实
语义特征
特征提取
语义学(计算机科学)
学习迁移
作者
Youqi Song,Wenqi Li,Zhao Zhang,Yu Wu,Zilong Jin,Changbo Wang,Gaoqi He
标识
DOI:10.1109/iros60139.2025.11246881
摘要
Accurate semantic segmentation of both tactile paving and the obstacle is crucial for the safe mobility of visually impaired individuals. However, existing methods face two major challenges: (i) discontinuous segmentation fragments; (ii) Inaccurate obstacle recognition. To address challenge (i), we propose incorporating appearance priors of complete tactile pavings to prevent the model from directly learning irregular ground truth masks. To tackle challenge (ii), we propose introducing cross-modal semantic priors to complement the semantic information of obstacles. We implemented these strategies in proposed Dual Prior knowledge induced tactile paving and obstacle joint Segmentation Network (DPSN). Based on bilateral network architecture, DPSN merges obstacle category masks into tactile paving categories, constructing a complete tactile paving mask. Utilizing the complete mask, DPSN transfer appearance prior knowledge to detail features from boundary and structural perspectives. Concurrently, DPSN leverages the CLIP Text Encoder to guide visual feature decoding by attention mechanisms, transferring rich cross-modal semantic prior knowledge to the visual feature maps. Furthermore, we propose the TPO-Dataset, the first dataset for joint tactile paving and obstacle segmentation acquired from actual scenes. Experiments demonstrate that DPSN achieves state-of-the-art results on the TPO-Dataset, with relative gains of 27.16% in obstacle IoU and 30.53% in accuracy metrics compared to baseline methods. Notably, DPSN achieves real-time performance at 88.25 FPS on the maximum scale of 2048×512 resolution.
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