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   https://doi.org/10.1109/ICRA48506.2021.9561961  

   Xiong, Xiaobin; Reher, Jenna; Ames, Aaron D. (May 2021, IEEE International Conference on Robotics and Automation (ICRA 2021))
2. Interactive Text-to-SQL Generation via Editable Step-by-Step Explanations

   https://doi.org/10.18653/v1/2023.emnlp-main.1004  

   Tian, Yuan; Zhang, Zheng; Ning, Zheng; Li, Toby; Kummerfeld, Jonathan; Zhang, Tianyi (December 2023, Association for Computational Linguistics)

   Relational databases play an important role in business, science, and more. However, many users cannot fully unleash the analytical power of relational databases, because they are not familiar with database languages such as SQL. Many techniques have been proposed to automatically generate SQL from natural language, but they suffer from two issues: (1) they still make many mistakes, particularly for complex queries, and (2) they do not provide a flexible way for non-expert users to validate and refine incorrect queries. To address these issues, we introduce a new interaction mechanism that allows users to directly edit a step-by-step explanation of a query to fix errors. Our experiments on multiple datasets, as well as a user study with 24 participants, demonstrate that our approach can achieve better performance than multiple SOTA approaches. 

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3. Data-Driven Adaptation for Robust Bipedal Locomotion with Step-to-Step Dynamics

   https://doi.org/10.1109/IROS55552.2023.10341396  

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5. When cats need to see to step accurately?

   https://doi.org/10.1113/JP282255  

   Volgushev, Maxim; Nguyen, Celina T.; Iyer, Gautam S.; Beloozerova, Irina N. (December 2021, The Journal of Physiology)

   Locomotion on complex terrains often requires vision. However, how vision serves locomotion is not well understood. Here, we asked when visual information necessary for accurate stepping is collected and how its acquisition relates to the step cycle. In cats of both sexes, we showed that a brief (200–400 ms) interruption of visual input can rapidly influence cat’s walking along a horizontal ladder. Depending on the phase within the step cycle, a 200 ms period of darkness could be tolerated fully without any changes to the strides or could lead to minor increases of stride duration. The effects of 300–400 ms of visual input denial, which typically prolonged stances and/or swings, also depended on the phase of the darkness onset. The increase of the duration of strides was always shorter than the duration of darkness. We conclude that visual information for planning a swing is collected starting from the middle of the preceding stance until the beginning of the current swing. For a stance (and/or a swing of the other paw), visual information is collected starting from the end of the previous stance and until the middle of the current stance. Acquisition of visual information during these windows is not uniform but depends on the phase of the step cycle. Notably, both the extension of these windows and their non-homogeneity are closely related to the pattern of gaze behaviour in cats, described previously. This new knowledge will help to guide research and understanding of neuronal mechanisms of visuomotor integration and modulation of visual function by strides during locomotion. 

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