By transferring knowledge from large, diverse, task-agnostic datasets, modern machine learning models can solve specific downstream tasks either zero-shot or with small task-specific datasets to a high level of performance. While this capability has been demonstrated in other fields such as computer vision, natural language processing or speech recognition, it remains to be shown in robotics, where the generalization capabilities of the models are particularly critical due to the difficulty of collecting real-world robotic data. We argue that one of the keys to the success of such general robotic models lies with open-ended task-agnostic training, combined with high-capacity architectures that can absorb all of the diverse, robotic data. In this paper, we present a model class, dubbed Robotics Transformer, that exhibits promising scalable model properties. We verify our conclusions in a study of different model classes and their ability to generalize as a function of the data size, model size, and data diversity based on a large-scale data collection on real robots performing real-world tasks. The project's website and videos can be found at robotics-transformer.github.io
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2022-11-24
The 1$^{\text{st}}$ Workshop on Maritime Computer Vision (MaCVi) 2023 focused on maritime computer vision for Unmanned Aerial Vehicles (UAV) and Unmanned Surface Vehicle (USV), and organized several subchallenges in this domain: (i) UAV-based Maritime Object Detection, (ii) UAV-based Maritime Object Tracking, (iii) USV-based Maritime Obstacle Segmentation and (iv) USV-based Maritime Obstacle Detection. The subchallenges were based on the SeaDronesSee and MODS benchmarks. This report summarizes the main findings of the individual subchallenges and introduces a new benchmark, called SeaDronesSee Object Detection v2, which extends the previous benchmark by including more classes and footage. We provide statistical and qualitative analyses, and assess trends in the best-performing methodologies of over 130 submissions. The methods are summarized in the appendix. The datasets, evaluation code and the leaderboard are publicly available at https://seadronessee.cs.uni-tuebingen.de/macvi.
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Large language models (LLMs) have been shown to be able to perform new tasks based on a few demonstrations or natural language instructions. While these capabilities have led to widespread adoption, most LLMs are developed by resource-rich organizations and are frequently kept from the public. As a step towards democratizing this powerful technology, we present BLOOM, a 176B-parameter open-access language model designed and built thanks to a collaboration of hundreds of researchers. BLOOM is a decoder-only Transformer language model that was trained on the ROOTS corpus, a dataset comprising hundreds of sources in 46 natural and 13 programming languages (59 in total). We find that BLOOM achieves competitive performance on a wide variety of benchmarks, with stronger results after undergoing multitask prompted finetuning. To facilitate future research and applications using LLMs, we publicly release our models and code under the Responsible AI License.
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Language models (LMs) now excel at many tasks such as few-shot learning, question answering, reasoning, and dialog. However, they sometimes generate unsupported or misleading content. A user cannot easily determine whether their outputs are trustworthy or not, because most LMs do not have any built-in mechanism for attribution to external evidence. To enable attribution while still preserving all the powerful advantages of recent generation models, we propose RARR (Retrofit Attribution using Research and Revision), a system that 1) automatically finds attribution for the output of any text generation model and 2) post-edits the output to fix unsupported content while preserving the original output as much as possible. When applied to the output of several state-of-the-art LMs on a diverse set of generation tasks, we find that RARR significantly improves attribution while otherwise preserving the original input to a much greater degree than previously explored edit models. Furthermore, the implementation of RARR requires only a handful of training examples, a large language model, and standard web search.
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We present a retrospective on the state of Embodied AI research. Our analysis focuses on 13 challenges presented at the Embodied AI Workshop at CVPR. These challenges are grouped into three themes: (1) visual navigation, (2) rearrangement, and (3) embodied vision-and-language. We discuss the dominant datasets within each theme, evaluation metrics for the challenges, and the performance of state-of-the-art models. We highlight commonalities between top approaches to the challenges and identify potential future directions for Embodied AI research.
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尽管进行了数十年的研究,但现有的导航系统在野外部署时仍然面临现实世界中的挑战,例如在混乱的家庭环境或人类占领的公共场所中。为了解决这个问题,我们提出了一类新的隐式控制政策,将模仿学习的好处与模型预测控制(MPC)的系统约束的强大处理结合在一起。我们的方法称为Performer-MPC,使用了通过表演者提供的视觉上下文嵌入的学习成本函数(一种低级隐式意见变压器)。我们共同训练成本函数并构建依靠它的控制器,有效地端到端解决相应的双层优化问题。我们表明,由此产生的策略通过利用一些在不同挑战的现实世界情景中利用一些专家演示来提高标准MPC绩效。与标准的MPC政策相比,表演者MPC在混乱的环境中实现了40%的目标,而在人类浏览时,社交指标的目标> 65%。
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随着机器人越来越多地进入以人为本的环境,他们不仅必须能够在人类周围安全地浏览,还必须遵守复杂的社会规范。人类通常在围绕他人围绕他人(尤其是在密集占据的空间中)时,通常通过手势和面部表情依靠非语言交流。因此,机器人还需要能够将手势解释为解决社会导航任务的一部分。为此,我们提出了一种新型的社会导航方法,将基于图像的模仿学习与模型预测性控制结合在一起。手势是基于在图像流中运行的神经网络来解释的,而我们使用最先进的模型预测控制算法来求解点对点导航任务。我们将方法部署在真实的机器人上,并展示我们的方法对四个手势游动场景的有效性:左/右,跟随我,然后圈出一个圆圈。我们的实验表明,我们的方法能够成功地解释复杂的人类手势,并将其用作信号,以生成具有社会符合性的导航任务的轨迹。我们基于与机器人相互作用的参与者的原位等级验证了我们的方法。
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2022-04-04
大型语言模型可以编码有关世界的大量语义知识。这种知识对于旨在采取自然语言表达的高级,时间扩展的指示的机器人可能非常有用。但是,语言模型的一个重大弱点是,它们缺乏现实世界的经验,这使得很难利用它们在给定的体现中进行决策。例如,要求语言模型描述如何清洁溢出物可能会导致合理的叙述,但是它可能不适用于需要在特定环境中执行此任务的特定代理商(例如机器人)。我们建议通过预处理的技能来提供现实世界的基础,这些技能用于限制模型以提出可行且在上下文上适当的自然语言动作。机器人可以充当语言模型的“手和眼睛”,而语言模型可以提供有关任务的高级语义知识。我们展示了如何将低级技能与大语言模型结合在一起,以便语言模型提供有关执行复杂和时间扩展说明的过程的高级知识,而与这些技能相关的价值功能则提供了连接必要的基础了解特定的物理环境。我们在许多现实世界的机器人任务上评估了我们的方法,我们表明了对现实世界接地的需求,并且这种方法能够在移动操纵器上完成长远,抽象的自然语言指令。该项目的网站和视频可以在https://say-can.github.io/上找到。
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我们调查了一定类别的功能不等式,称为弱Poincar的不等式,以使Markov链的收敛性与均衡相结合。我们表明,这使得SubGoom测量收敛界的直接和透明的推导出用于独立的Metropolis - Hastings采样器和用于棘手似然性的伪边缘方法,后者在许多实际设置中是子表芯。这些结果依赖于马尔可夫链之间的新量化比较定理。相关证据比依赖于漂移/较小化条件的证据更简单,并且所开发的工具允许我们恢复并进一步延长特定情况的已知结果。我们能够为伪边缘算法的实际使用提供新的见解,分析平均近似贝叶斯计算(ABC)的效果以及独立平均值的产品,以及研究与之相关的逻辑重量的情况粒子边缘大都市 - 黑斯廷斯(PMMH)。
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可拍照的分子显示了可以使用光访问的两个或多个异构体形式。将这些异构体的电子吸收带分开是选择性解决特定异构体并达到高光稳态状态的关键,同时总体红色转移带来的吸收带可以限制因紫外线暴露而限制材料损害,并增加了光疗法应用中的渗透深度。但是,通过合成设计将这些属性工程为系统仍然是一个挑战。在这里,我们提出了一条数据驱动的发现管道,用于由数据集策划和使用高斯过程的多任务学习支撑的分子照片开关。在对电子过渡波长的预测中,我们证明了使用来自四个Photoswitch转变波长的标签训练的多输出高斯过程(MOGP)产生相对于单任务模型的最强预测性能,并且在操作上超过了时间依赖时间依赖性的密度理论(TD) -dft)就预测的墙壁锁定时间而言。我们通过筛选可商购的可拍摄分子库来实验验证我们提出的方法。通过此屏幕,我们确定了几个图案,这些基序显示了它们的异构体的分离电子吸收带,表现出红移的吸收,并且适用于信息传输和光电学应用。我们的策划数据集,代码以及所有型号均可在https://github.com/ryan-rhys/the-photoswitch-dataset上提供
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