开放程序代表全球手术的主要形式。人工智能(AI)有可能优化手术实践并改善患者结果,但努力主要集中在微创技术上。我们的工作通过策划,从YouTube,从YouTube,Open Surgical视频的最大数据集克服了培训AI模型的现有数据限制:1997年从50个国家上传的23个外科手术的视频。使用此数据集,我们开发了一种能够实时了解外科行为,手和工具的多任务AI模型 - 程序流程和外科医生技能的构建块。我们表明我们的模型推广了各种外科类型和环境。说明这种普遍性,我们直接应用了YouTube培训的模型,分析了在学术医疗中心前瞻性收集的开放式手术,并确定了与手动效率相关的外科技能的运动学描述符。我们的开放外科(AVOS)数据集和培训模式的注释视频将可用于进一步发展外科艾。
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Story generation and understanding -- as with all NLG/NLU tasks -- has seen a surge in neurosymbolic work. Researchers have recognized that, while large language models (LLMs) have tremendous utility, they can be augmented with symbolic means to be even better and to make up for any flaws that the neural networks might have. However, symbolic methods are extremely costly in terms of the amount of time and expertise needed to create them. In this work, we capitalize on state-of-the-art Code-LLMs, such as Codex, to bootstrap the use of symbolic methods for tracking the state of stories and aiding in story understanding. We show that our CoRRPUS system and abstracted prompting procedures can beat current state-of-the-art structured LLM techniques on pre-existing story understanding tasks (bAbI task 2 and Re^3) with minimal hand engineering. We hope that this work can help highlight the importance of symbolic representations and specialized prompting for LLMs as these models require some guidance for performing reasoning tasks properly.
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Since early in the coronavirus disease 2019 (COVID-19) pandemic, there has been interest in using artificial intelligence methods to predict COVID-19 infection status based on vocal audio signals, for example cough recordings. However, existing studies have limitations in terms of data collection and of the assessment of the performances of the proposed predictive models. This paper rigorously assesses state-of-the-art machine learning techniques used to predict COVID-19 infection status based on vocal audio signals, using a dataset collected by the UK Health Security Agency. This dataset includes acoustic recordings and extensive study participant meta-data. We provide guidelines on testing the performance of methods to classify COVID-19 infection status based on acoustic features and we discuss how these can be extended more generally to the development and assessment of predictive methods based on public health datasets.
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Quantifying motion in 3D is important for studying the behavior of humans and other animals, but manual pose annotations are expensive and time-consuming to obtain. Self-supervised keypoint discovery is a promising strategy for estimating 3D poses without annotations. However, current keypoint discovery approaches commonly process single 2D views and do not operate in the 3D space. We propose a new method to perform self-supervised keypoint discovery in 3D from multi-view videos of behaving agents, without any keypoint or bounding box supervision in 2D or 3D. Our method uses an encoder-decoder architecture with a 3D volumetric heatmap, trained to reconstruct spatiotemporal differences across multiple views, in addition to joint length constraints on a learned 3D skeleton of the subject. In this way, we discover keypoints without requiring manual supervision in videos of humans and rats, demonstrating the potential of 3D keypoint discovery for studying behavior.
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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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开发有效的自动分类器将真实来源与工件分开,对于宽场光学调查的瞬时随访至关重要。在图像差异过程之后,从减法伪像的瞬态检测鉴定是此类分类器的关键步骤,称为真实 - 博格斯分类问题。我们将自我监督的机器学习模型,深入的自组织地图(DESOM)应用于这个“真实的模拟”分类问题。 DESOM结合了自动编码器和一个自组织图以执行聚类,以根据其维度降低的表示形式来区分真实和虚假的检测。我们使用32x32归一化检测缩略图作为底部的输入。我们展示了不同的模型训练方法,并发现我们的最佳DESOM分类器显示出6.6%的检测率,假阳性率为1.5%。 Desom提供了一种更细微的方法来微调决策边界,以确定与其他类型的分类器(例如在神经网络或决策树上构建的)结合使用时可能进行的实际检测。我们还讨论了DESOM及其局限性的其他潜在用法。
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2022-07-21
现实世界的行为通常是由多种代理之间复杂的相互作用来塑造的。为了可靠地研究多代理行为,无监督和自我监督的学习的进步使从轨迹数据中学到了各种不同的行为表示。迄今为止,还没有一组统一的基准测试,可以在广泛的行为分析设置中进行定量和系统地比较方法。我们的目的是通过引入来自现实世界行为神经科学实验的大规模,多代理轨迹数据集来解决这一问题,该数据集涵盖了一系列行为分析任务。我们的数据集由来自通用模型生物的轨迹数据组成,其中有960万帧的小鼠数据和440万帧的飞行数据,在各种实验环境中,例如不同的菌株,相互作用的长度和光遗传学刺激。框架的子集还包括专家注销的行为标签。我们数据集的改进对应于跨多种生物的行为表示,并能够捕获常见行为分析任务的差异。
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切割平面对于解决混合企业线性问题(MILP)至关重要,因为它们促进了最佳解决方案值的界限。为了选择切割,现代求解器依靠手动设计的启发式方法来评估切割的潜在有效性。我们表明,一项贪婪的选择规则明确地寻求选择的剪裁,从而产生最佳的界限可以为切割选择提供强大的决策 - 但太贵了,无法在实践中部署。作为回应,我们提出了一种新的神经体系结构(神经曲),以模仿LookAhead专家。我们的模型优于标准基准,用于在几个合成的MILP基准上进行切割选择。使用B&C求解器进行神经网络验证的实验进一步验证了我们的方法,并在这种情况下展示了学习方法的潜力。
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离散状态空间代表了对统计推断的主要计算挑战,因为归一化常数的计算需要在大型或可能的无限集中进行求和,这可能是不切实际的。本文通过开发适合离散可怜的可能性的新型贝叶斯推理程序来解决这一计算挑战。受到连续数据的最新方法学进步的启发,主要思想是使用离散的Fisher Divergence更新有关模型参数的信念,以代替有问题的棘手的可能性。结果是可以使用标准计算工具(例如Markov Chain Monte Carlo)进行采样的广义后部,从而规避了棘手的归一化常数。分析了广义后验的统计特性,并具有足够的后验一致性和渐近正态性的条件。此外,提出了一种新颖的通用后代校准方法。应用程序在离散空间数据的晶格模型和计数数据的多元模型上介绍,在每种情况下,方法论都以低计算成本促进通用的贝叶斯推断。
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语言模型既展示了定量的改进,又展示了新的定性功能,随着规模的增加。尽管它们具有潜在的变革性影响,但这些新能力的特征却很差。为了为未来的研究提供信息,为破坏性的新模型能力做准备,并改善社会有害的效果,至关重要的是,我们必须了解目前和近乎未来的能力和语言模型的局限性。为了应对这一挑战,我们介绍了超越模仿游戏基准(Big Bench)。 Big Bench目前由204个任务组成,由132家机构的442位作者贡献。任务主题是多样的,从语言学,儿童发展,数学,常识性推理,生物学,物理学,社会偏见,软件开发等等。 Big-Bench专注于被认为超出当前语言模型的功能的任务。我们评估了OpenAI的GPT型号,Google内部密集变压器体系结构和大型基础上的开关稀疏变压器的行为,跨越了数百万到数十亿个参数。此外,一个人类专家评估者团队执行了所有任务,以提供强大的基准。研究结果包括:模型性能和校准都随规模改善,但绝对的术语(以及与评估者的性能相比);在模型类中的性能非常相似,尽管带有稀疏性。逐渐和预测的任务通常涉及大量知识或记忆成分,而在临界规模上表现出“突破性”行为的任务通常涉及多个步骤或组成部分或脆性指标;社交偏见通常会随着含糊不清的环境而随着规模而增加,但这可以通过提示来改善。
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