最近的视听导航工作是无噪音音频环境中的单一静态声音，并努力推广到闻名声音。我们介绍了一种新型动态视听导航基准测试，其中一个体现的AI代理必须在存在分散的人和嘈杂的声音存在下在未映射的环境中捕获移动声源。我们提出了一种依赖于多模态架构的端到端增强学习方法，该方法依赖于融合来自双耳音频信号和空间占用映射的空间视听信息，以编码为我们的新的稳健导航策略进行编码所需的功能复杂的任务设置。我们展示了我们的方法优于当前的最先进状态，以更好地推广到闻名声音以及对嘈杂的3D扫描现实世界数据集副本和TASTPORT3D上的嘈杂情景更好地对嘈杂的情景进行了更好的稳健性，以实现静态和动态的视听导航基准。我们的小型基准将在http://dav-nav.cs.uni-freiburg.de提供。

视听导航将视觉和听觉结合在未映射的环境中导航到声音源。虽然最近的方法已经证明了音频输入的好处，以检测和找到目标，他们专注于干净和静态的声源，并努力推广到闻名声音。在这项工作中，我们提出了新的动态视听导航基准，该基准测试基准测试，该基准要求在具有嘈杂和分散注意力的环境中捕捉环境中的移动声源。我们介绍了一种钢筋学习方法，用于为这些复杂设置学习强大的导航策略。为此，我们提出了一种架构，其融合空间特征空间中的视听信息，以学习本地地图和音频信号中固有的几何信息的相关性。我们展示了我们的方法在两个挑战的3D扫描的真实世界环境中，我们的方法始终如一地占据了所有权力，闻名声音和嘈杂环境的所有任务的大型余量。该基准测试是在http://dav-nav.cs.uni-freiburg.de上获得的。

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.

我们探索动态声源的主动音频分离，其中体现的代理在3D环境中智能移动，以连续隔离感兴趣的对象发出的随时间变化的音频流。该经纪人听到了多种音频来源的混杂流（例如，在嘈杂的派对上演奏音乐和乐队的乐队）。考虑到有限的时间预算，它需要使用以自我为中心的视听观察来准确地提取目标声音。我们提出了一种配备新型变压器记忆的增强式学习代理，该学习者学习运动策略，以控制其相机和麦克风以恢复动态目标音频，并使用自我意见来对当前时间段进行高质量的估计，并同时改善其过去的估计。使用在现实世界扫描的Matterport3D环境中使用高度现实的声音空间模拟，我们表明我们的模型能够学习有效的行为，以进行动态音频目标的连续分离。项目：https：//vision.cs.utexas.edu/projects/active-av-dynamic-separation/。

从“Internet AI”的时代到“体现AI”的时代，AI算法和代理商出现了一个新兴范式转变，其中不再从主要来自Internet策划的图像，视频或文本的数据集。相反，他们通过与与人类类似的Enocentric感知来通过与其环境的互动学习。因此，对体现AI模拟器的需求存在大幅增长，以支持各种体现的AI研究任务。这种越来越多的体现AI兴趣是有利于对人工综合情报（AGI）的更大追求，但对这一领域并无一直存在当代和全面的调查。本文旨在向体现AI领域提供百科全书的调查，从其模拟器到其研究。通过使用我们提出的七种功能评估九个当前体现的AI模拟器，旨在了解模拟器，以其在体现AI研究和其局限性中使用。最后，本文调查了体现AI - 视觉探索，视觉导航和体现问题的三个主要研究任务（QA），涵盖了最先进的方法，评估指标和数据集。最后，随着通过测量该领域的新见解，本文将为仿真器 - 任务选择和建议提供关于该领域的未来方向的建议。

对象看起来和声音的方式提供了对其物理特性的互补反射。在许多设置中，视觉和试听的线索都异步到达，但必须集成，就像我们听到一个物体掉落在地板上，然后必须找到它时。在本文中，我们介绍了一个设置，用于研究3D虚拟环境中的多模式对象定位。一个物体在房间的某个地方掉落。配备了摄像头和麦克风的具体机器人剂必须通过将音频和视觉信号与知识的基础物理学结合来确定已删除的对象以及位置。为了研究此问题，我们生成了一个大规模数据集 - 倒下的对象数据集 - 其中包括64个房间中30个物理对象类别的8000个实例。该数据集使用Threedworld平台，该平台可以模拟基于物理的影响声音和在影片设置中对象之间的复杂物理交互。作为解决这一挑战的第一步，我们基于模仿学习，强化学习和模块化计划，开发了一组具体的代理基线，并对这项新任务的挑战进行了深入的分析。

尽管深度强化学习（RL）最近取得了许多成功，但其方法仍然效率低下，这使得在数据方面解决了昂贵的许多问题。我们的目标是通过利用未标记的数据中的丰富监督信号来进行学习状态表示，以解决这一问题。本文介绍了三种不同的表示算法，可以访问传统RL算法使用的数据源的不同子集使用：（i）GRICA受到独立组件分析（ICA）的启发，并训练深层神经网络以输出统计独立的独立特征。输入。 Grica通过最大程度地减少每个功能与其他功能之间的相互信息来做到这一点。此外，格里卡仅需要未分类的环境状态。 （ii）潜在表示预测（LARP）还需要更多的上下文：除了要求状态作为输入外，它还需要先前的状态和连接它们的动作。该方法通过预测当前状态和行动的环境的下一个状态来学习状态表示。预测器与图形搜索算法一起使用。 （iii）重新培训通过训练深层神经网络来学习国家表示，以学习奖励功能的平滑版本。该表示形式用于预处理输入到深度RL，而奖励预测指标用于奖励成型。此方法仅需要环境中的状态奖励对学习表示表示。我们发现，每种方法都有其优势和缺点，并从我们的实验中得出结论，包括无监督的代表性学习在RL解决问题的管道中可以加快学习的速度。

We present Habitat, a platform for research in embodied artificial intelligence (AI). Habitat enables training embodied agents (virtual robots) in highly efficient photorealistic 3D simulation. Specifically, Habitat consists of: (i) Habitat-Sim: a flexible, high-performance 3D simulator with configurable agents, sensors, and generic 3D dataset handling. Habitat-Sim is fast -when rendering a scene from Matterport3D, it achieves several thousand frames per second (fps) running single-threaded, and can reach over 10,000 fps multi-process on a single GPU. (ii) Habitat-API: a modular high-level library for end-toend development of embodied AI algorithms -defining tasks (e.g. navigation, instruction following, question answering), configuring, training, and benchmarking embodied agents.These large-scale engineering contributions enable us to answer scientific questions requiring experiments that were till now impracticable or 'merely' impractical. Specifically, in the context of point-goal navigation: (1) we revisit the comparison between learning and SLAM approaches from two recent works [20,16] and find evidence for the opposite conclusion -that learning outperforms SLAM if scaled to an order of magnitude more experience than previous investigations, and (2) we conduct the first cross-dataset generalization experiments {train, test} × {Matterport3D, Gibson} for multiple sensors {blind, RGB, RGBD, D} and find that only agents with depth (D) sensors generalize across datasets. We hope that our open-source platform and these findings will advance research in embodied AI.

Deep reinforcement learning is poised to revolutionise the field of AI and represents a step towards building autonomous systems with a higher level understanding of the visual world. Currently, deep learning is enabling reinforcement learning to scale to problems that were previously intractable, such as learning to play video games directly from pixels. Deep reinforcement learning algorithms are also applied to robotics, allowing control policies for robots to be learned directly from camera inputs in the real world. In this survey, we begin with an introduction to the general field of reinforcement learning, then progress to the main streams of value-based and policybased methods. Our survey will cover central algorithms in deep reinforcement learning, including the deep Q-network, trust region policy optimisation, and asynchronous advantage actor-critic. In parallel, we highlight the unique advantages of deep neural networks, focusing on visual understanding via reinforcement learning. To conclude, we describe several current areas of research within the field.

Generalisation to unseen contexts remains a challenge for embodied navigation agents. In the context of semantic audio-visual navigation (SAVi) tasks, the notion of generalisation should include both generalising to unseen indoor visual scenes as well as generalising to unheard sounding objects. However, previous SAVi task definitions do not include evaluation conditions on truly novel sounding objects, resorting instead to evaluating agents on unheard sound clips of known objects; meanwhile, previous SAVi methods do not include explicit mechanisms for incorporating domain knowledge about object and region semantics. These weaknesses limit the development and assessment of models' abilities to generalise their learned experience. In this work, we introduce the use of knowledge-driven scene priors in the semantic audio-visual embodied navigation task: we combine semantic information from our novel knowledge graph that encodes object-region relations, spatial knowledge from dual Graph Encoder Networks, and background knowledge from a series of pre-training tasks -- all within a reinforcement learning framework for audio-visual navigation. We also define a new audio-visual navigation sub-task, where agents are evaluated on novel sounding objects, as opposed to unheard clips of known objects. We show improvements over strong baselines in generalisation to unseen regions and novel sounding objects, within the Habitat-Matterport3D simulation environment, under the SoundSpaces task.

With the development of deep representation learning, the domain of reinforcement learning (RL) has become a powerful learning framework now capable of learning complex policies in high dimensional environments. This review summarises deep reinforcement learning (DRL) algorithms and provides a taxonomy of automated driving tasks where (D)RL methods have been employed, while addressing key computational challenges in real world deployment of autonomous driving agents. It also delineates adjacent domains such as behavior cloning, imitation learning, inverse reinforcement learning that are related but are not classical RL algorithms. The role of simulators in training agents, methods to validate, test and robustify existing solutions in RL are discussed.

本文着重于使用回声和RGB图像来感知和导航3D环境。特别是，我们通过将RGB图像与回声融合来执行深度估计，并从多个方向收到。与以前的作品不同，我们超越了RGB的视野，并估算了大量较大环境的密集深度图。我们表明，回声提供了有关补充RGB图像的3D结构的整体且廉价的信息。此外，我们研究了如何在机器人导航中使用回声和广泛的视野深度图。我们使用两组具有挑战性的现实3D环境（副本和Matterport3D）将提出的方法与最近的基线进行比较。将公开提供实施和预培训模型。

我们提出了一种新的四管齐下的方法，在文献中首次建立消防员的情境意识。我们构建了一系列深度学习框架，彼此之叠，以提高消防员在紧急首次响应设置中进行的救援任务的安全性，效率和成功完成。首先，我们使用深度卷积神经网络（CNN）系统，以实时地分类和识别来自热图像的感兴趣对象。接下来，我们将此CNN框架扩展了对象检测，跟踪，分割与掩码RCNN框架，以及具有多模级自然语言处理（NLP）框架的场景描述。第三，我们建立了一个深入的Q学习的代理，免受压力引起的迷失方向和焦虑，能够根据现场消防环境中观察和存储的事实来制定明确的导航决策。最后，我们使用了一种低计算无监督的学习技术，称为张量分解，在实时对异常检测进行有意义的特征提取。通过这些临时深度学习结构，我们建立了人工智能系统的骨干，用于消防员的情境意识。要将设计的系统带入消防员的使用，我们设计了一种物理结构，其中处理后的结果被用作创建增强现实的投入，这是一个能够建议他们所在地的消防员和周围的关键特征，这对救援操作至关重要在手头，以及路径规划功能，充当虚拟指南，以帮助迷彩的第一个响应者恢复安全。当组合时，这四种方法呈现了一种新颖的信息理解，转移和综合方法，这可能会大大提高消防员响应和功效，并降低寿命损失。

在包装交付，交通监控，搜索和救援操作以及军事战斗订婚等不同应用中，对使用无人驾驶汽车（UAV）（无人机）的需求越来越不断增加。在所有这些应用程序中，无人机用于自动导航环境 - 没有人类互动，执行特定任务并避免障碍。自主无人机导航通常是使用强化学习（RL）来完成的，在该学习中，代理在域中充当专家在避免障碍的同时导航环境。了解导航环境和算法限制在选择适当的RL算法以有效解决导航问题方面起着至关重要的作用。因此，本研究首先确定了无人机导航任务，并讨论导航框架和仿真软件。接下来，根据环境，算法特征，能力和不同无人机导航问题的应用程序对RL算法进行分类和讨论，这将帮助从业人员和研究人员为其无人机导航使用情况选择适当的RL算法。此外，确定的差距和机会将推动无人机导航研究。

Development of navigation algorithms is essential for the successful deployment of robots in rapidly changing hazardous environments for which prior knowledge of configuration is often limited or unavailable. Use of traditional path-planning algorithms, which are based on localization and require detailed obstacle maps with goal locations, is not possible. In this regard, vision-based algorithms hold great promise, as visual information can be readily acquired by a robot's onboard sensors and provides a much richer source of information from which deep neural networks can extract complex patterns. Deep reinforcement learning has been used to achieve vision-based robot navigation. However, the efficacy of these algorithms in environments with dynamic obstacles and high variation in the configuration space has not been thoroughly investigated. In this paper, we employ a deep Dyna-Q learning algorithm for room evacuation and obstacle avoidance in partially observable environments based on low-resolution raw image data from an onboard camera. We explore the performance of a robotic agent in environments containing no obstacles, convex obstacles, and concave obstacles, both static and dynamic. Obstacles and the exit are initialized in random positions at the start of each episode of reinforcement learning. Overall, we show that our algorithm and training approach can generalize learning for collision-free evacuation of environments with complex obstacle configurations. It is evident that the agent can navigate to a goal location while avoiding multiple static and dynamic obstacles, and can escape from a concave obstacle while searching for and navigating to the exit.

Adequately assigning credit to actions for future outcomes based on their contributions is a long-standing open challenge in Reinforcement Learning. The assumptions of the most commonly used credit assignment method are disadvantageous in tasks where the effects of decisions are not immediately evident. Furthermore, this method can only evaluate actions that have been selected by the agent, making it highly inefficient. Still, no alternative methods have been widely adopted in the field. Hindsight Credit Assignment is a promising, but still unexplored candidate, which aims to solve the problems of both long-term and counterfactual credit assignment. In this thesis, we empirically investigate Hindsight Credit Assignment to identify its main benefits, and key points to improve. Then, we apply it to factored state representations, and in particular to state representations based on the causal structure of the environment. In this setting, we propose a variant of Hindsight Credit Assignment that effectively exploits a given causal structure. We show that our modification greatly decreases the workload of Hindsight Credit Assignment, making it more efficient and enabling it to outperform the baseline credit assignment method on various tasks. This opens the way to other methods based on given or learned causal structures.

这项工作研究了图像目标导航问题，需要通过真正拥挤的环境引导具有嘈杂传感器和控制的机器人。最近的富有成效的方法依赖于深度加强学习，并学习模拟环境中的导航政策，这些环境比真实环境更简单。直接将这些训练有素的策略转移到真正的环境可能非常具有挑战性甚至危险。我们用由四个解耦模块组成的分层导航方法来解决这个问题。第一模块在机器人导航期间维护障碍物映射。第二个将定期预测实时地图上的长期目标。第三个计划碰撞命令集以导航到长期目标，而最终模块将机器人正确靠近目标图像。四个模块是单独开发的，以适应真实拥挤的情景中的图像目标导航。此外，分层分解对导航目标规划，碰撞避免和导航结束预测的学习进行了解耦，这在导航训练期间减少了搜索空间，并有助于改善以前看不见的真实场景的概括。我们通过移动机器人评估模拟器和现实世界中的方法。结果表明，我们的方法优于多种导航基线，可以在这些方案中成功实现导航任务。

Transformer, originally devised for natural language processing, has also attested significant success in computer vision. Thanks to its super expressive power, researchers are investigating ways to deploy transformers to reinforcement learning (RL) and the transformer-based models have manifested their potential in representative RL benchmarks. In this paper, we collect and dissect recent advances on transforming RL by transformer (transformer-based RL or TRL), in order to explore its development trajectory and future trend. We group existing developments in two categories: architecture enhancement and trajectory optimization, and examine the main applications of TRL in robotic manipulation, text-based games, navigation and autonomous driving. For architecture enhancement, these methods consider how to apply the powerful transformer structure to RL problems under the traditional RL framework, which model agents and environments much more precisely than deep RL methods, but they are still limited by the inherent defects of traditional RL algorithms, such as bootstrapping and "deadly triad". For trajectory optimization, these methods treat RL problems as sequence modeling and train a joint state-action model over entire trajectories under the behavior cloning framework, which are able to extract policies from static datasets and fully use the long-sequence modeling capability of the transformer. Given these advancements, extensions and challenges in TRL are reviewed and proposals about future direction are discussed. We hope that this survey can provide a detailed introduction to TRL and motivate future research in this rapidly developing field.

为了基于深度加强学习（RL）来增强目标驱动的视觉导航的交叉目标和跨场景，我们将信息理论正则化术语引入RL目标。正则化最大化导航动作与代理的视觉观察变换之间的互信息，从而促进更明智的导航决策。这样，代理通过学习变分生成模型来模拟动作观察动态。基于该模型，代理生成（想象）从其当前观察和导航目标的下一次观察。这样，代理学会了解导航操作与其观察变化之间的因果关系，这允许代理通过比较当前和想象的下一个观察来预测导航的下一个动作。 AI2-Thor框架上的交叉目标和跨场景评估表明，我们的方法在某些最先进的模型上获得了平均成功率的10美元。我们进一步评估了我们的模型在两个现实世界中：来自离散的活动视觉数据集（AVD）和带有TurtleBot的连续现实世界环境中的看不见的室内场景导航。我们证明我们的导航模型能够成功实现导航任务这些情景。视频和型号可以在补充材料中找到。

我们介绍了Soundspaces 2.0，这是一个用于3D环境的基于几何的音频渲染的平台。考虑到现实世界环境的3D网格，Soundspaces可以为从任意麦克风位置捕获的任意声音生成高度逼真的声音。它与现有的3D视觉资产一起支持一系列视听研究任务，例如视听导航，映射，源定位和分离以及声学匹配。与现有资源相比，Soundspaces 2.0具有允许连续的空间采样，对新型环境的概括以及可配置的麦克风和材料属性的优点。据我们所知，这是第一个基于几何的声学模拟，它提供了高忠诚和现实主义，同时也足够快地用于体现学习。我们展示了模拟器的属性，并根据现实世界的音频测量进行了基准性能。此外，通过涵盖具体导航和远场自动语音识别的两个下游任务，突出了后者的SIM2REAL性能。 Soundspaces 2.0可公开使用，以促进对感知系统的更广泛研究，这些系统既可以看到和听到。