物理信息的神经网络（PINN）是神经网络（NNS），它们作为神经网络本身的组成部分编码模型方程，例如部分微分方程（PDE）。如今，PINN是用于求解PDE，分数方程，积分分化方程和随机PDE的。这种新颖的方法已成为一个多任务学习框架，在该框架中，NN必须在减少PDE残差的同时拟合观察到的数据。本文对PINNS的文献进行了全面的综述：虽然该研究的主要目标是表征这些网络及其相关的优势和缺点。该综述还试图将出版物纳入更广泛的基于搭配的物理知识的神经网络，这些神经网络构成了香草·皮恩（Vanilla Pinn）以及许多其他变体，例如物理受限的神经网络（PCNN），各种HP-VPINN，变量HP-VPINN，VPINN，VPINN，变体。和保守的Pinn（CPINN）。该研究表明，大多数研究都集中在通过不同的激活功能，梯度优化技术，神经网络结构和损耗功能结构来定制PINN。尽管使用PINN的应用范围广泛，但通过证明其在某些情况下比有限元方法（FEM）等经典数值技术更可行的能力，但仍有可能的进步，最著名的是尚未解决的理论问题。

Remote sensing imagery provides comprehensive views of the Earth, where different sensors collect complementary data at different spatial scales. Large, pretrained models are commonly finetuned with imagery that is heavily augmented to mimic different conditions and scales, with the resulting models used for various tasks with imagery from a range of spatial scales. Such models overlook scale-specific information in the data. In this paper, we present Scale-MAE, a pretraining method that explicitly learns relationships between data at different, known scales throughout the pretraining process. Scale-MAE pretrains a network by masking an input image at a known input scale, where the area of the Earth covered by the image determines the scale of the ViT positional encoding, not the image resolution. Scale-MAE encodes the masked image with a standard ViT backbone, and then decodes the masked image through a bandpass filter to reconstruct low/high frequency images at lower/higher scales. We find that tasking the network with reconstructing both low/high frequency images leads to robust multiscale representations for remote sensing imagery. Scale-MAE achieves an average of a $5.0\%$ non-parametric kNN classification improvement across eight remote sensing datasets compared to current state-of-the-art and obtains a $0.9$ mIoU to $3.8$ mIoU improvement on the SpaceNet building segmentation transfer task for a range of evaluation scales.

Functionality and dialogue experience are two important factors of task-oriented dialogue systems. Conventional approaches with closed schema (e.g., conversational semantic parsing) often fail as both the functionality and dialogue experience are strongly constrained by the underlying schema. We introduce a new paradigm for task-oriented dialogue - Dialog2API - to greatly expand the functionality and provide seamless dialogue experience. The conversational model interacts with the environment by generating and executing programs triggering a set of pre-defined APIs. The model also manages the dialogue policy and interact with the user through generating appropriate natural language responses. By allowing generating free-form programs, Dialog2API supports composite goals by combining different APIs, whereas unrestricted program revision provides natural and robust dialogue experience. To facilitate Dialog2API, the core model is provided with API documents, an execution environment and optionally some example dialogues annotated with programs. We propose an approach tailored for the Dialog2API, where the dialogue states are represented by a stack of programs, with most recently mentioned program on the top of the stack. Dialog2API can work with many application scenarios such as software automation and customer service. In this paper, we construct a dataset for AWS S3 APIs and present evaluation results of in-context learning baselines.

The widespread use of information and communication technology (ICT) over the course of the last decades has been a primary catalyst behind the digitalization of power systems. Meanwhile, as the utilization rate of the Internet of Things (IoT) continues to rise along with recent advancements in ICT, the need for secure and computationally efficient monitoring of critical infrastructures like the electrical grid and the agents that participate in it is growing. A cyber-physical system, such as the electrical grid, may experience anomalies for a number of different reasons. These may include physical defects, mistakes in measurement and communication, cyberattacks, and other similar occurrences. The goal of this study is to emphasize what the most common incidents are with power systems and to give an overview and classification of the most common ways to find problems, starting with the consumer/prosumer end working up to the primary power producers. In addition, this article aimed to discuss the methods and techniques, such as artificial intelligence (AI) that are used to identify anomalies in the power systems and markets.

Counterfactual Explanations are becoming a de-facto standard in post-hoc interpretable machine learning. For a given classifier and an instance classified in an undesired class, its counterfactual explanation corresponds to small perturbations of that instance that allows changing the classification outcome. This work aims to leverage Counterfactual Explanations to detect the important decision boundaries of a pre-trained black-box model. This information is used to build a supervised discretization of the features in the dataset with a tunable granularity. Using the discretized dataset, a smaller, therefore more interpretable Decision Tree can be trained, which, in addition, enhances the stability and robustness of the baseline Decision Tree. Numerical results on real-world datasets show the effectiveness of the approach in terms of accuracy and sparsity compared to the baseline Decision Tree.

Predicting the presence of major depressive disorder (MDD) using behavioural and cognitive signals is a highly non-trivial task. The heterogeneous clinical profile of MDD means that any given speech, facial expression and/or observed cognitive pattern may be associated with a unique combination of depressive symptoms. Conventional discriminative machine learning models potentially lack the complexity to robustly model this heterogeneity. Bayesian networks, however, may instead be well-suited to such a scenario. These networks are probabilistic graphical models that efficiently describe the joint probability distribution over a set of random variables by explicitly capturing their conditional dependencies. This framework provides further advantages over standard discriminative modelling by offering the possibility to incorporate expert opinion in the graphical structure of the models, generating explainable model predictions, informing about the uncertainty of predictions, and naturally handling missing data. In this study, we apply a Bayesian framework to capture the relationships between depression, depression symptoms, and features derived from speech, facial expression and cognitive game data collected at thymia.

5G及以后的移动网络将以前所未有的规模支持异质用例，从而要求自动控制和优化针对单个用户需求的网络功能。当前的蜂窝体系结构不可能对无线电访问网络（RAN）进行这种细粒度控制。为了填补这一空白，开放式运行范式及其规范引入了一个带有抽象的开放体系结构，该架构可以启用闭环控制并提供数据驱动和智能优化RAN在用户级别上。这是通过在网络边缘部署在近实时RAN智能控制器（接近RT RIC）上的自定义RAN控制应用程序（即XAPP）获得的。尽管有这些前提，但截至今天，研究界缺乏用于构建数据驱动XAPP的沙箱，并创建大型数据集以有效的AI培训。在本文中，我们通过引入NS-O-RAN来解决此问题，NS-O-RAN是一个软件框架，该框架将现实世界中的生产级近距离RIC与NS-3上的基于3GPP的模拟环境集成在一起，从而实现了XAPPS和XAPPS的开发自动化的大规模数据收集和深入强化学习驱动的控制策略的测试，以在用户级别的优化中进行优化。此外，我们提出了第一个特定于用户的O-RAN交通转向（TS）智能移交框架。它使用随机的合奏混合物，结合了最先进的卷积神经网络体系结构，以最佳地为网络中的每个用户分配服务基站。我们的TS XAPP接受了NS-O-RAN收集的超过4000万个数据点的培训，该数据点在近距离RIC上运行，并控制其基站。我们在大规模部署中评估了性能，这表明基于XAPP的交换可以使吞吐量和频谱效率平均比传统的移交启发式方法提高50％，而动机性开销较少。

许多微体系式优化为深度神经网络解锁了巨大的处理能力，从而促进了AI革命。随着这种优化的精疲力尽，现代AI的增长现在是通过培训系统的性能，尤其是其数据流动的。我们没有专注于单个加速器，而是研究了全系统规模的大规模培训的数据移动特征。基于我们的工作量分析，我们设计了HammingMesh，这是一种新颖的网络拓扑，以低成本提供高的带宽，并具有很高的工作计划灵活性。具体而言，HammingMesh可以支持具有两个并行性的两个维度的深度学习培训工作的完整带宽和隔离。此外，它还为通用流量的高全球带宽提供支持。因此，HammingMesh将为未来的大规模深度学习系统供电，并具有极端的带宽要求。

从机器学习模型中删除指定的培训数据子集的影响可能需要解决隐私，公平和数据质量等问题。删除子集后剩余数据从头开始对模型进行重新审查是有效但通常是不可行的，因为其计算费用。因此，在过去的几年中，已经看到了几种有效拆除的新方法，形成了“机器学习”领域，但是，到目前为止，出版的文献的许多方面都是不同的，缺乏共识。在本文中，我们总结并比较了七个最先进的机器学习算法，合并对现场中使用的核心概念的定义，调和不同的方法来评估算法，并讨论与在实践中应用机器相关的问题。

预示着在不同时间尺度上作用的软件化，可编程网络控制和使用作用的全包装控制器的使用，作为下一代蜂窝网络发展的关键驱动力。这些技术已经培养了新设计的智能数据驱动的解决方案，用于管理大量各种蜂窝功能，基本上不可能在传统上闭合的蜂窝体系结构中实施。尽管行业对人工智能（AI）和机器学习（ML）解决方案具有明显的兴趣，该解决方案是对无线电访问网络（RAN）的闭环控制，并且该领域的几项研究工作远非主流，但仍然是一个复杂的操作，而且经常被忽略。在本文中，我们讨论了如何为开放式RAN的智能闭环控制设计AI/ML解决方案，从而根据具有高性能记录的示例解决方案提供指南和见解。然后，我们展示如何通过OpenRan Gym在O-RAN近实时RAN智能控制器（RIC）上实例化这些解决方案，Openran Gym是第一个用于数据驱动的O-RAN实验的公共可用工具箱。我们展示了一个由OpenRan Gym开发的XAPP的用例，并在蜂窝网络上进行了测试，其中有7个基站和42位用户部署在Colosseum Wireless网络模拟器上。我们的演示表明，位于Openran的XAPP开发环境的高度灵活性，该环境与部署方案和交通需求无关。