Classifying logo images is a challenging task as they contain elements such as text or shapes that can represent anything from known objects to abstract shapes. While the current state of the art for logo classification addresses the problem as a multi-class task focusing on a single characteristic, logos can have several simultaneous labels, such as different colors. This work proposes a method that allows visually similar logos to be classified and searched from a set of data according to their shape, color, commercial sector, semantics, general characteristics, or a combination of features selected by the user. Unlike previous approaches, the proposal employs a series of multi-label deep neural networks specialized in specific attributes and combines the obtained features to perform the similarity search. To delve into the classification system, different existing logo topologies are compared and some of their problems are analyzed, such as the incomplete labeling that trademark registration databases usually contain. The proposal is evaluated considering 76,000 logos (7 times more than previous approaches) from the European Union Trademarks dataset, which is organized hierarchically using the Vienna ontology. Overall, experimentation attains reliable quantitative and qualitative results, reducing the normalized average rank error of the state-of-the-art from 0.040 to 0.018 for the Trademark Image Retrieval task. Finally, given that the semantics of logos can often be subjective, graphic design students and professionals were surveyed. Results show that the proposed methodology provides better labeling than a human expert operator, improving the label ranking average precision from 0.53 to 0.68.

The International Workshop on Reading Music Systems (WoRMS) is a workshop that tries to connect researchers who develop systems for reading music, such as in the field of Optical Music Recognition, with other researchers and practitioners that could benefit from such systems, like librarians or musicologists. The relevant topics of interest for the workshop include, but are not limited to: Music reading systems; Optical music recognition; Datasets and performance evaluation; Image processing on music scores; Writer identification; Authoring, editing, storing and presentation systems for music scores; Multi-modal systems; Novel input-methods for music to produce written music; Web-based Music Information Retrieval services; Applications and projects; Use-cases related to written music. These are the proceedings of the 3rd International Workshop on Reading Music Systems, held in Alicante on the 23rd of July 2021.

近年来，已经产生了大量的视觉内容，并从许多领域共享，例如社交媒体平台，医学成像和机器人。这种丰富的内容创建和共享引入了新的挑战，特别是在寻找类似内容内容的图像检索（CBIR）-A的数据库中，即长期建立的研究区域，其中需要改进的效率和准确性来实时检索。人工智能在CBIR中取得了进展，并大大促进了实例搜索过程。在本调查中，我们审查了最近基于深度学习算法和技术开发的实例检索工作，通过深网络架构类型，深度功能，功能嵌入方法以及网络微调策略组织了调查。我们的调查考虑了各种各样的最新方法，在那里，我们识别里程碑工作，揭示各种方法之间的联系，并呈现常用的基准，评估结果，共同挑战，并提出未来的未来方向。

可解释的人工智能（XAI）的新兴领域旨在为当今强大但不透明的深度学习模型带来透明度。尽管本地XAI方法以归因图的形式解释了个体预测，从而确定了重要特征的发生位置（但没有提供有关其代表的信息），但全局解释技术可视化模型通常学会的编码的概念。因此，两种方法仅提供部分见解，并留下将模型推理解释的负担。只有少数当代技术旨在将本地和全球XAI背后的原则结合起来，以获取更多信息的解释。但是，这些方法通常仅限于特定的模型体系结构，或对培训制度或数据和标签可用性施加其他要求，这实际上使事后应用程序成为任意预训练的模型。在这项工作中，我们介绍了概念相关性传播方法（CRP）方法，该方法结合了XAI的本地和全球观点，因此允许回答“何处”和“ where”和“什么”问题，而没有其他约束。我们进一步介绍了相关性最大化的原则，以根据模型对模型的有用性找到代表性的示例。因此，我们提高了对激活最大化及其局限性的共同实践的依赖。我们证明了我们方法在各种环境中的能力，展示了概念相关性传播和相关性最大化导致了更加可解释的解释，并通过概念图表，概念组成分析和概念集合和概念子区和概念子区和概念子集和定量研究对模型的表示和推理提供了深刻的见解。它们在细粒度决策中的作用。

The International Workshop on Reading Music Systems (WoRMS) is a workshop that tries to connect researchers who develop systems for reading music, such as in the field of Optical Music Recognition, with other researchers and practitioners that could benefit from such systems, like librarians or musicologists. The relevant topics of interest for the workshop include, but are not limited to: Music reading systems; Optical music recognition; Datasets and performance evaluation; Image processing on music scores; Writer identification; Authoring, editing, storing and presentation systems for music scores; Multi-modal systems; Novel input-methods for music to produce written music; Web-based Music Information Retrieval services; Applications and projects; Use-cases related to written music. These are the proceedings of the 2nd International Workshop on Reading Music Systems, held in Delft on the 2nd of November 2019.

X-ray imaging technology has been used for decades in clinical tasks to reveal the internal condition of different organs, and in recent years, it has become more common in other areas such as industry, security, and geography. The recent development of computer vision and machine learning techniques has also made it easier to automatically process X-ray images and several machine learning-based object (anomaly) detection, classification, and segmentation methods have been recently employed in X-ray image analysis. Due to the high potential of deep learning in related image processing applications, it has been used in most of the studies. This survey reviews the recent research on using computer vision and machine learning for X-ray analysis in industrial production and security applications and covers the applications, techniques, evaluation metrics, datasets, and performance comparison of those techniques on publicly available datasets. We also highlight some drawbacks in the published research and give recommendations for future research in computer vision-based X-ray analysis.

Deep neural networks (DNNs) have demonstrated superior performance over classical machine learning to support many features in safety-critical systems. Although DNNs are now widely used in such systems (e.g., self driving cars), there is limited progress regarding automated support for functional safety analysis in DNN-based systems. For example, the identification of root causes of errors, to enable both risk analysis and DNN retraining, remains an open problem. In this paper, we propose SAFE, a black-box approach to automatically characterize the root causes of DNN errors. SAFE relies on a transfer learning model pre-trained on ImageNet to extract the features from error-inducing images. It then applies a density-based clustering algorithm to detect arbitrary shaped clusters of images modeling plausible causes of error. Last, clusters are used to effectively retrain and improve the DNN. The black-box nature of SAFE is motivated by our objective not to require changes or even access to the DNN internals to facilitate adoption.Experimental results show the superior ability of SAFE in identifying different root causes of DNN errors based on case studies in the automotive domain. It also yields significant improvements in DNN accuracy after retraining, while saving significant execution time and memory when compared to alternatives. CCS Concepts: • Software and its engineering → Software defect analysis; • Computing methodologies → Machine learning.

Current learning machines have successfully solved hard application problems, reaching high accuracy and displaying seemingly "intelligent" behavior. Here we apply recent techniques for explaining decisions of state-of-the-art learning machines and analyze various tasks from computer vision and arcade games. This showcases a spectrum of problem-solving behaviors ranging from naive and short-sighted, to wellinformed and strategic. We observe that standard performance evaluation metrics can be oblivious to distinguishing these diverse problem solving behaviors. Furthermore, we propose our semi-automated Spectral Relevance Analysis that provides a practically effective way of characterizing and validating the behavior of nonlinear learning machines. This helps to assess whether a learned model indeed delivers reliably for the problem that it was conceived for. Furthermore, our work intends to add a voice of caution to the ongoing excitement about machine intelligence and pledges to evaluate and judge some of these recent successes in a more nuanced manner.

手写数字识别（HDR）是光学特征识别（OCR）领域中最具挑战性的任务之一。不管语言如何，HDR都存在一些固有的挑战，这主要是由于个人跨个人的写作风格的变化，编写媒介和环境的变化，无法在反复编写任何数字等时保持相同的笔触。除此之外，特定语言数字的结构复杂性可能会导致HDR的模棱两可。多年来，研究人员开发了许多离线和在线HDR管道，其中不同的图像处理技术与传统的机器学习（ML）基于基于的和/或基于深度学习（DL）的体系结构相结合。尽管文献中存在有关HDR的广泛审查研究的证据，例如：英语，阿拉伯语，印度，法尔西，中文等，但几乎没有对孟加拉人HDR（BHDR）的调查，这缺乏对孟加拉语HDR（BHDR）的研究，而这些调查缺乏对孟加拉语HDR（BHDR）的研究。挑战，基础识别过程以及可能的未来方向。在本文中，已经分析了孟加拉语手写数字的特征和固有的歧义，以及二十年来最先进的数据集的全面见解和离线BHDR的方法。此外，还详细讨论了一些涉及BHDR的现实应用特定研究。本文还将作为对离线BHDR背后科学感兴趣的研究人员的汇编，煽动了对相关研究的新途径的探索，这可能会进一步导致在不同应用领域对孟加拉语手写数字进行更好的离线认识。

视网膜脉管系统的研究是筛查和诊断许多疾病的基本阶段。完整的视网膜血管分析需要将视网膜的血管分为动脉和静脉（A/V）。早期自动方法在两个顺序阶段接近这些分割和分类任务。但是，目前，这些任务是作为联合语义分割任务处理的，因为分类结果在很大程度上取决于血管分割的有效性。在这方面，我们提出了一种新的方法，用于从眼睛眼睛图像中对视网膜A/V进行分割和分类。特别是，我们提出了一种新颖的方法，该方法与以前的方法不同，并且由于新的损失，将联合任务分解为针对动脉，静脉和整个血管树的三个分割问题。这种配置允许直观地处理容器交叉口，并直接提供不同靶血管树的精确分割罩。提供的关于公共视网膜图血管树提取（RITE）数据集的消融研究表明，所提出的方法提供了令人满意的性能，尤其是在不同结构的分割中。此外，与最新技术的比较表明，我们的方法在A/V分类中获得了高度竞争的结果，同时显着改善了血管分割。提出的多段方法允许检测更多的血管，并更好地分割不同的结构，同时实现竞争性分类性能。同样，用这些术语来说，我们的方法优于各种参考作品的方法。此外，与以前的方法相比，该方法允许直接检测到容器交叉口，并在这些复杂位置保留A/V的连续性。

即使机器学习算法已经在数据科学中发挥了重要作用，但许多当前方法对输入数据提出了不现实的假设。由于不兼容的数据格式，或数据集中的异质，分层或完全缺少的数据片段，因此很难应用此类方法。作为解决方案，我们提出了一个用于样本表示，模型定义和培训的多功能，统一的框架，称为“ Hmill”。我们深入审查框架构建和扩展的机器学习的多个范围范式。从理论上讲，为HMILL的关键组件的设计合理，我们将通用近似定理的扩展显示到框架中实现的模型所实现的所有功能的集合。本文还包含有关我们实施中技术和绩效改进的详细讨论，该讨论将在MIT许可下发布供下载。该框架的主要资产是其灵活性，它可以通过相同的工具对不同的现实世界数据源进行建模。除了单独观察到每个对象的一组属性的标准设置外，我们解释了如何在框架中实现表示整个对象系统的图表中的消息推断。为了支持我们的主张，我们使用框架解决了网络安全域的三个不同问题。第一种用例涉及来自原始网络观察结果的IoT设备识别。在第二个问题中，我们研究了如何使用以有向图表示的操作系统的快照可以对恶意二进制文件进行分类。最后提供的示例是通过网络中实体之间建模域黑名单扩展的任务。在所有三个问题中，基于建议的框架的解决方案可实现与专业方法相当的性能。

由于几个原因，很难聚集艺术品。一方面，识别基于领域知识和视觉感知的有意义的模式非常困难。另一方面，将传统的聚类和功能还原技术应用于高度尺寸的像素空间可能是无效的。为了解决这些问题，在本文中，我们提出了Delius：一种深入学习视觉艺术的深度学习方法。该方法使用预训练的卷积网络提取功能，然后将这些功能馈送到深层嵌入聚类模型中，在此，将输入数据映射到潜在空间的任务是通过在找到一组集群质心的任务，以在此任务进行优化。这个潜在空间。定量和定性实验结果表明了该方法的有效性。Delius对于与艺术分析有关的多个任务很有用，特别是在绘画数据集中发现的视觉链接检索和历史知识发现。

The ImageNet Large Scale Visual Recognition Challenge is a benchmark in object category classification and detection on hundreds of object categories and millions of images. The challenge has been run annually from 2010 to present, attracting participation from more than fifty institutions. This paper describes the creation of this benchmark dataset and the advances in object recognition that have been possible as a result. We discuss the chal-

Multilayer Neural Networks trained with the backpropagation algorithm constitute the best example of a successful Gradient-Based Learning technique. Given an appropriate network architecture, Gradient-Based Learning algorithms can be used to synthesize a complex decision surface that can classify high-dimensional patterns such as handwritten characters, with minimal preprocessing. This paper reviews various methods applied to handwritten character recognition and compares them on a standard handwritten digit recognition task. Convolutional Neural Networks, that are specifically designed to deal with the variability of 2D shapes, are shown to outperform all other techniques.Real-life document recognition systems are composed of multiple modules including eld extraction, segmentation, recognition, and language modeling. A new learning paradigm, called Graph Transformer Networks (GTN), allows such multi-module systems to be trained globally using Gradient-Based methods so as to minimize an overall performance measure.Two systems for on-line handwriting recognition are described. Experiments demonstrate the advantage of global training, and the exibility of Graph Transformer Networks.A Graph Transformer Network for reading bank check is also described. It uses Convolutional Neural Network character recognizers combined with global training techniques to provides record accuracy on business and personal checks. It is deployed commercially and reads several million checks per day.

建模法检索和检索作为预测问题最近被出现为法律智能的主要方法。专注于法律文章检索任务，我们展示了一个名为Lamberta的深度学习框架，该框架被设计用于民法代码，并在意大利民法典上专门培训。为了我们的知识，这是第一项研究提出了基于伯特（来自变压器的双向编码器表示）学习框架的意大利法律制度对意大利法律制度的高级法律文章预测的研究，最近引起了深度学习方法的增加，呈现出色的有效性在几种自然语言处理和学习任务中。我们通过微调意大利文章或其部分的意大利预先训练的意大利预先训练的伯爵来定义Lamberta模型，因为法律文章作为分类任务检索。我们Lamberta框架的一个关键方面是我们构思它以解决极端的分类方案，其特征在于课程数量大，少量学习问题，以及意大利法律预测任务的缺乏测试查询基准。为了解决这些问题，我们为法律文章的无监督标签定义了不同的方法，原则上可以应用于任何法律制度。我们提供了深入了解我们Lamberta模型的解释性和可解释性，并且我们对单一标签以及多标签评估任务进行了广泛的查询模板实验分析。经验证据表明了Lamberta的有效性，以及对广泛使用的深度学习文本分类器和一些构思的几次学习者来说，其优越性是对属性感知预测任务的优势。

The PASCAL Visual Object Classes (VOC) challenge is a benchmark in visual object category recognition and detection, providing the vision and machine learning communities with a standard dataset of images and annotation, and standard evaluation procedures. Organised annually from 2005 to present, the challenge and its associated dataset has become accepted as the benchmark for object detection.This paper describes the dataset and evaluation procedure. We review the state-of-the-art in evaluated methods for both classification and detection, analyse whether the methods are statistically different, what they are learning from the images (e.g. the object or its context), and what the methods find easy or confuse. The paper concludes with lessons learnt in the three year history of the challenge, and proposes directions for future improvement and extension.

布局分析（LA）阶段对光学音乐识别（OMR）系统的正确性能至关重要。它标识了感兴趣的区域，例如Staves或歌词，然后必须处理，以便转录它们的内容。尽管存在基于深度学习的现代方法，但在不同模型的精度，它们对不同领域的概括或更重要的是，它们尚未开展对OMR的详尽研究，或者更重要的是，它们对后续阶段的影响管道。这项工作侧重于通过对不同神经结构，音乐文档类型和评估方案的实验研究填补文献中的这种差距。培训数据的需求也导致了一种新的半合成数据生成技术的提议，这使得LA方法在真实情况下能够有效适用性。我们的结果表明：（i）该模型的选择及其性能对于整个转录过程至关重要; （ii）（ii）常用于评估LA阶段的指标并不总是与OMR系统的最终性能相关，并且（iii）所提出的数据生成技术使最先进的结果能够以有限的限制实现标记数据集。

社交媒体网络已成为人们生活的重要方面，它是其思想，观点和情感的平台。因此，自动化情绪分析（SA）对于以其他信息来源无法识别人们的感受至关重要。对这些感觉的分析揭示了各种应用，包括品牌评估，YouTube电影评论和医疗保健应用。随着社交媒体的不断发展，人们以不同形式发布大量信息，包括文本，照片，音频和视频。因此，传统的SA算法已变得有限，因为它们不考虑其他方式的表现力。通过包括来自各种物质来源的此类特征，这些多模式数据流提供了新的机会，以优化基于文本的SA之外的预期结果。我们的研究重点是多模式SA的最前沿领域，该领域研究了社交媒体网络上发布的视觉和文本数据。许多人更有可能利用这些信息在这些平台上表达自己。为了作为这个快速增长的领域的学者资源，我们介绍了文本和视觉SA的全面概述，包括数据预处理，功能提取技术，情感基准数据集以及适合每个字段的多重分类方法的疗效。我们还简要介绍了最常用的数据融合策略，并提供了有关Visual Textual SA的现有研究的摘要。最后，我们重点介绍了最重大的挑战，并调查了一些重要的情感应用程序。

Time Series Classification (TSC) is an important and challenging problem in data mining. With the increase of time series data availability, hundreds of TSC algorithms have been proposed. Among these methods, only a few have considered Deep Neural Networks (DNNs) to perform this task. This is surprising as deep learning has seen very successful applications in the last years. DNNs have indeed revolutionized the field of computer vision especially with the advent of novel deeper architectures such as Residual and Convolutional Neural Networks. Apart from images, sequential data such as text and audio can also be processed with DNNs to reach state-of-the-art performance for document classification and speech recognition. In this article, we study the current state-ofthe-art performance of deep learning algorithms for TSC by presenting an empirical study of the most recent DNN architectures for TSC. We give an overview of the most successful deep learning applications in various time series domains under a unified taxonomy of DNNs for TSC. We also provide an open source deep learning framework to the TSC community where we implemented each of the compared approaches and evaluated them on a univariate TSC benchmark (the UCR/UEA archive) and 12 multivariate time series datasets. By training 8,730 deep learning models on 97 time series datasets, we propose the most exhaustive study of DNNs for TSC to date.

规划自行车共享站的布局是一个复杂的过程，特别是在刚刚实施自行车共享系统的城市。城市规划者通常必须根据公开可用的数据并私下提供来自管理的数据，然后使用现场流行的位置分配模型。较小城市的许多城市可能难以招聘专家进行此类规划。本文提出了一种新的解决方案来简化和促进通过使用空间嵌入方法来实现这种规划的过程。仅基于来自OpenStreetMap的公开数据，以及来自欧洲34个城市的站布局，已经开发了一种使用优步H3离散全球电网系统将城市分成微区域的方法，并指示其值得放置站的区域在不同城市使用转移学习的现有系统。工作的结果是在规划驻地布局的决策中支持规划者的机制，以选择参考城市。