可学习的关键点探测器和描述符开始超过经典的手工制作的特征提取方法。关于视觉表示的自我监督学习的最新研究推动了基于深网的可学习模型的不断增长。通过利用传统的数据增强和本性转换，这些网络学会在不利条件下检测到拐角，例如极端照明变化。但是，它们的概括功能仅限于通过经典方法或合成生成的数据检测到的类似角的特征。在本文中，我们提出了对应网络（Corrnet），该网络学会了检测可重复的关键点并通过在空间约束下通过无监督的对比度学习提取歧视性描述。我们的实验表明，Corrnet不仅能够检测到诸如角落之类的低级特征，还可以通过我们提议的关节引导的潜在空间反向传播来代表一对输入图像中存在相似对象的高级特征。我们的方法在视点变化下获得了竞争结果，并在照明变化下实现了最先进的性能。

Recently, there has been an interest in improving the resources available in Intrusion Detection System (IDS) techniques. In this sense, several studies related to cybersecurity show that the environment invasions and information kidnapping are increasingly recurrent and complex. The criticality of the business involving operations in an environment using computing resources does not allow the vulnerability of the information. Cybersecurity has taken on a dimension within the universe of indispensable technology in corporations, and the prevention of risks of invasions into the environment is dealt with daily by Security teams. Thus, the main objective of the study was to investigate the Ensemble Learning technique using the Stacking method, supported by the Support Vector Machine (SVM) and k-Nearest Neighbour (kNN) algorithms aiming at an optimization of the results for DDoS attack detection. For this, the Intrusion Detection System concept was used with the application of the Data Mining and Machine Learning Orange tool to obtain better results

This work presents a thorough review concerning recent studies and text generation advancements using Generative Adversarial Networks. The usage of adversarial learning for text generation is promising as it provides alternatives to generate the so-called "natural" language. Nevertheless, adversarial text generation is not a simple task as its foremost architecture, the Generative Adversarial Networks, were designed to cope with continuous information (image) instead of discrete data (text). Thus, most works are based on three possible options, i.e., Gumbel-Softmax differentiation, Reinforcement Learning, and modified training objectives. All alternatives are reviewed in this survey as they present the most recent approaches for generating text using adversarial-based techniques. The selected works were taken from renowned databases, such as Science Direct, IEEEXplore, Springer, Association for Computing Machinery, and arXiv, whereas each selected work has been critically analyzed and assessed to present its objective, methodology, and experimental results.

Automated machine learning (AutoML) algorithms have grown in popularity due to their high performance and flexibility to adapt to different problems and data sets. With the increasing number of AutoML algorithms, deciding which would best suit a given problem becomes increasingly more work. Therefore, it is essential to use complex and challenging benchmarks which would be able to differentiate the AutoML algorithms from each other. This paper compares the performance of four different AutoML algorithms: Tree-based Pipeline Optimization Tool (TPOT), Auto-Sklearn, Auto-Sklearn 2, and H2O AutoML. We use the Diverse and Generative ML benchmark (DIGEN), a diverse set of synthetic datasets derived from generative functions designed to highlight the strengths and weaknesses of the performance of common machine learning algorithms. We confirm that AutoML can identify pipelines that perform well on all included datasets. Most AutoML algorithms performed similarly without much room for improvement; however, some were more consistent than others at finding high-performing solutions for some datasets.

We present a method for estimating lighting from a single perspective image of an indoor scene. Previous methods for predicting indoor illumination usually focus on either simple, parametric lighting that lack realism, or on richer representations that are difficult or even impossible to understand or modify after prediction. We propose a pipeline that estimates a parametric light that is easy to edit and allows renderings with strong shadows, alongside with a non-parametric texture with high-frequency information necessary for realistic rendering of specular objects. Once estimated, the predictions obtained with our model are interpretable and can easily be modified by an artist/user with a few mouse clicks. Quantitative and qualitative results show that our approach makes indoor lighting estimation easier to handle by a casual user, while still producing competitive results.

使用机器学习算法从未标记的文本中提取知识可能很复杂。文档分类和信息检索是两个应用程序，可以从无监督的学习（例如文本聚类和主题建模）中受益，包括探索性数据分析。但是，无监督的学习范式提出了可重复性问题。初始化可能会导致可变性，具体取决于机器学习算法。此外，关于群集几何形状，扭曲可能会产生误导。在原因中，异常值和异常的存在可能是决定因素。尽管初始化和异常问题与文本群集和主题建模相关，但作者并未找到对它们的深入分析。这项调查提供了这些亚地区的系统文献综述（2011-2022），并提出了共同的术语，因为类似的程序具有不同的术语。作者描述了研究机会，趋势和开放问题。附录总结了与审查的作品直接或间接相关的文本矢量化，分解和聚类算法的理论背景。

本文提出了我们为在葡萄牙语中自发和准备的语音和语音情感识别的共享任务自动语音识别（SE＆R 2022）的共同任务自动语音识别的努力。挑战的目的是考虑葡萄牙语的ASR研究，考虑到不同方言的准备和自发语音。我们的方法包括在域特异性方法中微调ASR模型，应用增益归一化和选择性噪声插入。提出的方法比可用的4个曲目中的3个曲目中提供的强大基线改进了

本文介绍了针对非负矩阵分解的新的乘法更新，并使用$ \ beta $ -Divergence和两个因素之一的稀疏正则化（例如，激活矩阵）。众所周知，需要控制另一个因素（字典矩阵）的规范，以避免使用不良的公式。标准实践包括限制字典的列具有单位规范，这导致了非平凡的优化问题。我们的方法利用原始问题对等效规模不变的目标函数的优化进行了重新处理。从那里，我们得出了块状大量最小化算法，这些算法可为$ \ ell_ {1} $ - 正则化或更“激进的” log-regularization提供简单的乘法更新。与其他最先进的方法相反，我们的算法是通用的，因为它们可以应用于任何$ \ beta $ -Divergence（即任何$ \ beta $的任何值），并且它们具有融合保证。我们使用各种数据集报告了与现有的启发式和拉格朗日方法的数值比较：面部图像，音频谱图，高光谱数据和歌曲播放计数。我们表明，我们的方法获得了收敛时类似质量的溶液（相似的目标值），但CPU时间显着减少。

强化学习（RL）通过原始像素成像和连续的控制任务在视频游戏中表现出了令人印象深刻的表现。但是，RL的性能较差，例如原始像素图像，例如原始像素图像。人们普遍认为，基于物理状态的RL策略（例如激光传感器测量值）比像素学习相比会产生更有效的样品结果。这项工作提出了一种新方法，该方法从深度地图估算中提取信息，以教授RL代理以执行无人机导航（UAV）的无地图导航。我们提出了深度模仿的对比度无监督的优先表示（DEPTH-CUPRL），该表示具有优先重播记忆的估算图像的深度。我们使用RL和对比度学习的组合，根据图像的RL问题引发。从无人驾驶汽车（UAV）对结果的分析中，可以得出结论，我们的深度cuprl方法在无MAP导航能力中对决策和优于最先进的像素的方法有效。

通过离散采样观测来建模连续的动力系统是数据科学中的一个基本问题。通常，这种动力学是非本地过程随时间不可或缺的结果。因此，这些系统是用插差分化方程（IDE）建模的；构成积分和差分组件的微分方程的概括。例如，大脑动力学不是通过微分方程来准确模拟的，因为它们的行为是非马克维亚的，即动态是部分由历史决定的。在这里，我们介绍了神经IDE（NIDE），该框架使用神经网络建模IDE的普通和组成部分。我们在几个玩具和大脑活动数据集上测试NIDE，并证明NIDE的表现优于其他模型，包括神经ODE。这些任务包括时间外推，以及从看不见的初始条件中预测动态，我们在自由行为的小鼠中测试了全皮质活动记录。此外，我们表明，NIDE可以通过学识渊博的整体操作员将动力学分解为马尔可夫和非马克维亚成分，我们在氯胺酮的fMRI脑活动记录中测试了动力学。最后，整体操作员的整体提供了一个潜在空间，可深入了解潜在的动态，我们在宽阔的大脑成像记录上证明了这一点。总体而言，NIDE是一种新颖的方法，可以通过神经网络对复杂的非本地动力学进行建模。