与其2D图像对应物相比,3D点云数据上的零射击学习是一个相关的未置换问题。 3D数据由于不可用的预训练特征提取模型而带来了ZSL的新挑战。为了解决这个问题,我们提出了一种及时引导的3D场景生成和监督方法,该方法可以增强3D数据以更好地学习网络,从而探索可见和看不见的对象的复杂相互作用。首先,我们以提示描述的某些方式合并了两个3D模型的点云。提示的行为就像描述每个3D场景的注释一样。后来,我们进行对比学习,以端到端的方式培训我们所提出的建筑。我们认为,与单​​个对象相比,3D场景可以更有效地关联对象,因为当对象出现在上下文中时,流行的语言模型(如Bert)可以实现高性能。我们提出的及时引导场景生成方法封装了数据扩展和基于及时的注释/字幕,以提高3D ZSL性能。我们已经在合成(ModelNet40,ModelNet10)和实扫描(ScanoJbectnn)3D对象数据集上实现了最新的ZSL和广义ZSL性能。
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很少有类别的课堂学习(FSCIL)旨在使用一些示例逐步微调模型(在基础课上培训),而不忘记先前的培训。最近的工作主要解决了2D图像。但是,由于相机技术的发展,3D点云数据比以往任何时候都更可用,这需要考虑3D数据的FSCIL。本文介绍了3D域中的FSCIL。除了灾难性忘记过去的知识和过度贴合数据的众所周知的问题外,3D FSCIL还可以带来更新的挑战。例如,基类可能在现实情况下包含许多合成实例。相比之下,新型类​​别只有少数几个实际扫描的样本(来自RGBD传感器)以增量步骤获得。由于数据从合成到真实的变化,FSCIL会承受其他挑战,以后的增量步骤降低了性能。我们尝试使用微莎普(正交基矢量)来解决此问题,并使用预定义的一组规则来描述任何3D对象。它支持逐步训练,几乎没有示例将合成与真实数据变化最小化。我们使用流行的合成数据集(ModelNet和Shapenet)和3D实范围的数据集(ScanoBjectNN和CO3D)为3D FSCIL提供新的测试协议。通过比较最先进的方法,我们确定了3D域中方法的有效性。
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Any organization needs to improve their products, services, and processes. In this context, engaging with customers and understanding their journey is essential. Organizations have leveraged various techniques and technologies to support customer engagement, from call centres to chatbots and virtual agents. Recently, these systems have used Machine Learning (ML) and Natural Language Processing (NLP) to analyze large volumes of customer feedback and engagement data. The goal is to understand customers in context and provide meaningful answers across various channels. Despite multiple advances in Conversational Artificial Intelligence (AI) and Recommender Systems (RS), it is still challenging to understand the intent behind customer questions during the customer journey. To address this challenge, in this paper, we study and analyze the recent work in Conversational Recommender Systems (CRS) in general and, more specifically, in chatbot-based CRS. We introduce a pipeline to contextualize the input utterances in conversations. We then take the next step towards leveraging reverse feature engineering to link the contextualized input and learning model to support intent recognition. Since performance evaluation is achieved based on different ML models, we use transformer base models to evaluate the proposed approach using a labelled dialogue dataset (MSDialogue) of question-answering interactions between information seekers and answer providers.
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A large number of empirical studies on applying self-attention models in the domain of recommender systems are based on offline evaluation and metrics computed on standardized datasets, without insights on how these models perform in real life scenarios. Moreover, many of them do not consider information such as item and customer metadata, although deep-learning recommenders live up to their full potential only when numerous features of heterogeneous types are included. Also, typically recommendation models are designed to serve well only a single use case, which increases modeling complexity and maintenance costs, and may lead to inconsistent customer experience. In this work, we present a reusable Attention-based Fashion Recommendation Algorithm (AFRA), that utilizes various interaction types with different fashion entities such as items (e.g., shirt), outfits and influencers, and their heterogeneous features. Moreover, we leverage temporal and contextual information to address both short and long-term customer preferences. We show its effectiveness on outfit recommendation use cases, in particular: 1) personalized ranked feed; 2) outfit recommendations by style; 3) similar item recommendation and 4) in-session recommendations inspired by most recent customer actions. We present both offline and online experimental results demonstrating substantial improvements in customer retention and engagement.
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Over the past years, fashion-related challenges have gained a lot of attention in the research community. Outfit generation and recommendation, i.e., the composition of a set of items of different types (e.g., tops, bottom, shoes, accessories) that go well together, are among the most challenging ones. That is because items have to be both compatible amongst each other and also personalized to match the taste of the customer. Recently there has been a plethora of work targeted at tackling these problems by adopting various techniques and algorithms from the machine learning literature. However, to date, there is no extensive comparison of the performance of the different algorithms for outfit generation and recommendation. In this paper, we close this gap by providing a broad evaluation and comparison of various algorithms, including both personalized and non-personalized approaches, using online, real-world user data from one of Europe's largest fashion stores. We present the adaptations we made to some of those models to make them suitable for personalized outfit generation. Moreover, we provide insights for models that have not yet been evaluated on this task, specifically, GPT, BERT and Seq-to-Seq LSTM.
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This paper presents a multi-agent Deep Reinforcement Learning (DRL) framework for autonomous control and integration of renewable energy resources into smart power grid systems. In particular, the proposed framework jointly considers demand response (DR) and distributed energy management (DEM) for residential end-users. DR has a widely recognized potential for improving power grid stability and reliability, while at the same time reducing end-users energy bills. However, the conventional DR techniques come with several shortcomings, such as the inability to handle operational uncertainties while incurring end-user disutility, which prevents widespread adoption in real-world applications. The proposed framework addresses these shortcomings by implementing DR and DEM based on real-time pricing strategy that is achieved using deep reinforcement learning. Furthermore, this framework enables the power grid service provider to leverage distributed energy resources (i.e., PV rooftop panels and battery storage) as dispatchable assets to support the smart grid during peak hours, thus achieving management of distributed energy resources. Simulation results based on the Deep Q-Network (DQN) demonstrate significant improvements of the 24-hour accumulative profit for both prosumers and the power grid service provider, as well as major reductions in the utilization of the power grid reserve generators.
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The connectivity-aware path design is crucial in the effective deployment of autonomous Unmanned Aerial Vehicles (UAVs). Recently, Reinforcement Learning (RL) algorithms have become the popular approach to solving this type of complex problem, but RL algorithms suffer slow convergence. In this paper, we propose a Transfer Learning (TL) approach, where we use a teacher policy previously trained in an old domain to boost the path learning of the agent in the new domain. As the exploration processes and the training continue, the agent refines the path design in the new domain based on the subsequent interactions with the environment. We evaluate our approach considering an old domain at sub-6 GHz and a new domain at millimeter Wave (mmWave). The teacher path policy, previously trained at sub-6 GHz path, is the solution to a connectivity-aware path problem that we formulate as a constrained Markov Decision Process (CMDP). We employ a Lyapunov-based model-free Deep Q-Network (DQN) to solve the path design at sub-6 GHz that guarantees connectivity constraint satisfaction. We empirically demonstrate the effectiveness of our approach for different urban environment scenarios. The results demonstrate that our proposed approach is capable of reducing the training time considerably at mmWave.
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音频是人类交流最常用的方式之一,但与此同时,它很容易被欺骗人们滥用。随着AI的革命,几乎每个人都可以访问相关技术,从而使罪犯犯罪和伪造变得简单。在这项工作中,我们引入了一种深度学习方法,以开发一种分类器,该分类器将盲目地将输入音频分类为真实或模仿。提出的模型接受了从大型音频数据集提取的一组重要功能的培训,以获取分类器,该分类器已在不同音频的相同功能上进行了测试。为这项工作创建了两个数据集;所有英语数据集和混合数据集(阿拉伯语和英语)。这些数据集已通过GitHub提供,可在https://github.com/sass7/dataset上使用研究社区。为了进行比较,还通过人类检查对音频进行了分类,主题是母语人士。随之而来的结果很有趣,并且表现出强大的精度。
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有效的有丝分裂定位是决定肿瘤预后和成绩的关键先驱任务。由于固有的域偏见,通过深度学习的图像分析通过深度学习图像分析的自动化检测通常会失败。本文提出了一个用于有丝分裂检测的域均质器,该域均质器试图通过输入图像的对抗重建来减轻组织学图像的领域差异。拟议的均质器基于U-NET架构,可以有效地减少组织学成像数据常见的域差异。我们通过观察预处理图像之间的域差异来证明我们的域均质器的有效性。使用此均匀剂,以及随后的视网膜网络检测器,我们能够以检测到的有丝分裂数字的平均精度来超越2021 MIDOG挑战的基准。
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近年来,由于深度学习体系结构的有希望的进步,面部识别系统取得了非凡的成功。但是,当将配置图像与额叶图像的画廊匹配时,它们仍然无法实现预期的准确性。当前方法要么执行姿势归一化(即额叶化)或脱离姿势信息以进行面部识别。相反,我们提出了一种新方法,通过注意机制将姿势用作辅助信息。在本文中,我们假设使用注意机制姿势参加的信息可以指导剖面面上的上下文和独特的特征提取,从而进一步使嵌入式域中的更好表示形式学习。为了实现这一目标,首先,我们设计了一个统一的耦合曲线到额定面部识别网络。它通过特定于类的对比损失来学习从面孔到紧凑的嵌入子空间的映射。其次,我们开发了一个新颖的姿势注意力块(PAB),以专门指导从剖面面上提取姿势 - 不合稳定的特征。更具体地说,PAB旨在显式地帮助网络沿着频道和空间维度沿着频道和空间维度的重要特征,同时学习嵌入式子空间中的歧视性但构成不变的特征。为了验证我们提出的方法的有效性,我们对包括多PIE,CFP,IJBC在内的受控和野生基准进行实验,并在艺术状态下表现出优势。
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