预训练（PT），然后进行微调（FT）是培训神经网络的有效方法，并导致许多域中的显着性能改进。 PT可以包含各种设计选择，如任务和数据重新免除策略，增强政策和噪声模型，所有这些都可以显着影响所学到的陈述的质量。因此，必须适当地调整这些策略引入的超级参数。但是，设置这些超参数的值是具有挑战性的。大多数现有方法都努力缩放到高维度，太慢和内存密集，或者不能直接应用于两级PT和FT学习过程。在这项工作中，我们提出了一种基于渐变的梯度的算法，以Meta-Learn PT HyperParameters。我们将PT HyperParameter优化问题正式化，并提出了一种通过展开优化结合隐式分化和反向来获得PT超级参数梯度的新方法。我们展示了我们的方法可以提高两个真实域的预测性能。首先，我们优化高维任务加权超参数，用于多任务对蛋白质 - 蛋白质相互作用图进行培训，并将Auroc提高至3.9％。其次，我们在心电图数据上优化用于SIMCLR的SIMCLR的数据增强神经网络，并将Auroc提高到1.9％。

Deep learning models operating in the complex domain are used due to their rich representation capacity. However, most of these models are either restricted to the first quadrant of the complex plane or project the complex-valued data into the real domain, causing a loss of information. This paper proposes that operating entirely in the complex domain increases the overall performance of complex-valued models. A novel, fully complex-valued learning scheme is proposed to train a Fully Complex-valued Convolutional Neural Network (FC-CNN) using a newly proposed complex-valued loss function and training strategy. Benchmarked on CIFAR-10, SVHN, and CIFAR-100, FC-CNN has a 4-10% gain compared to its real-valued counterpart, maintaining the model complexity. With fewer parameters, it achieves comparable performance to state-of-the-art complex-valued models on CIFAR-10 and SVHN. For the CIFAR-100 dataset, it achieves state-of-the-art performance with 25% fewer parameters. FC-CNN shows better training efficiency and much faster convergence than all the other models.

Building segmentation in high-resolution InSAR images is a challenging task that can be useful for large-scale surveillance. Although complex-valued deep learning networks perform better than their real-valued counterparts for complex-valued SAR data, phase information is not retained throughout the network, which causes a loss of information. This paper proposes a Fully Complex-valued, Fully Convolutional Multi-feature Fusion Network(FC2MFN) for building semantic segmentation on InSAR images using a novel, fully complex-valued learning scheme. The network learns multi-scale features, performs multi-feature fusion, and has a complex-valued output. For the particularity of complex-valued InSAR data, a new complex-valued pooling layer is proposed that compares complex numbers considering their magnitude and phase. This helps the network retain the phase information even through the pooling layer. Experimental results on the simulated InSAR dataset show that FC2MFN achieves better results compared to other state-of-the-art methods in terms of segmentation performance and model complexity.

Object detection and classification using aerial images is a challenging task as the information regarding targets are not abundant. Synthetic Aperture Radar(SAR) images can be used for Automatic Target Recognition(ATR) systems as it can operate in all-weather conditions and in low light settings. But, SAR images contain salt and pepper noise(speckle noise) that cause hindrance for the deep learning models to extract meaningful features. Using just aerial view Electro-optical(EO) images for ATR systems may also not result in high accuracy as these images are of low resolution and also do not provide ample information in extreme weather conditions. Therefore, information from multiple sensors can be used to enhance the performance of Automatic Target Recognition(ATR) systems. In this paper, we explore a methodology to use both EO and SAR sensor information to effectively improve the performance of the ATR systems by handling the shortcomings of each of the sensors. A novel Multi-Modal Domain Fusion(MDF) network is proposed to learn the domain invariant features from multi-modal data and use it to accurately classify the aerial view objects. The proposed MDF network achieves top-10 performance in the Track-1 with an accuracy of 25.3 % and top-5 performance in Track-2 with an accuracy of 34.26 % in the test phase on the PBVS MAVOC Challenge dataset [18].

Business documents come in a variety of structures, formats and information needs which makes information extraction a challenging task. Due to these variations, having a document generic model which can work well across all types of documents and for all the use cases seems far-fetched. For document-specific models, we would need customized document-specific labels. We introduce DoSA (Document Specific Automated Annotations), which helps annotators in generating initial annotations automatically using our novel bootstrap approach by leveraging document generic datasets and models. These initial annotations can further be reviewed by a human for correctness. An initial document-specific model can be trained and its inference can be used as feedback for generating more automated annotations. These automated annotations can be reviewed by human-in-the-loop for the correctness and a new improved model can be trained using the current model as pre-trained model before going for the next iteration. In this paper, our scope is limited to Form like documents due to limited availability of generic annotated datasets, but this idea can be extended to a variety of other documents as more datasets are built. An open-source ready-to-use implementation is made available on GitHub https://github.com/neeleshkshukla/DoSA.

我们探索了使用机器学习技术来消除实验光谱中大量$ \ gamma $ ray检测器的响应。分段$ \ gamma $ -Ray总吸收光谱仪（TAS）允许同时测量单个$ \ gamma $ -ray $ -Ray-ray Energy（e $ _ \ gamma $）和总激发能量（E $ _X $）。 TAS检测器数据的分析使E $ _X $和E $ _ \ gamma $数量相关联，因此与使用E $ _x $和E $ _ \ gamma $响应函数相关的技术是复杂的，因此不那么准确。在这项工作中，我们调查了有条件生成的对抗网络（CGAN）同时展开$ e_ {x} $和$ e _ {\ gamma} $ data在TAS检测器中的数据。具体而言，我们采用PIX2PIX CGAN，这是一种基于深度学习进展的生成建模技术，以处理$（e_x，e _ {\ gamma}）$矩阵作为图像到图像翻译问题。我们提出了单个 - $ \ gamma $和double-$ \ gamma $ decay cascades的模拟和实验矩阵的结果。我们的模型展示了检测器分辨率限制内的表征功能，其模拟测试用例$ 90 \％$。

简单的随机动量方法被广泛用于机器学习优化，但它们的良好实践表现与文献中没有理论保证的理论保证相矛盾。在这项工作中，我们的目标是通过表明随机重球动量来弥合理论和实践之间的差距，该动力可以解释为具有动量的随机kaczmarz算法，保留了二次优化问题（确定性）重球动量的快速线性速率，至少在使用足够大的批次大小的小型匹配时。该分析依赖于仔细分解动量过渡矩阵，并使用新的光谱范围浓度界限来进行独立随机矩阵的产物。我们提供数值实验，以证明我们的边界相当锐利。

In the learning from demonstration (LfD) paradigm, understanding and evaluating the demonstrated behaviors plays a critical role in extracting control policies for robots. Without this knowledge, a robot may infer incorrect reward functions that lead to undesirable or unsafe control policies. Recent work has proposed an LfD framework where a user provides a set of formal task specifications to guide LfD, to address the challenge of reward shaping. However, in this framework, specifications are manually ordered in a performance graph (a partial order that specifies relative importance between the specifications). The main contribution of this paper is an algorithm to learn the performance graph directly from the user-provided demonstrations, and show that the reward functions generated using the learned performance graph generate similar policies to those from manually specified performance graphs. We perform a user study that shows that priorities specified by users on behaviors in a simulated highway driving domain match the automatically inferred performance graph. This establishes that we can accurately evaluate user demonstrations with respect to task specifications without expert criteria.

CS中的主要出版物场所进行的同行评审会议务必依赖每篇论文的高素质审阅者。由于这些会议的规模越来越大，它们的工作时间表以及最近明显不诚实的行为激增，现在没有其他选择以自动化的方式进行这种匹配。本文研究了一种新颖的审阅者纸匹配方法，该方法最近在第35届AAAI人工智能会议（AAAI 2021）中部署，此后已被包括ICML 2022，AAAAI 2022和IJCAI 2022的其他会议（全部或部分）采用（完全或部分） 。该方法具有三个主要元素：（1）收集和处理输入数据以识别有问题的匹配并生成审阅者纸得分； （2）制定和解决优化问题，以找到良好的审阅者纸匹配； （3）两阶段的审查过程，将审查资源从可能被拒绝的论文转移到更接近决策界的文件。本文还根据对真实数据的大量事后分析进行了对这些创新的评估，包括与AAAI先前（2020年）迭代中使用的匹配算法进行比较 - 并通过其他数值实验对此进行了补充。

深入学习的强化学习（RL）的结合导致了一系列令人印象深刻的壮举，许多相信（深）RL提供了一般能力的代理。然而，RL代理商的成功往往对培训过程中的设计选择非常敏感，这可能需要繁琐和易于易于的手动调整。这使得利用RL对新问题充满挑战，同时也限制了其全部潜力。在许多其他机器学习领域，AutomL已经示出了可以自动化这样的设计选择，并且在应用于RL时也会产生有希望的初始结果。然而，自动化强化学习（AutorL）不仅涉及Automl的标准应用，而且还包括RL独特的额外挑战，其自然地产生了不同的方法。因此，Autorl已成为RL中的一个重要研究领域，提供来自RNA设计的各种应用中的承诺，以便玩游戏等游戏。鉴于RL中考虑的方法和环境的多样性，在不同的子领域进行了大部分研究，从Meta学习到进化。在这项调查中，我们寻求统一自动的领域，我们提供常见的分类法，详细讨论每个区域并对研究人员来说是一个兴趣的开放问题。