伪装的对象检测（COD），将其优雅地融合到周围环境中的对象是一项有价值但充满挑战的任务。现有的深度学习方法通常陷入具有完整和精细的对象结构准确识别伪装对象的困难。为此，在本文中，我们提出了一个新颖的边界引导网络（BGNET），以用于伪装对象检测。我们的方法探索了有价值的和额外的对象相关的边缘语义，以指导COD的表示形式学习，这迫使模型生成突出对象结构的特征，从而促进了精确边界定位的伪装对象检测。对三个具有挑战性的基准数据集进行的广泛实验表明，我们的BGNET在四个广泛使用的评估指标下的现有18种最新方法明显优于现有的18种最新方法。我们的代码可在以下网址公开获取：https：//github.com/thograce/bgnet。

当前的预训练语言模型（PLM）通常是通过静态数据训练的，忽略了在现实情况下，各种来源的流数据可能会不断增长。这要求PLM终生整合来自所有来源的信息。尽管可以通过对所有现有数据进行详尽的预培训来实现此目标，但已知该过程在计算上是昂贵的。为此，我们提出了Elle，目的是为新兴数据有效终身预训练。具体而言，ELLE由（1）函数保留的模型扩展组成，它们灵活地扩展了现有的PLM的宽度和深度以提高知识获取的效率； （2）预先训练的领域提示，它消除了在预训练期间学习的多功能知识，并刺激了下游任务的适当知识。我们通过来自BERT和GPT上5个域的流数据进行实验。结果表明，在预训练效率和下游性能中，ELLE的优越性超过了各种终身学习基线。这些代码可在https://github.com/thunlp/elle上公开获得。

提示调整（PT）是一个有前途的参数高效的方法，可以利用极大的预先培训的语言模型（PLM），它可以通过仅调整几个软提示来实现与全参数微调的可比性。但是，与微调相比，PT经验需要更多的培训步骤。为了探索我们通过重用培训的软提示和分享知识来提高PT的效率，我们经验探讨了在不同任务和模型中的软提示的可转换性。在交叉任务传输中，我们发现训练有素的软提示可以转移到类似的任务并初始化PT，以加速培训并提高性能。此外，为了探讨影响的因素，提示跨任务的可转移性，我们调查如何测量提示相似性，并发现激活神经元的重叠率与可转移性高度相关。在跨模型传输中，我们探索如何将PLM的提示投影到另一个PLM并成功培训了一种可以在类似任务上实现非琐碎的传输性能的投影仪。但是，使用预计提示初始化PT不起作用，这可能是由优化偏好和PLMS高冗余引起的。我们的研究结果表明，具有知识转移的改善PT是可能的并且有希望的，而提示的交叉任务转移性通常比跨模型转移性更好。

We introduce a new tool for stochastic convex optimization (SCO): a Reweighted Stochastic Query (ReSQue) estimator for the gradient of a function convolved with a (Gaussian) probability density. Combining ReSQue with recent advances in ball oracle acceleration [CJJJLST20, ACJJS21], we develop algorithms achieving state-of-the-art complexities for SCO in parallel and private settings. For a SCO objective constrained to the unit ball in $\mathbb{R}^d$, we obtain the following results (up to polylogarithmic factors). We give a parallel algorithm obtaining optimization error $\epsilon_{\text{opt}}$ with $d^{1/3}\epsilon_{\text{opt}}^{-2/3}$ gradient oracle query depth and $d^{1/3}\epsilon_{\text{opt}}^{-2/3} + \epsilon_{\text{opt}}^{-2}$ gradient queries in total, assuming access to a bounded-variance stochastic gradient estimator. For $\epsilon_{\text{opt}} \in [d^{-1}, d^{-1/4}]$, our algorithm matches the state-of-the-art oracle depth of [BJLLS19] while maintaining the optimal total work of stochastic gradient descent. We give an $(\epsilon_{\text{dp}}, \delta)$-differentially private algorithm which, given $n$ samples of Lipschitz loss functions, obtains near-optimal optimization error and makes $\min(n, n^2\epsilon_{\text{dp}}^2 d^{-1}) + \min(n^{4/3}\epsilon_{\text{dp}}^{1/3}, (nd)^{2/3}\epsilon_{\text{dp}}^{-1})$ queries to the gradients of these functions. In the regime $d \le n \epsilon_{\text{dp}}^{2}$, where privacy comes at no cost in terms of the optimal loss up to constants, our algorithm uses $n + (nd)^{2/3}\epsilon_{\text{dp}}^{-1}$ queries and improves recent advancements of [KLL21, AFKT21]. In the moderately low-dimensional setting $d \le \sqrt n \epsilon_{\text{dp}}^{3/2}$, our query complexity is near-linear.

Exploring dense matching between the current frame and past frames for long-range context modeling, memory-based methods have demonstrated impressive results in video object segmentation (VOS) recently. Nevertheless, due to the lack of instance understanding ability, the above approaches are oftentimes brittle to large appearance variations or viewpoint changes resulted from the movement of objects and cameras. In this paper, we argue that instance understanding matters in VOS, and integrating it with memory-based matching can enjoy the synergy, which is intuitively sensible from the definition of VOS task, \ie, identifying and segmenting object instances within the video. Towards this goal, we present a two-branch network for VOS, where the query-based instance segmentation (IS) branch delves into the instance details of the current frame and the VOS branch performs spatial-temporal matching with the memory bank. We employ the well-learned object queries from IS branch to inject instance-specific information into the query key, with which the instance-augmented matching is further performed. In addition, we introduce a multi-path fusion block to effectively combine the memory readout with multi-scale features from the instance segmentation decoder, which incorporates high-resolution instance-aware features to produce final segmentation results. Our method achieves state-of-the-art performance on DAVIS 2016/2017 val (92.6% and 87.1%), DAVIS 2017 test-dev (82.8%), and YouTube-VOS 2018/2019 val (86.3% and 86.3%), outperforming alternative methods by clear margins.

We study time-inhomogeneous episodic reinforcement learning (RL) under general function approximation and sparse rewards. We design a new algorithm, Variance-weighted Optimistic $Q$-Learning (VO$Q$L), based on $Q$-learning and bound its regret assuming completeness and bounded Eluder dimension for the regression function class. As a special case, VO$Q$L achieves $\tilde{O}(d\sqrt{HT}+d^6H^{5})$ regret over $T$ episodes for a horizon $H$ MDP under ($d$-dimensional) linear function approximation, which is asymptotically optimal. Our algorithm incorporates weighted regression-based upper and lower bounds on the optimal value function to obtain this improved regret. The algorithm is computationally efficient given a regression oracle over the function class, making this the first computationally tractable and statistically optimal approach for linear MDPs.

This paper focuses on analyzing and improving the commonsense ability of recent popular vision-language (VL) models. Despite the great success, we observe that existing VL-models still lack commonsense knowledge/reasoning ability (e.g., "Lemons are sour"), which is a vital component towards artificial general intelligence. Through our analysis, we find one important reason is that existing large-scale VL datasets do not contain much commonsense knowledge, which motivates us to improve the commonsense of VL-models from the data perspective. Rather than collecting a new VL training dataset, we propose a more scalable strategy, i.e., "Data Augmentation with kNowledge graph linearization for CommonsensE capability" (DANCE). It can be viewed as one type of data augmentation technique, which can inject commonsense knowledge into existing VL datasets on the fly during training. More specifically, we leverage the commonsense knowledge graph (e.g., ConceptNet) and create variants of text description in VL datasets via bidirectional sub-graph sequentialization. For better commonsense evaluation, we further propose the first retrieval-based commonsense diagnostic benchmark. By conducting extensive experiments on some representative VL-models, we demonstrate that our DANCE technique is able to significantly improve the commonsense ability while maintaining the performance on vanilla retrieval tasks. The code and data are available at https://github.com/pleaseconnectwifi/DANCE

本文介绍了Omnivl，这是一种新的基础模型，旨在使用一种通用体系结构来支持图像语言和视频语言任务。它为图像和视频输入采用了统一的基于变压器的视觉编码器，因此可以执行联合图像语言和视频语言预处理。我们首次证明了这样的范式受益于图像和视频任务，而不是传统的单向传输（例如，使用图像语言来帮助视频语言）。为此，我们提出了对图像语言和视频语言的脱钩关节预处理，以有效地将视觉模型分解为空间和时间维度，并在图像和视频任务上获得性能提升。此外，我们引入了一种新颖的统一视觉对比度（UNIVLC）损失，以利用图像文本，视频文本，图像标签（例如，图像分类），视频标签（例如，视频动作识别）在一起受到监督和吵闹的监督预处理数据都尽可能多地利用。无需额外的任务适配器，Omnivl可以同时支持仅视觉任务（例如，图像分类，视频操作识别），跨模式对齐任务（例如，图像/视频 - 文本检索）和多模式理解和生成任务（例如，图像/视频问答，字幕）。我们在各种下游任务上评估Omnivl，并以相似的模型大小和数据量表获得最新的或竞争结果。

供应链平台（SCP）为下游行业提供了许多原材料。与传统的电子商务平台相比，由于用户兴趣有限，SCP中的数据更为稀疏。为了解决数据稀疏问题，可以应用跨域建议（CDR），从而通过源域信息提高目标域的建议性能。但是，将CDR应用于SCP，直接忽略了SCP中商品的层次结构，从而降低了建议性能。为了利用此功能，在本文中，我们以餐饮平台为例，并提出了图形跨域推荐模型GRES。该模型首先构造了树状图，以表示菜肴和成分不同节点的层次结构，然后应用我们提出的Tree2Vec方法将GCN和BERT模型组合到嵌入图中以嵌入图表以获取建议。商业数据集上的实验结果表明，GRES在供应链平台的跨域建议中明显优于最先进的方法。

我们试图将广泛的神经网络的非线性建模功能与模型预测控制（MPC）的安全保证相结合，并在严格的在线计算框架中。可以使用Koopman运算符捕获所考虑的网络类，并将其集成到基于Koopman的跟踪MPC（KTMPC）中，以用于非线性系统以跟踪分段常数引用。原始非线性动力学与其训练有素的Koopman线性模型之间模型不匹配的影响是通过在建议的跟踪MPC策略中使用约束拧紧方法来处理的。通过选择两个Lyapunov候选功能，我们证明解决方案是可行的，并且在存在有限的建模错误的情况下，在线和离线最佳可触发稳定输出均具有稳定的输入到状态。最后，我们展示了一个数值示例的结果以及自动地面车辆在跟踪给定参考文献中的应用。