The availability of large-scale image captioning and visual question answering datasets has contributed significantly to recent successes in vision-and-language pretraining. However, these datasets are often collected with overrestrictive requirements inherited from their original target tasks (e.g., image caption generation), which limit the resulting dataset scale and diversity. We take a step further in pushing the limits of vision-and-language pretraining data by relaxing the data collection pipeline used in Conceptual Captions 3M (CC3M) [70] and introduce the Conceptual 12M (CC12M), a dataset with 12 million image-text pairs specifically meant to be used for visionand-language pre-training. We perform an analysis of this dataset and benchmark its effectiveness against CC3M on multiple downstream tasks with an emphasis on long-tail visual recognition. Our results clearly illustrate the benefit of scaling up pre-training data for vision-and-language tasks, as indicated by the new state-of-the-art results on both the nocaps and Conceptual Captions benchmarks. 1

近年来，根据Vision-Language预训练（VLP），我们在图像标题任务中掌握了显着的性能提升。比例被认为是这一进步的重要因素。然而，大多数现有工作仅侧重于预训练的变压器，在大约400万图像上具有中等大小（例如，12或24层）。在本文中，我们呈现柠檬，一个大规模的图像标题器，并为图像标题的VLP的缩放行为提供第一个实证研究。我们使用最先进的VINVL模型作为我们的参考模型，它由图像特征提取器和变压器模型组成，并将变压器上下放大，模型大小范围从13到675万参数。在数据方面，我们通过高达200万图像文本对进行实验，该对基于图像的Alt属性自动从Web自动收集（称为ALT200M）。广泛的分析有助于将性能趋势表征为模型大小和预训练数据尺寸增加。我们还比较不同的培训配方，特别是在大规模嘈杂数据上培训。结果，柠檬在几个主要图像标题基准上实现了新的技术状态，包括Coco标题，Nocaps和概念标题。我们还显示柠檬可以在以零拍摄方式使用时生成带有长尾视觉概念的标题。

虽然标题模型已经获得了引人注目的结果，但在描述自然图像时，它们仍然不会涵盖现实世界概念的整个长尾分布。在本文中，我们通过在Web级自动收集的数据集上培训来解决与野外概念生成人类描述的任务。为此，我们提出了一种模型，该模型可以利用嘈杂的图像标题对，同时维持像Coco这样的传统人类注释数据集的描述性风格。我们的模型通过使用关键字和风格标记将内容从风格分开，使用单一目标是提示语言建模和比其他最近提出的更简单。在实验上，我们的模型在零拍摄设置中始终如一地占据了说明性质量和能力的现有方法。根据苹果酒公制，我们在使用外部数据时在Coco和Nocaps上获得新的最新状态。

We present ViLBERT (short for Vision-and-Language BERT), a model for learning task-agnostic joint representations of image content and natural language. We extend the popular BERT architecture to a multi-modal two-stream model, processing both visual and textual inputs in separate streams that interact through co-attentional transformer layers. We pretrain our model through two proxy tasks on the large, automatically collected Conceptual Captions dataset and then transfer it to multiple established vision-and-language tasks -visual question answering, visual commonsense reasoning, referring expressions, and caption-based image retrieval -by making only minor additions to the base architecture. We observe significant improvements across tasks compared to existing task-specific modelsachieving state-of-the-art on all four tasks. Our work represents a shift away from learning groundings between vision and language only as part of task training and towards treating visual grounding as a pretrainable and transferable capability.Preprint. Under review.

有效的缩放和灵活的任务接口使大型语言模型能够在许多任务中表现出色。帕利（Pali）根据视觉和文本输入生成文本，并使用该界面以许多语言执行许多视觉，语言和多模式任务。为了训练帕利，我们利用了大型的编码器语言模型和视觉变压器（VITS）。这使我们能够利用其现有能力，并利用培训它们的大量成本。我们发现，视觉和语言组成部分的联合缩放很重要。由于现有的语言变压器比其视觉对应物要大得多，因此我们训练迄今为止最大的VIT（VIT-E），以量化甚至大容量视觉模型的好处。为了训练Pali，我们基于一个新的图像文本训练集，其中包含10B图像和文本，以100多种语言来创建大型的多语言组合。帕利（Pali）在多个视觉和语言任务（例如字幕，视觉问题，索方式，场景文本理解）中实现了最新的，同时保留了简单，模块化和可扩展的设计。

Large-scale pre-training methods of learning cross-modal representations on image-text pairs are becoming popular for vision-language tasks. While existing methods simply concatenate image region features and text features as input to the model to be pre-trained and use selfattention to learn image-text semantic alignments in a brute force manner, in this paper, we propose a new learning method Oscar 1 , which uses object tags detected in images as anchor points to significantly ease the learning of alignments. Our method is motivated by the observation that the salient objects in an image can be accurately detected, and are often mentioned in the paired text. We pre-train an Oscar model on the public corpus of 6.5 million text-image pairs, and fine-tune it on downstream tasks, creating new state-of-the-arts on six well-established vision-language understanding and generation tasks. 2

视觉语言（VL）预训练最近受到了广泛的关注。但是，大多数现有的端到端预训练方法只旨在解决诸如图像文本检索，视觉询问答案（VQA）和图像字幕等VL任务，以测试对图像的高级了解，或者仅对目标区域进行测试 - 对诸如短语接地和对象检测等任务的水平理解。我们提出了Fiber（基于回避的变压器），这是一种新的VL模型体系结构，可以无缝处理这两种类型的任务。 Fiber没有将多模式融合到模型深处，而不是将融合后的专用变压器层用于融合，而是通过将交叉注意力插入图像和文本骨干杆中，从而在记忆和性能方面带来了增长。此外，与以前的工作不同，它要么仅在图像文本数据上进行训练，要么在带有框级注释的细粒度数据上进行培训，我们提出了一种两阶段的预训练策略，该策略有效地使用了这两种数据：（（ i）基于图像文本数据的粗粒细化预训练；然后是（ii）基于图像文本框数据的细粒度预训练。我们对各种VL任务进行全面的实验，从VQA，图像字幕和检索到短语接地，参考表达理解和对象检测。使用深层多模式融合，结合两阶段的预训练，光纤可对所有任务的强基础进行一致的性能改进，通常使用幅度更优于更多数据的方法。代码可从https://github.com/microsoft/fiber获得。

Joint image-text embedding is the bedrock for most Visionand-Language (V+L) tasks, where multimodality inputs are simultaneously processed for joint visual and textual understanding. In this paper, we introduce UNITER, a UNiversal Image-TExt Representation, learned through large-scale pre-training over four image-text datasets (COCO, Visual Genome, Conceptual Captions, and SBU Captions), which can power heterogeneous downstream V+L tasks with joint multimodal embeddings. We design four pre-training tasks: Masked Language Modeling (MLM), Masked Region Modeling (MRM, with three variants), Image-Text Matching (ITM), and Word-Region Alignment (WRA). Different from previous work that applies joint random masking to both modalities, we use conditional masking on pre-training tasks (i.e., masked language/region modeling is conditioned on full observation of image/text). In addition to ITM for global image-text alignment, we also propose WRA via the use of Optimal Transport (OT) to explicitly encourage finegrained alignment between words and image regions during pre-training. Comprehensive analysis shows that both conditional masking and OTbased WRA contribute to better pre-training. We also conduct a thorough ablation study to find an optimal combination of pre-training tasks. Extensive experiments show that UNITER achieves new state of the art across six V+L tasks (over nine datasets), including Visual Question

近年来，统一的视觉语言框架已经大大提高，其中大多数采用编码器架构将图像文本任务统一为序列到序列的生成。但是，现有的视频语言（VIDL）模型仍需要在每个任务的模型体系结构和培训目标中进行特定于任务的设计。在这项工作中，我们探索了一个统一的VIDL框架薰衣草，其中蒙版语言建模（MLM）用作所有前训练和下游任务的常见接口。这样的统一导致了简化的模型体系结构，在多模式编码器之上，只需要一个轻巧的MLM头，而不是具有更多参数的解码器。令人惊讶的是，实验结果表明，这个统一的框架在14个VIDL基准测试中实现了竞争性能，涵盖了视频问答，文本到视频检索和视频字幕。广泛的分析进一步证明了薰衣草比现有VIDL方法的优势：（i）在多任务列出时仅使用一组参数值支持所有下游任务； （ii）对各种下游任务的几乎没有概括； （iii）在视频问题回答任务上启用零射门评估。代码可从https://github.com/microsoft/lavender获得。

连接视觉和语言在生成智能中起着重要作用。因此，已经致力于图像标题的大型研究工作，即用句法和语义有意义的句子描述图像。从2015年开始，该任务通常通过由Visual Encoder组成的管道和文本生成的语言模型来解决任务。在这些年来，两种组件通过对象区域，属性，介绍多模态连接，完全关注方法和伯特早期融合策略的利用而显着发展。但是，无论令人印象深刻的结果，图像标题的研究还没有达到结论性答案。这项工作旨在提供图像标题方法的全面概述，从视觉编码和文本生成到培训策略，数据集和评估度量。在这方面，我们量化地比较了许多相关的最先进的方法来确定架构和培训策略中最有影响力的技术创新。此外，讨论了问题的许多变体及其开放挑战。这项工作的最终目标是作为理解现有文献的工具，并突出显示计算机视觉和自然语言处理的研究领域的未来方向可以找到最佳的协同作用。

我们提出了GLIPV2，这是一个接地的VL理解模型，该模型既服务于本地化任务（例如，对象检测，实例分割）和视觉语言（VL）理解任务（例如VQA，图像字幕）。 GLIPV2优雅地将本地化预训练和视觉语言预训练（VLP）具有三个预训练任务：短语接地作为对检测任务的VL重新重新制定，区域词对比度学习作为新型的区域词对比度对比度对比学习任务，以及蒙面的语言建模。这种统一不仅简化了先前的多阶段VLP程序，而且还可以在本地化和理解任务之间实现相互利益。实验结果表明，在各种本地化和理解任务上，单个GLIPV2模型（所有模型权重）在SOTA性能附近实现。该模型还显示了（1）在开放式摄制对象检测任务上进行的强零射击和很少的自适应性能，以及（2）VL理解任务上的卓越接地能力。代码将在https://github.com/microsoft/glip上发布。

We present Answer-Me, a task-aware multi-task framework which unifies a variety of question answering tasks, such as, visual question answering, visual entailment, visual reasoning. In contrast to previous works using contrastive or generative captioning training, we propose a novel and simple recipe to pre-train a vision-language joint model, which is multi-task as well. The pre-training uses only noisy image captioning data, and is formulated to use the entire architecture end-to-end with both a strong language encoder and decoder. Our results show state-of-the-art performance, zero-shot generalization, robustness to forgetting, and competitive single-task results across a variety of question answering tasks. Our multi-task mixture training learns from tasks of various question intents and thus generalizes better, including on zero-shot vision-language tasks. We conduct experiments in the challenging multi-task and open-vocabulary settings and across a variety of datasets and tasks, such as VQA2.0, SNLI-VE, NLVR2, GQA. We observe that the proposed approach is able to generalize to unseen tasks and that more diverse mixtures lead to higher accuracy in both known and novel tasks.

最先进的愿景和愿景和语言模型依靠大规模的Visio-linguisting预借鉴，以获得各种下游任务的良好性能。通常，这种模型通常是跨模态（对比）或多模态（具有早期融合）但不是两者;它们通常只针对特定的方式或任务。有希望的方向将是使用单一整体普遍模型，作为“基础”，目标是一次性的所有方式 - 真正的视觉和语言基础模型应该擅长视力任务，语言任务和交叉和多数模态视觉和语言任务。我们将Flava介绍在这样的模型中，并在跨越这些目标模式的广泛的35个任务上展示令人印象深刻的性能。

This paper presents a detailed study of improving visual representations for vision language (VL) tasks and develops an improved object detection model to provide object-centric representations of images. Compared to the most widely used bottom-up and top-down model [2], the new model is bigger, better-designed for VL tasks, and pre-trained on much larger training corpora that combine multiple public annotated object detection datasets. Therefore, it can generate representations of a richer collection of visual objects and concepts. While previous VL research focuses mainly on improving the vision-language fusion model and leaves the object detection model improvement untouched, we show that visual features matter significantly in VL models. In our experiments we feed the visual features generated by the new object detection model into a Transformer-based VL fusion model OSCAR [21], and utilize an improved approach OSCAR+ to pre-train the VL model and fine-tune it on a wide range of downstream VL tasks. Our results show that the new visual features significantly improve the performance across all VL tasks, creating new state-of-the-art results on seven public benchmarks. Code, models and pre-extracted features are released at https://github.com/pzzhang/VinVL. ♥ Microsoft Corporation♠ University of Washington † indicates equal contributions.

读取图像中文本的能力通常缺乏视觉和语言（V＆L）模型。我们如何学习表现出强烈的场景文本理解（Stu）的V＆L模型？在本文中，我们提出了Prestu，这是一种专门为场景文本理解而设计的简单预训练食谱。Prestu将简单的OCR感知预训练目标与带有现成的OCR信号的大型图像文本数据集结合在一起。我们从经验上证明了这一预训练目标对TextVQA，TextCaps，ST-VQA和Vizwiz-VQA的优越性。我们还研究了哪些因素会影响Stu性能，其中我们强调了在预训练期间图像分辨率和数据集量表的重要性。

通用视觉（GPV）系统是旨在解决各种视觉任务的模型，而无需进行架构更改。如今，GPV主要从大型完全监督的数据集中学习技能和概念。通过获取数据以迅速学习每个技能的每个概念，将GPV扩展到数万个概念都变得令人望而却步。这项工作提出了一种有效且廉价的替代方法：从监督数据集中学习技能，从Web图像搜索中学习概念，并利用GPV的关键特征：跨技能传递视觉知识的能力。我们使用跨越10K+视觉概念的1M+图像的数据集来演示3个基准上的两个现有GPV（GPV-1和VL-T5）的Webly Supumented概念扩展：5个基于可可的数据集（80个主要概念），这是一个新的策划系列，这是一个新的策划系列。基于OpenImages和VisualGenome存储库（〜500个概念）以及Web衍生的数据集（10K+概念）的5个数据集。我们还提出了一种新的体系结构GPV-2，该架构支持各种任务 - 从分类和本地化等视觉任务到Qu Viewer+语言任务，例如QA和字幕，再到更多的利基市场，例如人类对象互动检测。 GPV-2从Web数据中受益匪浅，并且在这些基准测试中胜过GPV-1和VL-T5。我们的数据，代码和Web演示可在https://prior.allenai.org/projects/gpv2上获得。

远见和语言预测已成为解决多模式下游任务的普遍方法。当前的趋势是朝着更大的模型和预处理数据集迈进。从长远来看，这一计算头急促似乎是不合理的，而是朝着可持续的解决方案迈进，事实上，排除了资源有限的学术实验室。在这项工作中，我们提出了一个称为VICHA的新框架，该框架有效利用输入数据以通过以下方式提高学习，以： ，（c）利用图像级注释，称为视觉概念，使用现有基础模型（例如剪辑）获得，以提高图像编码器的性能。尽管对数据的预估计少了四倍，但我们的VICHA策略在下游任务（例如图像文本检索，VQA，视觉推理，视觉上和视觉接地）上的其他方法优于其他方法。该代码将在此处公开提供：https：//github.com/mshukor/vicha

在过去的几年中，训练前模型的出现将单峰领域（例如计算机视觉（CV）和自然语言处理（NLP））带到了一个新时代。实质性的作品表明它们对下游大学任务有益，并避免从头开始训练新的模型。那么，此类预训练的模型可以应用于多模式任务吗？研究人员探索了这个问题并取得了重大进展。本文调查了视觉预训练（VLP）的最新进展和新的前沿，包括图像文本和视频文本预训练。为了使读者更好地掌握VLP，我们首先从五个方面回顾了其最新进展：功能提取，模型体系结构，培训预训练目标，预训练数据集和下游任务。然后，我们详细概述了特定的VLP模型。最后，我们讨论了VLP中的新边界。据我们所知，这是对VLP的首次调查。我们希望这项调查能够阐明VLP领域的未来研究。

This paper presents a unified Vision-Language Pre-training (VLP) model. The model is unified in that (1) it can be finetuned for either vision-language generation (e.g., image captioning) or understanding (e.g., visual question answering) tasks, and (2) it uses a shared multi-layer transformer network for both encoding and decoding, which differs from many existing methods where the encoder and decoder are implemented using separate models. The unified VLP model is pre-trained on a large amount of image-text pairs using the unsupervised learning objectives of two tasks: bidirectional and sequence-to-sequence (seq2seq) masked vision-language prediction. The two tasks differ solely in what context the prediction conditions on. This is controlled by utilizing specific self-attention masks for the shared transformer network. To the best of our knowledge, VLP is the first reported model that achieves state-of-the-art results on both vision-language generation and understanding tasks, as disparate as image captioning and visual question answering, across three challenging benchmark datasets: COCO Captions, Flickr30k Captions, and VQA 2.0. The code and the pre-trained models are available at https://github.com/LuoweiZhou/VLP.

Vision-Language Transformers can be learned without human labels (e.g. class labels, bounding boxes, etc). Existing work, whether explicitly utilizing bounding boxes or patches, assumes that the visual backbone must first be trained on ImageNet class prediction before being integrated into a multimodal linguistic pipeline. We show that this is not necessary and introduce a new model Vision-Language from Captions (VLC) built on top of Masked Auto-Encoders that does not require this supervision. In fact, in a head-to-head comparison between ViLT, the current state-of-the-art patch-based vision-language transformer which is pretrained with supervised object classification, and our model, VLC, we find that our approach 1. outperforms ViLT on standard benchmarks, 2. provides more interpretable and intuitive patch visualizations, and 3. is competitive with many larger models that utilize ROIs trained on annotated bounding-boxes.