人们说：“一张照片值一千字”。那么，我们如何从图像中获取丰富的信息？我们认为，通过使用视觉线索来桥接大型的识别视觉基础模型和语言模型，我们可以无需任何额外的跨模式训练。得益于基础模型的强大零拍功能，我们首先构建图像的丰富语义表示（例如，图像标签，对象属性 /位置，字幕）作为结构化的文本提示，称为视觉线索，使用视觉基础模型。基于视觉线索，我们使用大型语言模型为视觉内容生成一系列综合描述，然后再次通过视觉模型验证，以选择与图像最合适的候选人。我们通过定量和定性测量评估生成的描述的质量。结果证明了这种结构化语义表示的有效性。

Despite progress in perceptual tasks such as image classification, computers still perform poorly on cognitive tasks such as image description and question answering. Cognition is core to tasks that involve not just recognizing, but reasoning about our visual world. However, models used to tackle the rich content in images for cognitive tasks are still being trained using the same datasets designed for perceptual tasks. To achieve success at cognitive tasks, models need to understand the interactions and relationships between objects in

基于知识的视觉问题答案（VQA）涉及回答图像中不存在外部知识的问题。现有方法首先从外部资源中检索知识，然后通过所选知识，输入图像和答案预测的问题进行理性。但是，这种两步方法可能导致不匹配，可能会限制VQA性能。例如，检索到的知识可能与该问题无关紧要，并且在推理过程中重新安装的知识特征可能会偏离其在知识库中的最初含义（KB）。为了应对这一挑战，我们提出了PICA，这是一种简单而有效的方法，该方法通过使用图像字幕提示GPT3用于基于知识的VQA。受GPT-3在知识检索和问题答案中的力量的启发，而不是像以前的工作那样使用结构化的KB，而是将GPT-3视为一种隐式和非结构化的KB，可以共同获取和处理相关的知识。具体来说，我们首先将图像转换为GPT-3可以理解的标题（或标签），然后通过提供一些文字中的VQA示例来调整GPT-3以几个弹射方式解决VQA任务。我们通过仔细研究进一步提高绩效：（i）哪种文本格式最能描述图像内容，以及（ii）如何更好地选择和使用中文示例。 PICA解锁了GPT-3用于多模式任务的首次使用。通过仅使用16个示例，PICA超过了OK-VQA数据集上的绝对+8.6点。我们还在VQAV2上基准了PICA，PICA还显示出不错的表现。

在本文中，我们设计和训练生成的图像到文本变压器Git，以统一视觉语言任务，例如图像/视频字幕和问题答案。尽管生成模型在预训练和微调之间提供了一致的网络体系结构，但现有工作通常包含复杂的结构（Uni/多模式编码器/解码器），并取决于外部模块，例如对象检测器/标记器和光学角色识别（OCR） ）。在git中，我们将体系结构简化为一个图像编码器，而在单语言建模任务下将架构简化为一个文本解码器。我们还扩展了预训练数据和模型大小，以提高模型性能。没有铃铛和哨子，我们的git在12个具有挑战性的基准下建立了新的艺术状态。例如，我们的模型在文本贴图上首次超过了人类的表现（138.2 vs. 125.5在苹果酒中）。此外，我们提出了一种新的基于一代的图像分类和场景文本识别的方案，在标准基准上实现了不错的表现。

最近的文本到图像匹配模型对大型图像和句子的大公司进行了对比学习。虽然这些模型可以提供用于匹配和随后的零拍任务的强大分数，但它们不能给出给定图像的标题。在这项工作中，我们重新利用这些模型来生成在推理时间的图像时生成描述性文本，而无需进一步的训练或调整步骤。这是通过将具有大语言模型的视觉语义模型组合，从两种网络级模型中的知识中获益。由受监督标题方法获得的标题的限制性较小。此外，作为零射击学习方法，它非常灵活，我们展示了执行图像算法的能力，其中输入可以是图像或文本，输出是句子。这使得新颖的高级视觉能力，例如比较两个图像或解决视觉类比测试。

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。

Large-scale vision-language models such as CLIP have shown impressive performance on zero-shot image classification and image-to-text retrieval. However, such zero-shot performance of CLIP-based models does not realize in tasks that require a finer-grained correspondence between vision and language, such as Visual Question Answering (VQA). We investigate why this is the case, and report an interesting phenomenon of CLIP, which we call the Concept Association Bias (CAB), as a potential cause of the difficulty of applying CLIP to VQA and similar tasks. CAB is especially apparent when two concepts are present in the given image while a text prompt only contains a single concept. In such a case, we find that CLIP tends to treat input as a bag of concepts and attempts to fill in the other missing concept crossmodally, leading to an unexpected zero-shot prediction. For example, when asked for the color of a lemon in an image, CLIP predicts ``purple'' if the image contains a lemon and an eggplant. We demonstrate the Concept Association Bias of CLIP by showing that CLIP's zero-shot classification performance greatly suffers when there is a strong concept association between an object (e.g. lemon) and an attribute (e.g. its color). On the other hand, when the association between object and attribute is weak, we do not see this phenomenon. Furthermore, we show that CAB is significantly mitigated when we enable CLIP to learn deeper structure across image and text embeddings by adding an additional Transformer on top of CLIP and fine-tuning it on VQA. We find that across such fine-tuned variants of CLIP, the strength of CAB in a model predicts how well it performs on VQA.

Natural language explanations promise to offer intuitively understandable explanations of a neural network's decision process in complex vision-language tasks, as pursued in recent VL-NLE models. While current models offer impressive performance on task accuracy and explanation plausibility, they suffer from a range of issues: Some models feature a modular design where the explanation generation module is poorly integrated with a separate module for task-answer prediction, employ backbone models trained on limited sets of tasks, or incorporate ad hoc solutions to increase performance on single datasets. We propose to evade these limitations by applying recent advances in large-scale multi-task pretraining of generative Transformer models to the problem of VL-NLE tasks. Our approach outperforms recent models by a large margin, with human annotators preferring the generated explanations over the ground truth in two out of three evaluated datasets. As a novel challenge in VL-NLE research, we propose the problem of multi-task VL-NLE and show that jointly training on multiple tasks can increase the explanation quality. We discuss the ethical implications of high-quality NLE generation and other issues in recent VL-NLE research.

Many high-level skills that are required for computer vision tasks, such as parsing questions, comparing and contrasting semantics, and writing descriptions, are also required in other domains such as natural language processing. In this paper, we ask whether this makes it possible to learn those skills from text data and then use them to complete vision tasks without ever training on visual training data. Key to our approach is exploiting the joint embedding space of contrastively trained vision and language encoders. In practice, there can be systematic differences between embedding spaces for different modalities in contrastive models, and we analyze how these differences affect our approach and study a variety of strategies to mitigate this concern. We produce models using only text training data on three tasks: image captioning, visual entailment and visual question answering, and evaluate them on standard benchmarks using images. We find that this kind of transfer is possible and results in only a small drop in performance relative to models trained on images. We also showcase a variety of stylistic image captioning models that were trained using no image data and no human-curated language data, but instead text data from books, the web, or language models.

在过去的几年中，在文化遗产领域中使用深度学习和计算机视觉在文化遗产领域变得非常相关，其中包括有关音频智能指南，互动博物馆和增强现实的大量应用。所有这些技术都需要大量数据才能有效工作并对用户有用。在艺术品的背景下，专家在昂贵且耗时的过程中注释了此类数据。特别是，对于每件艺术品，必须收集艺术品和描述表的图像，以执行诸如视觉问题回答之类的常见任务。在本文中，我们提出了一种视觉问题回答的方法，该方法允许在运行时生成一个描述表，该表可用于回答有关艺术品的视觉和上下文问题，从而完全避免了图像和注释过程。为此，我们研究了使用GPT-3来生成描述用于艺术品，以分析通过字幕指标分析生成的描述的质量。最后，我们评估了视觉问答答案和字幕任务的性能。

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。

从图像中产生短篇小说是艰巨的。与图像字幕不同，来自图像的故事产生构成了多个挑战：保持故事连贯性，适当评估故事的质量，将生成的故事转向某种风格，并解决图像故事对的参考数据集的稀缺性，以限制训练期间的训练监督。在这项工作中，我们介绍了插件的故事讲述者（PPST），并通过以下方式改进图像到故事的生成：1）通过合并大型预培训模型，即剪辑和GPT-2来减轻数据稀缺问题，以促进通过最少的监督，流利的图像到文本一代，以及2）通过合并风格适配器来控制故事的生成，从而实现了更相关的一代。我们通过非风格，浪漫风格和动作风格的PPST进行图像到故事的生成实验，并将我们生成的故事与以前的故事进行比较三个方面的故事，即故事连贯性，图像故事相关性和风格和风格健身，使用自动和人类评估。结果表明，PPST提高了故事的连贯性，并且具有更好的图像故事相关性，但尚未充分风格。

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.

Despite the remarkable progress of image captioning, existing captioners typically lack the controllable capability to generate desired image captions, e.g., describing the image in a rough or detailed manner, in a factual or emotional view, etc. In this paper, we show that a unified model is qualified to perform well in diverse domains and freely switch among multiple styles. Such a controllable capability is achieved by embedding the prompt learning into the image captioning framework. To be specific, we design a set of prompts to fine-tune the pre-trained image captioner. These prompts allow the model to absorb stylized data from different domains for joint training, without performance degradation in each domain. Furthermore, we optimize the prompts with learnable vectors in the continuous word embedding space, avoiding the heuristic prompt engineering and meanwhile exhibiting superior performance. In the inference stage, our model is able to generate desired stylized captions by choosing the corresponding prompts. Extensive experiments verify the controllable capability of the proposed method. Notably, we achieve outstanding performance on two diverse image captioning benchmarks including COCO Karpathy split and TextCaps using a unified model.

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

Large language models (LLMs) have demonstrated excellent zero-shot generalization to new language tasks. However, effective utilization of LLMs for zero-shot visual question-answering (VQA) remains challenging, primarily due to the modality disconnection and task disconnection between LLM and VQA task. End-to-end training on vision and language data may bridge the disconnections, but is inflexible and computationally expensive. To address this issue, we propose \emph{Img2Prompt}, a plug-and-play module that provides the prompts that can bridge the aforementioned modality and task disconnections, so that LLMs can perform zero-shot VQA tasks without end-to-end training. In order to provide such prompts, we further employ LLM-agnostic models to provide prompts that can describe image content and self-constructed question-answer pairs, which can effectively guide LLM to perform zero-shot VQA tasks. Img2Prompt offers the following benefits: 1) It can flexibly work with various LLMs to perform VQA. 2)~Without the needing of end-to-end training, it significantly reduces the cost of deploying LLM for zero-shot VQA tasks. 3) It achieves comparable or better performance than methods relying on end-to-end training. For example, we outperform Flamingo~\cite{Deepmind:Flamingo2022} by 5.6\% on VQAv2. On the challenging A-OKVQA dataset, our method even outperforms few-shot methods by as much as 20\%.

我们介绍了自回归文本到图像（Parti）模型的途径，该模型生成高保真的影像图像并支持涉及复杂组成和世界知识的内容丰富的合成。 Parti将文本对图像生成视为类似于机器翻译的序列到序列建模问题，图像令牌的序列是目标输出，而不是其他语言的文本令牌。这种策略自然可以利用大型语言模型的先前工作，通过扩展数据和模型尺寸，能力和性能的持续进展。我们的方法很简单：首先，Parti使用基于变压器的图像令牌VIT-VQGAN将图像编码为离散令牌的序列。其次，我们通过将编码器二次变压器模型缩放到20B参数来实现一致的质量改进，其新的最新零弹药FID得分为7.23，而MS-Coco的FIDED得分为3.22。我们对本地化叙述以及党的详细分析（P2），这是1600多个英语提示的新的整体基准，证明了Parti在各种类别和难度方面的有效性。我们还探索并突出了我们的模型的局限性，以定义和体现关注重点领域以进一步改进。有关高分辨率图像，请参见https://parti.research.google/。

Natural Language Generation (NLG) has improved exponentially in recent years thanks to the development of sequence-to-sequence deep learning technologies such as Transformer-based language models. This advancement has led to more fluent and coherent NLG, leading to improved development in downstream tasks such as abstractive summarization, dialogue generation and data-to-text generation. However, it is also apparent that deep learning based generation is prone to hallucinate unintended text, which degrades the system performance and fails to meet user expectations in many real-world scenarios. To address this issue, many studies have been presented in measuring and mitigating hallucinated texts, but these have never been reviewed in a comprehensive manner before. In this survey, we thus provide a broad overview of the research progress and challenges in the hallucination problem in NLG. The survey is organized into two parts: (1) a general overview of metrics, mitigation methods, and future directions; and (2) an overview of task-specific research progress on hallucinations in the following downstream tasks, namely abstractive summarization, dialogue generation, generative question answering, data-to-text generation, machine translation, and visual-language generation. This survey serves to facilitate collaborative efforts among researchers in tackling the challenge of hallucinated texts in NLG.

我们挑战AI模型，以“展示”对《纽约客》标题比赛的复杂多模式幽默的理解。具体而言，我们开发了三个精心限制的任务，以掌握图像和标题之间的潜在复杂和意外的关系，并且对人类经验的广泛品种产生了复杂和意外的寓意；这些是纽约口径卡通的标志。我们调查了直接将卡通像素和字幕输入的视觉和语言模型，以及仅通过提供图像的文本描述来规避图像处理的仅限语言模型。即使我们为卡通图像提供了丰富的多方面注释，我们也可以确定高质量的机器学习模型（例如，微调，175b参数语言模型）和人类之间的性能差距。我们公开发布我们的语料库，包括描述图像的位置/实体的注释，场景的不寻常以及对笑话的解释。

我们提出了Unified-io，该模型执行了跨越经典计算机视觉任务的各种AI任务，包括姿势估计，对象检测，深度估计和图像生成，视觉和语言任务，例如区域字幕和引用表达理解，并引用表达理解，进行自然语言处理任务，例如回答和释义。由于与每个任务有关的异质输入和输出，包括RGB图像，每个像素映射，二进制掩码，边界框和语言，开发一个统一模型引起了独特的挑战。我们通过将每个受支持的输入和输出均匀地均匀地统一到一系列离散的词汇令牌来实现这一统一。在所有任务中，这种共同的表示使我们能够在视觉和语言字段中的80多个不同数据集上培训单个基于变压器的体系结构。 Unified-io是第一个能够在砂砾基准上执行所有7个任务的模型，并在NYUV2-DEPTH，Imagenet，VQA2.0，OK-VQA，SWIG，SWIG，VIZWIZ，BOOLQ，BOOLQ和SCITAIL，带有NYUV2-DEPTH，Imagenet，VQA2.0，诸如NYUV2-DEPTH，ImageNet，vqa2.0等16个不同的基准中产生强大的结果。没有任务或基准特定的微调。 unified-io的演示可在https://unified-io.allenai.org上获得。