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Generated at 2024-11-25 05:07:50

We have 224 news from different sources.

1feed¶

1.1url: str = ‘https://www.zhihu.com’¶

[source](url: str = ‘https://www.zhihu.com’)

2024/11/25 05:07 GTM

fail to fetch, please visited the url manually.

1.2近期必看的多模态大模型进展：从Qwen2-VL到Pixtral¶

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2024/11/24 05:35 GTM

本文总结了近期一些备受关注得多模态大模型相关工作。

1.3EMNLP 2024最佳论文！通过耦合理解与生成，实现用户互动反馈的持续学习¶

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bilibili

2024/11/25 04:54 GTM

咸鱼梦想家vlog post at 2024-11-22 17:38:24

1.10骑行北疆竟然碰见了老乡被投喂沙棘果汁暖心100%¶

bilibili

2024/11/25 04:54 GTM

赵朔西行漫记 post at 2024-11-24 11:41:41

悟空越来越调皮了，不皮就不是悟空了

1.11《生肖造神日记516》—全放倒。（明日休息，不更哦）¶

bilibili

2024/11/25 04:54 GTM

熊熊仔的沙雕动画 post at 2024-11-24 17:41:55

1.12海里的刑部尚书浑身都是刑具让人头皮发麻！《疼痛之王2》¶

bilibili

2024/11/25 04:54 GTM

沫子瞪片 post at 2024-11-20 18:30:00

死手快三连呐！

2024/11/25 04:54 GTM

2.10Context-Aware Multimodal Pretraining¶

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2024/11/25 04:54 GTM

Large-scale multimodal representation learning successfully optimizes for zero-shot transfer at test time. Yet the standard pretraining paradigm (contrastive learning on large amounts of image-text data) does not explicitly encourage representations to support few-shot adaptation. In this work, we propose a simple, but carefully designed extension to multimodal pretraining which enables representations to accommodate additional context. Using this objective, we show that vision-language models can be trained to exhibit significantly increased few-shot adaptation: across 21 downstream tasks, we find up to four-fold improvements in test-time sample efficiency, and average few-shot adaptation gains of over 5%, while retaining zero-shot generalization performance across model scales and training durations. In particular, equipped with simple, training-free, metric-based adaptation mechanisms, our representations easily surpass more complex and expensive optimization-based schemes, vastly simplifying generalization to new domains.

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2024/11/25 04:54 GTM

2.17LLaVA-MR: Large Language-and-Vision Assistant for Video Moment Retrieval¶

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2024/11/25 04:54 GTM

Multimodal Large Language Models (MLLMs) are widely used for visual perception, understanding, and reasoning. However, long video processing and precise moment retrieval remain challenging due to LLMs’ limited context size and coarse frame extraction. We propose the Large Language-and-Vision Assistant for Moment Retrieval (LLaVA-MR), which enables accurate moment retrieval and contextual grounding in videos using MLLMs. LLaVA-MR combines Dense Frame and Time Encoding (DFTE) for spatial-temporal feature extraction, Informative Frame Selection (IFS) for capturing brief visual and motion patterns, and Dynamic Token Compression (DTC) to manage LLM context limitations. Evaluations on benchmarks like Charades-STA and QVHighlights demonstrate that LLaVA-MR outperforms 11 state-of-the-art methods, achieving an improvement of 1.82% in R1@0.5 and 1.29% in mAP@0.5 on the QVHighlights dataset. Our implementation will be open-sourced upon acceptance.

2.18Efficient Pruning of Text-to-Image Models: Insights from Pruning Stable Diffusion¶

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2024/11/25 04:54 GTM

As text-to-image models grow increasingly powerful and complex, their burgeoning size presents a significant obstacle to widespread adoption, especially on resource-constrained devices. This paper presents a pioneering study on post-training pruning of Stable Diffusion 2, addressing the critical need for model compression in text-to-image domain. Our study tackles the pruning techniques for the previously unexplored multi-modal generation models, and particularly examines the pruning impact on the textual component and the image generation component separately. We conduct a comprehensive comparison on pruning the model or the single component of the model in various sparsities. Our results yield previously undocumented findings. For example, contrary to established trends in language model pruning, we discover that simple magnitude pruning outperforms more advanced techniques in text-to-image context. Furthermore, our results show that Stable Diffusion 2 can be pruned to 38.5% sparsity with minimal quality loss, achieving a significant reduction in model size. We propose an optimal pruning configuration that prunes the text encoder to 47.5% and the diffusion generator to 35%. This configuration maintains image generation quality while substantially reducing computational requirements. In addition, our work uncovers intriguing questions about information encoding in text-to-image models: we observe that pruning beyond certain thresholds leads to sudden performance drops (unreadable images), suggesting that specific weights encode critical semantics information. This finding opens new avenues for future research in model compression, interoperability, and bias identification in text-to-image models. By providing crucial insights into the pruning behavior of text-to-image models, our study lays the groundwork for developing more efficient and accessible AI-driven image generation systems

2.19Efficient Pruning of Text-to-Image Models: Insights from Pruning Stable Diffusion¶

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2024/11/25 04:54 GTM

2.20Benchmarking the Robustness of Optical Flow Estimation to Corruptions¶

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arxiv html pdf kimi

2024/11/25 04:54 GTM

2.43HotSpot: Screened Poisson Equation for Signed Distance Function Optimization¶

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2024/11/25 04:54 GTM

We propose a method, HotSpot, for optimizing neural signed distance functions, based on a relation between the solution of a screened Poisson equation and the distance function. Existing losses such as the eikonal loss cannot guarantee the recovered implicit function to be a distance function, even when the implicit function satisfies the eikonal equation almost everywhere. Furthermore, the eikonal loss suffers from stability issues in optimization and the remedies that introduce area or divergence minimization can lead to oversmoothing. We address these challenges by designing a loss function that when minimized can converge to the true distance function, is stable, and naturally penalize large surface area. We provide theoretical analysis and experiments on both challenging 2D and 3D datasets and show that our method provide better surface reconstruction and more accurate distance approximation.

2.44Night-to-Day Translation via Illumination Degradation Disentanglement¶

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2024/11/25 04:54 GTM

Night-to-Day translation (Night2Day) aims to achieve day-like vision for nighttime scenes. However, processing night images with complex degradations remains a significant challenge under unpaired conditions. Previous methods that uniformly mitigate these degradations have proven inadequate in simultaneously restoring daytime domain information and preserving underlying semantics. In this paper, we propose \textbf{N2D3} (\textbf{N}ight-to-\textbf{D}ay via \textbf{D}egradation \textbf{D}isentanglement) to identify different degradation patterns in nighttime images. Specifically, our method comprises a degradation disentanglement module and a degradation-aware contrastive learning module. Firstly, we extract physical priors from a photometric model based on Kubelka-Munk theory. Then, guided by these physical priors, we design a disentanglement module to discriminate among different illumination degradation regions. Finally, we introduce the degradation-aware contrastive learning strategy to preserve semantic consistency across distinct degradation regions. Our method is evaluated on two public datasets, demonstrating a significant improvement in visual quality and considerable potential for benefiting downstream tasks.

2.45Whats in a Video: Factorized Autoregressive Decoding for Online Dense Video Captioning¶

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2024/11/25 04:54 GTM

Generating automatic dense captions for videos that accurately describe their contents remains a challenging area of research. Most current models require processing the entire video at once. Instead, we propose an efficient, online approach which outputs frequent, detailed and temporally aligned captions, without access to future frames. Our model uses a novel autoregressive factorized decoding architecture, which models the sequence of visual features for each time segment, outputting localized descriptions and efficiently leverages the context from the previous video segments. This allows the model to output frequent, detailed captions to more comprehensively describe the video, according to its actual local content, rather than mimic the training data. Second, we propose an optimization for efficient training and inference, which enables scaling to longer videos. Our approach shows excellent performance compared to both offline and online methods, and uses 20% less compute. The annotations produced are much more comprehensive and frequent, and can further be utilized in automatic video tagging and in large-scale video data harvesting.

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2024/11/25 04:54 GTM

2.52Point Cloud Understanding via Attention-Driven Contrastive Learning¶

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2024/11/25 04:54 GTM

Recently Transformer-based models have advanced point cloud understanding by leveraging self-attention mechanisms, however, these methods often overlook latent information in less prominent regions, leading to increased sensitivity to perturbations and limited global comprehension. To solve this issue, we introduce PointACL, an attention-driven contrastive learning framework designed to address these limitations. Our method employs an attention-driven dynamic masking strategy that guides the model to focus on under-attended regions, enhancing the understanding of global structures within the point cloud. Then we combine the original pre-training loss with a contrastive learning loss, improving feature discrimination and generalization. Extensive experiments validate the effectiveness of PointACL, as it achieves state-of-the-art performance across a variety of 3D understanding tasks, including object classification, part segmentation, and few-shot learning. Specifically, when integrated with different Transformer backbones like Point-MAE and PointGPT, PointACL demonstrates improved performance on datasets such as ScanObjectNN, ModelNet40, and ShapeNetPart. This highlights its superior capability in capturing both global and local features, as well as its enhanced robustness against perturbations and incomplete data.

2.53Harlequin: Color-driven Generation of Synthetic Data for Referring Expression Comprehension¶

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2024/11/25 04:54 GTM

Referring Expression Comprehension (REC) aims to identify a particular object in a scene by a natural language expression, and is an important topic in visual language understanding. State-of-the-art methods for this task are based on deep learning, which generally requires expensive and manually labeled annotations. Some works tackle the problem with limited-supervision learning or relying on Large Vision and Language Models. However, the development of techniques to synthesize labeled data is overlooked. In this paper, we propose a novel framework that generates artificial data for the REC task, taking into account both textual and visual modalities. At first, our pipeline processes existing data to create variations in the annotations. Then, it generates an image using altered annotations as guidance. The result of this pipeline is a new dataset, called Harlequin, made by more than 1M queries. This approach eliminates manual data collection and annotation, enabling scalability and facilitating arbitrary complexity. We pre-train three REC models on Harlequin, then fine-tuned and evaluated on human-annotated datasets. Our experiments show that the pre-training on artificial data is beneficial for performance.

2024/11/25 04:54 GTM

Diffusion models have shown remarkable success in text-to-image generation, making alignment methods for these models increasingly important. A key challenge is the sparsity of preference labels, which are typically available only at the terminal of denoising trajectories. This raises the issue of how to assign credit across denoising steps based on these sparse labels. In this paper, we propose Denoised Distribution Estimation (DDE), a novel method for credit assignment. Unlike previous approaches that rely on auxiliary models or hand-crafted schemes, DDE derives its strategy more explicitly. The proposed DDE directly estimates the terminal denoised distribution from the perspective of each step. It is equipped with two estimation strategies and capable of representing the entire denoising trajectory with a single model inference. Theoretically and empirically, we show that DDE prioritizes optimizing the middle part of the denoising trajectory, resulting in a novel and effective credit assignment scheme. Extensive experiments demonstrate that our approach achieves superior performance, both quantitatively and qualitatively.

2.80Prioritize Denoising Steps on Diffusion Model Preference Alignment via Explicit Denoised Distribution Estimation¶

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2024/11/25 04:54 GTM

2.81StreetviewLLM: Extracting Geographic Information Using a Chain-of-Thought Multimodal Large Language Model¶

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2024/11/25 04:54 GTM

Geospatial predictions are crucial for diverse fields such as disaster management, urban planning, and public health. Traditional machine learning methods often face limitations when handling unstructured or multi-modal data like street view imagery. To address these challenges, we propose StreetViewLLM, a novel framework that integrates a large language model with the chain-of-thought reasoning and multimodal data sources. By combining street view imagery with geographic coordinates and textual data, StreetViewLLM improves the precision and granularity of geospatial predictions. Using retrieval-augmented generation techniques, our approach enhances geographic information extraction, enabling a detailed analysis of urban environments. The model has been applied to seven global cities, including Hong Kong, Tokyo, Singapore, Los Angeles, New York, London, and Paris, demonstrating superior performance in predicting urban indicators, including population density, accessibility to healthcare, normalized difference vegetation index, building height, and impervious surface. The results show that StreetViewLLM consistently outperforms baseline models, offering improved predictive accuracy and deeper insights into the built environment. This research opens new opportunities for integrating the large language model into urban analytics, decision-making in urban planning, infrastructure management, and environmental monitoring.

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2.103Benchmarking Multimodal Models for Ukrainian Language Understanding Across Academic and Cultural Domains¶

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2024/11/25 04:54 GTM

While the evaluation of multimodal English-centric models is an active area of research with numerous benchmarks, there is a profound lack of benchmarks or evaluation suites for low- and mid-resource languages. We introduce ZNO-Vision, a comprehensive multimodal Ukrainian-centric benchmark derived from standardized university entrance examination (ZNO). The benchmark consists of over 4,300 expert-crafted questions spanning 12 academic disciplines, including mathematics, physics, chemistry, and humanities. We evaluated the performance of both open-source models and API providers, finding that only a handful of models performed above baseline. Alongside the new benchmark, we performed the first evaluation study of multimodal text generation for the Ukrainian language: we measured caption generation quality on the Multi30K-UK dataset, translated the VQA benchmark into Ukrainian, and measured performance degradation relative to original English versions. Lastly, we tested a few models from a cultural perspective on knowledge of national cuisine. We believe our work will advance multimodal generation capabilities for the Ukrainian language and our approach could be useful for other low-resource languages.

2.104Assessment of LLM Responses to End-user Security Questions¶

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2024/11/25 04:54 GTM

Answering end user security questions is challenging. While large language models (LLMs) like GPT, LLAMA, and Gemini are far from error-free, they have shown promise in answering a variety of questions outside of security. We studied LLM performance in the area of end user security by qualitatively evaluating 3 popular LLMs on 900 systematically collected end user security questions. While LLMs demonstrate broad generalist ``knowledge’’ of end user security information, there are patterns of errors and limitations across LLMs consisting of stale and inaccurate answers, and indirect or unresponsive communication styles, all of which impacts the quality of information received. Based on these patterns, we suggest directions for model improvement and recommend user strategies for interacting with LLMs when seeking assistance with security.

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2024/11/25 04:54 GTM

Foundation models (FMs) achieve strong performance across diverse tasks with task-specific fine-tuning, yet full parameter fine-tuning is often computationally prohibitive for large models. Parameter-efficient fine-tuning (PEFT) methods like Low-Rank Adaptation (LoRA) reduce this cost by introducing low-rank matrices for tuning fewer parameters. While LoRA allows for efficient fine-tuning, it requires significant data for adaptation, making Federated Learning (FL) an appealing solution due to its privacy-preserving collaborative framework. However, combining LoRA with FL introduces two key challenges: the \textbf{Server-Side LoRA Aggregation Bias}, where server-side averaging of LoRA matrices diverges from the ideal global update, and the \textbf{Client-Side LoRA Initialization Drift}, emphasizing the need for consistent initialization across rounds. Existing approaches address these challenges individually, limiting their effectiveness. We propose LoRA-FAIR, a novel method that tackles both issues by introducing a correction term on the server while keeping the original LoRA modules, enhancing aggregation efficiency and accuracy. LoRA-FAIR maintains computational and communication efficiency, yielding superior performance over state-of-the-art methods. Experimental results on ViT and MLP-Mixer models across large-scale datasets demonstrate that LoRA-FAIR consistently achieves performance improvements in FL settings.

2.106FedMLLM: Federated Fine-tuning MLLM on Multimodal Heterogeneity Data¶

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2024/11/25 04:54 GTM

Multimodal Large Language Models (MLLMs) have made significant advancements, demonstrating powerful capabilities in processing and understanding multimodal data. Fine-tuning MLLMs with Federated Learning (FL) allows for expanding the training data scope by including private data sources, thereby enhancing their practical applicability in privacy-sensitive domains. However, current research remains in the early stage, particularly in addressing the \textbf{multimodal heterogeneities} in real-world applications. In this paper, we introduce a benchmark for evaluating various downstream tasks in the federated fine-tuning of MLLMs within multimodal heterogeneous scenarios, laying the groundwork for the research in the field. Our benchmark encompasses two datasets, five comparison baselines, and four multimodal scenarios, incorporating over ten types of modal heterogeneities. To address the challenges posed by modal heterogeneity, we develop a general FedMLLM framework that integrates four representative FL methods alongside two modality-agnostic strategies. Extensive experimental results show that our proposed FL paradigm improves the performance of MLLMs by broadening the range of training data and mitigating multimodal heterogeneity. Code is available at https://github.com/1xbq1/FedMLLM

2024/11/25 04:54 GTM

Deep Learning models tend to learn correlations of patterns on huge datasets. The bigger these systems are, the more complex are the phenomena they can detect, and the more data they need for this. The use of Artificial Intelligence (AI) is becoming increasingly ubiquitous in our society, and its impact is growing everyday. The promises it holds strongly depend on their fair and universal use, such as access to information or education for all. In a world of inequalities, they can help to reach the most disadvantaged areas. However, such a universal systems must be able to represent society, without benefiting some at the expense of others. We must not reproduce the inequalities observed throughout the world, but educate these IAs to go beyond them. We have seen cases where these systems use gender, race, or even class information in ways that are not appropriate for resolving their tasks. Instead of real causal reasoning, they rely on spurious correlations, which is what we usually call a bias. In this paper, we first attempt to define what is a bias in general terms. It helps us to demystify the concept of bias, to understand why we can find them everywhere and why they are sometimes useful. Second, we focus over the notion of what is generally seen as negative bias, the one we want to avoid in machine learning, before presenting a general zoology containing the most common of these biases. We finally conclude by looking at classical methods to detect them, by means of specially crafted datasets of templates and specific algorithms, and also classical methods to mitigate them.

Robust medical Machine Learning (ML) models have the potential to revolutionize healthcare by accelerating clinical research, improving workflows and outcomes, and producing novel insights or capabilities. Developing such ML models from scratch is cost prohibitive and requires substantial compute, data, and time (e.g., expert labeling). To address these challenges, we introduce Health AI Developer Foundations (HAI-DEF), a suite of pre-trained, domain-specific foundation models, tools, and recipes to accelerate building ML for health applications. The models cover various modalities and domains, including radiology (X-rays and computed tomography), histopathology, dermatological imaging, and audio. These models provide domain specific embeddings that facilitate AI development with less labeled data, shorter training times, and reduced computational costs compared to traditional approaches. In addition, we utilize a common interface and style across these models, and prioritize usability to enable developers to integrate HAI-DEF efficiently. We present model evaluations across various tasks and conclude with a discussion of their application and evaluation, covering the importance of ensuring efficacy, fairness, and equity. Finally, while HAI-DEF and specifically the foundation models lower the barrier to entry for ML in healthcare, we emphasize the importance of validation with problem- and population-specific data for each desired usage setting. This technical report will be updated over time as more modalities and features are added.

3paper RO¶

3.1FastGrasp: Efficient Grasp Synthesis with Diffusion¶

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Existing navigation systems mostly consider “success” when the robot reaches within 1m radius to a goal. This precision is insufficient for emerging applications where the robot needs to be positioned precisely relative to an object for downstream tasks, such as docking, inspection, and manipulation. To this end, we design and implement Aim-My-Robot (AMR), a local navigation system that enables a robot to reach any object in its vicinity at the desired relative pose, with centimeter-level precision. AMR achieves high precision and robustness by leveraging multi-modal perception, precise action prediction, and is trained on large-scale photorealistic data generated in simulation. AMR shows strong sim2real transfer and can adapt to different robot kinematics and unseen objects with little to no fine-tuning.

3.3Benchmarking the Robustness of Optical Flow Estimation to Corruptions¶

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3.4VisionPAD: A Vision-Centric Pre-training Paradigm for Autonomous Driving¶

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2024/11/25 04:54 GTM

3.5WildLMa: Long Horizon Loco-Manipulation in the Wild¶

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3.6Time is on my sight: scene graph filtering for dynamic environment perception in an LLM-driven robot¶

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2024/11/25 04:54 GTM

Robots are increasingly being used in dynamic environments like workplaces, hospitals, and homes. As a result, interactions with robots must be simple and intuitive, with robots perception adapting efficiently to human-induced changes. This paper presents a robot control architecture that addresses key challenges in human-robot interaction, with a particular focus on the dynamic creation and continuous update of the robot state representation. The architecture uses Large Language Models to integrate diverse information sources, including natural language commands, robotic skills representation, real-time dynamic semantic mapping of the perceived scene. This enables flexible and adaptive robotic behavior in complex, dynamic environments. Traditional robotic systems often rely on static, pre-programmed instructions and settings, limiting their adaptability to dynamic environments and real-time collaboration. In contrast, this architecture uses LLMs to interpret complex, high-level instructions and generate actionable plans that enhance human-robot collaboration. At its core, the system Perception Module generates and continuously updates a semantic scene graph using RGB-D sensor data, providing a detailed and structured representation of the environment. A particle filter is employed to ensure accurate object localization in dynamic, real-world settings. The Planner Module leverages this up-to-date semantic map to break down high-level tasks into sub-tasks and link them to robotic skills such as navigation, object manipulation (e.g., PICK and PLACE), and movement (e.g., GOTO). By combining real-time perception, state tracking, and LLM-driven communication and task planning, the architecture enhances adaptability, task efficiency, and human-robot collaboration in dynamic environments.

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2024/11/25 04:54 GTM

This paper presents a robot control algorithm suitable for safe reactive navigation tasks in cluttered environments. The proposed approach consists of transforming the robot workspace into the \emph{ball world}, an artificial representation where all obstacle regions are closed balls. Starting from a polyhedral representation of obstacles in the environment, obtained using exteroceptive sensor readings, a computationally efficient mapping to ball-shaped obstacles is constructed using quasi-conformal mappings and Möbius transformations. The geometry of the ball world is amenable to provably safe navigation tasks achieved via control barrier functions employed to ensure collision-free robot motions with guarantees both on safety and on the absence of deadlocks. The performance of the proposed navigation algorithm is showcased and analyzed via extensive simulations and experiments performed using different types of robotic systems, including manipulators and mobile robots.

3.8Autonomous Tail-Sitter Flights in Unknown Environments¶

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2024/11/25 04:54 GTM

Trajectory generation for fully autonomous flights of tail-sitter unmanned aerial vehicles (UAVs) presents substantial challenges due to their highly nonlinear aerodynamics. In this paper, we introduce, to the best of our knowledge, the world’s first fully autonomous tail-sitter UAV capable of high-speed navigation in unknown, cluttered environments. The UAV autonomy is enabled by cutting-edge technologies including LiDAR-based sensing, differential-flatness-based trajectory planning and control with purely onboard computation. In particular, we propose an optimization-based tail-sitter trajectory planning framework that generates high-speed, collision-free, and dynamically-feasible trajectories. To efficiently and reliably solve this nonlinear, constrained \textcolor{black}{problem}, we develop an efficient feasibility-assured solver, EFOPT, tailored for the online planning of tail-sitter UAVs. We conduct extensive simulation studies to benchmark EFOPT’s superiority in planning tasks against conventional NLP solvers. We also demonstrate exhaustive experiments of aggressive autonomous flights with speeds up to 15m/s in various real-world environments, including indoor laboratories, underground parking lots, and outdoor parks. A video demonstration is available at https://youtu.be/OvqhlB2h3k8, and the EFOPT solver is open-sourced at https://github.com/hku-mars/EFOPT.

3.9Tra-MoE: Learning Trajectory Prediction Model from Multiple Domains for Adaptive Policy Conditioning¶

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2024/11/25 04:54 GTM

Learning from multiple domains is a primary factor that influences the generalization of a single unified robot system. In this paper, we aim to learn the trajectory prediction model by using broad out-of-domain data to improve its performance and generalization ability. Trajectory model is designed to predict any-point trajectories in the current frame given an instruction and can provide detailed control guidance for robotic policy learning. To handle the diverse out-of-domain data distribution, we propose a sparsely-gated MoE (\textbf{Top-1} gating strategy) architecture for trajectory model, coined as \textbf{Tra-MoE}. The sparse activation design enables good balance between parameter cooperation and specialization, effectively benefiting from large-scale out-of-domain data while maintaining constant FLOPs per token. In addition, we further introduce an adaptive policy conditioning technique by learning 2D mask representations for predicted trajectories, which is explicitly aligned with image observations to guide action prediction more flexibly. We perform extensive experiments on both simulation and real-world scenarios to verify the effectiveness of Tra-MoE and adaptive policy conditioning technique. We also conduct a comprehensive empirical study to train Tra-MoE, demonstrating that our Tra-MoE consistently exhibits superior performance compared to the dense baseline model, even when the latter is scaled to match Tra-MoE’s parameter count.

3.10Enhancing Exploration with Diffusion Policies in Hybrid Off-Policy RL: Application to Non-Prehensile Manipulation¶

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2024/11/25 04:54 GTM

Learning diverse policies for non-prehensile manipulation is essential for improving skill transfer and generalization to out-of-distribution scenarios. In this work, we enhance exploration through a two-fold approach within a hybrid framework that tackles both discrete and continuous action spaces. First, we model the continuous motion parameter policy as a diffusion model, and second, we incorporate this into a maximum entropy reinforcement learning framework that unifies both the discrete and continuous components. The discrete action space, such as contact point selection, is optimized through Q-value function maximization, while the continuous part is guided by a diffusion-based policy. This hybrid approach leads to a principled objective, where the maximum entropy term is derived as a lower bound using structured variational inference. We propose the Hybrid Diffusion Policy algorithm (HyDo) and evaluate its performance on both simulation and zero-shot sim2real tasks. Our results show that HyDo encourages more diverse behavior policies, leading to significantly improved success rates across tasks - for example, increasing from 53% to 72% on a real-world 6D pose alignment task. Project page: https://leh2rng.github.io/hydo

3.11DiffusionDrive: Truncated Diffusion Model for End-to-End Autonomous Driving¶

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3.12Task-Aware Robotic Grasping by evaluating Quality Diversity Solutions through Foundation Models¶

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2024/11/25 04:54 GTM

Task-aware robotic grasping is a challenging problem that requires the integration of semantic understanding and geometric reasoning. Traditional grasp planning approaches focus on stable or feasible grasps, often disregarding the specific tasks the robot needs to accomplish. This paper proposes a novel framework that leverages Large Language Models (LLMs) and Quality Diversity (QD) algorithms to enable zero-shot task-conditioned grasp selection. The framework segments objects into meaningful subparts and labels each subpart semantically, creating structured representations that can be used to prompt an LLM. By coupling semantic and geometric representations of an object’s structure, the LLM’s knowledge about tasks and which parts to grasp can be applied in the physical world. The QD-generated grasp archive provides a diverse set of grasps, allowing us to select the most suitable grasp based on the task. We evaluate the proposed method on a subset of the YCB dataset, where a Franka Emika robot is assigned to perform various actions based on object-specific task requirements. We created a ground truth by conducting a survey with six participants to determine the best grasp region for each task-object combination according to human intuition. The model was evaluated on 12 different objects across 4--7 object-specific tasks, achieving a weighted intersection over union (IoU) of 76.4% when compared to the survey data.

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2024/11/25 04:54 GTM

Solar trajectory monitoring is a pivotal challenge in solar energy systems, underpinning applications such as autonomous energy harvesting and environmental sensing. A prevalent failure mode in sustained solar tracking arises when the predictive algorithm erroneously diverges from the solar locus, erroneously anchoring to extraneous celestial or terrestrial features. This phenomenon is attributable to an inadequate assimilation of solar-specific objectness attributes within the tracking paradigm. To mitigate this deficiency inherent in extant methodologies, we introduce an innovative objectness regularization framework that compels tracking points to remain confined within the delineated boundaries of the solar entity. By encapsulating solar objectness indicators during the training phase, our approach obviates the necessity for explicit solar mask computation during operational deployment. Furthermore, we leverage the high-DoF robot arm to integrate our method to improve its robustness and flexibility in different outdoor environments.

1feed¶

1.1url: str = ‘https://www.zhihu.com’¶

1.2近期必看的多模态大模型进展：从Qwen2-VL到Pixtral¶

1.3EMNLP 2024最佳论文！通过耦合理解与生成，实现用户互动反馈的持续学习¶

1.4【享拆】Mac mini（M4）拆解：极致的性价比！¶

1.5Wiley+清华大学"AI+X"人工智能交叉学科前沿学术研讨会邀您参加！¶

1.6韩国今年最火的餐厅居然是中餐!排队5小时外国人都吃哭了¶

1.7北京内推 | 中关村人工智能研究院招聘人工智能研究岗/算法岗/系统工程岗¶

1.8送给所有知道我名字的人¶

1.9小伙在北京出租屋苦练厨艺，30元做一锅山东临沂炒鸡，超级好吃¶

1.10骑行北疆 竟然碰见了老乡 被投喂沙棘果汁 暖心100%¶

1.11《生肖造神日记516》—全放倒。（明日休息，不更哦）¶

1.12海里的刑部尚书 浑身都是刑具 让人头皮发麻！《疼痛之王2》¶

1.13气温骤降手脚被冻到没知觉放在外面的水都结冰了太冷了，躲在小房车里吃红烧牛肉真舒服¶

1.14混子多不可怕，谁不成熟谁尴尬¶

1.15卖面包的来了，二哈吵着要吃，主人要笑死了！¶

2paper¶

2.1Solving Zero-Shot 3D Visual Grounding as Constraint Satisfaction Problems¶

2.2VideoRepair: Improving Text-to-Video Generation via Misalignment Evaluation and Localized Refinement¶

2.3VideoRepair: Improving Text-to-Video Generation via Misalignment Evaluation and Localized Refinement¶

2.4FloAt: Flow Warping of Self-Attention for Clothing Animation Generation¶

2.5NexusSplats: Efficient 3D Gaussian Splatting in the Wild¶

2.6Test-Time Adaptation of 3D Point Clouds via Denoising Diffusion Models¶

2.7FastGrasp: Efficient Grasp Synthesis with Diffusion¶

2.8ReVisionLLM: Recursive Vision-Language Model for Temporal Grounding in Hour-Long Videos¶

2.9ReVisionLLM: Recursive Vision-Language Model for Temporal Grounding in Hour-Long Videos¶

2.10Context-Aware Multimodal Pretraining¶

2.11Context-Aware Multimodal Pretraining¶

2.12Morph: A Motion-free Physics Optimization Framework for Human Motion Generation¶

2.13Dynamics-Aware Gaussian Splatting Streaming Towards Fast On-the-Fly Training for 4D Reconstruction¶

2.14High-Resolution Image Synthesis via Next-Token Prediction¶

2.15VideoEspresso: A Large-Scale Chain-of-Thought Dataset for Fine-Grained Video Reasoning via Core Frame Selection¶

2.16VideoEspresso: A Large-Scale Chain-of-Thought Dataset for Fine-Grained Video Reasoning via Core Frame Selection¶

2.17LLaVA-MR: Large Language-and-Vision Assistant for Video Moment Retrieval¶

2.18Efficient Pruning of Text-to-Image Models: Insights from Pruning Stable Diffusion¶

2.19Efficient Pruning of Text-to-Image Models: Insights from Pruning Stable Diffusion¶

2.20Benchmarking the Robustness of Optical Flow Estimation to Corruptions¶

2.21Fine-Grained Alignment in Vision-and-Language Navigation through Bayesian Optimization¶

2.22Fine-Grained Alignment in Vision-and-Language Navigation through Bayesian Optimization¶

2.23VisionPAD: A Vision-Centric Pre-training Paradigm for Autonomous Driving¶

2.243D Convex Splatting: Radiance Field Rendering with 3D Smooth Convexes¶

2.25Latent Schrodinger Bridge: Prompting Latent Diffusion for Fast Unpaired Image-to-Image Translation¶

2.26Material Anything: Generating Materials for Any 3D Object via Diffusion¶

2.27U-Motion: Learned Point Cloud Video Compression with U-Structured Motion Estimation¶

2.28Efficient Long Video Tokenization via Coordinated-based Patch Reconstruction¶

2.29Learning to Stabilize Faces¶

2.30Style-Friendly SNR Sampler for Style-Driven Generation¶

2.31WildLMa: Long Horizon Loco-Manipulation in the Wild¶

2.32DyCoke: Dynamic Compression of Tokens for Fast Video Large Language Models¶

2.33Omni-IML: Towards Unified Image Manipulation Localization¶

2.34HeadRouter: A Training-free Image Editing Framework for MM-DiTs by Adaptively Routing Attention Heads¶

2.35Simplifying CLIP: Unleashing the Power of Large-Scale Models on Consumer-level Computers¶

2.36Evaluating Vision Transformer Models for Visual Quality Control in Industrial Manufacturing¶

2.37Learning to Ask: Conversational Product Search via Representation Learning¶

2.38Design-o-meter: Towards Evaluating and Refining Graphic Designs¶

2.39Improving Mathematical Reasoning Capabilities of Small Language Models via Feedback-Driven Distillation¶

2.40Any-to-3D Generation via Hybrid Diffusion Supervision¶

2.41Evaluating and Advancing Multimodal Large Language Models in Ability Lens¶

2.42Evaluating and Advancing Multimodal Large Language Models in Ability Lens¶

2.43HotSpot: Screened Poisson Equation for Signed Distance Function Optimization¶

2.44Night-to-Day Translation via Illumination Degradation Disentanglement¶

2.45Whats in a Video: Factorized Autoregressive Decoding for Online Dense Video Captioning¶

2.46Whats in a Video: Factorized Autoregressive Decoding for Online Dense Video Captioning¶

2.47BIP3D: Bridging 2D Images and 3D Perception for Embodied Intelligence¶

2.48Privacy-Preserving Video Anomaly Detection: A Survey¶

2.49About Time: Advances, Challenges, and Outlooks of Action Understanding¶

2.50Continual SFT Matches Multimodal RLHF with Negative Supervision¶

2.51Continual SFT Matches Multimodal RLHF with Negative Supervision¶

2.52Point Cloud Understanding via Attention-Driven Contrastive Learning¶

2.53Harlequin: Color-driven Generation of Synthetic Data for Referring Expression Comprehension¶

2.54Harlequin: Color-driven Generation of Synthetic Data for Referring Expression Comprehension¶

2.55DiffusionDrive: Truncated Diffusion Model for End-to-End Autonomous Driving¶

2.56VisGraphVar: A Benchmark Generator for Assessing Variability in Graph Analysis Using Large Vision-Language Models¶

2.57VisGraphVar: A Benchmark Generator for Assessing Variability in Graph Analysis Using Large Vision-Language Models¶

2.58Anti-Forgetting Adaptation for Unsupervised Person Re-identification¶

2.59Unveiling the Hidden: A Comprehensive Evaluation of Underwater Image Enhancement and Its Impact on Object Detection¶

2.60FOCUS: Knowledge-enhanced Adaptive Visual Compression for Few-shot Whole Slide Image Classification¶

2.61Robust Planning with Compound LLM Architectures: An LLM-Modulo Approach¶

2.62Exploring Accuracy-Fairness Trade-off in Large Language Models¶

1.10骑行北疆竟然碰见了老乡被投喂沙棘果汁暖心100%¶

1.12海里的刑部尚书浑身都是刑具让人头皮发麻！《疼痛之王2》¶

2.66mR²AG: Multimodal Retrieval-Reflection-Augmented Generation for Knowledge-Based VQA¶