πŸ“„ Notable* Recent AI/ML arXiv Papers

Last updated just now...

πŸ“„ RoboTTT: Context Scaling for Robot Policies
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15275v1
πŸ‘₯ Authors: Yunfan Jiang, Yevgen Chebotar (possible past Google (United States) affiliation), Ruijie Zheng, Fengyuan Hu, Yunhao Ge, Jimmy Wu, Tianyuan Dai, Scott Reed (possible past Google (United States) affiliation), Li Fei-Fei (possible past Stanford University affiliation), Yuke Zhu (possible past Stanford University affiliation), Linxi "jim" Fan
Abstract

Recent robot foundation models operate with single-step or short-history visuomotor context. We introduce Test-Time-Training Robot Policies (RoboTTT), a robot model and training recipe that scale visuomotor context to 8K timesteps, three orders of magnitude beyond state-of-the-art policies, without growing inference latency. At this context length, we unlock new robot capabilities: one-shot in-context imitation from human video demonstrations, on-the-fly policy improvement, robustness to perturb...

πŸ“„ SciDiagramEdit: Learning to Edit Scientific Diagrams from Paper Revisions
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15272v1
πŸ‘₯ Authors: Yasheng Sun, Zezi Zeng, Yifan Yang (possible past Tencent (China) affiliation), Chong Luo (possible past Google (United States) affiliation), Wenyi Wang, Ziwei Liu, JΓΌrgen Schmidhuber
Abstract

Editing the figures in a research paper is a routine and time-consuming part of everyday research practice: authors relabel components, rearrange panels, and restyle visuals as they revise their manuscripts. Automating this editing workflow under a natural-language instruction, however, is challenging, because a scientific figure is a dense infographic in which heterogeneous visual elements such as schematics, plots, photos, captions, and arrows are composed under a tight visual grammar to advan...

πŸ“„ Pretraining Data Can Be Poisoned through Computational Propaganda
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15267v1
πŸ‘₯ Authors: Victoria Graf, Hannaneh Hajishirzi (possible past University Of Washington affiliation), Noah A. Smith (possible past University Of Washington affiliation), David Kohlbrenner, Kyle Lo
Abstract

Poisoning pretraining data can introduce harmful behaviors to LMs that are difficult to detect and mitigate. Prior work on poisoning pretraining data has largely exploited established data sources such as Wikipedia, which do not represent the large scale and heterogeneity typical of pretraining corpora, and has ignored the interaction between poisoned data and data curation pipelines. We demonstrate that poisoning attacks on pretraining data are feasible beyond this limited setting through an ex...

πŸ“„ Scaling Behavior Foundation Model for Humanoid Robots
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15163v1
πŸ‘₯ Authors: Weishuai Zeng, Kangning Yin, Xiaojie Niu, Shunlin Lu, Weixiang Zhong, Jiahe Chen, Feiyu Jia, Xiao Chen, Zirui Wang, Furui Xu, Ming Zhou, Kailin Li, Weinan Zhang (possible past Shanghai Jiao Tong University affiliation), He Wang (possible past Stanford University affiliation), Li Yi (possible past Stanford University affiliation), Dahua Lin, Jiangmiao Pang (possible past Shanghai Artificial Intelligence Laboratory affiliation), Jingbo Wang
Abstract

Humanoid control requires natural whole-body coordination, precise real-time responses to control signals, and robust generalization across diverse environmental contexts, making it a cornerstone for generalist embodied agents. Behavior Foundation Models (BFMs) have recently emerged as a promising solution to address these challenges by leveraging large-scale behavioral data to achieve superior expressiveness, versatility and generalization. However, despite growing interest in scaling BFMs to f...

πŸ“„ InCarEmo: A Multimodal Dataset for In-Cabin Emotion Recognition and Driver State Monitoring
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14683v1
πŸ‘₯ Authors: Hao Yang (possible past Tencent (China) affiliation), Yanyan Zhao, Kewei Zhao, Hongbo Zhang, Tian Zheng, Yusheng Liu, Xing Fu, Bichen Wang, Yu Zhang (possible past Google (United States) affiliation), Hao He, Zhen Wu, Xuda Zhi, Yongbo Huang, Bing Qin
Abstract

Understanding driver emotion and state is critical for the next generation of intelligent in-cabin systems that ensure safety and enhance human-vehicle interaction. However, existing public datasets for in-cabin affective computing are largely limited to visual modalities and rarely include conversational information, making it difficult to capture the linguistic and interactive cues underlying driver emotion. To address these gaps, we introduce InCarEmo, a multimodal dataset for in-cabin emotio...

πŸ“„ Beyond Entropy: Correctness-Aware Advantage Shaping via Contrastive Policy Optimization
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14614v1
πŸ‘₯ Authors: Weiwen Xu, Jia Liu, Hou Pong Chan, Long Li, Deng Cai (possible past Shanghai Jiao Tong University affiliation), Min Chen, Hao Zhang (possible past Tencent (China) affiliation)
Abstract

Reinforcement learning with verifiable rewards (RLVR) commonly uses entropy for advantage shaping. However, entropy cannot distinguish useful uncertainty from detrimental confusion, limiting its effectiveness as a correctness signal. We propose Contrastive Policy Optimization (CPO), which uses token-level contrastive disagreement between reference-guided and vanilla generation distributions for correctness-aware advantage shaping. Both theoretical and empirical results show that this disagreemen...

πŸ“„ MathCoPilot: An Interactive System for Human-AI Symbiotic Paradigm of Mathematical Research
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14582v1
πŸ‘₯ Authors: Junjie Zhang, Jiayu Liu, Wenbin Liu, Zhenya Huang, Doudou Wang, Yan Jiang, Leiye Xu, Tao Xiong, Wen Huang, Qi Liu (possible past Tencent (China) affiliation), Guoping Hu, Enhong Chen (possible past Baidu (China) affiliation), Mengping Zhang, Xiangdong Ye
Abstract

Existing LLM-based theorem provers have achieved impressive results on formal mathematics benchmarks, yet they remain confined to acting as autonomous agents that prove a stated proposition. In this paper, we propose MathCoPilot, a human-in-the-loop system that embodies a new human--AI symbiotic paradigm for mathematical research, in which the mathematician steers the high-level mathematical direction while AI agents carry out the detailed formalization and proof work under continuous human guid...

πŸ“„ RetroAgent: Harnessing LLMs to Search Over Structured Memory for Agentic Retrosynthesis Planning
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14512v1
πŸ‘₯ Authors: Yanqiao Zhu, Jingru Gan, Xiaoqi Sun, Fang Sun, Yidan Shi, Md Mofijul Islam, Chao Shang, Wenhao Gao (possible past Massachusetts Institute Of Technology affiliation), Connor W. Coley (possible past Massachusetts Institute Of Technology affiliation), Yizhou Sun, Wei Wang (possible past University Of Oxford affiliation)
Abstract

Multi-step retrosynthesis planning seeks to decompose a target molecule into commercially available building blocks through a sequence of feasible reactions. The vast combinatorial search space makes this task challenging even for expert chemists. Traditional methods combine tree search with offline-trained value networks that score candidates in isolation, without reasoning about complete multi-step routes. Recent work leverages Large Language Models (LLMs) for this task, but relies on simple i...

πŸ“„ Reward-Free Evolving Agents via Pairwise Validator
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14408v1
πŸ‘₯ Authors: Minghao Liu, Yu Wang (possible past Tsinghua University affiliation), Jiayun Wang, Wei Wei (possible past Google (United States) affiliation)
Abstract

A self-evolving agentic loop repeatedly proposes a tweaked version of an agent (its prompt template or program) and accepts or rejects the change based on a per-iteration quality signal. Designing that signal is often the costly part of the project: a reliable scalar reward requires domain expertise and labeled examples that are themselves as expensive to assemble as the agent's underlying task. We propose replacing the scalar at the accept/reject gate with a pairwise validator: a frozen LLM tha...

πŸ“„ CatalogAgent: A Supervisor-mediated Self-Learning System Enabling Context Engineering for GenAI Models
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14396v1
πŸ‘₯ Authors: Zhu Cheng, Zhenming Wang, Yu, Tang, Dan Liu (possible past Google (United States) affiliation), Bryan Zhang, Athanasios N. Nikolakopoulos, Pranav Souri Itabada, Jing Zhang (possible past University Of Washington affiliation), Chih-Chi Chou, Peng Gao, Fatemeh Mansoori, Bharat Bojja, Sarath Chander, Sameer Thombare, Umit Batur, Tarik Arici
Abstract

Product catalogs are the backbone of e-commerce sites, yet a large number of structured attributes (SAs) -- such as material, color, and shape -- often have missing values. Typically, SA values are extracted from product information, including titles and descriptions. While LLM-based generator-evaluator frameworks have demonstrated effectiveness for SA prediction -- where an LLM generates SA values and another evaluates them -- they face challenges when the Generator and Evaluator produce confli...

πŸ“„ Chat2Scenic: An Iterative RAG-Based Framework for Scenario Generation in Autonomous Driving
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14387v1
πŸ‘₯ Authors: Yuan Gao (possible past Tencent (China) affiliation), Wenting Miao, Mattia Piccinini, Haoyu Wang (possible past Tencent (China) affiliation), Qunying Song, Johannes Betz
Abstract

Validating autonomous driving systems requires diverse, regulation-compliant test scenarios. In simulation-based testing, scenarios are defined as executable scripts. Yet automatically generating such scripts from regulatory descriptions remains an open challenge, and existing approaches face fundamental trade-offs. Retrieval-assemble methods achieve reasonable compilation rates but lack scalability, whereas retrieval-based full-script generation suffers from low compilation success rates. We pr...

πŸ“„ Align AI to Dynamic Human-AI Workflows
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14240v1
πŸ‘₯ Authors: Valerie Chen, Cleotilde Gonzalez, Anita Williams Woolley, Michael Lee, Tongshuang Wu (possible past University Of Washington affiliation), Vincent Conitzer, Aarti Singh (possible past Carnegie Mellon University affiliation)
Abstract

Current alignment approaches typically focus on emulating human behavior using static representations of human preferences, failing to capture the dynamic, context-dependent nature of real-world human-AI interactions. In this paper, we argue for a shift from static and emulative to interactive and complementary alignment, where preferences emerge through interaction and alignment is defined not by satisfying preferences alone. We first formalize this gap by contrasting existing alignment with a ...

πŸ“„ Never Too Late for Force: Accelerating VLA Post-Training with Reactive Force Injection
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14236v1
πŸ‘₯ Authors: Yi Wang, Wendi Chen, Zimo Wen, Han Xue, Xueqi Li, Wenye Yu, Zhijie Chen, Hao Yang (possible past Tencent (China) affiliation), Jun Lv, Chuan Wen, Cewu Lu (possible past Shanghai Jiao Tong University affiliation)
Abstract

Pretrained vision-language-action (VLA) policies provide strong language-conditioned manipulation knowledge, but they remain largely vision-driven and can struggle once manipulation enters contact states where the scene is occluded, depth is ambiguous, or small force errors push execution off the offline demonstration distribution. We present LIFT (Late Reactive Injection of Force for VLA Post-Training), a force-aware post-training framework that adds contact reactivity to a pretrained VLA polic...

πŸ“„ SeeSE3: Emergence of 3D Space in Vision Features
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14228v1
πŸ‘₯ Authors: Caroline Chen, Sayna Ebrahimi (possible past Meta (United States) affiliation), Fedor Kitashov, Ming-Hsuan Yang, Leonidas Guibas (possible past Stanford University affiliation), Viorica PΔƒtrΔƒucean, Maks Ovsjanikov
Abstract

In this paper, we ask whether vision foundation models construct representations that reflect the intrinsic properties of 3D Euclidean space. Unlike previous works that probe 3D awareness of vision features by regressing image-centric quantities such as depth or normals, we investigate the relation between the structure of the space of visual features and the group of Euclidean transformations $SE(3)$. We propose a set of probes to evaluate this relation from both topological and geometric persp...

πŸ“„ RxBrain: Embodied Cognition Foundation Model with Joint Language-Visual Reasoning and Imagination
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14187v1
πŸ‘₯ Authors: Haotian Liang, Mingkang Chen, Yufei Huang, Yuchun Guo, Xiaomeng Zhu, Xiangli Shi, Kaixuan Wang, Yunxuan Mao, Weijie Zhou, Ling Chen, Shirong Zeng, Yueyu Long, Yuchen Si, Yajuan Zhu, Xingyu Zhou, Minghui Wang, Wanjia He, Xin Yang, Lingzhu Xiang, Zhiqing Liu, Bohan Ma, Xiran Huang, Tianshuo Yang, Zhiheng Liu, Xuantang Xiong, Zisheng Lu, Ping Luo (possible past Shanghai Artificial Intelligence Laboratory affiliation), Yao Mu, Han Hu, Zhengyou Zhang (possible past Tencent (China) affiliation)
Abstract

Embodied cognition requires agents to connect high-level task reasoning with the physical states to be achieved. We introduce Hy-Embodied-RxBrain, an embodied cognition foundation model with joint language-visual reasoning and imagination. Unlike vision-language models that emphasize scene understanding and textual decision making, or generative world models that mainly predict future visual states, RxBrain represents embodied plans in a single planning sequence where language and visual imagina...

πŸ“„ ReasFlow: Assisting Reasoning-Centric Scientific Discovery in Applied Mathematics via a Knowledge-Based Multi-Agent System
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14178v1
πŸ‘₯ Authors: Yutong He, Daibo Li, Guohong Li, Jiahe Geng, Zhengyang Huang, Can Ren, Zekun Zhang, Yifan Liu, Shuchen Zhu, Hengrui Zhang (possible past Shanghai Jiao Tong University affiliation), Boao Kong, Ming Sun (possible past Baidu (China) affiliation), Shu Li, Chenyi Li, Jiang Hu, Kun Yuan, Zaiwen Wen, Pingwen Zhang
Abstract

Recent advances in Large Language Models have fueled autonomous AI agents capable of tackling complex scientific tasks, yet existing automated research systems remain predominantly focused on empirically driven domains with quantitative benchmarks, leaving theory-driven discovery, particularly in mathematically grounded disciplines requiring rigorous proofs and synthesis of domain knowledge, largely underexplored. Key challenges include the difficulty of verifying theoretical reasoning at scale,...

πŸ“„ AgentCompass: A Unified Evaluation Infrastructure for Agent Capabilities
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.13705v2
πŸ‘₯ Authors: Kai Chen (possible past Shanghai Jiao Tong University affiliation), Zichen Ding, Jiaye Ge, Shufan Jiang, Mo Li, Qingqiu Li, Zehao Li, Zonglin Li, Tiaohao Liang, Shudong Liu, Zerun Ma, Zixing Shang, Wenhui Tian, Zun Wang, Liwei Wu, Zhenyu Wu, Jun Xu (possible past Google (United States) affiliation), Bowen Yang, Dingbo Yuan, Qi Zhang (possible past Tencent (China) affiliation), Songyang Zhang, Peiheng Zhou, Dongsheng Zhu
Abstract

As Large Language Models (LLMs) evolve into autonomous agents, the need for unified evaluation infrastructure becomes critical. However, current evaluation pipelines remain highly fragmented and tightly coupled, hindering reproducibility and causing redundant engineering. To address this, we introduce AgentCompass, an open-source, lightweight, and extensible infrastructure for evaluating LLM-based agents. AgentCompass organizes the evaluation process around three independent components, namely B...

πŸ“„ MeanFlowNFT: Bringing Forward-Process RL to Average-Velocity Generators
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15273v1
πŸ‘₯ Authors: Yushi Huang, Xiangxin Zhou, Jun Zhang (possible past Tencent (China) affiliation), Liefeng Bo, Tianyu Pang (possible past Tsinghua University affiliation)
Abstract

MeanFlow generators achieve fast few-step sampling by predicting average velocities over time intervals, making them attractive for efficient generation. Reinforcement learning (RL) has become a powerful way to align diffusion and flow models with human preferences and task-specific objectives. In particular, DiffusionNFT offers an efficient forward-process RL framework that does not require reverse-process trajectories or likelihood estimation. However, applying such RL methods to MeanFlow rema...

πŸ“„ Online Neural Space Time Memory for Dynamic Novel View Synthesis
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.15271v1
πŸ‘₯ Authors: Baback Elmieh, Lynn Tsai, Zeman Li, Srinivas Kaza (possible past Google (United States) affiliation), Tiancheng Sun, Gabor Csapo, Ali Behrouz, Yuan Deng, Stephen Lombardi, Steven M. Seitz (possible past University Of Washington affiliation), Xuan Luo (possible past University Of Washington affiliation)
Abstract

Online novel view synthesis from multi-view streaming videos faces a fundamental trade-off: maintaining a persistent, long-horizon memory to reconstruct temporarily occluded regions while operating under strict real-time constraints. While Test-Time Training (TTT) offers a powerful memory mechanism, standard models mandate gradient-based memory updates at every frame to adapt to the changing motion in dynamic scenes. The computational cost of heavy memory updates precludes real-time application ...

πŸ“„ Causal Inference for Sequential Settings under Interference and Latent Confounding
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14940v1
πŸ‘₯ Authors: Phevos Paschalidis, Constantinos Daskalakis (possible past University Of California, Berkeley affiliation), Devavrat Shah (possible past Massachusetts Institute Of Technology affiliation)
Abstract

We study causal inference under outcome interference for sequential, observational settings. Specifically, we consider settings where the binary outcomes over N units are Markovian across T time steps. At each time step, the outcomes of N units have dependencies captured through an Ising model; each outcome is also impacted through an external field capturing the effects of its treatment as well as latent confounders. Similar to panel data literature, these latent confounders are modeled to have...

πŸ“„ TIDE: Trustworthy and Interpretable Battery Degradation Estimation with Contextual Learning and Symbolic Distillation
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14640v1
πŸ‘₯ Authors: Wen Yang Tan, Jiawei Li, Fang Liu (possible past Massachusetts Institute Of Technology affiliation), Wei Zhang (possible past Tsinghua University affiliation), Sumei Sun, Peng Cheng Wang, Elisa Y. M. Ang
Abstract

Battery health estimation is fundamental for battery management in battery-powered systems, where inaccurate health states may affect control, maintenance, and service life. It becomes even more critical in intelligent connected systems, where estimation errors can propagate across interconnected devices and downstream decisions. In this paper, we propose TIDE, a trustworthy and interpretable battery degradation estimator for reliable battery health estimation. TIDE jointly considers accuracy, t...

πŸ“„ xHC: Expanded Hyper-Connections
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14530v1
πŸ‘₯ Authors: Xiangdong Zhang, Xiaohan Qin, Sunan Zou, Tuo Dai, Xiaoming Shi, Huaijin Wu, Yebin Yang, Zhuo Xia, Shaofeng Zhang, Lin Yao, Yuliang Liu, Yu Cheng (possible past National University Of Singapore affiliation), Junchi Yan (possible past Shanghai Jiao Tong University affiliation)
Abstract

Hyper-Connections (HC) expand the residual stream of Transformers into $N$ parallel streams, providing a form of memory scaling beyond model width and depth. Manifold-Constrained HC (mHC) stabilizes this formulation at scale. The large gains from $N{=}1$ to $N{=}4$ suggest residual-stream expansion as a promising scaling axis. However, existing HC-family methods typically stop at $N{=}4$. Our experiments reveal why: scaling mHC beyond this point yields diminishing performance gains and rapidly i...

πŸ“„ Full-data accuracy with fewer labels for training and fine-tuning machine-learning force fields
πŸ—“οΈ Published: 7/16/2026
πŸ”— http://arxiv.org/abs/2607.14486v1
πŸ‘₯ Authors: Sheng Bi (possible past Google (United States) affiliation), Yi-Ze Wang, Jun Cheng (possible past Deepmind (United Kingdom) affiliation)
Abstract

Machine-learning force fields (MLFFs) are reliable only near their training distribution, making efficient construction of diverse training sets a major bottleneck for both train-from-scratch and foundation fine-tuning workflows. Active learning can reduce this cost, but standard model-committee uncertainty is impractical for foundation MLFFs because each committee member requires a separate fine-tuning run. We present an active-learning workflow based on last-layer-projection regression (LLPR),...

πŸ“„ A Noise-Robust Elicit-to-Optimize Framework for Distortion Riskmetrics via Inverse Reinforcement Learning
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.14373v1
πŸ‘₯ Authors: Yang Liu (possible past Tsinghua University affiliation), Yuhao Liu (possible past Baidu (China) affiliation), Yunran Wei
Abstract

We propose a noise-robust elicit-to-optimize framework that integrates inverse reinforcement learning (IRL) and reinforcement learning (RL) for eliciting agents' risk preferences and optimizing policies under a broad class of risk objectives characterized by distortion riskmetrics. On the elicitation side, we propose an adaptive Bayesian IRL method that infers agents' latent risk objectives from their noisy observed decisions, explicitly allowing agents to take stochastic and suboptimal actions....

πŸ“„ TRACE: Turn-level Reward Assignment via Credit Estimation for Long-Horizon Agents
πŸ—“οΈ Published: 7/15/2026
πŸ”— http://arxiv.org/abs/2607.13988v1
πŸ‘₯ Authors: Leitian Tao, Baolin Peng, Wenlin Yao, Tao Ge, Hao Cheng (possible past Tencent (China) affiliation), Mike Hang Wang, Jianfeng Gao (possible past Microsoft (United States) affiliation), Sharon Li
Abstract

Multi-turn agents solve complex tasks through extended sequences of tool interactions before producing a final answer, making credit assignment a fundamental challenge during post-training. Outcome rewards provide reliable supervision for short-horizon reasoning, but become sparse and high-variance as trajectories grow to tens or hundreds of tool calls. They can also be misleading: a failed rollout may contain many useful actions that move the agent closer to the goal, yet outcome-only training ...

*Notable papers are those with at least two authors from a "big" AI/ML lab.