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13 results on '"Ma, Shikui"'

1. PIVOT-R: Primitive-Driven Waypoint-Aware World Model for Robotic Manipulation

Author

Zhang, Kaidong, Ren, Pengzhen, Lin, Bingqian, Lin, Junfan, Ma, Shikui, Xu, Hang, and Liang, Xiaodan

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Language-guided robotic manipulation is a challenging task that requires an embodied agent to follow abstract user instructions to accomplish various complex manipulation tasks. Previous work trivially fitting the data without revealing the relation between instruction and low-level executable actions, these models are prone to memorizing the surficial pattern of the data instead of acquiring the transferable knowledge, and thus are fragile to dynamic environment changes. To address this issue, we propose a PrIrmitive-driVen waypOinT-aware world model for Robotic manipulation (PIVOT-R) that focuses solely on the prediction of task-relevant waypoints. Specifically, PIVOT-R consists of a Waypoint-aware World Model (WAWM) and a lightweight action prediction module. The former performs primitive action parsing and primitive-driven waypoint prediction, while the latter focuses on decoding low-level actions. Additionally, we also design an asynchronous hierarchical executor (AHE), which can use different execution frequencies for different modules of the model, thereby helping the model reduce computational redundancy and improve model execution efficiency. Our PIVOT-R outperforms state-of-the-art (SoTA) open-source models on the SeaWave benchmark, achieving an average relative improvement of 19.45% across four levels of instruction tasks. Moreover, compared to the synchronously executed PIVOT-R, the execution efficiency of PIVOT-R with AHE is increased by 28-fold, with only a 2.9% drop in performance. These results provide compelling evidence that our PIVOT-R can significantly improve both the performance and efficiency of robotic manipulation., Comment: Accepted to NeurIPS 2024

Published
2024

2. Correctable Landmark Discovery via Large Models for Vision-Language Navigation

Author

Lin, Bingqian, Nie, Yunshuang, Wei, Ziming, Zhu, Yi, Xu, Hang, Ma, Shikui, Liu, Jianzhuang, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

Vision-Language Navigation (VLN) requires the agent to follow language instructions to reach a target position. A key factor for successful navigation is to align the landmarks implied in the instruction with diverse visual observations. However, previous VLN agents fail to perform accurate modality alignment especially in unexplored scenes, since they learn from limited navigation data and lack sufficient open-world alignment knowledge. In this work, we propose a new VLN paradigm, called COrrectable LaNdmark DiScOvery via Large ModEls (CONSOLE). In CONSOLE, we cast VLN as an open-world sequential landmark discovery problem, by introducing a novel correctable landmark discovery scheme based on two large models ChatGPT and CLIP. Specifically, we use ChatGPT to provide rich open-world landmark cooccurrence commonsense, and conduct CLIP-driven landmark discovery based on these commonsense priors. To mitigate the noise in the priors due to the lack of visual constraints, we introduce a learnable cooccurrence scoring module, which corrects the importance of each cooccurrence according to actual observations for accurate landmark discovery. We further design an observation enhancement strategy for an elegant combination of our framework with different VLN agents, where we utilize the corrected landmark features to obtain enhanced observation features for action decision. Extensive experimental results on multiple popular VLN benchmarks (R2R, REVERIE, R4R, RxR) show the significant superiority of CONSOLE over strong baselines. Especially, our CONSOLE establishes the new state-of-the-art results on R2R and R4R in unseen scenarios. Code is available at https://github.com/expectorlin/CONSOLE., Comment: Accepted by TPAMI 2024

Published
2024
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3. NavCoT: Boosting LLM-Based Vision-and-Language Navigation via Learning Disentangled Reasoning

Author

Lin, Bingqian, Nie, Yunshuang, Wei, Ziming, Chen, Jiaqi, Ma, Shikui, Han, Jianhua, Xu, Hang, Chang, Xiaojun, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Robotics
Abstract

Vision-and-Language Navigation (VLN), as a crucial research problem of Embodied AI, requires an embodied agent to navigate through complex 3D environments following natural language instructions. Recent research has highlighted the promising capacity of large language models (LLMs) in VLN by improving navigational reasoning accuracy and interpretability. However, their predominant use in an offline manner usually suffers from substantial domain gap between the VLN task and the LLM training corpus. This paper introduces a novel strategy called Navigational Chain-of-Thought (NavCoT), where we fulfill parameter-efficient in-domain training to enable self-guided navigational decision, leading to a significant mitigation of the domain gap in a cost-effective manner. Specifically, at each timestep, the LLM is prompted to forecast the navigational chain-of-thought by: 1) acting as a world model to imagine the next observation according to the instruction, 2) selecting the candidate observation that best aligns with the imagination, and 3) determining the action based on the reasoning from the prior steps. Through constructing formalized labels for training, the LLM can learn to generate desired and reasonable chain-of-thought outputs for improving the action decision. Experimental results across various training settings and popular VLN benchmarks (e.g., Room-to-Room (R2R), Room-across-Room (RxR), Room-for-Room (R4R)) show the significant superiority of NavCoT over the direct action prediction variants. Through simple parameter-efficient finetuning, our NavCoT outperforms a recent GPT4-based approach with ~7% relative improvement on the R2R dataset. We believe that NavCoT will help unlock more task-adaptive and scalable LLM-based embodied agents, which are helpful for developing real-world robotics applications. Code is available at https://github.com/expectorlin/NavCoT.

Published
2024

4. CorNav: Autonomous Agent with Self-Corrected Planning for Zero-Shot Vision-and-Language Navigation

Author

Liang, Xiwen, Ma, Liang, Guo, Shanshan, Han, Jianhua, Xu, Hang, Ma, Shikui, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

Understanding and following natural language instructions while navigating through complex, real-world environments poses a significant challenge for general-purpose robots. These environments often include obstacles and pedestrians, making it essential for autonomous agents to possess the capability of self-corrected planning to adjust their actions based on feedback from the surroundings. However, the majority of existing vision-and-language navigation (VLN) methods primarily operate in less realistic simulator settings and do not incorporate environmental feedback into their decision-making processes. To address this gap, we introduce a novel zero-shot framework called CorNav, utilizing a large language model for decision-making and comprising two key components: 1) incorporating environmental feedback for refining future plans and adjusting its actions, and 2) multiple domain experts for parsing instructions, scene understanding, and refining predicted actions. In addition to the framework, we develop a 3D simulator that renders realistic scenarios using Unreal Engine 5. To evaluate the effectiveness and generalization of navigation agents in a zero-shot multi-task setting, we create a benchmark called NavBench. Extensive experiments demonstrate that CorNav consistently outperforms all baselines by a significant margin across all tasks. On average, CorNav achieves a success rate of 28.1\%, surpassing the best baseline's performance of 20.5\%., Comment: 22 pages

Published
2023

5. Assessing and Optimizing Large Language Models on Spondyloarthritis Multi-Choice Question Answering: Protocol for Enhancement and Assessment (Preprint)

Author

Wang, Anan, primary, Wu, Yunong, additional, Ji, Xiaojian, additional, Wang, Xiangyang, additional, Hu, Jiawen, additional, Zhang, Fazhan, additional, Zhang, Zhanchao, additional, Pu, Dong, additional, Tang, Lulu, additional, Ma, Shikui, additional, Liu, Qiang, additional, Dong, Jing, additional, He, Kunlun, additional, Li, Kunpeng, additional, Teng, Da, additional, and Li, Tao, additional

Published
2024
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6. Assessing and optimizing large language models on spondyloarthritis multi-choice question answering (SpAMCQA): study protocol for a bilingual evaluation benchmark

Author

Wang, Anan, primary, Wang, Xiangyang, additional, Ji, Xiaojian, additional, Wu, Yunong, additional, Hu, Jiawen, additional, Zhang, Fazhan, additional, Zhang, Zhanchao, additional, Pu, Dong, additional, Ma, Shikui, additional, Dong, Jing, additional, Liu, Qiang, additional, Li, Kunpeng, additional, Teng, Da, additional, and Li, Tao, additional

Published
2023
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7. MO-VLN: A Multi-Task Benchmark for Open-set Zero-Shot Vision-and-Language Navigation

Author

Liang, Xiwen, Ma, Liang, Guo, Shanshan, Han, Jianhua, Xu, Hang, Ma, Shikui, and Liang, Xiaodan

Subjects
FOS: Computer and information sciences, Artificial Intelligence (cs.AI), Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition, Computation and Language (cs.CL)
Abstract

Given a natural language, a general robot has to comprehend the instruction and find the target object or location based on visual observations even in unexplored environments. Most agents rely on massive diverse training data to achieve better generalization, which requires expensive labor. These agents often focus on common objects and fewer tasks, thus are not intelligent enough to handle different types of instructions. To facilitate research in open-set vision-and-language navigation, we propose a benchmark named MO-VLN, aiming at testing the effectiveness and generalization of the agent in the multi-task setting. First, we develop a 3D simulator rendered by realistic scenarios using Unreal Engine 5, containing more realistic lights and details. The simulator contains three scenes, i.e., cafe, restaurant, and nursing house, of high value in the industry. Besides, our simulator involves multiple uncommon objects, such as takeaway cup and medical adhesive tape, which are more complicated compared with existing environments. Inspired by the recent success of large language models (e.g., ChatGPT, Vicuna), we construct diverse high-quality data of instruction type without human annotation. Our benchmark MO-VLN provides four tasks: 1) goal-conditioned navigation given a specific object category (e.g., "fork"); 2) goal-conditioned navigation given simple instructions (e.g., "Search for and move towards a tennis ball"); 3) step-by-step instruction following; 4) finding abstract object based on high-level instruction (e.g., "I am thirsty")., 18 pages

Published
2023

8. A new class of optimal optical orthogonal codes with weight five

Author

Ma, Shikui and Chang, Yanxun

Subjects
Information theory -- Research
Abstract

A (v, k, 1) optical orthogonal code (OOC), or briefly a (v, k, 1)-OOC, C, is a family of (0, 1) sequences of length v and weight k satisfying the following two properties: 1) [[SIGMA].sub.0] [less than or equal to]t [less than or equal to] v - 1 [x.sub.t][x.sub.t] + i [less than or equal to] 1 for any x = ([x.sub.0], [x.sub.1] ,..., [x.sub.v-1]) [member of] C and any integer i [??] 0 (mod v); 2) [[SIGMA].sub.0] [less than or equal to]t [less than or equal to] v-1 [x.sub.t] [y.sub.t+i] [less than or equal to] 1 for any x = ([x.sub.0], [x.sub.1] ,..., [x.sub.v-1]) [member of] C, y = ([y.sub.0], [y.sub.1] ,..., [y.sub.v-1]) [member of] C with x [not equal to] y, and any integer i, where the subscripts are reduced modulo v. A (v, k, 1)-OOC is optimal if it contains [(v - 1) / k (k - 1)] codewords. In this note, we establish that there exists an optimal ([3.sup.s]5v, 5, 1)-OOC for any nonnegative integer s whenever v is a product of primes congruent to 1 modulo 4. This improves the known existence results concerning optimal OOCs. Index Terms--Cyclic packing, difference matrix (DM), g-regular, optical orthogonal code (OOC), optimal.

Published
2004

12. Mouse FKBP23 mediates conformer-specific functions of BiP by catalyzing Pro117 cis/trans isomerization

Author

Feng, Miao, Gu, Chao, Ma, Shikui, Wang, Ying, Liu, Huijuan, Han, Ruifang, Gao, Junfei, Long, Yi, and Mi, Huaifeng

Subjects
*CARRIER proteins, *PROTEIN conformation, *CELL receptors, *IMMUNOSUPPRESSIVE agents, *RAPAMYCIN, *PEPTIDYLPROLYL isomerase, *ISOMERIZATION, *LABORATORY mice, *HEAT shock proteins, *ENDOPLASMIC reticulum
Abstract

Abstract: FK506-binding proteins (FKBPs) are cellular receptors for the immunosuppressant FK506 and rapamycin. They belong to the ubiquitous peptidyl-prolyl cis/trans isomerases (PPIases) family, which can catalyze the cis/trans isomerization of peptidyl-prolyl bond in peptides and proteins. In previous work, we revealed that mouse FKBP23 binds immunoglobulin binding protein (BiP), the major heat shock protein (Hsp) 70 chaperone in the ER, and the binding is interrelated with [Ca2+]. Furthermore, the binding can suppress the ATPase activity of BiP through the PPIase activity of FKBP23. In this work, FKBP23 is demonstrated to mediate functions of BiP by catalyzing the Pro117 cis/trans conformational interconversion in the ATPase domain of BiP. This result may provide new understanding to the novel role of PPIase as a molecular switch. [Copyright &y& Elsevier]

Published
2011
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13. Assessing and Optimizing Large Language Models on Spondyloarthritis Multi-Choice Question Answering: Protocol for Enhancement and Assessment.

Author

Wang A, Wu Y, Ji X, Wang X, Hu J, Zhang F, Zhang Z, Pu D, Tang L, Ma S, Liu Q, Dong J, He K, Li K, Teng D, and Li T

Subjects
Humans, Spondylarthritis diagnosis, Spondylarthritis therapy
Abstract

Background: Spondyloarthritis (SpA), a chronic inflammatory disorder, predominantly impacts the sacroiliac joints and spine, significantly escalating the risk of disability. SpA's complexity, as evidenced by its diverse clinical presentations and symptoms that often mimic other diseases, presents substantial challenges in its accurate diagnosis and differentiation. This complexity becomes even more pronounced in nonspecialist health care environments due to limited resources, resulting in delayed referrals, increased misdiagnosis rates, and exacerbated disability outcomes for patients with SpA. The emergence of large language models (LLMs) in medical diagnostics introduces a revolutionary potential to overcome these diagnostic hurdles. Despite recent advancements in artificial intelligence and LLMs demonstrating effectiveness in diagnosing and treating various diseases, their application in SpA remains underdeveloped. Currently, there is a notable absence of SpA-specific LLMs and an established benchmark for assessing the performance of such models in this particular field., Objective: Our objective is to develop a foundational medical model, creating a comprehensive evaluation benchmark tailored to the essential medical knowledge of SpA and its unique diagnostic and treatment protocols. The model, post-pretraining, will be subject to further enhancement through supervised fine-tuning. It is projected to significantly aid physicians in SpA diagnosis and treatment, especially in settings with limited access to specialized care. Furthermore, this initiative is poised to promote early and accurate SpA detection at the primary care level, thereby diminishing the risks associated with delayed or incorrect diagnoses., Methods: A rigorous benchmark, comprising 222 meticulously formulated multiple-choice questions on SpA, will be established and developed. These questions will be extensively revised to ensure their suitability for accurately evaluating LLMs' performance in real-world diagnostic and therapeutic scenarios. Our methodology involves selecting and refining top foundational models using public data sets. The best-performing model in our benchmark will undergo further training. Subsequently, more than 80,000 real-world inpatient and outpatient cases from hospitals will enhance LLM training, incorporating techniques such as supervised fine-tuning and low-rank adaptation. We will rigorously assess the models' generated responses for accuracy and evaluate their reasoning processes using the metrics of fluency, relevance, completeness, and medical proficiency., Results: Development of the model is progressing, with significant enhancements anticipated by early 2024. The benchmark, along with the results of evaluations, is expected to be released in the second quarter of 2024., Conclusions: Our trained model aims to capitalize on the capabilities of LLMs in analyzing complex clinical data, thereby enabling precise detection, diagnosis, and treatment of SpA. This innovation is anticipated to play a vital role in diminishing the disabilities arising from delayed or incorrect SpA diagnoses. By promoting this model across diverse health care settings, we anticipate a significant improvement in SpA management, culminating in enhanced patient outcomes and a reduced overall burden of the disease., International Registered Report Identifier (irrid): DERR1-10.2196/57001., (©Anan Wang, Yunong Wu, Xiaojian Ji, Xiangyang Wang, Jiawen Hu, Fazhan Zhang, Zhanchao Zhang, Dong Pu, Lulu Tang, Shikui Ma, Qiang Liu, Jing Dong, Kunlun He, Kunpeng Li, Da Teng, Tao Li. Originally published in JMIR Research Protocols (https://www.researchprotocols.org), 24.05.2024.)

Published
2024
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