Alert button
Picture for Jun Ma

Jun Ma

Alert button

Confucius: Iterative Tool Learning from Introspection Feedback by Easy-to-Difficult Curriculum

Aug 27, 2023
Shen Gao, Zhengliang Shi, Minghang Zhu, Bowen Fang, Xin Xin, Pengjie Ren, Zhumin Chen, Jun Ma

Figure 1 for Confucius: Iterative Tool Learning from Introspection Feedback by Easy-to-Difficult Curriculum
Figure 2 for Confucius: Iterative Tool Learning from Introspection Feedback by Easy-to-Difficult Curriculum
Figure 3 for Confucius: Iterative Tool Learning from Introspection Feedback by Easy-to-Difficult Curriculum
Figure 4 for Confucius: Iterative Tool Learning from Introspection Feedback by Easy-to-Difficult Curriculum
Viaarxiv icon

PMET: Precise Model Editing in a Transformer

Aug 22, 2023
Xiaopeng Li, Shasha Li, Shezheng Song, Jing Yang, Jun Ma, Jie Yu

Figure 1 for PMET: Precise Model Editing in a Transformer
Figure 2 for PMET: Precise Model Editing in a Transformer
Figure 3 for PMET: Precise Model Editing in a Transformer
Figure 4 for PMET: Precise Model Editing in a Transformer
Viaarxiv icon

Spatiotemporal Receding Horizon Control with Proactive Interaction Towards Safe and Efficient Autonomous Driving in Dense Traffic

Aug 11, 2023
Lei Zheng, Rui Yang, Zengqi Peng, Michael Yu Wang, Jun Ma

Figure 1 for Spatiotemporal Receding Horizon Control with Proactive Interaction Towards Safe and Efficient Autonomous Driving in Dense Traffic
Figure 2 for Spatiotemporal Receding Horizon Control with Proactive Interaction Towards Safe and Efficient Autonomous Driving in Dense Traffic
Figure 3 for Spatiotemporal Receding Horizon Control with Proactive Interaction Towards Safe and Efficient Autonomous Driving in Dense Traffic
Figure 4 for Spatiotemporal Receding Horizon Control with Proactive Interaction Towards Safe and Efficient Autonomous Driving in Dense Traffic
Viaarxiv icon

The Multi-modality Cell Segmentation Challenge: Towards Universal Solutions

Aug 10, 2023
Jun Ma, Ronald Xie, Shamini Ayyadhury, Cheng Ge, Anubha Gupta, Ritu Gupta, Song Gu, Yao Zhang, Gihun Lee, Joonkee Kim, Wei Lou, Haofeng Li, Eric Upschulte, Timo Dickscheid, José Guilherme de Almeida, Yixin Wang, Lin Han, Xin Yang, Marco Labagnara, Sahand Jamal Rahi, Carly Kempster, Alice Pollitt, Leon Espinosa, Tâm Mignot, Jan Moritz Middeke, Jan-Niklas Eckardt, Wangkai Li, Zhaoyang Li, Xiaochen Cai, Bizhe Bai, Noah F. Greenwald, David Van Valen, Erin Weisbart, Beth A. Cimini, Zhuoshi Li, Chao Zuo, Oscar Brück, Gary D. Bader, Bo Wang

Figure 1 for The Multi-modality Cell Segmentation Challenge: Towards Universal Solutions
Figure 2 for The Multi-modality Cell Segmentation Challenge: Towards Universal Solutions
Figure 3 for The Multi-modality Cell Segmentation Challenge: Towards Universal Solutions
Figure 4 for The Multi-modality Cell Segmentation Challenge: Towards Universal Solutions
Viaarxiv icon

Unleashing the Strengths of Unlabeled Data in Pan-cancer Abdominal Organ Quantification: the FLARE22 Challenge

Aug 10, 2023
Jun Ma, Yao Zhang, Song Gu, Cheng Ge, Shihao Ma, Adamo Young, Cheng Zhu, Kangkang Meng, Xin Yang, Ziyan Huang, Fan Zhang, Wentao Liu, YuanKe Pan, Shoujin Huang, Jiacheng Wang, Mingze Sun, Weixin Xu, Dengqiang Jia, Jae Won Choi, Natália Alves, Bram de Wilde, Gregor Koehler, Yajun Wu, Manuel Wiesenfarth, Qiongjie Zhu, Guoqiang Dong, Jian He, the FLARE Challenge Consortium, Bo Wang

Figure 1 for Unleashing the Strengths of Unlabeled Data in Pan-cancer Abdominal Organ Quantification: the FLARE22 Challenge
Figure 2 for Unleashing the Strengths of Unlabeled Data in Pan-cancer Abdominal Organ Quantification: the FLARE22 Challenge
Figure 3 for Unleashing the Strengths of Unlabeled Data in Pan-cancer Abdominal Organ Quantification: the FLARE22 Challenge
Figure 4 for Unleashing the Strengths of Unlabeled Data in Pan-cancer Abdominal Organ Quantification: the FLARE22 Challenge
Viaarxiv icon

Information Retrieval Meets Large Language Models: A Strategic Report from Chinese IR Community

Jul 27, 2023
Qingyao Ai, Ting Bai, Zhao Cao, Yi Chang, Jiawei Chen, Zhumin Chen, Zhiyong Cheng, Shoubin Dong, Zhicheng Dou, Fuli Feng, Shen Gao, Jiafeng Guo, Xiangnan He, Yanyan Lan, Chenliang Li, Yiqun Liu, Ziyu Lyu, Weizhi Ma, Jun Ma, Zhaochun Ren, Pengjie Ren, Zhiqiang Wang, Mingwen Wang, Ji-Rong Wen, Le Wu, Xin Xin, Jun Xu, Dawei Yin, Peng Zhang, Fan Zhang, Weinan Zhang, Min Zhang, Xiaofei Zhu

Figure 1 for Information Retrieval Meets Large Language Models: A Strategic Report from Chinese IR Community
Viaarxiv icon

A physics-constrained machine learning method for mapping gapless land surface temperature

Jul 03, 2023
Jun Ma, Huanfeng Shen, Menghui Jiang, Liupeng Lin, Chunlei Meng, Chao Zeng, Huifang Li, Penghai Wu

Figure 1 for A physics-constrained machine learning method for mapping gapless land surface temperature
Figure 2 for A physics-constrained machine learning method for mapping gapless land surface temperature
Figure 3 for A physics-constrained machine learning method for mapping gapless land surface temperature
Figure 4 for A physics-constrained machine learning method for mapping gapless land surface temperature
Viaarxiv icon

Graph-Aware Language Model Pre-Training on a Large Graph Corpus Can Help Multiple Graph Applications

Jun 05, 2023
Han Xie, Da Zheng, Jun Ma, Houyu Zhang, Vassilis N. Ioannidis, Xiang Song, Qing Ping, Sheng Wang, Carl Yang, Yi Xu, Belinda Zeng, Trishul Chilimbi

Figure 1 for Graph-Aware Language Model Pre-Training on a Large Graph Corpus Can Help Multiple Graph Applications
Figure 2 for Graph-Aware Language Model Pre-Training on a Large Graph Corpus Can Help Multiple Graph Applications
Figure 3 for Graph-Aware Language Model Pre-Training on a Large Graph Corpus Can Help Multiple Graph Applications
Figure 4 for Graph-Aware Language Model Pre-Training on a Large Graph Corpus Can Help Multiple Graph Applications
Viaarxiv icon