Your search keyword '"Sun, Jishuo"' showing total 4 results

1. Alleviating Hallucination in Large Vision-Language Models with Active Retrieval Augmentation

Author

Qu, Xiaoye, Chen, Qiyuan, Wei, Wei, Sun, Jishuo, and Dong, Jianfeng

Subjects

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

Abstract

Despite the remarkable ability of large vision-language models (LVLMs) in image comprehension, these models frequently generate plausible yet factually incorrect responses, a phenomenon known as hallucination.Recently, in large language models (LLMs), augmenting LLMs by retrieving information from external knowledge resources has been proven as a promising solution to mitigate hallucinations.However, the retrieval augmentation in LVLM significantly lags behind the widespread applications of LVLM. Moreover, when transferred to augmenting LVLMs, sometimes the hallucination degree of the model is even exacerbated.Motivated by the research gap and counter-intuitive phenomenon, we introduce a novel framework, the Active Retrieval-Augmented large vision-language model (ARA), specifically designed to address hallucinations by incorporating three critical dimensions: (i) dissecting the retrieval targets based on the inherent hierarchical structures of images. (ii) pinpointing the most effective retrieval methods and filtering out the reliable retrieval results. (iii) timing the retrieval process to coincide with episodes of low certainty, while circumventing unnecessary retrieval during periods of high certainty. To assess the capability of our proposed ARA model in reducing hallucination, we employ three widely used LVLM models (LLaVA-1.5, Qwen-VL, and mPLUG-Owl2) across four benchmarks. Our empirical observations suggest that by utilizing fitting retrieval mechanisms and timing the retrieval judiciously, we can effectively mitigate the hallucination problem. We hope that this study can provide deeper insights into how to adapt the retrieval augmentation to LVLMs for reducing hallucinations with more effective retrieval and minimal retrieval occurrences.

Published

2024

2. Exploring the motivation of sustainable commuting: a case study of international students in Otago Polytechnic Auckland International Campus

Author

Petrisia, Nenie Tamarisca, primary, Mao, Dani, additional, and Sun, Jishuo, additional

Published

2024

3. Research on fault diagnosis method of the hydraulic system based on digital twin

Author

Sun, Jishuo, primary, Yang, Yousheng, additional, Shi, Lin, additional, Yang, Jiaxuan, additional, and Feng, Fuzhou, additional

Published

2024

4. How AI Impacts Companies' Dynamic Capabilities: Lessons from Six Chinese Construction Firms.

Author

Liu, Yulong, Sun, Jishuo, Zhang, Zuopeng, Wu, Mian, Sima, Herbert, and Ooi, Yat Ming

Subjects

ARTIFICIAL intelligence, EVIDENCE gaps, INNOVATIONS in business, CHINESE corporations, BUSINESS models

Abstract

Overview: Artificial intelligence (AI) is rapidly transforming the business landscape, but limited research is available regarding how companies are responding and adapting to AI. Using dynamic capability theory, we hypothesized that companies would develop new dynamic capabilities to seize AI opportunities. Our analysis of qualitative data from six major Chinese construction companies revealed that these companies' existing dynamic capabilities are key to adopting and adapting AI technology for business model innovation. We developed a dynamic capability model that describes how companies use their existing dynamic capabilities for sensing AI, seizing AI, and transforming to leverage AI for business model innovation. Our research bridges the gap in understanding the relationship between AI adoption, existing dynamic capabilities, and AI adaptation. Integrating AI is not as daunting as it may seem. Companies, practitioners, and other stakeholders can transition into AI, starting with their existing capabilities. [ABSTRACT FROM AUTHOR]

Published

2024