农业图书情报学报2025,Vol.37Issue(5):5-14,10.DOI:10.13998/j.cnki.issn1002-1248.25-0386
科研场景下的智能体技术与应用研究
Agent Technology and Its Applications in Scientific Research
摘要
Abstract
[Purpose/Significance]Currently,large language models(LLMs)and agents have emerged as core technical paradigms in artificial intelligence,with their integration into scientific research scenarios holding profound significance for transforming research paradigms.Traditional scientific research is facing an increasing number of challenges such as inefficient literature searches,the processing of massive amounts of data,repetitive experimental tasks,and barriers to collaborative innovation.Agents,empowered by LLMs,offer a promising solution to these bottlenecks by enabling intelligent automation and adaptive collaboration across research workflows.Beyond basic task assistance,they play a pivotal role in facilitating knowledge fusion,accelerating breakthroughs in frontier areas,and reshaping traditional research models.This study aims to clarify the core techniques and applications of agents in scientific research,highlighting their transition from auxiliary tools to integral innovation partners,which is crucial for accelerating knowledge discovery,enhancing research efficiency,and promoting the shift toward intelligent and collaborative research models.[Method/Process]Employing an objective,inductive approach,this study thoroughly explains the core technical modules of agents including planning,perception,action,and memory,as well as the operational mechanisms of multi-agent collaboration.It also integrates an analysis of agent applications throughout the entire scientific research lifecycle.This analysis covers key scenarios including literature review and idea formulation,experimental planning and design,data processing and execution,result analysis and knowledge discovery,and research report composition.By analyzing the application value and existing limitations of agents,this study proposes prospects and recommendations for the application and development of agents in scientific research scenarios.[Results/Conclusions]The findings reveal that LLM-driven agents are evolving from basic task executors to active participants in scientific discovery,demonstrating significant transformative potential throughout the entire research workflow.They facilitate more efficient information processing,smarter experimental design,and deeper knowledge integration,thereby redefining traditional research patterns.However,several challenges persist,including limitations in long-range reasoning capabilities,and underdeveloped ecosystem support.There are also ethical and security concerns,such as data privacy and academic integrity.To address these,future efforts should focus on strengthening intelligent computing infrastructure for scientific data,deepening collaborative development of domain-specific agents,establishing a unified open collaboration framework with standardized interfaces,and building"human-in-the-loop"hybrid systems and multiple evaluation mechanisms.These measures will enable agents to become core partners in scientific innovation,driving the transition of research paradigms toward greater intelligence and collaboration.关键词
智能体/大语言模型/科研服务/AI4S/科研范式Key words
agents/large language model/scientific research service/AI4S/scientific research paradigm分类
社会科学引用本文复制引用
钱力,王茜颖,刘熠,张元哲,常志军..科研场景下的智能体技术与应用研究[J].农业图书情报学报,2025,37(5):5-14,10.基金项目
国家社会科学基金一般项目"AI4S科技文献知识底座的理论体系及建设方法研究"(24BTQ043) (24BTQ043)
