摘要
中国式现代化理论是科学社会主义的最新重大成果,为国际中文教育高质量发展提供价值引领、理论支撑和实践指导。国际中文教育通过人才培养、科技融合等途径,有效助推中国式现代化纵深发展,二者形成耦合关系。在中国式现代化的实践进程中,国际中文教育应坚持教育与传播双轨目标,着力推进四大路径:一是战略服务路径,通过语言文化传播助力中国全球合作与表达;二是数智创新路径,丰富国际中文教育数智化应用场景;三是人才培养路径,构建多元化中文人才培养体系;四是模式探索路径,搭建多层次、系统化的中文国际传播网络。通过上述路径,国际中文教育将为推进中国式现代化建设、促进文明交流互鉴、推动构建人类命运共同体作出更大贡献。
The theory of Chinese modernization,as the latest major achievement of scientific socialism,provides value guidance,theoreticalsupport,and practical direction for the high-quality development of International Chinese Language Education.Through talent cultivation,technological innovation,and other approaches,International Chinese Language Education effectivelypromotes the deepening advancement of Chinese modernization,forming a mutually reinforcing relationship with it.Inthe practical process of Chinese modernization,International Chinese Language Education should adhere to the dual goals of educationand communication,focusing on advancing four major pathways:(1)the strategic service pathway,which supportsChina's international cooperation and expression through language and cultural dissemination;(2)the digital and intelligent innovationpathway,which leverages modern technology to enrich digital and intelligent application scenarios in International ChineseLanguage Education;(3)the talent cultivation pathway,which builds a diversified talent training system by expanding thescope and depth of Chinese language education;and(4)the model exploration pathway,which constructs a multi-level and systematicinternational Chinese communication network tailored to localized needs.These pathways actively support the strategiesof enhancing China's international communication capacity and strengthening its cultural influence,contributing to the promotionof mutual understanding among civilizations and the building of a community with a shared future for mankind.
作者
崔佳兴
金旋
Cui Jiaxing;Jin Xuan
出处
《河南大学学报(社会科学版)》
北大核心
2026年第1期107-113,155,共8页
Journal of Henan University(Social Sciences)
基金
教育部中外语言交流合作中心中外联合研究项目“瑞典本土中文教师汉学传承和专业发展现状调查”(22YH36ZW)阶段性成果。
