中文摘要：

物联网工程专业要求学生具有较强的工程实践能力.CDIO工程教育培养理念强调按照工程师的要求培养学生对工业产品构思设计实施运行的全过程能力.将CDIO理念引入物联网工程,提出分层实验教学体系和实验课程体系.实验教学体系由入门层、基础层、拓展层和提高层四个层次构成,与之对应的实验课程体系是基础验证性实验、综合性实验、设计性实验和研究创新性实验,明确每层承担的具体功能和任务,将项目设计细化到各个实验环节中.利用中央地方共建智能化油田物联网工程实验室建设以及全国电子设计大赛等各种学科竞赛活动,将实验教学项目与科研、工程实践紧密结合,对毕业设计、课程设计等内容进行不断更新.实践结果表明该体系为培养学生工程实践能力提供了有力保障.

英文摘要：

It is required for students in major of internet of things to have strong engineering ability.It is stressed to train student＇s design and implementation ability for industrial product as engineer in CDIO engineering education.In the proposed system,CIDO engineering idea is introduced into internet of things,layered experimental teaching system and curriculum system are proposed.Experimental teaching system consists of primary layer,basis layer,expanding and improving layer,while the corresponding experimental curriculum system is composed with basis validation experiments,comprehensive experiments,designing experiments and research innovative experiment.In this layered system,there is a clear commitment on each of the specific functions and tasks in every layer.Each experimental session is also refined in project.Using a variety of competitions such as the National Electronic Design Contest and the projects from the central government and local governments like intelligent oilfield engineering laboratory,the experimental teaching programs can be combined closely with science research and engineering practice.Graduation design projects and curriculum design projects can be constantly updated.The practical results show that the system can provide effective protection for student＇s practical ability.