上海交通大学研究生课程开设申请表New Graduate Course ApplicationForm,SJTU课程基本信息BasicInformation(中文Chinese)测试数据智能挖掘*课程名称Course Name(英文English)Intelligentminingoftestdata*学时*学分232(1学分≥16课时)Teaching HoursCredits个学期*开课学期*是否跨学期跨Spanningover春季学期Spring否NoSemesterCross-semester?Semesters(含夏季学期)。*课程性质*课程分类专业课SpecializedCourse全日制课程Forfull-timestudentsCourse CategoryCourse Type*授课语言主要授课方式中文Chinese课堂教学InclassteachingInstructionTeaching MethodLanguage*成绩类型主要考核方式等第制Lettergrading论文EssayGradeExam Method*开课院系材料科学与工程学院School所属学科材料科学与工程Subject工号ID姓名Name单位School联系方式E-mail负责教师Person in charge蔡艳材料学院ycai@sjtu.edu.cn课程扩展信息ExtendedInformation(分段概述课程定位、教学目标、主要内容、先修课程等:不少于200字。)基于计算机和人工智能技术在材料制备或加工过程中进行测试和数据挖掘是材料专业学生必须掌握的基本知识,是今后的科学研究和生产实践的基本技能。通过本课程的学习,学生具备初步的数字化采集和数据智能分析的理论知识和实践能力,能够基于Labview或Python平台完成信号采集与分析,为后续科研工作奠定数据分析基础。本课程为学生提供较为系统的信号采集和数据挖掘的理论知识和实践操*课程简介作指导,具体授课内容包括测量方法基本概念、虚拟仪器系统基本组成、信(中文)号传感、电信号数据采集系统和关键参数,以及测量数据的时域分析、频域Course Description分析、回归分析、智能分类等。通过课程讲授和基于LabvieW、Python语言的编程练习,完成知识点的学习与实践。本课程设置温度/压力测量和热加工过程稳定性分析两个课程设计环节,通过调研、实践和研讨的方式完成实际测量系统的搭建、测量程序的时域频域分析、测量数据的挖掘和知识获取,培养学生掌握基本的虚拟仪器测试方法和数据智能挖掘方法。建议先修课程为材料学院研究生课程“材料加工智能制造基础”。(须与中文一致,翻译请力求信达雅。)Digital collection and intelligent mining of processing data in materials preparation and*课程简介processing are the basic knowledge that engineering students must master, and are the basic skills(English)of scientific research and production practicein thefuture.This course provides students withCourse Descriptionsystematictheoretical knowledgeand practical operation guidanceofsignal acquisition anddatamining. The specific teaching contents include basic concepts of measurement methods, basic1/32021.03
1 / 3 2021.03 上海交 通大学研究 生课程开设 申请表 New Graduate Course Application Form, SJTU 课程基本信息 Basic Information *课程名称 Course Name (中文 Chinese)测试数据智能挖掘 (英文 English)Intelligent mining of test data *学分 Credits 2 *学时 Teaching Hours 32(1 学分≥16 课时) *开课学期 Semester 春季学期 Spring *是否跨学期 Cross-semester? 否 No 跨 Spanning over 个学期 Semesters(含夏季学期)。 *课程性质 Course Category 专业课 Specialized Course *课程分类 Course Type 全日制课程 For full-time students *授课语言 Instruction Language 中文 Chinese 主要授课方式 Teaching Method 课堂教学 In class teaching *成绩类型 Grade 等第制 Letter grading 主要考核方式 Exam Method 论文 Essay *开课院系 School 材料科学与工程学院 所属学科 Subject 材料科学与工程 负责教师 Person in charge 姓名 Name 工号 ID 单位 School 联系方式 E-mail 蔡艳 材料学院 ycai@sjtu.edu.cn 课程扩展信息 Extended Information *课程简介 (中文) Course Description (分段概述课程定位、教学目标、主要内容、先修课程等;不少于 200 字。) 基于计算机和人工智能技术在材料制备或加工过程中进行测试和数据挖 掘是材料专业学生必须掌握的基本知识,是今后的科学研究和生产实践的基 本技能。通过本课程的学习,学生具备初步的数字化采集和数据智能分析的 理论知识和实践能力,能够基于 Labview 或 Python 平台完成信号采集与分 析,为后续科研工作奠定数据分析基础。 本课程为学生提供较为系统的信号采集和数据挖掘的理论知识和实践操 作指导,具体授课内容包括测量方法基本概念、虚拟仪器系统基本组成、信 号传感、电信号数据采集系统和关键参数,以及测量数据的时域分析、频域 分析、回归分析、智能分类等。通过课程讲授和基于 Labview、Python 语言 的编程练习,完成知识点的学习与实践。本课程设置温度/压力测量和热加工 过程稳定性分析两个课程设计环节,通过调研、实践和研讨的方式完成实际 测量系统的搭建、测量程序的时域频域分析、测量数据的挖掘和知识获取, 培养学生掌握基本的虚拟仪器测试方法和数据智能挖掘方法。 建议先修课程为材料学院研究生课程“材料加工智能制造基础”。 *课程简介 (English) Course Description (须与中文一致,翻译请力求信达雅。) Digital collection and intelligent mining of processing data in materials preparation and processing are the basic knowledge that engineering students must master, and are the basic skills of scientific research and production practice in the future. This course provides students with systematic theoretical knowledge and practical operation guidance of signal acquisition and data mining. The specific teaching contents include basic concepts of measurement methods, basic
componentsofvirtual instrument system,signal sensing,electrical signal data acquisition systemand key parameters, as well as time domain analysis, frequency domain analysis, regressionanalysis and intelligent classification of measurement data. Through the course teaching andprogramming practice based on LabVIEW and python language, the learning and practice ofknowledge points are completed. This course includes two parts: temperature measurement andstability analysis of hot working process.Through investigation, practice and discussion, itcompletes the construction of actual measurement system, the compilation of measurementprogram,theprocessingandanalysisofmeasurementdata,andtrains studentstomasterthebasicvirtual instrument test methods and data mining methods. Through the study of this coursestudents have the preliminary theoretical knowledge and practical ability of digital signalacquisition and intelligent data analysis and can complete simpleLabVIEW or pythonprogramming tasks."Fundamentals of material processing and intelligent manufacturing" is suggested asprerequisite courses, but not compulsory(建议列表形式,各列内容:章节、主要内容、课时数、教学方式)授课教学方式教学内容学时课程介绍:如何采用虚拟仪器和数据挖掘技术2课堂讲授助力科研?2课堂讲授信号采集基础知识2虚拟仪器组成与实现课堂讲授2LabVIEW编程基础授课、实操2热加工过程多信号感知授课、实操*教学大纲2授课、实操热加工过程温度信号采集(中文)2热加工过程图像信号采集授课、实操Syllabus2课程设计(1):热加工过程感知实践实操、研讨2智能数据挖掘基础知识授课、实操2Python编程基础授课、实操2如何对试验数据分类?(聚类分析)授课、实操2授课、实操如何建立数据与试验结果的映射?((SVM建模)2如何智能评价试验结果?(投课、实操(神经网络)4热加工智能数据挖掘案例授课、参观2课程设计(2):热加工过程智能化实践实操、研讨(须与中文一致,翻译请力求信达雅。)ContentHoursFormatCourse introduction:how to usevirtual instrumentClassroomand data mining technologyto assist scientific2teaching*教学大纲research?(English)Classroom2Basic knowledgeof signal acquisitionSyllabusteachingClassroomSystem component and implementation of virtual2teachinginstrument2Fundamentals of LabVIEW programmingTeaching, Practice2Multi signal sensing in hot working processTeaching, PracticeTemperature signal acquisition in hot working process2Teaching, Practice2 /32021.03
2 / 3 2021.03 components of virtual instrument system, signal sensing, electrical signal data acquisition system and key parameters, as well as time domain analysis, frequency domain analysis, regression analysis and intelligent classification of measurement data. Through the course teaching and programming practice based on LabVIEW and python language, the learning and practice of knowledge points are completed. This course includes two parts: temperature measurement and stability analysis of hot working process. Through investigation, practice and discussion, it completes the construction of actual measurement system, the compilation of measurement program, the processing and analysis of measurement data, and trains students to master the basic virtual instrument test methods and data mining methods. Through the study of this course, students have the preliminary theoretical knowledge and practical ability of digital signal acquisition and intelligent data analysis and can complete simple LabVIEW or python programming tasks. "Fundamentals of material processing and intelligent manufacturing" is suggested as prerequisite courses, but not compulsory. *教学大纲 (中文) Syllabus (建议列表形式,各列内容:章节、主要内容、课时数、教学方式) 教学内容 授课 学时 教学方式 课程介绍:如何采用虚拟仪器和数据挖掘技术 助力科研? 2 课堂讲授 信号采集基础知识 2 课堂讲授 虚拟仪器组成与实现 2 课堂讲授 LabVIEW 编程基础 2 授课、实操 热加工过程多信号感知 2 授课、实操 热加工过程温度信号采集 2 授课、实操 热加工过程图像信号采集 2 授课、实操 课程设计(1):热加工过程感知实践 2 实操、研讨 智能数据挖掘基础知识 2 授课、实操 Python 编程基础 2 授课、实操 如何对试验数据分类?(聚类分析) 2 授课、实操 如何建立数据与试验结果的映射?(SVM 建模) 2 授课、实操 如何智能评价试验结果?(神经网络) 2 授课、实操 热加工智能数据挖掘案例 4 授课、参观 课程设计(2):热加工过程智能化实践 2 实操、研讨 *教学大纲 (English) Syllabus (须与中文一致,翻译请力求信达雅。) Content Hours Format Course introduction: how to use virtual instrument and data mining technology to assist scientific research? 2 Classroom teaching Basic knowledge of signal acquisition 2 Classroom teaching System component and implementation of virtual instrument 2 Classroom teaching Fundamentals of LabVIEW programming 2 Teaching, Practice Multi signal sensing in hot working process 2 Teaching, Practice Temperature signal acquisition in hot working process 2 Teaching, Practice
Imagesignal acquisition inhot workingprocess2Teaching,PracticeCourse design (1): perception system of hot working2seminarprocess2Basic knowledge of intelligent data miningTeaching,Practice2Fundamentals of PythonprogrammingTeaching, Practice2Howto classifytest data? (cluster analysis)Teaching, PracticeHow to establish the mapping between data and test2Teaching, Practiceresults? (SVM modeling)How to evaluate test results intelligently? (neural2Teaching, Practicenetwork)4Intelligent data mining case of hot workingTeaching, visitingCourse design (2): intelligent system of hot working2seminarprocess(课程考核方式、考核标准等:不少于50字)本课程要求学生准时出勤,按时按质完成课内和课后作业,根据授课进度完成两次*课程要求课程设计,通过实际操作完成数据测试与分析,并以书面报告或PPT方式呈现,具(中文)体考核标准如下:Requirements平时成绩20%+课后作业20%+课程设计60%(须与中文一致,翻译请力求信达雅。)Students are required to attend all courses or practices on time, to finish class assignments and*课程要求homework,andto carryout two course designs accordingto theteaching schedule.They should(English)completedatatesting and analysis through actual operation, and present it in written report orPPT.RequirementsThespecificassessmentcriteriaareasfollowsUsualperformance20%+homework20%+coursedesign60%(教材、教参、网站资料等。)?袁夫全等,《现代虚拟仪器测量技术》,电子工业出版社,2015年版课程资源石德全等,《热加工测控技术》,北京大学出版社,2010年版(中文)AResourcesSherinThomas等.《PyTorch深度学习与实战》,机械工业出版社,2020年版+齐伟。《Python数据分析》,电子工业出版社,2018年版(须与中文一致,请力求信达雅。)?Yuan Fuquan, et al.Modern virtual instrument measurement technology,electronic industry课程资源press, 2015 edition(English)Shi Dequan et al. Measurement and control technology of hot working, Peking UniversityPress,2010editionResourcesSherin Thomas et al.Pytorch deep learning and practice, China Machine Press,2020?QiWei.Pythondataanalysis,electronicindustrypress,2018备注Note3/32021.03
3 / 3 2021.03 Image signal acquisition in hot working process 2 Teaching, Practice Course design (1): perception system of hot working process 2 seminar Basic knowledge of intelligent data mining 2 Teaching, Practice Fundamentals of Python programming 2 Teaching, Practice How to classify test data? (cluster analysis) 2 Teaching, Practice How to establish the mapping between data and test results? (SVM modeling) 2 Teaching, Practice How to evaluate test results intelligently? (neural network) 2 Teaching, Practice Intelligent data mining case of hot working 4 Teaching, visiting Course design (2): intelligent system of hot working process 2 seminar *课程要求 (中文) Requirements (课程考核方式、考核标准等;不少于 50 字) 本课程要求学生准时出勤,按时按质完成课内和课后作业,根据授课进度完成两次 课程设计,通过实际操作完成数据测试与分析,并以书面报告或 PPT 方式呈现,具 体考核标准如下: 平时成绩 20% +课后作业 20% +课程设计 60% *课程要求 (English) Requirements (须与中文一致,翻译请力求信达雅。) Students are required to attend all courses or practices on time, to finish class assignments and homework, and to carry out two course designs according to the teaching schedule. They should complete data testing and analysis through actual operation, and present it in written report or PPT. The specific assessment criteria are as follows: Usual performance 20% + homework 20% + course design 60% 课程资源 (中文) Resources (教材、教参、网站资料等。) 袁夫全等.《现代虚拟仪器测量技术》,电子工业出版社,2015 年版 石德全等.《热加工测控技术》,北京大学出版社,2010 年版 Sherin Thomas 等.《PyTorch 深度学习与实战》,机械工业出版社,2020 年版 齐伟.《Python 数据分析》,电子工业出版社,2018 年版 课程资源 (English) Resources (须与中文一致,请力求信达雅。) Yuan Fuquan, et al. Modern virtual instrument measurement technology, electronic industry press, 2015 edition Shi Dequan et al. Measurement and control technology of hot working, Peking University Press, 2010 edition Sherin Thomas et al. Pytorch deep learning and practice, China Machine Press, 2020 Qi Wei. Python data analysis, electronic industry press, 2018 备注 Note