16 August 2017 On the structural logic of curriculum system for the optical instrument major
Author Affiliations +
Proceedings Volume 10452, 14th Conference on Education and Training in Optics and Photonics: ETOP 2017; 1045234 (2017) https://doi.org/10.1117/12.2270959
Event: 14th Conference on Education and Training in Optics and Photonics, ETOP 2017, 2017, Hangzhou, China
Abstract
The theories of optical instrument are the Interdisciplinary of Optical Engineering and Instrument Science and Technology. The undergraduates should study the knowledge about the optics, precision machine and electronics. The courses such as Theory of Machine, Engineering Optics, even include some courses about Accuracy Analysis of Instrument are offered in the college. There are a lot of correlatives among these courses. This paper focuses on the structural logic of these courses. The order of these courses is researched, The aims of all the courses are clear completely to avoid the same topics to be taught twice in different courses. Therefore, the undergraduates would get the main line of the knowledge, and the professors would teach efficiently.
Yan, Yan, Li, and Shi: On the Structural Logic of Curriculum System for the Optical Instrument Major

1.

INTRODUCTION

The optical instrument design is a major direction for the students of Measuring & Control Technology and Instrumentations Major, as a traditional major in Changchun university of science and technology (CUST, the original name is Changchun Institute of Optical and Fine Mechanic, CIOM), we maintain the special feature that the optics is combined with fine mechanics during teaching. So, the major direction is the interdisciplinary of optical engineer and instrument science and technology. Therefore, there are two main line be design about the courses, one is the optical courses include the Physical optics, Applied Optics, Photoelectric Detection Technology, Optical Measurement, Optical Design and CAD etc., and another main line is the fine mechanical courses such as Theory of Engineering Drawing, Machine and Mechanisms, Fundamentals of Interchangeability and Measurement Technology, Error Theory and Data Processing, Instrument Elements Designing, Photoelectric Instrument Design, etc.. Furthermore, the courses about electronics and information are offered according to the most general engineering majors. A lot of links consist in these courses, But some student can’t understand the undertake relations of them, and some teacher can’t clear the aim of the courses, even the same contents are taught twice in different course. For solving the above problems, This paper focuses on the sequence and the structural logic of the curriculum system.

2.

COURSE PLAN

2.1

Cultivation Goal

Almost the cultivation goal of different major can be concluded in the general standards and distinguishing standards. Firstly, the general standards include the requirement such as, the basic knowledge, the ability of independent learning and lifelong learning, the cognition of team spirit and social responsibility. Secondly, the distinguishing standards are the requirement about the specialized knowledge, the specialized skill and the ability to finish the project. [1,2] The system diagram of cultivation goal and courses as Fig.1. The optical instrument design major being introduced in this paper combines the tradition of CIOM with the advantage in optical field, the main distinguishing standards as follows:

Figure 1.

System diagram of cultivation goal and courses

00101_PSISDG10452_1045234_page_2_1.jpg
  • (1) Through systematical learning and training, multiform teaching and engineering practice with the program, Graduates can master the theories such as Photoelectric Instrument Design, Intelligent Instrument, Optical Design, Accuracy Analysis of Instrument, Instrument Manufacturing Technique, Optical Instrument Assembly and Adjustment, gain abilities of technology integration and precision instrument design.

  • (2) Graduates can design and solve the engineering problems in the field of precision instruments.

  • (3) Graduates can track the development of new technologies in the field of precision instruments, and to solve complex engineering problems in special environments.

2.2

The Proportion Relationship of the Courses

2.2.1

The quantity compare of all courses

As shown in Fig.2. There are 16 required basic general courses, furthermore, 3 to 6 quality-oriented education courses should be elected in order to achieve the credit requirement, so the total quantity of the general basic course is about 21, there are15 basic disciplinary courses, they are all the required courses, and the quantity of the specialized required courses.

Figure 2.

The quantity compare diagram of all courses

00101_PSISDG10452_1045234_page_3_1.jpg

2.2.2

The analysis of basic disciplinary courses and specialized course

The basic disciplinary courses and specialized course are the important reflections of realizing the cultivation goal. 22 courses include the disciplinary courses and specialized course are required for the student graduating. They can be classified mechanical courses, optics courses and electronic and information courses. The Fig.2 shows the courses’ quantity of different categories, and the Fig.3 shows the courses’ class hours of different categories. It is almost inevitable that some course belong to two even all three categories, so we list these courses in the Tab.1, the “#” in front of the course’s name mean that the course is belong to the optics and electronic and information at the same time, the “*”mean that the course belong to the optics and mechanical. From the quantity and class hours, we can find the optics and mechanical courses is the main component.

Figure 3.

The classification comparison diagram about the quantity of all basic disciplinary courses and specialized courses

00101_PSISDG10452_1045234_page_3_2.jpg

Table 1.

Courses categories table

No.categorynameHoursCharacteristic
1Mechanical CoursesEngineering Drawing80Basic Disciplinary Courses
2Engineering Mechanics72Basic Disciplinary Courses
3Theory of Machine and Mechanisms48Basic Disciplinary Courses
4Instrument Manufacturing Technique48Basic Disciplinary Courses
5Error Theory and Data Processing40Basic Disciplinary Courses
6Fundamentals of Interchangeability and Measurement Technology40Specialized Courses
7Instrument Elements Designing56Specialized Courses
8CAD about Parts of Instruments32Specialized Courses
9Accuracy Analysis about Instrument32Specialized Courses
10Optics CoursesPhysical optics80Basic Disciplinary Courses
11Applied Optics64Basic Disciplinary Courses
12#Photoelectric Detection Technology64Specialized Courses
13Optical Measurement48Specialized Courses
14Laser principle and Application40Specialized Courses
15*Photoelectric Instrument Design40Specialized Courses
16* Optical Instrument Assembly and Adjustment40Specialized Courses
17Optical Design and CAD48Specialized Courses
18Electronic and information coursesElectrotechnics48Basic Disciplinary Courses
19Electronic Technique56Basic Disciplinary Courses
20Foundation of Control Engineering48Basic Disciplinary Courses
21Sensors & Testing Technology48Specialized Courses
22Single-chip Microcomputer Principle and Application48Specialized Courses

There are 9 Mechanical Courses, the Error Theory and Data Processing and Accuracy Analysis about Instrument are classified into this type because that they are the leading courses of instrument accuracy and error analysis. Among the 8 optics courses, Photoelectric Detection Technology belongs to the optics and electronic and information, the main content of “Photoelectric Instrument Design” and “Optical Instrument Assembly and Adjustment” are about the fine mechanic, the knowledge about optical instrument design is taught in the two courses, so they belong to the optics and mechanical. It can be concluded that the theory and knowledge of optics is the characteristic of the major.

3.

THE SEQUENCE OF COURSES

About the sequence of courses, we consider the way backward from the target, which is start from the last specialized courses or practical training, the leading courses for them are researched, all the needed courses are arranged until the public basic course step by step. [3] The cultivation goals are considered mainly during the curriculum are designed. The courses’ sequence in all semesters is shown in Tab. 2, the table does not list the basic general courses which are set up in most colleges and universities in China, such as Ideological and Political Education, Foreign Language, P.E., and modern history of China.

Table 2.

courses arrangement and semesters(not included Ideological and Political Education, Foreign Language, P.E.)

SessionCharacteristicName of coursesQuantity of coursesQuantity of weeks
8theoretical coursesGraduation Designing116
7theoretical coursesPhotoelectric Instrument Design, Optical Instrument Assembly and Adjustment, Intelligent Instrument, Laser principle and Application418
Practical coursesCourse Design of Photoelectric Detection Technology, Production Practice, MCU Course Design, Objective Knowledge Department of Measurement & Control Technology and Instruments,4
6theoretical coursesInstrument Elements Designing, CAD about Parts of Instruments, Accuracy Analysis about Instrument, Photoelectric Detection Technology, Single-chip Microcomputer Principle and Application, Optical Measurement719
Practical coursesCurriculum Design of Instrument Parts1
5theoretical coursesApplied Optics, Fundamentals of Interchangeability and Measurement Technology, Foundation of Control Engineering, Error Theory and Data Processing, Instrument Manufacturing Technique, Sensors & Testing Technology518
Practical coursesApplied Optics Course Design1
4theoretical coursesElectrotechnics, Engineering Mechanics, Theory of Machine and Mechanisms, Physical optics, Probability Theory and Mathematical Statistics519
Practical coursesElectrical and Electronic Practice, Electronic Technique Experiment2
3theoretical coursesLinear Algebra, College Physics, Complex Function and Integral Transforms, Electronic Technique418
Practical coursesCollege Physics Experiment, Engineering Training, Engineering Drawing,2
2theoretical coursesEngineering Drawing, Advanced Mathematics, College Physics, Computer Basis And Program Design419
Practical coursesLaboring for Public Benefit, Computer Experiment2
1theoretical coursesAdvanced Mathematics, Computer Basis And Program Design217
Practical coursesEntrance Education and Military Training1

4.

THE ANALYSIS OVERLAPPING PROBLEM OF CURRICULUM

There are two main reasons about the overlapping problem of curriculum, the first reason is knowledge convergence, the overlapping content is the basic knowledge of the course, it is needed for the course’s systematic. For example the content of the instrument accuracy analysis in the course of Photoelectric Instrument Design, another similar example is the some knowledge in Theory of Machine and Mechanisms is introduction in Instrument Elements Designing. The second reason is interdisciplinary, some knowledge is described in different courses. The example is the knowledge about the optical source is taught in both courses which Applied Optics and Photoelectric Detection Technology. The main overlapping problem of curriculum as Fig.2.

Table 3.

The main overlapping problem of curriculum

Overlapping typeCourse 1Course 2,3The main overlapping knowledge
Knowledge convergenceEngineering DrawingCAD about Parts of InstrumentsApplication of AutoCAD
Fundamentals of Interchangeability and Measurement TechnologyInstrument Manufacturing TechniqueSize chain
Theory of Machine and MechanismsInstrument Elements DesigningGear train
Accuracy Analysis about InstrumentPhotoelectric Instrument Design,Accuracy analysis and design for precision machinery
Accuracy Analysis about InstrumentInstrument Elements DesigningInstrument Elements Designing for Shafting, gear and screw drive
Instrument Elements DesigningOptical Instrument Assembly and Adjustmentgear and screw drive
InterdisciplinarySensors & Testing TechnologyPhotoelectric Detection TechnologyPhotoelectric effect
Applied OpticPhotoelectric Instrument DesignTypical optical system
Applied OpticPhotoelectric Detection TechnologyThe basis photometry

5.

THE COURSES’ GOAL AND THE LOGIC OF CURRICULUM

The fundamental order of the courses can be get base on the courses’ systemize. The main relation of the courses about the major of optical instrument design as Fig.4, It is the main line how the design capacity for photoelectric instrument is trained. It begin with the Engineering Drawing, then, the courses such as Engineering Mechanics, Theory of Machine and Mechanisms, Instrument Manufacturing Technique, Instrument Elements Designing, CAD about Parts of Instruments are set up in sequence, until Instrument Elements Designing is taught as a comprehensive course. During the main courses in the main line are taught, the electricity basic courses, the courses about sensor and detection technology, the courses about optics, the courses about accuracy theory are all be taught too. These courses are the basic knowledge for the students who are able to design the photoelectric instrument.

Figure 4.

The classification comparison diagram about the class hours of all basic disciplinary courses and specialized courses

00101_PSISDG10452_1045234_page_3_3.jpg

Figure 5.

Relation of the courses about the major of optical instrument design

00101_PSISDG10452_1045234_page_7_1.jpg

Base on the courses’ systemize, we can make it clear which course should belong to that the different overlapping content. So we can forms the syllabus, and make the courses’ education goal.

6.

CONCLUSION

The main line and the order of the courses can be made clear through optimizing the curriculum system, these provide a basis of the course plan. Therefore, We conclude the overlapping problem of curriculum, and find it’s reason, So the course objectives and syllabus are optimized accordingly.

REFERENCES

[1] 

Song Aiguo, Kuang Yinghui.The explore of talents training system of Measurement and Control Technology and Instrumentation[J]. Journal of Higher Engineering Education Research, 2005,(01):48–51.Google Scholar

[2] 

Yang Jun, Wang Guang-ming, Ye Xiang-bin. Exploration and Practice of Training Innovative Talents of Measurement and Control Technology and Instrumentation Specialty[J]. Journal of Higher Education Research, 2010,(02):14–16.Google Scholar

[3] 

Zhang Wen-na, Xiong Fei-li, Ye Xiang-bin, Luo Wu-sheng. Research on the integrated optimization of the specialized curriculum system of Measurement &Control Technology and Instrument Specialty[J]. Journal of Higher Education Research, 2008,(02):33–35.Google Scholar

© (2017) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Yufeng Yan, Yufeng Yan, Juncen Yan, Juncen Yan, Yang Li, Yang Li, Lixia Shi, Lixia Shi, } "On the structural logic of curriculum system for the optical instrument major", Proc. SPIE 10452, 14th Conference on Education and Training in Optics and Photonics: ETOP 2017, 1045234 (16 August 2017); doi: 10.1117/12.2270959; https://doi.org/10.1117/12.2270959
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