筹商生课程开设肯求表
开课院(系、所):信息科学与工程学院
课程肯求开设类型: 新开√ 重开□ 改名□(请在□内打勾,下同)
课程
称呼
华文
声学旨趣
英文
Principles of Acoustics
待分拨课程编号
MS004120课程适用学位级别
博士
硕士
√
总学时
32
课内学时
32
学分
2
实行圭表
用机小时
课程类别
□大众基础 □ 专科基础 □ 专科必修 √专科选修
开课院(系)
信息科学与工程学院
开课学期
秋季
考察表情
A.笔试(开卷 □闭卷) B. □面试
C.□笔试与面试蚁合 D. □ 其他 论文
课程认真东说念主
进修
姓名
韩 宁
职称
副证实注解
hanning@seu.edu.cn
网页地址
讲课说话
汉语
课件地址
适用学科范围
一级
所属一级学科称呼
信息与通讯工程
实验(案例)个数
先修课程
教授用书
课真称呼
课本编者
出书社
出书年月
版次
主要课本
《声学基础》
杜功焕等
南京大学出书社
2012
主要参考书
《声学旨趣》
程建春
科学出书社
2012
一、课程先容(含教授指标、教授条件等)(300字以内)
声学是物理学的一个遑急分支,同期又是一门浸透性、交叉性极强的欺诈技巧学科,主要履行包括:质点振动学,声波的基人道质,声波的发射和声波的传播等。本课程是声学类关联专科共同的专科基础课程,该课程学生的受益面广。本门课程为筹商生学习和筹商信息工程、水声工程、环境科学与工程等奠定基础。
二、教授大纲(含章节目次):(可附页)
1 引子
2 质点振动学
2.1 质点解放振动
2.2 质点衰减振动
2.3 质点将就振动
色吧电影3 声波的基人道质
声压的基本观点
理念念流体媒质中的声波方程
平面波的基人道质
声能量、声功率、声强
声波的反射、折射与透射
声波的干预
4 无穷空间中声波的发射
脉动球源的发射
声偶极子的发射
球形声源的发射
5 声波的散射和衍射
柱体对平面波的散射
球体对平面波的散射
刚性屏和楔的衍射
6声传播与声场
波动声学基础
射线声学基础
混响与噪声
7 欺诈例如
三、教授周历
周次
教授履行
教授表情
1
第一章 声学详细:引子
讲课
2
第二章 质点振动学: 基本观点,质点解放振动
讲课
3
第二章 质点振动学:质点衰减振动
讲课
4
第二章 质点振动学:质点将就振动
讲课
5
第三章 声波的基人道质: 声压的基本观点,声波方程
讲课
6
第三章 声波的基人道质:平面波的基人道质,声能量、声功率、声强
讲课
7
第三章 声波的基人道质:平面波垂直入射时声波的反射、折射与透射
讲课
8
第三章 声波的基人道质: 斜入射时的反射、折射与透射白虎 色情,声波的干预
讲课
9
第四章 无穷空间中声波的发射:脉动球源的发射
讲课
10
第四章 无穷空间中声波的发射:声偶极子的发射
讲课
11
第四章 无穷空间中声波的发射:球形声源的发射
讲课
12
第五章 声波的散射和衍射:柱体对平面波的散射
讲课
13
第五章 声波的散射和衍射:球体对平面波的散射
讲课
14
第五章 声波的散射和衍射:刚性屏和楔的声衍射
讲课
15
第六章 声传播与声场:波动声学基础
讲课
16
第六章 声传播与声场:射线声学基础
讲课
17
第六章 声传播与声场:混响与噪声
讲课
18
欺诈例如
讲课
四、主讲进修简介:
韩宁,女,1981年出身,副证实注解,硕士生导师。主要筹商标的为水声信号贬责、有源噪声死心等,包括指标定位与分类识别、阵列信号贬责、散射声有源死心、声场建模与声传播分析等。主执国度当然科学基金、十三五海装预研技俩等。获拔擢部科技向上一等奖一项,获第19届海外声学大会后生科学家奖。现为江苏省声学学会理事。
五、任课进修信息(包括主讲进修):
任课
进修
学科
(专科)
办公
电话
住宅
电话
手机
电子邮件
通讯地址
邮政
编码
韩宁
信号与信息贬责
hanning@seu.edu.cn
东南大学信息科学与工程学院
210096
Application Form For Opening Graduate Courses
School (Department/Institute):School of Information Science and Engineering
Course Type: New Open√ Reopen □ Rename □(Please tick in □, the same below)
Course Name
Chinese
声学旨趣
English
Principles of Acoustics
Course Number
MS004120Type of Degree
Ph. D
Master
√
Total Credit Hours
32
In Class Credit Hours
32
Credit
2
Practice
Computer-using Hours
Course Type
□Public Fundamental □Major Fundamental □Major Compulsory √Major Elective
School (Department)
School of Information Science and Engineering
Term
Autumn
Examination
A. √Paper(√Open-book □ Closed-book)B. □ Oral
C. □Paper-oral Combination D. □ OthersPaper
Chief
Lecturer
Name
Han Ning
Professional Title
Associate Professer
hanning@seu.edu.cn
Website
Teaching Language used in Course
Chinese
Teaching Material Website
Applicable Range of Discipline
One class
Name of First-Class Discipline
Information and communication Engineering
Number of Experiment
Preliminary Courses
Teaching Books
Textbook Title
Author
Publisher
Year of Publication
Edition Number
Main Textbook
Fundamentals of Acoustics
Du Gonghuan etal.
Nanjing University Press
2012
Main Reference Books
Principles of Acoustics
Chen Jianchun
Science Press
2012
Course Introduction (including teaching goals and requirements) within 300 words:
Acoustics is not only an important branch of physics, but also a highly permeable and cross-cutting applied technology subject. Its main contents include particle oscillation, basic properties of sound waves, radiation and propagation of sound waves, etc. This course is a common professional basic course for acoustics related majors, which benefits students in a wide range. This course lays a foundation for graduate students to study information engineering, underwater acoustic engineering, environmental science and engineering, etc.
Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
1 Introduction
2 Particle oscillation
2.1 Free vibration of particles
2.2 Attenuated vibration of particle
2.3 Forced vibration of particle
Basic properties of acoustic wave
Basic concept of sound pressure
Acoustic wave equation in ideal fluid medium
Basic properties of plane wave
Sound energy, sound power and sound intensity
Reflection, refraction and transmission
Interference of acoustic waves
Radiation of acoustic waves in infinite space
Radiation from pulsating spherical source
Radiation of acoustic dipole
Radiation from spherical sound source
Scattering and diffraction of acoustic waves
Scattering of plane waves by a cylinder
Scattering of plane Waves by a sphere
Diffraction of rigid screen and wedge
Sound propagation and sound field
Fundamentals of wave acoustics
Fundamentals of ray acoustic
Reverberation and Noise
7 Examples of acoustics
Teaching Schedule:
Week
Course Content
Teaching Method
1
1. Introduction
Lecturing
2
2. Particle oscillation: Basic concepts, free vibration of particles
Lecturing
3
2. Particle oscillation: Attenuated vibration of particles
Lecturing
4
2. Particle oscillation: Forced vibration of particles
Lecturing
5
3. Basic properties of acoustic wave: Basic concept of sound pressure, acoustic wave equation
Lecturing
6
3. Basic properties of acoustic wave: Basic properties of plane wave, sound energy, sound power and sound intensity
Lecturing
7
3. Basic properties of acoustic wave: Reflection, refraction and transmission at vertical incidence
Lecturing
8
3. Basic properties of acoustic wave: Reflection, refraction and transmission at oblique incidence, interference of sound waves
Lecturing
9
4. Radiation of acoustic waves in infinite space: Radiation from pulsating spherical source
Lecturing
10
4. Radiation of acoustic waves in infinite space: Radiation of acoustic dipole
Lecturing
11
4. Radiation of acoustic waves in infinite space: Radiation from spherical sound source
Lecturing
12
5. Scattering and diffraction of acoustic waves: Scattering of plane waves by a cylinder
Lecturing
13
5. Scattering and diffraction of acoustic waves: Scattering of plane waves by a sphere
Lecturing
14
5. Scattering and diffraction of acoustic waves: Diffraction of rigid screen and wedge
Lecturing
15
6. Sound propagation and sound field: Fundamentals of wave acoustics
Lecturing
16
6. Sound propagation and sound field: Fundamentals of ray acoustic
Lecturing
17
6. Sound propagation and sound field: Reverberation and Noise
Lecturing
18
Examples of acoustics
Lecturing
Note: 1. Above one, two, and three items are used as teaching Syllabus in Chinese and announced on the Chinese website of Graduate School. The four and five items are preserved in Graduate School.
2. Course terms: Spring, Autumn, and Spring-Autumn term.
3. The teaching languages for courses: Chinese, English or Chinese-English.
4. Applicable range of discipline: public, first-class discipline, second-class discipline, and third-class discipline.
5. Practice includes: experiment, investigation, research report, etc.
6. Teaching methods: lecture, seminar, practice, etc.
7. Examination for degree courses must be in paper.
8. Teaching material websites are those which have already been announced.
9. Brief introduction of chief lecturer should include: personal information (date of birth, gender, degree achieved, professional title), research direction, teaching and research achievements. (within 100-500 words)
Brief Introduction of Chief lecturer:
Name: Han Ning
Sex: Female
Birth date: October, 1981
Professional Title: Associate Professor
Her main research fields are the underwater acoustic signal processing and the active noise control, including the target location and classification, the array signal processing, the active scattering control, the acoustic field modeling and the acoustic propagation analysis. The National Natural Science Foundation of China and the Pre-Research Projects are in progress. She won the first prize of the Ministry of Education for scientific and technological progress and the Young Scientist Award of the 19th International Acoustic Congress. Now she is the member of Jiangsu Acoustics Society council.
Lecturer Information (include chief lecturer)
Lecturer
Discipline
(major)
Office Phone Number
Home Phone Number
Mobile Phone Number
Address
Postcode
Han Ning
Signal Processing
hanning@seu.edu.cn
210096