The signal and linear system course team has good ethics, high academic attainment, and strong teaching ability.
播放:50次,课程ID:4026966
The signal and linear system course team has good ethics, high academic attainment, and strong teaching ability.
--Instructor team introduction
--1-1 Basic concepts of signals and systems
--1-2 Classification of signals
--1-3 Several typical deterministic signals
--1-5 Basic operations of signals
--1-6 Step signal and its characteristics
--1-7 Impulse signal and its characteristics
--1-8 System model and its classification
--1-9 Linear time invariant system
--1-10 Causal and non-causal systems, stable and unstable systems
--2-1 Time-domain solution of LTI continuous system
--2-2 The initial state and initial value of the system
--2-3 Classification of system response
--2-4 Zero input response and zero state response
--2-5 Impulse response and step response
--2-7 Using Convolution integral to solve system zero state response
--3-1Teaching content and requirements
--3-2 The orthogonal function decomposition of signals
--3-3 Spectrum analysis of periodic signals
--3-4 Spectral characteristics of typical periodic signals
--3-5 Spectrum analysis of aperiodic signals
--3-6 Spectral characteristics of typical aperiodic signals
--3-7 Spectral characteristics of singular signals
--3-8 The nature of Fourier transform and its engineering application
--3-9 Energy spectrum and power spectrum
--3-10 Fourier transform of periodic signal
--3-11 Frequency domain analysis of LTI system
--3-12 Distortion-free transmission of signals
--3-15 Sampling theorem and its application
--4-2 Convergence domain of Laplace transform
--4-4 The main properties of Laplace transform
--4-5 Laplace inverse transform
--4-7 S-domain analysis and application of LTI system
--5-1 Teaching content and requirements
--5-2 Mathematical model of discrete time system
--5-3 Classical solution of difference equation
--5-4 Zero input response and zero state response of discrete systems
--5-5 Unit sequence response of discrete LTI systems
--5-6 Definition and Solution of Convolution Sum
--5-7 The nature and application of convolution sum
--6-1 Teaching content and requirements
--6-2 Definition of Z transform and z transform of typical sequence
--6-3 Convergence domain of Z transform
--6-4 The properties of the Z transform
--6-5 Inverse Z transform,Power series expansion method
--6-6 Inverse Z transform, partial fraction expansion method
--7-1 System functions and time domain characteristics
--7-2 System functions and frequency domain characteristics
--7-3 System functions and their causality and stability
--7-4 Signal flow diagram and its properties
--7-5 Simplification of signal flow diagram
--Experiment 1 Time-domain response test and analysis of LTI continuous system
--Experiment 2 Continuous system frequency domain analysis
--Experiment 3 Transform domain analysis of continuous system
--Experiment 4 Time-domain and transform-domain analysis of discrete systems
刘翠响老师,副教授,河北工业大学博士,硕士生导师
王宝珠教授,河北工业大学电子信息工程学院硕士生导师,河北省级教学名师,河北省“信号与信息处理”教学团队负责人,河北工业大学课程建设与评估专家,从事高等教育教学工作三十五年,教书育人,治学严谨,教学经验丰富,带领教学团队,不断改革、勇于创新,多次获得河北省教学成果一二三等奖。
曾成老师,副教授,北京理工大学博士,硕士生导师。
小杨帆老师,副教授,山东大学博士,天津市青年教师教学基本功竞赛一等奖获得者。
杨帆,哈尔滨工业大学博士,教授,博士生导师。
白振旭,讲师,博士生导师,哈尔滨工业大学和澳大利亚麦考瑞大学博士,先进激光技术研究中心副主任,河北省先进激光技术与装备装点实验室副主任。
耿翀老师,清华大学博士,硕士生导师