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Basics of Noise and its Measurements

Basics of Noise and its Measurements. Instructor: Prof. Nachiketa Tiwari, Department of Mechanical Engineering, IIT Kanpur. This course is intended for all those who want to conduct experiments in area of NVH. Thus, the course is open to students of engineering and science, and also to all those who from the industry and research organizations - who are working in area of sound, NVH and acoustics. Each lecture will be followed by a quiz, which will help student the concepts better, and gain deeper insights to measurement process. The course is fairly generic so that there is no need for a particular background. Rather, what is needed is openness, and ability to learn and check out new ideas with comfort. (from nptel.ac.in)

Lecture 28 - Fourier Integral (cont.)


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Lecture 01 - Introduction
Lecture 02 - Vibration versus Waves
Lecture 03 - Nature of Sound
Lecture 04 - The Decibel Scale
Lecture 05 - Sound Terminology
Lecture 06 - Adding Decibels
Lecture 07 - Modeling Sound Propagation
Lecture 08 - The Momentum Equation
Lecture 09 - The Continuity Equation and the Gas Law
Lecture 10 - 1-D Wave Equation
Lecture 11 - General Solution for 1-D Wave Equation
Lecture 12 - Complex Time Signal and Transfer Functions
Lecture 13 - Transmission Line Equations
Lecture 14 - Planar Waves in Closed Tubes
Lecture 15 - Planar Waves in 1-D Open Tubes
Lecture 16 - A Semi-infinite Tube and Overall Summary
Lecture 17 - 1-D Tubes with Imperfect Terminations
Lecture 18 - Measuring Impedance Through Kundt's Apparatus
Lecture 19 - Classification of Microphones
Lecture 20 - Classification of Microphones (cont.)
Lecture 21 - Classification of Microphones by Application
Lecture 22 - Microphone Sensitivity
Lecture 23 - Microphone Sensitivity (cont.)
Lecture 24 - Selecting the Right Microphone
Lecture 25 - Fourier Series Expansions
Lecture 26 - Fourier Series Expansions (cont.)
Lecture 27 - Fourier Integral
Lecture 28 - Fourier Integral (cont.)
Lecture 29 - Fourier Transform
Lecture 30 - Fourier Transform (cont.)
Lecture 31 - Discrete Fourier Transform (DFT)
Lecture 32 - Discrete Fourier Transform (cont.)
Lecture 33 - DFT: Calculating Frequencies and Padding
Lecture 34 - DFT: Influence of Duration and Sampling Frequency on Resolution
Lecture 35 - Fast Fourier Transform (FFT) and Inverse FFT
Lecture 36 - Considerations while Deciding Instrumentation
Lecture 37 - Considerations for Selecting Instruments for Noise Measurements
Lecture 38 - Measuring Impedance using the Two Microphone Method
Lecture 39 - Designing an Impedance Measurement Tube
Lecture 40 - Octave Band Analysis
Lecture 41 - Calculating Results in Octave Bands
Lecture 42 - Weighting
Lecture 43 - Short Time DFT
Lecture 44 - Short Term Fourier Transforms and Spectrograms
Lecture 45 - Reverberation Time
Lecture 46 - Anechoic Rooms
Lecture 47 - Sound Transmission Class, Noise Reduction Coefficient, Sound Attenuation
Lecture 48 - Reverberant Room