The aim of this experiment was to perform basic operations on DSPP processor.The kit used was TMS320F28375.Basic arithmetic, logical and shifting instructions were executed on the processor.The values stored in the registers were noted after execution.It was observed that logical shifting operations perform bitwise shifting of data.Also logical operations only represent true or false value(1 or 0).
Tuesday, 25 April 2017
Lab8:- FIR filter design using FSM
The aim of this experiment was to perform FIR filter design is Frequency Sampling Method. Here the output h[n] is obtained by IDFT of h(w) obtained by the magnitude spectrum of filter required.When the input specifications are kept same as previous experiment wherein FIR filter design was performed using Windowing method, it is observed that as the order increases , the number of lobes in the stop band increases.The advantage of FSM over windowing is the efficient frequency sampling structure which is obtained when most of the frequency samples are zero. Like window method, the h[n] (transfer function) obtained is symmetric.
Sunday, 23 April 2017
Research paper review:Audio Compression using Fourier transform
International Journal of Science and Research (IJSR) ISSN (Online): 2319-7064 Index
Copernicus Value (2015): 78.96 | Impact Factor (2015): 6.391, Volume 6 Issue 2, February 2017
Summary:
Audio compression has been carried out by Discrete Fourier Transform to differentiate one frequency from another. Results obtained on performing DFT of an audio speech signal has been analyzed with the help of parameters like Level Detection, Framing, Windowing, Power spectrum calculation. The approximate signal is drawn by taking the maximum frequency components of the maximum power frame. The approximate signal and the original signal are compared graphically.
Paper link: https://www.ijsr.net/archive/v6i2/ART2017951.pdf
Plagiarism link: https://drive.google.com/open?id=0B06hNCrbOenyVHZtRVl5Zkctd2s
Copernicus Value (2015): 78.96 | Impact Factor (2015): 6.391, Volume 6 Issue 2, February 2017
Summary:
Audio compression has been carried out by Discrete Fourier Transform to differentiate one frequency from another. Results obtained on performing DFT of an audio speech signal has been analyzed with the help of parameters like Level Detection, Framing, Windowing, Power spectrum calculation. The approximate signal is drawn by taking the maximum frequency components of the maximum power frame. The approximate signal and the original signal are compared graphically.
Paper link: https://www.ijsr.net/archive/v6i2/ART2017951.pdf
Plagiarism link: https://drive.google.com/open?id=0B06hNCrbOenyVHZtRVl5Zkctd2s
Patent Review:Mixed lossless audio compression
Patent Review
Patent No: US 8,630,861 B2
Publication date: *Jan. 14, 2014
Inventor: Wei-Ge Chen, Sammamish, WA (US); Chao He Redmond, WA (US)
Summary:
A mixed lossless audio compression has application to a unified lossy and lossless audio compression scheme that combines lossy and lossless audio compression within a same audio signal. The mixed lossless compression configures a transition frame between lossy and lossless coding frames to produce seamless transitions. Some of the obstacles wile unifying lossy and lossless audio compression
techniques include:-
Transition between lossy and lossles compression can introduce certain audible discontinuities in the decoded audio signal. In simple words, audible noise can be produced when switching between lossy and lossless compression.
In lossy compression schemes, audio signal samples on an overlapped window basis, whereas lossless compression techniques do not. Redundantly coding the overlapped portion with both lossy and lossless compression may reduce the achieved compression ratio.
To tackle these obstacles, the inventor has provided a solution to divide the signal into frames
(separately for lossy and lossless) and mixed lossless frames that serve as transition between the two other types. These mixed lossless frames are compressed by performing a lapped transform on an overlapping window in the lossy compression case followed by inverse lapped transform to produce a
single audio signal frame, which is losslessly compressed.
Patent link: https://google.com/patents/US8630861B2
Patent No: US 8,630,861 B2
Publication date: *Jan. 14, 2014
Inventor: Wei-Ge Chen, Sammamish, WA (US); Chao He Redmond, WA (US)
Summary:
A mixed lossless audio compression has application to a unified lossy and lossless audio compression scheme that combines lossy and lossless audio compression within a same audio signal. The mixed lossless compression configures a transition frame between lossy and lossless coding frames to produce seamless transitions. Some of the obstacles wile unifying lossy and lossless audio compression
techniques include:-
Transition between lossy and lossles compression can introduce certain audible discontinuities in the decoded audio signal. In simple words, audible noise can be produced when switching between lossy and lossless compression.
In lossy compression schemes, audio signal samples on an overlapped window basis, whereas lossless compression techniques do not. Redundantly coding the overlapped portion with both lossy and lossless compression may reduce the achieved compression ratio.
To tackle these obstacles, the inventor has provided a solution to divide the signal into frames
(separately for lossy and lossless) and mixed lossless frames that serve as transition between the two other types. These mixed lossless frames are compressed by performing a lapped transform on an overlapping window in the lossy compression case followed by inverse lapped transform to produce a
single audio signal frame, which is losslessly compressed.
Patent link: https://google.com/patents/US8630861B2
Lab7:-FIR filter design using Windowing method
We can design a linear phase FIR filter using 2 methods:-Windowing and FSM(Frequency Sampling method). The aim of this experiment is to design a linear phase FIR filter using windowing method.In this method the input time domain infinite Digital Time signal is multiplied with a windowing function which is a finite DT signal, to obtain an FIR filter transfer function in the form of an array of values. There are different types of windowing functions. The choice of windowing function is decided by the value of stop band attenuation and Cn.
A Scilab code was used to design an FIR filter. Hanning window was the windowing function used .The stopband attenuation was decided accordingly. A low pass filter was designed and the observed and decided parameter values were compared.
A Scilab code was used to design an FIR filter. Hanning window was the windowing function used .The stopband attenuation was decided accordingly. A low pass filter was designed and the observed and decided parameter values were compared.
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