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Chapter 16 Adaptive Filters

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Presentation on theme: "Chapter 16 Adaptive Filters"— Presentation transcript:

1 Chapter 16 Adaptive Filters

2 Learning Objectives Introduction to adaptive filtering.
LMS update algorithm. Implementation of an adaptive filter using the LMS algorithm.

3 Introduction Adaptive filters differ from other filters such as FIR and IIR in the sense that: The coefficients are not determined by a set of desired specifications. The coefficients are not fixed. With adaptive filters the specifications are not known and change with time. Applications include: process control, medical instrumentation, speech processing, echo and noise calculation and channel equalisation.

4 Introduction To construct an adaptive filter the following selections have to be made: Which method to use to update the coefficients of the selected filter. Whether to use an FIR or IIR filter.

5 Introduction The real challenge for designing an adaptive filter resides with the adaptive algorithm. The algorithm needs to have the following properties: Practical to implement. Adapt the coefficients quickly. Provide the desired performance.

6 The LMS Update Algorithm
The basic premise of the LMS algorithm is the use of the instantaneous estimates of the gradient in the steepest descent algorithm:  = step size parameter n,k = gradient vector that makes H(n) approach the optimal value Hopt It has been shown that (Widrow and Stearns, 1985): e(n) is the error signal, where: e(n) = d(n) - y(n) Finally:

7 LMS algorithm Implementation

8 LMS algorithm Implementation
temp = MCBSP0_DRR; // Read new sample x(n) X[0] = (short) temp; D = X[0]; // Set desired equal to x(n) for this // application Y=0; for(i=0;i<N;i++) Y = Y + ((_mpy(h[i],X[i])) << 1) ; // Do the FIR filter E = D -(short) (Y>>16); // Calculate the error BETA_E =(short)((_mpy(beta,E)) >>15); // Multiply error by step size parameter for(i=N-1;i>=0;i--) { h[i] = h[i] +((_mpy(BETA_E,X[i])) >> 15); // Update filter coefficients X[i]=X[i-1]; } MCBSP0_DXR = (temp &0xffff0000) | (((short)(Y>>16))&0x0000ffff); // Write output

9 Adaptive Filters Codes
Code location: \Code\Chapter 16 - Adaptive Filter\ Projects: Fixed Point in C: \Lms_C_Fixed\ Floating Point in C: \Lms_C_Float\ Fixed Point in Linear Asm: \Lms_Asm_Fixed\ Further reading: Widrow and Stearns,

10 Chapter 16 Adaptive Filters - End -

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