Mercurial > hg > smallbox
view solvers/CVX_add_const_Audio_declipping.m @ 183:0d7a81655ef2 danieleb
removed cumulative coherence calculation
author | Daniele Barchiesi <daniele.barchiesi@eecs.qmul.ac.uk> |
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date | Fri, 27 Jan 2012 13:15:11 +0000 |
parents | b14209313ba4 |
children |
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function solver=CVX_add_const_Audio_declipping(Problem, solver, idxFrame) %% CVX additional constrains % Clipping level: take the analysis window into account % clipping level detection signal = Problem.b1; signalFull = Problem.b(:,idxFrame); Dict = Problem.A; DictFull = Problem.B; Clipped = ~Problem.M(:,idxFrame); W=1./sqrt(diag(Dict'*Dict)); idxCoeff = find(solver.solution~=0); solution = solver.solution; wa = Problem.wa(Problem.windowSize); % analysis window clippingLevelEst = max(abs(signal./wa(~Clipped)')); idxPos = find(signalFull>=0 & Clipped); idxNeg = find(signalFull<0 & Clipped); DictPos=DictFull(idxPos,:); DictNeg=DictFull(idxNeg,:); wa_pos = wa(idxPos); wa_neg = wa(idxNeg); b_ineq_pos = wa_pos(:)*clippingLevelEst; b_ineq_neg = -wa_neg(:)*clippingLevelEst; if isfield(Problem,'Upper_Limit') && ~isempty(Problem.Upper_Limit) b_ineq_pos_upper_limit = wa_pos(:)*Problem.Upper_Limit; b_ineq_neg_upper_limit = -wa_neg(:)*Problem.Upper_Limit; else b_ineq_pos_upper_limit = Inf; b_ineq_neg_upper_limit = -Inf; end j = length(idxCoeff); if isinf(b_ineq_pos_upper_limit) %% CVX code cvx_begin cvx_quiet(true) variable solution(j) minimize(norm(Dict(:,idxCoeff)*solution-signal)) subject to DictPos(:,idxCoeff)*(W(idxCoeff).*solution) >= b_ineq_pos DictNeg(:,idxCoeff)*(W(idxCoeff).*solution) <= b_ineq_neg cvx_end if cvx_optval>1e3 cvx_begin cvx_quiet(true) variable solution(j) minimize(norm(Dict(:,idxCoeff)*solution-xObs)) cvx_end end else %% CVX code cvx_begin cvx_quiet(true) variable solution(j) minimize(norm(Dict(:,idxCoeff)*solution-signal)) subject to DictPos(:,idxCoeff)*(W(idxCoeff).*solution) >= b_ineq_pos DictNeg(:,idxCoeff)*(W(idxCoeff).*solution) <= b_ineq_neg DictPos(:,idxCoeff)*(W(idxCoeff).*solution) <= b_ineq_pos_upper_limit DictNeg(:,idxCoeff)*(W(idxCoeff).*solution) >= b_ineq_neg_upper_limit cvx_end if cvx_optval>1e3 cvx_begin cvx_quiet(true) variable solution(j) minimize(norm(Dict(:,idxCoeff)*solution-xObs)) cvx_end end end solver.solution(idxCoeff) = solution;