Echo-to-reverberation enhancement based on decomposition of time reversal operator with forward and backward reverberation nulling constrains

【摘要】 <正>Combined the decomposition of time reversal operator and the time reversal re- verberation nulling,a new time reversal processing approach for echo-to-reverberation ratio enhancement is proposed.In this method,a 2-dimensional signal subspace for the range of the target and two bottom focusing weight vectors for the ranges near the target are obtained by the decomposition of time reversal operator.From the signal subspace and focusing weight vectors,a constrained optimal excitation weight vector of source receiver array can be deduced to null the acoustic energy on the corresponding bottom and maximize the energy at the tar- get.This method remedies the shortages of conventional time reversal processing,time reversal reverberation nulling and time reversal selective focusing method.It focuses sound energy at the target and nulls the energy at the bottom near the target range simultaneously,therefore enhancing the echo-to-reverberation ratio without probe source and prior-knowledge of the rel- ative scattering intensity of target and bottom.Numerical simulations in typical shallow water environments showed the effectiveness of the proposed method and its improved performance for echo-reverberation enhancement than conventional time reversal processing.更多还原

【Abstract】 Combined the decomposition of time reversal operator and the time reversal re- verberation nulling,a new time reversal processing approach for echo-to-reverberation ratio enhancement is proposed.In this method,a 2-dimensional signal subspace for the range of the target and two bottom focusing weight vectors for the ranges near the target are obtained by the decomposition of time reversal operator.From the signal subspace and focusing weight vectors,a constrained optimal excitation weight vector of source receiver array can be deduced to null the acoustic energy on the corresponding bottom and maximize the energy at the tar- get.This method remedies the shortages of conventional time reversal processing,time reversal reverberation nulling and time reversal selective focusing method.It focuses sound energy at the target and nulls the energy at the bottom near the target range simultaneously,therefore enhancing the echo-to-reverberation ratio without probe source and prior-knowledge of the rel- ative scattering intensity of target and bottom.Numerical simulations in typical shallow water environments showed the effectiveness of the proposed method and its improved performance for echo-reverberation enhancement than conventional time reversal processing.更多还原