Add to ORKGInternational audienceBackground, Motivation and Objective Compressive sensing (CS) is a recent theory allowing the recovery of a signal sampled below the limit set by Shannon's theorem. The application of CS to medical ultrasound (US) imaging is a very recent field and the few existing studies mostly focus on fixed sparsifying transforms. In contrast to previous work, we propose a new approach based on the use of learned overcomplete dictionaries. Such dictionaries allow for much sparser representations of the signals since they are optimized for a particular class of images such as US image
Abstract — One of the fundamental theorem in information theory is the so-called sampling theorem al...
The recently introduced compressive sensing (CS) theory allows – under certain assumptions – to reco...
International audienceThis paper proposes a comparison between an established (used in magnetic reso...
International audienceBackground, Motivation and Objective Compressive sensing (CS) is a recent theo...
In this paper we propose a compressed sensing (CS) method adapted to 3D ultrasound imaging (US). In ...
International audienceIn this paper we propose a compressed sensing (CS) method adapted to 3D ultras...
National audienceOne of the fundamental theorem in information theory is the so-called sampling theo...
International audienceOne of the fundamental theorem in information theory is the so-called sampling...
International audienceIn this paper we present a compressed sensing (CS) method adapted to 3D ultras...
International audienceThis paper proposes a compressed sensing method based on overcomplete learned ...
Increasing the frame rate is a challenging problem for tracking the fast transient motions of the he...
International audienceCompressive sensing in ultrasound imaging has previously been introduced by th...
Abstract — One of the fundamental theorem in information theory is the so-called sampling theorem al...
The recently introduced compressive sensing (CS) theory allows – under certain assumptions – to reco...
International audienceThis paper proposes a comparison between an established (used in magnetic reso...
International audienceBackground, Motivation and Objective Compressive sensing (CS) is a recent theo...
In this paper we propose a compressed sensing (CS) method adapted to 3D ultrasound imaging (US). In ...
International audienceIn this paper we propose a compressed sensing (CS) method adapted to 3D ultras...
National audienceOne of the fundamental theorem in information theory is the so-called sampling theo...
International audienceOne of the fundamental theorem in information theory is the so-called sampling...
International audienceIn this paper we present a compressed sensing (CS) method adapted to 3D ultras...
International audienceThis paper proposes a compressed sensing method based on overcomplete learned ...
Increasing the frame rate is a challenging problem for tracking the fast transient motions of the he...
International audienceCompressive sensing in ultrasound imaging has previously been introduced by th...
Abstract — One of the fundamental theorem in information theory is the so-called sampling theorem al...
The recently introduced compressive sensing (CS) theory allows – under certain assumptions – to reco...
International audienceThis paper proposes a comparison between an established (used in magnetic reso...