We present a new method to globally affine register a real time 3-D ultrasound volume to a 2-D cardiovascular MR image. The local phase presentation of both images is utilized as an image descriptor of "featureness". Phase mutual information is employed as the similarity metric. The registration process is built in a multi-scale frame-work to estimate the global affine transformation using a differential technique. The accuracy of the final registration result is investigated and shown to give a RMS TRE error of 38.7mm and 20.3mm respectively for two volunteers, both of which are less than for an equivalent intensity-based method. © 2006 IEEE
Three-dimensional (3D) stress echocardiography is a novel technique for diagnosing cardiac dysfuncti...
Real-time 3D US has potential for image guidance in minimally invasive liver interventions. However,...
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Real time three-dimensional echocardiography opens the possibility of interactive, fast three-dimens...
International audienceWe present a new image-based technique to rigidly register intraoperative thre...
We extend our static multimodal nonrigid registration to a spatio-temporal (2D+T) co-registration of...
Real-time 3-D echocardiography opens up the possibility of interactive, fast 3-D analysis of cardiac...
For many image-guided interventions there exists a need to compute the registration between preproce...
For many image-guided interventions there exists a need to compute the registration between preproce...
We present a technique for automatic intensity-based image-to-physical registration of a 3-D segment...
Registration of three-dimensional ultrasound (3DUS) volumes is necessary in several applications, su...
In this paper we describe a method to non-rigidly co-register a 2D slice sequence from real-time 3D ...
Registration of multiple 3D ultrasound sectors in order to provide an extended field of view is impo...
We present a novel method to register three-dimensional echocardiography (echo) images with magnetic...
Three-dimensional (3D) stress echocardiography is a novel technique for diagnosing cardiac dysfuncti...
Real-time 3D US has potential for image guidance in minimally invasive liver interventions. However,...
Image based registration techniques were developed, evaluated, and applied to 2D and 3D ultrasound (...
We present a new method to non-rigidly co-register a real-time 3D ultrasound volume slice to a cardi...
Real time three-dimensional echocardiography opens the possibility of interactive, fast three-dimens...
International audienceWe present a new image-based technique to rigidly register intraoperative thre...
We extend our static multimodal nonrigid registration to a spatio-temporal (2D+T) co-registration of...
Real-time 3-D echocardiography opens up the possibility of interactive, fast 3-D analysis of cardiac...
For many image-guided interventions there exists a need to compute the registration between preproce...
For many image-guided interventions there exists a need to compute the registration between preproce...
We present a technique for automatic intensity-based image-to-physical registration of a 3-D segment...
Registration of three-dimensional ultrasound (3DUS) volumes is necessary in several applications, su...
In this paper we describe a method to non-rigidly co-register a 2D slice sequence from real-time 3D ...
Registration of multiple 3D ultrasound sectors in order to provide an extended field of view is impo...
We present a novel method to register three-dimensional echocardiography (echo) images with magnetic...
Three-dimensional (3D) stress echocardiography is a novel technique for diagnosing cardiac dysfuncti...
Real-time 3D US has potential for image guidance in minimally invasive liver interventions. However,...
Image based registration techniques were developed, evaluated, and applied to 2D and 3D ultrasound (...