A new approach for the detection of head motions during PET scanning is presented. The proposed system includes 4 modules, which are: input module, face segmentation, facial landmark detection, and head movement estimation. The developed system is tested on pictures monitoring a subject's head while simulating PET scanning (n=12) and face images of subjects with different skin colours (n=31). Experimental results show that the centres of chosen facial landmarks (eye corners and middle point of nose basement) can be detected with high precision (1?0.64 pixels). Processing of 2D images with known moving parameters demonstrates that the parameter movement in terms of rotation and translation along X, Y, and Z directions can be obtained very ac...
Methods capable of correcting for head motion in all six degrees of freedom have been proposed for P...
We propose a new method for measuring the orientation angles of rigid body motion (e.g., that of a h...
Motion-compensated positron emission tomography (PET) has the potential to improve translational inv...
A new approach for the detection of head motions during PET scanning is presented. The proposed syst...
A new approach for detection of head motions during PET scanning is presented. The proposed system i...
A new approach for the detection of head motions during PET scanning is presented. The proposed syst...
A new approach of determination of head movement is presented from the pictures recorded via digita...
Head movement during a brain scan is one of the major reasons causing the blurriness of images. In o...
In nuclear medicine imaging, patient motion can cause deterioration og image quality. Therefore, the...
Marker-less head motion correction methods have been well-studied, but no report has discussed poten...
Algorithms and procedures to monitor human head motions based on three vision models (CIECAM’97, RET...
Optical motion tracking systems are effective in measuring head motion during MRI and PET scans. How...
Head motion during PET scanning is widely regarded as a source of image degradation and resolution l...
Abstract—Positron emission tomography (PET) is a relatively lengthy brain imaging method. Because it...
Abstract – Human head detection played an important role in applications such as video surveillance,...
Methods capable of correcting for head motion in all six degrees of freedom have been proposed for P...
We propose a new method for measuring the orientation angles of rigid body motion (e.g., that of a h...
Motion-compensated positron emission tomography (PET) has the potential to improve translational inv...
A new approach for the detection of head motions during PET scanning is presented. The proposed syst...
A new approach for detection of head motions during PET scanning is presented. The proposed system i...
A new approach for the detection of head motions during PET scanning is presented. The proposed syst...
A new approach of determination of head movement is presented from the pictures recorded via digita...
Head movement during a brain scan is one of the major reasons causing the blurriness of images. In o...
In nuclear medicine imaging, patient motion can cause deterioration og image quality. Therefore, the...
Marker-less head motion correction methods have been well-studied, but no report has discussed poten...
Algorithms and procedures to monitor human head motions based on three vision models (CIECAM’97, RET...
Optical motion tracking systems are effective in measuring head motion during MRI and PET scans. How...
Head motion during PET scanning is widely regarded as a source of image degradation and resolution l...
Abstract—Positron emission tomography (PET) is a relatively lengthy brain imaging method. Because it...
Abstract – Human head detection played an important role in applications such as video surveillance,...
Methods capable of correcting for head motion in all six degrees of freedom have been proposed for P...
We propose a new method for measuring the orientation angles of rigid body motion (e.g., that of a h...
Motion-compensated positron emission tomography (PET) has the potential to improve translational inv...