3 research outputs found
A Multi-Element Detector System for Intelligent Imaging: I-ImaS
I-ImaS is a European project aiming to produce new, intelligent x-ray imaging systems using novel APS sensors to create optimal diagnostic images. Initial systems concentrate on mammography and encephalography. Later development will yield systems for other types of radiography such as industrial QA and homeland security.
The I-ImaS system intelligence, due to APS technology and FPGAs, allows real-time analysis of data during image acquisition, giving the capability to build a truly adaptive imaging system with the potential to create images with maximum diagnostic information within given dose constraints.
A companion paper deals with the DAQ system and preliminary characterization. This paper considers the laboratory x-ray characterization of the detector elements of the I-ImaS system. The characterization of the sensors when tiled to form a strip detector will be discussed, along with the appropriate correction techniques formulated to take into account the misalignments between individual sensors within the array.
Preliminary results show that the detectors have sufficient performance to be used successfully in the initial mammographic and encephalographic I-ImaS systems under construction and this paper will further discuss the testing of these systems and the iterative processes used for intelligence upgrade in order to obtain the optimal algorithms and setting
A Multi-Element Detector System for Intelligent Imaging: I-ImaS
I-ImaS is a European project aiming to produce new, intelligent x-ray
imaging systems using novel APS sensors to create optimal diagnostic
images. Initial systems concentrate on mammography and encephalography.
Later development will yield systems for other types of radiography such
as industrial QA and homeland security.
The I-ImaS system intelligence, due to APS technology and FPGAs, allows
real-time analysis of data during image acquisition, giving the
capability to build a truly adaptive imaging system with the potential
to create images with maximum diagnostic information within given dose
constraints.
A companion paper deals with the DAQ system and preliminary
characterization. This paper considers the laboratory x-ray
characterization of the detector elements of the I-ImaS system. The
characterization of the sensors when tiled to form a strip detector will
be discussed, along with the appropriate correction techniques
formulated to take into account the misalignments between individual
sensors within the array.
Preliminary results show that the detectors have sufficient performance
to be used successfully in the initial mammographic and encephalographic
I-ImaS systems under construction and this paper will further discuss
the testing of these systems and the iterative processes used for
intelligence upgrade in order to obtain the optimal algorithms and
settings
Results of the first performance tests of the CMS electromagnetic calorimeter
CMS ECALPerformance tests of some aspects of the CMS ECAL were carried out on modules of the "barrel" sub-system in 2002 and 2003. A brief test with high energy electron beams was made in late 2003 to validate prototypes of the new Very Front End electronics. The final versions of the monitoring and cooling systems, and of the high and low voltage regulation were used in these tests. The results are consistent with the performance targets including those for noise and overall energy resolution, required to fulfil the physics programme of CMS at the LHC