Title :
Novel ultrasonic imaging modality based on circular integral data
Author :
Rigaud, G. ; Olvera-Guerrero, O. ; Nguyen, M.K.
Author_Institution :
Equipes de Traitement de l´Inf. et Syst. (ETIS), Univ. de Cergy-Pontoise, Cergy-Pontoise, France
Abstract :
Among all the existing imaging technologies, ultra-sound imaging is the most widely used, due to its safe, cost-effectiveness, flexible and real-time nature. However for some object configurations involving geometric restrictions, the usual point by point scanning to image an object is not performing efficiently. We propose a solution to this problem based on the use of circular integral data generated along a circular path to reconstruct the image of the object under investigation. Similar circular integral data has occurred in Thermo/Opto/Photo-acoustic tomography as well as in Synthetic Aperture Radar (SAR) imaging where circular integral data is generated along a straight line path to image a landscape on the ground. We present the mathematical background of this new imaging technique, which has an exact reconstruction formula and give comparative simulation results to demonstrate its viability.
Keywords :
acoustic tomography; computerised tomography; data analysis; image reconstruction; photoacoustic effect; radar imaging; synthetic aperture radar; ultrasonic imaging; circular integral data; image reconstruction; point by point scanning; radar imaging technique; straight line path; synthetic aperture radar; thermooptophotoacoustic tomography; ultrasonic imaging modality; Acoustics; Image reconstruction; Laser excitation; Transforms; Ultrasound imaging; circular Radon transform; image reconstruction; tomography;
Conference_Titel :
Computing and Communication Technologies, Research, Innovation, and Vision for the Future (RIVF), 2013 IEEE RIVF International Conference on
Conference_Location :
Hanoi
Print_ISBN :
978-1-4799-1349-7
DOI :
10.1109/RIVF.2013.6719905
