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|Title:||Data exploration in evolutionary reconstruction of PET images|
|Authors:||Gray, Cameron C.|
Al-Maliki, Shatha F.
Vidal, Franck P.
|Publisher:||Springer: Genetic Programming and Evolvable Machines|
|Abstract:||This work is based on a cooperative co-evolution algorithm called ‘Fly Algorithm’, which is an evolutionary algorithm (EA) where individuals are called ‘flies’. It is a specific case of the ‘Parisian Approach’ where the solution of an optimisation problem is a set of individuals (e.g. the whole pop- ulation) instead of a single individual (the best one) as in typical EAs. The optimisation problem considered here is tomography reconstruction in positron emission tomography (PET). It estimates the concentration of a radioactive substance (called a radiotracer) within the body. Tomography, in this context, is considered as a difficult ill-posed inverse problem. The Fly Algorithm aims at optimising the position of 3-D points that mimic the radiotracer. At the end of the optimisation process, the fly population is extracted as it corresponds to an estimate of the radioactive concentration. During the optimisation loop a lot of data is generated by the algorithm, such as image metrics, duration, and internal states. This data is recorded in a log file that can be post-processed and visualised. We propose using information visualisation and user interac- tion techniques to explore the algorithm’s internal data. Our aim is to better understand what happens during the evolutionary loop. Using an example, we demonstrate that it is possible to interactively discover when an early termi- nation could be triggered. It is implemented in a new stopping criterion. It is tested on two other examples on which it leads to a 60% reduction of the number of iterations without any loss of accuracy.|
|Appears in Collections:||Accepted Papers|
Files in This Item:
|Vis4Fly_SUBMISSION_3_to__Genetic_Programming_and_Evolvable_Machines_04_07_18.pdf||Paper Pre-print||3.51 MB||Adobe PDF||View/Open|
|10.1007_s10710-018-9330-7.pdf||Paper Off-Print (Springer Nature Open Access)||4.5 MB||Adobe PDF||View/Open|
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