Title :
Estimating glucose concentration using a scalable sparse mean-shift algorithm
Author :
Demitri, Nevine ; Zoubir, Abdelhak M.
Author_Institution :
Signal Process. Group, Tech. Univ. Darmstadt, Darmstadt, Germany
Abstract :
The mean-shift algorithm is a popular approach for clustering and mode location estimation, notably for medical image processing. However, it comes with a high computational cost. In this work, we investigate the possibility of reducing this load using a sparse approximation of the kernel density estimator, based on an incoherence criterion. We derive a sparse scalable mean-shift algorithm that includes a robust formulation of the mean-shift. Our approach is validated in a glucose measurement scenario where we estimate the intensity of a photometric chemical reaction that can be related to an underlying glucose concentration. Our results show that the scalable mean-shift algorithm results in a significant gain in computation time, while staying in the permissible accuracy range for glucose measurements.
Keywords :
biochemistry; biomedical optical imaging; chemical analysis; chemical reactions; coherence; estimation theory; medical image processing; photometry; sugar; clustering; computation time gain; computational cost reduction; glucose concentration estimation; incoherence criterion; kernel density estimator; medical image processing; mode location estimation; permissible glucose measurement accuracy range; photometric chemical reaction intensity estimation; robust mean-shift formulation; scalable sparse mean-shift algorithm; sparse approximation; Approximation methods; Chemicals; Clustering algorithms; Kernel; Signal processing algorithms; Standards; Sugar; Blood glucose measurement; incoherence; mean-shift; mode finding; scalability;
Conference_Titel :
Biomedical Imaging (ISBI), 2015 IEEE 12th International Symposium on
Conference_Location :
New York, NY
DOI :
10.1109/ISBI.2015.7163955
