11 research outputs found
AUTOMATIC BRAIN TUMOUR SEGMENTATION OF MAGNETIC RESONANCE IMAGES (MRI) BASED ON REGION OF INTEREST (ROI)
Segmentation is one of techniques used for classifying brain tissues in Magnetic Resonance Image (MRI) for identifying anatomical structures in the brain. The automated brain tumour segmentation remains challenging and computationally intensive because tumour appears in different size and intensity. In this paper, we have proposed a method for fast and automatic segmentation of tumour from Region of Interest (ROI) identified in MRI. ROI is a smaller portion of the image containing tumour. In the first step, tumour slices are identified using bilateral asymmetry property of the brain. In the second step, the ROI is identified using quadtree decomposition and similarity detection based on
coefficient computed with gray level intensity histograms. In the third step, only the ROI is segmented using spectral clustering method rather than considering the whole image. Experimental results on real-world datasets are carried and compared with the recent existing works which show better results in terms of accuracy and less processing time for segmentatio
Metal organic framework laden poly(ethylene oxide) based composite electrolytes for all-solid-state Li-S and Li-metal polymer batteries
In this work, the possibility of employing aluminium terephthalic acid metal organic framework (Al-TPAMOF)-
laden composite polymer membranes as electrolyte for all-solid-state lithium-sulfur (Li-S) and
lithium-metal (Li-metal) polymer batteries is explored. The prepared composite polymer electrolytes
(CPEs) based on a poly(ethylene oxide) (PEO) network with lithium bis(trifluoromethane)sulfonimide
(LiTFSI) and Al-TPA-MOF are mechanically robust and thermally stable up to 270 �C, and provide
appreciable ionic conductivity in the order of 0.1mS cm�1 at 60 �C. The enhanced compatibility of CPEs
with the lithium metal anode is attributed to the scavenging effect of Al-TPA-MOF. Laboratory scale allsolid-
state Li-S and Li-metal polymer cells are assembled, which deliver specific capacities exceeding 800
and 130mAh g�1, respectively, and a stable performance upon prolonged cycling even at 60 �C, which is
superior to earlier reports on similar systems