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projects:year5:16.07 [2019/08/21 09:40]
sally.johnson [Project - Summary]
projects:year5:16.07 [2019/08/22 10:49] (current)
sally.johnson [Project - Documents]
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 ===== Project - Impact and Uses/Benefits ===== ===== Project - Impact and Uses/Benefits =====
 <WRAP leftalign box > <WRAP leftalign box >
-The contributions of our research are thus three-fold(1) We propose four incremental learning algorithms that can update the decision boundary for the new incoming samples of the classifier without retraining the classifier with the entire training set each time. Moreoverone of the methods, IPAP, can also update the decision for original data (2) We proposed customized incremental learning algorithm (Incremental High precision rule base Naive Bayesian Classifier) to update bibliographic datasets without the need for labeled information. The disambiguation results from an existing disambiguation system as also optional in our framework. The high-precision rule NBC algorithm demonstrates high precision on a large-scale name block comprising nearly 20,000 citation records. To our knowledge, this test dataset is one of the largest name blocks ever used in an incremental author disambiguation evaluation research project(3) We successfully benchmark the performance of our proposed methods against other incremental approacheswhere we demonstrate notable improvements.+We envision multiple impacts and uses for the technologies developed in the three sub-projects. They are: 
 +  * SP1: Providing an improved tissue structure segmentation algorithms based on our alternative color space for H&E images. 
 +  * SP1: Supporting color normalizataion that will alleviate the problem of staining variability, a major impediment to automated processing and anaylsis of H&E images. 
 +  * SP2: The ability to estimate the histological composition of tissue in low-resolution images will facilitate the computational analysis of whole-slide images; thus enabling automated and high-throughput tissue analysis in pathology. 
 +  * SP3: N-point statistics provides a method for characterizing the architecture of tumors; thus improving the automated analysis/grading of tissues that should lead to improvedmore accurate and robust diagnosis of cancer.
 </WRAP> </WRAP>
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 ===== Project - Documents ===== ===== Project - Documents =====
projects/year5/16.07.1566398428.txt.gz · Last modified: 2019/08/21 09:40 by sally.johnson