Ning Situ scite author profile

In this paper we implement the 7-point checklist, a set of dermoscopic criteria widely used by clinicians for melanoma detection, on smart handheld devices, such as the Apple iPhone and iPad. The application developed is using sophisticated image processing and pattern recognition algorithms, yet it is light enough to run on a handheld device with limited memory and computational speed. When combined with a commercially available handheld dermoscope that provides proper lesion illumination, this application provides a truly self-contained handheld system for melanoma detection. Such a device can be used in a clinical setting for routine skin screening, or as an assistive diagnostic device in underserved areas and in developing countries with limited healthcare infrastructure.

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SkinScan<sup>©</sup>: A portable library for melanoma detection on handheld devices

Wadhawan

Situ

Lancaster

et al. 2011

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We have developed a portable library for automated detection of melanoma termed SkinScan© that can be used on smartphones and other handheld devices. Compared to desktop computers, embedded processors have limited processing speed, memory, and power, but they have the advantage of portability and low cost. In this study we explored the feasibility of running a sophisticated application for automated skin cancer detection on an Apple iPhone 4. Our results demonstrate that the proposed library with the advanced image processing and analysis algorithms has excellent performance on handheld and desktop computers. Therefore, deployment of smartphones as screening devices for skin cancer and other skin diseases can have a significant impact on health care delivery in underserved and remote areas.

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Functional connectivity networks in the autistic and healthy brain assessed using Granger causality

Pollonini¹,

Patidar

Situ

et al. 2010

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In this study, we analyze brain connectivity based on Granger causality computed from magnetoencephalographic (MEG) activity obtained at the resting state in eight autistic and eight normal subjects along with measures of network connectivity derived from graph theory in an attempt to understand how communication in a human brain network is affected by autism. A connectivity matrix was computed for each subject individually and then group templates were estimated by averaging all matrices in each group. Furthermore, we performed classification of the subjects using support vector machines and Fisher's criterion to rank the features and identify the best subset for maximum separation of the groups. Our results show that a combined model based on connectivity matrices and graph theory measures can provide 87.5% accuracy in separating the two groups. These findings suggest that analysis of functional connectivity patterns may provide a valuable method for the early detection of autism.

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A narrow band graph partitioning method for skin lesion segmentation

Yuan

Situ

Zouridakis

2009

Pattern Recognition

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Malignant melanoma detection by Bag-of-Features classification

Situ

Yuan

Chen

et al. 2008

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In this paper, we apply a Bag-of-Features approach to malignant melanoma detection based on epiluminescence microscopy imaging. Each skin lesion is represented by a histogram of codewords or clusters identified from a training data set. Classification results using Naive Bayes classification and Support Vector Machines are reported. The best performance obtained is 82.21% on a dataset of 100 skin lesion images. Furthermore, since in melanoma screening false negative errors have a much higher impact and associated cost than false positive ones, we use the Neyman-Pearson score in our model selection scheme.

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Ning Situ

Implementation of the 7-point checklist for melanoma detection on smart handheld devices

SkinScan<sup>©</sup>: A portable library for melanoma detection on handheld devices

Functional connectivity networks in the autistic and healthy brain assessed using Granger causality

A narrow band graph partitioning method for skin lesion segmentation

Malignant melanoma detection by Bag-of-Features classification

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About

Ning Situ

Implementation of the 7-point checklist for melanoma detection on smart handheld devices

SkinScan<sup>&#x00A9;</sup>: A portable library for melanoma detection on handheld devices

Functional connectivity networks in the autistic and healthy brain assessed using Granger causality

A narrow band graph partitioning method for skin lesion segmentation

Malignant melanoma detection by Bag-of-Features classification

Contact Info

Product

Resources

About

SkinScan<sup>©</sup>: A portable library for melanoma detection on handheld devices