Your search keyword '"De Dios Santos, Juan"' showing total 4 results

1. 4.-8. März 2019

Author

Jugel, Uwe, De Dios Santos, Juan, Trautmann, Evelyn, and Behrens, Diogo

Subjects

ComputingMilieux_LEGALASPECTSOFCOMPUTING

Abstract

Online dating allows for interactions between users with a high degree of connectivity. This digital form of interaction attracts spammers and scammers, who try to trick users to visit low-class competitors’ websites or steal the users’ money. Fortunately, each attacker leaves a footprint of its actions in the network. It is the task of an Anti-Spam system to detect these and punish the culprit. In this paper, we demonstrate how LOVOO fights such illegal activities using a system of modular, scalable, and fault-tolerant Anti-Spam components. We describe our stream-processing architecture and how it ensures flexibility and facilitates resource-efficient processing of the millions of events produced by hundreds of thousands of users.

Published

2019

2. Kankanet : An artificial neural network-based object detection smartphone application and mobile microscope as a point-of-care diagnostic aid for soil-transmitted helminthiases

Author

Yang, Ariel, Bakhtari, Nahid, Langdon-Embry, Liana, Redwood, Emile, Lapierre, Simon Grandjean, Rakotomanga, Patricia, Rafalimanantsoa, Armand, De Dios Santos, Juan, Vigan-Womas, Ines, Knoblauch, Astrid M., Marcos, Luis A., Yang, Ariel, Bakhtari, Nahid, Langdon-Embry, Liana, Redwood, Emile, Lapierre, Simon Grandjean, Rakotomanga, Patricia, Rafalimanantsoa, Armand, De Dios Santos, Juan, Vigan-Womas, Ines, Knoblauch, Astrid M., and Marcos, Luis A.

Abstract

Background Endemic areas for soil-transmitted helminthiases often lack the tools and trained personnel necessary for point-of-care diagnosis. This study pilots the use of smartphone microscopy and an artificial neural network-based (ANN) object detection application named Kankanet to address those two needs. Methodology/Principal findings A smartphone was equipped with a USB Video Class (UVC) microscope attachment and Kankanet, which was trained to recognize eggs of Ascaris lumbricoides, Trichuris trichiura, and hookworm using a dataset of 2,078 images. It was evaluated for interpretive accuracy based on 185 new images. Fecal samples were processed using Kato-Katz (KK), spontaneous sedimentation technique in tube (SSTT), and Merthiolate-Iodine-Formaldehyde (MIF) techniques. UVC imaging and ANN interpretation of these slides was compared to parasitologist interpretation of standard microscopy.Relative to a gold standard defined as any positive result from parasitologist reading of KK, SSTT, and MIF preparations through standard microscopy, parasitologists reading UVC imaging of SSTT achieved a comparable sensitivity (82.9%) and specificity (97.1%) in A. lumbricoides to standard KK interpretation (97.0% sensitivity, 96.0% specificity). The UVC could not accurately image T. trichiura or hookworm. Though Kankanet interpretation was not quite as sensitive as parasitologist interpretation, it still achieved high sensitivity for A. lumbricoides and hookworm (69.6% and 71.4%, respectively). Kankanet showed high sensitivity for T. trichiura in microscope images (100.0%), but low in UVC images (50.0%). Conclusions/Significance The UVC achieved comparable sensitivity to standard microscopy with only A. lumbricoides. With further improvement of image resolution and magnification, UVC shows promise as a point-of-care imaging tool. In addition to smartphone microscopy, ANN-based object detection can be developed as a diagnostic aid. Though trained with a limited dataset, Kankanet

Published

2019

3. Kankanet: An artificial neural network-based object detection smartphone application and mobile microscope as a point-of-care diagnostic aid for soil-transmitted helminthiases

Author

Yang, Ariel, primary, Bakhtari, Nahid, additional, Langdon-Embry, Liana, additional, Redwood, Emile, additional, Grandjean Lapierre, Simon, additional, Rakotomanga, Patricia, additional, Rafalimanantsoa, Armand, additional, De Dios Santos, Juan, additional, Vigan-Womas, Inès, additional, Knoblauch, Astrid M., additional, and Marcos, Luis A., additional

Published

2019

4. Kankanet : an artificial neural network-based object detection smartphone application and mobile microscope as a point-of-care diagnostic aid for soil-transmitted helminthiases

Author

Yang, Ariel, Bakhtari, Nahid, Langdon-Embry, Liana, Redwood, Emile, Grandjean-Lapierre, Simon, Rakotomanga, Patricia, Rafalimanantsoa, Armand, De Dios Santos, Juan, Vigan-Womas, Inès, Knoblauch, Astrid M., and Marcos, Luis A.

Subjects

2. Zero hunger