Courtney Powell scite author profile

The automated detection of corrosion from images (i.e., photographs) or video (i.e., drone footage) presents significant advantages in terms of corrosion monitoring. Such advantages include access to remote locations, mitigation of risk to inspectors, cost savings and monitoring speed. The automated detection of corrosion requires deep learning to approach human level artificial intelligence (A.I.). The training of a deep learning model requires intensive image labelling, and in order to generate a large database of labelled images, crowd sourced labelling via a dedicated website was sought. The website (corrosiondetector.com) permits any user to label images, with such labelling then contributing to the training of a cloud based A.I. model -with such a cloud-based model then capable of assessing any fresh (or uploaded) image for the presence of corrosion. In other words, the website includes both the crowd sourced training process, but also the end use of the evolving model. Herein, the results and findings from the website (corrosiondetector.com) over the period of approximately one month, are reported.

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Optimal and Feasible Cloud Resource Configurations Generation Method for Genomic Analytics Applications

Miura

Powell

Munetomo

2018

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Design of an SSO authentication infrastructure for heterogeneous inter-cloud environments

Powell

Aizawa

Munetomo

2014

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Courtney Powell

Optimal Cloud Resource Selection Method Considering Hard and Soft Constraints and Multiple Conflicting Objectives

Towards Thought Control of Next-Generation Wearable Computing Devices

Automated Corrosion Detection Using Crowdsourced Training for Deep Learning

Optimal and Feasible Cloud Resource Configurations Generation Method for Genomic Analytics Applications

Design of an SSO authentication infrastructure for heterogeneous inter-cloud environments

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