BisQue: cloud-based system for management, annotation, visualization, analysis and data mining of underwater and remote sensing imagery

Dmitry Fedorov1, Robert J. Miller2, Kristian G Kvilekval1, Brandon Doheny3, Sarah Sampson4 and B.S. Manjunath5, (1)University of California, Electrical and Computer Engineering, Santa Brabara, CA, United States, (2)University of California, Marine Science Institute, Santa Barbara, CA, United States, (3)Marine Science Institute, University of California, Santa Barbara, Santa Barbara, CA, United States, (4)University of California, Santa Barbara, Marine Science Institute, Santa Barbara, CA, United States, (5)University of California, Electrical and Computer Engineering, Santa Brabara, CA
Abstract:
Logistical and financial limitations of underwater operations are inherent in marine science, including biodiversity observation. Imagery is a promising way to address these challenges, but the diversity of organisms thwarts simple automated analysis. Recent developments in computer vision methods, such as convolutional neural networks (CNN), are promising for automated classification and detection tasks but are typically very computationally expensive and require extensive training on large datasets. Therefore, managing and connecting distributed computation, large storage and human annotations of diverse marine datasets is crucial for effective application of these methods.

BisQue is a cloud-based system for management, annotation, visualization, analysis and data mining of underwater and remote sensing imagery and associated data. Designed to hide the complexity of distributed storage, large computational clusters, diversity of data formats and inhomogeneous computational environments behind a user friendly web-based interface, BisQue is built around an idea of flexible and hierarchical annotations defined by the user. Such textual and graphical annotations can describe captured attributes and the relationships between data elements. Annotations are powerful enough to describe cells in fluorescent 4D images, fish species in underwater videos and kelp beds in aerial imagery.

Presently we are developing BisQue-based analysis modules for automated identification of benthic marine organisms. Recent experiments with drop-out and CNN based classification of several thousand annotated underwater images demonstrated an overall accuracy above 70% for the 15 best performing species and above 85% for the top 5 species. Based on these promising results, we have extended bisque with a CNN-based classification system allowing continuous training on user-provided data.