CPICS – Continuous Particle Imaging and Classification System

Our Continuous Particle Imaging and Classification System (CPICS) is an imaging sensor that produces unprecedented results for in-situ aquatic microscopy of seawater, freshwater and laboratory samples. Using darkfield illumination, the CPICS-1000-e captures high-resolution color images, showing features as small as 1µm and as large as several cm. Color information is key to high-accuracy CPICS classification while also providing important physiological information such as pigmentation due to grazing on phytoplankton. Because of its open-flow approach to water sampling, the delicate structures of plankton and particles remain completely intact as do predator-prey interactions.

The CPICS-1000-e is our latest development, which features embedded processing, region of interest (ROI) extraction, and on-board plankton classification. Stand-alone deployments on CTD Rosettes and autonomous platforms or vehicles – from large research vessels to row boats – make CPICS-1000-e an indispensable tool for researchers and resource managers alike.
CPICS-1000-e product data sheet

DICE – Deep-learning Image Classification Environment

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DICE is based on an NVIDIA product that handles execution of Deep Learning models extremely well. DICE provides download storage space for CPICS images, viewing and management of images, building training sets, building deep learning models and execution of those models on unknown images.
DICE validation of ROI extractions

 

OceanCube – Coastal Observatory System

Multi-Instrument Platform

An OceanCube is an un-manned underwater coastal observatory system designed to provide real-time data and images. A central node supports a variety of biological, physical, and chemical sensors and is optionally connected to as many as four satellite nodes at the corners of a cubic volume that provide current and temperature information. To observe the behavior of fish, stereo camera modules with hydrophones can also be connected. A cable from a shore laboratory to the central node is used to supply power, remotely control individual instruments and to transfer data back to shore at high speed.

OceanCube observatory product data sheet

 

HabCam V-5 Vfin – Habitat Camera Vehicle

HabCam Vfin Towed Stereo Imaging Vehicle

HabCam V5 is a benthic stereo-imaging vehicle built into a 4 ft. modified di-hedral v-fin frame. It is designed to be towed at a speed of 3-6 kts while taking high resolution color image pairs of
the sea floor. The HabCam V5 sensor package is customizable and compatible with most oceanographic instrumentation. The side by side stereo pair images are fused into a single image at the time of acquisition allowing precise stereo
referencing with other instrumentation’s metadata such as latitude, longitude,
temperature, salinity, chlorophyll, light absorption, dissolved
oxygen, and other environmental data. V5 also houses a side scan acoustic sonar system that collects 3D bathymetry on the range of 100 m on either side of the vehicle. These data are packetized into a gigabit Ethernet signal and transmitted to the surface, providing real-time data of the imaged environment. Image data, altitude, and depth are immediately available and visualized for a fly-by-winch pilot who operates the vehicle, adjusting the altitude as needed.

HabCam V-5 Vfin product data sheet