The Sonic 2022 provides user selectable operating frequencies between 170 kHz and 450 kHz to 1 Hz resolution, and optional 700 kHz, with unparalleled flexibility to trade off resolution and range and controlling interference from other active acoustic systems.
The Sonic 2020 provides user selectable operating frequencies between 200 kHz
and 400 kHz to 1 Hz resolution and optional 700 kHz, with unparalleled flexibility to trade off resolution and range and controlling interference from other active acoustic systems.
QINSy 7 provides a user-friendly turnkey solution for all types of marine navigation, positioning and surveying activities.
From survey planning to data collection, data cleaning, volume calculations and chart production, QINSy offers a seamless data flow from a large variety of hardware sensors, all the way to a complete chart product.
QINSy runs on a standard PC platform under the Windows (NT/2000/XP) operating system. The software is not only independent of sensor manufacturer, but also hardware independent. You are free to buy your own off-the-shelf hardware components and QINSy will work with them. You are not tied to specific hardware in any way.
In a world where everything seems to get faster and bigger, software needs to be even better.
The ideal software package needs to be as flexible as the people who use it, and most importantly it must be easy to operate.
QINSy provides a total hydrographic solution to serve the small as a well as the large survey companies.Its modular design and inherent flexibility makes QINSy perfect for a wide variety of applications.
Typical application accuracy of 0.01% is achieved even under difficult environmental conditions.
Desirable characteristics include excellent long-term stability, 1 x 10–8 resolution, low power consumption, and high reliability.
The method is based on the optimization of data from multiple sensors against a physical model of the magnetic field expected from a utility line carrying an AC tone (actively applied or passively present). System accuracy is estimated and presented in real-time.
Magnetic field distortion due to co-linear underwater conductors can occur when multiple pipelines share a right of way, or multiple wind farm power cables are closely spaced at landfall. The Orion system self-identifies these errors and presents them as confidence intervals on the measured Depth of Burial.
In the 4 or 6 sensor configuration, Orion can decouple this distortion from the target pipeline or cable, resulting in a more accurate Depth of Burial estimate, with an improved confidence interval.
The method is based on the optimization of data from multiple sensors against a physical model of the magnetic field expected from a utility line carrying an AC tone (actively applied or passively present). System accuracy is estimated and presented in real-time.
Magnetic field distortion due to co-linear underwater conductors can occur when multiple pipelines share a right of way, or multiple wind farm power cables are closely spaced at landfall. The Orion system self-identifies these errors and presents them as confidence intervals on the measured Depth of Burial.
In the 4 or 6 sensor configuration, Orion can decouple this distortion from the target pipeline or cable, resulting in a more accurate Depth of Burial estimate, with an improved confidence interval.