Oceanic turbulence mixed observation method

Abstract

The invention discloses an oceanic turbulence mixed observation method. The method comprises the following steps: (1) laying an oceanic turbulence observation system; (2) starting an ocean turbulenceobservation system, performing state detection and positioning by a ground data center, and setting an observation task; (3) enabling the oceanic turbulence observation system to dive and perform sawtooth diving, horizontal sailing and sawtooth floating motion; (4) in the underwater movement process of the oceanic turbulence observation system, observing turbulence mixed distribution characteristics at different depths by a turbulence observer, and synchronously acquiring CTD data and flow velocity data through a CTD sensor and a flow velocity sensor; and (5) after the observation is finished,floating upwards, and transmitting the acquired data to a ground data center. According to the ocean turbulence mixed observation method, horizontal observation and vertical profile observation of turbulence mixing can be synchronously carried out, and space and time multi-dimensional synchronous observation of ocean turbulence mixing in the transverse direction and the longitudinal direction isachieved; and autonomous intelligent observation of turbulence mixing under different ocean phenomena can be realized.

Description

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine

Login to View More

AI Technical Summary

Benefits of technology

The marine science monitoring systems used for observing seabed currents have advanced technology that allows them to gather accurate measurements over time without being influenced from other ships or weathers. These systems use sensors placed on the surface of water to collect data continuously during operation while also allowing it to react automatically based upon changes made at different times throughout its journey through space. They operate under harsh environments where they may experience various forces such as waves, winds, tides, rainwater, snowstorms, etc., which affect their performance significantly reducing operational costs compared to traditional methods like sonar imagery.

Problems solved by technology

This patented technical problem addressed in this patents relates to studying marine turbulences from multiple perspectives including wave heights, currents, wind speeds, waves' movement patterns over various length spans (length) along the coastline. Existing techniques such as towed water level profiles and free fall verticality require extensive exploration efforts due to their limited range and complexity.

Images