A Mesoscale Eddy Detection Method with Incrementally Deployed Sensors

Abstract

The invention discloses a mesoscale vortex detection method for incrementally deployed sensors. First, the position and spatial scale of the ocean vortex are determined according to satellite altimeter data, the velocity field of the vortex area is constructed, and the sensors are deployed in the target area in a uniform deployment manner. And establish a mathematical model of sensor deployment; then, when the sensor coverage in the target area drops to a threshold, determine the number of sensors that need to be incrementally deployed according to the number of effective sensors in the target area; finally, according to the hole position in the target area, Deploy sensors incrementally. The invention adopts the method of incrementally deploying sensors, which can effectively enhance the sensor coverage of the target area and realize the detection of ocean mesoscale eddies.

Description

technical field

[0001] The invention discloses a mesoscale eddy detection method for incrementally deployed sensors, which belongs to the technical field of wireless sensor networks, and is particularly suitable for using sensors to detect temperature, salt density data and eddy structure characteristics of ocean mesoscale eddies. Background technique

[0002] Mesoscale eddies play an important role in ocean dynamics and transport of heat, salt and other chemical substances, and are an important research content of marine science. However, the data obtained by Argo buoys can hardly meet the resolution requirements for the study of mesoscale eddies, and the inversion of satellite altimeter can only obtain sea surface anomaly data, but cannot obtain underwater data. The need for the study of scale vortex mechanism. Disposable sensors are carried by scientific research ships, and high-density detection data can be obtained by deploying sensors in the target area. At the same ...

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