Difference between revisions of "FVCOM"

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(Created page with "FVCOM is one of many multiple models that are used as a coordinate system. The example I gave earlier is just one example of data that is collected: salinity, temperature, dep...")
 
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FVCOM is one of many multiple models that are used as a coordinate system. The example I gave earlier is just one example of data that is collected: salinity, temperature, depth, and obviously there are billions of data points that are also collected along rivers, along the coastline, and within the sea. One of the interesting things about how data is collected is that the nodes of data collection are very tightly packed around the coastlines, near rivers, and they are done on an isomorphic net, so it’s a triangular grid system that can be scaled. It can be expanded or contracted depending how close you want to zoom into that particular part of ocean, or coastline. And as you move out to sea, the grid gets a lot bigger. So the point at which the data is collected is averaged so that the data can run. And way out it into the middle of the ocean, you might have a two kilometer or three mile point between each of those corners of the triangle of this net which, anywhere between this node, gets averaged. Whereas at the coastline, you’ll have much tighter data, and the net will be in centimeters, or meters, not in miles.
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FVCOM is one of many multiple models that are used as a coordinate system. There are billions of data points that are also collected along rivers, along the coastline, and within the sea - for example salinity, temperature, or depth.
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Nodes of data collection are very tightly packed around the coastlines and on estuaries and rivers. Most often (check) an isomorphic net is used, which enables the water body to be split along a triangular grid system that can be scaled. This can be expanded or contracted depending how close the area of study is. Over a large body of water, the grid gets a lot bigger. The points between which data is collected is averaged, to give an idea of qualities  And way out it into the middle of the ocean, you might have a two kilometer or three mile point between each of those corners of the triangle of this net which, anywhere between this node, gets averaged. Whereas at the coastline, you’ll have much tighter data, and the net will be in centimeters, or meters, not in miles.
  
 
So FVCom is one of the many models, called “the ocean model” that we’ve been looking into. All of these models begin in the late ’60s, early ’70s and onward, they’ve been developed along the way in the intervening years and they take on more data points. What was initially not understood as being part of the ocean will then form one of the later models, for example, the biological model which is made of tiny life forms, phytoplankton and zooplankton — that came later. I already talked a little bit about how the models overlap and sync with each other.
 
So FVCom is one of the many models, called “the ocean model” that we’ve been looking into. All of these models begin in the late ’60s, early ’70s and onward, they’ve been developed along the way in the intervening years and they take on more data points. What was initially not understood as being part of the ocean will then form one of the later models, for example, the biological model which is made of tiny life forms, phytoplankton and zooplankton — that came later. I already talked a little bit about how the models overlap and sync with each other.
 
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[[Category: Instruments]]

Revision as of 07:07, 17 April 2022

FVCOM is one of many multiple models that are used as a coordinate system. There are billions of data points that are also collected along rivers, along the coastline, and within the sea - for example salinity, temperature, or depth.
Nodes of data collection are very tightly packed around the coastlines and on estuaries and rivers. Most often (check) an isomorphic net is used, which enables the water body to be split along a triangular grid system that can be scaled. This can be expanded or contracted depending how close the area of study is. Over a large body of water, the grid gets a lot bigger. The points between which data is collected is averaged, to give an idea of qualities And way out it into the middle of the ocean, you might have a two kilometer or three mile point between each of those corners of the triangle of this net which, anywhere between this node, gets averaged. Whereas at the coastline, you’ll have much tighter data, and the net will be in centimeters, or meters, not in miles.

So FVCom is one of the many models, called “the ocean model” that we’ve been looking into. All of these models begin in the late ’60s, early ’70s and onward, they’ve been developed along the way in the intervening years and they take on more data points. What was initially not understood as being part of the ocean will then form one of the later models, for example, the biological model which is made of tiny life forms, phytoplankton and zooplankton — that came later. I already talked a little bit about how the models overlap and sync with each other.
IN EDITING!