Anyone with a mapping program on their computer is familiar with how the contours the land are shown. These mountains and valleys are depicted in lakes as well as oceans, and many people might assume that all this was done from satellites. However, a great deal of this mapping is being done with unmanned surface vehicles.
Most of these USVs are being controlled remotely, and require almost no babysitting by a human hand. University scientists can follow pods of whales with the same equipment that mapping programs are utilizing to show details in the deepest parts of the ocean. One has only to program that zone they wish to map, and keep tabs on the progress through whatever vehicle control stations, VCS for short, are assigned.
The VCS is an application that can be added to any smart phone or other Internet interface device. In this way, the individuals performing the study can keep track of their project in real time, twenty-four hours a day, as long as the batteries hold up. There is a bank of four powerful battery packs they keep tabs on, and they are sure to know right away if the vehicle has run into any sort of trouble.
The process of mapping oceans or lake bottoms is known as bathymetry. Traditionally this task has been performed by manned boats using sonar equipment. It is a laborious process which requires them to comb the sea or lake bed in a vacuum-sweeper fashion, and their work is inhibited by nightfall as well as weather.
These USVs are robotic vessels that do not require a great deal of human intervention to run. They are electric, and so also do not require gasoline to be run for days on end. They hold up very well in bad weather, and are all around a better option for this type of work than traditional manned boats.
A USV can actually go right into the heart of a hurricane or monsoon, and take readings that would never have been allowed on boats with people aboard. We can now measure rainfall as well as ocean swells without risking life, and at a fraction of the cost of a lost ship. The data is remotely received in real time, so even if the vessel disappears in the deep, nothing is lost.
There are many individuals in the private sector who might have use for these technologies as well. Anyone owning properties that contain small lakes or ponds know how important it is to keep a regular tab on the depth of the water body. By sweeping their ponds, they will know if there are structures or vegetation at depths that could be risky to swimmers and boats, and some will even alert them to the presence of undercurrents or dams created by animals.
Anyone living on or near large bodies of water is able to assist law enforcement with these USVs as well. Because they are able to work round-the-clock with little or no oversight, they are an ideal method of performing search and rescue missions on oceans and lakes. Many lives can be spared which would have been lost without the ability to search effectively and efficiently.
Most of these USVs are being controlled remotely, and require almost no babysitting by a human hand. University scientists can follow pods of whales with the same equipment that mapping programs are utilizing to show details in the deepest parts of the ocean. One has only to program that zone they wish to map, and keep tabs on the progress through whatever vehicle control stations, VCS for short, are assigned.
The VCS is an application that can be added to any smart phone or other Internet interface device. In this way, the individuals performing the study can keep track of their project in real time, twenty-four hours a day, as long as the batteries hold up. There is a bank of four powerful battery packs they keep tabs on, and they are sure to know right away if the vehicle has run into any sort of trouble.
The process of mapping oceans or lake bottoms is known as bathymetry. Traditionally this task has been performed by manned boats using sonar equipment. It is a laborious process which requires them to comb the sea or lake bed in a vacuum-sweeper fashion, and their work is inhibited by nightfall as well as weather.
These USVs are robotic vessels that do not require a great deal of human intervention to run. They are electric, and so also do not require gasoline to be run for days on end. They hold up very well in bad weather, and are all around a better option for this type of work than traditional manned boats.
A USV can actually go right into the heart of a hurricane or monsoon, and take readings that would never have been allowed on boats with people aboard. We can now measure rainfall as well as ocean swells without risking life, and at a fraction of the cost of a lost ship. The data is remotely received in real time, so even if the vessel disappears in the deep, nothing is lost.
There are many individuals in the private sector who might have use for these technologies as well. Anyone owning properties that contain small lakes or ponds know how important it is to keep a regular tab on the depth of the water body. By sweeping their ponds, they will know if there are structures or vegetation at depths that could be risky to swimmers and boats, and some will even alert them to the presence of undercurrents or dams created by animals.
Anyone living on or near large bodies of water is able to assist law enforcement with these USVs as well. Because they are able to work round-the-clock with little or no oversight, they are an ideal method of performing search and rescue missions on oceans and lakes. Many lives can be spared which would have been lost without the ability to search effectively and efficiently.
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