As technology has advanced, the programs which show satellite views have become commonplace for most people. The hills and valleys underwater are even clearly defined, as well as landscape topography. While much of this work has been done via satellite photographs, much of the details are being filled in now by unmanned surface vehicles.
Not only are the details of underwater topography being filled in, this work is being done remotely. These technologies are not just being used by governments, but universities and businesses make use of this for everything from topography to monitoring tagged sea animals. They have only to set the boundaries to be mapped, then watch the progress via VCS, or their vehicle control station.
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.
Robotic vessels have no need for gasoline, and they can perform their job without utilizing very many humans in the process. They can perform their duty much longer than human-controlled boats, and are able to perform studies that would have been impossible before. Should weather change abruptly, no people are put at risk.
These boats can be equipped for measuring temperature and rainfall, as well as wave patterns and temperature during severe storms. The study of hurricanes has been taken to a whole new level with this technology. With the data collected remotely, even if the vessel is completely lost, the data collected during the period of observation has already been delivered.
Private individuals have many uses for such technological advances as well. There are many farmers and land owners who have water features on their properties, and having these closely mapped is a vital part of ensuring safety on their property. It is necessary to know not only the depth of the water, but whether or not there are structures or trees shallow enough to pose a threat to boaters or swimmers.
Police departments are now able to use such tech in searches for people lost both in lakes and at sea. Such a vessel is able to work in darkness and cold, for periods of time much longer than human beings are able to continue a search. In fact, individuals who live on or near such bodies of water can get searches started right away, providing an efficient method of scouring the area and saving lives that might have otherwise been lost.
Not only are the details of underwater topography being filled in, this work is being done remotely. These technologies are not just being used by governments, but universities and businesses make use of this for everything from topography to monitoring tagged sea animals. They have only to set the boundaries to be mapped, then watch the progress via VCS, or their vehicle control station.
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.
Robotic vessels have no need for gasoline, and they can perform their job without utilizing very many humans in the process. They can perform their duty much longer than human-controlled boats, and are able to perform studies that would have been impossible before. Should weather change abruptly, no people are put at risk.
These boats can be equipped for measuring temperature and rainfall, as well as wave patterns and temperature during severe storms. The study of hurricanes has been taken to a whole new level with this technology. With the data collected remotely, even if the vessel is completely lost, the data collected during the period of observation has already been delivered.
Private individuals have many uses for such technological advances as well. There are many farmers and land owners who have water features on their properties, and having these closely mapped is a vital part of ensuring safety on their property. It is necessary to know not only the depth of the water, but whether or not there are structures or trees shallow enough to pose a threat to boaters or swimmers.
Police departments are now able to use such tech in searches for people lost both in lakes and at sea. Such a vessel is able to work in darkness and cold, for periods of time much longer than human beings are able to continue a search. In fact, individuals who live on or near such bodies of water can get searches started right away, providing an efficient method of scouring the area and saving lives that might have otherwise been lost.
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