Drone technology is something that has come a long way since they were first conceptualized during the 20th century in all seriousness. Although we perceive these to be modern innovations, the truth is quite different as drones were used in some form or the other during the world wars as well, just not in a manner in which we perceive them today. The Japanese flying incendiary bombs can widely be classified as a drone as well, but the technology and thinking that went behind them were pretty rudimentary and different.
Modern advancements in drone technology have enabled them to execute a wide array of missions besides being used for military purposes exclusively, and one can witness drones taking part in everything from agriculture to videography, and more.
Here, we will be taking a look at one of the major roles that drones play, which is survey and mapping, and the various tools that assist these drones in performing these tasks efficiently, like the Magdrone R4, etc. So, let’s take off.
Drones in survey and mapping
Before moving on to the drones, it is important to understand what survey and mapping actually mean in this context. Well, to put it simply, this refers to studying the various geographic features of a particular area, taking in its various characteristics like gradients, soil compositions, fertility, etc, and creating a comprehensive report regarding the same. These records can be used for a variety of purposes, be it for construction, agriculture, mining, etc.
Earlier, these processes were carried out by people and frequently on foot as airplanes flew too high to carry these out effectively, while cars weren’t really suitable for accessing difficult terrains.
Modern drones like the DJI M series or the Perimeter 8 can be equipped with state-of-the-sensors to convert them into surveying beasts that can execute a variety of roles and missions, and much more efficiently than that was possible by humans. Let us take a look at these sensor packs and the roles that they help execute.
- SENSYS MagDrone R3- If you are looking for a good fluxgate UAV magnetometer system, then this sensor package would certainly be a good fit for you. Compatible with a wide range of drones, these can be used to detect things that display a magnetic property or is metallic in nature.
The applications that these sensor packages can be used for are pretty vast as well. You can effectively use these to detect and look for unexploded munitions that may be unrecorded. During construction and other excavation activities, these sensors can be used to detect buried metallic objects like pipes, manhole covers, doors, etc. Archaeological departments can use these to search for buried articles that may possess an archaeological or historic significance.
The MagDrone R3 system features a comprehensive software package that can be used to analyze the collected data in a simplified manner, and the advanced flight characters enable a superior workflow that helps yield more accurate data sets.
- SENSYS MagDrone R4- If you thought that the R3 was pretty potent and surprising in all the functions that it can achieve, the magdrone R4 can be understood as its bigger brother, and it can do everything that the R3 could do, only better and much more efficiently. This sensor package can be easily attached to the DJI M300 and can be easily operated with a single button.
The magdrone R4 can be used for detecting buried metallic components like mines, pipes, etc. and the software packages on board can deliver this data to the operators in a simplified manner that can be understood efficiently.
These are some of the factors that make the magdrone 4 a perfect metal detecting drone sensor package.
- GPR drone system- Moving on from detecting metals that are tucked away somewhere, let us check out the GPR drone sensor packages. These sensor packages, when paired up with a compatible drone platform, can effectively see through the soil, ice, or water surface and carry out the mapping and survey procedure efficiently, rapidly, and without putting anyone in harm’s way as these work environments can be particularly dangerous or even fatal.
These drone systems are extremely precise in what they do, are cost-effective, and can execute the entire process while on autopilot. They can help reach locations that are impossible to reach on foot.
A GPR drone can be used to carry out fresh water bathymetry, detecting small objects underground that may usually go unnoticed, and mapping out underground structures in areas that were previously developed or built up. Functionalities and advantages like these make this drone a ubiquitous part of this field.
Final take: Drones are a critical part of the mapping and surveying ecosystem, and the role that they play is extremely important in executing these operations effectively and efficiently. Sensor systems like the GPR drone are just some of the many sensor systems that are helping make drones more and more capable with each passing day.
