Phase One aerial inspection drones offer valuable aerial imaging information which enables effective, predictive maintenance for all inspection missions related to power lines, bridges, highways, streets, pipelines, and agricultural production. These advanced robotic aerial vehicles can fly non-line-of-sight imaging in any direction and for lengthy distances over remote locations, quickly identifying issues and potential problems before they cause operational harm. The most sensitive and useful data is collected during line-of-site inspections when the operator cannot drive the aircraft to various locations to collect sensitive information. Aerial inspection information is transmitted to a ground station or directly to base operators via a satellite feed. In the last decade, the UAVs have made significant advances in both the quality and quantity of collected data and this information has become instrumental in planning and performing maintenance work, evaluating repair schedules, or determining if parts are required for a particular job.
The first phase of an aerial inspection involves the collection of basic data such as altitude, location, speed and direction. This preliminary information is transmitted back to the control station, where it is analyzed using a variety of sensors to identify sources of potential problem areas. In phase two of the inspection process, a livelier indication of the actual condition of the plant or equipment occurs. The camera system identifies and records problem areas on the ground so that a second visit can be made prior to actual authorization for an aerial inspection. The advantage of this second visit is that it provides the ground operator with the capability to quickly determine if additional work is needed to resolve the identified problem.
The final phase of an aerial inspection can be termed as recovery. Upon completion of the primary inspection, if needed, the operator then requests a return pass to view the final inspection report and take action if any identified concerns are found. A UAV autonomously flies to the selected site and performs a visual review, providing a live feed to the ground operator who can act in time if required. The review also allows authorized personnel to visually assess the condition of the plant as well. The entire inspection process can be completed in minutes rather than hours.
Aerial robots have also been employed in the agricultural industry to monitor the performance of their various machines in real time. A newly developed system called the Aerial Assessment and Risk Management (AAHR) program can accurately measure soil conditions, lighting conditions and other key elements needed to safely conduct on-site crop assessment and management activities. Drones have been employed in the mining industry to oversee the clearance, transportation and storage of dangerous materials. Using an aerial inspection tool, mineral companies can identify areas of concern and proactively address them before an issue becomes severe enough to threaten nearby residents.
As the demand for reliable aerial inspection tools continues to grow, the next generation of aerial inspection devices may feature fully automatic flight modes and the ability to collect more data than traditional land-based sensors. For example, the fully automated Aerial Surveyor (AS) could survey a wide field and immediately alert authorities if there was a problem or concern. In addition to being fully automated, future aerial inspection tools will likely be able to autonomously navigate through obstacles on the ground and transmit data to a centralized station. These types of systems will enable companies to rapidly and easily obtain aerial photos and other information that are crucial in managing on-site projects.
With all of the technology that is now available in the inspection world, it’s easy to see how the future of inspecting buildings and other structures could look. Currently there are many different types of drones that can perform different functions. However, future versions of the aerial inspection tool could incorporate the most up-to-date mapping and surveying technologies available. Companies that are interested in investing in new technology that will be integrated into their company’s inspection systems should contact the provider they choose to learn more about the types of applications available from these tools.
While companies have used drones to inspect large-scale construction projects for years, smaller companies and even homeowners can use the technology to inspect their own homes. As a result, the drone market is booming at a great rate. Although the consumer market may currently be dominated by smaller companies and homeowners, the market is certainly big enough to accommodate larger businesses and government agencies as well. Whether you are interested in utilizing a drone for home inspection or any other type of construction project, it’s important that you invest in the best system for your needs.
There are numerous different types of systems that can be used to inspect properties. Before making a final decision, consumers should research the different options so that they can find the perfect fit for their needs. While many of the large-scale commercial drones and industrial companies utilize aerial inspection equipment, small companies and homeowners can use small aircraft as well. To determine what type of inspection system is best for your company, you should contact a professional who can explain your options and recommend the best option for your business. With today’s extensive range of aerial inspection tools, there is no reason not to invest in an efficient aerial inspection drone system today.