Tag - surveying

Survey Drones and the Future of Road Construction

In recent years, it’s fair to say that drones have come a long way in terms of mainstream acceptance. From the initial skepticism of both the ordinary public and commercial entities, drones moved beyond niche hobbyists to one of the most in-demand technologies. Now, the technology is disrupting the road construction industry, as well.  

Drones and road construction

With the advancement in sUAS coupled with lowered cost, drones use continues to expand into more and more applications. In most cases, drones offer improved efficiency in data collection. Plus, UAVs reduce operational costs by replacing manned aircraft needs and streamlining operations. In addition, drones access environments that may be inaccessible or dangerous for personnel. Now, drones are expanding into a new application: road construction and paving projects. This application expansion paves the way for greater efficiency and reduced costs for the industry. In addition, thanks to ever improving software, drones provide precise data collection, as well. Detailed 3-D survey maps depicting topography, utility lines, drainage slopes, existing hazards -- plus, high resolution images and video -- efficiently secures the data required for building plans and blueprints. This new tool-set may transform the industry.  

The benefits

Cost reduction may be one of the biggest drivers for the wide spread adoption of drone use in the road construction industry. After all, large infrastructure projects require tremendous sums of money. Any cost savings are welcome. For instance, replacing manned survey aircraft with a properly equipped fleet of drones. Furthermore, drones offer capabilities such as lower flight altitudes, hovering functions, and more. Additionally, training and licensing drone operators is less expensive and quicker than securing a pilots license. The use of the technology is not limited to large multinationals and governmental agencies. Privately run construction companies benefit, too. Improved efficiency allows for faster project completion and the ability to move onto new ones. Drone technology also helps improve the safety of construction sites. A drone can replace risky operations such as manned aircraft or abseiling crews.  

Future application adoption

Drone use for road construction surveying is still in its infancy. And, though governmental legislation lags behind the technology, construction companies continue to adopt this technology. The future for survey drones is very bullish, indeed.  

Aeromapper Talon Completes Single-Flight Survey of Island in The Maldives

https://www.unmannedsystemssource.com/?s=aeromapper&post_type=product&product_cat=0In December Aeromao Inc., completed a full photogrammetric survey mission of an island with an Aeromapper Talon UAV...in one flight. The survey took place in collaboration with Foresight Surveyors. One of the most unique and exotic islands in the Maldives, the Talon surveyed a total area of approximately 251 acres or 1 Sq. Km. at a GSD of 2cm/pixel.
 

Talon Surveys Island

The Talon UAV flew at a cruise altitude of 100 m AGL and collected 1422 photos with an amazing level of detail. Pix4DMapper software generated a DSM, orthophoto and point cloud. Though the Aeromapper Talon has 2 hour flight endurance capability, the mission finished successfully in only 45 minutes. The UAV flew at a maximum distance from the ground control of 2km. Additionally, the Talon launched and was recovered via parachute from an island roughly 1 km away. The UAV flew without incident. The Aeromapper Talon was not equipped with PPK GNSS system, so 5 GCS points were taken on the island which resulted in a horizontal accuracy of 4.8cm  

The results

The purpose of the survey was to generate an ortho-photo to trace the "as-built" for future developments. Furthermore, the data provided clients with an up-to-date high resolution property map for the project department and decision makers. Also, the othophoto helped with their environmental monitoring and biodiversity mapping.
 

About the Maldives

The Maldives consists of 1,192 coral islands grouped in a double chain of 26 atolls. It spreads over roughly 90,000 square kilometers (35,000 sq mi) and is one of the world’s most dispersed countries. It lies between latitudes 1°S and 8°N, and longitudes 72° and 74°E. Composed of live coral reefs and sand bars, the atolls rise abruptly from the Indian Ocean. These islands are situated on a submarine ridge 960 kilometers (600 mi) long. Maldives is the lowest country in the world. As a result, its natural ground levels average only 2.4 meters (7 ft 10 in) and 1.5 meters (4 ft 11 in) above sea level. However, in areas where construction exists, ground levels have increased several meters.  

About Foresight Surveyors

The first company to introduce unmanned aerial vehicle mapping to the Maldives, Foresight Surveyors chose the Aeromapper Talon because of its ease of use, dependability and affordability. Foresight Surveyors provides a comprehensive range of surveying and survey related consultancy, including: topographical, bathymetry and engineering survey services. The company makes use of traditional techniques and modern technologies to produce accurate data.  

About Aeromao, Inc.

Founded in 2011, Aeromao Inc. is a leading manufacturer of UAVs. Aeromao developed the Aeromapper series of turnkey unmanned aerial vehicles for mapping, surveying, precision agriculture and remote sensing. Canada serves as the company's headquarters. Aeromao Inc. offers a line of products that adapt quickly to market demands and the unique needs of client applications. You can shop the entire line of Aeromapper UAVs at Unmanned System Source.

Aerial Mapping Via Drone

aerial_mapping The surveying and mapping industry has used photogrammetry and LiDAR (Light Detection and Ranging) for many years, Questions over which is best have gone on for just as long. Choosing between photogrammetry and LiDAR is not a case of which offers superior technology but, rather, which is better suited for the surveying purposes required. Professionals working in the sector understand that both have their benefits. Photogrammetry uses pictures to take measurements whereas LiDAR uses lasers and light to do the same. For mapping and surveying bare earth regions, photogrammetry is a great choice. But for areas with heavy vegetation or other obstructions in the way of the site being surveyed, LiDAR provides the best fit.

Drone technology takes flight

Drone technology has made a huge impact on aerial mapping and surveying. Drones offer many advantages including the ability to capture photos at predefined elevations and at a predetermined overlap percentage. In the past, conventional aerial LiDAR providers turned down surveying projects on areas under 5 square kilometers because it simply wasn't cost effective. Today, drones mounted with LiDAR systems, can map these same areas quickly, affordably and with far less logistical issues. In turn, while drone mounted LiDAR systems achieve great results, their cost and using them over larger areas may not be currently feasible. UAV LiDAR systems also offer image control and perspectives unique from traditional capture methods. Drone operators too have the flexibility to configure the vehicles to gather large volumes of data and capture images that are perfect for what the application requires. The affordability of drones also means that aerial surveying and mapping has attracted more people to the industry. This translates into varying skill and experience levels which inevitably brings about mixed surveying results. In the same way, organizations that rely on surveying data have also decided on an in-house approach.

Acquiring Accurate Imagery

Regardless of whether a surveyor chooses photogrammetry or LiDAR, the ultimate goal is to acquire accurate imagery. Surveyors begin by determining the level of accuracy they require, which drives the decision between LiDAR and photogrammetry. Generally, LiDAR achieves more accurate results but is limited when it comes to obtaining high resolution images through the technology's data. Often, individual use traditional photogrammetry methods to augment the LiDAR data. Surveyors often choose what they are more familiar with, as well as what is more affordable. While there is nothing wrong with such an approach, it is important to keep in mind that the requirements of each project will vary, as will their cost. The use of  UAV LiDAR or photogrammetry alone may work for one project while other missions may require the use of both technologies to achieve the desired imagery. Some surveyors forego LiDAR and photogrammetry entirely, choosing instead photo-based solutions. Though initial costs may be more affordable, redoing everything means expenses can mount quickly.

Varied  Capabilities and Cost

Currently, LiDAR is not as readily available in mainstream technology but options continue to increase.  Still with the right drone and a camera of reasonable quality, surveyors can achieve workable measurements. If a project's requirements are accurately followed, photogrammetry produces accurate 3D models. Its low cost also means it's the most common choice for surveying. Today, even inexperienced operators can capture images to create a 3D demo. However, the quality of the work determines the quality of the data.

Research and due Diligence

When considering LiDAR or photogrammetry, it is important to remember that the choice is not about which is better. Both offer advantages and disadvantages. Limitations presented by technology capabilities, terrain, as well as the size of the area all come into play. Given the choice most surveyors would happily choose both technologies to utilize as they see fit. Those interested in surveying via drone should learn as much as they can about both technologies to determine which works best for their situation.