Tag - AsteRx-m2 UAS

Septentrio launches the AsteRx-m2a and AsteRx-m2a UAS

 AsteRx-m2a AdvancementsThis week, at Commercial UAV 2017, Septentrio announced the arrival of the AsteRx-m2a and AsteRx-m2a UAS GNSS OEM engines. The two OEM boards bring the latest in precise and reliable multi-frequency, all-in-view RTK positioning and heading. The boards also provide unmatched interference technology -- all for the lowest power consumption of any comparable product on the market today.
 

AsteRx-m2a Advancements

Smaller than a credit card, the AsteRx-m2a and AsteRx-m2a UAS feature Septentrio’s pioneering AIM+ interference mitigation and monitoring system. AIM+ suppresses the widest variety of interferers -- from continuous narrow-band signals to complex wide-band and pulsed jammers. Increasing radio-frequency pollution plus the intrinsic danger of self-interference in compact systems such as UAS, are common problems. As such, interference mitigation is now vital for any UAS system using GNSS positioning. Both boards bring high-precision positioning and attitude to any space-constrained application. Additionally, their ease-of-integration and high-update rate, low-latency output make both receivers ideal core components in any multi-sensor application.
 

Unmanned applications

AsteRx-m2a UAS is aimed specifically at unmanned applications bringing plug-and-play compatibility for autopilot systems such as ArduPilot and Pixhawk. Event markers accurately synchronize camera shutter events with GNSS time. Plus, the board can power directly from the vehicle power bus via its wide-range input. In addition, the AsteRx-m2a UAS works seamlessly with GeoTagZ Software. As such, it provides offline re-processed RTK accuracy without the need for either Ground Control Points or a real-time datalink. “We’ve taken the hugely successful AsteRx-m2 and added a second antenna input for high-precision GNSS heading," said Gustavo Lopez, OEM Product Manager at Septentrio. "No need to maneuver around in a figure of ‘8’ trying to initialize INS heading or find space or additional power for a separate INS module now. All you need is a second antenna and you’re good to go.”
  Shop Septentrio's product line at Unmanned Systems Source.

About Septentrio

Headquartered in Leuven, Belgium, Septentrio designs, manufactures and sells high-precision, multi-frequency, multi-constellation GPS/GNSS equipment for use in demanding applications. Septentrio receivers deliver consistently accurate and precise GNSS positioning scalable to centimeter-level and designed to perform solidly in the most challenging environments. Septentrio receivers are available as OEM boards, housed receivers and smart antennas.

Drone Inspections go nuclear with GPS and RADAR

AsteRx-m2 UASHigh-precision GPS receivers mounted on drones able to identify 1mm hairline defects in cooling towers  

Drones rise to the challenge

How do you inspect a structure that’s almost 160 m high and 120 m in diameter? With a few weeks to spare, a crash course in abseiling and a head for heights, a person could certainly give it a go. Imagine, however, that you need to collect enough data for a 3D model with the precision of 1 mm…all within a week. This was the challenge facing Aetos Drones. The company was tasked with inspecting a cooling tower at Tihange Nuclear Power Station near Liege in Belgium.  

Keeping reactors in top condition

The three reactors at the Tihange Power Station came online between 1975 and 1985. This makes the oldest of the three over 40 years old. Cooling towers built in this era have a life expectancy of 15-20 years. But, with careful maintenance, the lifetime can extend a further 20 years. The Tihange reactors contribute about 25% of all electricity generated in Belgium. The plan is to decommission the towers in 2025. Until then, the cooling towers need to be kept in good working order. Fortunately, drones equipped with highly precise and reliable GPS receivers can help.  

Corrosion and cooling towers

Pressurized Water Reactors, such as at Tihange, have cooling towers. These towers supply cold water to the condenser which works to cool the steam back into water. The steam drives the electricity-generating turbines. Cooling towers are elegantly simple in their operation. Warm water from the condenser sprays into the tower through a network of sprinklers, warming the surrounding air and causing it to rise. This in turn draws cooler air in through openings in the base of the tower maintaining a constant, natural draft of cool air through the tower. Corrosion is a possibility in any system where water plays a part. Cooling towers are hollow, thin-walled structures made from reinforced concrete. Over time, the humid environment can corrode the metal elements of the tower. In every cycle through the cooling tower, about 2% of the water evaporates forming the characteristic steam clouds. This increases the salt concentration in the remaining water which increases its corrosive power. In addition, high winds and winter icing can also cause damage and weaken the cooling tower.  

The inspection

Aetos Drones, were called in to carry out the inspections. And, Belgian's first certified drone pilot, Lieve Van Gijsel, took the helm. An octocopter fitted with a high-resolution camera, a RADAR system and an AsteRx-m UAS receiver conducted the inspection. The air vehicle took photographs at regular intervals as it traveled vertically up and down the sides of the cooling tower. The RADAR system was AIRobot’s Ranger, an add-on sensor specifically designed for distance detection on UAVs. The octocopter needed to get close enough to get quality images. However, the octocopter needed to maintain enough distance so as not to risk getting tossed around by the turbulence generated by the tower.  

Processing the images

Over the course of 4 days, more than 19,000 photographs of the cooling tower were taken. During the flight, the AsteRx-m UAS receiver logged GNSS measurements and the exact time each photograph was taken. After the flight, these shutter times and GNSS measurements were combined with GNSS measurements from a nearby base station using Septentrio’s GeoTagZ software. As such, each photograph was stamped with the cm-level precise RTK position of the camera – the ideal input for the next processing stage. After processing with GeoTagZ, the photographs were then uploaded to the photogrammetry software Agisoft PhotoScan. Over the course of several days, the photographs were stitched together to produce a highly-detailed 3D model of the cooling tower, precise to the level of 1 mm. Experts at Tihange then analyzed the surface of the cooling tower down to any required level of detail.  

Precise yes, but also reliable

3D inspection models with 1 mm resolution are made possible using high-quality, multi-frequency GNSS measurements from high-end receivers like the AsteRx-m. Not only does the positioning have to be precise, it has to be reliable. This requires: accurate error models, continuous tracking during mechanical jolts and advanced satellite integrity monitoring (RAIM). For large-structure inspections, such as this, multi-constellation positioning is essential to ensure there are always enough satellites available to work with. The receiver will also need a good multipath mitigation filter (APME) to disentangle direct and reflected satellite signals to avoid jumps in the calculated position.  

AsteRx-m2 UAS

The AsteRx-m UAS established itself as the receiver of choice for UAV applications requiring high-precision positioning. With the recent release of the  AsteRx-m2 UAS, drone inspections can take on applications at an entirely new level of difficulty. The AsteRx-m2 UAS adds BeiDou and Galileo as well as L5 frequency tracking. It also includes the AIM+ interference mitigation system. The additional constellations allow operation in areas where overhead structures limit the scope of single and dual-constellation receivers. Shop Septentrio's line of high accuracy receivers at Unmanned Systems Source.

AsteRx-m2 UAS ultra-low powered GNSS receiver offers unmatched jamming robustness

AsteRx-m2 UASMay 8, 2017 - Septentrio, a leading manufacturer of accurate and reliable GNSS solutions, announced the release of the AsteRx-m2 and AsteRx-m2 UAS OEM boards. These OEM boards bring the latest in GNSS positioning to the market with unmatched interference mitigation technology all on ultra-low-power. Septentrio will showcase these OEM boards in Dallas, Texas at AUVSI's Xponential 2017.  

Centimeter-level RTK position accuracy, and more

The credit-card sized AsteRx-m2 and the AsteRx-m2 UAS offer all-in-view multi-frequency, multi-constellation tracking and centimeter-level RTK position accuracy for the lowest power of any comparable receiver. Additionally, the AsteRx-m2 and the AsteRx-m2 UAS can receive TerraStar satellite-based correction signals for PPP positioning. Also, both boards feature Septentrio’s AIM+ interference mitigation system: the most advanced on-board interference mitigation technology on the market. It can suppress the widest variety of interferers, from simple continuous narrowband signals to wideband and pulsed jammers. Increased levels of radio frequency pollution coupled with the intrinsic danger of self-interference in compact systems such as UAS, makes interference mitigation vital to any UAS GNSS system.  

AsteRx-m2 UAS for unmanned systems

The AsteRx-m2 UAS is designed specifically for unmanned systems. It brings plug-and-play compatibility for autopilot software such as ArduPilot and Pixhawk. And event markers can accurately synchronize a camera shutter with GNSS time. In addition, the board can receive power directly from the vehicle power bus via its wide-range power input. The AsteRx-m2 UAS works seamlessly with GeoTagZ software and its SDK library for RPK (ReProcessed Kinematic) offline processing to provide RTK accuracy without the need for ground control points or a real-time datalink. “The market demands increasingly accurate and reliable GNSS positioning systems for inspection, mapping and aerial survey” stated Gustavo Lopez, Product Manager at Septentrio. “Septentrio’s answer is the AsteRx-m2 and the AsteRx-m2 UAS. They offer multi-frequency and multi-constellation tracking as well as robust interference protection all for the lowest power on the market.” If attending XPONENTIAL, find out more about the AsteRx-m2 UAS by stopping by Septentrio's booth, #749, or Unmanned Systems Source at booth #325.  

About Septentrio

Septentrio designs, manufactures and sells high-precision multi frequency multi constellation GPS/GNSS equipment. Receivers, designed by Septentrio, deliver consistently accurate GNSS positions scalable to centimeter-level. They perform solidly even under heavy scintillation or jamming. Receivers are available as OEM boards, housed receivers and smart antennas. Shop Septentrio's line of GNSS receiver solutions at Unmanned Systems Source.