ESA investigates high-altitude pseudo-satellites for Earth observation

November 28, 2017  - By

News from the European Space Agency

High-altitude pseudo-satellites (HAPS) are platforms that float or fly at high altitude like conventional aircraft but operate more like satellites. (Image: ESA Earth Observation Graphics Bureau)

The European Space Agency (ESA) is considering extending its activities to a new region of the sky via a novel type of aerial vehicle, a missing link between drones and satellites.

High-altitude pseudo-satellites, or HAPS, are platforms that float or fly at high altitude like conventional aircraft but operate more like satellites — except that rather than working from space, they can remain in position inside the atmosphere for weeks or even months, offering continuous coverage of the territory below.

The best working altitude is about 20 kilometers, above the clouds and jet streams, and 10 kilometers above commercial airliners, where wind speeds are low enough for them to hold position for long periods.

From such a height they can survey the ground to the horizon 500 km away, variously enabling precise monitoring and surveillance, high-bandwidth communications or back up to existing satellite navigation services.

Several ESA directorates have teamed up to investigate their potential, explains future-systems specialist Antonio Ciccolella.

“For Earth observation, they could provide prolonged high-resolution coverage for priority regions, while for navigation and telecoms they could shrink blind spots in coverage and combine wide bandwidth with negligible signal delay,” Ciccolella said.

“ESA is looking into how these various domains can be best brought together.”

“We’ve been looking into the concept for the last 20 years but now finally it’s becoming reality,” explained Earth observation specialist Thorsten Fehr.

“That’s come about through the maturing of key technologies: miniaturised avionics, high-performance solar cells, lightweight batteries and harness, miniaturisation of Earth observation sensors and high-bandwidth communication links that can deliver competitively priced services.”

Navigation engineer Roberto Prieto Cerdeira added, “There’s obvious potential for emergency response. They could also be employed semi-permanently, perhaps extending satnav coverage into high, narrow valleys and cities.”

The QinetiQ-designed and Airbus-owned Zephyr-7 solar-powered unmanned aircraft holds the world flight endurance record at 14 days. (Photo: Airbus)

European companies have already unveiled product lines. For instance, Airbus has developed the winged, solar-powered Zephyr, which in 2010 achieved a world record 14 days of continuous flight without refuelling.

The Zephyr-S is designed to fly payloads of a few tens of kilograms for up to three months at a time, with secondary batteries employed to keep it powered and aloft overnight. A larger Zephyr-T version now in preparation will support larger payloads and power needs.

The first flight is projected for 2021 for Thales Alenia Space’s Stratobus airship. (Artist’s rendering: Thales Alenia Space/Briot)

Meanwhile, Thales Alenia Space is preparing the lighter-than-air Stratobus, with its first flight expected in 2021.

The buoyant Stratobus airship can carry up to 250 kilograms, its electric engines flying against the breeze to hold itself in position, relying on fuel cells at night.

Many other firms are also developing vehicles, payloads and services. Last month saw them gathered at ESA’s inaugural workshop, together with representatives of potential customers, including the European Defence Agency, Frontex — the EU agency tasked with Europe’s border management — and EU Copernicus environmental monitoring services.

Airbus’s double-tailed Zephyr-T variant HAPS aircraft is designed to support larger payloads, keeping them aloft for months at a time. (Image: Airbus)

“This was the first meeting of its kind in Europe, with more than 200 HAPS experts” explains Juan Lizarraga Cubillos, from ESA’s telecoms area.

“We heard from them on the needs, opportunities and critical issues within the field, particularly as a complement for existing satellite services, to start preparing a future ESA programme.”

ESA regards the vehicles as a valuable way of establishing applications that complement its satellites while also accelerating space technologies through early, high-altitude flight testing.

The point was also made that market acceptance of HAPS would come down to their efficiency and cost-effectiveness — and the best way to show that would be through demonstration projects.

“We have to fly them,” remarked Alvaro Rodriquez of the EU’s Satellite Centre. “The technology is there, all the ingredients are there, now it’s time to mix them into a nice recipe.”

Thales Alenia Space’s Stratobus is topped with solar panels, powering its propellers to fly against the wind at 20 km for prolonged periods of service. (Image: Airbus)

Tracy Cozzens

About the Author:

Tracy Cozzens has served as managing editor of GPS World magazine since 2006. She also is editor of GPS World’s newsletters and the sister website Geospatial Solutions. She has worked in government, for non-profits, and in corporate communications, editing a variety of publications for audiences ranging from federal government contractors to teachers.

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