Inspiring the Next Generation of EO Scientists

Artist's rendition of a satellite - 3dsculptor/123RF Stock Photo

Artist’s rendition of a satellite – 3dsculptor/123RF Stock Photo

Last week, whilst Europe’s Earth Observation (EO) community was focussed on the successful launch of Sentinel-5P, over in America Tuesday 10th October was Earth Observation Day!

This annual event is co-ordinated by AmericaView, a non-profit organisation, whose aim to advance the widespread use of remote sensing data and technology through education and outreach, workforce development, applied research, and technology transfer to the public and private sectors.

Earth Observation Day is a Science, Technology, Engineering, and Mathematics (STEM) event celebrating the Landsat mission and its forty-five year archive of imagery. Using satellite imagery provides valuable experience for children in maths and sciences, together with introducing subjects such as land cover, food production, hydrology, habitats, local climate and spatial thinking. The AmericaView website contains a wealth of EO materials available for teachers to use, from fun puzzles and games through to a variety of remote sensing tutorials. Even more impressive is that the event links schools to local scientists in remote sensing and geospatial technologies. These scientists provide support to teachers including giving talks, helping design lessons or being available to answer student’s questions.

This is a fantastic event by AmericaView, supporting by wonderful resources and remote sensing specialists. We first wrote about this three years ago, and thought the UK would benefit from something similar. We still do. The UK Space Agency recently had an opportunity for organisations interested in providing education and outreach activities to support EO, satellite launch programme or the James Webb Space Telescope. It will be interesting to see what the successful candidates come up with.

At Pixalytics we’re passionate about educating and inspiring the next generation of EO scientists. For example, we regularly support the Remote Sensing and Photogrammetry Society’s Wavelength conference for students and early career scientists; and sponsored the Best Early-Career Researcher prize at this year’s GISRUK Conference. We’re also involved with two exciting events at Plymouth’s Marine Biological Association, a Young Marine Biologists (YMB) Summit for 12-18 year olds at the end of this month and their 2018 Postgraduate conference.

Why is this important?
The space industry, and the EO sector, is continuing to grow. According to Euroconsult’s ‘Satellites to Be Built & Launched by 2026’ – I know this is another of the expensive reports we highlighted recently – there will be around 3,000 satellites with a mass above 50 kg launched in the next decade – of which around half are anticipated as being used for EO or communication purposes. This almost doubles the number of satellites launched in the last ten years and doesn’t include the increasing number of nano and cubesats going up.

Alongside the number of satellites, technological developments mean that the amount of EO data available is increasing almost exponentially. For example, earlier this month World View successfully completed multi-day flight of its Stratolliteâ„¢ service, which uses high-altitude balloons coupled with the ability to steer within stratospheric winds. They can carry a variety of sensors, a mega-pixel camera was on the recent flight, offering an alternative vehicle for collecting EO data.

Therefore, we need a future EO workforce who are excited, and inspired, by the possibilities and who will take this data and do fantastic things with it.

To find that workforce we need to shout about our exciting industry and make sure everyone knows about the career opportunities available.

Current Work in Remote Sensing and Photogrammetry

Last week the annual Remote Sensing and Photogrammetry Society (RSPSoc) conference was held in Aberystwyth. Now I’ve stepped down as RSPSoc Chairman I could relax and enjoy this year’s event as a delegate.

Arriving on Wednesday morning, the first session I attended was organised by the Technology and Operational Procedures Special Interest Group (TOPSIG), which was focused on Operational Earth observation. There were a great range of presentations, and I particularly enjoyed the user insights by Andy Wells on how customers are really using imagery. Recent developments in on-the-fly importing, georeferencing and autocorrelation means bringing data together from different sources isn’t a time consuming chore. Users can therefore spend more time analysing data, extracting information and adding value to their organisations or research. In addition, as highlighted by other presentations, open software repositories continue to grow and now include complex algorithms that were once only available to specialists. Finally, Steve Keyworth reminded us that what we do should be seen as a component of the solution rather than the specification; the ultimate aim should be on solving the customer’s problem, which in the current climate is often financially motivated.

Landsat 7 image showing features in the Baltic, data courtesy of ESA

Landsat 7 image showing features in the Baltic, data courtesy of ESA

On Thursday I co-chaired the Water and Marine Environments session alongside Professor Heiko Balzter, on behalf of the Marine Optics Special Interest Group (SIG). My presentation was focused on the European Space Agency (ESA) Landsat archive that’s been acquired via the ESA ground stations. This data is being reprocessed to create a consistent high resolution visible and infrared image dataset combining the three primary sensors used by the series of Landsat satellites; MSS (Multi-spectral Scanner), TM (Thematic Mapper), and ETM+ (Enhanced Thematic Mapper Plus). Although historical Landsat missions are not ideally suited to observing the ocean, due to a low signal-to-noise ratio, features can be clearly seen and the new processing setup means images are being processed over the open ocean.

Mark Danson’s keynote lecture on Friday morning described the application of terrestrial laser scanners to understanding forest structure. He showcased his post PhD research which has led to the development of the Salford Advanced Laser Canopy Analyser, a dual-wavelength full-waveform laser scanner. The presentation also showed the importance of fieldwork in understanding what remote techniques are actually sensing, and in this case included a team of people cutting down example trees and counting every leaf!

Mark also made me feel less guilty that I am still working on a component of my PhD – atmospheric correction. In research your own learning curve, and the scientific process, mean you gain new insights as you understand more, often explaining why answers are not as simple as you might have assumed. It’s one of the reasons why I love doing research.

Overall, I had a great time at RSPSoc, catching up and seeing what’s new in the field. My next conference event is Ocean Optics, in the US, at the end of October where I’ll be discussing citizen science in a marine science context.