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An Oasis in Antarctica—Adapting GNSS Methods to Scientific Needs Print E-mail
Written by Erik Dahlberg   
Saturday, 18 February 2017

A 4.283Mb PDF of this article as it appeared in the magazine—complete with images—is available by clicking HERE

At first glance, the phrase "Antarctic oasis" seems to be an oxymoron. But that's how polar researchers refer to the north end of James Ross Island. The largest island in the James Ross archipelago at the extreme northern tip of the Antarctic Peninsula, James Ross Island is shielded from storms by the Trinity Mountains. While glaciers cover 80 percent of its land area, the island has large regions that are free of year-round ice. Until it collapsed in 1995, a large ice shelf connected the island to the peninsula mainland. The exposed rock and tundra provide important opportunities for research and scientific activities.

One of the newest scientific facilities is the Johan Gregor Mendel Research Station located on the Ulu Peninsula at the far north end of the island. Named after the Czech scientist known as the father of modern genetics, it is the Czech Republic's first permanent Antarctic research facility. The station formally opened in 2007 after several years of planning and construction. Commonly referred to as the Mendel Polar Station, the facility is owned by Masaryk University (MU) in Brno. The station, which is built on permafrost, is the only research station located in James Ross Island's unique post-glacial environment.

The scientific program at Mendel is an ongoing effort supervised by the MU Faculty of Science. The Czech Republic has been involved in polar research for roughly three decades. Scientists from MU have conducted studies in the Antarctic since 1994, including multinational research programs and expeditions. A major part of the research at Mendel focuses on glaciology and permafrost. The work also includes earth sciences of geology, geomorphology, geochemistry, climatology and hydrology; biological disciplines such as botany, ecology, microbiology and soil biology; and paleontology. Yes, dinosaurs. Scientists have uncovered dinosaur fossils in two separate geological formations on James Ross Island.

In late 2015, a team of 11 MU scientists conducted the 10th expedition to the station. They would continue the work of observation and data collection and follow up on the activities of earlier visitors.

Positioning at the Antarctic Circle
Like many scientific efforts, position information is an essential part of routine data collection. Researchers need to map the location of specimens and samples to correlate the data and to enable them to return to the exact same location for future work. And investigations to characterize the behavior of the island's glacier surfaces require the ability to make accurate position measurements over time.

However, the time and resources available for accurate positioning are limited. Working under tight budgets, the researchers at the Mendel Polar Station must share duties that extend beyond their scientific roles. Necessary tasks such as cooking, cleaning and maintenance occupy a significant portion of the time. Therefore, the processes to capture positions must be simple, efficient and combine readily with the scientific activities.

According to David Jindra, a GNSS and positioning expert and Trimble Geospatial distribution partner who accompanied the 2016 expedition, the sparse geodetic control and lack of any real-time GNSS network near the station further hampered the positioning efforts. As he spent time with the researchers and began to understand their workflows and requirements for accuracy, Jindra developed a strategy that would streamline the work. "For research in this region, accuracy of a few centimeters is generally sufficient," Jindra said. "The effort and time to achieve millimeter precision could not be justified. The scientists have other things to worry about."

The need for small, simple equipment led the Czech researchers to select Trimble® GeoExplorer® series GNSS handhelds for the project. In addition to convenient size and low power consumption, the onboard Trimble Terrasync software was well-suited for the attribute-intensive data collection work. The handhelds could provide the durability and easy workflows needed for the work and Jindra's methodology would increase productivity and accuracy. For data processing, the team would use Trimble Business Center (TBC) and Trimble GPS Pathfinder® Office software. Developed to support surveying and engineering applications, TBC provides analysis and processing for geospatial data including GNSS, total stations, digital levels as well as image management and processing for terrestrial and aerial photogrammetry. The software also produces a variety of deliverables for use in GIS, CAD and other downstream systems. Pathfinder Office is focused on GNSS post processing primarily for mapping and GIS applications.

One of the first tasks was to establish suitable control at the Mendel Polar Station. The nearest precise control point was at the Chilean General Bernardo O´Higgins station on the Antarctic Peninsula more than 50 km (30 mi) away. Using a Trimble Geo7X GNSS handheld mounted on a tripod, Jindra created a new reference point named "4003." After collecting dual-frequency data over several days, Jindra downloaded the data from the Geo7X and acquired corresponding data from the Chilean station. He then used TBC software to compute the baseline from the Chilean station to point 4003. Jindra compared the long-duration observations with measurements taken during past campaigns and confirmed that 4003 was indeed stable. The dual-frequency, carrier-phase results reinforced the plans to use 4003 as a reference station for the 2016 campaign. It will also provide a reference point for use by future expeditions.

When the local control was in place, the researchers could incorporate GNSS positioning into their daily activities. With the Geo7X collecting data at the reference station, scientists carried Trimble GeoXHTM 6000 series GNSS handhelds to more remote locations, ranging up to 15 km (9 mi) from the base. All of their GNSS data could be processed against the data from 4003. Because the baselines were in 15-km range, they produced better accuracy than earlier expeditions that tied points to the distant O´Higgins station. In addition to the shorter lines, the ability to collect dual-frequency data reduced the time needed for GNSS observation at each location.

Science in the Antarctic
One of the most important uses of GNSS at the Mendel Polar Station is for monitoring glaciers. Scientists are studying four glaciers on the island within 15 km of the station. On three glaciers, networks of bamboo rods are installed into the ice at regular intervals. Researchers use GNSS to measure the 3D position at the base of each rod. They also measured the distance from the top of the bamboo to the ice surface.

To streamline the GNSS portion of the work, Jindra trained the scientists to use the stop-and-go kinematic method (SGK). The SGK approach is used to obtain precision similar to RTK but without the need to have a base station or other source of real-time corrections. The GNSS receiver collects satellite data continuously while in motion between points of interest. It is held stationary at a point for a few minutes. The in-motion and stationary data is downloaded to post-processing software, which can then produce centimeter results.

Jindra selected the SGK technique because the continuous tracking of satellites could produce precise positions with short occupation times. With the handhelds collecting data continuously, they could produce accurate positions at the bamboo rods with just three minutes of occupation time. Each day's data was processed in Pathfinder Office to produce 3D coordinates. "As you would expect, working on the glaciers was a good environment for GNSS," Jindra said. "There are no obstructions and the satellite availability was always quite good." Because the glacial motion could be on the order of 2-3 m per year (6.5 to 10 ft), position accuracy of a few centimeters is sufficient.

Following a process that is repeated every year, the team measured several hundred points on the glaciers to quantify changes in position at the bamboo rods. Data from the recurring measurement of coordinates is combined with remote sensing and climatology data to develop information about the glaciers' evolution, motion, trends and shrinking volume. While more complex data analyses are conducted after the expeditions return home, they rely heavily on accurate GNSS data. Jindra said because the teams could work quickly and confirm each day's data, the researchers came away with a high level of confidence in their results. They could also use TBC and Pathfinder Office to produce output and reports formatted for use by other software and analysis tools.

Because permafrost represents a continuously fluctuating material, another goal of the research was to better understand the behavior and evolution of the ground at the station. For their studies on permafrost, the team used GNSS approaches similar to the glacier measurements. They identified several experimental areas for soil sample collection on nearby mesas. The locations of the collection points were marked and accurately measured using the stop-and-go kinematic technique. They also recovered a number of points previously established by British teams on volcanic hummocks and established precise coordinates on the station’s climate and meteorological sensors. In nearly all cases, the GNSS system produced coordinates with accuracy well within the team’s needs. The points were cataloged and monitored; the GNSS data will enable future expeditions to continue precise observation of the points in coming years.

The Busy Season
The Mendel Polar Station operates only during the Antarctic summer. The small facility consists of a station building and several shipping containers repurposed for use as storage and other purposes. Solar panels and small wind turbines supply electricity. As part of the scientific efforts, the teams conducted measurements on the buildings and containers to detect any motion related to shifts in the permafrost. By establishing the local control point 4003, Jindra provided a fixed reference for monitoring the structures using very short GNSS baselines. Work at Mendel alternated between science and survival. Because of the small (11-person) team, everyone had multiple duties. In addition to managing the GNSS measurements, Jindra helped with cooking and station operations. He assisted the science efforts by collecting water samples, reading and recording various climate sensors, and catching penguins for biological studies.

Jindra conducted some research of his own as well. He wanted to examine the performance real-time GNSS positioning using satellite-delivered GNSS correction services in the Antarctic. He said that the Trimble RTXTM high-accuracy GNSS correction technology utilizes an established global reference station network along with satellite orbit and clock data to supply corrections for high accuracy positions in real time. The corrections can be supplied at different levels of accuracy and via cellular Internet connection or satellite broadcast. Trimble RTX includes different levels of accuracy to suit specific needs. One example is the Trimble ViewPoint RTX service, which can provide accuracy that is equal to or better than differential GPS (DGPS). Because ViewPoint RTX corrections can be delivered by satellite, the solution can operate in remote areas where DGPS reference stations are not available.

To conduct the tests, Jindra used a Trimble Juno® 3B handheld connected via Bluetooth® to a Trimble R1 GNSS receiver. Using Trimble ViewPoint RTX correction services, he tested the system at Mendel Polar Station and at an Argentinian station on Seymour Island roughly 75 km (47 mi) southwest of Mendel. While it was possible to receive the ViewPoint RTX corrections in Antarctica, Jindra was concerned about accuracy in the remote location.

When used with the R1 receiver, the ViewPoint RTX service is capable of producing sub-meter accuracy; Jindra was able to confirm that performance. In both locations he obtained sub-meter real-time positions with less than one minute of convergence time. "Our tests have documented that Trimble RTX corrections are functional at the area of northern Antarctic Peninsula," Jindra said. "In the future, they could be used for a spectrum of precise collection of geographical data. It's important not only for the scientific community. Other applications can benefit by knowing that real-time submeter to meter accuracy can be achieved in Antarctic locations and conditions." He said that the question of broader usage of RTX technology for scientific activities in Antarctica remains open.

After two short, intensely busy weeks, part of the expedition departed Mendel Polar Station. The data they collected will support months and years of processing and analysis. Plans are already underway for future visits by Czech teams to James Ross Island. While Jindra won't be accompanying the next expeditions, he is pleased that he was able to contribute to the scientific efforts.

"The new methodology will bring more accurate and valuable results to all applications in future campaigns," Jindra explained. "This combination of different geospatial technologies and methods is the right way to reach a maximum quality and complexity of scientific activities results in this unique area."

Erik Dahlberg is a writer specializing in the geomatics, civil engineering and construction industries. Drawing on extensive training and experience, Dahlberg focuses on applications and innovations in equipment, software and techniques.

A 4.283Mb PDF of this article as it appeared in the magazine—complete with images—is available by clicking HERE

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