On the Radar Screen

On the Tradeshow Trail: DC to Anchorage to DC

March 2nd, 2010

We’ve been doing a lot of “show-and-tell” the past couple of weeks, attending the ESRI Federal User Conference in Washington, DC, and the Alaska Surveying & Mapping Conference in Anchorage, Alaska. At the ESRI Federal User Conference, Fugro EarthData’s Larry Lund gave a paper on PurVIEW, and its ability to streamline the topographic mapping process for GeoSAR data. For anyone who wasn’t at the conference, but is interested in the subject, send us an email (info@earthdata.com) and we’ll be sure to get you the information you need.

Last week, we traveled to Anchorage, Alaska, where we met up with some of our local staff and exhibited at the Alaska Surveying and Mapping Conference. It’s a place we’ve been coming back to often as Stakeholders have been working long and hard over the past couple of years to address the state’s pressing needs for accurate and up-to-date topographic mapping. Given the size, geographic location, and challenging terrain, airborne IFSAR has been deemed the ideal solution for generating accurate and detailed digital elevation data.

But elevation isn’t the only application for Alaska Stakeholders. This point was illustrated in a well-received talk by Fugro EarthData’s Steven Shaffer. In his presentation, “Airborne IFSAR Mapping in Alaska: Solutions for a Statewide DEM and Beyond,” Steve explored many additional use cases for dual-band IFSAR in particular, including those related to forestry, soil studies, and snow/ice mapping. If you weren’t able to attend the conference but are interested in learning more about what we presented, let us know and we’ll make sure to answer your information needs.

This week, it’s back to Washington, DC, International Conference on Commercial Remote Sensing! We hope to see you there.

Tags: 3D viewer, Alaska, Alaska Surveying & Mapping Conference, Anchorage, dual-band IFSAR, ESRI Federal User Conference, Fugro EarthData, GeoSAR, PurVIEW, Statewide DEM
Posted in Innovation, Partnership | No Comments »

PurVIEW Expands the GeoSAR User Experience

February 8th, 2010

In our last post, we wrote about the release of the updated FugroViewer software. This week, the software news continues. As you may have seen in our recent news release, Fugro EarthData and ESRI Canada announced a strategic partnership and global distribution agreement related to ESRI’s PurVIEW mapping software. Why are we talking about it in this blog? Because the implications of this relationship to GeoSAR users is pretty big.

Over the past year, Fugro EarthData and ESRI Canada have worked to modify the PurVIEW software to accommodate use of dual-band IFSAR data. That means users now have a tool that enables them to photogrammetrically capture accurate 3D geospatial information from GeoSAR data (roads, hydrography, cultural features, etc.) directly into their GIS database, as an ArcGIS extension. In a nutshell, it takes “radargrammetry” to a whole new level; no translations, no missing attributes, all native ESRI formats.

We’ve written before about the importance of technology transfer–putting the full power of the data and its potential into the hands of GeoSAR users. PurVIEW exemplifies our commitment to this notion. Within days of the original announcement, we received numerous requests from GeoSAR customers interested in learning more. The demos are lining up!

If you are among those interested, send us an email: info@geosar.com. You can also learn more about PurVIEW at ESRI Canada’s website. We’ll also be on hand at the ESRI Federal User Conference later this month, so look for us there.

Tags: 3D viewer, Fugro EarthData, GeoSAR, IFSAR, mapping, Technology transfer
Posted in Technology transfer | No Comments »

The New FugroViewer

January 20th, 2010

Welcome back to On the Radar Screen! As our first entry in 2010, we wanted to spread the word about upgrades to Fugro’s 3D viewing software, FugroViewer. While FugroViewer is a standard deliverable on all GeoSAR projects, it’s also available to anyone (for free!) at www.fugroviewer.com.

The software was originally released in January 2009 as a tool for technical and non-technical users to view, analyze, and communicate 3D geospatial data. It’s been a big hit. Designed for use with photogrammetric, LiDAR, and IFSAR data, FugroViewer now has hundreds of users in business, government, and university settings.

Upgrades to the new version include: enhanced memory management, additional LiDAR format support (including LAS version 2), additional image format support (including ERDAS Imagine).

Give it a try and let us know what you think!

Tags: 3D viewer, ERDAS Imagine, Fugro, FugroViewer, GeoSAR, IFSAR, Las 2, LiDAR, viewing software
Posted in General | No Comments »

Remote Sensing and Climate Change Part III: The COP-15 Recap

December 23rd, 2009

As the last entry in our series about remote sensing and climate change, we offer a rundown on COP-15. Overall, the meeting did not deliver on most of the major aims:

– No deadline for a legally-binding agreement
– No greenhouse gas emissions reduction targets for 2020
– No goal for reducing global emissions by 2050
– No deadline for global greenhouse emissions to reach their peak
– No mention of aviation and shipping (specific sectoral agreement)

But that’s not to say COP-15 was a failure. There was some progress on monitoring, reporting, and verification; REDD; financing; and technology transfer. Details on each of these topics follow.

Monitoring, reporting, and verification: China, India, and other developing nations are to publish their emissions curbing commitments in annexes to a new global agreement. They would then communicate progress to those goals according to internationally agreed upon standards.

REDD: On deforestation, there should be the “immediate establishment of a mechanism, including REDD-plus” to mobilize capital from developed countries for “reducing emissions from deforestation and forest degradation” and enhancing “removals of greenhouse gas emission by forests”.

Financing: Developed countries are to “support a goal of mobilizing jointly 100 billion dollars a year by 2020 to address the needs of developing countries”. This funding will come from a wide variety of sources, public and private, bilateral and multilateral, including alternative sources of finance. There will also be 30 billion dollars made available over the 3-year period of 2010 to 2012, balanced between climate change adaptation and emissions mitigation. Further, a new UN Framework Convention on Climate Change mechanism called the Copenhagen Green Climate Fund will be established to support funded “projects, programs, and policies” on mitigation, REDD-plus, adaptation, capacity building, technology development and transfer.

Technology transfer: A new technology mechanism will also be established to further accelerate technology development and transfer under a country-by-country approach. (This is in contrast to the existing CDM which takes a project-based approach.)

So what does this mean for remote sensing? Without a binding agreement, it may still be too early to tell. But cautiously speaking, it appears we are headed down a path where REDD (or REDD-plus) will be properly funded, which means the remote sensing technologies we discussed last week will be used to help measure and monitor forest carbon.

This, along with the emphasis on technology transfer holds real promise. By increasing the number of users skilled in the science and application of geospatial data, climate change policy can impact countless other areas of a developing nation’s existence, from infrastructure planning to emergency response to economic development. Now that’s something to be optimistic about in the New Year.

Tags: biomass, Carbon accounting, Climate change, COP-15, Copenhagen, IFSAR, REDD, remote sensing, Technology transfer
Posted in Carbon accounting, Climate change, Technology transfer | No Comments »

Remote Sensing and Climate Change Part II: Making REDD Work

December 18th, 2009

As heads of state and other government leaders enter the final rounds of the COP-15 climate change talks, many key issues remain unresolved. The target rate of emissions reductions by wealthy nations, the amount of aid to poor nations, and monitoring compliance are at the crux of the slow-moving negotiations.

It’s the monitoring piece where geospatial comes into play. As addressed in our last entry about the REDD initiative, several remote sensing methodologies can contribute to large-area forest carbon measurement and monitoring, each with unique benefits. This week we are taking a closer look, reviewing the top-three technologies and briefly exploring their strengths and weaknesses:

Optical imaging: Offering low-cost, repeat coverage acquisition over large project areas, satellite-based hyperspectral and multispectral imagery has shown some potential for biomass estimation. Systems with sophisticated scheduling enable around 70 percent cloud-free coverage in equatorial regions, thereby reducing weather obstacles. And while satellite is proving a good source for monitoring REDD sites in Brazil, it alone isn’t a good source for carbon measurement. For that, you need tree height data and optical imagery provides only canopy-level information.

LiDAR mapping: Foresters have long used LiDAR systems to measure forest canopy and vertical structures. As an active sensor, airborne LiDAR data can be acquired night or day, providing very dense and accurate datasets. The downside to this approach is the high cost of acquisition and processing over large areas. Satellite-based LiDAR systems may help control these costs with wide area coverage and automated processing capabilities. The Geoscience Laser Altimeter System (GLAS) on NASA’s Ice, Cloud, and Land Elevation Satellite (ICESat) is one such example. Some studies show promising results, though clouds are an issue, and so is a general lack of ground height data. So, again, LiDAR may be a technology best suited for monitoring practices.

IFSAR mapping: Low frequency, long bandwidth IFSAR is an all-weather technology that provides high foliage penetration for near bare-earth elevation data, even in dense forests. When combined with higher frequency, short bandwidth IFSAR (which provides elevations of top surfaces), it is possible to detect the heights of individual trees within a forest. That’s the beauty of GeoSAR; it offers both views of the forest simultaneously and can also be used to identify forest type. This data, combined with biomass information on individual tree species, enables efficient and accurate forest carbon content estimations.

But GeoSAR isn’t a silver bullet. Given the relative high cost of airborne acquisitions in comparison to satellite sensors, IFSAR isn’t an ideal monitoring solution. It’s role is to provide accurate baseline information from which REDD programs can be evaluated.

Fugro EarthData published an article about using dual-band IFSAR for carbon accounting in the July issue of PE&RS. It’s a good source of information about remote sensing and climate change monitoring. And, if you want to catch the latest on COP-15, here’s a live web cast of the proceedings.

Next week: COP-15 wrap-up and its implications for remote sensing. Check back then!

Tags: biomass, Carbon accounting, Climate change, COP-15, Copenhagen, dual-band IFSAR, Fugro EarthData, GeoSAR, geospatial, IFSAR, REDD, remote sensing
Posted in Carbon accounting, Climate change | 1 Comment »

Remote Sensing and Climate Change Part 1: Forest Carbon Monitoring in Support of REDD

December 4th, 2009

This week, we are kicking off a blog series on remote sensing and climate change, a timely topic given the upcoming United Nations Climate Change Conference (COP-15) later this month. The first topic of discussion: carbon accounting.

In addition to reducing greenhouse gas emissions, many experts agree that managing the world’s terrestrial carbon is critical to addressing the problem of climate change. Doing so will require first measuring and then monitoring carbon levels found within the world’s trees, soils, and peat. Carbon accounting of tropical forests is deemed especially important since they comprise the world’s largest natural filter of CO2 emissions.

Of course, for developing nations, where the majority of tropical forests reside, these forests provide a major source of economic development. Keeping these forests intact is the goal of the United Nation’s Collaborative Program on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries (REDD).

At the most basic level, REDD seeks to generate a new financing stream for sustainable forest management in developing countries, providing monetary incentives for conservation over development. A plan initiated by British Prime Minister Gordon Brown last weekend may give a jumpstart to this concept.

Looking ahead to COP-15, Brown proposed a £10 billion fund, backed by wealthy nations, to assist developing nations in battling climate change. The funding proposed by Brown would go toward developing low-carbon energy sources, managing the effects of a warming climate, and halting deforestation. As part of this plan, Brown called for an international satellite monitoring system to measure compliance with the program.

And while Brown’s plan provides a step in the right direction when it comes to REDD, it may well oversimplify the solution. Is satellite technology the sole answer? Definitely not. There are a wide range of optical, LiDAR, and IFSAR sensors—airborne, as well as satellite—that offer a variety resolutions and data products to support tropical forest monitoring efforts. Each sensor-type has both benefits and drawbacks, but combined with in situ technologies, can be used to create very accurate maps to meet the goal of improved carbon management.

Next week, we’ll dig into the specifics of those technologies, so be sure to check back then. In the meantime, feel free to continue the conversation. Do you see forest carbon monitoring as an essential role to halting climate change? Have you been involved in any such research? What were the results?

Tags: biomass, Carbon accounting, Climate change, COP-15, Copenhagen, GeoSAR, IFSAR, REDD
Posted in Carbon accounting, Climate change | 3 Comments »

Remote Sensing and Climate Change: Introducing a Three-Part Series

November 20th, 2009

Next month, leaders from 193 countries will meet in Copenhagen to participate in the United Nations Climate Change Conference of Parties (COP-15). There’s a lot of attention on this year’s meeting as participants work to craft an ambitious global climate agreement that will begin in 2012 when the first commitment period under the Kyoto Protocol expires. Whether there is enough support to bring about a binding agreement at COP-15 is doubtful, however. Recent statements from the United States and elsewhere indicate there are still too many questions yet to be resolved. Even so, many see the conference as an ideal place to tackle the issues of “burden sharing” and related concerns so that an agreement can be signed in 2010, if not 2009.

So what has this got to do with a geospatial blog? Quite a lot, actually. A quick visit to the “Methods & Science” section of the UN Conference on Climate Change website shows several areas where remote sensing technologies will play an important role in the developing carbon market. Most notable is REDD, short for “reducing emissions from deforestation and forest degradation in developing countries”. We’ve written about REDD before on this blog, and we’ll be paying more attention to it in the coming weeks as we begin a three-part series on climate change leading up to COP-15.

Topics in our series will include geospatial capabilities for carbon monitoring, with an emphasis on radar; legislation that will impact climate change policy both in the United States and abroad; and the push for REDD approval.

We hope you’ll log on and contribute to the discussion, which will be facilitated by GeoSAR Client Program Manager, Caroline Tyra, our resident expert in all things carbon. If there is a climate change topic not mentioned here, that you’d like us to address, let us know and we’ll be sure to tackle it.

Tags: biomass, Carbon accounting, Climate change, COP-15, Copenhagen, Fugro EarthData, GeoSAR, geospatial, IFSAR, REDD
Posted in Carbon accounting, Climate change, Science | 1 Comment »

Nobel Prizes: A Win for Geospatial

October 16th, 2009

This year’s Nobel Prizes are getting a lot of attention. Who hasn’t yet heard the controversy surrounding President Obama’s award of the Peace Prize? You would have to be on a desert island to miss the continuing coverage.

On the science front, the awards are much more straightforward. The Nobel Prize in Physics was awarded to three men whose work in the 1960s made a huge impact on the geospatial industry today. Dr. Charles Kao won for his pioneering role in fiber optic telecommunications. Without his efforts there would have been no internet boom, no online mapping craze, no words being written and read on this blog.

The other two winners, Mr. Willard Boyle and Mr. George Smith, were honored for their creation of the charged-couple device (CCD) in 1969. This technology became the basis for today’s digital cameras, as well as those very high-tech imaging sensors used on satellites and aircraft to map and monitor the Earth’s surface.

Three cheers for these fine contributions and for the committee’s recognition of their importance. The awards are questionable neither in worthiness nor in timing.

Perhaps radar achievements will be recognized next!

Tags: CCD, GeoSAR, geospatial, IFSAR, mapping, Nobel Prize, physics, radar
Posted in Science | 1 Comment »

Welcome to "The Location Age"

October 1st, 2009

Geospatial isn't just for map geeks anymore. We've got personal navigation devices that dictate driving directions, smart phone apps that are as useful as they are fun, and GPS-equipped dog collars so Fido never gets lost again. Whether conscious of the change or not, consumers in the industrialized countries are now fully entrenched in "The Location Age".

But it's not the same story all over the world. In fact, many developing countries are struggling to update their most basic map inventories. How can this be? Providing answers to this question was a main goal of the recent National Mapping Organizations Industry Forum organized by GIS Development in South Africa. Serving as a prelude to the much larger Map Africa 2009 conference, forum participants were asked to share the vision and objectives of their organization, the challenges they face in realizing this vision, and their thoughts on the role of geospatial technology and the industry in achieving these goals.

Participants cited numerous obstacles to implementing effective programs. Voiced almost unanimously, however, was the misperception among policy makers that geospatial data is a luxury rather than a necessity. This notion is further complicated by a bewildering disconnect about the value of survey and mapping data to infrastructure development. This, despite the billions of investment dollars currently flowing into the region for infrastructure improvements…

These statements are dismal for sure, but many also noted a growing awareness of geographic information slowly penetrating up to higher levels in government. It also appears that some of the new data, software, and training resources available internationally are starting to reach local users. Public outreach will help strengthen this trend, as will sustained partnerships by private companies willing to help with the education effort through technology exchange. Decades-old perceptions don't change overnight, but Fugro, for one, is dedicated to the mission.

It's true: geospatial isn't just for map geeks anymore.

Tags: Fugro EarthData, GeoSAR, GIS Development, Map Africa, The location age
Posted in Partnership, Public outreach, Technology transfer | No Comments »

Beyond Points and Pixels

September 22nd, 2009

As summer winds down and fall ramps up (at least in the Northern Hemisphere), so too does the GeoSAR event calendar. Participating in conferences and workshops across the globe, our client program managers (CPMs) have been globetrotting more than normal lately. But any stress felt by long lines and limited leg space is well tempered by a love for travel. As Roy Hill, a veteran CPM explains it, “It’s only after you’ve actually been to a place—seen its topography and experienced its culture—that you can begin to envision all the potential ways geospatial data can be employed.” Indeed, mapping isn’t a one-size-fits-all solution anymore.

This notion played out last month at the Map Asia conference held in Singapore. There, Roy presented a paper entitled, “Advanced Feature Extraction and Classification Using GeoSAR P-band and X-band DBInSAR”. It’s a new technique with a long list of potential applications, including, resource mapping, intelligence mapping, and biomass estimation. For a government considering new country-level topographic mapping, this capability far out-values the off-the-shelf, points-and-pixels approach to geo-knowledge development.

In fact, it was the biomass potential that made a big impact in the room that day. A gentleman, whose company consults on REDD-based programs, was intrigued to learn of a remote sensing approach to carbon accounting that could overcome the barriers of weather and dense foliage. But it’s not just the single solution that is exciting; it’s the ability to exploit a foundational dataset to develop new revenue streams and answer critical emerging issues. The science has come so far…why not make the most of it?

Tags: biomass, Carbon accounting, GeoSAR, IFSAR, InSAR, Map Asia
Posted in Carbon accounting | No Comments »