inbul 2004 
th R. Kirk 
lable from 
DIGITAL EARTH VISUALIZATION AND WEB-INTERFACE CAPABILITIES 
UTILIZING 3-D GEOBROWSER TECHNOLOGY 
T. W. Foresman 
International Center for Remote Sensing Education, P.O. Box 18285, Baltimore, Maryland 21227 USA — foresman(@direcway.com 
  
KEY WORDS: Three-dimensional, Visualization, Virtual Reality, Global-Environment-Databases, Archiving, Rendering, Web 
based, GIS 
ABSTRACT: 
Since the early days of the first Earth monitoring satellite launches, the ability to distribute these important data resources to the 
world community has been especially challenging. This chronic shortcoming of the remote sensing community is increasingly 
viewed as a tragic situation for those addressing the rapid decline in ecosystem goods and services around the globe. Under CEOS 
and the new ad hoc GEO community, a host of organizational and architectural constructs are being addressed; however, the 
unwieldy nature of large intergovernmental organizations prohibits effective implementation scenarios that require environments 
where rapid and innovative technological implementation can be pursued. 3-D Geobrowsers, an important enabling technology 
originally identified with the Digital Earth community, are rapidly proving their value in the access and distribution of remote 
sensing and GIS information. Developments of network spans, as proof-of-concept, are beginning to be implemented within the 
global network. Priority remote sensing based applications using the Geobrowser technologies will begin to foster collaboration or 
alliances, and critical alignment with the leading intergovernmental bodies will become paramount to manifest the promise of global 
observation systems and the goals of the Millennium Declaration. An international Digital Earth group of technology developers has 
been collaborating through a series of workshops on the fulfillment of 3-D Geobrowser for operational implementation towards the 
ubiquitous and free access and web-based distribution technology for all nations and their citizens. 
1. INTRODUCTION The USGS EROS Data Center was created along side the 
Landsat satellite program to meet the archiving challenges of 
1.1 A Community with Potential Landsat data. While providing the basic archiving functions 
and the operating ‘protocols (which have witnessed many 
A community that arose from the US NASA's now defunct changes over the years under different administrations) the 
Digital Earth initiative has been achieving steady advances in EROS Data Center has not been able to provide global satellite 
the development of highly intuitive and engaging three- coverage to the nations of the world. Instead, as a result of 
dimensional visualization | graphic-user-interfaces (GUIs), shifting government priorities and policy conflicts as 
commonly referred to as 3-D Geobrowsers. This loose commercialization and new sensor systems have been 
confederation of like-minded developers has as a common goal launched, a patchwork of coverage and depth of coverage has 
the implementation of web-based browsers that will directly emerged. By the end of the 20" century government scientists 
access vast archives of global environmental databases were exploring ways to address these obvious shortcomings 
(including both GIS and remote sensing) and render these and to incorporate, if possible, international strategies to align 
information resources through Earth-based virtual reality the suite of sensor systems to create a truly international global 
Software tool kits. Under the nascent mantel of the observing system. 
International Society for Digital Earth, multinational members 
of the development community have been negotiating on the 1.3 Intergovernmental Systems 
operational principles of 3-D  Geobrowsers from the 
perspectives of a broad user community and the Under the leadership of CEOS a litany of thematic target 
interoperability protocols of the growing global geo-spatial sensor observation systems have become part of a continuing 
infrastructure. — This paper provides an overview of the agenda (e.g., IGOS, ITOS, et cetera (CEOS, 2004)). While 
advances in 3-D Geobrowsers, leading members in the progress can be demonstrated in the deliberations of the rolling 
development community, the global design considerations for agenda, operations and applications remain restricted to the 
implementation, and the major challenges facing ubiquitous domains of large government, industry, or academic centers. 
operations via the internet. Motivated in part by the Millennium Declaration and the series 
of "findings" from the 1992 World Summit for Sustainable 
1.2 US Satellite Archives Development, a new initiative was announced at last July's 
Earth Observation Summit. The ad hoc intergovernmental 
With the launch of ERTS 1 (subsequently renamed Landsat 1) Group on Earth Observations (GEO) was launched to develop 
in July of 1972, a new era dawned on the community of a 10-year implementation plan to address the need for timely, 
nations with the unprecedented synoptic and regular collection high-quality, long-term, global information as a basis for 
of remotely sensed land surface data. Over thirty years ago, sound decision making and to enable the continuous 
government agencies, industry, and academia began monitoring of the state of the Earth, to increase understanding 
addressing the challenges presented by the Landsat series for of dynamic Earth processes, to enhance prediction of the Earth 
collecting, processing, archiving, and distributing these system, and to further implement environmental treaty 
unparalleled data sets for applications on mapping, monitoring, obligations. The plan will be presented at the third Earth 
and modeling the Earth’s surface and life support systems. Observation Summit in February of 2005 (GEO, 2004). Based 
885