Land information system: An interoperable framework for high resolution land surface modeling
Land information system: An interoperable framework for high resolution land surface modeling
Knowledge of land surface water, energy, and carbon conditions are of critical importance due to their impact on many real world applications such as agricultural production, water resource management, and flood, weather, and climate prediction. Land Information System (LIS) is a software framework that integrates the use of satellite and ground-based observational data along with advanced land surface models and computing tools to accurately characterize land surface states and fluxes. LIS employs the use of scalable, high performance computing and data management technologies to deal with the computational challenges of high resolution land surface modeling. To make the LIS products transparently available to the end users, LIS includes a number of highly interactive visualization components as well. The LIS components are designed using object-oriented principles, with flexible, adaptable interfaces and modular structures for rapid prototyping and development. In addition, the interoperable features in LIS enable the definition, intercomparison, and validation of land surface modeling standards and the reuse of a high quality land surface modeling and computing system.
Earth system studies, High performance computing, Interoperability, Land surface modeling, Object-oriented frameworks
1402-1415
Kumar, S. V.
c3d461c7-96cb-437d-8f05-0e7334c8fcb6
Peters-Lidard, C. D.
ec52af50-c979-4df9-a8ee-0232a9d79878
Tian, Y.
2055a72a-f579-48b9-a0e6-d59b0682bbd2
Houser, P. R.
67aba422-f8ae-4d1d-a33f-2e6117ee1d54
Geiger, J.
90a67a00-612f-4f46-abb7-02e4c4760b8d
Olden, S.
ffeb6d5a-75f4-4f64-bd36-36c6f6ed90d6
Lighty, L.
b1c193c7-4c0e-4a0c-b68c-f4f16e3b7076
Eastman, J. L.
ca2f728a-8520-44b7-877e-81ee8e2ab029
Doty, B.
2b71f6e3-9c59-474b-9a45-16985bcc156d
Dirmeyer, P.
c187215a-0ef7-4894-91f3-f716975ec31f
Adams, J.
44339ce7-1011-45a9-a17d-48476afcd709
Mitchell, K.
95e389c6-29e2-46d4-b869-eb7f9ff2b49d
Wood, E. F.
8352c1b4-4fd3-42fe-bd23-46619024f1cf
Sheffield, J.
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
12 October 2005
Kumar, S. V.
c3d461c7-96cb-437d-8f05-0e7334c8fcb6
Peters-Lidard, C. D.
ec52af50-c979-4df9-a8ee-0232a9d79878
Tian, Y.
2055a72a-f579-48b9-a0e6-d59b0682bbd2
Houser, P. R.
67aba422-f8ae-4d1d-a33f-2e6117ee1d54
Geiger, J.
90a67a00-612f-4f46-abb7-02e4c4760b8d
Olden, S.
ffeb6d5a-75f4-4f64-bd36-36c6f6ed90d6
Lighty, L.
b1c193c7-4c0e-4a0c-b68c-f4f16e3b7076
Eastman, J. L.
ca2f728a-8520-44b7-877e-81ee8e2ab029
Doty, B.
2b71f6e3-9c59-474b-9a45-16985bcc156d
Dirmeyer, P.
c187215a-0ef7-4894-91f3-f716975ec31f
Adams, J.
44339ce7-1011-45a9-a17d-48476afcd709
Mitchell, K.
95e389c6-29e2-46d4-b869-eb7f9ff2b49d
Wood, E. F.
8352c1b4-4fd3-42fe-bd23-46619024f1cf
Sheffield, J.
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Kumar, S. V., Peters-Lidard, C. D., Tian, Y., Houser, P. R., Geiger, J., Olden, S., Lighty, L., Eastman, J. L., Doty, B., Dirmeyer, P., Adams, J., Mitchell, K., Wood, E. F. and Sheffield, J.
(2005)
Land information system: An interoperable framework for high resolution land surface modeling.
Environmental Modelling and Software, 21 (10), .
(doi:10.1016/j.envsoft.2005.07.004).
Abstract
Knowledge of land surface water, energy, and carbon conditions are of critical importance due to their impact on many real world applications such as agricultural production, water resource management, and flood, weather, and climate prediction. Land Information System (LIS) is a software framework that integrates the use of satellite and ground-based observational data along with advanced land surface models and computing tools to accurately characterize land surface states and fluxes. LIS employs the use of scalable, high performance computing and data management technologies to deal with the computational challenges of high resolution land surface modeling. To make the LIS products transparently available to the end users, LIS includes a number of highly interactive visualization components as well. The LIS components are designed using object-oriented principles, with flexible, adaptable interfaces and modular structures for rapid prototyping and development. In addition, the interoperable features in LIS enable the definition, intercomparison, and validation of land surface modeling standards and the reuse of a high quality land surface modeling and computing system.
This record has no associated files available for download.
More information
Accepted/In Press date: 1 July 2005
Published date: 12 October 2005
Additional Information:
Funding Information:
LIS is a Grand Challenge Investigation funded under NASA ESTO/CT CAN-00-OES-01 (Co-PI's Houser and Peters-Lidard), with additional support from NASA ESTO/AIST NRA-02-OES-04 (PI Peters-Lidard).
Keywords:
Earth system studies, High performance computing, Interoperability, Land surface modeling, Object-oriented frameworks
Identifiers
Local EPrints ID: 480930
URI: http://eprints.soton.ac.uk/id/eprint/480930
ISSN: 1364-8152
PURE UUID: 1951ffd8-a6ec-460d-b80c-e65475392a0a
Catalogue record
Date deposited: 10 Aug 2023 16:59
Last modified: 18 Mar 2024 03:37
Export record
Altmetrics
Contributors
Author:
S. V. Kumar
Author:
C. D. Peters-Lidard
Author:
Y. Tian
Author:
P. R. Houser
Author:
J. Geiger
Author:
S. Olden
Author:
L. Lighty
Author:
J. L. Eastman
Author:
B. Doty
Author:
P. Dirmeyer
Author:
J. Adams
Author:
K. Mitchell
Author:
E. F. Wood
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics