The global Human — Earth System framework we propose,
and represent schematically in Fig. 6, combines not only
data collection, analysis techniques, and Dynamic Modeling, but also Data Assimilation, to bidirectionally couple an ESM containing subsystems for Global Atmosphere, Land (including both Land — Vegetation and Land - Use models) and Ocean and Ice, to a Human System Model with subsystems for Population Demographics, Water, Energy, Agriculture, Industry, Construction, and Transportat
data collection,
analysis techniques,
and Dynamic Modeling, but also
Data Assimilation, to bidirectionally couple an ESM containing subsystems for Global Atmosphere, Land (including both Land — Vegetation and Land - Use models) and Ocean and Ice, to a Human System Model with subsystems for Population Demographics, Water, Energy, Agriculture, Industry, Construction, and Transportat
Data Assimilation, to bidirectionally couple an ESM containing subsystems for Global Atmosphere, Land (including both Land — Vegetation
and Land - Use models)
and Ocean
and Ice, to a Human System Model with subsystems for Population Demographics, Water,
Energy, Agriculture, Industry, Construction,
and Transportation.
The solution TeCom offered was its InterLane system, an Internet - ready
energy information program that provides everything from single - site
data collection to multi-site aggregation, alarming
and analysis.