Patent ID: 11946921
Assignee: nan
Field: Measurement (Instruments)
Classification: CPC G | IPC G

Claim 9:
10. A system for generating enhanced measurements of an environment for control purposes, the system comprising a processor, wherein:
the processor is configured for receiving environmental response input data at a plurality of times, wherein the environmental response input data comprises data related to a natural environment, an anthropogenic environment, or a combination of a natural environment and an anthropogenic environment and the environmental response input data is selected from the group of:
momentum flux data;
energy flux data;
mass flux data;
particle flux data;
liquid fluid flux data;
magnetic flux data;
electric flux data;
luminous flux data;
diffusion flux data;
volumetric flux data; and
acoustic flux data;

the processor is configured for receiving first environmental driver input data at a plurality of times, wherein;
the first environmental driver input data comprises data related to the natural environment, the anthropogenic environment; or the combination of the natural environment and the anthropogenic environment;
the first environmental driver input data at least partially overlap the environmental response input data in space and time;
the first environmental driver input data is at least partially independent of the environmental response input data;
the first environmental driver input data is selected from the group of:
flux data, wherein the first environmental driver input flux data comprises a flux type that is different from the type of flux corresponding to the environmental response input flux data;
temperature data;
humidity data;
radiation data;
albedo data;
vegetation data;
land cover data;
land use data;
topography data;
geologic data;
wind data;
scalar concentration data;
particle count data; and
particle size distribution data;

the processor is configured for receiving second environmental driver input data from a plurality of locations, wherein:
the second environmental driver input data comprises data related to the natural environment, the anthropogenic environment, or the combination of the natural environment and the anthropogenic environment;
the second environmental driver input data at least partially overlap the environmental response input data in space and time;
the second environmental driver input data is:
at least partially independent of the environmental response input data; and
at least partially independent of the first environmental driver input data;
the second environmental driver input data is selected from the group of:
flux data, wherein the second environmental driver input flux data comprises a flux type that is different from:
the type of flux corresponding to the environmental response input flux data; and
the type of flux corresponding to the first environmental driver input flux data;
temperature data;
humidity data;
radiation data;
albedo data;
vegetation data;
land cover data;
land use data;
topography data;
geologic data;
wind data;
scalar concentration data;
particle count data; and
particle size distribution data;

the processor is configured for combining the environmental response input data, the first environmental driver input data, and the second environmental driver input data into a space and time aligned data table that comprises:
information from the environmental response input data;
information from the first environmental response driver input data; and information from the second environmental response driver input data;

the processor is configured for generating-a driver-response relationship model in response to the space and time aligned data table;
the processor is configured for applying the driver-response relationship model to the first environmental driver data and the second environmental driver data to produce environmental response output data wherein:
the environmental response output data is responsive to the driver response relationship model;
the environmental response output data has been enhanced from the environmental response input data in at least one of the following ways:
the environmental response output data has improved accuracy of a measurement;
the environmental response output data has improved precision of a measurement;
the environmental response output data comprises a greater time resolution;
the environmental response output data comprises a greater space resolution;
the environmental response output data comprises a higher time coverage; and
the environmental response output data comprises a higher spatial coverage; and

the system controls an industrial leak in response to the environmental response output data.