Plant treatment based on a water invariant chlorophyll index
First Claim
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1. A method of treating plants, comprising:
- measuring optical properties of a plant using at last three spectral bands;
calculating in a computational device at least two difference vegetative indexes using the optical properties, each of the at least two vegetative indexes correlating to one or more plant growth parameters;
calculating in the computational device a water invariant chlorophyll index from the at least two difference vegetative indexes using the at least three spectral bands; and
treating one or more of the plants based on the water invariant chlorophyll index;
wherein the water invariant chlorophyll index comprises a ratio of two of the difference vegetative indexes each using the at least three spectral bands and wherein the difference vegetative indexes and the at least three spectral bands are selected to minimize effect of water stress when making a chlorophyll type measurement.
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Abstract
A method and system of treating plants is provided. The method includes measuring optical properties of a plant using a plurality of spectral bands. The method further includes calculating in a computational device at least two vegetative indexes using the optical properties, each of the at least two vegetative indexes correlating to one or more plant growth parameters. The method further includes calculating in the computational device a water invariant chlorophyll index from at least two vegetative indexes using the plurality of spectral bands. The also provides for treating one or more of the plants based on the water invariant chlorophyll index.
36 Citations
18 Claims
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1. A method of treating plants, comprising:
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measuring optical properties of a plant using at last three spectral bands; calculating in a computational device at least two difference vegetative indexes using the optical properties, each of the at least two vegetative indexes correlating to one or more plant growth parameters; calculating in the computational device a water invariant chlorophyll index from the at least two difference vegetative indexes using the at least three spectral bands; and treating one or more of the plants based on the water invariant chlorophyll index; wherein the water invariant chlorophyll index comprises a ratio of two of the difference vegetative indexes each using the at least three spectral bands and wherein the difference vegetative indexes and the at least three spectral bands are selected to minimize effect of water stress when making a chlorophyll type measurement. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of treating plants, comprising:
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measuring optical properties of one or more plants across three or more spectral bands; calculating in a computational device at least two difference vegetative indexes using the optical properties, each of the at least two difference vegetative indexes correlating to one or more plant growth parameters; calculating in the computational device a water invariant chlorophyll index from the at least two difference vegetative indexes using the three or more spectral bands; and treating the plants based on the water invariant chlorophyll index; wherein the water invariant chlorophyll index comprises a ratio of two of the difference vegetative indexes each using the three or more spectral bands and wherein the difference vegetative indexes and the three or mere spectral bands are selected to minimize effect of water stress when making a chlorophyll type measurement. - View Dependent Claims (8, 9)
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10. A system for treating plants, comprising:
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an optical sensing system configured to measure optical properties of one or more plants across three or more spectral bands; an applicator for selectively applying treatment to the plants; a controller operatively connected to the optical sensing system and the applicator and configured to (a) calculate at least two difference vegetative indexes using the optical properties, each of the at least two difference vegetative indexes correlating to one or more plant growth parameters, (b) calculate a water invariant chlorophyll index from at least two difference vegetative indexes using the three or more spectral bands, and (c) control the applicator to provide for selectively applying treatment to the plants based on the water invariant chlorophyll index; wherein the optical sensing system comprises a light sensor for measuring the reflectance of an object, comprising;
(a) a polychromatic light source simultaneously emitting visible light and infrared light with a modulator of the light source, and apparatus to set and monitor optical power of the light source; and
(b) a reflected light receiver comprised of an array of photodetectors comprised of at least one photodetector sensitive to visible light positioned to receive reflected light originating from the light source and including ambient light compensation means for reducing the effects of ambient light on the photodetector and a first output, and at least one photodetector sensitive to nonvisible light positioned to receive reflected light originating from said light source and including an ambient light compensator for reducing the effects of ambient light on said second photodetector and a second output;wherein the water invariant chlorophyll index comprises a ratio of two of the difference vegetative indexes each using the three or more spectral bands and wherein the difference vegetative indexes and the three or more spectral bands are selected to minimize effect of water stress when making a chlorophyll type measurement.
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11. A system for treating plants, comprising:
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an optical sensing system configured to measure optical properties of one or more plants across a three or more spectral bands; an applicator for selectively applying treatment to the plants; a controller operatively connected to the optical sensing system and the applicator and configured to control the application of the treatment based on properties of the one or more plants determined from the optical properties, and a plurality of indexes that relate the properties of the one or more plants to the optical properties; wherein the plurality of indexes include at least one index selected based on leaf area; wherein the plurality of indexes include at least one water invariant chlorophyll index; wherein the water invariant chlorophyll index comprises a ratio of two difference vegetative indexes each using three or more spectral bands and wherein the difference vegetative indexes and the three or more spectral bands are selected to minimize effect of water stress when making a chlorophyll type measurement. - View Dependent Claims (12, 13)
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14. A method of treating plants, comprising:
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measuring optical properties of a plant using a plurality of spectral bands; calculating in a computational device at least two vegetative indexes using the optical properties, each of the at least two vegetative indexes correlating to one or more plant growth parameters, wherein a first of the vegetative indexes is used for low leaf area index and a second of the vegetative indexes is used for a high leaf area index and wherein at least one of the vegetative indexes is a water invariant chlorophyll index; wherein the water invariant chlorophyll index comprises a ratio of two difference vegetative indexes each using a minimum of three spectral bands and selected to minimize effect of water stress when making a chlorophyll type measurement. - View Dependent Claims (15, 16, 17, 18)
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Specification