System and method for preparing an aerial hydrological-assay for golf courses
First Claim
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1. A system for performing an aerial hydrological-assay of a selected topographical site which comprises:
- an Unmanned Aerial System (UAS) for flying a survey mission along a customized route over the selected topographical site in accordance with a predetermined flight plan;
an imaging unit mounted on the UAS for imaging a surface area of the topographical site, to generate image data for the surface area, wherein the image data is selected from the group consisting of a continuous sequence of overlapping, still photographic images and an orthomosaic;
a memory card connected to the imaging unit onboard the UAS for recording and storing the image data collected during the survey mission;
at least one soil moisture sensor selectively positioned at a predetermined location within the topographical site to collect moisture data for the surface area; and
a computer for combining the image data from the memory card with the moisture data from the soil moisture sensor to create an assay report including hydrological conditions on the surface area of the topographical site, wherein the assay report is used to establish a long-term, water conservation program for the topographical site.
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Abstract
Systems and methods for performing an aerial hydrological-assay of a topographical site require the use of an Unmanned Aerial System (UAS) for collecting image data of the site. Included in a system for the present invention is a ground-based soil moisture sensor for collecting moisture data at the site. A computer is then used to combine the image data and the moisture data to create an assay report on hydrological conditions at the site. The assay report is used to implement a water conservation plan for the topographical site which efficiently and efficaciously controls water usage at the site.
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Citations
16 Claims
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1. A system for performing an aerial hydrological-assay of a selected topographical site which comprises:
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an Unmanned Aerial System (UAS) for flying a survey mission along a customized route over the selected topographical site in accordance with a predetermined flight plan; an imaging unit mounted on the UAS for imaging a surface area of the topographical site, to generate image data for the surface area, wherein the image data is selected from the group consisting of a continuous sequence of overlapping, still photographic images and an orthomosaic; a memory card connected to the imaging unit onboard the UAS for recording and storing the image data collected during the survey mission; at least one soil moisture sensor selectively positioned at a predetermined location within the topographical site to collect moisture data for the surface area; and a computer for combining the image data from the memory card with the moisture data from the soil moisture sensor to create an assay report including hydrological conditions on the surface area of the topographical site, wherein the assay report is used to establish a long-term, water conservation program for the topographical site. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for performing an aerial hydrological-assay of a selected topographical site which comprises:
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a means for flying an Unmanned Aerial System (UAS) on a survey mission over the selected topographical site in accordance with a predetermined flight plan; an imaging unit for generating image data during the survey mission for a surface area of the topographical site, wherein the imaging unit is mounted on the UAS and includes a memory card for recording and storing the image data collected during the survey mission and wherein the imaging unit includes a first camera for collecting visible Red-Green-Blue (RGB) images, and a second camera for collecting Near Infrared (NIR) images, wherein the RGB images and the NIR images are combined and engineered to create Normalized Difference Vegetation Index (NDVI) images for the image data; at least one soil moisture sensor for collecting moisture data from the surface area wherein the moisture sensor is selectively positioned at locations within the topographical site to collect and record moisture data for the surface area; and a means for creating an assay report, wherein the creating means uses the image data from the memory card and the moisture data to describe hydrological conditions on the surface area of the topographical site, and wherein the assay report is used to establish a long-term, water conservation program for the topographical site. - View Dependent Claims (12, 13, 14)
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15. A method for performing an aerial hydrological-assay of a selected topographical site for use in implementing a water conservation program which comprises the steps of:
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using a soil moisture sensor at locations on a surface area within the topographical site to collect moisture data; providing an Unmanned Aerial System (UAS) for flying a survey mission in accordance with a predetermined flight plan, within a specified flight envelope; mounting an imaging unit on the UAS for imaging a surface area of the topographical site; connecting a memory card to the imaging unit for recording and storing images collected by the imaging unit during the survey mission; flying the UAS over the selected topographical site to perform the survey mission; generating image data for the topographical site during the survey mission, wherein the image data includes a photographic image of the surface area taken by the imaging unit and stored on the memory card; disconnecting the memory card from the imaging unit; downloading the image data from the memory card and the moisture data onto a computer, wherein the computer creates an assay report of hydrological conditions on the surface area of the topographical site; printing the assay report for use in establishing a long-term, water conservation program for the topographical site; collecting visible Red-Green-Blue (RGB) images and Near Infrared (NIR) images using the imaging unit; combining the RGB images and the NIR images to create Normalized Difference Vegetation Index (NDVI) images, wherein the NDVI images include soil moisture percentage readings for the image data; presenting a composite of the NDVI images as a plan view of the topographical site; and engineering the plan view image of the topographical site to identify portions of the surface area containing excess water. - View Dependent Claims (16)
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Specification