TH116959A - Measuring tool for determining the vegetation index of plants. - Google Patents

Abstract

DC60 (06/02/55) The invention involves a measuring instrument for determining the vegetation index (REIP) of plants. The measuring instrument consists of a number of light-emitting elements, each of which emits light. That is rather a single color at a predetermined wavelength, the light receiving element from which The light-emitting element is reflected by the plant and will generate the respective concentration indication of the received light, and the control path which will continuously stimulate the light-emitting element in a cyclical order, determining the respective concentration. Of reflected light on the basis of the signal output. The light-receiving element, and the vegetation index is calculated on the basis of the given concentration of the overall measurement cycle. According to the fabrication, the light frequency converter is classified as the light-receiving element.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: EDIT 11/07/2019 No disclaimer ---------- Revised 06/11/2018 1. Measurement tool for setting Plant flora index, which includes A number of light-emitting elements, each of which emit a relatively monochromatic light of that wavelength. A predetermined, light-receiving element that receives the light of the light-emitting element reflected by the plant. And will generate a signal indicating the sequence of the received light concentrations, and which consists of a pathway Control which emits light elements continuously in a cyclical order, determines the concentration. The sequence of the reflected light is based on the output signal of the optical component, and the vegetation index is calculated on the basis of the given concentration of the overall measurement cycle. Which has the characteristics that The light receiving element is the light frequency converter. The light-emitting element includes four light-emitting diodes, each emitting a wavelength. Respectively, 670 nm, 700 nm, 740 nm, or 780 nm, and the control trajectory is calculated as the Red Edged Inverted Point (REIP) value as the vegetation index. The following formulas: REIP = (formula) 2+ ((formula) 3 - (formula) 2) ((P1 + P4) / 2 - P2) / (P3 - P2) where P value; To P4, the measured concentrations are determined in the order of the reflected light of The respectively light-emitting diodes and (formula) 2 and (formula) 3 determine the respective wavelengths of the respective light-emitting diodes -----------------------. ----------------------------------- ------ 19/12/2017 ---- - (OCR) Page 1 of 2 Pages. Claims 1. Measuring instrument for determining the vegetation index of plants, including A number of light-emitting elements, each of which emit a relatively monochromatic light of that wavelength. A predetermined, light-receiving element that receives the light of the light-emitting element reflected by the plant. And will generate a signal indicating the sequence of the received light concentrations, and which consists of a pathway Control which emits light elements continuously in a cyclical order, determines the concentration. The sequence of the reflected light is based on the output signal of the optical component, and the vegetation index is calculated on the basis of the given concentration of the overall measurement cycle. Which has special characteristics The light receiving element is the light frequency converter. The light-emitting element includes four light-emitting diodes, each emitting a respective wavelength of 670nm, 700nm, 740nm, or 780nm, and the control path calculates the red-boundary interchange point (REIP) value. Is the plant index value according to The following formulas: REIP = (formula) 2+ ((formula) 3 - (formula) 2) ((P1 + P4) / 2 - P2) / (P3 - P2) where the P value; To P4 determines the measured concentrations of the reflected light of the respective light-emitting diodes, and (formula) 2 and (formula) 3 determine the respective wavelengths of the light-emitting diodes. Article 1, where is the width of the light emitted by The light-emitting elements are between 20 and 30 nm. 3. The instrumentation of claim 1 or 2, which is characterized by a controlled method. Current, which controls the current that is supplied to each light-emitting element, and which is calibrated in such a way that at a specified distance from the white surface that determines each light-emitting element. The elements generate the same output signal in the optical frequency converter 4. Instrumentation of claim 1, which is unique in that the control path takes advantage of the REIP value as a measurement for the nitrogen content of the measured plants. The measure of claim 3, which is unique is that the means of control are paid. The nitrogen content determined respectively to the mobile fertilizer system 6. The measuring instrument of claim 5, where the mobile fertilizer system is a GPS-supported fertilizer system 7. The measuring instrument of claim 5 or 6, where the control route supplies the nitrogen content Assign them in order to the system to move the fluff through the Bluetooth interface. Page 2 of the number 2 pages 8. Measuring tools for determining the vegetation index of plants, including A number of light-emitting elements, each of which emit a relatively monochromatic light of that wavelength. Predetermined, illumination path which emits light of multiple wavelengths, light receiving element It receives the light of the light-emitting element reflected by the plant and will generate a signal for concentration. Respectively of the received light, and which are composed of a control path which drives the light-emitting elements Continuous in cyclical order, the respective concentrations of reflected light are determined on the basis of The output signal of the optical receiving element, and will calculate the vegetation index on the basis of The given intensity of the overall measurement cycle Which has special characteristics The light receiving element is the light frequency converter and the illumination power of the lighting path is controlled by an inversely proportional control path. 9. The measuring instrument according to claim 8, which has a special characteristic is the path of light. Incandescent lamp 1 0. Measuring instrument according to claim 8, which has a peculiarity of the way the light is turned. In such a way that it will illuminate at least one area where the light-emitting diode is turned 1 1. Instrumentation of claim No. 1, which is characterized by a light emitting diode. Next which emits a green light, where the control path determines the ratio of vegetation to the surface area of the soil. By subtracting its measured value from the measured value of a light-emitting diode with a wavelength of 670nm ------------ 1. Measuring tools for determining the Vegetative Index Index (REIP) of plants, which include A number of light-emitting elements (LED1-LED4), each emitting a relatively single color. Of the preset wavelength, the optical-receiving element (L / F), which takes the light of the element Emits light reflected by plants and will generate a signal indicating the sequence of the received light, and which is composed of a control path (MC) which drives the light-emitting elements continuously in a cyclical order, determines Sequential concentration of reflected light on the basis of the output signal of Light receiving element (L / F), and the Vegetative Index (REIP) value will be calculated on the basis of the desired concentration. Determine the overall measurement cycle With the characteristics that The light-receiving element is the optical frequency (L / F) converter. 2. The instrument, according to claim 1, is characterized by the current control path (LED-C) which controls the current applied to each light-emitting element and which is to be examined. It is compared in such a way that at a given distance from the white surface that determines each light-emitting element. The element produces the same output signal on the light frequency (L / R) converter. 3. The measuring instrument according to Claim No. 1 or No. 2, which is unique in that it is an element. Light-emitting, four light-emitting diodes (LED1-LED4), each emitting a wavelength respectively equal to 670 nm (A1), 700 nm (A2), 740 nm (A3) or 780 nm (A4). It was provided with half the width of the desired emitted light to be between 20 and 30 nm. 4. Measuring instrument according to claim 3, which is unique in the way that the control path (MC) calculates the REIF ("red edge intersection point") as an index value of vegetation according to the following formula. : (Chemical formula) where P1 to P4 values are determined by the measured concentrations of the reflected light of Sequential light-emitting diodes (LED1-LED4). 5. Instrumentation according to claim 4, which is unique in the way that the control path (MC) utilizes REIP as a measurement for the nitrogen (N) content of the measured plant. 6. Instrumentation according to claim 5, which is unique in the way that the control path (MC) will supply the determined nitrogen content sequentially to the mobile unit, which is desirable. GPS supported fertilization system (DS), desirable via Bluetooth interface (IO1). 7.The measuring instrument according to any one of Claims 1 to 6, which is unique by Lighting paths (GL, PWM) which emit light of multiple wavelengths, and their luminous power. It is controlled by a control path (MC) inversely proportional to the outer brightness. 8. Instrumentation according to claim 7, which is unique in the way that the path of light Place as an incandescent lamp (GL). 9. The instrument, according to claim 7 or 8, is unique in the way that the lighting path (GL) is turned in such a way that it illuminates at least one area where Light-emitting diodes are turned to 1 0. The instrumentation according to any of claims 3 to 9, is characterized by The next light-emitting diode (LEDG), which emits green light, where the control path (MC) determines the ratio of vegetation to soil surface area by subtracting its measured value from the measured value of Light-emitting diodes with a wavelength of 670 nm.