Managing application of agrochemicals to plants
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-022/00
G06F-007/70
G01V-003/00
G01V-003/38
G06K-009/00
출원번호
US-0353560
(2009-01-14)
등록번호
US-8260507
(2012-09-04)
발명자
/ 주소
Schumann, Arnold Walter
Hostler, Howard Kevin
출원인 / 주소
University of Florida Research Foundation, Inc.
대리인 / 주소
Fleit Gibbons Gutman Bongini & Bianco PL
인용정보
피인용 횟수 :
2인용 특허 :
11
초록▼
A method, information processing system, and computer program storage product apply agrochemicals to plants. A set of user defineable agrochemical application parameters are wirelessly received from a user. A set of data is received from a multiplicity of plant sensors. The set of data includes at l
A method, information processing system, and computer program storage product apply agrochemicals to plants. A set of user defineable agrochemical application parameters are wirelessly received from a user. A set of data is received from a multiplicity of plant sensors. The set of data includes at least positional data associated with a multiplicity of plants with respect to a set of agrochemical applicators. At least speed data associated with a vehicle coupled to the set of agrochemical applicators is received. The set of agrochemical applicators is instructed to apply one or more agrochemicals to at least one plant in the multiplicity of plants based at least on the set of user defineable agrochemical application parameters that has been wirelessly received, the set of data from a multiplicity of plant sensors, and the speed data. The set of agrochemical applicators apply the one or more agrochemicals to at least one plant.
대표청구항▼
1. A method for applying agrochemicals to plants, the method comprising: wirelessly receiving from a user a set of user definable agrochemical application parameters;receiving a set of data from a plurality of plant sensors, wherein the set of data includes at least positional data associated with a
1. A method for applying agrochemicals to plants, the method comprising: wirelessly receiving from a user a set of user definable agrochemical application parameters;receiving a set of data from a plurality of plant sensors, wherein the set of data includes at least positional data associated with a plurality of plants with respect to a set of agrochemical applicators;receiving at least speed data associated with a vehicle coupled to the set of agrochemical applicators;instructing the set of agrochemical applicators to apply one or more agrochemicals to at least one plant in the plurality of plants based at least on the set of user definable agrochemical application parameters that has been wirelessly received, the set of data from a plurality of plant sensors, and the speed data; andapplying, by the set of agrochemical applicators, the one or more agrochemicals to at least one plant in response to the instructing. 2. The method of claim 1, wherein the set of user definable agrochemical application parameters is wirelessly received from a wireless handheld unit. 3. The method of claim 1, further comprising: disposing the plurality of plant sensors on a portion of the vehicle such that the plurality of plant sensors detect the plurality of plants prior to an applicator vehicle passing the plurality of plants, and wherein disposing the plurality of plant sensors on the portion of the vehicle allows multiple sensors in the set of agrochemical applicators to be controlled by a common variable rate application system. 4. The method of claim 1, wherein the set of user definable agrochemical application parameters include: a set of sensor-to-discharge parameters indicating a distance from at least one sensor in the plurality of plant sensors to at least one agrochemical applicator in the set of agrochemical applicators. 5. The method of claim 1, wherein the set of user definable agrochemical application parameters include: a set of applicator delay compensation parameters indicating a given amount of time to instruct the set of agrochemical applicators to apply the one or more agrochemicals to the at least one plant prior to the set of agrochemical applicators reaching the at least one plant. 6. The method of claim 1, wherein the set of user definable agrochemical application parameters include: a set of buffer distances indicating a given distance at least one of before and after at least one plant that the set of agrochemical applicators is to at least one of start and stop applying the at least one agrochemical to the at least one plant. 7. The method of claim 6, wherein the set of buffer distances are based on current environmental conditions. 8. The method of claim 1, further comprising: storing the set of data received from the plurality of plant sensors in a buffer array. 9. The method of claim 8, further comprising: determining an index associated with the buffer array based at least on the set of user definable agrochemical application parameters that has been wirelessly received, the set of data from a plurality of plant sensors, and the speed data. 10. The method of claim 9, further comprising: identifying sensor data within the buffer array to use for instructing the set of agrochemical applicators to apply the one or more agrochemicals to the at least one plant based on the index that has been determined. 11. A system for applying agrochemicals to plants, the system comprising: at least one vehicle;a plurality of plant sensors mechanically coupled to the vehicle;a set of vehicle sensors mechanically coupled to the vehicle;a plurality of agrochemical applicators mechanically coupled to the vehicle and communicatively coupled to the plurality of plant sensors, wherein at least two applicators in the plurality of agrochemical applicators are controllable and configurable independent of each other; andan applicator manager communicatively coupled to the plurality of plant sensors and the plurality of agrochemical applicators, wherein the applicator manager is configured to: wirelessly receive from a user a set of user definable agrochemical application parameters;receive a set of data from the plurality of plant sensors, wherein the set of data includes at least positional data associated with a plurality of plants with respect to a set of agrochemical applicators in the plurality of agrochemical applicators, and wherein the set of data further includes at least an indication of a beginning and an end of each plant in the plurality of plants;receive at least speed data associated with the vehicle from the set of vehicle sensors;storing the set of data received from the plurality of plant sensors in a buffer array;determining an index associated with the buffer array based at least on the set of user definable agrochemical application parameters that has been wirelessly received, the set of data from the plurality of plant sensors, and the speed data;identifying a set of sensor data within the buffer array associated with the index;identifying at least one agrochemical applicator in the plurality of agrochemical applicators that is associated with the set of sensor data that has been identified;calculating a time delay for instructing the at least one agrochemical applicator that has been identified to apply one or more agrochemicals to at least one plant in the plurality of plants that corresponds to the set of sensor data that has been identified; andapplying, by the at least one agrochemical applicator, the one or more agrochemicals to the at least one plant based on the time delay. 12. The system of claim 11, wherein the set of user definable agrochemical application parameters is wirelessly received from a wireless handheld unit. 13. The system of claim 11, wherein the plurality of plant sensors are disposed on a front portion of the vehicle such that the plurality of plant sensors detect the plurality of plants prior to an applicator vehicle comprising the plurality of agrochemical applicators passing the plurality of plants and wherein disposing the plurality of plant sensors on the portion of the vehicle allows multiple sensors in the set of agrochemical applicators to be controlled by a common variable rate application system. 14. The system of claim 11, wherein the set of user definable agrochemical application parameters include: a set of sensor-to-discharge parameters indicating a distance from at least one sensor in the plurality of plant sensors to at least one agrochemical applicator in the set of agrochemical applicators. 15. The system of claim 11, wherein the set of user definable agrochemical application parameters include: a set of applicator delay compensation parameters indicating a given amount of time to instruct the set of agrochemical applicators to apply the one or more agrochemicals to the at least one plant prior to the set of agrochemical applicators reaching the at least one plant. 16. The system of claim 11, wherein the set of user definable agrochemical application parameters include: a set of buffer distances indicating a given distance at least one of before and after at least one plant that the set of agrochemical applicators is to at least one of start and stop applying the at least one agrochemical to the at least one plant. 17. A non-transitory computer program storage product for applying agrochemicals to plants, the computer program storage product comprising instructions for wirelessly receiving from a user and storing a set of user definable agrochemical application parameters;receiving a set of data from a plurality of plant sensors, wherein the set of data includes at least positional data associated with a plurality of plants with respect to a set of agrochemical applicators, and wherein the set of data further includes at least an indication of a beginning and an end of each plant in the plurality of plants;receiving at least speed data associated with a vehicle coupled to the set of agrochemical applicators;instructing the set of agrochemical applicators to apply one or more agrochemicals to at least one plant in the plurality of plants based at least on the set of user definable agrochemical application parameters that has been wirelessly received, the set of data from a plurality of plant sensors, and the speed data; andapplying, by the set of agrochemical applicators, the one or more agrochemicals to at least one plant in response to the instructing. 18. The non-transitory computer program storage product of claim 17, wherein the set of user definable agrochemical application parameters is wirelessly received from a wireless handheld unit. 19. The non-transitory computer program storage product of claim 17, wherein the set of user definable agrochemical application parameters include: a set of sensor-to-discharge parameters indicating a distance from at least one sensor in the plurality of plant sensors to at least one agrochemical applicator in the set of agrochemical applicators. 20. The non-transitory computer program storage product of claim 17, wherein the set of user definable agrochemical application parameters include at least one of: a set of applicator delay compensation parameters indicating a given amount of time to instruct the set of agrochemical applicators to apply the one or more agrochemicals to the at least one plant prior to the set of agrochemical applicators reaching the at least one plant; anda set of buffer distances indicating a given distance at least one of before and after at least one plant that the set of agrochemical applicators is to at least one of start and stop applying the at least one agrochemical to the at least one plant.
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