Highly automated agricultural production system
First Claim
1. A computerized system for the production of agricultural products in an agricultural area which comprises a plurality of homogeneous agricultural areas, said system comprising:
- a. sensing means for sensing a plurality of desired parameters in said plurality of homogeneous agricultural areas, which parameters are necessary to achieve desired agricultural product growth, and for generating sensor data output representative of said parameters;
b. a plurality of different controlled means operative in response to selectively applied control signals for producing desired changes in said parameters;
c. computing means for comparing said sensor data output to pre-established standards for said plurality of parameters in said agricultural areas, said computing means being programmed to generate said control signals as a result of the comparison of said sensor data output and said pre-established standards both directly and in relation to the sensed inter-relationship of such comparisons from others of said parameters and to optimize said control signals; and
d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising means for coding and multiplexing sensor data output from a plurality of said sensing means onto a single data transmission channel and means for coding and multiplexing control signals for a plurality of said controlled means onto a single data transmission channel.
0 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides a highly automated agricultural production system which comprises, as essential components:
1. A sensing subsystem comprising direct and indirect sensing means in an agricultural production area. The direct sensing means are generally ground or plant mounted. The indirect sensing means are remote from the area being sensed. The direct and indirect sensing means are adapted to jointly generate data on all important parameters in the homogeneous agricultural production area;
2. A data transmitting subsystem for forwarding data generated by the direct and indirect sensing means to computing means and for transmitting instructions from the computing means via interfacing means (controllers) to various devices (field effectors) in the agricultural area to perform various functions;
3. A computing subsystem linked by way of said data transmitting subsystem to said indirect and direct sensing means in a pattern of many feedback loops. The computing means is programmed to enable correlation of data received from the indirect and direct sensing means and to generate appropriate instructions to accomplish a substantive number of functions required for the operation of the automated agricultural production system of the present invention as will be later described in detail, including, but not limited to, the control of the following subsystems.
4. A fluid delivery subsystem which provides:
Means for delivering water, chemicals in liquid or gaseous form, air, and the like to various parts of the agricultural production area; and
Means for providing power to various peripheral devices which utilize the power of moving liquid and/or gases-for example, a water powered (hydromotor) platform.
5. A field operations subsystem which, in a highly preferred embodiment, comprises means to harvest agricultural products, convey the agricultural products, grade the agricultural products, store the agricultural products, and pack the agricultural products. In addition to the above means which are essentially concerned with presenting the agricultural products in a form amenable for marketing, additionally means are provided for plant care, e.g., pruning, thinning and the like.
A field operations subsystem which accomplishes the functions of fruit harvesting, fruit conveying, fruit grading and fruit storage which, in a most preferred embodiment of the present invention, accomplishes the above functions utilizing fluid received from the fluid delivery subsystem of the present invention. It is also highly preferred that such fluid powered means be utilized in the agricultural system of the present invention for tree care, e.g., pruning of trees, thinning of trees and the like.
The field operations can be accomplished, if desired, utilizing a vehicle which is powered by fluid, typically water, derived from the fluid delivery subsystem of the present invention by means of a water-to-mechanical torque converter (hereafter often called a hydromotor platform).
-
Citations
88 Claims
-
1. A computerized system for the production of agricultural products in an agricultural area which comprises a plurality of homogeneous agricultural areas, said system comprising:
-
a. sensing means for sensing a plurality of desired parameters in said plurality of homogeneous agricultural areas, which parameters are necessary to achieve desired agricultural product growth, and for generating sensor data output representative of said parameters; b. a plurality of different controlled means operative in response to selectively applied control signals for producing desired changes in said parameters; c. computing means for comparing said sensor data output to pre-established standards for said plurality of parameters in said agricultural areas, said computing means being programmed to generate said control signals as a result of the comparison of said sensor data output and said pre-established standards both directly and in relation to the sensed inter-relationship of such comparisons from others of said parameters and to optimize said control signals; and d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising means for coding and multiplexing sensor data output from a plurality of said sensing means onto a single data transmission channel and means for coding and multiplexing control signals for a plurality of said controlled means onto a single data transmission channel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
-
-
26. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter, said sensing means including both direct sensing means in said at least one homogeneous agricultural area for directly measuring said one parameter, and indirect sensing means located at a point remote from said homogeneous agricultural area for detecting and measuring radiation from said homogeneous agricultural area as an indirect measurement of said one parameter; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means; e. fluid delivery means in said agricultural area and connected to said computing means by said data transmission means for conveying fluid to said homogeneous agricultural area under the control of said computing means; and f. field operation means controlled by said computing means to accomplish at least the harvesting of said agricultural product. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60)
-
-
61. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter, said sensing means including both direct sensing means in said at least one homogeneous agricultural area for directly measuring said one parameter, and indirect sensing means located at a point remote from said homogeneous agricultural area for detecting and measuring radiation from said homogeneous agricultural area as an indirect measurement of said one parameter; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means; and e. fluid delivery means in said agricultural area and connected to said computing means by said data transmission means for conveying fluid to said homogeneous agricultural area under the control of said computing means, said data transmission means and said fluid delivery means being housed in a common conduit in contiguous but separated relationship. - View Dependent Claims (62)
-
-
63. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter, said sensing means including both direct sensing means in said at least one homogeneous agricultural area for directly measuring said one parameter, and indirect sensing means located at a point remote from said homogeneous agricultural area for detecting and measuring radiation from said homogeneous agricultural area as an indirect measurement of said one parameter, said direct sensing means comprising two carbon dioxide sensors at different elevations in at least one homogeneous agricultural area; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means; e. a source of carbon dioxide; and f. fluid delivery means in said agricultural area and connected to said computing means by said data transmission means for conveying fluid to said homogeneous agricultural area under the control of said computing means, said fluid delivery means comprising a conduit network throughout said agricultural area and fluid ejection means, said fluid delivery means being in communication with said source of carbon dioxide and being adapted to receive, convey, and dispense carbon dioxide from said source. - View Dependent Claims (64, 65, 66)
-
-
67. Agricultural product storage means comprising:
-
means to receive an agricultural product and convey the same to the entrance of an agricultural product storage zone, which entrance is underwater and which entrance is disposed lower than the exit of said agricultural product storage zone; an agricultural product storage zone comprising a substantially vertically oriented enclosed area for the storage of agricultural product, which area has an entrance and an exit, which entrance is underwater and disposed lower than said exit, said enclosed area also being underwater; and agricultural product removal means in fluid communication with said exit.
-
-
68. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter, said sensing means including both direct sensing means in said at least one homogeneous agricultural area for directly measuring said one parameter and indirect sensing means located at a point remote from said homogeneous agricultural area for detecting and measuring radiation from said homogeneous agricultural area as an indirect measurement of said one parameter;
said indirect sensing means including a network of television cameras;b. television monitoring means and video recording means connected to said network of television cameras by data transmission means to be recited; c. controlled means operative in response to a control signal for producing a desired change in said one parameter; d. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; and e. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means. - View Dependent Claims (69, 70, 71, 72, 73, 74, 75, 76, 77, 78)
-
-
79. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representive of said at least one parameter, said sensing means and controlled means to be recited comprising a field package; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising a pair of conductors for two-directional transmission; e. code detecting means associated with each of said sensing means and said controlled means and responsive to coded signals on said pair of conductors for connecting said sensing means and said controlled means to said computing means; and f. fluid delivery means in said agricultural area and connected to said computing means by said data transmission means for conveying fluid to said controlled means under the control of said computing means, said data transmission means being congruent with said fluid delivery means. - View Dependent Claims (80, 81)
-
-
82. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representtive of said at least one parameter; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising a pair of conductors for two-directional transmission; e. code detecting means associated with each of said sensing means and said controlled means and responsive to coded signals on said pair of conductors for connecting said sensing means and said controlled means to said computing means; f. address sending means controlled by said computing means and connected to said data transmission means for sending a binary signal to said code detecting means; and g. signal receiver means connected to said data transmission means for detecting a pulse amplitude modulated signal from said sensing means. - View Dependent Claims (83)
-
-
84. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; and d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising; i. a matrix of conductors in said agricultural area, said sensing means and said controlled means being located at intersections of conductors in said matrix and being responsive to the simultaneous ocurrence of at least two signals at an intersection for activation, and ii. a further single data conductor connected to all of said sensing means and to said computer, whereby only that sensing means which is addressed by said at least two signals in said matrix is connected to said computing means by said further single data conductor.
-
-
85. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing at least one desired parameter in said homogeneous agricultural area, which parameter is necessary to achieve desired agricultural product growth, and for generating a sensor data output representative of said at least one parameter; b. controlled means operative in response to a control signal for producing a desired change in said one parameter; c. computing means for comparing said sensor data output to at least one pre-established standard for said parameter in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means and for receiving said control signal from said computing means and transmitting said control signal to said controlled means, said data transmission means comprising a matrix of conductors comprising row conductors and column conductors in said agricultural area, said sensing means and said controlled means being located at intersections of conductors in said matrix and being responsive to the simultaneous occurrence of at least two signals at an intersection for activation; e. row selector means connected to said row conductors and controlled by said computing means to select a single one of said row conductors; f. column selector means connected to said column conductors and controlled by said computing means to select a single one of said column conductors; and g. function selector means connected to said column selector means and controlled by said computing means to control the function of a selected controlled means. - View Dependent Claims (86, 87)
-
-
88. A computerized system for the production of agricultural products in an agricultural area which comprises at least one homogeneous agricultural area, said system comprising:
-
a. sensing means for sensing soil moisture in said homogeneous agricultural area and for generating a sensor data output representative of said soil moisture; b. an irrigation system operative in response to a control signal for producing a desired change in said soil moisture, said irrigation system including means for storing water; c. computing means for comparing said sensor data output to at least one pre-established standard for soil moisture in said agricultural area, said computing means being programmed to generate said control signal as a result of the comparison of said sensor data output and said pre-established standard; d. data transmission means connecting said sensing means and said controlled means to said computing means for receiving said sensor data output from said sensing means and transmitting said sensor data output to said computing means, and for receiving said control signal from said computing means and transmitting said control signal to said controlled means; e. means for measuring the amount of water in said means for storing water and supplying a signal proportional thereto to said computing means; and f. means for supplying weather forecast data in the form of signals proportional to the forecast time and amount of rain to said computing means, g. said computing means being programmed to compute the amount of irrigation water required to bring the soil moisture up to a pre-established standard, to compare the computed amount of irrigation water with the amount of water in said means for storing water and the amount of rain forecast, and to adjust the computed amount of irrigation water based on those computations in order to generate said control signal.
-
Specification