Systems, methods, and/or apparatus for the display of agricultural data on a user interface

The invention claimed is: 1 . A computerized method for use with an agricultural implement comprising: sensing agricultural characteristics associated with one or more agricultural implements; communicating, in real-time, agricultural data associated with the agricultural characteristics, said agricultural data being time-stamped and geo-spatial; displaying on a map and in real-time, the agricultural data on a touch-screen display; after touching a mapped interface displayed with the touch-screen display, providing: (i) a detailed view of a portion of said map; and (ii) numerical and textual information associated with agricultural data relating to said portion of said map, wherein the numerical and textual information comprises actual data associated with an agricultural operation of the one or more agricultural implements relating to said portion of said map and expected data associated with the agricultural operation of the one or more agricultural implements relating to said portion of said map. 2 . The computerized method of claim 1 , further comprising conserving electrical power to and/or adjusting a brightness of the touch-screen display. 3 . The computerized method of claim 1 , further comprising tracking a geographic location of the one or more agricultural implements. 4 . The computerized method of claim 1 , identifying errors in the agricultural operation by determining if a value associated with a sensed agricultural characteristic has fallen below a minimum threshold or risen above a maximum threshold. 5 . The computerized method of claim 4 , further comprising automatically sending a notification for a confirmed error if the confirmed error persists for a predetermined length of time or a predetermined distance of travel. 6 . The computerized method of claim 4 , further comprising coloring a portion of said map associated with the error. 7 . The computerized method of claim 4 , further comprising suggesting a task to be performed and/or a mitigation technique based on the error. 8 . The computerized method of claim 4 , further comprising identifying a cause of the error. 9 . The computerized method of claim 8 , further comprising taking action in response to said error, said action optionally selected from the group consisting of: (a) manually and/or automatically disabling a component, a group of components, and/or an order of components associated with the one or more agricultural implements; (b) applying more or less down and/or up pressure to said component, said group of components, and/or said order of components; and (c) adjusting an operating rate of said component, said group of components, and/or said order of components. 10 . The computerized method of claim 9 , further comprising providing computerized feedback relating to whether said action was effective in remedying the error. 11 . The computerized method of claim 10 , further comprising using artificial intelligence (AI) and/or machine learning (ML) to analyze said computerized feedback in an effort to improve future agricultural operations over time. 12 . The computerized method of claim 1 , further comprising selecting an agricultural task to perform with a first and/or second agricultural implement of the one or more agricultural implements, the agricultural task being selected from the group consisting of (a) planting; (b) tilling; (c) baling; (d) harvesting; (e) spraying; (f) transporting; (g) cultivating; (h) harrowing; (i) plowing; (j) fertilizing; (k) broadcasting; (l) loading; and (m) unloading. 13 . A non-transitory computer readable medium for use with an agricultural implement and having a processor, a memory, an operating system, and a compiler, said non-transitory computer readable medium comprising: a touch-screen display; a transmitter capable of employing at least one communication protocol and connecting to a network; and a display module configured to instruct the processor to execute software and/or firmware stored within the memory; wherein the processor can execute the software and/or firmware such that: time-stamped and/or geo-spatial agricultural data associated with sensed agricultural characteristics can be communicated and displayed on a map in real-time; and error(s) associated with performance of an agricultural operation are automatically identified; if touched, a mapped interface displayed with the touch-screen display provides: (i) a detailed view of a portion of said map; and (ii) numerical and textual information associated with agricultural data relating to said portion of said map, wherein the numerical and textual information comprises actual data associated with an agricultural operation of the agricultural implement relating to said portion of said map and expected data associated with the agricultural operation of the agricultural implement relating to said portion of said map. 14 . The non-transitory computer readable medium of claim 13 , wherein the communication protocol is ISO 11783 (ISOBUS). 15 . The non-transitory computer readable medium of claim 13 , wherein the communication protocol is Internet Protocol (IP), the IP is carried over Ethernet, and the non-transitory computer readable medium utilizes Power over Ethernet (POE). 16 . The non-transitory computer readable medium of claim 13 , wherein the transmitter is a wireless transmitter and the wireless transmitter communicates via Wi-Fi. 17 . An agricultural system comprising: a cab; an agricultural implement; sensors proximate the agricultural implement for sensing agricultural characteristics; a touch-screen display located on the cab or the agricultural implement; a transmitter capable of employing at least one communication protocol and connecting to a network; and a non-transitory computer readable medium comprising: a processor; a memory; an operating system; a compiler; and a display module configured to instruct the processor to execute software and/or firmware stored within the memory; wherein the processor can execute the software and/or firmware such that: time-stamped and/or geo-spatial agricultural data associated with sensed agricultural characteristics can be communicated and displayed on a map in real-time; and error(s) associated with performance of an agricultural operation are automatically identified; if touched, a mapped interface displayed with the touch-screen display provides: (i) a detailed view of a portion of said map; and (ii) numerical and textual information associated with agricultural data relating to said portion of said map, wherein the numerical and textual information comprises actual data associated with an agricultural operation of the agricultural implement relating to said portion of said map and expected data associated with the agricultural operation of the agricultural implement relating to said portion of said map. 18 . The agricultural system of claim 17 , wherein the agricultural implement is a planter comprising a toolbar, wheels or tracks attached to the toolbar, row units attached to the toolbar, and hoppers for storing seed, and further wherein the row units are configured to be manually and/or automatically shut off from dispensing seed based upon identified errors. 19 . The agricultural system of claim 18 , wherein the planter further comprises cylinders which automatically apply a down force based upon the agricultural data. 20 . The agricultural system of claim 17 , further comprising a global po