Gps location augmentation and outage playthrough

What is claimed is: 1 . A method of communicating agricultural data, comprising: providing identification information related to an agricultural implement including a type of implement and a number of components on the agricultural implement that are capable of performing the at least one agricultural operation; locating or tracking location information that relates to a component of the agricultural implement; communicating instructions to the component of the agricultural implement for performing a portion of the at least one agricultural operation; and using an augmentation system located on the agricultural implement, supplementing the location information with supplemental information that includes a specific measurement of a force, an angular rate, and/or an orientation of the component. 2 . The method of claim 1 , further comprising enhancing the location information using a satellite-based radio navigation system associated with the agricultural implement to include a planting location for yield data. 3 . The method of claim 1 , further comprising enhancing the location information using a satellite-based radio navigation system associated with the agricultural implement to include a location for prescription maps. 4 . The method of claim 1 , further comprising enhancing the location information using a satellite-based radio navigation system associated with the agricultural implement to include planted information to mitigate later compaction of a planted zone. 5 . The method of claim 1 , further comprising passing said instructions through an intelligent node located at the component. 6 . The method of claim 1 , wherein the location information relates further comprises a position of where the at least one agricultural operation is to be performed. 7 . The method of claim 1 , wherein the location information is provided by a satellite-based radio navigation system located on the agricultural implement. 8 . The method of claim 7 , wherein the augmenting system comprises an inertial measurement unit. 9 . The method of claim 8 , wherein the inertial measurement unit comprises a 9-axis inertial measurement unit sensor to acquire the supplemental information. 10 . The method of claim 9 , wherein the supplemental information replaces the location information during an outage of the satellite-based radio navigation system. 11 . The method of claim 9 , further comprising showing on a display that is located on the agricultural implement at least one of: the location information, the supplemental information, and a combination of the location information and the supplemental information. 12 . The method of claim 11 , wherein the supplemental information is displayed adjacent to (i) the location information during an outage of the satellite-based radio navigation system and (ii) a warning indicating the satellite-based radio navigation system is experiencing said outage. 13 . The method of claim 1 , wherein the augmentation system comprises a plurality of components selected from the group consisting of: a. a speedometer, b. a direction device, c. an accelerometer, d. a gyroscope, e. a magnetometer, f. a lidar sensor, and g. a radar sensor. 14 . A dual-type navigational system for an agricultural implement comprising: a global navigation system satellite (GNSS) sensor that acquires location information communicated from a satellite in Earth's orbit, wherein the GNSS sensor includes a transmitter that continuously attempting to establish a connection to the satellite that is in Earth's orbit; an augmentation system that acquires supplemental information, wherein the supplemental information includes a specific measurement of a force, an angular rate, and/or an orientation of a component on an agricultural implement, wherein the augmentation system can tether the supplemental location information to the location information; a display located on the agricultural implement that (1) indicates whether there is an outage of communication between the transmitter and the satellite in Earth's orbit and (2) shows geospatial and temporal information about agricultural events. 15 . The dual-type navigational system of claim 14 further comprising a processor that is in electronic communication with the GNSS sensor and the augmentation system, wherein the processor utilizes the augmentation system to provide an augmented location based on the last-known location information and the supplemental information in the event of said outage. 16 . The dual-type navigational system of claim 15 further comprising memory that stores dates and times related to the agricultural event. 17 . The dual-type navigation system of claim 14 , wherein the augmentation system is located on the agricultural implement. 18 . The dual-type navigation system of claim 14 , wherein the augmentation system is located on an unmanned aerial vehicle. 19 . The dual-type navigation system of claim 14 , wherein the GNSS sensor comprises a Global Positioning System (GPS) receiver. 20 . A paucal-type navigation system for guiding an agricultural machine comprising: a global navigation system satellite (GNSS) sensor capable of acquiring geolocation and time information from a satellite-based radio navigation system that utilizes one or more satellites in Earth's orbit; an augmentation system comprising a plurality of augmenting devices that supplement said geolocation and time information with one or more locational aspects; wherein a first augmenting device of the plurality of augmenting devices is selected from the group consisting of: a. a radar sensor; and b. a lidar sensor; and wherein a second augmenting device of the plurality of augmenting devices is selected from the group consisting of: a. an inertial measurement unit; b. a speedometer, c. a direction device, d. an accelerometer, e. a gyroscope, and f. a magnetometer; a processor that (i) during periods where the GNSS sensor is in communication with the one or more satellites, harmonizes agricultural data obtained from the GNSS sensor, the first augmenting device, and the second augmenting device; and (ii) during periods where the GNSS sensor is not in communication with the one or more satellites, can instruct the agricultural machine to perform one or more agricultural operations at a location that is based on last-known geolocational and time information and the one or more locational aspects.