System for adjusting smoothing tools of a harrow according to location

We claim: 1. An agricultural tillage implement, comprising: a main implement frame supporting a set of ground-engaging tillage tools for tilling soil during a tilling session for seedbed preparation in an agricultural field; a soil finish system supported by the main implement frame for smoothing the soil tilled by the ground-engaging tillage tools, the soil finish system including: (a) a harrow supported in a trailing position with respect to the main implement frame, wherein the harrow includes a harrow frame with multiple bars arranged generally transversely with respect to a travel direction of the agricultural tillage implement, wherein the multiple bars support a first set of smoothing tools for smoothing the soil tilled by the ground-engaging tillage tools; and (b) a hydraulic system configured to define an angle of the first set of smoothing tools for the tilling session; a communications system configured to receive a present geographic location; a non-transient medium storing an electronic map of the agricultural field, the electronic map identifying percentages of plant residue remaining on the tilling soil from a crop of a prior year: and a control system in communication with the hydraulic system, the non-transient medium, and the communications system, wherein the control system is configured to actuate the hydraulic system to define the angle of the first set of smoothing tools in response to the percentage of plant residue at the present geographic location according to the electronic map. 2. The agricultural tillage implement of claim 1 , wherein the electronic map is displayed to an HMI (Human Machine Interface). 3. The agricultural tillage implement of claim 1 , wherein the control system actuates the hydraulic system to implement a predetermined angle for the first set of smoothing tools in response to the percentage of plant residue at the present geographic location according to the electronic map. 4. The agricultural tillage implement of claim 3 , wherein the control system actuates the hydraulic system to implement one of at least four predetermined angles corresponding to four predetermined percentages of plant residue. 5. The agricultural tillage implement of claim 1 , further comprising a sensor assembly in communication with the hydraulic system, wherein the sensor assembly is configured to generate an electrical signal corresponding to the angle of the first set of smoothing tools. 6. The agricultural tillage implement of claim 5 , wherein the sensor assembly is in communication with the control system, and the control system determines the angle of the first set of smoothing tools from the sensor assembly before the control system actuates the hydraulic system. 7. The agricultural tillage implement of claim 1 , wherein the communications system comprises a Global Positioning System (GPS). 8. The agricultural tillage implement of claim 1 , further comprising a finishing tool supported in a trailing position with respect to the harrow with the finishing tool including a second set of smoothing tools for smoothing the soil tilled by the ground-engaging tillage tools. 9. An agricultural tillage implement, comprising: a main implement frame supporting a set of ground-engaging tillage tools for tilling soil during a tilling session for seedbed preparation in an agricultural field; and a soil finish system supported by the main implement frame for smoothing the soil tilled by the ground-engaging tillage tools, the soil finish system including: (a) a harrow supported in a trailing position with respect to the main implement frame, wherein the harrow includes a harrow frame with multiple bars arranged generally transversely with respect to a travel direction of the agricultural tillage implement with the multiple bars of the harrow frame including a front bar arranged toward a front end of the harrow, a back bar arranged toward a back end of the harrow, and an intermediate bar arranged between the front and back bars of the harrow, wherein the harrow includes a first set of smoothing tools supported. by the front, back, and intermediate bars of the harrow frame for smoothing the soil tilled by the ground-engaging tillage tools; (b) a hydraulic system configured to define an angle of the first set of smoothing tools for the tilling session; and (c) a finishing tool supported in a trailing position with respect to the harrow with the finishing tool including a second set of smoothing tools for smoothing the soil tilled by the ground-engaging tillage tools; a communications system configured to receive a present geographic location; a non-transient medium storing an electronic map of the agricultural field, the electronic map identifying percentages of plant residue remaining on the tilling soil from a crop of a prior year; and a control system in communication with the hydraulic system, the non-transient medium, and the communications system, wherein the control system is configured to actuate the hydraulic system to define the angle of the first set of smoothing tools in response to the percentage of plant residue at the present geographic location according to the electronic map. 10. The agricultural tillage implement of claim 9 , wherein the electronic map is displayed to an HMI (Human Machine Interface). 11. The agricultural tillage implement of claim 9 , wherein the control system actuates the hydraulic system to implement a predetermined angle for the first set of smoothing tools in response to the percentage of plant residue at the present geographic location according to the electronic map. 12. The agricultural tillage implement of claim 11 , wherein the control system actuates the hydraulic system to implement one of at least four predetermined angles corresponding to four predetermined percentages of plant residue. 13. The agricultural tillage implement of claim 9 , further comprising a sensor assembly in communication with the hydraulic system, wherein the sensor assembly is configured to generate an electrical signal corresponding to the angle of the first set of smoothing tools. 14. The agricultural tillage implement of claim 13 , wherein the sensor assembly is in communication with the control system, and the control system determines the angle of the first set of smoothing tools from the sensor assembly before the control system actuates the hydraulic system. 15. A method for tilling soil during a tilling session for seedbed preparation using an agricultural tillage implement having a main implement frame supporting a set of ground-engaging tillage tools and a soil finish system supported by the main implement frame for smoothing the soil tilled by the ground-engaging tillage tools, the soil finish system including a harrow supported in a trailing position with respect to the main implement frame, the harrow including a harrow frame with multiple bars arranged generally transversely with respect to a travel direction of the agricultural tillage implement, the multiple bars supporting a first set of smoothing tools for smoothing the soil tilled by the ground-engaging tillage tools, the method comprising: configuring a hydraulic system to define an angle of the first set of smoothing tools for the tilling session; storing an electronic map of the agricultural field in a non-transient medium, the electronic map identifying percentages of plant residue remaining on the tilling soil from a crop of prior year; receiving a present geographic location; and actuating the hydraulic system to adjust the angle of the first set of smoothing tools in response to the percentage of plant re