System for controlling the doors of a powered split tailgate

The invention claimed is: 1. A power, split door system for a vehicle, comprising: a first vehicle door arranged to articulate between a closed position and an open position; a second vehicle door arranged to articulate between a closed position and an open position; first and second drive means for articulating the first and second vehicle doors, respectively, between the closed and open positions; and a control means for controlling the first and second drive means so as to control movement of the first and second doors between the open and closed positions; wherein a collision zone is defined as a region of the door system in which the first vehicle door and the second vehicle door could potentially come into contact with one another; wherein the control means is configured to determine if both of the first and second vehicle doors is within a collision zone during powered articulation of the vehicle doors; and where, in the event that the first and second vehicle doors are both stopped within the collision zone during a powered articulation, the control means is configured to: a) control the first and/or second drive means to articulate one or both of the first and second vehicle doors out of the collision zone in a manner that avoids collision of the first and second vehicle doors; b) control the first and/or second drive means to articulate one or both of the first and second vehicle doors in a reverse direction to the direction they were being articulated in and into either their fully open or fully closed positions in an appropriate manner that avoids collision of the first and second vehicle doors; or c) maintain the first and second vehicle doors in a stopped condition. 2. A system as claimed in claim 1 wherein, the first vehicle door partially overlaps the second vehicle door, when the first and second vehicle doors are in their closed positions and wherein the collision zone is defined based upon the geometry of the first and second doors and includes an additional margin. 3. A system according to claim 2 wherein the first vehicle door is an upper tailgate door and is disposed above the second vehicle door which is a lower tailgate door and wherein said additional margin of the collision zone extends from the lowest position in which the upper and lower doors could contact one another to immediately above the closed position of the lower tailgate door. 4. A system as claimed in claim 3 , wherein the positions of the first upper and second lower vehicle doors can be categorised as being in any one of: a closed position; the collision zone; a wide open position; and a fully opened position and wherein the closed and fully open positions are single positions and wherein the collision zone and wide open position categories are ranges of positions and wherein no other position of either vehicle door is possible. 5. A system according to claim 1 , wherein the system comprises means for detecting the presence of an obstacle extending out of a vehicle tailgate opening created when the first and second vehicle doors are at least partially open and/or for detecting an obstacle external to the vehicle in the opening path of either the first and/or second vehicle doors. 6. A system according to claim 5 whereupon detection of an obstacle during powered articulation of at least one of the vehicle doors, the control means is configured to power stop the at least one vehicle door and reverse the direction of travel of the stopped vehicle door. 7. A system according to claim 6 , where, in the event that the control means is controlling the first and second drive means to power-articulate the first and second doors into their closed positions and an obstacle extending out of the vehicle opening is detected and both the first and second vehicle doors are stopped within the collision zone, the control means is configured to articulate each of the first and second vehicle doors into the fully open position. 8. A system according to claim 1 , wherein the control means is provided with positional information relating to each of the first and second vehicle doors; and wherein the control means is configured to ensure that each of the first and second vehicle doors do not attempt to occupy the same space at the same time during any powered articulation. 9. A system according to claim 1 , wherein the control means comprises a first control unit for controlling the first drive means and a second control unit for controlling the second drive means. 10. A system as claimed in claim 9 , wherein: (i) the first control unit is supplied with positional data from one or more sensors and/or the first drive means and/or from another control system within the vehicle such that the first control unit is provided with positional information relating to the first vehicle door; (ii) the second control unit is supplied with positional data from one or more sensors and/or the second drive means and/or from another control system within the vehicle such that the second control unit is provided with positional information relating to the second vehicle door; and (iii) the first and second control units are in communication with one another to exchange positional data relating to the first and second vehicle doors such that each of the first and second control units is provided with positional data relating to both the first and the second vehicle doors. 11. A system as claimed in claim 10 , wherein the first and second control units each receive positional data from sensors located on or within the first and second drive means respectively and wherein each of said sensors are Hall sensors. 12. A system as claimed in claim 9 , wherein the first and second control units each receive positional data from a body control management unit, and wherein said positional data from the body control management unit may be a determination that the first and/or second door is latched and is therefore located in its closed position. 13. A system as claimed in claim 9 , wherein the first and second control units are each in communication with a controller area network (CAN) of the vehicle and thereby the first and second control units exchange positional data. 14. A system according to claim 13 wherein the positional data exchanged by the first and second control units is categorised positional data. 15. A method of controlling a first vehicle door arranged to articulate between a closed position and an open position; and a second vehicle door arranged to articulate between a closed position and an open position, the method comprising: using at least one control unit for (i) obtaining positional data relating to the first vehicle door; (ii) obtaining positional data relating to the second vehicle door; (iii) defining a collision zone; (iv) monitoring the positional data relating to the first and second vehicle doors; and in the event that both the first and second vehicle doors are stopped in the collision zone during a powered articulation; (v) articulating the first and second vehicle doors in a reverse direction to the direction they were being articulated in and into either fully open or fully closed positions in an appropriate manner that avoids collision of the first and second vehicle doors or (vi) maintaining the first and second vehicle doors in a stopped condition. 16. A method as claimed in claim 15 , comprising controlling the first and second vehicle doors to move from an open position to a closed position and in the event that both the first and second vehicle doors are stopped in the collision zone, articulating