Impact features

What is claimed is: 1. A vehicle platform comprising: a frame structure having a plurality of interconnected structural elements forming a generally planar body with a front portion, a rear portion, a central portion, and front and rear transition portions that connect the front and rear portions to the central portion, wherein the front portion has an upper load path configured with an upper energy absorption unit having an elongated body with a forward end connected to an upper lateral frame component and a rearward end connected to a portion of the frame structure, wherein the upper energy absorption unit is disposed such that it is longitudinally parallel with a longitudinal axis of the frame structure and aligned with the upper lateral frame component, and wherein the elongated body of the upper energy absorption unit has a crush zone such that when an impact force is introduced the crush zone compacts a predetermined distance while absorbing energy from the impact force, wherein the front portion further comprises a lower load path configured with a lower energy absorption unit having an elongated body with a first end connected to a lateral front component of the frame structure and a second end opposite the first end, wherein the second end is connected to another portion of the frame structure, wherein the lower energy absorption unit has a designated crush zone and a bending zone with a body such that when the impact force is introduced the designated crush zone compacts a predetermined distance while absorbing energy from the impact force and the bending zone is configured to bend and deflect subsequent energy not absorbed by the designated crush zone, and wherein at least one of the upper energy absorption unit in the upper load path and the lower energy absorption unit in the lower load path comprises a tunable control element having a body configurable to crush a predetermined distance range from receipt of the impact force. 2. The vehicle platform of claim 1 , wherein both the upper energy absorption unit in the upper load path and the lower energy absorption unit in the lower load path of the front portion comprise a tunable control element configurable to crush a predetermined distance range from the receipt of the impact force. 3. The vehicle platform of claim 1 , wherein the tunable control element is disposed within an interface between the designated crush zone and the bending zone, and wherein the tunable control element controls an amount of compaction that occurs in the designated crush zone. 4. The vehicle platform of claim 3 , wherein the tunable control element has a length that extends from the interface into the designated crush zone, and wherein the length of the tunable control element is tuned to account for a different impact force. 5. The vehicle platform of claim 1 , wherein the tunable control element is connected to the crush zone using a plurality of mechanical fasteners. 6. The vehicle platform of claim 5 , wherein the plurality of mechanical fasteners is selected from the group consisting of rivets and bolts. 7. The vehicle platform of claim 1 , wherein the tunable control element is disposed within a connection interface between the upper energy absorption unit and the frame structure. 8. The vehicle platform of claim 2 , wherein the tunable control elements in the upper and lower energy absorption units have dimensions that are adjustable to control a crush stack up in the upper and lower energy absorption units, respectively. 9. The vehicle platform of claim 1 , further comprising a lower deflection element having an angular body, an inboard side, and an outboard side, wherein the inboard side extends parallel and rearward along a portion of the frame structure and the outboard side extends outward and rearward from a front end of the frame structure at an angle such that it progressively diverges from the frame structure such that when the impact force is introduced the lower deflection element deflects impact energy in a direction away from the frame structure. 10. The vehicle platform of claim 1 , further comprising an upper deflection unit with an elongated body having an external face and an internal face, wherein the elongated body of the upper deflection unit extends outward from the frame structure and is configured to deform in such a way that it moves inward towards the frame structure during an impact to the external face, and wherein the upper deflection unit has a spacing element disposed on the internal face having a predefined body shape configured to stop the deformation of the upper deflection unit by contacting the upper lateral frame component during the deformation. 11. The vehicle platform of claim 10 , wherein the predefined body shape is triangular. 12. The vehicle platform of claim 1 , further comprising a plurality of support elements disposed within an interior space of the interconnected structural elements throughout the frame structure. 13. The vehicle platform of claim 12 , wherein at least two of the plurality of support elements are disposed within the front transition portion and are separated by a predefined distance such that during an exposure to the impact force the at least two support elements move towards each other until they contact, thereby reducing an amount of impact energy distributed to other components of the frame structure. 14. The vehicle platform of claim 13 , wherein a transition element is configured with a groove disposed within the frame structure between the at least two support elements that allows for a desired amount of bending in the front transition portion. 15. The vehicle platform of claim 13 , wherein at least one of the at least two support elements has an elongated body that extends substantially along lateral support elements of the frame structure such that it extends into at least a section of the central portion. 16. The vehicle platform of claim 13 , wherein one of the support elements has a body that extends over a transition point. 17. The vehicle platform of claim 12 , wherein the support elements are bulkhead elements. 18. The vehicle platform of claim 1 , wherein the central portion is formed of at least a first lateral element and a second lateral element separated by a space and a plurality of central spacing elements disposed within the space and extending between the first and second lateral elements, and wherein the first and second lateral elements are disposed near lateral outside portions of the frame structure. 19. The vehicle platform of claim 18 , wherein each of the plurality of central spacing elements has tunable dimensions such that the frame structure is able to accommodate a number of impact energies. 20. The vehicle platform of claim 18 , further comprising a plurality of longitudinal spacing elements that are disposed between at least one of the plurality of central spacing elements and a lateral support of the frame structure such that the longitudinal spacing elements are substantially perpendicular to the at least one central spacing element. 21. The vehicle platform of claim 18 , further comprising a side impact energy absorption unit with: an elongated casing element having an inside surface and an outside surface; a plurality of hollow structural containers each having an elongated body forming an outer shell with a first open end and a second open end, wherein the first open end is attached to a rear backing plate and the second open end is attached to a front backing