Enhanced vehicle wiper blade using active materials

The invention claimed is: 1. A vehicle wiper assembly comprising: a wiper blade having a length, the wiper blade including: a base portion operatively configured to couple with at least one of a spine or a frame; a wedge-shaped wiper portion coupled to the base portion via an interconnecting member, wherein each of the base portion, interconnecting member, and wiper portion extend across a longitudinal dimension of the wiper blade from a first end to an opposite second end, and wherein the wiper portion is operative to wipe liquid across a surface; wherein the interconnecting member is formed from an active material that includes a shape memory alloy material with a crystallographic phase that is changeable between austenite and martensite; wherein the shape memory alloy material is superelastic and is operatively configured to apply a spring force against the wiper portion of the wiper blade; and wherein the interconnecting member is operative to allow the wiper portion of the wiper blade to articulate about the longitudinal dimension of the base portion. 2. The vehicle wiper assembly of claim 1 , wherein the crystallographic phase of the shape memory alloy is changeable from austenite to martensite in response to an applied mechanical stress. 3. The vehicle wiper assembly of claim 1 , wherein the shape memory alloy material is configured to elastically and reversibly deform up to a strain of about 8-10%. 4. The vehicle wiper assembly of claim 1 , further comprising the spine, and wherein the spine includes an active material. 5. The vehicle wiper assembly of claim 1 , further comprising the frame coupled with the wiper blade, the frame having a plurality of blade springs disposed along the length of the wiper blade; and wherein each of the plurality of the blade springs comprises an active material. 6. The vehicle wiper assembly of claim 1 , further comprising an armature coupled with the wiper blade, the armature including an armature spring; and wherein the armature spring includes a shape memory alloy material. 7. A vehicle wiper assembly comprising: an armature configured to extend from a rotary actuator; a wiper blade having a length and including: at least one of a spine or a frame that is operative to be fastened to the armature; a base portion coupled to the at least one of the spine or the frame; a wiper portion; and an interconnecting member that directly couples the base portion to the wiper portion; wherein the base portion, the wiper portion, and the interconnecting member extend across a longitudinal dimension of the wiper blade from a first end to an opposite second end and are supported by the at least one of the spine or the frame; wherein the interconnecting member includes a superelastic shape memory alloy material with a crystallographic phase that is changeable between austenite and martensite; and wherein the interconnecting member is elastically deformable and is operatively configured to apply a spring force against the wiper portion of the wiper blade. 8. The vehicle wiper assembly of claim 7 , wherein the crystallographic phase of the superelastic shape memory alloy is changeable from austenite to martensite in response to an applied mechanical stress. 9. The vehicle wiper assembly of claim 7 , wherein the superelastic shape memory alloy material is configured to elastically and reversibly deform up to a strain of about 8-10%. 10. The vehicle wiper assembly of claim 7 , wherein the at least one of the spine or the frame is a spine, and wherein the spine includes a superelastic shape memory alloy material. 11. The vehicle wiper assembly of claim 7 , wherein at least one of the spine or the frame is a frame having a plurality of blade springs configured to apply a spring force to the wiper blade; and wherein each of the plurality of the blade springs includes a superelastic shape memory alloy material. 12. The vehicle wiper assembly of claim 7 , wherein the armature includes an armature spring; and wherein the armature spring includes a shape memory alloy material.