Active vehicle seat with spring-supported morphing portions

What is claimed is: 1 . An actuator comprising: a first hinge assembly and a second hinge assembly, the actuator having a first dimension and a second dimension, the first dimension being substantially perpendicular to the second dimension, the first dimension being in a direction that extends through the first hinge assembly and the second hinge assembly; an outer skin operatively connected to the first hinge assembly and the second hinge assembly, the outer skin defining a first actuator side and a second actuator side residing opposite the first actuator side, the outer skin defining a cavity; one or more shape-memory material (SMM) members operatively connected to the first hinge assembly and the second hinge assembly, the one or more SMM members being located substantially within the cavity; and at least one spring member positioned within the cavity and structured to exert forces on the first actuator side and second actuator side tending to urge the first actuator side and second actuator side away from each other along the second dimension, the actuator being configured such that, when an activation input is provided to the one or more SMM members, the one or more SMM members change from a first configuration to a second configuration and cause the actuator to morph into an activated configuration in which the first dimension increases or decreases and the second dimension changes inversely to the first dimension. 2 . The actuator of claim 1 including at least two spring members positioned within the cavity, each of the spring members being structured to exert forces on the first actuator side and second actuator side tending to urge the first actuator side and second actuator side away from each other along the second dimension, wherein the actuator further comprises a load distribution member positioned between the at least two spring members and one of the first actuator side and second actuator side, the load distribution member also extending from a first spring member of the at least two spring members to a second spring member of the at least two spring members. 3 . The actuator of claim 2 further comprising another load distribution member positioned between the at least two spring members and another one of the first actuator side and second actuator side, the other load distribution member also extending from a first spring member of the at least two spring members to a second spring member of the at least two spring members. 4 . The actuator of claim 1 , wherein the one or more SMM wires includes a single SMM wire arranged in an alternating pattern extending between the first hinge assembly and the second hinge assembly. 5 . The actuator of claim 1 , wherein the actuator is further configured such that, when an activation input to the one or more SMM wires is discontinued, the one or more SMM wires substantially return to a passive configuration. 6 . The actuator of claim 1 , wherein each of the first and second hinge assemblies comprises a first attachment member and a second attachment member connected by a hinge joint, the first attachment member rotating with relation to the second attachment member about the hinge joint. 7 . The actuator of claim 6 further comprising at least one first arm extending from the first hinge assembly first attachment member and at least one second arm extending from the first hinge assembly second attachment member so as to reside directly opposite an associated first arm extending from the first hinge assembly first attachment member, wherein the at least one spring member is positioned between the at least one first hinge assembly first attachment member first arm and the at least one first hinge assembly second attachment member second arm so as to exert forces on the at least one first hinge assembly first attachment member first arm and the at least one first hinge assembly second attachment member second arm second arm urging the at least one first hinge assembly first attachment member first arm and the at least one first hinge assembly second attachment member second arm away from each other. 8 . The actuator of claim 7 wherein the at least one first arm is structured to exert a first force on the first actuator side and the at least one second arm is structured to exert a second force on the second actuator side such that the first and second forces operate to urge the first actuator side and the second actuator side away from each other. 9 . The actuator of claim 7 further comprising at least one first arm extending from the second hinge assembly first attachment member and at least one second arm extending from the second hinge assembly second attachment member so as to reside directly opposite an associated first arm extending from the second hinge assembly first attachment member, wherein at least one spring member is positioned between the at least one second hinge assembly first attachment member first arm and the at least one second hinge assembly second attachment member second arm so as to exert forces on the at least one second hinge assembly first attachment member first arm and the at least one second hinge assembly second attachment member second arm urging the at least one second hinge assembly first attachment member first arm and the at least one second hinge assembly second attachment member second arm away from each other. 10 . The actuator of claim 9 wherein the at least one second hinge assembly first attachment member first arm and the at least one first hinge assembly first attachment member first arm are spaced apart from each other and combine to support the first actuator side. 11 . The actuator of claim 9 wherein the at least one first hinge assembly second attachment member second arm and the at least one second hinge assembly second attachment member second arm are spaced apart from each other and combine to support the first actuator side. 12 . A system for active vehicle seat adjustment, comprising: a vehicle seat, the vehicle seat including a seat surface; one or more actuators located within a portion of the vehicle seat, the one or more actuators being operatively positioned relative to the seat surface such that, when activated, the one or more actuators cause the seat surface to morph into an activated configuration, each of the actuators having: a first hinge assembly and a second hinge assembly, the actuator having a first dimension and a second dimension, the first dimension being substantially perpendicular to the second dimension, the first dimension being in a direction that extends through the first hinge assembly and the second hinge assembly; an outer skin operatively connected to the first hinge assembly and the second hinge assembly, the outer skin defining a first actuator side and a second actuator side residing opposite the first actuator side, the outer skin defining a cavity; one or more shape-memory material (SMM) members operatively connected to the first hinge assembly and the second hinge assembly, the one or more SMM members being located substantially within the cavity; and at least one spring member positioned within the cavity and structured to exert forces on the first actuator side and second actuator side tending to urge the first actuator side and second actuator side away from each other along the second dimension, the actuator being configured such that, when an activation input is provided to the one or more SMM members, the one or more SMM members change from a first configuration to a second configuration and cause the actuator to morph into an activated configuration in which the first dimension increases or decreases and the