Flexural digital material construction and transduction

What is claimed is: 1. An actuatable structure, comprising a set of discrete units, wherein the set of discrete units is assembled into the structure according to a lattice geometry that allows for reversible deformation without compromise of the strength of the structure, wherein a majority of the discrete units are each connected, or are connectible, to at least two other units in the set according to the lattice geometry, and wherein a coordinated reversible spatially-distributed deformation of at least part of the structure occurs in response to changes in load or actuation. 2. The actuatable structure of claim 1 , wherein the coordinated reversible spatially-distributed reversible deformation of at least part of the structure is due to at least in part to at least one of: the shape of the units in the set, the material composition of the units in the set, the configuration of connections between the units of the set, and the configuration of the lattice geometry. 3. The actuatable structure of claim 2 , wherein the connections are elastic. 4. The actuatable structure of claim 1 , wherein the units in the set of discrete units are identical. 5. The actuatable structure of claim 1 , wherein the units in the set of discrete units are of at least two types. 6. The actuatable structure of claim 5 , wherein at least one of the at least two types of units is a connector unit. 7. The actuatable structure of claim 6 , wherein at least one of the at least two types of units differs in material composition or property from at least another of the at least two types of units. 8. The actuatable structure of claim 1 , wherein at least some of the discrete units are connected to others of the discrete units by connections that are adapted to transfer force between connected units. 9. The actuatable structure of claim 1 , wherein the actuatable structure is a digital material wing and the structure has sufficient flexural degrees of freedom to vary camber and produce a continuous spanwise twist. 10. The actuatable structure of claim 1 , wherein the actuatable structure is a robotic leg, the robotic leg further comprising at least one tendon configured for actuating the leg, and wherein the leg has sufficient flexural degrees of freedom to produce coordinated buckling modes and corresponding elastic energy storage. 11. The actuatable structure of claim 1 , further comprising step-function flexures configured to protect the integrity of the lattice.