Tactile sensor that includes two sheets each having at least either flexibility or elasticity

What is claimed is: 1. A tactile sensor comprising: a first sheet having at least either flexibility or elasticity; and a second sheet having at least either flexibility or elasticity and having a first surface facing the first sheet and a second surface opposite to the first surface, wherein the second surface includes a plurality of protruding shapes, each of the plurality of protruding shapes has an enclosed space inside, the enclosed space being defined by the first surface of the second sheet and the first sheet, at least one first electrode pattern is disposed on the first sheet in the enclosed space of each of the plurality of protruding shapes, at least one second electrode pattern is disposed on the first surface in the enclosed space of each of the plurality of protruding shapes, and in the enclosed space of each of the plurality of protruding shapes, the at least one first electrode pattern includes a plurality of first electrode patterns and/or the at least one second electrode pattern includes a plurality of second electrode patterns. 2. The tactile sensor according to claim 1 , wherein the at least one second electrode pattern includes the plurality of second electrode patterns in the enclosed space of each of the plurality of protruding shapes, and the plurality of second electrode patterns extend in parallel. 3. The tactile sensor according to claim 1 , wherein the at least one first electrode pattern includes the plurality of first electrode patterns in the enclosed space of each of the plurality of protruding shapes, and the plurality of first electrode patterns extend in parallel. 4. The tactile sensor according to claim 1 , wherein a part of the first surface that surrounds each of the plurality of protruding shapes is bonded to the first sheet. 5. The tactile sensor according to claim 1 , wherein in each enclosed space, the at least one second electrode pattern and the at least one first electrode pattern intersect each other in a plan view. 6. The tactile sensor according to claim 1 , wherein the second sheet is constituted by an elastomer. 7. The tactile sensor according to claim 1 , wherein the at least one first electrode pattern and the at least one second electrode pattern have elasticity. 8. The tactile sensor according to claim 1 , wherein the at least one second electrode pattern in the enclosed space of each of the plurality of protruding shapes is electrically connected to the at least one second electrode pattern in another enclosed space. 9. The tactile sensor according to claim 1 , wherein the at least one first electrode pattern in the enclosed space of each of the plurality of protruding shapes is electrically connected to the at least one first electrode pattern in another enclosed space. 10. The tactile sensor according to claim 1 , wherein each enclosed space is filled with a fluid. 11. The tactile sensor according to claim 1 , wherein each of the plurality of protruding shapes has a meandering shape in a plan view. 12. A method for manufacturing a tactile sensor comprising: forming a plurality of first electrode patterns on a first sheet having at least either flexibility or elasticity; forming a plurality of second electrode patterns on a first surface of a second sheet having at least either flexibility or elasticity and having the first surface and a second surface opposite to the first surface; forming a plurality of protruding shapes on the second surface by forming a plurality of concave shapes on the first surface of the second sheet; and placing the first and second sheets so as to form, inside each of the plurality of protruding shapes, an enclosed space defined by the first surface of the second sheet and the first sheet; wherein at least one of the plurality of first electrode patterns is disposed in the enclosed space of each of the plurality of protruding shapes, at least one of the plurality of second electrode patterns is disposed in the enclosed space of each of the plurality of protruding shapes, and in the enclosed space of each of the plurality of protruding shapes, the at least one first electrode pattern includes a plurality of first electrode patterns and/or the at least one second electrode pattern includes a plurality of second electrode patterns. 13. The method according to claim 12 , wherein the placing the first and second sheets includes bonding, to the first sheet, a part of the first surface that surrounds each of the plurality of protruding shapes. 14. A method of sensing with a tactile sensor, the tactile sensor including a first sheet having at least either flexibility or elasticity, and a second sheet having at least either flexibility or elasticity and having a first surface facing the first sheet and a second surface opposite to the first surface, wherein the second surface includes a plurality of protruding shapes, each of the plurality of protruding shapes has an enclosed space inside, the enclosed space being defined by the first surface of the second sheet and the first sheet, at least one first electrode pattern is disposed on the first sheet in the enclosed space of each of the plurality of protruding shapes, at least one second electrode pattern is disposed on the first surface in the enclosed space of each of the plurality of protruding shapes, and in the enclosed space of each of the plurality of protruding shapes, the at least one first electrode pattern includes a plurality of first electrode patterns and/or the at least one second electrode pattern includes a plurality of second electrode patterns, the method comprising: measuring a change in capacitance between the at least one second electrode pattern and the at least one first electrode pattern of the tactile sensor in the enclosed space of one or more of the plurality of protruding shapes; and sensing a deformation of at least one of the plurality of protruding shapes on the basis of the change in capacitance.