Stent delivery assembly

What is claimed is: 1. A stent delivery assembly comprising a delivery balloon having a balloon axis and a balloon surface with a number of strips durably attached to the balloon surface and extending along the balloon axis, the strips having an unhydrated state and a hydrated state, the strips having a smaller volume in the unhydrated state than in the hydrated state, the strips in the hydrated state being radially indentable and configured to inhibit microsliding of a stent along a surface of the strips by an elastic counterforce, wherein the delivery balloon has a pleated collapsed state with a number of pleats connected to one another via inner folds, the number of pleats being identical to the number of strips, and each pleat having an outer fold, a respective one of the strips being disposed at or on the outer fold and the inner folds being free of strips. 2. The stent delivery assembly of claim 1 , wherein the strips are made of a material that in the hydrated state reacts to deformation with an elastic force. 3. The stent delivery assembly of claim 1 , wherein the strips are made of a hydrogel. 4. The stent delivery assembly of claim 1 , wherein the strips are made of an expandable foam. 5. The stent delivery assembly of claim 1 , wherein the strips are made of an expandable elastomer. 6. The stent delivery assembly of claim 1 , wherein the delivery balloon in the collapsed state has a collapsed circumference and each of the number of strips has a circumferential width that is at most equal to the collapsed circumference divided by the number of strips. 7. The stent delivery assembly of claim 1 , wherein the number of pleats is in a range of 3 through 12. 8. The stent delivery assembly of claim 1 , wherein each strip has a volume that at least doubles from the unhydrated state to the hydrated state. 9. A stent delivery assembly comprising a delivery balloon defining a balloon axis, and a stent disposed around the delivery balloon, wherein the stent has interconnected struts and the delivery balloon has a balloon surface with a number of strips that are durably attached to the balloon surface and extend along the balloon axis, the strips having an unhydrated state and a hydrated state, the strips having a smaller volume in the unhydrated state than in the hydrated state, wherein the strips are made of a material that in the hydrated state reacts to deformation with an elastic force that inhibits a microslide of the stent during an expansion of the delivery balloon. 10. The stent delivery assembly of claim 9 , wherein the struts of the stent have a strut thickness and the strips have a thickness in the unhydrated state that is less than the strut thickness. 11. The stent delivery assembly of claim 9 , wherein the struts of the stent have a strut thickness and the strips have a thickness in the hydrated state that is at least equal to the strut thickness. 12. The stent delivery assembly of claim 9 , wherein during a hydration of the strips, the strips exert a radially outward force on the stent that is smaller than a force required to expand the stent. 13. The stent delivery assembly of claim 12 , wherein the struts locally constrain the strips as the radially outward force is exerted on the stent during the hydration of the strips, thereby forming an indentation in the strips and securing the stent on a customized bed. 14. The stent delivery assembly of claim 9 , wherein the stent is composed of axially aligned segments connected via connectors disposed between adjacent ones of the segments, wherein the strips have a length greater than an axial distance between axially outermost connectors connecting the adjacent ones of the segments.