Redundancy in a display comprising autonomous pixels

The invention claimed is: 1. A display comprising a plurality of autonomous pixels on a substrate, wherein each autonomous pixel comprises: a display element; a first sensing element arranged to detect a first external stimulus; a second sensing element arranged to detect a second external stimulus, wherein the first external stimulus and the second external stimulus comprise ambient signals incident upon a sensor device or an applied signal or stimulus applied in a region of the autonomous pixel; and a control element arranged to: generate, within the autonomous pixel, a control signal to drive the display element based, at least in part, on a magnitude of the first external stimulus detected by the first sensing element and a first threshold level, the first threshold level generated based at least in part on a magnitude of the second external stimulus detected by the second sensing element, wherein the control element comprises one or more groups of transistors associated with each of the sensing elements, each group comprising at least a first and a second transistor both arranged to perform the same function and connected in parallel with each other, wherein a first transistor in a group associated with the first sensing element is physically proximate to a first transistor in a group associated with the second sensing element; generate a control signal to drive the display element to a first state based on the magnitude of the second external stimulus exceeding a second predefined threshold level; and subsequently, generate a control signal to drive the display element to a second state based on the magnitude of the second external stimulus falling below a third predefined threshold level, and based on the magnitude of the first external stimulus exceeding the first threshold level. 2. A display according to claim 1 , further comprising a first fuse connected in series with the first transistor and a second fuse connected in series with the second transistor. 3. A display according to claim 2 , further comprising selectively disabling the first fuse connected in series with the first transistor and selectively disabling the second fuse connected in series with the second transistor. 4. A display according to claim 1 , wherein the substrate is deformable. 5. A display according to claim 1 , wherein the first transistor and the second transistor have different orientations. 6. A display according to claim 1 , wherein the first transistor and the second transistor are spatially separated. 7. A display according to claim 1 , wherein the control element is arranged to generate a control signal to drive the display element to a third state in response to the magnitude of the first external stimulus detected by the first sensing element exceeding the first threshold level and to generate a control signal to drive the display element to a fourth state in response to the magnitude of the first external stimulus detected by the first sensing element not exceeding the first threshold level. 8. A method of fabricating a display comprising a plurality of autonomous pixels, the method comprising: forming a plurality of autonomous pixels on a deformable substrate, wherein each autonomous pixel comprises a display element; a first sensing element arranged to detect a first external stimulus; a second sensing element arranged to detect a second external stimulus, wherein the first external stimulus and the second external stimulus comprise ambient signals incident upon a sensor device or an applied signal or stimulus applied in a region of the autonomous pixel; and a control element arranged to; generate, within the autonomous pixel, a control signal to drive the display element based, at least in part, on a magnitude of the first external stimulus detected by the first sensing element and a first threshold level, the first threshold level generated based at least in part on a magnitude of the second external stimulus detected by the second sensing element, wherein the control element comprises one or more groups of transistors associated with each of the sensing elements, each group comprising at least a first and a second transistor both arranged to perform the same function and connected in parallel with each other, wherein a first transistor in a group associated with the first sensing element is physically proximate to a first transistor in a group associated with the second sensing element; generate a control signal to drive the display element to a first state based on the magnitude of the second external stimulus exceeding a second predefined threshold level; and subsequently, generate a control signal to drive the display element to a second state based on the magnitude of the second external stimulus falling below a third predefined threshold level, and based on the magnitude of the first external stimulus exceeding the first threshold level; and after the display has been deformed: (i) measuring characteristics of each pixel in the display; and (ii) in response to determining that the characteristics for at least a subset of the pixels in the display exceed a pre-defined range, selecting a pixel in the display based on the measured characteristics and selectively disabling the first or second transistor in the selected pixel. 9. A method according to claim 8 , further comprising: repeating (i) and (ii) until the characteristics for all of the pixels in the display are within a pre-defined range. 10. A method according to claim 8 , further comprising a first fuse connected in series with the first transistor and a second fuse connected in series with the second transistor and wherein selectively disabling the first or second transistor in the selected pixel comprises: blowing the first or second fuse in the selected pixel. 11. A method according to claim 8 , further comprising: repeating (i) and (ii) until the characteristics for all of the pixels in the display satisfy a second criterion. 12. A method according to claim 11 , wherein the second criterion defines a maximum number of fuses that can be blown. 13. A method according to claim 8 , wherein selectively disabling the first or second transistor in the selected pixel comprises: inducing failure in the first or second transistor in the selected pixel. 14. A display according to claim 8 , wherein the first transistor and the second transistor have different orientations. 15. A display according to claim 8 , wherein the first transistor and the second transistor are spatially separated. 16. A display according to claim 8 , further comprising a first fuse connected in series with the first transistor and a second fuse connected in series with the second transistor. 17. A method of operating a display comprising a plurality of autonomous pixels on a substrate, wherein each autonomous pixel comprises: a display element; a first sensing element arranged to detect a first external stimulus; a second sensing element arranged to detect a second external stimulus, wherein the first external stimulus and the second external stimulus comprise ambient signals incident upon a sensor device or an applied signal or stimulus applied in a region of the autonomous pixel; and a control element arranged to: generate, within the autonomous pixel, a control signal to drive the display element based, at least in part, on a magnitude of the first external stimulus detected by the first sensing element and a first threshold level, the first threshold level generated based at least in part on a magnitude of the second external stimulus