Sensorized roller

The invention claimed is: 1. A sensorized roller for a bearing comprising: a roller bore that extends through the roller about an axis thereof and accommodates; a measuring device for measuring deformation of the roller bore; a processor for receiving a deformation signal from the measuring device; and an antenna for wireless transmission of the processed deformation signal to an external receiver, wherein the measuring device, the processor and the antenna are mounted in a rigid housing that is shaped to fit within the roller bore, wherein the rigid housing is resiliently mounted to the roller bore via first and second sealing elements that enclose a radial gap between a radially inner surface of the roller bore and a radially outer surface of the housing, and wherein the antenna is enclosed within a hollow chamber of the housing. 2. The sensorized roller according to claim 1 , wherein the housing is fully contained within exterior dimensions of the roller. 3. The sensorized roller according to claim 1 , wherein the housing comprises two semi-cylindrical housing portions that are joined by first and second end caps that fit over first and second axial ends of the two housing portions. 4. The sensorized roller according to claim 3 , wherein the first and second axial ends of the housing portions are provided with an external thread and the first and second end caps are provided with a cooperating internal thread. 5. The sensorized roller according to claim 4 , wherein at least one of the first and second endcaps is provided with one of a retaining lip and a retaining recess that engages with the other of a retaining recess and a retaining lip provided in the housing portions, for preventing unscrewing of the endcap. 6. The sensorized roller according to claim 1 , wherein the measuring device comprises one or more cantilever beams that extend in an axial direction (z) of the roller, wherein a contact element is provided on each cantilever beam that extends through an aperture in the radially outer surface of the housing and bears against the radially inner surface of the roller bore, and wherein at least one sensor is provided on each cantilever beam for measuring bending thereof, due to deflection of the beam in a radial direction (r) perpendicular to the axial direction (z). 7. The sensorized roller according to claim 6 , wherein each cantilever beam comprises a first section that extends in axial direction (z) away from a fixed end of the beam and further comprises a second section that extends in axial direction back towards the fixed end. 8. The sensorized roller according to claim 1 , wherein the housing comprises adjustment means that engages with a mounting portion associated with the measuring device and enables adjustment of the position of the measuring device in radial direction (r). 9. The sensorized roller according to claim 1 , further comprising two or more axially spaced measuring devices for measuring deformation of the roller bore at axially spaced locations. 10. A bearing comprising: a roller having; a roller bore that extends through the roller about an axis thereof and accommodates; a measuring device for measuring deformation of the roller bore; a processor for receiving a deformation signal from the measuring device; and an antenna for wireless transmission of the processed deformation signal to an external receiver, wherein the measuring device, the processor and the antenna are mounted in a rigid housing that is shaped to fit within the roller bore, wherein the rigid housing is resiliently mounted to the roller bore via first and second sealing elements that enclose a radial gap between a radially inner surface of the roller bore and a radially outer surface of the housing, and wherein each sealing element is mounted between a stepped portion of the roller bore and a recess in the radially outer surface of the housing. 11. A sensorized roller for a bearing comprising: a roller bore that extends through the roller about an axis thereof and accommodates; a measuring device for measuring deformation of the roller bore; a processor for receiving a deformation signal from the measuring device; and an antenna for wireless transmission of the processed deformation signal to an external receiver, wherein the measuring device, the processor and the antenna are mounted in a rigid housing that is shaped to fit within the roller bore, wherein the rigid housing is resiliently mounted to the roller bore via first and second sealing elements that enclose a radial gap between a radially inner surface of the roller bore and a radially outer surface of the housing, and wherein the measuring device comprises a non-contact proximity sensor that measures a radial distance to the radially inner surface of the roller bore and wherein the radially outer surface of the housing comprises a corresponding aperture.