Bicycle axle assembly including a power meter

What is claimed is: 1. An axle assembly for a bicycle, the axle assembly comprising: an axle having an inner wall extending along a length of the axle between a first end and a second end of the axle, the inner wall at least partially defining a first volume and a second volume within the axle, the first volume having a first diameter and the second volume having a second diameter that is greater than the first diameter, the first volume being closer than the second volume to the first end of the axle; and a sensor attached to the inner wall of the axle within the second volume of the axle. 2. The axle assembly of claim 1 , further comprising a sensor assembly, the sensor assembly comprising a fixed portion, the fixed portion including the sensor and at least part of the fixed portion being positionally fixed relative to the axle, wherein the sensor of the fixed portion of the sensor assembly is disposed entirely within the second volume of the axle. 3. The axle assembly of claim 2 , wherein the sensor assembly further comprises a removable portion, the removable portion being removably attachable and electrically connectable to the fixed portion, and wherein at least part of the removable portion of the sensor assembly is disposed within the first volume of the axle. 4. The axle assembly of claim 3 , wherein the sensor assembly is a power meter, and wherein the sensor is a strain gauge. 5. The axle assembly of claim 4 , wherein the strain gauge is a first strain gauge, wherein the fixed portion of the sensor assembly further comprises a second strain gauge, and wherein the first strain gauge and the second strain gauge are attached to the inner wall within the second volume of the axle, such that the first strain gauge and the second strain gauge are opposite each other. 6. The axle assembly of claim 5 , wherein the removable portion of the sensor assembly comprises a power source electrically connectable to the first strain gauge and the second strain gauge. 7. The axle assembly of claim 6 , wherein the fixed portion of the sensor assembly further comprises a circuit board electrically connected to the first strain gauge and the second strain gauge, and wherein the power source is electrically connected to the first strain gauge and the second strain gauge via the circuit board. 8. The axle assembly of claim 7 , wherein the fixed portion of the sensor assembly further comprises a memory electrically connected to the circuit board, and wherein the memory is configured to store calibration data for the sensor assembly. 9. The axle assembly of claim 7 , wherein the fixed portion of the sensor assembly further comprises an analog-to-digital (A/D) converter supported by the circuit board, the A/D converter being in communication with the first strain gauge and the second strain gauge, wherein the first strain gauge is configured to generate a first analog signal, and the second strain gauge is configured to generate a second analog signal, the first analog signal and the second analog signal being analog representations of strain on the axle, respectively, wherein the A/D converter is configured to convert the first analog signal to a first digital signal, convert the second analog signal to a second digital signal, generate a third digital signal that is based on the first analog signal and the second analog signal, or any combination thereof, the first digital signal, the second digital signal, and the third digital signal being digital representations of strain on the axle, respectively, and wherein the fixed portion of the sensor assembly is configured to transmit the first digital signal, the second digital signal, the third digital signal, or any combination thereof to the removable portion of the sensor assembly when the removable portion of the sensor assembly is electrically connected to the fixed portion of the sensor assembly. 10. The axle assembly of claim 7 , wherein the fixed portion of the sensor assembly further comprises an amplifier in communication with the first strain gauge and the second strain gauge, wherein the first strain gauge is configured to generate a first analog signal, and the second strain gauge is configured to generate a second analog signal, the first analog signal and the second analog signal being analog representations of strain on the axle, respectively, wherein the amplifier is configured to amplify the first analog signal to a first amplified analog signal, amplify the second analog signal to a second amplified analog signal, amplify a signal based on the first analog signal and the second analog signal to a third amplified analog signal, or any combination thereof, and wherein the fixed portion of the sensor assembly is configured to transmit the first amplified analog signal, the second amplified analog signal, the third amplified analog signal, or any combination thereof to the removable portion of the sensor assembly when the removable portion of the sensor assembly is electrically connected to the fixed portion of the sensor assembly. 11. The axle assembly of claim 5 , wherein the fixed portion of the sensor assembly comprises a radially expandable applicator attached to the first strain gauge and the second strain gauge, the radially expandable applicator operable to move the first strain gauge and the second strain gauge radially outwards until the first strain gauge and the second strain gauge are physically connected to the inner wall. 12. The axle assembly of claim 11 , wherein the fixed portion of the sensor assembly further comprises a first layer of adhesive disposed on the first strain gauge and a second layer of adhesive disposed on the second strain gauge, the first strain gauge and the second strain gauge being attached to the inner wall of the axle via the first layer of adhesive and the second layer of adhesive, respectively. 13. The axle assembly of claim 12 , wherein the fixed portion of the sensor assembly further comprises: a first layer of material having a first side and a second side opposite the first side, the first side of the first layer of material being attached to the radially expandable applicator and the second side of the first layer of material being attached to the first strain gauge; and a second layer of material having a first side and a second side opposite the first side, the first side of the second layer of material being attached to the radially expandable applicator and the second side of the second layer of material being attached to the second strain gauge. 14. The axle assembly of claim 13 , wherein the first layer of material and the second layer of material are made of rubber or silicon. 15. The axle assembly of claim 11 , wherein the fixed portion of the sensor assembly further comprises a base attached to the inner wall of the axle, and wherein the radially expandable applicator is physically connected to the base, such that a depth of the radially expandable applicator relative to the first end of the axle is fixed and a clocking of the radially expandable applicator is fixed relative to the inner wall. 16. A crankset for a bicycle, the crankset comprising: an axle having an inner wall extending along a length of the axle between a first end and a second end of the axle, the inner wall at least partially defining a first volume and a second volume within the axle, the first volume having a first diameter and the second volume having a second diameter that is greater than the first diameter, the first volume being closer than the second volume to the first end of the axle; a first arm