Outrigger pad assembly having a force sensor

What is claimed is: 1. An outrigger pad assembly comprising: a base having a bottom surface for engaging an underlying support surface and a top surface opposite to the bottom surface; a force sensor disposed on the top surface of the base; an interface body comprising: a lower cavity defined at least partially by a first inner sidewall; an upper cavity defined at least partially by a second inner sidewall; and a coupling body having a latch configured for selective coupling to and uncoupling from an outrigger jack; wherein the force sensor is disposed in the lower cavity in sliding contact with the first inner sidewall such that the interface body is movable relative to the force sensor. 2. The outrigger pad assembly of claim 1 , wherein the force sensor is a ball-shaped force sensor. 3. The outrigger pad assembly of claim 2 , wherein the lower cavity is frustoconical. 4. The outrigger pad assembly of claim 1 , wherein the upper cavity is frustoconical. 5. The outrigger pad assembly of claim 1 , wherein the force sensor includes a communication interface to transmit sensor data. 6. An outrigger assembly comprising: an outrigger jack configured for movement in a vertical direction, the outrigger jack having a free end; an outrigger pad assembly releasably coupled to the outrigger jack at the free end, the outrigger pad assembly comprising: a base having a bottom surface for contacting an underlying support surface and a top surface opposite to the bottom surface; a force sensor on the top surface of the base; an interface body comprising: a lower cavity defined at least partially by a first inner sidewall; an upper cavity defined at least partially by a second inner sidewall; and a coupling body having a latch configured to releasably engage a catch on the outrigger jack; wherein the force sensor is disposed in the lower cavity in sliding contact with the first inner sidewall such that the interface body is movable relative to the force sensor and the free end of the outrigger jack is disposed in the upper cavity. 7. The outrigger assembly of claim 6 , wherein the force sensor is a ball-shaped force sensor and includes a communication interface to transmit sensor data. 8. The outrigger assembly of claim 7 , wherein the lower cavity is frustoconical. 9. The outrigger assembly of claim 6 , wherein the coupling body is ring-shaped and the upper cavity extends through the coupling body. 10. The outrigger assembly of claim 6 , further comprising an outrigger box and an outrigger arm telescopically mounted to the outrigger box and configured for telescoping movement relative to the outrigger box, wherein the outrigger jack is mounted at a free end of the outrigger arm. 11. A lifting vehicle comprising: a carrier; a superstructure mounted on the carrier, the superstructure having a lifting implement; an outrigger jack connected to the carrier, the outrigger jack configured for vertical movement relative to the carrier; an interface body coupled to the outrigger jack, the interface body having a lower cavity defined at least partially by a first inner sidewall and an upper cavity defined at least partially by a second inner sidewall, wherein a free end of the outrigger jack is disposed in the upper cavity; and an outrigger pad having a base and a force sensor mounted to the base, wherein the force sensor is disposed in the lower cavity in sliding contact with the first inner sidewall such that the interface body is movable relative to the force sensor. 12. The lifting vehicle of claim 11 , wherein the force sensor is a ball-shaped force sensor and includes a communication interface to transmit sensor data. 13. The lifting vehicle of claim 12 , further comprising a crane control system, wherein the crane control system is communicably connected to the sensor to receive the sensor data. 14. The lifting vehicle of claim 11 , wherein the interface body is coupled to the outrigger jack with a spring-loaded latch.