Coupler load measurement for work vehicle

What is claimed is: 1. A coupler assembly for coupling a work implement to a work vehicle, comprising: a coupler mounted to the work vehicle and to the work implement, the coupler having a first connection interface for the work vehicle and a second connection interface for the work implement; at least one force sensor mounted to the coupler and configured to collect force data associated with force transferred by the coupler assembly from the work implement to the work vehicle; and at least one acceleration sensor mounted to the coupler and configured to collect acceleration data associated with acceleration of the coupler assembly during operation; wherein the acceleration sensor and the force sensor are configured to be coupled to a controller that receives and processes the force data and the acceleration data to determine a mass of a load of the work implement; and wherein the force sensor and the acceleration sensor are located at one or more of the first and second connection interfaces, and the force sensor collects the force data in the form of deflection or deformation values associated with deflections or deformations at one or more of the first and second connection interfaces resulting from the work implement interacting with a load. 2. The coupler assembly of claim 1 , wherein the acceleration sensor is configured to measure the acceleration data in at least two axes and the force sensor is configured to measure the force data in the at least two axes. 3. The coupler assembly of claim 1 , wherein the coupler includes: a plate assembly with a mounting hole; and a pin extending through the mounting hole to attach the coupler to a linkage of the work vehicle; wherein the force sensor includes a deformable bushing mounted to the pin and an induction sensor on the plate assembly to measure deformation of the deformable bushing as the force data. 4. The coupler assembly of claim 1 , wherein the coupler includes a first pair of mounting plates defining a first pair of mounting holes and a first pin, the first pin extending through the first pair of mounting holes and configured to connect to a lift arm of the work vehicle at the first connection interface; and wherein the force sensor is incorporated into the first pin. 5. The coupler assembly of claim 1 , wherein the coupler includes a support plate defining a linkage hole and a first pin, the first pin extending through the linkage hole and configured to connect to a tilt arm linkage of the work vehicle at the first connection interface; wherein the force sensor is incorporated into the first pin. 6. The coupler assembly of claim 1 , wherein the coupler includes a plurality of support plates and a cross member extending between the support plates to form the second connection interface; and wherein the force sensor is incorporated into the cross member. 7. The coupler assembly of claim 1 , wherein the coupler includes: a body element; a first mounting plate mounted to the body element and defining a first mounting hole; a second mounting plate mounted to the body element and defining a second mounting hole aligned with the first mounting hole; and a cross member extending between the first and second mounting holes that forms the first connection interface; wherein the force sensor collects the force data in the form of deflection values associated with deflections of the cross member resulting from the work implement interacting with a load. 8. The coupler assembly of claim 7 , wherein the force sensor is at least one of a strain gauge incorporated into the cross member or an induction sensor mounted to at least one of the body element, the first mounting plate, and the second mounting plate. 9. The coupler assembly of claim 1 , wherein the acceleration sensor is an inertial measurement unit (IMU). 10. A work vehicle, comprising: a chassis supported by ground-engaging wheels or tracks; a machine linkage coupled to the chassis; a coupler connected to the machine linkage; a work implement mounted to the coupler for carrying a load with a mass; and a load measurement system, including: at least one force sensor mounted to at least one of the machine linkage, the coupler assembly, and the work implement and configured to collect force data associated with force transferred between at least one of the machine linkage and coupler assembly or the coupler assembly and the work implement; at least one acceleration sensor mounted to at least one of the machine linkage, the coupler assembly, or the work implement to collect acceleration data associated with acceleration of the load during operation, wherein at least one of the force sensor and the acceleration sensor is incorporated into the coupler; and a controller coupled to the force sensor and the acceleration sensor and configured to receive and process the force data and the acceleration data to determine the mass of the load; wherein the force sensor collects the force data in the form of deflection or deformation values associated with deflections or deformations of one or more components of the coupler resulting from the work implement interacting with the load. 11. The work vehicle of claim 10 , wherein the load measurement system includes an output device coupled to the controller and configured to output an indication of the determined mass. 12. The work vehicle of claim 10 , wherein the machine linkage includes at least one lift arm attached to the coupler to lift the coupler and the work implement and at least one tilt arm to tilt the coupler and the work implement; and wherein the force sensor includes a strain gauge for measuring strain along the tilt arm as the force data. 13. The work vehicle of claim 10 , wherein the machine linkage includes at least one linkage arm defining a first mounting hole; and wherein the coupler includes: a plate assembly with a second mounting hole; and a pin extending through the first mounting hole and the second mounting hole to attach the coupler to the machine linkage; and wherein the force sensor includes a deformable bushing positioned within the first mounting hole between the pin and the machine linkage and an induction sensor positioned on the plate assembly to measure a deformation of the deformable bushing as the force data. 14. The work vehicle of claim 10 , wherein the machine linkage includes first lift arm defining a first linkage mounting hole, a second lift arm defining a second linkage mounting hole, and at least one tilt arm defining a third linkage mounting hole; and wherein the coupler includes: a body element; a first pair of mounting plates extending from the body element and defining a first set of coupler mounting holes; a first pin extending through the first linkage mounting hole and the first set of coupler mounting holes to attach the coupler to the machine linkage, a second pair of mounting plates extending from the body element and defining a second set of coupler mounting holes; a second pin extending through the second linkage mounting hole and the second set of coupler mounting holes to attach the coupler to the machine linkage; a third pair of mounting plates extending from the body element and defining a third set of coupler mounting holes; a third pin extending through the third linkage mounting hole and the third set of coupler mounting holes to attach the coupler to the machine linkage. 15. The work vehicle of claim 14 , wherein the force sensor includes: first, second, and third deformable bushings respectively positioned within the first, second, and third linkage mounting