Roller-based drive systems with compliance for accommodating non-conjugate meshing

We claim: 1. An electric taxi system (ETS) for an aircraft comprising: a roller-based drive system; a gearbox having an output shaft assembly, the output shaft assembly including; a first shaft segment coupled to a driving element of the roller-based drive system, a second shaft segment coupled to a gear train of the gearbox, and a torsion spring; and a spring-load limiting system including; a flange of the first shaft segment, at least one slot in the flange, and at least one key coupled to the second shaft segment and to the torsion spring, wherein the at least one slot is larger than the at least one key, wherein the at least one key is engageable with a side of the at least one slot upon occurrence of a predetermined rotational deflection of the torsion spring, wherein the torsion spring is interposed between and coupled to the first shaft segment and the second shaft segment, to form a first torque-transmitting path through the output shaft assembly, and wherein the gearbox has a second torque-transmitting path in which the first shaft segment is connected to the second shaft segment through the spring-load limiting system. 2. The ETS of claim 1 wherein the roller-based drive system includes a chain attached circumferentially around a wheel of the aircraft. 3. The ETS of claim 2 wherein the chain is a roller chain. 4. The ETS of claim 1 wherein the roller-based drive system includes rollers attached directly to a wheel of the aircraft. 5. A drive system comprising; a sprocket having a plurality of driving elements; and a source of motive power drivably connected to the sprocket with a segmented output shaft assembly, wherein the output shaft assembly includes a first shaft segment rotatably coupled with a second shaft segment through a flexible connecting member, wherein, during non-conjugate meshing of one of the driving elements, the flexible member accommodates rotational displacement of the first shaft segment rotates relative to the second shaft segment, wherein a portion of the second shaft segment is concentric with and overlaps a portion of the first shaft segment, wherein a torsion spring is interposed between overlapped portions of the first shaft segment and the second shaft segment, wherein a first bushing is interposed between a cylindrical surface of the first end of the torsion spring and the overlapped portion of the second shaft segment, and wherein a second bushing is interposed between a cylindrical surface of the second end of the torsion spring and the overlapped portion of the first shaft segment. 6. The drive system of claim 5 wherein the first shaft segment is coupled to a first end of a torsion spring; and wherein the second shaft segment is coupled to a second end of the torsion spring opposite the first end. 7. An electric taxi system (ETS) for an aircraft comprising: a roller-based drive system; a gearbox having an output shaft assembly, the output shaft assembly including; a first shaft segment coupled to a driving element of the roller-based drive system, a second shaft segment coupled to a gear train of the gearbox, and a torsion spring; and a spring-load limiting system, wherein the torsion spring is interposed between and coupled to the first shaft segment and the second shaft segment, to form a first torque-transmitting path through the output shaft assembly, wherein the gearbox has a second torque-transmitting path in which the first shaft segment is connected to the second shaft segment through the spring-load limiting system, wherein the spring constant of the torsion spring is low enough so that the second torque-transmitting path is operational during initial ground movement of the aircraft, and wherein the spring constant of the torsion spring is high enough so that only the first torque-transmitting path is operational during taxiing of the aircraft at speeds higher than about 2 knots.