Elevator door friction belt drive including one or more markers

What is claimed is: 1. An elevator system, comprising: a linkage adapted to attach to an elevator door; a friction belt drive adapted to move the elevator door with the linkage between an open position and a closed position, the friction belt drive including a v-belt with one or more markers arranged along a length of the v-belt; and a control system adapted to control the friction belt drive, the control system including a sensor adapted to detect at least one of the markers; wherein a first of the markers is configured as a protrusion or an aperture. 2. The elevator system of claim 1 , wherein the first of the markers is configured as the protrusion. 3. The elevator system of claim 1 , wherein the first of the markers is configured as a through-hole. 4. The elevator system of claim 1 , wherein the first of the markers is configured as a dimple. 5. The elevator system of claim 1 , wherein the v-belt has a trapezoidal cross-sectional geometry. 6. The elevator system of claim 1 , wherein the v-belt forms a loop and extends between an inner belt side and an outer belt side; and the markers are arranged at the inner belt side. 7. The elevator system of claim 1 , wherein the v-belt forms a loop and extends between an inner belt side and an outer belt side; and the markers are arranged at the outer belt side. 8. The elevator system of claim 1 , wherein the sensor is configured as one of a proximity sensor, an optical sensor, a touch sensor, a magnetic sensor and a near field sensor. 9. The elevator system of claim 1 , wherein the friction belt drive further includes a motor, a first sheave connected to the motor, and a second sheave; and the v-belt wraps around the first and the second sheaves. 10. The elevator system of claim 9 , wherein the first sheave is configured as a plain sheave. 11. The elevator system of claim 9 , wherein the motor is adapted to rotate the first sheave in response to receiving a control signal; the sensor is adapted to provide a sensor signal indicative of a position of at least one of the markers; and the control system further includes a controller adapted to receive the sensor signal; and provide the control signal as a function of the sensor signal to at least partially compensate for slippage between the v-belt and the first sheave. 12. The elevator system of claim 9 , wherein the sensor is adapted to provide a sensor signal indicative of a position of at least one of the markers; and the control system is adapted to determine a position of the elevator door as a function of the sensor signal. 13. The elevator system of claim 9 , wherein the friction belt drive further includes a second motor that is connected to the second sheave. 14. The elevator system of claim 1 , further comprising: the elevator door; wherein the elevator door includes one or more door panels; and wherein the linkage is attached to at least one of the one or more door panels. 15. An elevator system, comprising: a linkage adapted to attach to at least one panel of an elevator door; a friction belt drive adapted to move the elevator door with the linkage between an open position and a closed position, the friction belt drive including: a motor; a plurality of sheaves including a first sheave connected to the motor; and a cogged belt wrapped around the sheaves, and including a plurality of cogs; and a sensor adapted to detect at least one of the cogs. 16. The elevator system of claim 15 , wherein the cogged belt is configured as a v-belt with a plurality of protrusions arranged along a length of the v-belt. 17. The elevator system of claim 16 , further comprising a control system adapted to control the friction belt drive, the control system including the sensor. 18. A system for moving a door between an open position and a closed position, the system comprising: a motor; a plurality of sheaves including a plain sheave connected to the motor; a v-belt wrapped around the sheaves, and including one or more markers arranged along a length of the v-belt, wherein a first of the markers is configured as one of a protrusion and an aperture; a linkage adapted for connecting the v-belt to the elevator door; and a control system adapted to control the motor, the control system including a sensor adapted to detect at least one of the markers. 19. The system of claim 18 , wherein the control system further includes a controller adapted to receive the sensor signal from the sensor, and provide a control signal to the motor as a function of the sensor signal to at least partially compensate for slippage between the v-belt and the plain sheave.