Elevator system

What is claimed is: 1. An elevator system comprising: an elevator car comprising one or more service appliances; a hoistway in which the elevator car moves; a feed source and a fluid source associated to a hoistway wall; a travelling cable connected to the elevator car and to the hoistway wall, wherein the travelling cable comprises an electric conductor and/or a data carrier operatively connected at a first end to the feed source and at a second end to the service appliances of the elevator car, a protective layer comprising an outer diameter and surrounding the electric conductor and/or data carrier, and a duct connected at a first open end to the fluid source and at a second openable end to the elevator car; a sensor system configured for detecting a swaying amplitude of the travelling cable and comprising a sensing tool included into the travelling cable and operatively connected to an optical equipment associated to the elevator car or the hoistway wall; and a microprocessor associated to the sensor system and to the fluid source, the microprocessor being configured for receiving swaying amplitude data from the sensor system and for operating the fluid source when the swaying amplitude exceeds a predetermined threshold. 2. The elevator system according to claim 1 , wherein the protective layer of the travelling cable surrounds the duct. 3. The elevator system according to claim 1 , wherein the travelling cable comprises a jacket surrounding the protective layer and the duct. 4. The elevator system according to claim 1 , wherein the travelling cable comprises a jacket having an inner diameter and a gap between the jacket inner diameter and the outer diameter of the protective layer, the gap comprising the duct. 5. The elevator system according to claim 1 , wherein the sensing tool is surrounded by the protective layer. 6. The elevator system according to claim 1 , wherein the optical equipment is installed at a position in vicinity of the fluid source and of the feed source. 7. The elevator system according to claim 1 , wherein the microprocessor is connected to the optical equipment. 8. The elevator system according to claim 1 , wherein the sensor system comprises a position monitoring system with one or more cameras associated to the elevator car or to the hoistway. 9. The elevator system according to claim 1 , wherein the sensor system comprises a laser based position monitoring system comprising a plurality of laser telemeters associated with the elevator car and/or the hoistway. 10. The elevator system according to claim 9 , wherein the laser telemeters are positioned in a substantially circular array. 11. The elevator system according to claim 1 , further comprising an auxiliary fluid source associated to the elevator car and operatively connected to the second openable end of the duct and to the microprocessor. 12. A method for operating an elevator system, the method comprising: providing an elevator car in a hoistway having at least one wall; providing a feed source and a fluid source associated to a hoistway wall; providing a travelling cable connected to the elevator car and to the hoistway wall, wherein the travelling cable comprises: an electric conductor and/or data carrier operatively connected at a first end to the feed source and at a second end to a service appliance of the elevator car, a protective layer surrounding the electric conductor and/or data carrier, and a duct connected at a first open end to the fluid source and at a second openable end to the elevator car; providing a sensor system associated to the elevator car and/or to the hoistway; providing a microprocessor associated to the sensor system and to the fluid source; setting a threshold for a swaying amplitude of the travelling cable; detecting, by the sensor system, the swaying amplitude of the travelling cable during the operation of the elevator system, by measuring deformation of the travelling cable by a sensing tool of the sensor system, the sensing tool being disposed within the travelling cable and operatively connected to an optical equipment; sending data relating the swaying amplitude detected at the sensor system to the microprocessor; and at the crossing of the threshold, operating the fluid source to pressurize the duct of the travelling cable until the swaying amplitude of the travelling cable returns below the threshold, wherein swaying of the travelling cable is damped by the operating. 13. The method according to claim 12 , wherein the sensing tool is surrounded by the protective layer, wherein the optical equipment is installed at a position in vicinity of the fluid source and of the feed source, wherein the microprocessor is connected to the optical equipment. 14. The method according to claim 12 , wherein detecting the swaying amplitude comprises monitoring the travelling cable with one or more cameras associated to the elevator car or to the hoistway. 15. The method according to claim 12 , wherein detecting the swaying amplitude comprises monitoring the travelling cable with a laser based position monitoring system comprising a plurality of laser telemeters associated to the elevator car and/or the hoistway, wherein the laser telemeters are positioned in a substantially circular array. 16. The method according to claim 12 , further comprising at the crossing of the threshold, operating an auxiliary fluid source to operatively connect to the second openable end of the duct, wherein the duct is pressurized by a combined action of the fluid source and the auxiliary fluid source. 17. An elevator system comprising: a travelling cable connected to an elevator car and to a hoistway wall, wherein the travelling cable comprises an electric conductor and/or a data carrier operatively connected at a first end to a feed source and at a second end to service appliances of the elevator car, a protective layer comprising an outer diameter and surrounding the electric conductor and/or data carrier, and a duct connected at a first open end to a fluid source and at a second openable end to the elevator car; a sensor system configured for detecting swaying amplitude of the travelling cable; and a microprocessor associated to the sensor system and to the fluid source, the microprocessor being configured for receiving swaying amplitude data from the sensor system and for operating the fluid source when the swaying amplitude exceeds a predetermined threshold, wherein the sensor system comprises a sensing tool disposed within the travelling cable and operatively connected to an optical equipment. 18. The elevator system according to claim 17 , wherein the sensing tool is surrounded by the protective layer, wherein the optical equipment is installed at a position in vicinity of the fluid source and of the feed source, and wherein the microprocessor is connected to the optical equipment. 19. The elevator system according to claim 18 , wherein the sensing tool comprises an optical fiber with a Bragg-grating structure along a longitudinal axis of the optical fiber, and wherein the sensing tool is configured to detect deformation of the travelling cable during operation.