Elevator rope sway mitigation

The invention claimed is: 1. A method of operating an elevator system comprising: detecting a building sway which causes sway of elevator suspension or compensation members; switching an elevator control system into a building sway mode; and changing operation of one or more elevator cars of the elevator system via the building sway mode to mitigate vibratory effects of the building sway on the one or more elevator cars, wherein changing operation of one or more elevator cars comprises assigning a false call to an elevator car of the one or more elevator cars to stop the elevator car or giving priority to the elevator car for a call at an intermediate floor to stop the elevator car. 2. The method of claim 1 , wherein changing operation of one or more elevator cars comprises: stopping an elevator car during travel; reducing a sway amplitude of suspension or compensation members operably connected to the elevator car via the stoppage; and restarting movement of the elevator car. 3. The method of claim 1 , wherein changing operation of the one or more elevator cars comprises limiting a continuous length of time an elevator car may spend at a floor or number of floors defined as a critical zone with regard to suspension or compensation member sway. 4. The method of claim 3 , wherein the controller accepts a limited number of stops in the critical zone, directing the elevator car out of and into the critical zone between stops to reduce a continuous amount of time the elevator car spends in the critical zone. 5. A method of operating and elevator system, comprising: detecting a building sway which causes sway of elevator suspension or compensation members; switching an elevator control system into a building sway mode; and changing operation of one or more elevator cars of the elevator system via the building sway mode to mitigate vibratory effects of the building sway on the one or more elevator cars; wherein changing operation of the one or more elevator cars comprises limiting a continuous length of time an elevator car may spend at a floor or number of floors defined as a critical zone with regard to suspension or compensation member sway, and further including: configuring individual elevator cars of the elevator system with critical zones at different levels in the building; and utilizing the controller to direct passengers to selected elevator cars such that a destination of each passenger is not within the critical zone for the elevator car to which they are assigned, thereby limiting continuous time of the elevator cars in their respective critical zones. 6. The method of claim 5 , wherein the critical zones are configured by installing different tie down mass at each elevator car. 7. The method of claim 5 , wherein the controller directs passengers to the selected elevator cars. 8. The method of claim 5 , wherein the controller disables selection of floors within the critical zone for the individual elevator car.