An elevator control method for an elevator system including cars movable in an elevator shaft of a building the building being dividable into serving sectors each serving sector including at least one floor to be served by a car, and a recording device for recording car usage data, the recording device being dedicated to the cars, wherein the recording device forwards the car usage data to an elevator controller receiving the car usage data for creating car-logbook-data. The method of division of the serving sectors is decided on evaluation-analysis of the car-logbook-data by gathering and storing the car usage data over a period of time into a memory of the elevator controller and allocating a serving sector in dependency of the evaluation-analysis of the car usage data respectively.

A method for operating an elevator system can be used with elevator systems that include at least two cars and at least two vertically extending elevator shafts where the at least two cars can be moved between the at least two elevator shafts. In a first operating mode transportation operations are performed by the at least two cars in the at least two elevator shafts. In a second operating mode a location of at least one of the at least two cars is restricted to at least one region of at least one of the at least two elevator shafts. In the second operating mode, the at least one of the at least two cars is not available for transportation operations in remaining regions of the at least two elevator shafts.

A method of allocating calls of a lift installation with at least one lift and at least one car per lift to move passengers in a journey from at least one input floor to at least one destination floor, a system for executing the method and a computer readable memory with instructions for executing the method. The method includes receiving input calls from passengers travelling from an input floor to a destination floor, each call identifying at least one floor as an input floor or a destination floor. A start zone with identified input floors and a destination zone with identified destination floors are determined from the input calls and destination calls. Each identified floor within a corresponding zone is considered using at least one selection criterion and a stopping floor is selected which satisfies the criterion. The car is caused to stop at fewer than all the identified input floors and identified destination floors during the journey.