The invention relates to an operational entity for controlling movement of a plurality of elevator cars of a multicar elevator system. The operational entity has a user interface comprising a first input element and a second input element. The user interface is configured to: generate, on the basis of the first input element, an indication of selection of at least one elevator car from among a plurality of elevator cars to be moved; and generate, on the basis of the second input element, one or more control signals indicative of a request to control the movement of the selected at least one elevator car to a predefined direction. The invention relates also to a multicar elevator system comprising an operational entity.

An elevator operation management device (600) performs operation management of a plurality of elevator cars. A machine-learning unit (601) performs machine-learning using operation data which indicates an operation status of the plurality of elevator cars, and generates an operation management algorithm which is an algorithm used for operation management of the plurality of elevator cars. The control unit (602) executes the operation management algorithm generated by the machine-learning unit (601), and performs operation management of the plurality of elevator cars.

A method for operating a multi-car elevator system having a shaft system with at least one lift shaft, a plurality of elevator cars that can be moved individually in the shaft system, and a control system. Data about the cars is provided at time intervals. When the provision of data relating to a first car fails, a shaft position of said first car is determined. A quarantine section of the shaft system is determined, in which the first car is located by means of the determined shaft position, and the determined quarantine section is blocked for the other cars of the system. The invention further relates to a multi-car elevator system configured for the implementation of such a method.

A method and system for providing destination dispatch in an elevator control system, includes identifying a user, retrieving a user profile associated with the user, receiving a destination request associated with the user, analyzing the user profile and the destination request, determining a plurality of assignments, identifying a preferred assignment of the plurality of assignments, and prompting the user to opt-out of the preferred assignment.

Disclosed is an elevator system having a plurality of elevators including a first elevator and a second elevator, and a controller that controls the plurality of elevators and communicates over a network with a first device seeking elevator service at a lobby, wherein the controller: receives a first request from the first device to receive elevator service, provides the first device a first priority number, based on the first priority number and remaining elevator capacity in the plurality of elevators, effects a first assignment wherein the first elevator is assigned to service the first request.

A control system, installation, and methods for an elevator installation includes at least two elevator cars moveable in at least two shaft segments. The system has at least two shaft control units and at least two elevator car control units. Each of the shaft control units is configured to be respectively assigned to one of the shaft segments and each of the elevator car control units is configured to be respectively assigned to one of the elevator cars. The control system is configured to provide a mutual first communication link between the shaft control units. The control system is configured, for each of the shaft segments, to respectively provide a second communication link between the elevator car control units which are assignable to the elevator cars and the shaft control unit which is assignable to the respective shaft segment.

According to an aspect, a method includes receiving a passenger request to reserve an elevator car of an elevator system to travel to a targeted destination. At least two different travel options to the targeted destination are determined based on a plurality of elevator car travel plans comprising at least two elevator cars having different travel ranges. The at least two different travel options are output to an interactive display. At least one of the at least two elevator cars is reserved responsive to a user selection of one of the at least two different travel options.

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.

According to one embodiment, a method of operating an elevator system having at least one lane is provided. The method comprising: detecting a failure in the elevator system; detecting a location of the failure within the elevator system; determining a traffic pattern of the elevator car in response to the location of the failure, the traffic pattern operable to direct the elevator car to avoid the location of the failure; and moving the elevator car in accordance with the traffic pattern selected.

According to one embodiment, a method of operating an elevator system having at least one lane is provided. The method comprising: detecting a failure in the elevator system; detecting a location of the failure within the elevator system; determining a traffic pattern of the elevator car in response to the location of the failure, the traffic pattern operable to direct the elevator car to avoid the location of the failure; and moving the elevator car in accordance with the traffic pattern selected.