An elevator system, including at least one first guide rail, which is oriented in a first, in particular vertical, direction, at least one second guide rail, which is oriented in a second, in particular horizontal, direction, a plurality of rotatable rail segments, wherein at least one thereof is transferable between an orientation in the first direction and an orientation in the second direction, at least one elevator cab, which is transportable along the guide rails and which, via the rotatable rail segments, is transferable between the different guide rails, at least one third guide rail, which is oriented in a third, in particular horizontal, direction, and wherein at least one of the rotatable rail segments is transferable between an orientation in the first or second direction into an orientation in the third direction.

According to an example embodiment, an apparatus for scheduling elevator transport in an elevator system comprising one or more elevators is provided. The apparatus may be configured to: obtain, for a plurality of passengers, a respective transport request for elevator transport using said one or more elevators, the transport request comprising at least respective indications of an origin floor, a destination floor and a requested transport time window; derive, in dependence of said plurality of transport requests, a transport schedule that includes a respective transport allocation for each of said plurality of passengers, wherein a transport allocation for a passenger is derived in accordance with the requested transport time window indicated for the respective passenger, in view of transport allocations derived for other passengers and in view of a transport capacity of said one or more elevators and wherein the transport allocation for a passenger comprises at least a scheduled transport time for the respective passenger; and operate said one or more elevators in accordance with the derived transport schedule.

A method and an apparatus for computing allocation decisions in an elevator system is provided. Historical passenger batch journey data relating to the elevator system is obtained, wherein each passenger batch journey includes an origin and a destination floor of the journey, the number of passengers of the journey and the time of the journey. Historical passenger traffic statistics are constructed based on the passenger batch journey data, and expected calls are modelled based on the passenger traffic statistics. The modelled expected call is taken into account in computing subsequent allocation decisions in the elevator system.

A method of assigning destination call in an elevator group forms chromosomes including genes where each gene is a correlation of a call and an elevator trip, the possible round trips are calculated, each round trip is evaluated for optimization procedure. The calls are assigned to the elevators by the destination call control based on the best chromosome determined.

A method of operating a building elevator system within a building having a plurality of floors is provided. The method including: controlling a first elevator group composed of one or more elevator systems configured to serve a plurality of floors within a first sector, the one or more elevator systems in the first elevator group further include a first elevator car; controlling a second elevator group composed of one or more elevator systems configured to serve a plurality of floors within a second sector, the one or more elevator systems in the second elevator group further include a second elevator car; monitoring usage of the first elevator group and second elevator group; and reassigning at least one of the one or more elevator systems of the second elevator group to the first elevator group in response to usage of the first elevator group and usage of the second elevator group.

A method includes receiving, by a computing device comprising a processor, registration information associated with a tenant of a building and at least one user device, determining, by the computing device, that the at least one user device is within a threshold distance of the building, causing, by the computing device, an identity of the tenant to be provided by the at least one user device based on the determination that the at least one user device is within the threshold distance of the building, and causing, by the computing device, an elevator car to be dispatched to a floor of the building on which the tenant is located.

In an approach for determining an optimal path for an elevator, a processor receives information, wherein the information includes social media data associated with a user and calendar entries associated with the user, indicating one or more locations within a building. A processor analyzes the received information. A processor determines a location to send an elevator within the building to minimize movement of the elevator, based on the analyzed information. A processor causes the elevator to move to the location.

In an approach for determining an optimal path for an elevator, a processor receives information, wherein the information includes social media data associated with a user and calendar entries associated with the user, indicating one or more locations within a building. A processor analyzes the received information. A processor determines a location to send an elevator within the building to minimize movement of the elevator, based on the analyzed information. A processor causes the elevator to move to the location.

A method for controlling a lift installation having a plurality of cabins that can each stop at a number of floors may involve assigning calls placed outside the cabins to the cabins by way of a lift controller based on at least one assignment criterion. The method may involve considering a current traffic situation of the lift installation during the assignment. The method may further involve generating and considering a forecast of a future traffic situation of the lift installation during the assignment. The forecast may account for personal information of at least one of a person who is in a predetermined environment of the lift installation, a person who is in a section of the lift installation, a person who enters a predetermined environment of the lift installation, or a person who leaves a predetermined environment of the lift installation.

A method for positioning a plurality of elevator cars that includes determining an occupant count for each of a plurality of locations, by determining the number of occupants exiting the plurality of elevator cars at each of the plurality of locations and the number of occupants entering the plurality of elevator cars from each of the plurality of locations. The method includes moving at least one of the plurality of elevator cars to a first location with a total occupant count that is greater than the occupant count at each respective location of the plurality of locations when the at least one of the plurality of elevator cars is in an inactive state.