The invention refers to an arrangement for the allocation of destination calls in an elevator system with at least two elevators, comprising a wireless transmitter device connected with an allocation control of the elevator system. The transmitter device interacts within a certain mutual distance with a wireless ID device carried by a passenger, which ID device is configured to transmit to the transmitter device an ID which is linked with a special transportation service in the elevator system. The elevator system comprises a memory with correlated operation parameters of the elevators which are linked to the particular special transportation service request of the ID device, whereby the ID device is configured to transmit ID data and/or a call with a departure floor and destination floor to the allocation control. The transmitter device is located within a transmitter accommodation space located at least in the vicinity of an elevator, whereby the transmitter device is located in the vicinity of a tag carrying a symbol correlated to the special transportation service.

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 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.

An elevator system for a building comprises an elevator controller and an elevator car movable in an elevator shaft. At least one first floor or first floor area for a first user group and at least one second floor or second floor area for a second user group are defined in the building. A memory device saves this definition and an operating mode assigned thereto for each user group. During operation, a first elevator call is received and analyzed by the elevator controller to determine a first call input floor and/or a first destination floor. An operating mode is ascertained based on the first call input floor and/or the first destination floor. According to this operating mode, the elevator car is controlled by the elevator controller.

According to an aspect, there is provided a method and a system for construction time use of at least one elevator car of an elevator system. A hauling call may be generated for at least one transportable entity, the hauling call defining a departure floor and a destination floor. An extended door time may be set for the departure floor and the destination floor. The hauling call may be allocated to an elevator car, and other calls may be prevented from being allocated to the elevator car simultaneously with the hauling call between the departure floor and the destination floor.

Provided are an elevator charging system, a management server, a moving body, a moving body server, a charging method, and a storage medium storing program that make it possible to charge usage fees reflecting the demand of moving bodies. In a charging system (1), cars (5) transport moving bodies (11) between a plurality of floors. A communication unit (7a) receives usage requests each corresponding to one of the moving bodies (11). Each of the requests includes information about a call requesting assignment to one of the cars (5), and information about a desired price for a usage fee. An assignment unit (8) assigns each call to one of the cars (5) while prioritizing calls in requests having higher priority, based on information including the desired prices. A storage unit (9a) stores therein the fees charged for the requests of which the calls have been assigned.

An elevator system is provided. The system comprises a first acquisition unit that acquires an image in a car of an elevator and an image of a landing of the elevator; a first generation unit that generates first learning data from the acquired images; a learning unit that performs learning using the first learning data, thereby generating a first learned model; a second generation unit that generates input data from a new image; an estimation unit that estimates, by applying the input data to the first learned model, whether the person on the landing of the elevator, which is included in the new image, gets in the elevator; and a control unit that controls an operation of the elevator based on an estimation result.

A method, system, and computer program product for occupant-based elevator actions are provided. The method identifies a set of subjects approaching a set of elevators to generate a set of identities for the set of subjects. A set of initial priority statuses are generated for the set of subjects. Based on the set of identities and the set of initial priority statuses, an elevator dispatch solution is determined. The method updates at least a portion of the initial priority statuses to generate a set of subsequent priority statuses in response to a subset of subjects entering at least one elevator. The method determines an isolation response for a first subject of the subset of subjects and modifies the elevator dispatch solution based on the isolation response to generate an isolation dispatch solution. The at least one elevator executes the isolation dispatch solution.

A method of controlling an elevator includes detecting that a robot providing a service on a floor within a building has gotten on an elevator moving through floors within the building, and controlling the elevator to move to a floor where the robot is to provide the service. At least one of the internal user interface and the external user interface of the elevator is configured to indicate whether the robot is using the elevator.

A method of controlling a first elevator system comprising a first elevator car is including: receiving a first elevator call from a first robot for the first elevator system to transport the first robot from a first elevator bank on a landing to a destination landing; and adjusting operation of at least one of the first robot and the first elevator system.