A method of managing mobile elevator call requests from a mobile device is provided. The method includes: receiving an elevator call parameter from a management interface; receiving at least one mobile elevator call request from a mobile device; comparing the mobile elevator call request to the elevator call parameter; and restricting the mobile device from sending additional mobile elevator call requests when the mobile elevator call request conflicts with the elevator call parameter.

An elevator system includes an elevator car, a call panel, a controller, and a floor cancellation feature. The elevator car is adapted to travel in a hoistway defined by a building and between floors of the building. The call panel is located for passenger interaction, includes a plurality of floor selections, and communicates with the controller. The floor cancellation feature is associated with at least one of the call panel and the controller. The controller is configured to operate between a floor cancellation permit state and a floor cancellation restricted state, thereby respectively enabling and disabling the floor cancellation feature, and track at least one event associated with the floor cancellation restricted state.

Method for handling erroneous calls in an elevator system, which includes at least one elevator, call-giving devices for registering calls on the floor levels and/or in the elevator car, and also a control system that responds to the aforementioned calls. One or more calls given by a passenger are registered, it is assessed on the basis of at least one criterion whether some call is erroneous, and at least one corrective action is performed for removing a call, or for rectifying the call data of a call, if the call is ascertained to be erroneous on the basis of the aforementioned criterion.

A computer system can be configured to cause a mechanical action based on transient data stored on a user's mobile device. In some examples, the system includes a mobile device finder for receiving calendar information from a mobile device within a physical distance from an elevator system. The calendar information specifies a time and a place of an appointment. The system includes a calendar verifier for determining that the time of the appointment is within a time period from a current time and that the place of the appointment corresponds to a destination floor reachable by the elevator system. The system includes an elevator programmer for programming the elevator system with the destination floor so that, when a user carries the mobile device onto an elevator car of the elevator system, the elevator system controls the elevator car to take the user to the destination floor.

An elevator system having an elevator car, at least one sensor, wherein, the system is configured to: receive sensor data from the at least one sensor that is indicative of a first passenger calling or within the elevator car, determine from the at least one sensor data a travel intent of the first passenger, and take an action when the travel intent triggers an alert condition.

In a system with an elevator system, a host can grant a visitor access to a building and switch the elevator system into a visitor operating mode in order to transport the visitor to a destination floor. The host can initiate a movement of the elevator car to a first defined floor, on which a visitor would like to enter an elevator car, by means of an input on a mobile device. A camera arranged in the elevator car and a camera recording, which is produced by means of said camera and displayed on the mobile device, enable the host to check if only the user is located in the elevator car. If this is the case, the host can initiate the movement of the elevator car to the destination floor by means of an additional input on the mobile device.

A mobile terminal (7) has an acceleration sensor (8) and a direction sensor (9). The mobile terminal (7) includes a route specifying unit (11), a calculating unit (13), a determining unit (14), and a communicating unit (16). The calculating unit (13) calculates a feature quantity of a route specified by the route specifying unit (11) on the basis of the route specified by the route specifying unit (11). The communicating unit (16) transmits call information to the communicating device (6) when the determining unit (14) determines that the route specified by the route specifying unit (11) is a boarding route.

Provided are embodiments of a method for operating a receiverless device positioning. The method includes receiving a first request corresponding to a first location, registering data associated with the first request, and receiving a second request at a second location, the first location is different than the second location. The method also includes comparing the first and second location, and time between the first request and the second request, and allowing the second request based at least in part on the comparison. Also provided are embodiments of a system configured to perform receiverless positioning.