A computer-implemented method of automatically generating and populating one or more car floor buttons on a configuration tool display wherein the configuration tool is in communication with an elevator cabin of an elevator system.

A system for dynamic assignment of buttons on destination entry terminals (DETs) is provided. The system performs operations that include identifying a message for display on a touchscreen display of a destination entry system of an elevator. The message includes a selection button for display on the touchscreen display. The at least one selection button is displayed at a first location on the touchscreen display. The at least one selection button is displayed at a different location on the touchscreen display once a rearrangement criterion is satisfied.

An elevator system in which an elevator car can be moved between floors in a manner controlled by an elevator controller is described. A car call device is communicatively connected to the elevator controller for inputting a destination floor is arranged in the elevator car. Elevator operation devices are communicatively connected to the elevator controller are arranged on the floors for the input of calls. An elevator operation device has a touch-sensitive screen system equipped with a substantially smooth touch surface and which responds with haptically perceptible feedback to a touch of the touch surface by a passenger.

An illustrative example embodiment of a switch monitoring device includes a controller configured to command a switch to enter at least one of a conducting state and a non-conducting state. A monitoring circuit conducts current when the switch is in the conducting state. A comparator provides an output indicating a relationship between a voltage of a selected portion of the monitoring circuit and a threshold voltage. The controller determines a condition of the switch based on the output of the comparator and the command.

An elevator operator terminal includes a display device, a storage device and a processing device for use with an elevator system in a building. The processing device is connected to the storage device and activates the display device to generate a user interface having a plurality of display fields. The user interface has a call input area and a floor indicator area. The call input area displays a predetermined first number of display fields that are each associated with a predetermined floor in the building and are enabled for call input. The floor indicator area displays a predetermined second number of display fields that are each associated with a predetermined floor in the building and are disabled for call input.

In the present invention, an anti-pinch device which uses a simple optical mechanism to prevent the user being hurt by the moving part before the moving part touches the user is disclosed. Also, a space computing device which uses a simple optical mechanism to compute acquired space of a target object is disclosed. Additionally, a hovering control device which uses a simple optical mechanism thereby the user can control the hovering control device without touching the hovering control device is disclosed. The optical mechanism comprises at least one light source and at least one optical sensor, which can arrange in various ways.

According to an aspect, there is provided an elevator signalization device. The elevator signalization device comprises a a panel configured to provide information associated with an elevator system to a user, and a processing unit configured to receive at least one trigger signal, and adapt contrast in at least one section of the panel based on the received at least one trigger signal.

Elevator cars having a plurality of elevator car panels defining a passenger compartment of the elevator car and an interactive touch-based car operating panel system. The interactive touch-based car operating panel system includes an interactive element extending around at least a portion of a periphery of the passenger compartment and located on at least one of the plurality of elevator car panels, the interactive element having an interactive surface facing the passenger compartment and a controller arranged to receive passenger input at the interactive surface and control an elevator car in response to the passenger input.

Methods, systems, and control devices may be employed to configure an in-car display of an elevator system based on a learning procedure. One example method may involve inputting information required for the learning and starting the learning procedure for installing or updating a configuration of the in-car display. The learning procedure may include the steps of gathering floor information of all floors of the elevator system and generating a configuration of the in-car display based on the gathered floor information. The information required for the learning procedure may include at least one of an access authorization code or a total number of floors accessible to the elevator system.

An elevator system may include an elevator car that is configured to transport a passenger between floors of a building as well as a sensor system in the elevator car that is configured to detect a passenger's location, orientation, and/or height. The elevator system may further include a touchscreen that can display a virtual car operating panel at a location on the touchscreen that is based on the location, orientation, and/or height of the passenger. The virtual car operating panel may be configured to receive input from the passenger regarding a destination floor. The touchscreen may be configured to display a virtual car operating panel for each passenger based on each passenger's location, orientation, and/or height on the elevator car.