An elevator operating device has a bus interface device, a storage device, a screen system and a control device. The storage device stores configuration data and electronic instructions for selectable operating modes of the elevator operating device, wherein a first operating mode is designed for processing an elevator call that indicates a direction of travel, and wherein a second operating mode is designed for processing an elevator call that indicates a destination floor. The screen system is designed to depict a graphical user surface on a touch-sensitive screen. The control device is designed to read the configuration data and the electronic instructions for a selected operating mode from the storage device and to operate the elevator operating device according to the selected operating mode.

A method for operating an elevator including operating the elevator in a pre-programmed sequence to stop at pre-designated floors in a predetermined order, upon receipt of an indication that a user at a given floor wishes to ride the elevator, temporarily not performing part of the pre-programmed sequence in order to arrive at the given floor with minimum delay and thereafter, in the absence of another indication that a user wishes to ride the elevator, continuing to temporarily not perform part of the pre-programmed sequence in order to arrive at a pre-designated egress floor with minimum delay and thereafter operating the elevator in the pre-programmed sequence including performing the part of the pre-programmed sequence to stop at pre-designated floors at pre-programmed times until receipt of an indication that a user at a given floor wishes to ride the elevator.

An elevator operating device for a floor comprises a touch-sensitive screen. Call symbols are displayed on a user interface, one of which has to be touched in order to input a character stored for this call symbol. In order to enter a two-digit destination floor, the passenger leaves their finger on the touch surface after inputting a first character, whereby the elevator operating device recognizes that the passenger has limited vision. The elevator operating device registers a second character if it detects a confirmation action for the second character without recognizing that the finger has been lifted from the touch surface. As long as the finger is touching the touch surface, no destination call is generated; the destination call is only generated when the passenger lifts their finger, thus indicating that the input has been completed.

An apparatus for retrofitting an elevator system to enable voice control includes a first main board installable within an elevator adjacent to an elevator button panel and two or more additional main boards installable on respective floors adjacent to respective elevator call panels, each of the main boards having a microphone circuit, a plurality of onboard output relays, and a processor operable to select an output relay in response to a voice command received by the microphone circuit and to output a signal to the selected output relay. One or more auxiliary output relay boards are installable within the elevator adjacent to the elevator button panel, each having a plurality of additional output relays selectable by the processor of the first main board. A controller area network (CAN) bus connects the first main board to the one or more auxiliary output relay boards.

A notification control device includes an attribute identification unit configured to identify a physical attribute of a user who uses an elevator, and a notification control unit configured to control, based on the physical attribute identified by the attribute identification unit, a notification speed at which information is provided by a notification device installed in a car in which the user having the identified physical attribute is to ride.

A multi-input call panel for controlling an operation of an elevator system, is disclosed. The multi-input call panel includes a touchable interface associated with a plurality of touchable inputs arranged at different locations on the multi-input call panel; a touchless interface including a processor configured to receive readings of a sensor detecting motion in proximity to the touchable interface and executing a probabilistic classifier trained to output a probability of correspondence of the received readings with an intention to touch one or multiple touchable inputs from the plurality of touchable inputs; and a controller configured to control the operation of the elevator system according to a control command associated with a touchable input of the plurality of touchable inputs when the touchable input is touched on the touchable interface, the classifier outputs the probability of the intention to touch the touchable input above a threshold or both.

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.

Systems and methods for hoist elevator system operation are provided. Hoist elevator operation systems and methods operate using a wireless network that may include a plurality of wireless technologies. Hoist elevator operation systems include a floor call station installed on a level or floor of a construction site, as well as a car controller paired to an operator panel and installed in a hoist elevator car. A remote server and a base station may also be provided.

A method provides multisensory output data for an elevator user. The method includes: receiving input data representing a user related prompt from an input device system, the input data being generated by the input device system in response to an interaction with the elevator user; generating the multisensory output data based on the received in-put data by applying a generative artificial intelligence (AI) model, the generated multisensory output data reflecting the user related prompt; and providing the generated multisensory output data to an elevator car output device system for outputting the generated multisensory output data for the elevator user during an elevator journey. A multisensory output data generation system, a computer program product, and a tangible non-volatile computer-readable medium are also provided.

A call input device for an elevator system includes at least one call input facility having at least one directional call button, such as an up-direction call button and/or a down-direction call button. The call input device further includes a storage medium and an output region. During operation, when the directional call button is actuated, instructions for call input by a user stored in the storage medium are output in the output region.