An elevator device includes: a first reader, a second reader, a determination section, and a request output section. The first reader is provided in a hall of an elevator. The second reader is provided in a car of the elevator. In the case where identification information has been read by the first reader, the determination section determines whether or not the identification information has been read by the second reader before the reading thereof by the first reader. On the basis of the identification information read by the first reader, the request output section outputs a registration request for a call to a control section. In the case where the determination section determines that the identification information has been read by the second reader, the request output section does not output a registration request for a call corresponding to the identification information to the control section.

An elevator system is provided. Aspects includes an elevator car, a sensor affixed to the elevator car, wherein the sensor is operated by a controller, the controller is configured to receive occupancy data associated with the elevator car. The occupancy data is analyzed to determine an occupancy of the elevator car. A first hall call is received and based at least in part on the occupancy and the first hall call, adjusting operation of the elevator car in the elevator system.

A system and a method of assigning an elevator car of an elevator system based on an adjustment parameter are provided. The method includes assigning, using the elevator controller, the elevator car based on the adjustment parameter in response to receiving an elevator call, wherein the adjustment parameter includes at least a person to call ratio, receiving one or more system parameters, and updating the adjustment parameter based on the system parameters.

A system and a method of modifying an elevator call with a mobile device is provided. The method includes sending, to an elevator controller, a first input wherein the first input is a first elevator call, calling, using the elevator controller, an elevator based on the first elevator call and the mobile device, sending, using the mobile device, a second input, wherein the second input is a modify command, and modifying, using the elevator controller, the first elevator call based on the modify command.

A system and a method of connecting to wireless hardware of an elevator system during installation are provided. The method includes detecting, using a mobile device, a sensor of the wireless hardware within range, connecting the mobile device and sensor using a wireless connection, and configuring a parameter of the sensor using the mobile device through the wireless connection to the sensor.

A passenger conveyance passenger tracking control system that controls operation of a passenger conveyance, e.g., an elevator car, includes at least one call request device, e.g., a call request panel, configured to receive at least one input from at least one passenger located at a occupancy depth grid. At least one passenger position three-dimensional (3-D) depth-sensing sensor is configured to track a position of the at least one passenger located at the occupancy depth grid. The passenger conveyance passenger tracking control system further includes an electronic control module in signal communication with the at least one call request device and at least one passenger position 3-D depth-sensing sensor. The electronic control module is configured to control operation of the passenger conveyance based on the position of the at least one passenger.

Systems, methods and devices for real-time contactless elevator service operation of an elevator includes a trained neural network (TNN) model. The TNN model is trained using a training processor with augmented datasets as a synthetic training dataset, to later perform elevator identifier recognition. The augmented data sets are generated from synthetic text images, the synthetic text images are augmented with different geometrical parameters and visual parameters to a predetermined number of variations in appearance to a set of training elevator identifiers. A camera captures a user image. A text image portion from the user image is extracted using the TNN model, and detects an elevator identifier in the extracted text image portion using the extracted text image portion and the TNN model. The detected elevator identifier is displayed for user confirmation or user cancellation, and upon user confirmation, generates a control command based the detected elevator identifier associated with an elevator service.

Embodiments of systems and methods for digital control of elevator and other access gateways are described herein. More specifically, embodiments comprise systems and methods for retrofitting or outfitting elevator systems with digital control systems that can be universally applied to virtually every manufacturer's elevator systems.

A target floor registration unit for use in an elevator system including a unit controller configured to receive assignment information, a user detection device operably coupled to the controller; wherein the user detection device is configured to determine whether a user is present at the target floor registration unit, and a display part; the display part configured to dynamically display the assignment information based in part on whether the user is present at the target floor registration unit.

A safety system for an elevator that includes at least one control unit, which control unit is operable in at least two different operating modes. The safety system has at least one electronic lock connected with the control unit, and is connectable, or connected, with at least one electronic key. The control unit is programmed, or programmable, in such that, in the presence of a connection between the electronic key and the electronic lock, it is only operable in one operating mode of a first subset of the operating modes and, in the absence of a connection between the electronic key and the electronic lock, it is only operable in one operating mode of a second subset of the operating modes. A maintenance mode is only available in the second subset of the operating modes.