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 non-intrusive IoT control apparatus is disposed on the control apparatus with digital buttons or touch panels, and can include an input module, a processing module, a control device, a detecting module, and an output module. The input module receives a first control signal. The processing module generates a second control signal according to the first control signal when electrically receiving the first control signal. The control device performs an action of pressing a control button of the control apparatus with digital buttons or touch panels according to the second control signal when receiving the second control signal. The detecting module detects an action of pressing at least one control button. The output module generates a successful-pressing signal when the control device presses the at least one control button successfully.

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 holographic elevator control box, which comprises a housing and a first cover plate. The surface of the housing is fixedly connected with a first cover plate through bolts. The inside of the housing is provided with a holographic optical module. The holographic optical module is fixedly connected with the housing. The surface of the holographic optical module group is fixedly connected with a screen. The surface of the first cover plate is fixedly connected with a main board. The screen is connected with the main board through wires, and the top of the housing is installed with an induction module. The holographic elevator control box can address cross infection so that when using the elevator with the device, the interaction between the person and the elevator can be realized by clicking, sliding and other gestures on the image generated by the equipment in the air.

The present disclosure discloses systems, methods and an apparatus for non-contact and eye-movement input of an elevator floor, which comprises: selecting a target camera according to a distance sensor installed on a button panel inside the elevator; triggering a corresponding target camera by using the distance sensor for face detection; standardizing a detected human face and locating a binocular position; inputting data of a standardized human face image and a binocular image into a preset posture discriminator to obtain a predicted head posture and an eyeball posture; according to the head posture and the eyeball posture, calculating a line-of-sight direction and a coordinate of an attention point, detecting whether a dwell time of the line-of-sight is greater than a preset time threshold, and, if so, triggering a button at the coordinate of the attention point.

A touchless elevator call button selection device utilizing a plurality of infrared beams is disclosed along with its method of use. By using beams of light to detect the position of a user's hand, the touchless elevator call button selection device allows the user to interface with the elevator control system without physically coming into contact with the elevator control system.

An elevator operation panel has a plurality of buttons for selecting target floors and a plurality of touch-sensitive areas, each area being associated with one of the buttons. The panel includes an output device, such as a display or a loudspeaker, for outputting information, a control unit connected to the buttons, to the areas and to the output device, and a data storage device storing at least one data folder for each target floor. Each folder contains information relating to the associated target floor. Upon triggering one of the touch-sensitive areas, the control unit reads the information in one of the folders relating to the target floor selectable by the button to which the area is associated and outputs the information at the output device. Subsequent triggering of the same area causes the control unit to read another folder related to the target floor and output the information therein.

A system for enabling a mobile robot to utilize an elevator autonomously comprises a pressing module including at least one pressing finger adapted to press elevator call buttons on an elevator call control panel. A lifting device of the system supports the pressing module and selectively adjusts a height position of the pressing module for aligning the at least one pressing finger on the pressing module to height positions horizontally aligned with the elevator call buttons. A controller wirelessly communicates with the mobile robot and the pressing module. In response to a command sent by the mobile robot, the controller instructs the pressing module to press an elevator call button on the elevator call control panel associated with the command.

A user input device (202), for providing an input to an elevator controller is disclosed. The user input device (202) includes a plurality of input regions (204A-204F) each of which correspond to a different input command; and a single touchless sensor (216) arranged to detect the presence of an object in any of the plurality of input regions (204A-204F).