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.

An elevator system is provided. Aspects includes an elevator car, a sensor, and a projector affixed to the elevator car, wherein the projector is operated by a controller and the controller is configured to receive an indication of a presence of a passenger in the elevator car. A car operating panel is projected, by a projector, in the elevator car, wherein the car operating panel comprises a virtual element. An activation of the virtual element from the passenger is sensed by a sensor and an action is initiated based at least in part on sensing the activation of the virtual element.

An elevator system is provided. Aspects includes an elevator car, a sensor, and a projector affixed to the elevator car, wherein the projector is operated by a controller and the controller is configured to receive an indication of a presence of a passenger in the elevator car. A car operating panel is projected, by a projector, in the elevator car, wherein the car operating panel comprises a virtual element. An activation of the virtual element from the passenger is sensed by a sensor and an action is initiated based at least in part on sensing the activation of the virtual element.

An illustrative example embodiment of an elevator system includes an elevator car, a first transceiver supported on the elevator car, and a second transceiver in a preselected location where the first transceiver can wirelessly communicate with the second transceiver when the elevator car is situated in a corresponding location. The first transceiver wirelessly communicates with the second transceiver to transfer at least electrical power between the transceivers. An elevator car power storage device is supported on the elevator car. The elevator car power storage device is configured to store electrical power received by the first transceiver from the second transceiver. The elevator car power storage device is also configured to provide power to the first transceiver to be transferred to the second transceiver.

An illustrative example embodiment of an elevator system includes an elevator car, a first transceiver supported on the elevator car, and a second transceiver in a preselected location where the first transceiver can wirelessly communicate with the second transceiver when the elevator car is situated in a corresponding location. The first transceiver wirelessly communicates with the second transceiver to transfer at least electrical power between the transceivers. An elevator car power storage device is supported on the elevator car. The elevator car power storage device is configured to store electrical power received by the first transceiver from the second transceiver. The elevator car power storage device is also configured to provide power to the first transceiver to be transferred to the second transceiver.

Systems and methods having a touchless operating panel with buttons and an electronic circuit (EC). The system including a proximity sensor (PS) associated with an associated button and positioned proximate thereto. The PS arranged to generate a button detection zone around the associated button and detect a presence within the button detection zone. When the PS detects a presence of an object within the button detection zone in a time period, the EC receives proximity values about the detection from the PS. The EC detects if activation of the PS is intentional or unintentional, based on inputting into an activation assessment module, the received proximity values and any other proximity values received from one or more other PSs. When a detection is made that the PS is intentionally activated regarding the presence of the object within the button detection zone. The EC generates and emits a command action.

Systems and methods having a touchless operating panel with buttons and an electronic circuit (EC). The system including a proximity sensor (PS) associated with an associated button and positioned proximate thereto. The PS arranged to generate a button detection zone around the associated button and detect a presence within the button detection zone. When the PS detects a presence of an object within the button detection zone in a time period, the EC receives proximity values about the detection from the PS. The EC detects if activation of the PS is intentional or unintentional, based on inputting into an activation assessment module, the received proximity values and any other proximity values received from one or more other PSs. When a detection is made that the PS is intentionally activated regarding the presence of the object within the button detection zone. The EC generates and emits a command action.

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.

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.

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.