A phone display, shows an internet map. The map allows a user to search for, and operate, multiuser public devices, such as, a hydrogen car fuelling station. The user finds the device, by viewing the device's location, and the phone's location on the map. For example, the phone searches for, and finds elevators, which are shown on the map. The user finds an elevator, by using the map. The user touches the elevator's displayed menu, to receive the elevator's menu's control panel. The received control panel, is displayed on the phone. The user requests the elevator move to the 4 floor, by touch activating a floor 4 icon, on the phone elevator panel. The phone, and elevator computer communicate, over the internet wirelessly, or wirelessly. The user avoids bacteria, that may be on a store's self serve check out machine's physical touch screen, by operating it with the phone.

This disclosure describes systems, methods, and devices related to touchless elevator. A device may detect a first touchless command received from a user, wherein the first touchless command is to control an elevator. The device may generate a feedback signal indicating a recognition of the first touchless command. The device may detect a second touchless command associated with moving the elevator to a designated floor in a building. The device may generate a signal to cause the elevator to move the designated floor.

The number of bacteria present on an elevator button is almost 40 times higher than on a public toilet seat. An elevator that requires no physical contact is the answer. Just by the use of the mobile-phone, the transmission of diseases and viruses will be enormously reduced. The present invention discloses contactless method and system for provisioning elevator service from a source floor to a destination floor. The method comprising sensing a direction of a swiping action of a user. Thereafter determining the first direction that corresponds to an elevator upward direction or a second direction that corresponds to an elevator downward direction. Further, based on the determined said first direction or the second direction, the elevator is provisioned. After arrival of the elevator, a scan code is generated which is a destination code of said destination floor to which the user wishes to travels.

An elevator device according to this disclosure includes a detection device, an identification module, and a determination module. The detection device is provided to a car of an elevator, and detects detection information. The identification module repeatedly acquires identification information for identifying a passenger from the detection information detected by the detection device. The determination module determines a leaving floor of the passenger based on a change in the identification information acquired by the identification module and a floor on which the car stops.

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.

Provided are embodiment for a method and a system for filtering unintended requests. The embodiments can include receiving an input to disable an elevator lock for an elevator car, and determining whether to unlock the elevator lock. The embodiments can also include unlocking the elevator lock based at least in part on the determination and permitting or prohibiting motion of the elevator car responsive to the determination.

Provided is a communication system and a communication method for use in an elevator system, which belong to the field of elevator intelligent control technologies. The communication system of the present invention comprises: a first bluetooth module mounted in an elevator landing area of the elevator system and a second bluetooth module mounted in an elevator car of the elevator system. The communication system and the communication method of the present invention can realize that a passenger completes an elevator calling operation in a completely hand-free mode, which is easy to realize and is low in cost.

An interface for operating an elevator car includes an interface controller, a foil attached to a wall surface of a wall of the elevator car, the wall surface facing an inside of the elevator car, and at least one pressure-sensitive sensor configured for receiving user requests by an application of a pressure to the at least one sensor. The at least one sensor is connected to the interface controller, the interface controller transmitting the user requests received by the at least one sensor to a car controller of the elevator car, and wherein the at least one sensor is embedded in the foil.

A method of operating an elevator system using a touchless elevator communication system including: generating a first two-dimensional sensor curtain using a first sensor curtain generation device, the first two-dimensional sensor curtain being located in front of a display that displays one or more selection options; generating a second two-dimensional sensor curtain using a second sensor curtain generation device located in front of the first two-dimensional sensor curtain, the first two-dimensional sensor curtain being located between the second two-dimensional sensor curtain and the display; detecting the object in the second two-dimensional sensor curtain; determining a second curtain location of the object in the second two-dimensional sensor curtain; mapping the second curtain location of the object in the second two-dimensional sensor curtain to a selection option of the one or more selection options; and identifying on the display that the object is pointing to the selection option.

An elevator operating device for inputting a travel request on a floor of a building has a touch-sensitive screen system, which has a screen region that is visible to a passenger, and a central control device. The central control device controls the screen system in a first mode, to display a first graphical user interface, and in a second mode, to display a second graphical user interface. The first graphical user interface comprises one or two travel direction symbols. The second graphical user interface comprises an edge zone for symbolizing a waiting time until the elevator car arrives on the floor, and a center zone for symbolizing an occupancy of the elevator car by passengers, wherein a displayed degree of filling of the center zone symbolizes an occupancy of the elevator car.