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.

A method for operating an elevator system that includes an elevator car movable between landings in response to an elevator call registered by an elevator control unit. The method includes determining a special operating mode of the elevator system, the special operating mode being different from a nominal operating mode at least with respect to a characteristic of use of the elevator car, and operating, in the special operating mode, the elevator system so as to reduce a number of passengers entering the elevator car from the landing compared to the nominal operating mode based on the characteristic.

The invention refers to an elevator system having a plurality of elevator cars, which elevator cars comprise several first cars and at least one second car, which second car differs from the first cars in its size and/or technical configuration, whereby the first cars and the second car run together within one and the same elevator shaft, which elevator system comprises an elevator control comprising a call allocation control having a first part connected to at least one call input device for allocating the first elevator cars and a second part connected to at least one call issuing means for the call allocation of the second car, whereby the first and second part of the call allocation control are configured to work independently of each other.

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.

A method schedules elevator cars in a group elevator system in a building by first generating a set of probability distributions for arrivals of future passengers at any floor of the building, wherein the set of probability distributions are characterized by probabilistic variables that specify arrival information of the future passengers, wherein the arrival information includes a probability of service requests by the future passengers and a probability of possible times of the service requests. A schedule for the elevator cars is based on the set of probabilistic distribution. Then, the schedule is provided to a controller of the group elevator system to move the elevator cars according to the schedule.

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.

A method includes recording a primary destination dispatch request from a primary passenger at a first floor position via a destination dispatch controller 115, identifying a terminal floor, providing a terminal floor call signal to the elevator control system via an overlay controller 110, moving an assigned elevator car in a travel direction of the terminal floor, recording at least one secondary destination dispatch request from a secondary passenger at a respective at least one secondary floor position via the destination dispatch controller, approximating a position of the assigned elevator car, determining a target floor position via the destination dispatch controller, entering a target floor call corresponding to the target floor position at a calculated time to stop the assigned elevator car at the target floor position, cancelling all pending calls via the elevator control system 102, and entering at least one recorded destination dispatch request to the elevator control system.

In an elevator system using multiple-deck elevator cars (130, 132), an elevator passenger (154) travels between a floor in a first zone (170) in a building (120) and a floor in a second zone (172) in the building (120). The passenger (154) travels first from one of the zones (170, 172) to a ground floor lobby (100, 101). Within a given amount of time after arriving at the lobby (100, 101), the identified passenger (154) is allowed to place an elevator call for an elevator traveling to the other zone (170, 172). Even if the call is for a destination floor not usually served from the particular ground floor lobby (100, 101), the passenger (154) is allowed to travel to the destination floor as requested.

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.