A method includes creating an account with an elevator system; assigning a primary user to the account; assigning a secondary user to the account; associating elevator access privileges to the secondary user, the elevator access privileges including floors of a building that the secondary user can access via the elevator system.

Provided is an elevator system capable of protecting the privacy of users. The elevator system includes: a plurality of in-car communication devices provided in a plurality of respective cars; and a group management device configured to, when an in-car communication device in a car that has arrived at a hall receives identification information from a portable terminal by wireless communication and when the car is not a car to which a call has been allocated on the basis of input from the portable terminal corresponding to the identification information, cause the in-car communication device in the car to transmit information indicating that a user has gotten on a wrong car to the portable terminal by wireless communication.

An illustrative example method of controlling an elevator system includes receiving a first request for elevator service from a requestor, receiving a second request for elevator service from the requestor while the first request is still pending, and controlling the elevator system to provide elevator service for only one of the first request or the second request.

Configuring stoppable floor information set for an elevator cabin of an elevator system. The elevator system of the present invention comprises an elevator cabin, an elevator control device and a wireless signal module which is configured to wirelessly receive a request of registering a destination floor from a passenger's personal mobile terminal and send a corresponding destination floor of the elevator cabin to the elevator control device based on the request of registering the destination floor; wherein the wireless signal module is further configured to obtain landing floor information corresponding to the elevator cabin from the elevator system, and the elevator system configures an stoppable floor information set corresponding to the elevator cabin based on the obtained landing floor information through a handheld terminal and/or the wireless signal module. The stoppable floor information set configured in the present invention is accurate.

An elevator control system, an elevator system including the elevator control system, and a method for controlling an elevator. An elevator control system includes: one or more call-out units, each of which is provided at a corresponding elevator landing station; a control unit configured to perform the following operations: receiving a call request message from one or more of the call-out units, the call request message includes, in addition to an identification of a departure floor, at least one of: an identification of a call requester and a set of elevator resource demand features associated with the call requester; and generating a dispatching command for an elevator car in response to the received call request message.

According to an example embodiment, an elevator control system is provided, the elevator control system comprising an elevator controller for controlling movement of one or more elevators of an elevator transport system between one or more floors of a building under construction; and a scheduling system for maintaining a transport reservation schedule pertaining to said one or more elevators, wherein the transport reservation schedule comprises one or more transport reservations that comprise at least a first transport reservation that defines at least a first reserved transport time period, a first origin floor, and a first activation code, wherein the elevator controller is arranged to: control an elevator allocated to serve the first transport reservation to arrive at the first origin floor by the beginning of the first transport time period, and control, during the first reserved transport time period, said elevator allocated to serve the first transport reservation to move to a destination floor in response to receiving an activation code that matches the first activation code.

In a system with an elevator system, a host can grant a visitor access to a building and switch the elevator system into a visitor operating mode in order to transport the visitor to a destination floor. The host can initiate a movement of the elevator car to a first defined floor, on which a visitor would like to enter an elevator car, by means of an input on a mobile device. A camera arranged in the elevator car and a camera recording, which is produced by means of said camera and displayed on the mobile device, enable the host to check if only the user is located in the elevator car. If this is the case, the host can initiate the movement of the elevator car to the destination floor by means of an additional input on the mobile device.

A system for a mobile robot to autonomously take an elevator includes an elevator button pressing module mounted on an elevator floor control panel of the elevator. The elevator button pressing module communicates with the mobile robot wirelessly and is adapted to press a pair of elevator buttons on the elevator floor control panel according to an instruction issued by the mobile robot to call an elevator car.

The invention relates to a destination control system of an elevator system having at least one elevator group, wherein a destination call is input via at least one destination call input device to the destination control system to be allocated to at least one of the elevators of the elevator group to service the destination call. The destination call input device further includes an optional input for a desired operating time of a so called pre-booked destination call and the destination control system comprises a memory for pre-booked destination call data comprising the departure floor, the destination floor, a correlated operating time for the pre-booked destination call as well as a correlated identifier of the user having issued the pre-booked destination call, in which destination control system the pre-booked destination calls are allocated to the elevators of the elevator group with a higher priority than not pre-booked destination calls. Further, the destination control system has at least one identification reader arranged at least in the vicinity of the elevators to obtain an identifier input by the elevator user, and a pre-booked destination call is confirmed by the destination control system only after it has been checked that the identifier obtained by the identification reader corresponds to the identifier correlated to the pre-booked destination call. The invention rewards pre-booking of destination calls and leads thus to a better efficiency of the elevator system.

A movement detection system for a passenger in the present invention includes: a first Bluetooth module (150) mounted in an elevator landing area; and a movement prediction unit (270) configured to predict, based on Bluetooth movement data, that a movement of a passenger in the elevator landing area is a normal movement or an abnormal movement. The movement detection system and a movement detection method in the present invention can automatically detect an abnormal movement of a passenger, and are especially applicable to an elevator system that completes an elevator call operation without an input operation.