An aspect includes capturing crowd data associated with a lobby area of an elevator system. A dispatching schedule of one or more elevator cars of the elevator system is adjusted based on the crowd data. A notification of the adjustment to the dispatching schedule is output.

To make it possible to comprehensively predict the movement of people by associating an elevator control system in a facility such as a building and an external system other than this system with each other and thereby provide a new service that has not existed before. There is provided an elevator operation management system for controlling and managing multiple elevator devices in a facility, the system including: a reception unit that acquires information on the number of users to use the elevator devices and elevator car destination information; a learning unit that stores and learns, as past experience data, the information on the number of users and the elevator car destination information acquired from the reception unit; a per-floor number-of-people estimation unit that estimates the number of users getting off at each elevator hall floor using storage information of the learning unit; and a request information output unit that outputs the number of people getting off thus estimated in the facility to a system other than the elevator operation management system.

Provided is a control apparatus for an elevator that can control the operation of the elevator in a suitable manner when a user is not a pedestrian, without requiring the user for a complicated operation. A control apparatus (7) according to the present invention is provided with: a call registration unit (14) that registers a call for an elevator (1) based on information transmitted by wireless communication from a mobile terminal (10) to communication equipment (8) installed in a region passable by a user (9); and an operation control unit (15) that, when a user type is determined to be a wheeled moving body from a detection result of an acceleration sensor (12) of the mobile terminal (10), controls the operation of the elevator (1) in a manner different from a case where the user type is determined to be a pedestrian.

An illustrative example elevator system includes a plurality of elevator cars. A dispatch controller assigns a first one of the elevator cars to travel to a landing in response to a first request for elevator service at that landing. At least one call button is operative to place a second request while the first one of the elevator cars is situated at the landing in response to the first request. The dispatch controller assigns a second one of the elevator cars to travel to the landing in response to the second request.

An elevator system is provided and includes at least one car; driving elements, each of the driving elements being configured to drive a corresponding car from a waiting area from which at least one passenger boards the corresponding car; at least one sensor configured to identify a presence of more than one passenger intending to board a car and in the waiting area and configured to determine a characteristic of the more than one passenger; and a controller configured to drive more than one car to the waiting area when a capacity of the corresponding car is less than the characteristic of the more than one passenger.

Disclosed is an elevator system including a controller, wherein the controller is configured for: engaging in a first communication with a facial recognition system that identifies a pet and a first person as owner of the pet, and rendering a plurality of determinations from the first communication, including: a first determination that the pet is proximate a first elevator lobby in a building, a second determination to provide instructions to a first elevator car responsive to the first communication, and engaging in a second communication with the first elevator car for effecting the second determination.

Systems, computer-implemented methods, and computer program products that can facilitate elevator analytics and/or elevator optimization components are provided. According to an embodiment, a system can comprise a memory that stores computer executable components and a processor that executes the computer executable components stored in the memory. The computer executable components can comprise a prediction component that can predict a current destination of an elevator passenger based on historical elevator usage data of the elevator passenger. The computer executable components can further comprise an assignment component that can assign the elevator passenger to an elevator based on the current destination.

Disclosed is an elevator system having a plurality of elevators including a first elevator and a second elevator, and a controller that controls the plurality of elevators and communicates over a network with a first device seeking elevator service at a lobby, wherein the controller: receives a first request from the first device to receive elevator service, provides the first device a first priority number, based on the first priority number and remaining elevator capacity in the plurality of elevators, effects a first assignment wherein the first elevator is assigned to service the first request.

Systems and methods for operating an elevator system are provided. Aspects includes receiving, by a processor, a call request for an elevator car in an elevator system. Receiving sensor data from a plurality of sensors associated with the elevator car, wherein the plurality of sensors are configured to collect sensor data from one or more predefined areas associated with the elevator car. Determining an occupancy level in the elevator car based on a feature vector, generated by a machine learning model, comprising a plurality of features extracted from the sensor data and operating, by the processor, the elevator car based at least in part on the occupancy level.

Embodiments include a system and method for controlling doors in a multi-door system. Embodiments a controller configured to control the multi-door system, wherein the multi-door system includes a first door and a second door, wherein the first door is on a different side than the second door, and one or more sensors operably coupled to the multi-door system and the controller, wherein the one or more sensors are configured to detect one or more conditions. The controller includes a processor, wherein the processor is configured to receive an input from the one or more sensors, wherein the input comprises at least one of call information and crowd sensing information, responsive to the input, prioritize an operation of the first door and the second door based at least in part on the input, and operate the first door and second door based on the prioritization.