Systems and methods floor bypass in an elevator system are provided. Aspects includes receiving, by the first controller, a first elevator destination call to a first floor, wherein the first destination call causes a first elevator car to dispatch to the first floor. First sensor data associated with a first passenger area associated with the first elevator car is collected, from the first sensor. A presence of a passenger in the first passenger area is detected based at least in part on the first sensor data. And the first elevator car is operated based on the presence of the passenger in the first passenger area.

A method and a control device for controlling an at least one elevator are described, by which an arriving traffic intensity is detected, the traffic intensity being a number of passengers arriving at the at least one elevator during a traffic intensity determination period, a traffic amount value is determined by comparing the traffic intensity to a maximum building population, wherein the maximum building population is a maximum number of people in a building, and the at least one elevator is controlled based on the determined traffic amount value.

A method and a control device for controlling an at least one elevator are described, by which an arriving traffic intensity is detected, the traffic intensity being a number of passengers arriving at the at least one elevator during a traffic intensity determination period, a traffic amount value is determined by comparing the traffic intensity to a maximum building population, wherein the maximum building population is a maximum number of people in a building, and the at least one elevator is controlled based on the determined traffic amount value.

According to an aspect, there is provided a control device. The control device is configured to receive data from a passenger traffic system configured in a building, the data comprising information associated with operations for transferring passengers of the passenger traffic system; based on the received data, monitor a change in a quality of service level of the passenger traffic system in transferring the passengers and a change in a passenger traffic pattern in transferring the passengers in the passenger traffic system; and in response to detecting the change in the service level or in the passenger traffic pattern, run one or more simulations of the passenger traffic in the passenger traffic system in the at least one building using the received data in order to trigger at least one operation to change a configuration of the passenger traffic system.

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.

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.

Systems and methods floor bypass in an elevator system are provided. Aspects includes receiving, by the first controller, a first elevator destination call to a first floor, wherein the first destination call causes a first elevator car to dispatch to the first floor. First sensor data associated with a first passenger area associated with the first elevator car is collected, from the first sensor. A presence of a passenger in the first passenger area is detected based at least in part on the first sensor data. And the first elevator car is operated based on the presence of the passenger in the first passenger area.

Systems and methods floor bypass in an elevator system are provided. Aspects includes receiving, by the first controller, a first elevator destination call to a first floor, wherein the first destination call causes a first elevator car to dispatch to the first floor. First sensor data associated with a first passenger area associated with the first elevator car is collected, from the first sensor. A presence of a passenger in the first passenger area is detected based at least in part on the first sensor data. And the first elevator car is operated based on the presence of the passenger in the first passenger area.

A method of operating a building elevator system within a building having a plurality of floors is provided. The method including: controlling a building elevator system comprising a first elevator system having a first elevator car, a second elevator system having a second elevator car, and a third elevator system having a third elevator car, the first elevator car is configured to serve a plurality of floors within a first sector, the second elevator car is configured to serve a plurality of floors within a second sector, and the third elevator car is configured to serve a plurality of floors within the first sector and the second sector; detecting at least one of a time of day, an intensity of traffic between the first sector and the second sector, and an intensity of traffic within each sector; and assigning the third elevator car to the first sector or second sector.

A method and a control device for controlling an at least one elevator are described, by which an arriving traffic intensity is detected, the traffic intensity being a number of passengers arriving at the at least one elevator during a traffic intensity determination period, a traffic amount value is determined by comparing the traffic intensity to a maximum building population, wherein the maximum building population is a maximum number of people in a building, and the at least one elevator is controlled based on the determined traffic amount value.