A method and system for managing an elevator system (10), includes providing a plurality of elevator cars (14) to travel in a hoistway (11), and selectively introducing and removing at least one of the plurality of elevator cars (14) to and from the hoistway (11) via a loading station (50).

A Bluetooth wireless communication system and method for communication in an elevator hoistway, and belongs to the technical field of elevators. The Bluetooth wireless communication system of the present invention comprises: a first Bluetooth module, a second Bluetooth module, and one or more diffusion Bluetooth modules disposed in the elevator hoistway; wherein the first Bluetooth module, the second Bluetooth module and the diffusion Bluetooth modules are networked to form a Bluetooth MESH network such that data transmission between the first Bluetooth module and the second Bluetooth module is performed via at least one of the diffusion Bluetooth modules.

An information processing device includes: a memory that stores therein a main program; a processor that reads out and executes the main program stored in the memory; a program update unit that updates the main program stored in the memory; and a start control unit that starts the processor in an update confirmation mode when the processor is reset after the main program stored in the memory is updated by the program update unit. The processor, when being started in the update confirmation mode, generates a monitoring process that monitors whether a process generated by the execution of the main program is normally operated, and outputs a monitoring process start completion signal when the monitoring process has been normally generated. The information processing device can reduce time required for processing of confirming whether each program have been normally updated after the update of the programs.

Each of a plurality of cars includes an in-car notification device configured to receive an announcement command from one of the individual car control devices, to thereby execute an announcement of the name of its own car. When an assignment command is received from a group management device, each of a plurality of individual car control devices causes the car to perform a door opening operation after causing the car to arrive at a floor on which a user is to ride in the car, and outputs the announcement command when it is determined after the door opening operation is finished that an elapsed period of time since the reception of the assignment command is equal to or longer than a period of time required for the user to arrive at an elevator landing after registering a destination floor call on the landing operation panel.

An elevator system (1) includes a load sensor (4, 24, 34, 44), a flexible member (2, 18, 22) and an elevator unit (10, 20, 28) arranged to move vertically in a hoistway. The system is arranged such that the load sensor (4, 24, 34, 44) detects a load from at least a fraction of the flexible member (2, 18, 22) and the fraction of the flexible member (2, 18, 22) that applies load to the load sensor (4, 24, 34, 44) changes as the elevator unit (10, 20, 28) moves vertically in the hoistway. The system further includes a non-volatile memory, arranged to store load conversion information for converting the detected load into an elevator unit position.

A self-propelled elevator system includes a hoistway (11) including a plurality of drives (40), wherein each of the plurality of drives includes a stationary portion (16) of a propulsion system and a controller (30) configured to operate the stationary portion of the propulsion system. The propelled elevator system also includes an elevator car ((14), 42) comprising a processor (44) and a transceiver (48), wherein the transceiver is configured to communicate with the controllers of one or more of the plurality of drives that are adjacent to the elevator car and one or more sensors (46) disposed on the elevator car, wherein the processor is configured to receive signals from the one or more sensors. The processor is configured to control a movement of the elevator car within the hoistway.

A method of operating an elevator system, for example operated by linear motors, wherein the elevator system includes a shaft system including at least one vertical elevator shaft, and a multiplicity of elevator cars which respectively have a plurality of functional components for carrying out different functions. The method provides that in a special operating mode of the elevator system, a first elevator car is assigned at least one auxiliary device, the auxiliary device providing a replacement function for at least one function of one of the functional components of the first elevator car, the corresponding function of a functional component of the first elevator car being replaced with the replacement function provided by the auxiliary device, and the elevator system continuing to be operated by using the replacement function provided. The invention furthermore relates to an elevator system configured for carrying out such a method.

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.

The invention relates to an elevator system having a mobile communication network. The elevator system comprises: an elevator shaft, and a mobile communication base station arranged to the elevator shaft to a close vicinity of top of a building. The base station is configured to receive and transmit signals with an external mobile communication system and to receive and transmit the signals inside the elevator shaft. The invention relates also to a method for providing a mobile communication network for an elevator system.

The invention relates to an elevator system having a multichannel mobile communication functionality. The elevator system comprises: an elevator shaft, and a mobile communication base station arranged the elevator shaft to a close vicinity of top of a building. The base station is at least configured to receive and transmit signals with an external mobile communication system and to receive and transmit the signals inside the elevator shaft. The signals comprise multiple channels and at least one of the multiple channels is configured to provide a first high-speed functionality for the at least one elevator related unit of the elevator system. The invention relates also to a method for providing a multichannel mobile communication functionality for an elevator system.