A monitoring device (120) is provided at a building (100) in which an elevator (110) is provided and communicates with a center via an IP network (401). The monitoring device (120) includes a communication unit (143) and a selecting unit (133). The communication unit (143) can perform wireless communication in a plurality of communication modes. The selecting unit (133) selects a connection mode on the basis of a first evaluation value and a second evaluation value. The communication unit (143) transmits voice data and state data indicating a state of the elevator (110) to the center in the connection mode.

A platform lift, in particular a stairlift, including a rail, a drive unit having a platform, in particular a chair, for driving along the rail, at least one control unit arranged at the drive unit, a speech communication device located at the drive unit, a base station located at a fixed location, and one wireless transmission path connecting the control unit and the speech communication device to the base station.

A method of calibrating a monitoring device (20) for monitoring movement of a movable component (2, 12, 19) of an elevator system (2) comprises detecting (120) a travel time (t.sub.k) between a starting time (t.sub.k) and a stopping time (t.sub.k) as well as acceleration (a(t)) of at least one movement of the movable component (2, 12, 19); determining (130, 140) a travel distance of the movable component (2, 12, 19) by integrating the detected acceleration (a(t)) twice with respect to the detected travel time (t.sub.k); correlating (150) the determined travel distance (s.sub.k) with the detected travel time (t.sub.k) to form a pair of travel time and travel distance; and storing (160) the pair of travel time and travel distance (t.sub.k,s.sub.k) as part of a travel profile (34).

A monitoring system includes one or more detection devices, a communication device, and an analytics system. The one or more detection devices generate, at a conveyance system, one or more data streams describing the ride of the conveyance system, where the data streams include at least one of vibration data and audio data. The communication device transmits sensor data based on the one or more data streams. The analytics system receives the sensor data from the communication device and, based on the sensor data, determines a ride quality of the conveyance system.

A communication system and method to be used in a system having a plurality of sensors and/or controllers. The communication system comprises a main gateway (GW) connected to a first controller of the system, the main GW wirelessly connectable to a management center of the system via the Internet or a cloud system, and at least one satellite GW connected to at least one second controller of the system, the at least one satellite GW connected to the main GW via a wireless local area network (WLAN).

The present invention relates to a method and a system of commissioning elevator, and an elevator system. The method includes obtaining at least one operation data of at least one elevator door, comparing the operation data with corresponding criterion operation data, and determining whether a deviation between the operation data and the criterion operation data exceeds a pre-set range, and if so, triggering a control over at least one control end relevant to the operation of the elevator door to make a deviation between the operation data re-obtained and the criterion operation data fall within the pre-set range. The invention will increase the efficiency in elevator commissioning and remove the adverse effects on elevator operation caused by factors such as Stack Effect, and thereby ensure good working condition and high security of elevators.

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.

An elevator management system includes an elevator system and a service provider controller. The elevator system is configured to control at least one elevator car and to transmit a status message indicating status data of the at least one elevator car. The service provider controller is configured to determine a current operating mode of the at least one elevator car based on the status message and to assign the at least one elevator car to a current status group among a plurality of different status groups based on the current operating mode.

A method of monitoring a conveyance system is provided. The method including: monitoring vibratory signatures along a first axis of a conveyance apparatus of a conveyance system; detecting a vibratory signature along the first axis about equivalent to a vibratory signature of significant event; and examining vibratory signatures for a secondary event along at least one of the first axis and a second axis of the conveyance apparatus for at least one of a selected time period after detection of the significant event and a selected time period before detection of the significant event.

A light grid for mounting on an elevator car door for object detection and for determining periodic door movements, including transmitter elements that emits radiation with a specific intensity, receiver elements for receiving the radiation from an assigned transmitter element, and a control device for evaluating the receiver elements in regard to interruption of the radiation coming from an assigned transmitter element and for outputting a signal for object recognition upon interruption. At least one receiver element is configured to output an intensity value for the received radiation. The control device evaluates the intensity value and distinguishes separate high, medium and low intensity value ranges with high, medium and low intensity values, and performs an alternation phase with at least one alternating from the low via the medium to the low intensity value range and to output a signal in the event of an alternation phase having been recognized.