Disclosed is an elevator system having: a controller; an elevator car operationally connected to the controller; a first sensor configured to provide first sensor data to the controller, wherein the controller is configured to identify a capacity parameter of the elevator car, wherein the capacity parameter includes one or more of: loaded weight; volume of available space; or volume of occupied space; a second sensor configured to provide second sensor data to the controller, wherein the controller is configured to determine that passengers remain outside the elevator car when the elevator car is stopped at a landing and its elevator doors are open; and wherein from the first sensor data and the second sensor data, the controller is configured to determine a reduced capacity limit for the elevator car as a function of the capacity parameter.

An elevator system is provided. Aspects includes an elevator car, a sensor affixed to the elevator car, wherein the sensor is operated by a controller, the controller is configured to receive occupancy data associated with the elevator car. The occupancy data is analyzed to determine an occupancy of the elevator car. A first hall call is received and based at least in part on the occupancy and the first hall call, adjusting operation of the elevator car in the elevator system.

An elevator car comprising a passenger cab and a robot cab, the robot cab is configured to accommodate at least one autonomous robot; wherein the robot cab includes: a robot cab controller configured to receive elevator call requests from the at least one autonomous robot and a coupling mechanism configured to couple the robot cab to the passenger cab.

The invention relates to a method for transporting construction material and/or equipment into and inside a building under construction, wherein the building under construction comprises plurality of vertically displaced floors, the method comprising providing a control system configured to automatically operate one or more transporting devices, including at least an elevator; providing a storage at the construction site of the building; and transporting into the storage at the construction site of the building under construction plurality of transport containers containing construction material and/or equipment; storing said transport containers in the storage; and delivering transport containers belonging to said plurality of transport containers from said storage to different destination floors, the delivering comprising obtaining an order to deliver a transport container, the order identifying the transport container to be delivered; and retrieving the transport container identified in the order from the storage; and moving said transport container at least horizontally to a container loading floor of the building under construction; and loading said transport container on the load receiving unit for being moved to its destination floor; and obtaining the destination floor information indicating the destination floor of said container; and moving the load receiving unit vertically in the elevator shaft to the destination floor of said transport container; and unloading said transport container from the load receiving unit to the destination floor of said transport container. The invention also relates to a method for constructing a building and an arrangement for transporting construction material, which implement the method for transporting construction material and/or equipment into and inside a building under construction.

A vehicle elevator device for vertical parking for individual households of collective building includes, a private parking lot attached to an individual private space; a vehicle elevator unit that transports vehicles between a waiting vehicle space and the private parking lot; a sliding moving means for horizontally transferring the vehicle between the private parking lot and the inside of the vehicle elevator; a control unit specifying vehicles that needs to be entered or by managing the reservation of enter and exit, controlling the operation of the elevator unit and sliding moving means.

In an elevator System with a destination call control device, a first destination call being input on a floor by a first passenger at a first point in time is evaluated in order to determine first call information comprising data on a call input floor and/or a destination floor. The first call information determines if a number of additional passengers are to be assigned to the first destination call resulting in an additional space requirement in an elevator car handling the first destination call. Information on the additional space requirement is generated if a number of additional passengers are to be assigned to the first destination call. If this is the case, the first destination call is allocated with the aid of an allocation algorithm by using information on the additional space requirement in order to transport the first passenger from the call input floor to the destination floor.

A sensor device, an automated transportation system and an operating method for the same are provided. The sensor device essentially includes a thermal sensor array for capturing a two-dimensional thermographic image within a sensing zone and a processing circuit for processing the image so as to obtain a thermal distribution within the sensing zone. The sensing zone is such as a cage of the automated transportation system. The thermal distribution depicts a distribution of one or more thermal sources for determining a status of the sensing zone. For example, the status is capable of indicating a number of people within the sensing zone and a personal status. Therefore, the automated transportation system is driven to operate the cage in response to a control signal that is generated according to a scenario responsive to the status.

A method for operating an elevator including operating the elevator in a pre-programmed sequence to stop at pre-designated floors in a predetermined order, upon receipt of an indication that a user at a given floor wishes to ride the elevator, temporarily not performing part of the pre-programmed sequence in order to arrive at the given floor with minimum delay and thereafter, in the absence of another indication that a user wishes to ride the elevator, continuing to temporarily not perform part of the pre-programmed sequence in order to arrive at a pre-designated egress floor with minimum delay and thereafter operating the elevator in the pre-programmed sequence including performing the part of the pre-programmed sequence to stop at pre-designated floors at pre-programmed times until receipt of an indication that a user at a given floor wishes to ride the elevator.

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.

A method for dynamically adjusting a levelling speed limit of an elevator car during a levelling operation includes obtaining an indication that the elevator car is detected to arrive to a zone; obtaining at least one value indicating the speed of the elevator car, in response to detecting that the elevator car arrives to the zone; and dynamically adjusting the levelling speed limit of the elevator car based on the speed of the elevator car. An elevator control unit and a system are provided to perform at least partly the method.