A method generates, by a control system, mutually synchronized control signals to an elevator system residing in a building and to at least one mobile robot operating in the building. The method includes: receiving a service request from an external system; detecting that an accomplishment of a requested service requires a service from both the elevator system and the at least one mobile robot; generating a first control signal to the elevator system and a second control signal to the at least mobile robot, the control signals causing the elevator system and the at least one mobile robot to operate in a synchronized manner to accomplish a service. The invention also relates to a control system and a computer program product.

The present invention relates to determining the movement of a passenger relative to an elevator landing area, which belongs to the field of elevator intelligent control technologies. An automatic elevator calling system of the present invention comprises: a first wireless signal module installed in an elevator car, which is used for broadcasting a first wireless signal; wherein the first wireless signal module is further used for receiving information regarding the movement of a passenger relative to the elevator car, and the information regarding the movement is determined based on the change in a signal strength of the first wireless signal received by a personal mobile terminal carried by the passenger.

A system and method of managing visitor access to an elevator using a mobile device of the visitor is provided. The method includes generating a visitor invitation based on a tenant input using an electronic device, receiving the visitor invitation at the mobile device of the visitor, and gaining limited access to designated floor based on limitation values contained in the visitor invitation.

The solution relates to controlling a generation of an elevator landing call. In the solution, at least two different types of sensors are monitored. In response to a detection that the at least one first type sensor generates an indication on a detection, data indicating a detection by the at least one second type sensor is inquired. If the data inquired does not indicate the detection by the at least one second type sensor a signal is generated causing the generation of the elevator landing call. If the data inquired indicates the detection generated by the at least one second type sensor a generation of the signal causing the generation of the elevator landing call is prevented.

A data capture device for a building system has a housing in which a display device, an optical reading device, and a first reading device are arranged and which are communicatively connected to a control device arranged in the housing. The optical reading device is embodied to optically detect information from a first information carrier, wherein the optical reading device is arranged in such a way that light from the direction of the front side of the housing, which is accessible to a user, can be captured by an image sensor of the optical reading device. The first reading device has a first antenna in order to detect information from a second information carrier by means of radio communication, the first antenna comprising an air coil which has an inner space. The image sensor of the optical reading device is arranged entirely or partially in the inner space of the air coil.

An elevator device according to this disclosure includes a detection device, an identification module, and a determination module. The detection device is provided to a car of an elevator, and detects detection information. The identification module repeatedly acquires identification information for identifying a passenger from the detection information detected by the detection device. The determination module determines a leaving floor of the passenger based on a change in the identification information acquired by the identification module and a floor on which the car stops.

An indirect operating system is suitable for a mobile electronic device to remotely operate a controlled device, and allows the mobile electronic device, after scanning a device barcode of the controlled device, to obtain a corresponding set of user operation pages from a background device and display it on a remote control interface shown by the mobile electronic device, and then, the mobile electronic device converts the user's operation on the user operation page(s) into a control barcode or a driving packet with identification information of the controlled device. Through the driving packet or control barcode, the controlled device can obtain the user's input information and operate according to the input information.

Disclosed is an elevator system for a building, the system including a first elevator for transporting a passenger with a first mobile device between a plurality of lobbies, the system comprising a controller that communicates with the first mobile device renders a plurality of determinations including: a first determination that the passenger is seeking to engage a tenant, whom is a building tenant, a second determination to provide directional information between a current location of the passenger and a first lobby on the first level, a third determination to assign the first elevator to transport the passenger from the first lobby to a second lobby on the second level to engage the tenant, the controller being configured to effect a plurality of transmissions including: a first transmission to the first mobile device to effect the second determination, and a second transmission to the first elevator to effect the third determination.

Methods and systems for controlling elevator systems are provided. The methods include receiving inputs from at least one interactive input device, wherein the inputs include elevator call requests, tracking one or more people located within a monitored area using at least one sensor, assigning elevator assignments to the one or more people based on at least one of the inputs from the at least one interactive input device and a grouping algorithm based on the tracking of the one or more people, and scheduling operation of at least one elevator car based on the elevator assignments.

The present invention relates to the guidance for a passenger to enter a correct elevator car, belonging to the field of elevator intelligent control technologies. In a method for guiding a passenger to enter a correct elevator car provided in the present invention, the movement of the passenger relative to one of a plurality of elevator cars is determined based on a change in the signal strength of a received first wireless signal; and whether the movement is a movement corresponding to entering a correct elevator car is judged based on a recognition result. The present invention can realize that a passenger is automatically guided to enter a correct elevator car by means of the change in a vibration signal and/or a voice prompt signal.