Automatic rescue operation in an elevator system

What is claimed is: 1. Method of performing an automatic rescue operation of an elevator system ( 2 ), the method comprising: (A) detecting a safety signal indicating a safety issue within the elevator system; (B) sending data comprising information about the current state of the elevator system ( 2 ) to an external server ( 22 ); (C) analyzing the transmitted data on the external server ( 22 ); and (D) depending on the result of the analysis, sending commands to the elevator system ( 2 ), wherein the commands include instructing the elevator system ( 2 ): (a) to ignore the safety issue and resume normal operation of the elevator system ( 2 ), (b) to operate the elevator system ( 2 ) in a restricted rescue mode, or (c) to stop operating of the elevator system ( 2 ); wherein the analysis of the received data is based on a model of the elevator system; wherein the model is implemented on the external server ( 22 ); wherein the model is configured for transferring the elevator system ( 2 ) from its current state, via at least one intermediate state, into a state allowing normal operation or into a state allowing a restricted rescue operation of the elevator system ( 2 ); wherein steps (B) to (D) are repeated in a loop for checking whether the elevator system ( 2 ) reaches a desired intermediate state of the at least one intermediate state before the next command is sent to the elevator system ( 2 ). 2. Method according to claim 1 , wherein the method further comprises the following steps to be carried out before and/or after step (C): (E1) the external server ( 22 ) requesting further information from the elevator system ( 2 ); (E2) the elevator system ( 2 ) sending additional data comprising further information to the external server ( 22 ); and (E3) analyzing the additionally received data on the external server ( 22 ). 3. Method according to claim 1 , wherein the model includes a numerical model or a state model of the elevator system ( 2 ). 4. Method according to claim 1 , wherein the data comprising information about the current state of the elevator system ( 2 ) include data indicating the state of at least one switch or node, in particular of at least one safety switch or safety node ( 12 ), of the elevator system ( 2 ). 5. Method according to claim 1 , wherein the restricted rescue mode includes moving the elevator car ( 6 ) with reduced speed or for a limited distance, in particular moving the elevator car ( 6 ) to the next landing ( 8 ) and opening doors ( 10 , 11 ) of the elevator car ( 6 ) and of the hoistway ( 4 ). 6. Automatic elevator safety system ( 1 ) including: an elevator safety circuit ( 17 ) configured for monitoring the operation of an elevator system ( 2 ) comprising at least one elevator car ( 6 ) traveling along a hoistway ( 4 ) and an elevator control ( 13 ) configured for controlling the movement of the elevator car ( 6 ); and an external server ( 22 ); wherein at least one of the elevator control ( 13 ) and the elevator safety circuit ( 17 ) is configured for sending data comprising information about the current state of the elevator system ( 2 ) to the external server ( 22 ), in particular in case a safety issue has been detected; wherein the external server ( 22 ) is configured for (A) receiving the data sent by the at least one elevator safety circuit ( 17 ); (B) analyzing the received data; and (C) depending on the result of the analysis, sending commands to the elevator system ( 2 ), wherein the commands include instructing the elevator system ( 2 ): (a) to ignore the safety issue and to resume normal operation of the elevator system ( 2 ); (b) to operate the elevator system ( 2 ) in a restricted rescue mode; or (c) to stop operating the elevator system ( 2 ); wherein the external server is configured for analyzing the received data based on a model of the elevator system; wherein the model is implemented on the external server ( 22 ); wherein the model is configured for transferring the elevator system ( 2 ) from its current state, via at least one intermediate state, into a state allowing normal operation or into a state allowing a restricted rescue operation of the elevator system ( 2 ); wherein the server ( 22 ) is configured for repeating steps (A) to (C) in a loop for checking whether the elevator system ( 2 ) has reached a desired intermediate state of the at least one intermediate state before sending the next command to the elevator system ( 2 ). 7. Automatic elevator safety system ( 1 ) according to claim 6 , wherein the at least one elevator safety circuit ( 17 ) comprises a safety chain ( 16 ) including at least one mechanical switch and/or at least one electronic safety node ( 12 ), wherein the data comprising information about the current state of the elevator system ( 2 ) includes data indicating the state of the at least one safety switch and/or the at least one safety node ( 12 ). 8. Automatic elevator safety system ( 1 ) according to claim 6 , wherein the external server ( 22 ) is configured for requesting further information from the elevator system ( 2 ) and analyzing the data additionally received from the elevator system ( 2 ). 9. Automatic elevator safety system ( 1 ) according to claim 6 , wherein the model includes a numerical model or a state model of the elevator. 10. Automatic elevator safety system ( 1 ) according to claim 6 , wherein the external server ( 22 ) is configured for receiving and analyzing data from a plurality of elevator systems ( 2 ). 11. Elevator system ( 2 ) comprising: at least one elevator car ( 6 ) traveling along a hoistway ( 4 ) and an elevator control ( 13 ) configured for controlling the movement of the elevator car ( 6 ); and an automatic elevator safety system ( 1 ) according to claim 6 .