Remote operation of an elevator

The invention claimed is: 1. A method of operating an elevator among a plurality of elevators controlled in a centralized manner by a remote service system at a remote location relative to the plurality of elevators, the method comprising: transmitting, from an elevator controller associated with the elevator, a rescue request to the remote service system by transmitting, to the remote service system, one or more of (i) a response originating from the elevator in response to receipt of an instruction, from the remote service system, instructing only the elevator from among the plurality of elevators to generate the response, or (ii) a unique identifier associated with the elevator from among a plurality of unique identifiers associated with respective ones of the plurality of elevators, the rescue request requesting the remote service system perform a remote manual operation of the elevator; and performing, by the elevator controller, the remote manual operation in response to instructions received via a remote manual operation panel of the remote service system located at the remote location and transmitted to the elevator controller over a data connection established after the remote service system verifies that, from among the plurality of elevators, the elevator is a source of the rescue request by one or more of (i) observing the response originating from the elevator, or (ii) analyzing the unique identifier associated with the elevator. 2. The method of claim 1 , further comprising: transmitting, by the elevator controller, a shared secret to distinguish the elevator associated with the rescue request from among the plurality of elevators. 3. The method of claim 2 , wherein the shared secret is utilized to distinguish the elevator associated with the rescue request from among the plurality of elevators through a challenge-response authentication. 4. The method of claim 3 , wherein the response is a visual and/or audible signal originating from the elevator. 5. The method of claim 1 , wherein the unique identifier of the elevator is within an interior of the elevator, and the method further comprises: capturing, via an image capturing device within the interior of the elevator, the unique identifier of the elevator; and transmitting, via the elevator controller, the captured unique identifier to the remote service system to facilitate the remote service system verifying that the elevator is the source of the rescue request. 6. The method of claim 1 , wherein the transmitting the rescue request includes transmitting the unique identifier of the elevator, and wherein the remote service system is configured to verify that the elevator is the source of the rescue request by determining whether the unique identifier corresponds to a stored identifier stored in a memory of the remote service system. 7. A method of operating an elevator among a plurality of elevators controlled in a centralized manner by a remote service system at a remote location relative to the plurality of elevators, the method comprising: transmitting, from an elevator controller associated with the elevator, a rescue request to the remote service system, the rescue request requesting the remote service system perform a remote manual operation of the elevator; and performing, by the elevator controller, the remote manual operation in response to instructions received via a remote manual operation panel of the remote service system located at the remote location and transmitted to the elevator controller over a data connection established after the remote service system verifies that, from among the plurality of elevators, the elevator is a source of the rescue request, wherein the performing the remote manual operation includes one or more of (i) bypassing a safety contact or a safety function associated with the elevator from the remote location, (ii) opening at least one hoisting machinery brake associated with the elevator from the remote location, or (iii) activating a rescue drive unit associated with the elevator from the remote location. 8. The method of claim 1 , wherein the data connection between the elevator controller and the remote service system is established using a black channel approach such that data associated with the remote manual operation is associated with a safety layer and encapsulated into a datagram including the safety layer and a normal layer and received by the elevator controller via a non-safety specific network. 9. The method of claim 1 , wherein the transmitting transmits the rescue request to the remote service system upon the elevator controller associated with the elevator determining that passengers are present inside the elevator and the elevator is stuck between two landings inhibiting the passengers from leaving the elevator. 10. A non-transitory computer readable medium storing a computer program which, when executed by at least one processor of the elevator controller, causes the at least one processor to perform the method of claim 1 . 11. An elevator, comprising: an interface configured to selectively exchange information with a remote service system via a data connection; and an elevator controller configured to, transmit a rescue request to the remote service system at a remote location relative to a plurality of elevators including the elevator by transmitting, to the remote service system, one or more of (i) a response originating from the elevator in response to receipt of an instruction, from the remote service system, instructing only the elevator from among the plurality of elevators to generate the response, or (ii) a unique identifier associated with the elevator from among a plurality of unique identifiers associated with respective ones of the plurality of elevators, the rescue request requesting the remote service system perform a remote manual operation of the elevator, and perform the remote manual operation in response to instructions received via a remote manual operation panel of the remote service system located at the remote location and transmitted to the elevator controller over the data connection after transmitted to the elevator controller over the data connection established after the remote service system verifies that, from among the plurality of elevators, the elevator is a source of the rescue request by one or more of (i) observing the response originating from the elevator, or (ii) analyzing the unique identifier associated with the elevator. 12. The elevator of claim 11 , wherein the elevator controller is further configured to transmit a shared secret to distinguish the elevator associated with the rescue request from among the plurality of elevators. 13. The elevator of claim 12 , wherein the shared secret is utilized to distinguish the elevator associated with the rescue request from among the plurality of elevators through a challenge-response authentication. 14. The elevator of claim 13 , wherein the response is a visual and/or audible signal originating from the elevator. 15. The elevator of claim 11 , wherein a unique identifier of the elevator is within an interior of the elevator; and the elevator controller is further configured to, capture, via an image capturing device within the interior of the elevator, the unique identifier of the elevator, and transmit the captured unique identifier to the remote service system to facilitate the remote service system verifying that the elevator is the source of the rescue request. 16. The elevator of claim 11 , wherein the elevator controller is configured to transmit the rescue request such