Failsafe operation for unmanned gatelines

What is claimed is: 1. A system for enabling fail-safe operation of an automatic pedestrian access control gate during a health and safety event, the system comprising: a gate paddle configured to operate in an open state and a locked state, wherein pedestrian passage through the access control gate is granted while the gate paddle is operating in the open state, and wherein pedestrian passage through the access control gate is blocked while the gate paddle is operating in the locked state; a gate paddle sensor configured to detect a position of the gate paddle; and a computer server system coupled to the gate paddle and the gate sensor, the computer server system being configured to: receive gate paddle sensor data from the gate paddle sensor indicating the position of the gate paddle, determine, based on the gate paddle sensor data, that the gate paddle is stuck in an unnatural position that is different from a natural resting position of the gate paddle during normal operation, determine that the gate paddle is currently operating in the locked state, and transmit an alert to a remote monitoring device; determine whether the remote monitoring device is actively monitored; select a timeout threshold based on the determination of whether the remote monitoring device is actively monitored, wherein the timeout threshold is different upon a determination that the remote monitoring device is actively monitored than upon a determination that the remote monitoring device is not actively monitored; determine that an acknowledgement of the alert has not been received within the selected timeout threshold; and transmit a signal to the gate paddle that causes the gate paddle to operate in the open state based on determining that the gate paddle is stuck in the unnatural position, determining that the gate paddle is currently operating in the locked state, and determining that the acknowledgement has not been received within the selected timeout threshold. 2. The system of claim 1 , wherein the computer server system determines that the gate paddle is stuck in the unnatural position by tracking a period of time that the gate paddle is in the unnatural position, and determining that the period of time is greater than or equal to a preset threshold. 3. The system of claim 1 , wherein the computer server system is further configured to: determine that the gate paddle is currently operating in the open state; generate an alert based on determining that the gate paddle is stuck in the unnatural position and determining that the gate paddle is currently operating in the open state; and transmit the alert to a remote monitoring device. 4. The system of claim 1 , further comprising: an optical sensor configured to detect presence of an object within a passageway of the access control gate; wherein the computer server system is further configured to: receive optical sensor data from the optical sensor, the optical sensor data indicating that the object is present within the passageway, generate an alert in response to receiving the optical sensor data, and transmit the alert to a remote monitoring device. 5. The system of claim 4 , wherein the computer server system is further configured to: wait for a preset period of time to pass after transmitting the signal to the gate paddle that causes the gate paddle to operate in the open state and before generating the alert. 6. The system of claim 1 , further comprising: a video camera aimed at an area that includes the access control gate; wherein the computer server system is further configured to: receive a video feed from the video camera, analyze the video feed, determine that a pedestrian is present within a passageway of the access control gate based on analyzing the video feed, generate an alert in response to determining that the pedestrian is present within the passageway, and transmit the alert to a remote monitoring device. 7. The system of claim 6 , wherein the computer server system is further configured to: extract a clip from the video feed, the clip including the health and safety event; and transmit the clip to the remote monitoring device.