There is provided a system for providing interactivity to a guest of an experiential venue, based on sensor measurement of the guest. The system comprises a sensor configured to sense a guest variable of the guest, where the sensor may be a biometric sensor, a facial recognition sensor, a voice stress analysis sensor, a gesture recognition sensor, a motion tracking sensor, or an eye tracking sensor, and may sense heart rate or another guest variable. The system also comprises a control system, which may be implemented as a computer, in communication with the sensor. The control system is configured to determine a guest state from the guest variable, and to modify a venue variable, for example by selecting a path a theme park ride follows. The control system modifies the venue variable according to the guest state to provide increased satisfaction to the guest of the experiential venue.

There is provided a system for providing interactivity to a guest of an experiential venue, based on sensor measurement of the guest. The system comprises a sensor configured to sense a guest variable of the guest, where the sensor may be a biometric sensor, a facial recognition sensor, a voice stress analysis sensor, a gesture recognition sensor, a motion tracking sensor, or an eye tracking sensor, and may sense heart rate or another guest variable. The system also comprises a control system, which may be implemented as a computer, in communication with the sensor. The control system is configured to determine a guest state from the guest variable, and to modify a venue variable, for example by selecting a path a theme park ride follows. The control system modifies the venue variable according to the guest state to provide increased satisfaction to the guest of the experiential venue.

The present invention relates to a method for operating a ride (1) on a terrain (10) having at least one vehicle (20), the at least one vehicle (20) having a drive device (22), at least one passenger receptacle (21) for at least one passenger (5), and a store (24) that can be filled with projectiles (15), the method being characterized in that the at least one vehicle (20) is moved on the terrain by means of the relevant drive device (22) and in that at least one projectile (15) can be removed from the store (24) can be fired at the instigation of the at least one passenger (5). In addition, the present invention relates to a ride (1).

The present invention relates to a locking device (1) for a safety bar (8), comprising a fluid channel (10) having a magneto-rheological fluid (11), a movable locking element (40) and a magnet device (30), wherein the locking element (40) is coupled to the safety bar (8) and forces the fluid (11) through the fluid channel (10) when the safety bar (8) moves, wherein the fluid channel (10) has at least one channel portion (20), and wherein the magnet device (30) is arranged at least on opposing side walls (21) of the channel portion (20) in such a manner that the field lines (31) of the magnetic field of the magnet device (30) can pass through the channel portion (20). The present invention further relates to a passenger accommodation having a safety bar (8) and a locking device (1) and an amusement ride having a locking device (1) according to the invention.

A ride system includes a tunnel, a vehicle ride path, a ride vehicle, and a projection system. The tunnel includes a first end and a second end and is curved between the first and second ends. The vehicle ride path extends within the tunnel from an entrance at the first end of the tunnel to an intermediate position within the tunnel. The second end of the tunnel is not visible from the intermediate position. The ride vehicle travels along the vehicle ride path and decelerates as the ride vehicle approaches the intermediate position. The projection system projects images onto one or more walls of the tunnel, such that the images are synchronized with the deceleration of the ride vehicle and a perceived speed of the ride vehicle, as perceived by a guest in the ride vehicle, exceeds an actual speed of the ride vehicle.

A ride system includes a tunnel, a vehicle ride path, a ride vehicle, and a projection system. The tunnel includes a first end and a second end and is curved between the first and second ends. The vehicle ride path extends within the tunnel from an entrance at the first end of the tunnel to an intermediate position within the tunnel. The second end of the tunnel is not visible from the intermediate position. The ride vehicle travels along the vehicle ride path and decelerates as the ride vehicle approaches the intermediate position. The projection system projects images onto one or more walls of the tunnel, such that the images are synchronized with the deceleration of the ride vehicle and a perceived speed of the ride vehicle, as perceived by a guest in the ride vehicle, exceeds an actual speed of the ride vehicle.

A movable railing assembly includes a first railing segment having a first bogie and a first barrier coupled to the first bogie. The first bogie is configured to engage a track positioned below the first barrier and to facilitate movement of the first railing segment along the track, and the first barrier is configured to block access across the first railing segment. The movable railing assembly also includes a second railing segment having a second bogie and a second barrier coupled to the second bogie. The second bogie is configured to engage the track and to facilitate movement of the second railing segment along the track, and the second barrier is configured to block access across the second railing segment. Furthermore, the movable railing assembly includes a connector coupling the first railing segment to the second railing segment.

A movable railing assembly includes a first railing segment having a first bogie and a first barrier coupled to the first bogie. The first bogie is configured to engage a track positioned below the first barrier and to facilitate movement of the first railing segment along the track, and the first barrier is configured to block access across the first railing segment. The movable railing assembly also includes a second railing segment having a second bogie and a second barrier coupled to the second bogie. The second bogie is configured to engage the track and to facilitate movement of the second railing segment along the track, and the second barrier is configured to block access across the second railing segment. Furthermore, the movable railing assembly includes a connector coupling the first railing segment to the second railing segment.

The present invention relates to an amusement ride (1) comprising at least one vehicle (2) which can move along a specified track (10), wherein the at least one vehicle (2) comprises at least one sensor (30), wherein the at least one sensor (30) is electrically independent of the vehicle (2), wherein the at least one sensor (30) comprises an RFID transponder (35), and wherein at least one RFID receiver (20) is arranged along the specified track (10), which is set up to communicate with the RFID transponder (35) and to read out the at least one measured value from the at least one sensor (30).

The present invention relates to an amusement ride (1) comprising at least one vehicle (2) which can move along a specified track (10), wherein the at least one vehicle (2) comprises at least one sensor (30), wherein the at least one sensor (30) is electrically independent of the vehicle (2), wherein the at least one sensor (30) comprises an RFID transponder (35), and wherein at least one RFID receiver (20) is arranged along the specified track (10), which is set up to communicate with the RFID transponder (35) and to read out the at least one measured value from the at least one sensor (30).