A ride vehicle control system for a ride vehicle of an attraction includes multiple sensors that are configured to monitor a guest supported by the ride vehicle. The ride vehicle control system also includes an actuator system configured to couple to the ride vehicle. The ride vehicle control system further includes one or more processors that are configured to receive signals from the multiple sensors, wherein the signals are indicative of a position of the guest, a movement of the guest, or both. The one or more processors are also configured to determine an intended movement for the ride vehicle based on the signals and to control the actuator system to adjust a resistance to movement of the ride vehicle to facilitate the intended movement.

A ride vehicle control system for a ride vehicle of an attraction includes multiple sensors that are configured to monitor a guest supported by the ride vehicle. The ride vehicle control system also includes an actuator system configured to couple to the ride vehicle. The ride vehicle control system further includes one or more processors that are configured to receive signals from the multiple sensors, wherein the signals are indicative of a position of the guest, a movement of the guest, or both. The one or more processors are also configured to determine an intended movement for the ride vehicle based on the signals and to control the actuator system to adjust a resistance to movement of the ride vehicle to facilitate the intended movement.

A bed capable of reducing a burden of posture conversion of a subject. There is provided a bed on which a subject is placed including: an upper body-holding bed configured to rotate around a rotational axis extending along a central axis of the subject, and to hold and rotate the upper body of the subject; and a lower body-holding bed configured to rotate around the rotational axis, and to hold and rotate the lower body of the subject, wherein the upper body-holding bed and the lower body-holding bed are configured so that one of these components rotates in accordance with rotation of the other.

A motion base (100) includes: a first installation base (1a); a first movable base (2a) on which a placement subject is to be placed and that is disposed on the first installation base (1a); at least two first actuators (3a) each of which is extendable and contractible; first connecting portions (1a) connecting the first actuators (3a) to the first movable base (2a); second connecting portions (4b) connecting the first actuators (3a) to the first installation base (1a); and a spherical surface body (5) that has a spherical surface-shaped portion (15), is disposed on the first installation base (1a), and supports the first movable base (2a) such that an attitude of the first movable base (2a) can be changed relative to the first installation base (1a) by sliding the spherical surface-shaped portion (15).

A tactile presentation apparatus according to an embodiment of the present technology includes a movable member, an elastic portion, and at least one drive unit. The elastic portion supports the movable member. The at least one drive unit is connected to the movable member, moves the movable member so as to elastically deform the elastic portion, and is capable of keeping the elastic portion elastically deformed.

A tactile presentation apparatus according to an embodiment of the present technology includes a movable member, an elastic portion, and at least one drive unit. The elastic portion supports the movable member. The at least one drive unit is connected to the movable member, moves the movable member so as to elastically deform the elastic portion, and is capable of keeping the elastic portion elastically deformed.

An amusement ride requires the participant to ascend to a platform for the beginning of the amusement ride via a single or a double helix ladder. The participants are tethered for safety. Operators attend the tether lines. The moving climbing wall surmounts an upper roller and a lower roller. One of the rollers is connected to a power source for movement of the moving climbing wall around the rollers. A controller controls the power source.

An amusement ride requires the participant to ascend to a platform for the beginning of the amusement ride via a single or a double helix ladder. The participants are tethered for safety. Operators attend the tether lines. The moving climbing wall surmounts an upper roller and a lower roller. One of the rollers is connected to a power source for movement of the moving climbing wall around the rollers. A controller controls the power source.

An attraction system includes an elevator assembly having an elevator path that intersects a ride path of the attraction system, an elevator car having a support and configured to travel along the elevator path, a ride vehicle having a cabin coupled to a bogie, and a cabin projection of the cabin. The ride vehicle is configured to travel along the ride path via the bogie, in which the bogie is configured to travel into the elevator car via the ride path, and the support is configured to capture the cabin projection on at least two sides when the ride vehicle is in a loaded position.

A seating device for connection to a movement mechanism includes at least one seat and a fastening flange. The fastening flange has at least one flange clamping receptacle, and the seat has at least two seat clamping receptacles for connection to the fastening flange. At least one clamping device is provided, which extends in the direction of a clamping axis. The flange clamping receptacle is arranged in the direction of the clamping axis between two of the at least two seat clamping receptacles. The clamping device passes through the two seat clamping receptacles arranged on either side of the flange clamping receptacle and clamps them together in the direction of the clamping axis.