In one aspect, a system for people to simulate flying motion may include a plurality of supporting posts, one or more control units, and each of the control unit is connected to the user's body through a string, and a sensor is disposed on each string. The sensor can detect the tension change of the string and transmit the signal to the control unit to adjust the tension accordingly. When the user moves the wings, the change of the tension can be detected by the sensor and transmitted to the control unit to further adjust the tension of each string by pulling or releasing the strings to enable the user to enjoy the flying motion.

A carousel ride system includes a rotatable platform, a plurality of figures that are configured to rotate with the rotatable platform, and a lift system. The lift system is configured to raise and to lower the plurality of figures relative to the rotatable platform along a vertical axis during ride operations and to position each of the plurality of figures at a same vertical height relative the rotatable platform along the vertical axis during loading and unloading operations.

A carousel ride system includes a rotatable platform, a plurality of figures that are configured to rotate with the rotatable platform, and a lift system. The lift system is configured to raise and to lower the plurality of figures relative to the rotatable platform along a vertical axis during ride operations and to position each of the plurality of figures at a same vertical height relative the rotatable platform along the vertical axis during loading and unloading operations.

In one aspect, a system for people to simulate flying motion may include a plurality of supporting posts, one or more control units, and each of the control unit is connected to the user's body through a string, and a sensor is disposed on each string. The sensor can detect the tension change of the string and transmit the signal to the control unit to adjust the tension accordingly. When the user moves the wings, the change of the tension can be detected by the sensor and transmitted to the control unit to further adjust the tension of each string by pulling or releasing the strings to enable the user to enjoy the flying motion.

A carousel ride system includes a first rotatable platform and multiple second rotatable platforms. Each second rotatable platform of the multiple second rotatable platforms is positioned within a respective opening in the first rotatable platform. A first drive system is configured to drive rotation of the first rotatable platform and multiple second drive assemblies are configured to drive rotation of the multiple second rotatable platforms. Multiple figures extend over the multiple second rotatable platforms and multiple figure drive assemblies are configured to independently lift and rotate the multiple figures relative to the multiple second rotatable platforms. One or more processors are configured to coordinate operation of the first drive system, the multiple second drive assemblies, and the multiple figure drive assemblies to maintain the multiple figures in a forward-facing orientation relative to a direction of travel of the first rotatable platform during operation of the carousel ride system.

A ride vehicle includes a riding assembly configured to carry a rider, a base configured to couple to the riding assembly, and a control system configured to control the coordination of movements of the ride vehicle with movements of separate ride vehicles. The base includes a surface movement system configured to move the ride vehicle along a surface, a vertical movement system configured to move the riding assembly vertically relative to the base, and a roll system configured to move the riding assembly angularly relative to the base.

A carousel ride system includes a rotatable platform, a plurality of figures that are configured to rotate with the rotatable platform, and a lift system. The lift system is configured to raise and to lower the plurality of figures relative to the rotatable platform along a vertical axis during ride operations and to position each of the plurality of figures at a same vertical height relative the rotatable platform along the vertical axis during loading and unloading operations.

A carousel ride system includes a rotatable platform, a plurality of figures that are configured to rotate with the rotatable platform, and a lift system. The lift system is configured to raise and to lower the plurality of figures relative to the rotatable platform along a vertical axis during ride operations and to position each of the plurality of figures at a same vertical height relative the rotatable platform along the vertical axis during loading and unloading operations.

A gondola 40 is mounted to move freely along an endless, sinuous track 20. With the track 20 rotating about a horizontal axis, the gondola 40 is raised and, as the track 20 presents a downhill section, the gondola 40 rolls down it under the influence of gravity. The steeper the downhill section, the greater the speed until the gondola 40 reaches its lowermost position (FIG. 1B). Its momentum cause the gondola 40 to carry on travelling along a momentarily uphill section of the track 20. Travel from then on depends on a number of variables, including the rotational speed, direction and acceleration of the track 20, the weight of the gondola 40 and its passengers, the natural damping effect of friction in the mounting of the gondola 40 on the track 20, and any additional braking and/or driving effect that may be applied to the gondola 40. As compared to a conventional rollercoaster, the ride 1 may occupy a very much smaller footprint, incur a much lower capital cost and be readily adaptable to mobile use. By varying the operating parameters, many differing ride experiences may be achieved.

An amusement system for entertaining a group of passengers by showing at least one event in at least one delimited space includes at least one pair of a neighbouring first and second structures. Each structure has a centre of rotation defining a vertical axis A-A, and at least one carriage for carrying at least one passenger. Each structure includes at least three wall portions which are laterally extending, wherein a segment TS is defined in between each neighbouring wall portion. The first and second structures are arranged as a cooperating pair of structures in that in operation the first and second structures are driven in rotation by a control unit in opposite directions with respect to each other.