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.

Some embodiments of the present disclosure include a plush toy with an internal stabilizer. The plush toy may include an outer plush body with a pair of arms and an opening at a bottom surface of the outer plush body; a T-shaped stabilizer positioned within the outer plush body, the T-shaped stabilizer including a post and a pair of arms extending perpendicularly from the post at a first end of the post, and a threaded orifice at a second end of the post, the threaded orifice aligning with the opening in the outer plush body; and either a handle or a clip component removably attached to the threaded orifice.

An inflatable ride-on water toy comprising a stylized body that is connected to a separately inflated safety ring using a variety of configurations.

Systems, devices, and methods for a scooter (100) having a front portion (108) and a deck (116) for a user to stand on; and a three-dimensional character (110) disposed on the front portion of the scooter, where the three-dimensional character creates a perspective of riding on or in the three-dimensional character for the user on the deck.

An inflatable ride-on water toy comprising a stylized body that is connected to a separately inflated safety ring using a variety of configurations.

The present invention discloses an improved hobby horse used by children to simulate a real horse. The hobby horse comprises a life like horse head with a neck, a saddle horn, and a hardwood stick body or tail. The horse's head further includes multiple electronic components such as a pair of backlighted eyes, a pair of nostrils, a controlling computer, an amplifier with a horse sound synthesizer, a smoke generator with a driver and a power source to power the electronic components. The saddle horn is disposed at the horse's neck, comprises a plurality of light emitting diodes (LEDs) to illuminate the saddle horn. The amplifier is configured to emit a whinny sound of the horse and the smoke generator is configured emit smoke from the nostrils of the horse's head. The electronic components of the hobby horse could be activated via a multi-functional switch.

The present invention discloses an improved hobby horse used by children to simulate a real horse. The hobby horse comprises a life like horse head with a neck, a saddle horn, and a hardwood stick body or tail. The horse's head further includes multiple electronic components such as a pair of backlighted eyes, a pair of nostrils, a controlling computer, an amplifier with a horse sound synthesizer, a smoke generator with a driver and a power source to power the electronic components. The saddle horn is disposed at the horse's neck, comprises a plurality of light emitting diodes (LEDs) to illuminate the saddle horn. The amplifier is configured to emit a whinny sound of the horse and the smoke generator is configured emit smoke from the nostrils of the horse's head. The electronic components of the hobby horse could be activated via a multi-functional switch.

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.