A robot includes an operation control unit that selects a motion of the robot, a drive mechanism that executes a motion selected by the operation control unit, and a remaining battery charge monitoring unit that monitors a remaining charge of a rechargeable battery. Behavioral characteristics of the robot change in accordance with the remaining battery charge. For example, a motion with a small processing load is selected at a probability that is higher the smaller the remaining battery charge. Referring to consumption plan data that define a power consumption pace of the rechargeable battery, the behavioral characteristics of the robot may be caused to change in accordance with a difference between the remaining battery charge scheduled in the consumption plan data and the actual remaining battery charge.

A method, apparatus, and system according to which a patient simulator includes one or more of the following: a left eye assembly including a simulated left pupil, a simulated left eyelid, and/or a simulated left iris; a right eye assembly including a simulated right pupil, a simulated right eyelid, and/or a simulated right iris; a neck assembly including a simulated neck; a left brow assembly including a simulated left brow; a right brow assembly including a simulated right brow; a tear duct assembly including simulated left and right cheeks through which artificial pores are formed; and a mouth assembly including a simulated mouth. In various embodiments, any one, or a combination, of these assemblies may be, include, or be part of, a manikin in the form of a human face, and may therefore be activated simultaneously to realistically simulate life-like human emotional states.

Visually distinguishable robots and methods to manufacture the same are disclosed. An example kit for constructing a robot includes a first component for a framework of the robot, a second component for the framework, and a connector to secure the first and second components in a spatial relationship of a plurality of possible spatial relationships. The spatial relationship is to cause the robot to have a humanly perceptible identity.

Visually distinguishable robots and methods to manufacture the same are disclosed. An example kit for constructing a robot includes a first component for a framework of the robot, a second component for the framework, and a connector to secure the first and second components in a spatial relationship of a plurality of possible spatial relationships. The spatial relationship is to cause the robot to have a humanly perceptible identity.

To entertain viewers more by adopting motions different from the conventional ones, there is provided an eyeglasses toy having an eyeglasses frame comprising a rim member and temple members, eyeball members fixed to the rim member and comprising spherical surface portions which project forwards from the rim member, rotational eyelid members which are provided rotatably so as to cover and expose the spherical surface portions of the eyeball members, biasing members which bias the rotational eyelid members in a direction in which the rotational eyelid members expose the spherical surface portions of the eyeball members, and operating members or strings which rotate the rotational eyelid members in a direction in which the rotational eyelid members cover the spherical surface portions of the eyeball members against biasing forces of the biasing members, wherein the strings have a chin locked portion which is locked on the chin of a wearer.

To entertain viewers more by adopting motions different from the conventional ones, there is provided an eyeglasses toy having an eyeglasses frame comprising a rim member and temple members, eyeball members fixed to the rim member and comprising spherical surface portions which project forwards from the rim member, rotational eyelid members which are provided rotatably so as to cover and expose the spherical surface portions of the eyeball members, biasing members which bias the rotational eyelid members in a direction in which the rotational eyelid members expose the spherical surface portions of the eyeball members, and operating members or strings which rotate the rotational eyelid members in a direction in which the rotational eyelid members cover the spherical surface portions of the eyeball members against biasing forces of the biasing members, wherein the strings have a chin locked portion which is locked on the chin of a wearer.

An animatronic eye with fluid suspension, electromagnetic drive, and video capability. The eye assembly includes a spherical, hollow outer shell that contains a suspension liquid. An inner sphere is positioned in the outer shell in the suspension liquid to be centrally floated at a distance away from the shell wall. The inner sphere includes painted portions providing a sclera and iris and includes an unpainted rear portion and front portion or pupil. The shell, liquid, and inner sphere are have matching indices of refraction such that interfaces between the components are not readily observed. A camera is provided adjacent a rear portion of the outer shell to receive light passing through the shell, liquid, and inner sphere. A drive assembly is provided including permanent magnets on the inner sphere that are driven by electromagnetic coils on the outer shell to provide frictionless yaw and pitch movements simulating eye movements.

An animatronic eye with fluid suspension, electromagnetic drive, and video capability. The eye assembly includes a spherical, hollow outer shell that contains a suspension liquid. An inner sphere is positioned in the outer shell in the suspension liquid to be centrally floated at a distance away from the shell wall. The inner sphere includes painted portions providing a sclera and iris and includes an unpainted rear portion and front portion or pupil. The shell, liquid, and inner sphere are have matching indices of refraction such that interfaces between the components are not readily observed. A camera is provided adjacent a rear portion of the outer shell to receive light passing through the shell, liquid, and inner sphere. A drive assembly is provided including permanent magnets on the inner sphere that are driven by electromagnetic coils on the outer shell to provide frictionless yaw and pitch movements simulating eye movements.

An apparatus for the use of controlling a puppet to obtain a desired position or display, with a mounting plate defining at least one aperture; at least one rod having a first and second end; a ball brace configured to engage a ball and the rod, engaging the rod between the first and second end; wherein the ball brace may be locked and unlocked; wherein the rod further comprises a coating on the second end to engage with the inside of a puppet; and wherein the rod, when engaged with the inside of the puppet, moves the inside of the puppet when moved.

An apparatus for the use of controlling a puppet to obtain a desired position or display, with a mounting plate defining at least one aperture; at least one rod having a first and second end; a ball brace configured to engage a ball and the rod, engaging the rod between the first and second end; wherein the ball brace may be locked and unlocked; wherein the rod further comprises a coating on the second end to engage with the inside of a puppet; and wherein the rod, when engaged with the inside of the puppet, moves the inside of the puppet when moved.