Amusement devices: toys – Construction toy – Including electrical feature or assembly
Reexamination Certificate
2001-08-24
2003-06-10
Ackun, Jacob K. (Department: 3712)
Amusement devices: toys
Construction toy
Including electrical feature or assembly
C446S484000, C901S001000
Reexamination Certificate
active
06575802
ABSTRACT:
CROSS REFERENCE TO RELATED APPLICATIONS
The following co-pending applications, Attorney Docket Number D/A1522, U.S. application Ser. No. 09/939,368, filed Aug. 24, 2001, titled “Robotic Toy Modular System”, and Attorney Docket Number D/A1523, U.S. application Ser. No. 09/938,924, now U.S. Pat. No. 6,454,624, filed Aug, 24, 2001, titled “Robotic Toy with Posable Joints, are assigned to the same assignee of the present application. The entire disclosures of these co-pending applications are totally incorporated herein by reference in their entirety.
INCORPORATION BY REFERENCE
The following patent is fully incorporated herein by reference: U.S. Pat. No. 6,206,745 B1 to Gabai et al. (“Programmable Assembly Toy”).
BACKGROUND OF THE INVENTION
This present invention relates generally to reconfigurable modular robotic systems, and more particularly this invention relates to microprocessor controlled robotic modules for a robotic toy construction system.
Modular robotic systems are those systems that are composed of modules which can be disconnected and reconnected in various arrangements to form a new system enabling new functionalities. This results in multiple possible robot structures for the same number of robotic modules. The user interconnects a certain number of modules to form a desired system based on the task to be accomplished by the system. Such systems tend to be more homogeneous than heterogeneous. That is, the system may have different types of modules, but the ratio of the number of module types to the total number of modules is low. In typical systems, one or more mechanisms, such as robotic arms, or manipulators, may be connected to a control system, which controls the motion and actions in accordance with a task specification and program. The motions may include point-to-point motion, or trajectory tracking motion. Actions may include end-effector control or interfacing to other systems such as tools and machines.
The controller for traditional robotic systems is a centralized unit which is connected to the robotic system through a multi-conductor cable system. Therefore, a system assembled from such modules is modular only in a limited mechanical sense, and its reconfigurability is limited. Because the control system electronics are centralized, the modules cannot be considered as intelligent single units, since they lack dedicated control processors and associated software.
Robotic systems have also found applications within the toy industry. Toy development has proceeded from simple functions such as the playing of sounds in dolls, performance of simple patterns of movement in robots, to the development of robotic toys with sophisticated patterns of action and a form of behavior.
Toy building elements may perform different physical actions partially through programming the building element and partially by building a structure which consists of interconnected toy building elements of various types. Through a variety in types of building elements, there are numerous possibilities for forming structures and giving the structures various functions. The physical actions of the structures may comprise simple or relatively complex movements controlled by an electric motor or may include the emission of light or sounds. The toy's physical actions may be conditioned by the interaction of the toy with its surroundings, and the toy may be programmed to respond to physical contact with an object or to light, or possibly sound, and to change its behavior on the basis of the interaction. Such programmable toys are programmed by a central processing unit to make unconditioned as well as conditioned responses.
However, these toys require an external central processing unit programming the elements and directing its movement and also a variety of types of building elements. The object of this invention is to provide a modular robotic toy construction system having active modules, each with its own micro-controller, actuators, input and output devices with the program controlling the actuators distributed among the modules. This facilitates control of the system. Coordination between modules may occur through a single initialization pulse or by network communication between attached modules.
The following patents illustrate existing modular robotic elements or toys:
European Patent Application No. EP 0 923 011 A2 to Fujita et al., titled “Robot Systems and Robot Drive-controlling Methods”, teaches a robot system having multiple modules connected to a central processing unit (CPU) which controls overall operation of the assembled robot. The CPU is located in a body unit which also houses a serial bus host, a distributor, random access memory (RAM) and read only memory (ROM) in which is stored a program for making the assembled robot generate a variety of actions. Additional component units are connected to the body unit or to each other and communicate with the body unit through a serial bus. Each component unit includes electronic parts, a connection hub, and memory in which is stored motion information and the characteristic information of the electronic parts of the component unit.
International Patent Application No. WO 00/45924 to Munch et al., titled “A Microprocessor Controlled Toy Building Element with Visual Programming”, discloses a programmable toy having a microprocessor which can execute instructions in the form of a program stored in memory. The microprocessor is adapted to control electrical and electromechanical units. A display, integrated with the toy, contains icons, each of which represents instructions for the microprocessor, and which can be activated by a user for programming of the microprocessor through a visual user interface.
International Patent No. WO 00/45925 to Munch et al., titled “A Programmable Toy with Communication Means”, which teaches a microprocessor controlled toy building element which may be coupled to other building elements. For example, it may be coupled to a separate structure having a motor and wheels to form a motorized toy vehicle. Each microprocessor executes instructions stored in a memory, which contains subprograms which may be activated individually by specifying a list of subprogram calls. The toy has a transmitter for communicating instructions to a second toy.
U.S. Pat. No. 6,206,745 B1 to Gabai et al., titled “Programmable Assembly Toy”, teaches a programmable assembly toy including both controllable and non-controllable toy elements. The non-controllable elements may be joined to define a structure. The controllable toy elements may interact with the structure and are controlled by a computer control system. The computer control system may be a personal computer equipped with a screen, sound card, hard disk and optionally a CD-ROM drive. A computer radio interface transmits signals via wireless transmission to the controllable toy elements, each of which has a power source, a toy control device, and input and output devices.
SUMMARY OF THE INVENTION
Briefly stated, and in accordance with one aspect of the instant invention, there is provided an assemblage of robotic modules for a toy construction system. The assemblage includes a plurality of robotic modules, with each robotic module having memory capability, an actuator, communications means, and a central processing unit. The assemblage of robotic modules also includes a distributed control unit, which includes a plurality of individual central processing units, with each robotic module containing at least one individual central processing unit.
In another aspect of the instant invention, there is disclosed a method for controlling an assemblage of robotic modules for a toy construction system. Each robotic module includes memory capability, an actuator, communication means, and a central processing unit. The method for controlling the assemblage of robotic modules includes distributing a sequence of behaviors for the assemblage of robotic modules among the robotic modules. The sequence of behaviors is stored within the individual central processing units of each o
Duff David G.
Homans Samuel B.
Roufas Kimon D.
Suh John W.
Yim Mark H.
Ackun Jacob K.
Ross Linda M.
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