Interactive video distribution systems – Video distribution system components – Receiver
Reexamination Certificate
1997-02-04
2002-07-02
Faile, Andrew (Department: 2611)
Interactive video distribution systems
Video distribution system components
Receiver
C725S063000, C725S073000, C725S074000, C348S061000
Reexamination Certificate
active
06415439
ABSTRACT:
TECHNICAL FIELD
The present invention relates to wireless communication systems and, more particularly, relates to a wireless communication protocol that enables bidirectional communications for controlling synthesized speech and coordinated movement in a plurality of low-cost devices using a single radio-frequency channel.
BACKGROUND OF THE INVENTION
A variety of consumer products available today rely upon the use of wireless communication. Examples include cordless phones, garage door openers, remotely controlled appliances, and remotely controlled toys. A common motivation that drives manufacturers of these and similar products is minimizing the cost associated with providing the wireless communication capability. Thus, techniques for minimizing the cost of radio equipment for transmitting and receiving radio frequency signals while maintaining reliable communication are continuously explored.
Interactive toys, games, and learning products for the home could be particularly useful applications of wireless communication technology. Wireless systems eliminate the use of wire-line communication links and, therefore, are preferable for many household applications. For example, wireless toys, games, and learning products eliminate wires that small children might tangle or pull free, or that dogs might chew. Wireless products also avoid the need for universal plugs or adapters and allow a large number of wireless devices to be controlled by a single controller without requiring a large terminal port for plugging-in the controlled devices. Wireless communication links are therefore safer, more robust, more versatile, and in many cases less expensive than wire-line communication links.
There are a number of often competing objectives in designing wireless products, such as toys, games, and learning products, for use in a home environment. First, the entire system should be priced within an acceptable range for a children's entertainment product. Furthermore, because each child may desire new controlled devices over time, the cost of each controlled device should be as low as possible. This means that the controlled devices should include inexpensive wireless communication equipment, such as conventional amplitude modulation (AM) radio equipment and digital data handling equipment. Second, it is advantageous for several wireless devices to be controlled simultaneously by a single controller. In the context of a wireless toy environment, this allows several children to interact with their own toys at the same time. For example, one child may interact with a “FRED” toy, while another interacts with a “WILMA” toy, while another interacts with a “DINO” toy, etc. In addition, it is advantageous for a variety of different toys to be available so that children have a selection of toys to choose from and collect. Moreover, in a progressive learning system, it is advantageous to have a series of toys associated with different skills so that a child can progress through the skills learned by interacting with the different toys.
Third, it is advantageous for the controller and the controlled devices to be operable for engaging in bidirectional communications. This is particularly useful in an interactive learning environment in which a child interacts with a controlled device. For example, the controller may direct a controlled doll to say, “Please squeeze my left hand.” The controlled doll may then transmit the child's response back to the controller, which responds accordingly. For example, if the child squeezes the doll's right hand, the controller directs the doll to say, “No that's my right hand, please squeeze my left hand.”
A fourth consideration is forward compatibility. This means that the original controller can be used to operate future versions of controlled devices. For example, an interactive toy product may initially be introduced with only one or two controlled devices (e.g., “FRED” and “WILMA”). But over the next several years, dozens of new controlled products may be released to upgrade the system (e.g., “DINO,” “BAM-BAM,” etc.). Forward compatibility allows the new controlled devices to be operated by the original controller.
These and other desirable attributes of the wireless system should be attained within severe bandwidth limitations. Governmental regulations over the radio-frequency spectrum limits the amount of the spectrum that may be allocated to devices such as toys, games, and learning products. In fact, the Federal Communications Commission (FCC) has allocated only a few radio-frequency channels for low cost consumer products. Because several widely-used products fall into this category, such as cordless telephones and garage door openers, crosstalk and interference between these devices and newly-introduced wireless products should be avoided. The amount of the radio-frequency spectrum used by the newly-introduced wireless products should therefore be minimized. In fact, the newly-introduced wireless products should preferably use a single radio-frequency channel.
There is, therefore, a need for inexpensive wireless products, such as toys, games, and learning products, for use in a home environment. There is a further need for a wireless communication system in which several wireless devices may be controlled simultaneously by a single controller. There is a further need for a wireless communication system in which the controller and the controlled devices are operable for engaging in bidirectional communications. There is a further need for a wireless communication system configured for forward compatibility. These and other desirable attributes of the wireless system should be attained within severe bandwidth limitations, such as a single radio-frequency channel.
SUMMARY OF THE INVENTION
The present invention meets the needs described above by providing a wireless communication protocol that enables unidirectional communications in a simplex environment, or bidirectional communications in a duplex environment, between a controller and one or more controlled devices. The controller receives or generates video data and control data that may include voice synthesis coefficients and motor movement coefficients for the controlled devices. The video data drives a display device to depict a scene, and the control data drives the controlled devices so that the controlled devices behave as characters in the scene depicted on the display device. Each controlled device is operable for recognizing messages directed to the device and for parsing these messages into control signals for a number of end effectors, such as speech synthesizers, servo motors, lights, heat sources, pumps, etc. The content of messages for, and the set of end effectors in, any particular controlled device may be changed so that the system is forwardly compatible for new controlled devices using the protocol.
Generally described, in a simplex environment, a controller transmits an acquisition message from the controller to a controlled device including a transmitted device code and a subchannel address. The controlled device compares the assigned device code to the transmitted device code and, if the assigned device code corresponds to the transmitted device code, stores the subchannel address as an assigned subchannel address. The controller then transmits a control data packet to the controlled device including a message header, which includes a message subchannel address, and control data. The controlled device compares the assigned subchannel address to the message subchannel address and, if the assigned subchannel address corresponds to the message subchannel address, responds to the control data. To reduce the bandwidth requirement for the control data packet, the subchannel address consists of substantially fewer data bits than the assigned device code. For example, the subchannel address may include only three data bits, whereas the assigned device code may include at least sixteen data bits.
In a duplex environment, the controller transmits an acquisition message from t
Castillo Leonardo Del
Randell Scott
Anderson Ronald M.
Faile Andrew
Tran Hai V.
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