This application relates to presenting content and more specifically providing an audio and visual presentation in a book, calendar, games or any printed publication.
Books are constructed with textual material and may include graphical illustrations on their cover. Other books, called pop-up books have graphical content that pop out of the book when the book is open.
Greeting cards are available with a sound chip built into the card. When the card is open, a song or other audible greeting will be played.
These books and cards only provide an audio or a visual experience. In these devices, there is no relation between the visual experience and any audio experience.
In one implementation, a method for presenting content in a text book is disclosed. The method includes a text book having an input device, an electromechanical device, a light emitting device and an audio device. An electric signal is provided to start an event in response to selection the input device. In response to the signal, an object is physically moved within the book with the electro-mechanical device while simultaneously flashing a light with the light emitting device and playing a sound with the audio device.
In another implementation, a book is provided. The book includes a movable object having a surface in which characters within a book are attached. An electro-mechanical device is attached to the book to move the object to change an orientation or position of the characters. The book includes a light emitting device and an audio device. A processing device is incorporated in the book to simultaneously activate the electro-mechanical device, the light emitting device and the audio device.
In another implementation, an apparatus containing textual content may be provided. The apparatus incorporates a movable object, an electro-mechanical device, one or more light emitting devices, an audio device, and a processing circuit. The movable object has a surface in which graphic images are attached. The electro-mechanical device is coupled with the apparatus to move the object to change an orientation or position of the graphic images. The light emitting devices are electrically activated. The processing circuit simultaneously activates the electro-mechanical device, the lighting devices and the audio device.
The detailed description is described with reference to the accompanying figures. In the figures, the left-most digit(s) of a reference number identifies the figure in which the reference number first appears. The use of the same reference number in different figures indicates similar or identical items.
a and 4b illustrates exploded views of a book cover shown in
This disclosure is directed to displaying an animating content. Aspects of the disclosure will be described with content being animated on a cover of a book. However, this disclosure is not intended to be limited to a cover of a book and the animation of content may be applied to devices that are incorporated into other objects, such as one or more pages of a book, a calendar, or a board game.
The book would include a movable object, a light emitting device, and an audio device. The object would have a surface in which characters are displayed. An electro-mechanical device could also be attached to the book to move the object to change an orientation or position of the characters on the objects surface. Although an electro-mechanical device is discussed which rotates a disk, the electro-mechanical device may move other objects. For example the electro-mechanical device may rotate a display wheel in two directions, drive a flap to continuously open and close, drive an object to continuously move back and forth in two directions, cause object to pop-up out of a page, or cause a valve or curtain to open and close.
The light emitting devices would flash and the audio device would emit a sound while the positions of the characters are changed. The devices could be positioned away from the moving disk or moving objects to illuminate through the apertures on a book page/cover. The devices could also be positioned behind the moving disk or objects. A processing device is connected to the light emitting device, the audio device and the electro-mechanical device to simultaneously activate and de-activate the electro-mechanical device, the plurality of lighting devices and the audio device.
These techniques help provide an audio and visual experience for a book reader. Various examples of the construction of the device to provide the audio and visual experience are described below with reference to
An input device, such as switch 118, may be integrally connected to the adjacent a side, front or any other the portion of book cover 100 and may be activated by the reader of the book depressing the input device. When switch 118 is activated (e.g. by being pressed or touched by a user), an event is activated. In one embodiment, this event may include an electromechanical device moving object 106 to display different characters. Alternately, this event may include a light source emitting light through the cover. The light source may include many light sources that may individually be turned off and on to simulate movement.
The switch 118, when pressed, may further result in the activation of the audio device 116 and activation of the light emitting device 112. Although the electromechanical device, audio and light emitting device is described as being activated in response to the switch 118 being pressed, such devices may also be activated by opening a cover of the book or a book reader changing a page in the book to trigger the sensor. In one implementation, when switch 118 is pressed a second time, the movement of electrical mechanical device, the sound emanating from audio device 116 and the light from light emitting device 112 are terminated.
Light emitting device 112 may be configured in the book cover as a series or combination of lights which are used to pinpoint positions on a map of the earth or sky. Such lights may be accompanied by a sound illustration and/or voice description activated by user operated switches (e.g. switch 118) incorporated into either book cover 100 or as additional foldout features.
Electrical mechanical device 204 is connected to an audio device or speaker 210, contains a rotational assembly 212, a motor 213, a circuit 214, an input device, e.g. switch component 216, a light source 222, a battery compartment 218 for powering device 204, circuit 214, the light source 222 and the audio device 210. Further details of mechanical device 204 are described in
Cover binding 202 has apertures 218 through which fiber optic cables 220 are connected. Cables 220 receive light from light source or emitter 222 and radiate the received light through apertures 218. Alternately emitter 222 may be positioned behind disk 206 to light individual characters embedded on disk 206. Light source 222 is activated by circuit 214. Cover binding 202 includes an opening 224 through which disk 206 and the content 208 on disk 206 appear.
During operation and in response to the input device 216 being pressed by the book reader (also referred to herein as “a user”), circuit 214 transmits a signal to electrical mechanical device 204 to indicate to mechanical device 204 to rotate and/or move disk 206. Simultaneously circuit 214 provides a signal to play a song or other sounds via audio speaker 210 and provides a signal to light emitter 222 to provide light via fiber optic cables 220 to apertures 218 on cover 202.
When disk 206 is moved, characters on the disk 206 appear through opening 224. In one implementation, the disk 206 rotates in a circle. In another implementation, disk 206 moves back and forth. Disk 206 continues to rotate for a predetermined period of time, e.g. the length of a song, or until the input device 216 is again activated. Although disk 206 is shown to rotate, other implementations may be envisioned that do not include a rotating disk but rather contain an object having multiple lights that flash to simulate rotation, a back and forth action or other movement. These lights could be synchronized with the audio to flash at specific times in the audio. It is also envisioned that other objects besides disk 206 could be moved by the electrical mechanical device, (e.g. a curtain, or a flap or any other object, such as the objects mentioned previously herein).
a and 4b illustrates exploded views of a book cover 400 (100 in
Processing device 502 includes a memory (not shown) for holding a program to simultaneously active the audio, light emitting device and activating the electrical mechanical device 504. Processing device 502 may internally store data such as an encoded audio signal. Thus when device 502 is activated, it may play a song, generate a particular sound or provide an audio voice. An exemplary program executed by processing device 502 is described in
Exemplary methods are described below that implement an adaptation algorithm to reduce collisions. However, it should be understood that certain acts need not be performed in the order described, and may be modified, and/or may be omitted entirely, depending on the circumstances. Moreover, the acts described may be implemented by a computer, processor or other computing device based on instructions stored on one or more computer-readable media. The computer-readable media can be any available media that can be accessed by a computing device to implement the instructions stored thereon.
In block 602, the processing device 502 makes a determination whether the input device, e.g. switch 510, has been activated. The processing device 502 continues to repeat block 602 until the input device is activated. If the input device, e.g. switch 510, has been activated by the book reader, the processing device 502 indicates a first event has begun by providing a signal in block 604 to light up the light emitting devices 508, e.g. the LED. The processing device simultaneously provides a signal to electromechanical device 404 to begin to turn the disk in block 606 and provides a voice, audio sound or other melody in block 608 to the audio device 506. The disk may be rotated so that objects to appear on a page in the book related to words in song. For example if the word “cow” was announced in a song, a “cow” character may appear through the opening in the book. Alternately the specific characters on the disk may be specifically illuminated by the light emitting devices (positioned behind the disk). The characters may be illuminated at specific times in the audio. Further if subsequent characters were announced in a song, the disk may be rotated, moved and/or synchronized with the audio so that those characters would appear.
In block 610, a determination is made whether the input device, e.g. switch 510, has again been activated by the book reader. If the input device has been activated (“Yes” in block 610), then the light emitting device 508, the audio device 506 and the electromechanical device 404 are stopped in block 612. If the input switch has not been terminated (“No” in block 610), a determination is made, whether a second event has occurred. Examples of such a second event include a song has completed, or a certain amount of time has elapsed since the first event. If such second event has occurred, the light emitting device 508, the audio device 506 and the electromechanical device 404 are stopped in block 614. In one implementation, the object movements, the audio and the light flashing may be terminated in response to a closing of the cover of the book.
After block 612 or 614, the process 600 repeats in block 602 where a determination is made whether the input device has been selected.
In closing, although the invention has been described in language specific to structural features and/or methodological acts, it is to be understood that the invention defined in the appended claims is not necessarily limited to the specific features or acts described. Rather, the specific features and acts are disclosed as exemplary forms of implementing the claimed invention.