Patent Application
20050270280
The present invention relates to video presentation, and more particularly, to a video display device for displaying video sequences that may be used in a wide variety of applications.
Many items can be enhanced by a video image or series of video images. Examples of such items include trophies, refrigerator magnets, souvenirs, and lockets. However, incorporation of video into such items has been hampered, for example, by size, cost, complexity and/or power constraints.
Additionally, the manufacturer of such items typically does not have the capability to assemble the relatively complex video display device, and must choose from what is available in industry. However, current self-contained displays are generally of two types that are unsuitable for this particular use: 1) displays integrated into special use devices such as calculators and hand held games; and 2) increasingly sophisticated devices that require a lot of operator interaction to use the display—such as camera displays, computers, cell phones, and PDA devices. There are currently no self-contained, fully integrated electronic video display devices that are capable of displaying a wide range of video images and that further require no external inputs and minimal user interaction.
Furthermore, of great concern for many applications is that the video data stored into a video display device could be copied and consequently illegally distributed. For these applications, it is thus very advantageous to prevent downloading of the video data from video display device.
In accordance with a first embodiment of the invention there is provided a video display device that includes a display, a memory device, and a unidirectional programming port for programming video data into the memory device. The video data stored in the memory device is incapable of being read via the unidirectional programming port. A controller displays a video sequence on the display, the video sequence displayed as a function of the video data stored in the memory device.
In accordance with another embodiment of the invention, a method of providing two or more video display devices is presented. Each device has a display, a memory device for storing video data, a programming port for programming the memory device, and a controller for controlling the display and the memory device so as to display a video sequence, the video sequence displayed as a function of the video data stored in the memory device. The method includes programming the memory device of each video display device with the same video data. The programming port of each video display device is disabled so as to prevent reading and programming of the memory device via the programming port.
In related embodiments, disabling the programming port may include sealing the programming port or breaking off the programming port.
In accordance with still another embodiment of the invention, a video display device includes a display, a memory device preprogrammed with video data, and a controller. The controller displays a video sequence on the display, the video sequence displayed as a function of the video data stored in the memory device. The device is void of a programming port.
In related embodiments, an activation means may activate the display of the video sequence on the display, the video sequence displayed as a function of the video data. The controller may display the entire video sequence upon activation of the activation means without further operator interaction. The controller may display the entire video sequence upon activation of the activation means based only on the video data stored in the memory device.
In accordance with yet another embodiment of the invention, a method of providing a video display device includes programming a memory device with video data. The programmed memory device, a display, and a controller are then assembled to form the video display device. The controller controls the display and the memory device so as to display a video sequence, the video sequence displayed as a function of the video data stored in the memory device.
In accordance with another embodiment of the invention, a method of providing a video display device includes assembling a memory device, a display, and a controller. After assembling, the memory device is programmed with video data. The programmed memory device, the display and the controller is then housed in a case, wherein the controller controls the display and the memory device so as to display a video sequence, the video sequence displayed as a function of the video data stored in the memory device.
In accordance with another embodiment of the invention, and/or related to the above-described embodiments, a video display device that includes a display, a memory device, and controller may be adapted to be a trophy, a plaque, a lapel pin, sports equipment, sports memorabilia, a trading card, a board game piece, a bookmarker, a key fob, a business card, a desk accessory, a promotional give-away item, a direct mail item, a refrigerator magnet, a greeting card or a souvenir. Alternatively, the video display device may be attached to a trophy, a plaque, clothing, sports equipment, sports memorabilia, a board game piece, a lamp, a bookmarker, a desk accessory, a clock, a bag label, a promotional give-away item, a direct mail item, a souvenir, a pet accessory, a purse, a wallet, a greeting card, or a magnet.
In accordance with another embodiment of the invention, and/or related to the above-described embodiments, the video display device that includes a display, a memory device, and controller includes an activation means for activating the display of a video sequence on the display. The video sequence is displayed as a function of the video data stored in the memory device. In various embodiments, the activation means may include one of a light sensor, a sound sensor, temperature sensor, a switch, a button, and a timer. The video data may include a first video sequence and a second video sequence, wherein the controller displays the first video sequence when the activation means is not activated, and displays the second video sequence when the activation means is activated. The controller may automatically display the first video sequence after displaying the second video sequence. The first video sequence may pertain to a time, a temperature, a pressure or a humidity.
In various embodiments, the video sequence may include an advertisement, instructions, a self-help message, a religious message, a sentimental message, an animation, an animate object, an inanimate object, and/or a sports event. The instructions may be, for example, a medical product, a pharmaceutical product or other type of product. The device may include a solar cell or battery for supplying power to the device. The video sequence may be a dynamic video sequence. The video sequence may be less than 30 seconds. The display may have a surface area of 8.75 square inches. The display may be, without limitation, substantially rigid or flexible. The device may include an audio means for providing audio.
The foregoing features of the invention will be more readily understood by reference to the following detailed description, taken with reference to the accompanying drawings, in which:
Definitions. As used in this description and the accompanying claims, the following terms shall have the meanings indicated, unless the context otherwise requires:
“Video” shall mean related to the electronic handling of visual images.
In illustrative embodiments, a display device is presented that can be mass-produced and used in a wide variety of applications. Among other things, the video display device may include a programming port that allows video data to be conveniently programmed into memory either by the display manufacturer or by the retailer. The programming port may be unidirectional, or may be capable of being disabled, such that copying of the video data is prevented. Alternatively, the video display device may not include a programming port and instead may include preprogrammed memory.
The device 100 may have an enclosing case 110. The case 110 may be, for example, made of molded plastic or metal. The size of the case 110 is dependent on application. The shape of the case 110 is also variable depending on application, and may be, for example, rectangular, heart shaped, or football shaped.
The device 100 includes a display 102. The display 102 may be of various types known in the art, such as, but not limited to: a Liquid Crystal Display (LCD) that includes, for example, Twisted Nematic (TN) technology, Supertwisted Nematic (STN) technology, Polymer Dispersed Liquid Crystals (PDLC) and Bistable Cholesteric Liquid Crystals; a Plasma Display Panel (PDP); Alternate Lighting of Surfaces (ALiS); Plasma Addressed Liquid Crystal Display (PALCD); Field Emission Display (FED); Light-emitting Diodes (LEDs); OLED; Light Emitting Polymers (LEP); and electronic ink. The display may be, without limitation, substantially rigid or flexible.
The display 102 may be limited to black and white images, or may alternatively be capable of displaying colored images. The size and resolution of the display 102 is again dependent on application. For example, in applications constrained by size, the display 102 may have a surface area of 8.75 square inches or less. Larger size screens are also within the scope of the present invention, as are various aspect ratios, such as, without limitation, a 4 to 3 aspect ratio or a 16 to 9 aspect ratio.
One or more power sources 230 (see
The video data stored in the memory device 202 may include dynamic video sequences that include motion, or substantially static video sequences. In various embodiments, the video data stored in the memory device 202 may include, without limitation, an animated video sequence that may be, for example, entirely computer generated.
A programming port 106 may be provided for programming the memory device 202 with video data. The programming port 106 is capable of communicating with a programming device that (not shown) for programming the memory device 202 with video data. The programming port 106 may include a wireless interface.
The programming port 106 may be bidirectional to allow programming or reading of the memory device 202. In other embodiments of the invention, the programming port 106 may be a unidirectional programming port. The unidirectional programming port allows data to be programmed into the memory device 202; however, video data stored in the memory device 202 is incapable of being read via the unidirectional programming port. For example, the device 100 may include separate programming and read data paths to the memory device 202, with the unidirectional programming port connected to only the programming data paths. In further embodiments, the programming port 106 (bidirectional or unidirectional) may be disabled after the memory device 202 has been programmed. Disabling the programming port 106 may be accomplished, for example, by sealing the programming port 106 or by breaking off the programming port 106. In still other embodiments, the video display device 100 may not include a programming port 106. Instead, the memory device 202 may be preprogrammed, for example, prior to assembly of the video display device 100. More particularly, the memory device 202 may be loaded with the video data either prior to assembling the memory device 202 into the video display device 100, or prior to assembling the video display device 100 into the case 110.
By disabling the programming port 106 and/or using a unidirectional programming port 106, or by preprogramming the memory device 202 prior to assembly of the device 100 so that no programming port is needed, a video display device 100 can be mass produced by a factory or retailer with preprogrammed video data that cannot be altered by the end user. That the preprogrammed video data cannot be viewed or altered by the end user can be important for certain applications. For example, the video data stored in the memory device 202 may include licensed video clips, such as a sports clip, which the manufacturer does not want the end user to copy and freely distribute. In another embodiment, the video data stored in the memory device 202 may include medical or pharmaceutical directions, which if altered, presents a health risk.
A controller 208 controls the display 102 and the memory device 202 to display a video sequence as a function of the video data stored in the memory device 202. The controller 208 may include, without limitation, control circuitry, a microchip, a microprocessor, a FPGA, software and/or microcode. In various embodiments, the controller 208 is specifically designed for the video display device 100, such that, for example, cost, size and/or power requirements are met. The video data stored in the memory device 202 is written to the display 102 by the controller 208 and displayed.
The video display device 202 may include an activation means 215 for activating the controller 208 to display a video sequence contained in the memory device 202. The activation means 215 may include, without limitation, a photocell for detecting light as described above, or other types of sensors, which may be used for example, to detect sound (such as a clap), motion and/or temperature. In various embodiments, the activation means 215 may include a button or other type of switch known in the art, which may require operator manipulation. The activation means may include a sensor for detecting the removal or replacement of an item, such as a pen in a pen holder, or a telephone on a cradle.
In various embodiments, the memory device 202 may be programmed with video data that includes two or more video sequences. Activation of the activation means 215 may cause each video sequences to be displayed, without limitation, sequentially or in random order. The video sequences may be displayed continuously until the activation means 215 is activated again, interrupting the display of the video sequences. In other embodiments, activation of the activation means 215 may cause each video sequence to be displayed only once.
The video data may include a first video sequence and a second video sequence. The first video sequence may be displayed when the activation means 215 is not activated, with a second video sequence(s) displayed only when the activation means is activated. The first video sequence may again be displayed after the second video sequence ends. The second video sequence(s) is thus “hidden” until the activation means 215 is activated. The first video sequence may pertain to a function that is normally displayed continuously, such as, without limitation, time, temperature, pressure and humidity.
In preferred embodiments of the invention, the video display device has no other operator interface other than activation means 215, which activates one or more video sequences 100 as described above. Upon activation, the one or more video sequences are displayed on the display 102 based on the video data stored contained in the memory device 202 without further operator interaction.
The video display device 100 may optionally include audio capability. For example, the video display device 100 may include one or more speakers 220.
The device 100 may be a standalone device that can be adapted to be used in a wide variety of applications. Alternatively, the self-contained video display device 100 may be attached to a wide variety of items to provide video display capability. The video display device 100 may be attached to the item by, without limitation, various adhesives or glues, Velcro, screws or other fasteners know in the art. For example, the video display device 100 may be self-contained in case 110, with the case attached to the item.
The video display device is typically positioned on an outside surface of the item to which it may be attached. In other embodiments, the item may include an enclosure, with the video display device 100 contained within the enclosure.
Still other items to which the self-contained video display device 100 may either be attached to or otherwise adapted to be include, without limitation: a piece of jewelry to be worn by a person, such as a locket, badge, bracelet charm, necklace pendant or brooch; a temperature, pressure and/or humidity gauge; a lapel pin; a holiday ornament; a holiday decoration; sports memorabilia; trading cards such as sports or pop culture trading cards; a key fob; a board game piece (e.g., a chess knight when touched displays an animation of a knight charging); a lamp, switch plate and/or night light; a book marker; a picture frame; a money clip; a bobble-head doll; clocks and/or timers, pen-sets; a desk accessory such as, without limitation, a paper weight, paperclip holder, and a pen holder; models of, without limitation, televisions, movie screens, cars, boats airplanes, and trains); religious plaques; sentimental items; souvenirs that may be, without limitation, a remembrance or a theme park item; promotional items; and various toys. Further items include, without limitation: a bag label, a direct-mail item, greeting cards, purses, handbags and wallets; a pet accessory; and business cards.
The video sequences included in the video data contained in the memory device 102 may vary greatly. Examples of video sequences, which are not meant to be limiting, include: instructions for using various products, such as a medical product or pharmaceutical product; self-help messages such as a stop eating or smoking message; advertisements, such as an advertisement for real estate; religious, educational or political messages; sporting sequences; music video sequences; logos; a sentimental message, an animation, an animate object, and an inanimate object.
In various embodiments, the disclosed controller may be implemented, at least in part, as a computer program product that includes a series of computer instructions fixed on a tangible medium, such as a computer readable media (e.g., a diskette, CD-ROM, ROM, or fixed disk). Those skilled in the art should appreciate that such computer instructions can be written in a number of programming languages for use with many processors.
Although various exemplary embodiments of the invention have been disclosed, it should be apparent to those skilled in the art that various changes and modifications can be made which will achieve some of the advantages of the invention without departing from the true scope of the invention. These and other obvious modifications are intended to be covered by the appended claims.
This application claims priority from U.S. provisional application No. 60/565321, entitled “Video Message Device and Applications Thereof,” filed Apr. 26, 2004, which is hereby incorporated herein by reference, in its entirety.
| Number | Date | Country | |
|---|---|---|---|
| 60565321 | Apr 2004 | US |
