The invention relates in general optical media content, and in particular, to preventing unauthorized access of the media content until the media is activated by exposure to a predetermined light source.
Optical data storage media (“optical media”) are media in which data is stored in an optically readable manner. Data is encoded by optical changes in one or more layers of the media. Formats of optical medium include read-only formats such as CD-DA (digital audio compact disc), CD-ROM (CD-read-only memory), DVD (digital versatile disc or digital video disc) Blu-ray ROM media, write-once read-many times (WORM) formats such as CD-R (CD-recordable), and DVD-R (DVD-recordable), as well as rewritable formats such as found on magneto-optical (MO) discs, CD-RW (CD-rewriteable), DVD-RAM (DVD-Random Access Media), DVD-RW or DVD+RW (DVD-rewriteable), PD (Phase change Dual disk by Panasonic), Blu-ray RE and other phase change optical discs.
Optical media are susceptible to theft all along the supply chain. For example, optical media disks are commonly placed on shelves in the retail-leasing establishment, thereby being susceptible to theft. Even if the optical media disks are stored in cases containing, for example, an electronic article surveillance (“EAS”) tag or label, the optical media can typically be removed from the storage case with difficulty. In fact, optical media are susceptible to being removed from shipping cartons or from individual cases before even reaching a final point of sale.
Current approaches to combating the optical media theft problem have been to make the media cases difficult to open, embed EAS or RFID tags in the media cases, increase video surveillance along the supply chain, or simply reducing consumer's unsupervised access to the product. However, each of these approaches is met with several disadvantages, including easy of circumvention and cost.
In addition to the theft problem of optical media, it may some times be desirable to prevent access of the optical media content that is otherwise lawfully being possessed. For example, one may want to distribute optical media but delay its access until the occurrence of some future event (e.g., payment).
Thus, there is still an unsatisfied need for a system and method for preventing the unauthorized access of optical media content.
Systems and methods for preventing the unauthorized access of optical media content are disclosed. In one embodiment, a method includes encoding data on an optical media, treating a substrate surface of the optical media with a light-sensitive material that is in a first phase, where the light-sensitive material deters theft of the optical media by causing the encoded data to be unreadable while in the first phase. The method further includes activating, prior to a point of sale of the optical media, the light-sensitive material using a light source having a predetermined wavelength, wherein activating the light-sensitive material causes it to change from the first phase to a second phase, after which the encoded data is readable.
Other embodiments are disclosed and claimed herein.
One aspect of the invention is to treat optical media with a light-sensitive material which impedes the ability of an optical media player from reading data stored on the optical media. In one embodiment, this light-sensitive material may be any material capable of being activated so as to change in a physically measurable manner, upon exposure to one or more wavelengths of light. In another embodiment, the light-sensitive material may be any embodiment of the light-changeable compounds disclosed in U.S. Pat. No. 6,589,626, which issued on Jul. 8, 2003, and which is hereby fully incorporated by reference (hereinafter the “'626 Patent”).
Another aspect of the invention is to activate the treated optical media using a particular wavelength (or range of wavelengths) of light, thereby causing the aforementioned light-sensitive material to change its phase such that conventional optical media players will be able to subsequently read the media's encoded data. While in one embodiment, the entire optical media may be treated with the light-sensitive material, in another embodiment only particular sections may be treated. According to one embodiment, once activated, the light-sensitive material will permanently remain in its new state. In one embodiment, the light source is a mercury light source, however numerous other light sources may be similarly used.
In one embodiment, optical media are treated with the aforementioned light-sensitive material shortly after the traditional data encoding process is complete. The optical media is then placed in the supply chain for delivery to its ultimate point of sale. After a particular point in the supply chain, the optical media may be activated using a predetermined wavelength of light. It should be appreciated that the predetermined wavelength of light, or range thereof, will depend on the particular light-sensitive material used, as disclosed in the '626 Patent. While in one embodiment, activation occurs at the final point of sale, it may similarly occur at some earlier point along the product supply line. In this fashion, theft of the yet-to-be-activated optical media is deterred since it will be unreadable. It may further be desirable to label the optical media (or its casing) as being inactive so as to increase the deterrent effect.
The physical specifications for optical media are standards known in the art. All media dimensions, including those pertaining to pit and physical formations, which encode data, are defined in the CD standard. For example, specifications information on sampling frequency, quantization word length, data rate, error correction code, and modulation scheme are all defined in the standard. Properties of the optical system that reads data from the disc using a laser beam are also defined in the standard.
Referring to prior art
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In one embodiment, the light-sensitive material 210 prevents the optical media disk 200 from being read by a conventional optical media player. That is, the laser beam reflection pattern is altered by the applied light-sensitive material 210. However, the nature of the light-sensitive material 210 is that some of its physical properties can be altered by exposure to particular wavelengths of light. That is, in one embodiment exposing the light-sensitive material 210 to a certain type of light will cause the phase of the light-sensitive material 210 to change, thereby allowing the optical disk 200 to be read again. In one embodiment, the activating light source is a mercury-based light source.
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At this point, the applied light-sensitive material has placed the disk in an error state (block 320), rendering it unreadable by a traditional optical media player. In one embodiment, this error state is a result of the optical media player's laser not being able to accurately penetrate the light-sensitive material covering the disk surface. The disk may then be packaged for shipment out to the end user at block 330. In one embodiment, theft of the disk at any point along the supply chain will be deterred by the fact that the disk is unreadable until proper activation.
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As previously mentioned, the light-sensitive or light-changeable material of the invention may be any of the light-sensitive or light-changeable materials disclosed in the '626 Patent. For example, the light-sensitive material may be organic material or inorganic material; a cyanine compound; an organic light-changeable material excitable by a light source emitting light at a wavelength between about 770 nm to about 830 nm or between about 630 nm to about 650 nm; or an inorganic material capable of undergoing a phase change from an amorphous state to a crystalline state by absorption of energy from one or more wavelengths of light. In one embodiment, the inorganic phase-change light-changeable material may be GeSbTe, InSbTe, InSe, AsTeGe, TeOx—GeSn, TeSeSn, SbSeBi, BiSeGe and AgInSbTe-type materials, as disclosed in the '626 Patent.
Once activated, the phase of the light-sensitive material changes to a valid state, thereby permitting conventional optical media players to read the encoded data (block 350). In one embodiment, the activating light source may be located at the point of sale of the optical media in question. In another embodiment, the optical media itself, or the case in which it is contained, may be labeled in a fashion which indicates that the media is unreadable until activated. In this fashion, the optical media will be rendered useless to a would-be thief until it is actually purchased by an end user.
While the invention has been described in connection with various embodiments, it will be understood that the invention is capable of further modifications. This application is intended to cover any variations, uses or adaptations of the invention following, in general, the principles of the invention, and including such departures from the present disclosure as, within the known and customary practice within the art to which the invention pertains.
This application is a continuation of U.S. Ser. No. 11/228,554 filed on Sep. 16, 2005, published as U.S. Patent Application Publication 2006/0114755A1 on Jun. 1, 2006, which is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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60664164 | Mar 2005 | US |
Number | Date | Country | |
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Parent | 11228554 | Sep 2005 | US |
Child | 13022216 | US |