Abstract: According to one embodiment of the invention, a system for source tagging an optical storage device includes the optical storage device having a first portion adapted to store information and a second portion adjacent the first portion, and an electronic article surveillance tag associated with the second portion.

Abstract: In accordance with the teachings of the present invention, a thin optical disc having remote reading capability is provided. In accordance with a particular embodiment of the present invention, the optical disc includes a central clamping area that defines a central aperture operable to be engaged by a spindle mechanism of an optical disc drive, an optically-readable data storage area substantially surrounding the central clamping area, the optically-readable data storage area having a planar thickness of less than 1.20 mm, and an electronic tag coupled to or embedded within the optical disc, the electronic tag comprising a radio frequency tag or radio frequency identification tag.

Abstract: In accordance with the teachings of the present invention, a thin optical disc having remote reading capability is provided. In accordance with a particular embodiment of the present invention, the optical disc includes a central clamping area that defines a central aperture operable to be engaged by a spindle mechanism of an optical disc drive, an optically-readable data storage area substantially surrounding the central clamping area, the optically-readable data storage area having a planar thickness of less than 1.20 mm, and an electronic tag coupled to or embedded within the optical disc, the electronic tag comprising a radio frequency tag or radio frequency identification tag.

Abstract: In accordance with the teachings of the present invention, an optical disc having a reduced planar thickness is provided. In accordance with a particular embodiment of the present invention, the optical disc includes a central clamping area that defines a central aperture operable to be engaged by a spindle mechanism of an optical disc drive, an optically-readable data storage area substantially surrounding the central clamping area, the optically-readable data storage area having a planar thickness of less than 1.20 mm, and one or more stacker elements coupled to, or integral with, the central clamping area, the stacker elements configured to increase the thickness of the central clamping area above the planar thickness of the optically-readable data storage area. In particular embodiments, the optical disc may further include a magnetic stripe disposed upon one surface of the optical disc.

Abstract: In accordance with the teachings of the present invention, a passive resonant reflector and a method for the same are provided. In a particular embodiment of the present invention, the passive resonant reflector includes first and second conductive/capacitance layers, one or more insulation layers separating the first and second conductive/capacitance layers, and a transceiver antenna having first and second ends. The first end of the transceiver antenna is coupled to the first conductive/capacitance layer, while the second end of the transceiver antenna is coupled to the second conductive/capacitance layer. The transceiver antenna is operable to receive a transmitted radio frequency signal, charge the first and second conductive/capacitance layers with the received radio frequency signal, and transmit the received radio frequency signal upon a discharge of the first and second conductive/capacitance layers.

Abstract: In accordance with the teachings of the present invention, a thin optical disc having remote reading capability is provided. In accordance with a particular embodiment of the present invention, the optical disc includes a central clamping area that defines a central aperture operable to be engaged by a spindle mechanism of an optical disc drive, an optically-readable data storage area substantially surrounding the central clamping area, the optically-readable data storage area having a planar thickness of less than 1.20 mm, and an electronic tag coupled to or embedded within the optical disc, the electronic tag comprising a radio frequency tag or radio frequency identification tag.

Abstract: In accordance with the teachings of the present invention, a passive resonant reflector and a method for the same are provided. In a particular embodiment of the present invention, the passive resonant reflector includes first and second conductive/capacitance layers, one or more insulation layers separating the first and second conductive/capacitance layers, and a transceiver antenna having first and second ends. The first end of the transceiver antenna is coupled to the first conductive/capacitance layer, while the second end of the transceiver antenna is coupled to the second conductive/capacitance layer. The transceiver antenna is operable to receive a transmitted radio frequency signal, charge the first and second conductive/capacitance layers with the received radio frequency signal, and transmit the received radio frequency signal upon a discharge of the first and second conductive/capacitance layers.

Abstract: An optical disc storage case includes a base, a cover pivotally coupled to the base, a pedestal coupled to the base and having at least one pair of resilient members configured to retain an optical disc thereon, a blocking tongue coupled to a top portion of the cover and extending outwardly therefrom, and a groove associated with a top portion of the base and extending outwardly therefrom. The groove is configured to align the blocking tongue when the optical disc storage case is in a closed position and, when the pedestal is retaining the optical disc, the blocking tongue and the groove are engaged with one another such that access to the optical disc is prevented when a user slightly separates the respective top portions of the base and the cover.