An information processing system includes an information bearing medium and an information reading unit. The information bearing medium has a two-dimensional array of unit data zones. Marks are provided on some of the unit data zones so as to form a digital code. Mark patterns of any two Y-directional adjacent unit data zone strings based on the arrangement of marks in an X-direction differ from each other. The information reading unit generates a data string on the basis of a unit signal formed from a plurality of signals output from a group of detection units that detect the marks in synchronization and recognizes the digital code of the information bearing medium on the basis of a group of the data strings sequentially obtained from the array of the unit data zones.

A resonator for a radio frequency identification reader is provided. The resonator comprises: a waveguide closed at a proximal end and closed at a distal end and dimensioned to facilitate resonance in radio frequency waves having a frequency of operation so that the radio frequency waves produce an electric field in the waveguide having a peak intensity at a location between the proximal end and the distal end: a holder for holding one or more radio frequency identification tags at the location at which the electric field produced by radio frequency waves having the frequency of operation has a peak intensity; and a radio frequency feed point for coupling radio frequency signals between the waveguide and radio frequency identification reader circuitry.

A resonator for a radio frequency identification reader is provided. The resonator comprises: a waveguide closed at a proximal end and closed at a distal end and dimensioned to facilitate resonance in radio frequency waves having a frequency of operation so that the radio frequency waves produce an electric field in the waveguide having a peak intensity at a location between the proximal end and the distal end: a holder for holding one or more radio frequency identification tags at the location at which the electric field produced by radio frequency waves having the frequency of operation has a peak intensity; and a radio frequency feed point for coupling radio frequency signals between the waveguide and radio frequency identification reader circuitry.

Described herein is a barcode reading system that comprises a barcode reading enhancement accessory secured to a mobile device. The mobile device comprises a camera. The barcode reading enhancement accessory comprises a user-activated barcode read control and circuitry for generating a barcode read signal on the microphone input connector of the mobile device in response to user activation of the barcode read control. The barcode reading system also comprises a barcode reading application that comprises an image capture and decode function for controlling the camera to capture an image of a barcode within the field of view of the camera and generating decoded data representing data encoded in the barcode in response to the barcode read signal on the microphone input connector.

Embodiments of the present invention may provide the capability to identify a specific object being interacted with that may be cheaply and easily included in mass-produced objects. In an embodiment, a computer-implemented method for object identification may comprise receiving a signal produced by a physical interaction with an object to be identified, the signal produced by an identification structure coupled to the object during physical interaction with the object, processing the signal to form digital data identifying the object, and accessing a database using the digital data to retrieve additional information identifying or describing properties of the object identified.

Embodiments of the present invention may provide the capability to identify a specific object being interacted with that may be cheaply and easily included in mass-produced objects. In an embodiment, a computer-implemented method for object identification may comprise receiving a signal produced by a physical interaction with an object to be identified, the signal produced by an identification structure coupled to the object during physical interaction with the object, processing the signal to form digital data identifying the object, and accessing a database using the digital data to retrieve additional information identifying or describing properties of the object identified.

A smart card connector including a housing defining a smart card receiving slot communicating with a smart card ingress slit formed in the housing, a plurality of smart card contacts mounted within the housing and being configured for reading contact with a smart card inserted into the slot and a movable smart card contact mounting assembly supporting at least one of the plurality of smart card contacts and for positioning the at least one of the plurality of smart card contacts in a first position, in the absence of a smart card in the slot, and in a second position, different from the first position, when a smart card is fully inserted in the slot, wherein when the at least one of the plurality of smart card contacts is in the first position it is relatively inaccessible to tampering via the smart card ingress slit.

An information processing system includes an information bearing medium and an information reading unit. The information bearing medium has a two-dimensional array of unit data zones. Marks are provided on some of the unit data zones so as to form a digital code. Mark patterns of any two Y-directional adjacent unit data zone strings based on the arrangement of marks in an X-direction differ from each other. The information reading unit generates a data string on the basis of a unit signal formed from a plurality of signals output from a group of detection units that detect the marks in synchronization and recognizes the digital code of the information bearing medium on the basis of a group of the data strings sequentially obtained from the array of the unit data zones.

An information processing system includes an information bearing medium and an information reading unit. The information bearing medium has a two-dimensional array of unit data zones. Marks are provided on some of the unit data zones so as to form a digital code. Mark patterns of any two Y-directional adjacent unit data zone strings based on the arrangement of marks in an X-direction differ from each other. The information reading unit generates a data string on the basis of a unit signal formed from a plurality of signals output from a group of detection units that detect the marks in synchronization and recognizes the digital code of the information bearing medium on the basis of a group of the data strings sequentially obtained from the array of the unit data zones.

A smart card connector including a housing defining a smart card receiving slot communicating with a smart card ingress slit formed in the housing, a plurality of smart card contacts mounted within the housing and being configured for reading contact with a smart card inserted into the slot and a movable smart card contact mounting assembly supporting at least one of the plurality of smart card contacts and for positioning the at least one of the plurality of smart card contacts in a first position, in the absence of a smart card in the slot, and in a second position, different from the first position, when a smart card is fully inserted in the slot, wherein when the at least one of the plurality of smart card contacts is in the first position it is relatively inaccessible to tampering via the smart card ingress slit.