Techniques to improve operation of a processor or device utilizing colorspace conversions and operations are provided. A system includes a programmable logic array that can perform, a colorspace conversion, which can in turn be by a distinct processor device. The colorspace conversion can be performed by the programmable logic in response to the change of a colorspace associated with a target, e.g. a real or virtual environment, and the colorspace conversion is intended to optimize the colorspace of an object, entity, or other environment in the changed real or virtual environment, and where the optimized object, entity or other environment can be used by the processor device as part of a computing application as suitable for that colorspace conversion, which can include but is not limited to augmented reality, printing of images, detection of images, global positioning, and detection of real and virtual objects in real or virtual environments.

A multiple-pattern fiducial for a heterogeneous imaging sensor system. The multiple-pattern fiducial includes a first pattern detectable by a first wavelength of electromagnetic energy, and a second pattern detectable by a second wavelength of electromagnetic energy.

A device comprising: an optical emitter for emitting light having an emitted optical spectrum; an optical sensor for receiving light reflected from a tag attached to an object; and a processor configured to: determine a reflected optical colour spectrum of the light reflected from the tag based on an output of the optical sensor; retrieve an optical signature associated with said object from memory; and determine the authenticity of said object based on comparing the optical signature and the reflected optical colour spectrum.

Techniques to transmit encoded data along a physical medium, e.g. tape, and decode the transmitted data along the physical medium are provided. Some techniques include logic to encode data transmitted along a physical medium, such as a tape suitable for any purpose including the encoding of multimedia data, where the encoding is pursuant to a conversion between a first and second colorspace. The logic may further be configured to decode the data once it is received at a node along the tape, where the colorspace conversion provides the basis, key, or cipher for preforming the decoding operation. The logic may be further configured to alter the encryption and decryption basis, key, or cypher by altering the colorspace scheme defining the encoding (and by extension the decoding) during transmission, including a transmission that takes place after a previous transmission governed by the previously defined (and subsequently altered) colorspace conversion scheme. Other embodiments are described and claimed.

The purpose of the present invention is to provide a system which, in a product delivery procedure, monitors and manages, more simply and reliably, a deviation from a managed temperature during shipment. To solve the problem, provided is a logistics system, comprising: an information reading and transmitting device which reads an information code which is provided on a product and transmits data which is included in the information code; a server which accumulates, via a communications network, the data which is transmitted from the information reading and transmitting device; and a terminal device which refers to the data which is accumulated in the server via the communications network. The information code is formed from a pattern which changes with an occurrence of a deviation from a specified temperature. The system employs the information code.

An information code that records information read by a first reader and a second reader, includes: a plurality of bar areas; and a plurality of space areas disposed between the plurality of bar areas. The plurality of the bar areas and the plurality of space areas provide a barcode for recording a first information recognized by the first reader. At least one of the plurality of bar areas and the plurality of space areas provide a second information recognized by the second reader in a format including a hash value with an arrangement of a plurality of colors defined so as not to change a discrimination between the bar areas and the space areas by the first reader.

Methods, systems, and apparatus for combining preprinted information together with coded sensor information within a two-dimensional barcode. The sensor information may be of an environmental, physical or biological nature, and records a cumulative change in status of the environmental or biological condition to which the labeled product has been exposed. A sensor dye chemistry is employed that undergoes a continuous chemical or physical state change in response to the occurrence of the environmental condition. The continuous change is between an initial state and an end state causing a change in the color state of the sensor dye embedded within the sensor-augmented two-dimensional barcode, encoding sensor digital information. Sensor information is recovered utilizing the error-correction feature during barcode decoding.

A method for securely marking an object, comprising: a step of determining a maximum cell size (302) of a two-dimensional barcode (301), the cell size being defined by an area containing a number of dots (304, 305), a step of estimating a minimum number of dots of a predetermined colour referred to as the “main colour” in a cell such that the cell is detected as being said colour by a predetermined reader, a step of encoding a message in cells of a two-dimensional barcode by defining the main colour of each cell, said message representing at least one instance of access to a remote resource, for at least one cell, a step of defining an image (306) to be represented in the cell, the number of dots in the colour image defining the cell being greater than the estimated minimum number and a step of marking the object with the secure two-dimensional barcode.

An animal individual identification member includes a first base brought into contact with a body of an animal, a second base including an identification portion indicating identification information of the animal by a sequence of mutually different adjacent colors, and an adhesive layer which is located between the first base and the second base and bonds the first base and the second base. The first base, the second base, and the adhesive layer have identical resin skeletons.

Provided is an optical code that retains compatibility with existing optical codes and is used for recording information different from the information recorded under prescribed conditions. Also provided are a method and a device for reading the optical code. The optical code includes a plurality of light color modules of a light color and a plurality of dark color modules of a dark color to record first data. At least the light color modules or the dark color modules are made up of a first module and a second module having different reflectance for light of a predetermined wavelength. Second data is recorded in a pattern of the first and second modules.