A reduced size optical code identifier includes a transparent body having a flat bottom surface with a rounded or domed top surface that meets the bottom surface around the perimeter of the bottom surface. An optical code is provided in the body adjacent the bottom surface and is visible through the top surface. The top surface is configured to reduce reflection to facilitate optical recognition and decoding of the optical code. The body has a maximum length or diameter of about twelve millimeters or less. The identifier can be placed on an object or structure and then used to associate information with the optical code of the identifier so that the information can be retrieved using a computing device that can optically recognize the code and communicate with a remote server.

The present invention discloses a method for producing graphical indicators and interactive systems for utilizing the graphical indicators. On the surface of an object, visually negligible graphical indicators are provided. The graphical indicators and main information, i.e. text or pictures, co-exist on the surface of object. The graphical indicators do not interfere with the main information when the perception of human eyes are concerned. With the graphical indicators, further information other than the main information on the surface of object are carried. In addition to the main information on the surface of object, one is able to obtain additional information through an auxiliary electronic device or trigger an interactive operation.

A reduced size optical code identifier includes a transparent body having a flat bottom surface with a rounded or domed top surface that meets the bottom surface around the perimeter of the bottom surface. An optical code is provided in the body adjacent the bottom surface and is visible through the top surface. The top surface is configured to reduce reflection to facilitate optical recognition and decoding of the optical code. The body has a maximum length or diameter of about twelve millimeters or less. The identifier can be placed on an object or structure and then used to associate information with the optical code of the identifier so that the information can be retrieved using a computing device that can optically recognize the code and communicate with a remote server.

Systems and methods for provenance tracking and/or identification of a product using genetic material are claimed. In various embodiments, genetic material such as plasmids may be incorporated into and/or otherwise persistently associated with a product. The genetic material may be encoded with, among other things, information that may uniquely identify the product, provide details relating to the origins of the product, the handling, distribution, and/or chain of custody of the product, intellectual property rights and/or other rights associated with the product, and/or the like. By extracting and analyzing the genetic material from the product, information encoded in the genetic material may be obtained by an interested party.

The present disclosure relates generally to systems and methods for association of information with a product using genetic material. In various embodiments, genetic material such as plasmids may be incorporated into and/or otherwise persistently associated with a product. The genetic material may be encoded with, among other things, information that may uniquely identify the product, provide details relating to the origins of the product, the handling, distribution, and/or chain of custody of the product, intellectual property rights and/or other rights associated with the product, and/or the like. By extracting and analyzing the genetic material from the product, information encoded in the genetic material may be obtained by an interested party.

The present disclosure relates generally to systems and methods for association of information with a product using genetic material. In various embodiments, genetic material such as plasmids may be incorporated into and/or otherwise persistently associated with a product. The genetic material may be encoded with, among other things, information that may uniquely identify the product, provide details relating to the origins of the product, the handling, distribution, and/or chain of custody of the product, intellectual property rights and/or other rights associated with the product, and/or the like. By extracting and analyzing the genetic material from the product, information encoded in the genetic material may be obtained by an interested party.

Data is encoded for identification and labeling using a multitude of nano-electro-mechanical structures formed on a substrate. The number of such structures, their shapes, choice of materials, the spacing therebetween and the overall distribution of the structures result in a vibrational pattern or an acoustic signature that uniquely corresponds to the encoded data. A first group of the structures is formed in conformity with the design rules of a fabrication process used to manufacture the device that includes the structures. A second group of the structures is formed so as not to conform to the design rules and thereby to undergo variability as a result of the statistical variations that is inherent in the fabrication process.

Data is encoded for identification and labeling using a multitude of nano-electro-mechanical structures formed on a substrate. The number of such structures, their shapes, choice of materials, the spacing therebetween and the overall distribution of the structures result in a vibrational pattern or an acoustic signature that uniquely corresponds to the encoded data. A first group of the structures is formed in conformity with the design rules of a fabrication process used to manufacture the device that includes the structures. A second group of the structures is formed so as not to conform to the design rules and thereby to undergo variability as a result of the statistical variations that is inherent in the fabrication process.

The present disclosure relates generally to systems and methods for association of information with a product using genetic material. In various embodiments, genetic material such as plasmids may be incorporated into and/or otherwise persistently associated with a product. The genetic material may be encoded with, among other things, information that may uniquely identify the product, provide details relating to the origins of the product, the handling, distribution, and/or chain of custody of the product, intellectual property rights and/or other rights associated with the product, and/or the like. By extracting and analyzing the genetic material from the product, information encoded in the genetic material may be obtained by an interested party.

A dot pattern including a block defined as a rectangular area of a square or a rectangle of a medium face, such as printed matter. A straight line in a vertical direction and a horizontal direction configuring a frame of the block each are defined as a standard grid line. Virtual reference grid points are provided at predetermined intervals on the reference grid line. Reference grid point dots are placed on respective virtual reference grid points. Straight lines that connect the virtual reference grid points to each other and are parallel to the reference grid lines are defined as grid lines. A point of intersection of grid lines is defined as a virtual grid point. A dot pattern is generated by arranging one or a plurality of information dots, each of which has a distance and a direction around the virtual grid point.