Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Described is a computer-implemented method performed in connection with a computerized system incorporating an audio capture device, a central processing unit, a display device and a memory, the computer-implemented method involving: capturing an audio signal using the audio capture device; using the central processing unit to analyze the captured audio signal; when the audio signal satisfies a predetermine criterion, using the central processing unit to generate a hash of the captured audio signal; finding a similar audio signal hash among a plurality of stored audio signal hashes; and identifying a device associated with the captured audio signal using the found similar audio signal hash.

Abstract: Various tags and adhesive labels are described which can be used in high temperature environments such as up to 1,000° C. The tags and labels include a substrate having one or more high temperature printable coatings. The labels can also include pressure sensitive adhesives and optional release liners.

Abstract: Various tags and adhesive labels are described which can be used in high temperature environments such as up to 1,000° C. The tags and labels include a substrate having one or more high temperature printable coatings. The labels can also include pressure sensitive adhesives and optional release liners.

Abstract: Identification labels and their incorporation in rubber-based articles are described. The labels include RFID components and can be incorporated in tires. The labels can withstand the relatively harsh conditions associated with vulcanization.

Abstract: Described is a computer-implemented method performed in connection with a computerized system incorporating an audio capture device, a central processing unit, a display device and a memory, the computer-implemented method involving: capturing an audio signal using the audio capture device; using the central processing unit to analyze the captured audio signal; when the audio signal satisfies a predetermine criterion, using the central processing unit to generate a hash of the captured audio signal; finding a similar audio signal hash among a plurality of stored audio signal hashes; and identifying a device associated with the captured audio signal using the found similar audio signal hash.

Abstract: Various tags and adhesive labels are described which can be used in high temperature environments such as up to 1,000° C. The tags and labels include a substrate having one or more high temperature printable coatings. The labels can also include pressure sensitive adhesives and optional release liners.

Abstract: A method for influencing and/or detecting magnetic particles in a region of action, magnetic particles and the use of magnetic particles is disclosed, which method comprises the steps of: —introducing magnetic particles into a region of action, —generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action —changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles change locally, —acquiring signals, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone, wherein the magnetic particles comprise a core region and a shell region, the core region comprising a magnetic material, wherein the magnetic mater

Abstract: The invention relates to the discrimination of spectroscopically different tracer materials by magnetic particle imaging (MPI), based on the differences of the MPI spectral responses of said tracer materials.

Abstract: Magnetic Particle Imaging (MPI) requires high-performing tracer materials that are highly magnetic monodispersed particles with fast remagnetization behavior. Known separation techniques only allow for fractionation of magnetic particles based on differences in magnetic volume. Proposed is a separation method, which allows for separation of magnetic particles with respect to their dynamic response onto an oscillating high gradient magnetic field.

Abstract: The invention provides a magnetic tracer material for use in magnetic particle imaging and a manufacturing method thereof. The magnetic tracer material comprises clusters of a plurality of magnetic particles that are clustered in a controlled way to form individual entities, for example, stabilized oil droplets, solid emulsion particles, liposomes, polymersomes or vesicles, or naturally occurring biological entities such as cells or viruses.

Abstract: The present invention relates to materials and methods for non-invasive imaging of biocompatible products. Biocompatible products are provided that can be visualized in vivo and in vitro using magnetic particle imaging methods. It was found that these materials can be employed for monitoring development, remodeling or degradation of biocompatible products. In another aspect, the inventive products enable substance delivery tracking and can be used to visualize targeted delivery of active agents.