Aspects of the disclosure provide for automatically generating labels for sensor data. For instance, first sensor data, for a vehicle may be identified. This first sensor data may have been captured by a first sensor of the vehicle at a first location during a first point in time and may be associated with a first label for an object. Second sensor data for the vehicle may be identified. The second sensor data may have been captured by a second sensor of the vehicle at a second location at a second point in time outside of the first point in time. The second location is different from the first location. A determination may be made as to whether the object is a static object. Based on the determination that the object is a static object, the first label may be used to automatically generate a second label for the second sensor data.

The present application relates to a method for manufacturing an indicator for food that can visually check the quality change in food in a package state, an indicator for food manufactured therefrom, and a method for checking the storage status of food using the same. The manufacturing method of an indicator for food of the present application includes bonding a first film, on which an indicator layer including a pH-sensitive indicator is formed on one surface thereof, and a second film, on which an adhesive layer is formed on one surface thereof, so that the indicator layer of the first film and the adhesive layer of the second film can face each other.

The invention relates to a double-side printable label suitable for machine readable labelling of food containers and a method for manufacturing such label, wherein the label is arranged to comprise a base paper made of chemical pulp that separates the face and reverse sides, the face side comprising a layer of temperature sensitive coating which free of bisphenol A and suitable for direct thermal printing, the reverse side comprising a layer of pressure sensitive adhesive, which is suitable for flexographic printing with ultraviolet curable inks, and wherein the machine readability of the label is improved by means of the pressure sensitive adhesive layer thickness having effect on the static sensitivity of the temperature sensitive coating of the label.

A self-expiring band structure is activated upon the contacting of two chemical constituents together. This contacting may be performed by the attachment action of the band or independently thereof. After a time duration has passed, the coaction of the chemical constituents result in a visually perceptible change can alert others to the fact the band has expired. These bands may be both printable, such as by a printer or other machine printing, as well as time-expiring making them a very versatile product that offer heightened security at the price point closer to that of a disposable item because they do not require complex infrastructure for validation.

An activatable print medium is disclosed. The print medium includes a first reactive component, a second reactive component, wherein the first and second reactive components are configured to react to initiate a state change of the activatable print medium when exposed to each other and a barrier that is initially in an unactivated form and configured to transition to an activated form when activated by an application of at least one of an activation heat and an activation pressure wherein after the barrier is activated, but not before, the activatable print medium is configured so that the first and second reactive components interact in response to a predetermined environmental stimulus or interact over time at a rate dependent on an environmental stimulus, thereby providing an indication of the cumulative historical exposure of the activatable print medium to the environmental stimulus.

An ink composition includes a polymeric binder having an addition copolymer and a ketone aldehyde resin. The addition copolymer is chosen from acrylic resins, vinyl resins including copolymers of vinyl chloride and vinyl acetate, and mixtures and combinations thereof. The ink composition further includes a liquid carrier with at least one organic solvent.

A smoke detection assembly for indicating when organic material has been smoked in an area includes a decal that has an adhesive layer is integrated such that the decal can be adhered to a surface in a cab of a vehicle. A chemical reagent is provided and the chemical reagent is infused into the decal. The chemical reagent is chemically reactive with one or more chemicals that are unique to smoke from combustion of organic material. Moreover, the chemical reagent changes colors when the chemical reagent is exposed to airborne nicotine. In this way the chemical reagent can visually indicate when organic material has been smoked in the vehicle.

A flexible sensor label including a reservoir chamber configured to store an activation medium. The flexible sensor label includes an irreversible chamber configured to store a first indicator medium. The first indicator medium is altered in response to the activation medium being released and the flexible sensor label being exposed to a first condition associated with the first indicator medium. The flexible sensor label includes a reversible chamber configured to store a second indicator medium. The second indicator medium is altered in response to the activation medium being released and the flexible sensor label being exposed to a second condition associated with the second indicator medium.

Embodiments of this application provide a detection label for an electronic device and an electronic device. The detection label includes a detection part and an adhesive layer, where the detection part is configured to detect whether liquid flows into an electronic device, and the adhesive layer is configured to connect the detection part to a housing of the electronic device. The detection part has a first surface, the first surface is a surface of a side facing towards the housing, the adhesive layer may be disposed on the first surface, and an area of the adhesive layer is less than an area of the first surface. In this way, a part of the first surface is not covered with the adhesive layer, and liquid can be in contact with the first surface, so that the detection part can perform detection in a plurality of directions simultaneously.

A shrink label for application to a bottle and a cap is provided to maintain the position of the cap relative to the bottle. The shrink label includes an interior surface defining an opening therethrough, a first adhesive strip extending circumferentially about the interior surface of the shrink label, and a second adhesive strip spaced a distance above the first adhesive strip and extending circumferentially about the interior surface of the shrink label. The first adhesive strip is aligned with a portion of the bottle and the second adhesive strip is aligned with a side portion of the cap such that an intersection point between the bottle and the cap is positioned between the first adhesive strip and the second adhesive strip. A perforation line can be included on the shrink label above the second adhesive strip for removal of the shrink label.