The present disclosure includes an article of PPE. The device includes a first sensor that detects whether the article of PPE is being worn by a user, a processing module and a communications module. The processing module includes a clock that measures the length of time that the article of PPE is being worn by the user, and memory for storage of usage data, wherein usage data includes the length of time the article of PPE has been worn by the user. The communications module is for wirelessly transmitting stored usage data to a device separate from the article of PPE.

The present disclosure includes an article of PPE. The device includes a first sensor that detects whether the article of PPE is being worn by a user, a processing module and a communications module. The processing module includes a clock that measures the length of time that the article of PPE is being worn by the user, and memory for storage of usage data, wherein usage data includes the length of time the article of PPE has been worn by the user. The communications module is for wirelessly transmitting stored usage data to a device separate from the article of PPE.

The present invention relates generally to the field of registers (class 235) and more specifically relates to a laminated time tracking device system (subclass 488) and the method to make it. The invention is a novel label designed in different layers (laminated) to keep track of time. The inventor commonly refers to the apparatus for preventing objects from falling into a ridge hole as the: Time Label T-Label. The T-Label disclosed in the instant application addresses the problem of communicating to a user an effective expiration date of a perishable good by providing a laminated structure comprising a bottom layer, a reactive layer, a sacrificial layer, a top layer, and a protecting layer; all assembled together. One of the novel aspects of the time tracking label disclosed in the present application is that it tracks the shelf life of a perishable good by looking at the Oxygen Transmission Rate (OTR) of the specific medium in which is stored thus providing a specific signal if a good has been oxidized rather than a conventional not verifiable expiration date.

The present invention relates generally to the field of registers (class 235) and more specifically relates to a laminated time tracking device system (subclass 488) and the method to make it. The invention is a novel label designed in different layers (laminated) to keep track of time. The inventor commonly refers to the apparatus for preventing objects from falling into a ridge hole as the: Time Label T-Label. The T-Label disclosed in the instant application addresses the problem of communicating to a user an effective expiration date of a perishable good by providing a laminated structure comprising a bottom layer, a reactive layer, a sacrificial layer, a top layer, and a protecting layer; all assembled together. One of the novel aspects of the time tracking label disclosed in the present application is that it tracks the shelf life of a perishable good by looking at the Oxygen Transmission Rate (OTR) of the specific medium in which is stored thus providing a specific signal if a good has been oxidized rather than a conventional not verifiable expiration date.

In one implementation, a system for user action duration includes a monitor engine to monitor a number of async operations to be loaded on a user interface, a detection engine to determine a repeating async operation from the number of async operations that has a pattern of repeating timeouts, a removal engine to remove the repeating async operation from the number of async operations, and a calculation engine to calculate a total time for the remaining number of async operations based on a total timeout of each of the remaining number of async operations.

A dye-based, multilayer time-indicating label without initial gray time comprises a multilayer first part and a multilayer second part. The first part comprises a topsheet in contact with an enhancement layer and an optional reference layer, and the enhancement layer is in contact with a timing layer. The second part comprises a dye layer, an optional dark layer, and a substrate layer. The timing layer and the dye layer are separate from one another, and are optionally protected by one or more release liners. To activate the indicator, the timing and dye layers are separated from the one or more release liners and then joined to one another.

A dye-based, multilayer time-indicating label without initial gray time comprises a multilayer first part and a multilayer second part. The first part comprises a topsheet in contact with an enhancement layer and an optional reference layer, and the enhancement layer is in contact with a timing layer. The second part comprises a dye layer, an optional dark layer, and a substrate layer. The timing layer and the dye layer are separate from one another, and are optionally protected by one or more release liners. To activate the indicator, the timing and dye layers are separated from the one or more release liners and then joined to one another.

According to an embodiment, a time reference device is provided. In the embodiment, the time reference device, includes a corrodible element, wherein a corrosion of the corrodible element advances with advancing time, and a sensor configured for providing a sensor signal, the sensor signal depending on a physical property of the corrodible element; wherein the physical property of the corrodible element changes with a corrosion of the corrodible element and the physical property of the corrodible element is at least one of an electrical property, a magnetic property, and an optical property. A barrier may be provided for defining a permeability for a corrosive substance to the corrodible element.

According to an embodiment, a time reference device is provided. In the embodiment, the time reference device, includes a corrodible element, wherein a corrosion of the corrodible element advances with advancing time, and a sensor configured for providing a sensor signal, the sensor signal depending on a physical property of the corrodible element; wherein the physical property of the corrodible element changes with a corrosion of the corrodible element and the physical property of the corrodible element is at least one of an electrical property, a magnetic property, and an optical property. A barrier may be provided for defining a permeability for a corrosive substance to the corrodible element.

A wearable electronic device utilizes indicators on a display screen, such as tick marks positioned around the perimeter of the display, to point to the bearing of a desired location such as a nearest airport when GPS is enabled. The electronic device may be implemented as an aviation watch that comprises a display device having a screen including a plurality of indicators arranged proximal to a perimeter of the screen. The aviation watch determines a direction of an airport that is nearest in proximity to the location of the aviation watch and activates a subset of the plurality of indicators of the screen, the subset of the plurality of indicators providing a directional bearing to the airport determined to be nearest in proximity to the location of the aviation watch.