Abstract: The present disclosure is directed, in part, to a method of applying a flowable substance to a substrate. The method comprises contacting a portion of the substrate with a portion of a rotating applicator as the substrate is conveyed, and immersing the portion of the rotating applicator in the flowable substance to accumulate the flowable substance on the portion of the rotating applicator. The method further comprises engaging a metering device with the portion of the rotating applicator, metering a portion of the accumulated flowable substance on the portion of the rotating applicator off of the portion of the rotating applicator using the metering device, and applying a portion of the remaining flowable substance on the portion of the rotating applicator to the portion of the substrate when the portion of the substrate contacts the portion of the rotating applicator.

Abstract: The present disclosure is directed, in part, to a cutting apparatus comprising a drive shaft having a longitudinal axis, a drum configured to orbit the longitudinal axis when driven by the drive shaft, a first actuator, and a cutting assembly joined to the drum and configured to orbit the longitudinal axis with the drum. The cutting assembly comprises a second actuator operably engaged with a portion of the cutting assembly, and a cutting device driven by the second actuator. The second actuator is configured to rotate the cutting device at least 1,500 revolutions per minute during cutting of an article. The first actuator is operably engaged with a portion of the cutting assembly and is configured to reciprocate the cutting device in directions substantially parallel to the longitudinal axis as the cutting assembly orbits the longitudinal axis.

Abstract: The present disclosure is directed, in part, to a method of cutting or shearing tow fibers, bundles thereof, and/or other materials or bundles thereof. The method comprises rotating a drum comprising a cutting assembly comprising a cutting device about a longitudinal axis of a drive shaft, reciprocally moving a portion of the cutting assembly comprising the cutting device in a direction parallel to or transverse to the longitudinal axis as the cutting assembly is rotated about the longitudinal axis, rotating the cutting device at least 1,000 times per minute), and cutting or shearing the tow fibers, bundles thereof, and/or other materials or bundles thereof with the cutting device.

Abstract: The present disclosure relates to motion based message delivery. A method includes receiving an information about an asset, calculating the time required for an asset to reach a safe zone, displaying the time required for an asset to reach a safe zone, displaying a communication options to communicate with a person operating the asset, and displaying a map incorporating the location of the asset, a graphical indicator of the time required to reach a safe zone, and/or a graphical indicator of communication options. Another method may include receiving a request to communicate, determining if the communication originates from, or is directed to, an asset in a safe zone, placing the communication if the asset is in the safe zone, and/or delaying the communication until the asset is in a safe zone.

Abstract: A method of and apparatus for fluffing a cleaning article. The cleaning article has a layer of tow fibers and a layer of sheet material, joined together in a layered construction. The apparatus and process spray a fluid blast onto the article, disrupting the tow fibers. The fluid may be air and causes different fibers to react so as to increase the volume of the cleaning article.

Abstract: The present invention includes a method for sequencing a meter route. The method may include a step for adding routes or premises to a map. This step may be implemented as a user initiated action with the operator creating a new route based on preexisting routes as a starting point. The premises or existing routes may correspond to a particular zip code. In one embodiment, every premise may be tied to a route.

Abstract: Certain embodiments described herein are directed to composite materials comprising untwisted fibers. In some embodiments, the article can include a core layer comprising a thermoplastic polymer and reinforcing fibers. In other embodiments, untwisted fibers can be disposed on the core layer. In certain examples, the article is effective to provide a Class A finish when painted.

Abstract: Systems, software, and methods for improved monitoring and identification systems for items and units to be serviced and reported, such as seal tags and other information from items or units to be serviced.

Abstract: Systems and methods are provided herein describe a global safety system for workers in hazardous locations such as electrical Class 1/Division 1 locations. In at least one example, a user will carry a user device that is approved for the hazardous electrical locations. This device will monitor for safety-triggering events such as a lack of user movement, a press of an emergency button, or any other indication of an emergency. Once a safety-triggering event is detected, the user device will transmit an alert to a user station outside of the hazardous electrical location. In turn, the user station will transmit an alert to a remote station regarding the status of the user device.

Abstract: Methods and systems for providing incentives for safe driving include collecting data from a vehicle monitoring system, analyzing the data from the vehicle monitoring system to create a driver report with an overall score, delivering the driver report to a target driver, and rewarding the target driver based on at least the overall score.

Abstract: The method includes rotating a drum about an axis of rotation. A discrete length of elastic substrate is positioned on the outer circumferential surface of the rotating drum, wherein the discrete length of elastic substrate is in a stretched state and defines a first length. The discrete length of elastic substrate may be defined by a first end region, a second end region, and a central region separating the first and second end regions. The method may comprise applying vacuum pressure to the first, second, and central regions of the discrete length of elastic substrate. Vacuum pressure may be reduced on the first and second end regions such that the discrete length of elastic substrate consolidates to a second length that is less than the first length.

Abstract: A rotary drum apparatus comprises a drum that is rotatable about an axis of rotation. The apparatus comprises a first set of first shell segments having a first number of first shell segments. Each first shell segment is releasably connectable with the drum and has an outer surface. The outer surfaces of the first shell segments combine to form a continuous first outer circumferential surface defining a maximum radial distance from the axis of rotation. The apparatus comprises a second set of second shell segments having a second number of second shell segments. Each second shell segment is releasably connectable with the drum and has an outer surface. The outer surfaces of the second shell segments combine to form a continuous second outer circumferential surface located within 10% of the maximum radial distance. The first number of first shell segments is greater than the second number of second shell segments.

Abstract: A first substrate advances in the first direction and a second substrate advances in the second direction. The first substrate advances onto an outer circumferential surface of a drum in a stretched state. The first substrate may be cut into discrete lengths of elastic substrate. The drum may be configured with vacuum to hold the discrete length of elastic substrate in a stretched state. The second substrate may advance in the second direction by a conveyor. The conveyor includes a roller having a curved outer surface that deforms the second substrate so as to define a curve in the first direction. A tamper apparatus intermittently displaces a deformed portion of the second substrate into contact with a discrete length of elastic substrate on the outer circumferential surface of the drum. The discrete length of elastic substrate bonds with the second substrate and is removed from the drum.

Abstract: A method for making a layered elastic substrate includes advancing a first substrate layer and a second substrate layer in a machine direction. An elastic material is advanced in the machine direction in a stretched state. The elastic material may be bonded to the first substrate layer and the second substrate layer in a stretched state to form a layered elastic substrate. The layered elastic substrate may advance through a first metering device at speed, V1, and through a second metering device at speed, V2, subsequent to advancing through the first metering device, wherein V1 is greater than V2. As a result, the elastic material, and thus the layered elastic substrate, may be stretched to a first elongation at the first metering device and relaxed to a second elongation at the second device. The layered elastic substrate is cut and bonded to a continuous length of web material.

Abstract: A first elastic material is advanced in a machine direction in a stretched state to a first metering device at a speed, V1. A second elastic material is advanced in the machine direction in a stretched state to a second metering device at a speed, V2. First and second substrate layers are advanced in a machine direction to a third metering at a speed, V3, along with the first and second elastic materials. The first and second elastic materials are bonded to the first and second substrate layers at the third metering device to form a layered elastic substrate. The layered elastic substrate is advanced to a fourth metering device at a speed, V4. V1 is less than V2, V3 is greater than V1 and V2, V4 is less than V3, and V4 is greater than V1 and V2.

Abstract: An improved approach for classifying portable executable files as malicious (malware) or benign (whiteware) is disclosed. The invention classifies portable executable files as malware or whiteware after using Bayes Theorem to evaluate each observable feature of each file with respect to other observable features of the same portable executable file with reference to statistical information gathered from repositories of known whiteware and malware files.

Abstract: Contextualization services deliver a contextualized toolbar for display on a page. A client agent may contextualize content a page being loaded or displayed to identify and send contextual data to the contextualization service of the server. The page may be designed, configured or constructed for placement of a toolbar on the page, such as a footer bar on the page. The contextualization service may use the contextual data to select a campaign from a plurality of campaigns to deliver a contextual toolbar for the page. Based on the selected campaign, the contextualization service may send a toolbar or configuration for a toolbar to the agent for display on the page. Instead of having a toolbar predetermined or fixed prior to the display of the page, the present solution dynamically contextualizes a toolbar at the point of loading or displaying the page and the contextualization is based on the content of the page being loaded/displayed.

Abstract: The present disclosure is directed to systems and methods for processing advertisement opportunities when a user views content on a mobile device. An agent on a mobile device may contextualize a portion of a page being viewed to identify and send contextual data to a contextualization service. The contextualization service may use the contextual data to select a campaign from a plurality of campaigns to deliver an in line banner advertisement for content being viewed. Based on the selected campaign, the contextualization service may send the agent an advertisement or campaign information for display, such as an inline banner at a natural break in the content being viewed. Instead of having an advertisement predetermined or fixed prior to the display of the content, the present systems and methods may dynamically contextualize the page at the point of viewing based on the content of the page being viewed.

Abstract: A vehicular shade assembly having a shade sized to cover at least a portion of a side window of a vehicle a means for translating the shade between a retracted position and an extended position and wherein the shade is at least partially housed within a B-pillar of the vehicle when the shade is in the retracted position.