Abstract: The present invention pertains to paper product devices for holding toilet paper, particularly toilet roll spindles and holders that simultaneously provide illumination in an area. Embodiments described for the present invention use a toilet paper spindle housing, one or more springs designed to hold the electrical device in place, a power source, often battery powered, one or more lights within the housing to illuminate an area around and including a toilet, an ambient light sensor to detect an ambient light level, a toilet paper slide preventer and motion sensor guard, and one or more passive infrared sensors to detect movement in an area. The embodiment may illuminate an area for a specific time duration once motion or occupancy is detected. In one embodiment, the toilet roll spindle housing attaches vertically to a freestanding base and may be comprised of a power source, a photocell sensor, and infrared sensors.

Abstract: Disclosed herein are compounds and compositions useful in the treatment of GLS1 mediated diseases, such as cancer, having the structure of Formula I: Methods of inhibition GLS1 activity in a human or animal subject are also provided.

Abstract: Embodiments of the present invention disclose packaging receptacles, modular apparatuses for manufacturing such packaging receptacles, and a method thereof. A modular apparatus for manufacturing packaging receptacles includes a paper feeder module, an embossing module, and an adhesive coating module. The paper feeder module includes a plurality of paper feeder rollers configured to feed one or more first layers of paper to the embossing module, and a second layer of paper to the adhesive coating module. The embossing module includes a first embossing roller and a second embossing roller configured to emboss a plurality of impressions onto the one or more first layers, and feed the embossed one or more first layers to the adhesive coating module. Also, the adhesive coating module is configured to apply an adhesive to an outermost surface of the embossed one or more first layers and an inner surface of the second layer.

Abstract: The present invention is an ultrasonic sealing method for sealing together multiple layers, of materials of different composite and may be dissimilar in nature the method comprising the steps of, a) feeding at least two work-pieces between an ultrasonic horn and an anvil, wherein said at least two work-pieces comprise a shipping envelope mailer with or without a cushion layer as a variable layered material b) sealing said two work-pieces, wherein said sealing comprises, (i) the outer layers may or may not be pre coated with a polymer and (ii) generating vibratory energy by a transducer and applying it to the horn which causes the horn to vibrate, wherein the frictional forces caused between the vibrating horn, and the anvil produces heat which is used to seal the two work-pieces together.

Abstract: A system and method for automatically zooming “in” and “out” a video content stream to adjust for Ratio Mismatches is disclosed. The present invention is particularly applicable to 4:3 video content delivered in a 16:9 video content stream. The present invention scans for the presence of Pillar Bars. When Pillar Bars are detected by the present invention, after waiting a pre-determined period to confirm the presence and size of the Pillar Bars, the present invention initiates a slow stretching the video content stream to eliminate the Pillar Bars. When the video content stream changes back to without Pillar Bars, the present invention initiates a slow zooming out to a full pixel representation of the video content stream.

Abstract: A system and method for fine tuned automatic zooming “in” and “out” a video content stream to adjust for Ratio Mismatches and changes in Pillar Bar size is disclosed. The present invention is particularly applicable to 4:3 video content delivered in a 16:9 video content stream. After the Initial Zoom In, the present invention repeatedly analyses the pixels in the Truncated Display for Pillar Bars and determines (i) if the Pillar Bars are still present, (ii) if the Pillar Bars have changed width/size, and (iii) if the amount of the Initial Zoom In (or subsequent zoom prior to an instant fine tune iteration) was correct (within a margin of error), and automatically fine tunes the zooming of the video content stream accordingly, e.g., gradual zooming in, gradual zooming out, or a full zoom out for a full pixel presentation if the Pillar Bars are no longer present.

Abstract: A system and method for fine tuned automatic zooming “in” and “out” a video content stream to adjust for Ratio Mismatches and changes in Pillar Bar size is disclosed. The present invention is particularly applicable to 4:3 video content delivered in a 16:9 video content stream. After the Initial Zoom In, the present invention repeatedly analyses the pixels in the Truncated Display for Pillar Bars and determines (i) if the Pillar Bars are still present, (ii) if the Pillar Bars have changed width/size, and (iii) if the amount of the Initial Zoom In (or subsequent zoom prior to an instant fine tune iteration) was correct (within a margin of error), and automatically fine tunes the zooming of the video content stream accordingly, e.g., gradual zooming in, gradual zooming out, or a full zoom out for a full pixel presentation if the Pillar Bars are no longer present.

Abstract: A system and method for automatically zooming “in” and “out” a video content stream to adjust for Ratio Mismatches is disclosed. The present invention is particularly applicable to 4:3 video content delivered in a 16:9 video content stream. The present invention scans for the presence of Pillar Bars. When Pillar Bars are detected by the present invention, after waiting a pre-determined period to confirm the presence and size of the Pillar Bars, the present invention initiates a slow stretching the video content stream to eliminate the Pillar Bars. When the video content stream changes back to without Pillar Bars, the present invention initiates a slow zooming out to a full pixel representation of the video content stream.