Abstract: A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

Abstract: Provided herein are 6-carboxylic acids of benzimidazoles and 4-aza-, 5-aza-, and 7-aza-benzimidazoles as GLP-1R agonists, processes to make said compounds, and methods comprising administering said compounds to a mammal in need thereof.

Abstract: A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

Abstract: A power bank and holographic projection accessory intended for use with a portable electronic device. The accessory includes a holographic projection unit and an external power bank case attachable to the holographic projection unit. The external power bank case is configured to provide power to the holographic projection unit and to provide a video signal generated by the portable electronic device to the holographic projection unit. The holographic projection unit generates volumetric projections based upon the video signal.

Abstract: A holographic display system for a portable electronic device. The display system includes a case configured to receive the portable electronic device and a projector coupled to the case by a first hinge element. The projector includes a projector screen for generating images. A reflective element is coupled to the projector by a second hinge element. The reflective element is oriented to reflect light from the images in order to create holographic images perceptible to a user of the portable electronic device. The case may include a connector for receiving, from the portable electronic device, a video signal defining the images. The holographic display system may further include a substantially transparent touch screen attached to the first hinge element.

Abstract: A power bank and holographic projection accessory intended for use with a portable electronic device. The accessory includes a holographic projection unit and an external power bank case attachable to the holographic projection unit. The external power bank case is configured to provide power to the holographic projection unit and to provide a video signal generated by the portable electronic device to the holographic projection unit. The holographic projection unit generates volumetric projections based upon the video signal.

Abstract: A holographic display system including an electronic device, a camera and a holographic projection unit. The holographic projection unit is configured to generate a volumetric projection for viewing by a user in response to a rendering signal provided by a volumetric display application executing on the electronic device. The holographic projection unit includes a housing, a projector at least partially disposed within the housing and operative to display images based upon the rendering information, and a semi-reflective element being oriented to reflect light from the images in order to create the volumetric projection. The camera is oriented such that the user is within a field of view, the camera being operative to provide the image information to the volumetric display application for determination of a position of the user. The volumetric projection is adapted in response to the position of the user.

Abstract: A system for accessing a wheel of a vehicle includes a support, a carrier, and a hinge joint. The support is affixed in a recess of a vehicle bed, and is positioned below the surface of the vehicle bed. The carrier is configured to be affixed to the wheel. When the carrier is affixed to the wheel, both the carrier and the wheel are accommodated in the recess and move as a substantially rigid body. The hinge joint couples the support and the carrier. The hinge joint has an axis substantially parallel to the ground and laterally across the vehicle bed. The carrier is capable of rotating about the hinge joint. The carrier and the wheel are capable of being rotated about the hinge joint out of the recess and onto the vehicle bed. One or more rotational elements may be included to affect rotational motion of the carrier.

Abstract: A micro-layered structure for use in an optical projection system is configured to reflect incident light as multiple closely aligned reflections. A first semi-reflective transparent layer of the structure has a first index of refraction, a first front surface and a first rear surface. A second semi-reflective transparent layer of the structure has a second index of refraction different from the first index of refraction, a second front surface and a second rear surface. The second front surface abuts the first rear surface of the first semi-reflective transparent layer. Portions of the incident light are respectively reflected by the first front surface, first rear surface, second front surface and second rear surface as first, second, third and fourth reflections which collectively form a projection of the image perceived by a user of the optical projection system.

Abstract: A holographic display system for a portable electronic device. The display system includes a case configured to receive the portable electronic device and a projector coupled to the case by a first hinge element. The projector includes a projector screen for generating images. A reflective element is coupled to the projector by a second hinge element. The reflective element is oriented to reflect light from the images in order to create holographic images perceptible to a user of the portable electronic device. The case may include a connector for receiving, from the portable electronic device, a video signal defining the images. The holographic display system may further include a substantially transparent touch screen attached to the first hinge element.

Abstract: A holographic display system for a portable electronic device. The display system includes a case configured to receive the portable electronic device and a projector coupled to the case by a first hinge element. The projector includes a projector screen for generating images. A reflective element is coupled to the projector by a second hinge element. The reflective element is oriented to reflect light from the images in order to create holographic images perceptible to a user of the portable electronic device. The case may include a connector for receiving, from the portable electronic device, a video signal defining the images. The holographic display system may further include a substantially transparent touch screen attached to the first hinge element.

Abstract: A system for accessing a wheel of a vehicle includes a support, a carrier, and a hinge joint. The support is affixed in a recess of a vehicle bed, and is positioned below the surface of the vehicle bed. The carrier is configured to be affixed to the wheel. When the carrier is affixed to the wheel, both the carrier and the wheel are accommodated in the recess and move as a substantially rigid body. The hinge joint couples the support and the carrier. The hinge joint has an axis substantially parallel to the ground and laterally across the vehicle bed. The carrier is capable of rotating about the hinge joint. The carrier and the wheel are capable of being rotated about the hinge joint out of the recess and onto the vehicle bed. One or more rotational elements may be included to affect rotational motion of the carrier.

Abstract: A computer implemented method comprises receiving an ethernet frame on an access port of a source switch in a switch fabric, the ethernet frame comprising a source media access control (SMAC) address and a destination media access control (DMAC) address, in response to a determination that the destination media access control address is not programmed into a media access control table of the source switch sending a destination lookup failure (DLF) message to a control plane associated with the switch, the destination lookup failure (DLF) message indicating that the destination media access control address received with the frame is not programmed into a media access control table of the source switch, and in response to a determination that the destination media access control address is programmed into a media access control table of at least one switch of the plurality of additional switches in the switch fabric, initiating a sequenced path setup on the source switch.

Abstract: A computer implemented method comprises receiving an ethernet frame on an access port of a source switch in a switch fabric, the ethernet frame comprising a source media access control (SMAC) address and a destination media access control (DMAC) address, in response to a determination that the destination media access control address is not programmed into a media access control table of the source switch sending a destination lookup failure (DLF) message to a control plane associated with the switch, the destination lookup failure (DLF) message indicating that the destination media access control address received with the frame is not programmed into a media access control table of the source switch, and in response to a determination that the destination media access control address is programmed into a media access control table of at least one switch of the plurality of additional switches in the switch fabric, initiating a sequenced path setup on the source switch.

Abstract: A method of adjusting video image data to reduce photosensitive epilepsy (“PSE”) triggers, the method including evaluating a sequence of video images to determine if the number of changes in brightness exceeding a predetermined threshold between contiguous images is greater than a predetermined value over a predetermined time or predetermined number of video images; and if the determined number exceeds the predetermined value then applying a correction procedure to the sequence of images. The correction procedure includes: for each image, applying a plurality of candidate brightness changes to the image and subsequently determining which of the applied changes result in the number of changes in brightness between contiguous images exceeding the predetermined threshold being reduced to below the predetermined value; and selecting the determined applied change having the smallest brightness change.

Abstract: A holographic display system for a portable electronic device. The display system includes a case configured to receive the portable electronic device and a projector coupled to the case by a first hinge element. The projector includes a projector screen for generating images. A reflective element is coupled to the projector by a second hinge element. The reflective element is oriented to reflect light from the images in order to create holographic images perceptible to a user of the portable electronic device. The case may include a connector for receiving, from the portable electronic device, a video signal defining the images. The holographic display system may further include a substantially transparent touch screen attached to the first hinge element.

Abstract: A composition for treating varicose veins is provided and has 61.67% Reverse Osmosis Water, 5.5% Glycerin, 5.5% Caprylic Triglycerides, 2.5% Oleic Acid, 2.5% Propylene Glycol, 1.5% Isopropyl Alcohol (or alternatively Ethanol), 1.0% Polysorbate 80, 0.3% Lecithin, 0.8% Xanthan Gum, 0.4% Allantoin, 1.1% Methyl Nicotinate (Nicotinic Acid), 0.3% Pyridoxal-5-Phosphate (P5P), 0.1% Phosphatidylcholine, 5.0% L-Histidine, 5.0% Glycine, 3.0% Gingko Biloba Extract, 0.08% Phytonadione, 0.05% Cholecalciferol, 2.0% Copper Peptides (GHK-Cu), 0.8% Sharon™ Biomix II, 1.0% Herbal Fragrance.