Abstract: A housing of a device comprises a screw boss that extends outwardly from a first base plate proximate to a corner of the housing. Additionally, the housing of the device includes a force dissipation member. The force dissipation member includes a central portion that is sized to detachably attach around the screw boss. The force dissipation member further includes at least two arms that extend outwardly from the central portion, wherein each arm of the at least two arms is attached to a different side of the two walls of the housing.

Abstract: Apparatus, systems and methods for ascertaining the occupancy of a building are presented. The building is divided into one or more control zones which correspond to physical areas of the building associated with controllable modules, such as HVAC units, lighting, irrigation, or other environmental features such as fountains, music, video, and the like. Zone parameters define how zone devices shall react to the number of occupants located in the particular zone. A building control system detects individual mobile devices in and around the building, and determines the locations of each device by using trilateration and/or location services. The identified mobile devices act as proxies for building occupants. The locations of these devices are correlated with the locations of the zones in the building, and the building control system then adjusts the operating parameters of the zone based on the number of devices present in the zone.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. Three-dimensional articles have a surface having two or more portions that each have a radius of curvature that are at least partially separated by an intermediate portion that has a lesser radius of curvature. The transfer material may be pre-formed and transferred to the surface of the articles and may extend continuously across at least parts of the two portions and the intermediate portion.

Abstract: An upper rail assembly, an actuator that actuates between a retracted position and an extended position based on a signal that the platform is in one of a retracted position and an extended position with respect to the recreational vehicle, and a first drive chain combined to the actuator and connected to the upper rail assembly for moving the upper rail assembly between a retracted position and an extended position with respect to the platform is disclosed.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

Abstract: A method for calibrating sensors devices mounted on a machine is disclosed. The method includes transforming a first 3D point cloud to generate a transformed first 3D point cloud based on an alignment of the first 3D point cloud with a 3D model of the machine. The first 3D point cloud includes 3D point cloud of one or more features of a terrain around the machine, and the machine. The method further includes aligning a second 3D point cloud with the transformed first 3D point cloud based on the one or more features of the terrain, to determine one or more transformation parameters. Thereafter, one or more calibration parameters for the second sensor device is extracted from the one or more transformation parameters. The second sensor device is calibrated based on the one or more calibration parameters.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

Abstract: Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

Abstract: The present invention relates to a process for flexographic printing of ink onto a thin polymeric film substrate. In particular the process relates to printing using a central impression cylinder press, wherein the width of printed substrate is greater than 800 mm, to provide a high opacity printing process. According to the present invention the printing process comprising: transferring ink from an ink reservoir to an anilox roll; transferring the ink from the anilox roll to a printing plate wherein the ink volume transferred by the anilox roll is from 9-20 cm3/m2; and applying the ink to the surface of the substrate by applying pressure between the printing plate and an impression surface and passing the substrate between the printing plate and the impression surface wherein the printing plate is a high definition printing plate comprising at least 40 lines per centimeter.

Abstract: A system for monitoring an implement of a work machine is provided. The system may include one or more image sensors mounted on the work machine configured to capture one or more images of a field of view associated with the implement, and an implement controller in electrical communication with the image sensors. The implement controller may be configured to receive the images from the image sensors, identify one or more interactive targets within the images, select one of the interactive targets based on proximity, and align the implement to the selected interactive target.

Abstract: The invention is a tiltable bracket assembly for a rain gutter of a building, the assembly including an elongate clip configured to engage with an edge of the rain gutter; and a support bracket, wherein the support bracket includes a vertical element and a horizontal element, wherein the horizontal element including a hinged flap for a base of the rain gutter; characterized in that the vertical element of the support bracket includes a track for the elongate clip, and wherein the horizontal element of the support bracket includes a slot for the elongate clip. The elongate clip is configured to slide along the vertical element of the support bracket to engage and disengage with the upper rear edge of the rain gutter. When disengaged, the flap can be articulated to facilitate the pivotal movement of the rain gutter. This allows the gutter to be easily emptied or cleared of leaves or snow of the like as required.

Abstract: Three-dimensional articles having a transfer material thereon are disclosed. The articles have a surface having two or more portions that each have a radius of curvature that are at least partially separated by an intermediate portion that has a lesser radius of curvature. The transfer material may be pre-formed and transferred to the surface of the articles and may extend continuously across at least parts of the two portions and the intermediate portion. In some cases, the two or more portions and the intermediate portion are all located on the same portion or face of the article and the intermediate portion is a feature on the surface of the article. In other cases, the two or more portions are located on different portions or faces of the article, and the intermediate portion is an edge between the two or more portions.

Abstract: A system for monitoring an implement of a work machine is provided. The system may include one or more image sensors mounted on the work machine configured to capture one or more images of a field of view associated with the implement, and an implement controller in electrical communication with the image sensors. The implement controller may be configured to receive the images from the image sensors, identify one or more interactive targets within the images, select one of the interactive targets based on proximity, and align the implement to the selected interactive target.

Abstract: A work tool recognition system for a work tool coupled to a machine is provided. The system includes an image capturing assembly configured to capture an image feed of the work tool. A controller is communicably coupled to the image capturing assembly. The controller receives the image feed of the work tool from the image capturing assembly. The controller extracts a plurality of features of the work tool from the image feed. The controller classifies the extracted image and determine a confidence value. The controller estimates a size of the work tool. The controller estimates a position and an orientation of the work tool. The controller determines verification features of the work tool and compares the image feed of the work tool with a predetermined dataset based on the classification. The controller identifies a type of the work tool based on the comparison.

Abstract: A work tool recognition system for a work tool coupled to a machine is provided. The system includes an image capturing assembly configured to capture an image feed of the work tool. A controller is communicably coupled to the image capturing assembly. The controller receives the image feed of the work tool from the image capturing assembly. The controller extracts a plurality of features of the work tool from the image feed. The controller classifies the extracted image and determine a confidence value. The controller estimates a size of the work tool. The controller estimates a position and an orientation of the work tool. The controller determines verification features of the work tool and compares the image feed of the work tool with a predetermined dataset based on the classification. The controller identifies a type of the work tool based on the comparison.

Abstract: Apparatus, systems and methods for ascertaining the occupancy of a building are presented. The building is divided into one or more control zones which correspond to physical areas of the building associated with controllable modules, such as HVAC units, lighting, irrigation, or other environmental features such as fountains, music, video, and the like. Zone parameters define how zone devices shall react to the number of occupants located in the particular zone. A building control system detects individual mobile devices in and around the building, and determines the locations of each device by using trilateration and/or location services. The identified mobile devices act as proxies for building occupants. The locations of these devices are correlated with the locations of the zones in the building, and the building control system then adjusts the operating parameters of the zone based on the number of devices present in the zone.

Abstract: A method for calibrating sensors devices mounted on a machine is disclosed. The method includes transforming a first 3D point cloud to generate a transformed first 3D point cloud based on an alignment of the first 3D point cloud with a 3D model of the machine. The first 3D point cloud includes 3D point cloud of one or more features of a terrain around the machine, and the machine. The method further includes aligning a second 3D point cloud with the transformed first 3D point cloud based on the one or more features of the terrain, to determine one or more transformation parameters. Thereafter, one or more calibration parameters for the second sensor device is extracted from the one or more transformation parameters. The second sensor device is calibrated based on the one or more calibration parameters.

Abstract: A computer-implemented method of transforming an image file by an image file transformation apparatus, the method including providing an image file in a pixel-based format having a plurality of pixels, dividing the pixels into a plurality of patches, sampling the pixels to generate boundary conditions relating to each of the patches, deriving Fourier coefficients of a solution to a partial differential equation according to the boundary conditions, and outputting the Fourier coefficients for each of the patches as a transformed image file.