TRITON SYSTEMS, INC.
|TRITON SYSTEMS, INC. Patent applications|
|Patent application number||Title||Published|
|20150268383||SYSTEMS AND METHODS FOR FORMING A LARGE-SCALE MOTHEYE FILM COATING ON A SUBSTRATE - Nanoimprinted films, devices including nanoimprinted films, methods for making such films, and devices and apparatuses for making such films are described herein. The nanoimprinted films can be used to provide an antireflective coating for windows, windshields, visors, lenses, and other devices.||09-24-2015|
|20150211579||LINER-AS-SEAL BEARINGS - Disclosed are bearing assemblies including a compliant layer within a mounting socket for reducing wear of the bearing.||07-30-2015|
|20140075015||METHODS AND SYSTEMS FOR MONITORING AND CONTROLLING ELECTRONIC DEVICES - Methods and systems for managing a device are described. A device agent may receive device information associated with a device, such as information concerning operation of the device. The device agent may be configured to maintain a device model or operating protocol associated with the operation of the device, such as various operational parameters, operating characteristics and/or programs. The device agent may monitor the device based on the device information streamed, for example, in substantially real time from the device. A central management system may be in communication with the device agent and may operate to verify and/or update the device model based on the device information. The device information may be presented to client devices, for instance, through a graphical user interface. The client devices may also be able to transmit control signals to the central management system for controlling various aspects of the device.||03-13-2014|
|20130170018||SWITCHABLE OPTICAL ELEMENTS - Optical filters capable of operating in the infra-red spectrum are disclosed. In one embodiment, a filter may be dynamically switched to provide one of two optical responses. One optical response may include the filter reflecting infra-red radiation across a range of wavelengths except at one or more wavelengths at which the filter absorbs the radiation. A second optical response may include the filter reflecting infra-red radiation across the entire range of wavelengths. In one embodiment, the switching may be caused by the physical displacement of a first filter component with respect to a second filter component. A method of switching the response of such a filter is also disclosed. Another embodiment of the filter may include one in which the optical response of the filter is effectively independent of either the incidence angle of the radiation impinging on it, or the polarization of the incident radiation.||07-04-2013|
|20130009846||INSERT FOR RADOMES AND METHODS OF MANUFACTURING INSERT FOR RADOMES - Apparatuses such as inserts for radomes are described herein. The apparatuses and inserts including a metal layer having a frequency selective surface.||01-10-2013|
|20120170114||METAMATERIAL FILTER - Embodiments herein are directed to a metamaterial transmission filters including a metamaterial component and a upper medium positioned within proximity of the metamaterial component such that movement of the upper medium changes the resonances and optical transmission, reflection or absorption spectra of the filter. The upper material may be a natural material or a second metamaterial identical or non-identical to the metamaterial component. Embodiments herein are designed to allow both continuous tuning of the optical spectra of the assembly and/or discrete spectral switching.||07-05-2012|
|20110300378||DISCONTINUOUS SHORT FIBER PREFORM AND FIBER-REINFORCED ALUMINUM BILLET AND METHODS OF MANUFACTURING THE SAME - Discontinuous fiber preforms, fiber-reinforced metal matrix composites, and methods of making same are disclosed. A fiber preform includes a milled fiber material having a weighted average fiber length of about 0.03 mm to 0.12 mm and/or a percent fiber volume fraction of the fiber preform of about 15% to about 55%. The milled fiber material is at least substantially free of a binder material. A fiber-reinforced MMC includes a milled fiber material having a weighted-average fiber length of about 0.03 mm to 0.12 mm and/or a percent fiber volume fraction of the fiber preform of about 15% to about 55%. The fiber-reinforced MMC further includes a metal infiltrated into the milled fiber material. The milled fiber material is at least substantially free of a binder material. The milled fiber can be substantially uniformly oriented and/or randomly oriented in the fiber preform and/or the fiber-reinforced MMC.||12-08-2011|
|20100157437||NEGATIVE REFRACTIVE INDEX MATERIALS AND METHODS FOR MAKING SAME - Embodiments of the invention described herein include metamaterials that exhibit negative permittivity and negative permeability at optical frequencies, methods for preparing such materials, and devices prepared from same.||06-24-2010|
|20090317913||DETECTION OF PEROXIDE RADICALS AND REACTION INITIATORS - Sensors including a functional component, methods for making such sensors and methods for using sensors including a functional component for the detection of free radical forming compounds including peroxides and devices incorporating such sensors are provided herein.||12-24-2009|
|20090293711||ARMOR REPAIR KIT AND METHODS RELATED THERETO - An armor repair kit including repair putty and a scrim having a plurality of ceramic constituents attached thereto and methods for using a repair putty, scrims and kits to repair damaged armor are described herein.||12-03-2009|
Patent applications by TRITON SYSTEMS, INC.