Abstract: Embodiments of the present invention are directed to a tri-core yarn including a core including an elastomeric filament, a first cover, and a second cover, and a fiber sheath covering the core, wherein the first cover and the second cover are each wrapped around the elastomeric filament.

Abstract: An appliance network has a network binder accessory to establish a private network among nodes that might be on different networks, using “one-click”.

Abstract: A particle detector has a sample area of cross section no in excess of about 2 mm for containing environmental fluid, a light source on one side of the sample area for directing a collimated or nearly collimated beam of light through the sample air or water so that part of the light beam will be scattered by any particles present in the air or water while the remainder remains unscattered, and a beam diverting device on the possible side of the sample area for diverting or blocking at least the unscattered portion of the beam of light and directing at least part of the scattered light onto a detector. The detector produces output pulses in which each pulse has a height proportional to particle size and a pulse height discriminator obtains the size distribution of airborne particles detected in the air or water sample at a given time from the detector output. The detector may also include a device for discriminating between biological agents and inorganic particles.

Abstract: Devices, systems and methods for commissioning a home network and inhibiting unaffiliated wireless communication devices that are physically proximate to each other from forming a wireless network. A wireless communication device may include a transceiver capable of communicating with at least a second device, a non-volatile memory capable of storing a network name, a controller, and a user input acceptance element capable of placing the controller in a network set-up mode. The controller may have a plurality of modes including the network set-up mode, as well as a status indicator for providing an indication of whether the device is operating with one of a parent status and a child status. A method for joining a wireless network may include entering a network set up mode, and scanning for a second device operating with a parent status. If the second device is operating with the parent status, the network name of the second device may be adopted as the network name.

Abstract: A method and apparatus for detecting pathogens and particles in a fluid in which particle size and intrinsic fluorescence of a simple particle is determined.

Abstract: A method and apparatus for detecting pathogens and particles in a fluid in which particle size and intrinsic fluorescence of a simple particle is determined.

Abstract: A particle detector has a sample area of cross section no in excess of about 2 mm for containing environmental fluid, a light source on one side of the sample area for directing a collimated or nearly collimated beam of light through the sample air or water so that part of the light beam will be scattered by any particles present in the air or water while the remainder remains unscattered, and a beam diverting device on the opposite side of the sample area for diverting or blocking at least the unscattered portion of the beam of light and directing at least part of the scattered light onto a detector. The detector produces output pulses in which each pulse has a height proportional to particle size and a pulse height discriminator obtains the size distribution of airborne particles detected in the air or water sample at a given time from the detector output. The detector may also include a device for discriminating between biological agents and inorganic particles.

Abstract: A particle detector has a sample area of cross section no in excess of about 2 mm for containing environmental fluid, a light source on one side of the sample area for directing a collimated or nearly collimated beam of light through the sample air or water so that part of the light beam will be scattered by any particles present in the air or water while the remainder remains unscattered, and a beam diverting device on the opposite side of the sample area for diverting or blocking at least the unscattered portion of the beam of light and directing at least part of the scattered light onto a detector. The detector produces output pulses in which each pulse has a height proportional to particle size and a pulse height discriminator obtains the size distribution of airborne particles detected in the air or water sample at a given time from the detector output. The detector may also include a device for discriminating between biological agents and inorganic particles.

Abstract: The invention relates to a network system of at least two appliances, each appliance configured to perform a cycle of operation on an article, and each appliance having its own software architecture. An embedded virtual router enables communication among appliance components independent of the architecture of the software.

Abstract: A modular system comprises an appliance having a visible surface, a first service interface positioned on the visible surface, a cover detachably coupled to the visible surface and disposed to overlie the first service interface, a controller configured to selectively provide operational instructions to the appliance and/or the cover, and an antenna provided within the cover and operably connected to the controller.

Abstract: A comprehensive product management system for a product is provided. The system (10) includes discrete processes for planning (1000), engineering (2000), testing (3000), producing (4000), selling (6000), using (8000), and servicing (10000) a product comprising one or more components. It also includes a comprehensive relational database (30) containing information about the product, performance, sales, consumers, and markets, and system tools (20) for operating on the discrete processes.

Abstract: Devices, systems and methods for commissioning a home network and inhibiting unaffiliated wireless communication devices that are physically proximate to each other from forming a wireless network. A wireless communication device may include a transceiver capable of communicating with at least a second device, a non-volatile memory capable of storing a network name, a controller, and a user input acceptance element capable of placing the controller in a network set-up mode. The controller may have a plurality of modes including the network set-up mode, as well as a status indicator for providing an indication of whether the device is operating with one of a parent status and a child status. A method for joining a wireless network may include entering a network set up mode, and scanning for a second device operating with a parent status. If the second device is operating with the parent status, the network name of the second device may be adopted as the network name.

Abstract: The system includes an excitation source for providing a beam of electromagnetic radiation having a source wavelength. A first wavelength selective device is positioned to be impinged by the beam of electromagnetic radiation. The first wavelength selective device is constructed to transmit at least a portion of any radiation having the source wavelength and to reflect radiation of other wavelengths. A medium containing particles is positioned to be impinged by the beam of electromagnetic radiation. At least a portion of the beam of electromagnetic radiation becomes scattered within the medium, the scattered electromagnetic radiation including forward scattered electromagnetic radiation and backward scattered electromagnetic radiation. An optical detector is positioned to receive backward and/or forward scattered electromagnetic radiation.

Abstract: The system includes an excitation source for providing a beam of electromagnetic radiation having a source wavelength. A first wavelength selective device is positioned to be impinged by the beam of electromagnetic radiation. The first wavelength selective device is constructed to transmit at least a portion of any radiation having the source wavelength and to reflect radiation of other wavelengths. A medium containing particles is positioned to be impinged by the beam of electromagnetic radiation. At least a portion of the beam of electromagnetic radiation becomes scattered within the medium, the scattered electromagnetic radiation including forward scattered electromagnetic radiation and backward scattered electromagnetic radiation. An optical detector is positioned to receive backward and/or forward scattered electromagnetic radiation.

Abstract: A method includes providing a first data collection unit and a second data collection unit, each of the first test data collection unit and the second data collection unit comprising a wireless transceiver and adapted for wireless communication therebetween, physically moving the first data collection unit to each of a plurality of different locations within the use environment associated with use of the home appliance, establishing a radio frequency link between the first data collection unit and the second data collection unit at each of the plurality of different locations within the use environment, characterizing quality of the radio frequency link at each of the plurality of different locations, the quality of the radio frequency link being at least partially based on the path loss within the use environment, and determining an aggregate characterization of the first data collection unit within the use environment using the quality of the radio frequency link at each of the plurality of different locati

Abstract: An appliance development toolkit includes access to a user interface domain data model, access to an appliance user domain data model, a model instance editor configured to create one or more instances of user interface domain data derived from the user interface domain data model, to create one or more instances of appliance user domain data derived from the appliance user domain data model, and to associate one or more user interface elements with one or more appliance user elements. The toolkit also has a model instance converter for creating content including portions of the instances of user interface domain data, instances of appliance user domain data, and a map of the association. The content is in a builder file. An appliance can use the builder file at runtime to dynamically render its graphical user interface.

Abstract: A particle detector has a sample area of cross section no in excess of about 2 mm for containing environmental fluid, a light source on one side of the sample area for directing a collimated or nearly collimated beam of light through the sample air or water so that part of the light beam will be scattered by any particles present in the air or water while the remainder remains unscattered, and a beam diverting device on the opposite side of the sample area for diverting or blocking at least the unscattered portion of the beam of light and directing at least part of the scattered light onto a detector. The detector produces output pulses in which each pulse has a height proportional to particle size and a pulse height discriminator obtains the size distribution of airborne particles detected in the air or water sample at a given time from the detector output. The detector may also include a device for discriminating between biological agents and inorganic particles.

Abstract: An appliance network has a network binder accessory to establish a private network among nodes that might be on different networks, using “one-click”.

Abstract: The invention relates to a network system of at least two appliances, each appliance configured to perform a cycle of operation on an article, and each appliance having its own software architecture. An embedded virtual router enables communication among appliance components independent of the architecture of the software.

Abstract: A particle detector has a sample area of cross section no in excess of about 2 mm for containing environmental fluid, a light source on one side of the sample area for directing a collimated or nearly collimated beam of light through the sample air or water so that part of the light beam will be scattered by any particles present in the air or water while the remainder remains unscattered, and a beam diverting device on the opposite side of the sample area for diverting or blocking at least the unscattered portion of the beam of light and directing at least part of the scattered light onto a detector. The detector produces output pulses in which each pulse has a height proportional to particle size and a pulse height discriminator obtains the size distribution of airborne particles detected in the air or water sample at a given time from the detector output. The detector may also include a device for discriminating between biological agents and inorganic particles.