Abstract: A low dose disinfection and control system that utilizes empirical and theoretical data to compare performance, sensor data, stored patterns, historical usage, use intensity indexes over time and tracking information to provide a sophisticated data collection system for disinfection. The data can be used to dynamically control UV treatment parameters. This tracking is designed to enable a learning and feedback tool that helps to modify behavior and the understanding of infection. The present invention provides a system for integrating UV treatment into products. The product may include an outer layer of UV transmissive material forming an external touch surface. The UV disinfection system includes a UV source internal to the product. In use, the internal UV source produces UV-C light that passes into and permeates the outer layer to treat the touch surface. A UV reflective layer may be disposed beneath the outer layer.

Abstract: An inductive power supply system to identify remote devices using unique identification frequencies. The system includes an AIPS and a tank circuit capable of inductively providing power to a remote device at different frequencies, and a sensor for sensing the reflected impedance of the remote device at tank circuit. The system further includes a plurality of different remote devices, each having a unique resonance frequency. In operation, the AIPS is capable of identifying the type of remote device present in the inductive field by applying power to a remote device at a plurality of unique identification frequencies until the remote device establishes resonance in response to one of the identification frequencies. The AIPS includes a controller that recognizes when resonance has been established by evaluating sensor data, which is representative of the reflected impedance of the remote device.

Abstract: An appliance disinfecting device with monitoring and safety interlock system that utilizes user detection and sensors to detect touch and can provide user feedback and decorative features. The device can include a UV transmissive material that provides disinfection of hard to reach surfaces or areas safely. The appliance disinfection device can include an automatic interlock to protect a user from UV exposure. The optics used for the UV disinfection allow the device to become a human interface. The device can be connected to the appliance control system which can be connected to a network and cloud interface.

Abstract: A low dose disinfection and control system that utilizes empirical and theoretical data to compare performance, sensor data, stored patterns, historical usage, use intensity indexes over time and tracking information to provide a sophisticated data collection system for disinfection. The data can be used to dynamically control UV treatment parameters. This tracking is designed to enable a learning and feedback tool that helps to modify behavior and the understanding of infection. The present invention provides a system for integrating UV treatment into products. The product may include an outer layer of UV transmissive material forming an external touch surface. The UV disinfection system includes a UV source internal to the product. In use, the internal UV source produces UV-C light that passes into and permeates the outer layer to treat the touch surface. A UV reflective layer may be disposed beneath the outer layer.

Abstract: A disinfectant transmissive material incorporated into a case for a mobile device or a supporting surface of a disinfecting charger to enable disinfection of hard to reach areas. The case can be self-disinfecting. The disinfecting charger can have monitoring and safety systems that detect proximity and provide user feedback on safety, disinfection, and charge status along with automatic interlocks to protect the user from overexposure to disinfectant.

Abstract: A system for connecting and monitoring a magnetic operator interface assembly. The assembly can provide protection of an operator interface by limiting glare, UV damage, and exposure to rain. It can also protect the operator interface from high pressure cleaning equipment. The assembly is removably magnetically mountable to a sealed enclosure without breaching the enclosure's seal. The magnetic operator interface assembly can withstand operational forces, staying at a magnetically fixed position and without becoming accidentally detached. It is also easy to intentionally install and remove. The system may include sensors that can inform a local or remote dashboard about the status of the magnetic operator interface assembly, such as whether it is installed and whether the cover is open or closed. The system may also include a locking system to prevent tampering and limit access to the operator interface.

Abstract: A smart inductive heating appliance includes an interface for interacting with a package intelligence and communication module on a smart package. The smart heating appliance may also detect and charge chargeable devices inductively. A number of data sets may be utilized to enhance control of heating/cooking and to enhance safety. A thermodynamic load profile of the package may include detailed data correlations established in a package testing step and utilized to control heating of the package as well as to validate and authenticate the package.

Abstract: A dynamic container, package and vessel heating method with monitoring and safety system. The system includes identification detection and sensors to detect and authenticate the proper container, package or vessel. The system is capable of adjusting the driver for optimized induction heating of the target container, package or vessel. It is connected to a cloud based system that provides appliance specific and package specific drive and control details based on the identifier. The cloud based platform monitors point of consumption data and enables user marketing consumption of data while also enabling consumption driven feedback from the user.

Abstract: A disinfectant transmissive material incorporated into a case for a mobile device or a supporting surface of a disinfecting charger to enable disinfection of hard to reach areas. The case can be self-disinfecting. The disinfecting charger can have monitoring and safety systems that detect proximity and provide user feedback on safety, disinfection, and charge status along with automatic interlocks to protect the user from overexposure to disinfectant.

Abstract: A method for detecting status information about a track pin of a track chain for heavy equipment includes disposing a track pin sensor within a void of the track pin; sensing with the track pin sensor a temperature characteristic of the track pin; determining status information based on the temperature characteristic; and wirelessly communicating the status information to a remote device. A method for detecting status information about a mechanical system that generates heat energy includes generating electrical energy based on the heat energy; providing the electrical energy to a control unit; sensing with the control unit a temperature characteristic of the mechanical system based on a voltage of the electrical energy; determining status information of the mechanical system based on the temperature characteristic; and wirelessly communicating the status information to a remote device.

Abstract: A disinfectant transmissive material incorporated into a case for a mobile device or a supporting surface of a disinfecting charger to enable disinfection of hard to reach areas. The case can be self-disinfecting. The disinfecting charger can have monitoring and safety systems that detect proximity and provide user feedback on safety, disinfection, and charge status along with automatic interlocks to protect the user from overexposure to disinfectant.

Abstract: A smart inductive heating appliance includes an interface for interacting with a package intelligence and communication module on a smart package. The smart heating appliance may also detect and charge chargeable devices inductively. A number of data sets may be utilized to enhance control of heating/cooking and to enhance safety. A thermodynamic load profile of the package may include detailed data correlations established in a package testing step and utilized to control heating of the package as well as to validate and authenticate the package.

Abstract: A system to assist in monitoring and improving services in hotels, motels and other lodging facilities. The system includes a plurality of fixed-location wireless devices that are situated throughout the facility and each service provider or asset to be monitored or tracked is provided with a cooperating mobile wireless device. The mobile devices may periodically transmit beacons that are received by the fixed location devices. The system may determine location based on evaluation of signal strength across a plurality of fixed devices. The system may include premapped calibration data on signal strength to assist in determining location. The location information may help to assess employee performance, to assist in improving performance and to provide improved services. The system may also interact with an application running on a hotel guest's electronic device to allow the system to track guest location. Guest location information can be used to provide improved guest services.

Abstract: A system and method of controlling inductive power transfer in an inductive power transfer system and a method for designing an inductive power transfer system with power accounting. The method of controlling inductive power transfer including measuring a characteristic of input power, a characteristic of power in the tank circuit, and receiving information from a secondary device. Estimating power consumption based on the measured characteristic of tank circuit power and received information and comparing the measured characteristic of input power, the information from the secondary device, and the estimated power consumption to determine there is an unacceptable power loss. The method for designing an inductive power transfer system with power accounting including changing the distance between a primary side and a secondary side and changing a load of the secondary side.

Abstract: A system includes moveable equipment; a plurality of work tools selectively physically coupleable to the moveable equipment; and an accelerometry network. The accelerometry network includes a primary accelerometer affixed to the moveable equipment for collecting primary accelerometer data; a plurality of secondary accelerometers for collecting secondary accelerometer data, each accelerometer of the plurality of secondary accelerometers being uniquely affixed to a corresponding work tool of the plurality of work tools; a controller configured to determine physical coupling relationships between the plurality of work tools and the moveable equipment based on a comparison of the primary accelerometer data and the secondary accelerometer data; and a communication system that effects communication between the controller and the primary accelerometer and the plurality of secondary accelerometers.

Abstract: A modular flow monitoring package (MFMP) is provided for use in an additive delivery system. The MFMP may be manufactured as an add-on to be added to an existing additive delivery system, or may be incorporated into a cartridge or container structure. The MFMP includes a flow sensor for sensing flow of a base fluid and user actuator position sensors for sensing the position of one or more user actuated additive flow adjustment levers. A visual display, which may comprise an array of multi-color LED's may convey information to a user that is relevant to a user's use of the additive delivery system or the user's nutritional needs. Such information may include a current dosage of additive, being delivered, whether a recommended dosage of additive has been consumed, remaining life of a cartridge or supply of additive, and other data relative to health or performance monitoring.

Abstract: A low dose disinfection and control system that utilizes empirical and theoretical data to compare performance, sensor data, stored patterns, historical usage, use intensity indexes over time and tracking information to provide a sophisticated data collection system for disinfection. The data can be used to dynamically control UV treatment parameters. This tracking is designed to enable a learning and feedback tool that helps to modify behavior and the understanding of infection. The present invention provides a system for integrating UV treatment into products. The product may include an outer layer of UV transmissive material forming an external touch surface. The UV disinfection system includes a UV source internal to the product. In use, the internal UV source produces UV-C light that passes into and permeates the outer layer to treat the touch surface. A UV reflective layer may be disposed beneath the outer layer.

Abstract: The present invention provides a wireless power supply system in which a remote device is provided with different control methodologies depending on one or more factors. One type of wireless power supply can selectively control one or more remote devices according to a first control methodology and another type of wireless power supply can control the remote device according to a second control methodology. In one embodiment, a wireless power supply system is provided for wirelessly powering a display circuit in a product located at a point of display differently than when charging at a point of use, or when the device is in use. In another embodiment, a wireless power supply is programmed to operate a remote device according to a primary control methodology and the remote device is programmed to operate the remote device according to a secondary control methodology where the remote device includes circuitry for enabling the primary control methodology instead of the secondary control methodology.

Abstract: A monitoring and maintenance system that utilizes imperial and theoretical data to compare parts, vehicles, users, regions, wear intensity indexes over time and tracking information to provide a sophisticated data collection system for heavy-duty equipment or rental equipment. This tracking is designed to better the specifications, designs, training, preventative maintenance, and replacement wear understanding of fleet management.

Abstract: An inductive wireless power system using an array of coils with the ability to dynamically select which coils are energized. The coil array can determine the position of and provide power to one or more portable electronic devices positioned on the charging surface. The coils in the array may be connected with series resonant capacitors so that regardless of the number of coils selected, the resonance point is generally maintained. The coil array can provide spatial freedom, decrease power delivered to parasitic loads, and increase power transfer efficiency to the portable electronic devices.