Abstract: A method and system of enabling interactive learning for connected vehicles. The system includes a vehicle data hub (VDH) component, a system learning and update (SLU) component, and an application delivery network (ADN). The VDH component enables cloud-coordinated data collection by the connected vehicles. The VDH component includes a vehicle based portion having a smart buffer in communications with a vehicle communications system and a VDH cloud based service portion. The SLU component is a cloud based service configured to manage data campaigns and specific triggers for efficient collection of data, processing the data, and deploy updated and/or new applications based on the processed data to connected vehicles. The ADN component is disposed on the vehicle and prioritize data campaign requests with respect to other active vehicle services.

Abstract: A lockset that includes a latch assembly, an interior assembly and an exterior assembly. The latch assembly includes a bolt movable between an extended position and a retracted position. The interior assembly is configured to electronically control movement of the bolt between the extended position and the retracted position. The exterior assembly includes a locking assembly configured to be mechanically coupled with the latch assembly. The interior assembly includes an interior wireless communication unit and the exterior assembly includes an exterior wireless communication unit that is configured to wirelessly communicate therebetween. In some embodiments, an exterior assembly includes a photovoltaic cell and the interior assembly includes a light source. The light source and the solar cell are configured for wirelessly communicating and for power transmission between the exterior and interior assemblies through a bore hole in the door.

Abstract: A faucet is provided that electronically controls the flow volume and temperature of water being dispensed. The faucet illustratively includes a faucet body and a faucet handle. In some embodiments, the faucet may include a faucet body and be voice controlled. The faucet illustratively includes an inertial motion unit sensor mounted in the faucet handle to sense spatial orientation of the faucet handle. The faucet illustratively includes an electronic flow control system to adjust flow volume and temperature of water being dispensed. The faucet illustratively includes a controller configured to receive signals from the inertial motion unit sensor and control the electronic flow control system to adjust flow volume and temperature of water being dispensed based upon the position of the faucet handle.

Abstract: Methods and apparatuses associated with flow sensing devices are provided. An example flow sensing device may include a sensing element disposed at least partially within the housing, and a plurality of channels disposed within the housing defining a flow path configured to convey a flowing media through the flow sensing device, wherein the flow path is disposed proximate the sensing element such that at least a portion of the flowing media makes direct contact with the sensing element.

Abstract: Methods, apparatuses, and systems associated with a sample testing device are provided.

Abstract: A faucet having a pressure-sensitive surface for dynamically adjusting the faucet's water flow rate and/or temperature based on an amount of pressure applied to the surface of the faucet is disclosed. A pressure sensor may be electronically connected to one or more electronic valves of the faucet to control the flow of water through either the cold or hot water lines, thereby controlling the flow rate and/or temperature of water coming from the faucet.

Abstract: A locking device with a bolt movable between a locked position and an unlocked position. The locking device includes an electronic controller for selectively controlling movement of the bolt between the locked and unlocked position. At least two input devices are provided, such as a keypad, a biometric input, etc., which communicate an authentication code to the controller. The controller controls movement of the bolt based on a valid authentication code received from any of the at least two input devices.

Abstract: A lockset that includes a latch assembly, an interior assembly and an exterior assembly. The latch assembly includes a bolt movable between an extended position and a retracted position. The interior assembly is configured to electronically control movement of the bolt between the extended position and the retracted position. The exterior assembly includes a locking assembly configured to be mechanically coupled with the latch assembly. The interior assembly includes an interior wireless communication unit and the exterior assembly includes an exterior wireless communication unit that is configured to wirelessly communicate therebetween. In some embodiments, an exterior assembly includes a photovoltaic cell and the interior assembly includes a light source. The light source and the solar cell are configured for wirelessly communicating and for power transmission between the exterior and interior assemblies through a bore hole in the door.

Abstract: Methods and apparatuses associated with flow sensing devices are provided. An example flow sensing device may include a sensing element disposed at least partially within the housing, and a plurality of channels disposed within the housing defining a flow path configured to convey a flowing media through the flow sensing device, wherein the flow path is disposed proximate the sensing element such that at least a portion of the flowing media makes direct contact with the sensing element.

Abstract: A lockset that includes a latch assembly, an interior assembly and an exterior assembly. The latch assembly includes a bolt movable between an extended position and a retracted position. The interior assembly is configured to electronically control movement of the bolt between the extended position and the retracted position. The exterior assembly includes a locking assembly configured to be mechanically coupled with the latch assembly. The interior assembly includes an interior wireless communication unit and the exterior assembly includes an exterior wireless communication unit that is configured to wirelessly communicate therebetween. In some embodiments, an exterior assembly includes a photovoltaic cell and the interior assembly includes a light source. The light source and the solar cell are configured for wirelessly communicating and for power transmission between the exterior and interior assemblies through a bore hole in the door.

Abstract: A faucet is provided that electronically controls the flow volume and temperature of water being dispensed. The faucet illustratively includes a faucet body and a faucet handle. In some embodiments, the faucet may include a faucet body and be voice controlled. The faucet illustratively includes an inertial motion unit sensor mounted in the faucet handle to sense spatial orientation of the faucet handle. The faucet illustratively includes an electronic flow control system to adjust flow volume and temperature of water being dispensed. The faucet illustratively includes a controller configured to receive signals from the inertial motion unit sensor and control the electronic flow control system to adjust flow volume and temperature of water being dispensed based upon the position of the faucet handle.

Abstract: A faucet is provided that electronically controls the flow volume and temperature of water being dispensed. The faucet illustratively includes a faucet body and a faucet handle. In some embodiments, the faucet may include a faucet body and be voice controlled. The faucet illustratively includes an inertial motion unit sensor mounted in the faucet handle to sense spatial orientation of the faucet handle. The faucet illustratively includes an electronic flow control system to adjust flow volume and temperature of water being dispensed. The faucet illustratively includes a controller configured to receive signals from the inertial motion unit sensor and control the electronic flow control system to adjust flow volume and temperature of water being dispensed based upon the position of the faucet handle.

Abstract: A remote control unit for a garage door having a garage door opener. The remote control unit includes a controller, at least one wireless communication unit in electrical communication with the controller and a user interface in electrical communication with the controller. In some embodiments, the user interface includes a wireless authentication activation element that is configured to detect user-actuation of the wireless authentication activation element. The controller is configured to transmit a wireless control signal to open/close a garage door responsive to receiving a valid authentication code via the wireless communication unit. Typically, the controller is configured to receive a wireless authentication code responsive to actuation of the wireless authentication activation element.

Abstract: A faucet having a pressure-sensitive surface for dynamically adjusting the faucet's water flow rate and/or temperature based on an amount of pressure applied to the surface of the faucet is disclosed. A pressure sensor may be electronically connected to one or more electronic valves of the faucet to control the flow of water through either the cold or hot water lines, thereby controlling the flow rate and/or temperature of water coming from the faucet.

Abstract: In an embodiment, a method of sensing a flow comprises performing a measurement cycle for a first period of time, powering off the at least one upstream resistive element and the at least one downstream resistive element for a second period of time, and performing another measurement cycle for a third period of time. Performing the measurement cycle comprises supplying a current to the upstream resistive element and the downstream resistive element arranged in a bridge, resistively heating the upstream resistive element and the downstream resistive element to a temperature above an ambient temperature, and detecting an imbalance in the bridge resulting from a temperature difference between the at least one upstream resistive element and the at least one downstream resistive element in response to the flow of a fluid past the flow sensor.

Abstract: A faucet having a pressure-sensitive surface for dynamically adjusting the faucet's water flow rate and/or temperature based on an amount of pressure applied to the surface of the faucet is disclosed. A pressure sensor may be electronically connected to one or more electronic valves of the faucet to control the flow of water through either the cold or hot water lines, thereby controlling the flow rate and/or temperature of water coming from the faucet.

Abstract: A locking device with a bolt movable between a locked position and an unlocked position. The locking device includes an electronic controller for selectively controlling movement of the bolt between the locked and unlocked position. At least two input devices are provided, such as a keypad, a biometric input, etc., which communicate an authentication code to the controller. The controller controls movement of the bolt based on a valid authentication code received from any of the at least two input devices.

Abstract: An interconnected locking system in which multiple locks may be interconnected to be locked and/or unlocked in a coordinated manner. In one embodiment, the locking system allows a user to lock or unlock a door with multiple locking points with a single activation of one of the locks, such as when a deadbolt or lever is activated. The multiple locking points communicate together wirelessly, for example, to activate all the locking points as desired or set by the user.

Abstract: A remote control unit for a garage door having a garage door opener. The remote control unit includes a controller, at least one wireless communication unit in electrical communication with the controller and a user interface in electrical communication with the controller. In some embodiments, the user interface includes a wireless authentication activation element that is configured to detect user-actuation of the wireless authentication activation element. The controller is configured to transmit a wireless control signal to open/close a garage door responsive to receiving a valid authentication code via the wireless communication unit. Typically, the controller is configured to receive a wireless authentication code responsive to actuation of the wireless authentication activation element.

Abstract: A lockset that includes a latch assembly, an interior assembly and an exterior assembly. The latch assembly includes a bolt movable between an extended position and a retracted position. The interior assembly is configured to electronically control movement of the bolt between the extended position and the retracted position. The exterior assembly includes a locking assembly configured to be mechanically coupled with the latch assembly. The interior assembly includes an interior wireless communication unit and the exterior assembly includes an exterior wireless communication unit that is configured to wirelessly communicate therebetween. In some embodiments, an exterior assembly includes a photovoltaic cell and the interior assembly includes a light source. The light source and the solar cell are configured for wirelessly communicating and for power transmission between the exterior and interior assemblies through a bore hole in the door.