Techniques for identifying a type of an electronic device using image data corresponding to the electronic device are provided. For example, a method may include receiving image data and textual data corresponding to an electronic device. The image data and textual data may be analyzed, and a type of the electronic device can be identified based on the analysis. Usage data associated with other electronic devices of the same type may be analyzed, and further processing may be performed based on the analysis of the usage data. In some embodiments, the further processing may include transmitting a message to a user device, the message including content related to usage of the electronic device.

The present disclosure relates to using sensors and measurements from sensors to trigger actions within a network. Specifically, various techniques and systems are provided for measuring usage or measurements, using sensors, of utilities or other environmental factors, generating profiles based on the usage or measurements, and triggering actions within a network device based on the usage, measurements and profiles. Embodiments of the present invention may include, for example, compiling historical usage based on the use or measurements detected by a network device and generating a usage profile based on that use or measurements. The normal usage profile may be compared with the usage over a certain predetermined period of time to detect any abnormal use or measurements from the network device, and an action may be taken as a result of an abnormality.

A signal guide for a sensor device is disclosed herein. The signal guide can include a base having a first proximal aperture, where the first proximal aperture has a first cross-sectional profile, where the first proximal aperture is configured to be disposed proximate to a first transceiver element of the sensor device. The signal guide can also include a body disposed adjacent to the base, wherein the body comprises a first main channel that adjoins the first proximal aperture. The signal guide can further include a distal end disposed adjacent to the body opposite the base, where the distal end includes a first distal aperture that adjoins the first main channel, where the first distal aperture has a second cross-sectional profile, where the first distal aperture is configured to be disposed proximate to an ambient environment.

A sensing system includes: a wireless sensor terminal that includes a sensor, a processor, and a memory; and a concentrator that includes a processor and a memory and is connected to the wireless sensor terminal. In the sensing system, the wireless sensor terminal includes a first signal processing unit that processes sensor data measured by the sensor, and a first wireless communication unit that transmits the data output by the first signal processing unit. The concentrator includes a second wireless communication unit that communicates with the first wireless communication unit, and a second signal processing unit that calculates a feature quantity based on the data received from the wireless sensor terminal, determines a principal component according to the feature quantity by a principal component analysis, and generates a principal component list corresponding to the principal component.

A wireless sensor assembly includes a housing defining a first aperture for receiving an external sensor, and a second aperture defining a communication port, a wireless power source mounted within the housing, and electronics mounted to the housing and configured to receive power from the wireless power source and to be in electrical communication with the external sensor. The electronics include a wireless communications component, and firmware configured to manage a rate of data transmittal from the wireless communications component to an external device. The communication port is configured to receive a wire harness connected to the external sensor.

A method for data communication with a domestic appliance by a mobile computer device. The domestic appliance and the mobile computer device are interconnected or interconnectable via a wireless data connection. The wireless data connection is adapted for transferring signals between the domestic appliance and the mobile computer device. Further, the present invention relates to application software for the mobile computer device. Moreover, the present invention relates to a domestic appliance. Additionally, the present invention relates to a mobile computer device including a display or touch screen.

A high-speed converter includes at least one converter among a first converter for converting an analog signal into a digital value; a second converter for converting a digital value into an analog signal; a third converter for converting an electrical signal into a digital signal; and a fourth converter for converting a digital signal into an electrical signal, and causes the at least one converter to operate by a method based on information acquired via a network.

Parties having different responsibilities and interests at a monitored location can be given a partial view of the totality of the sensor channels of data generated by the various sensors installed at the monitored location. The partial views deliver customized sets of data streams to customers. The selective distribution of sensor information accommodates the divergent interests and needs of parties responsible for tracking the various characteristics of a monitored location.

Disclosed are a method and/or a system of insurance rate optimization through driver behavior which includes a computer server of the driver monitoring environment to determine if a newly insured driver operating a private vehicle is adhering to a set of parameters set by an entity i.e. a driving school, an insurance provider and/or a family member of the newly insured driver. The system assigns a credit to the newly insured driver when it adheres to the set of parameters. The newly insured driver is monitored by the entity. A metadata is generated which includes a behavioral trait of the newly insured driver and an insurance rate is set through the insurance provider based on an adherence to the set of parameters set by the entity.

A universal sensor interface enables selective coupling of one or more sensor module units to a wireless node. Each sensor module unit can contain a suite of sensors selected for a particular sensor application at a monitored location. Reconfiguration of the wireless sensor network can occur seamlessly through the plug-and-play connectivity between the sensor module units and the wireless node.