Apparatus and methods for remotely viewing and authenticating/validating the contents of a safe deposit box (or safe) are provided. The apparatus and methods may include a safe deposit box including a locking internal cavity, a camera, a weight sensor, a light, a control circuit, and a communication circuit. After receiving a request to view the contents and authenticating a user, the safe deposit box may take still or motion pictures of the contents and weigh the contents and send the results to the user or a server. If the contents of the safe deposit box have changed an alert may be sent to the user or a server.

Computer-implemented systems utilizing sensor networks for sensing temperature and motion environmental parameters, and performing at least operations of electronically establishing, based on pattern recognition criteria, correspondence of a plurality of representative features a plurality of characteristics of an occurrence, where a first instance of the occurrence occurred within a first time period of a plurality of time periods; electronically discovering, based on the correspondence, a second instance of the occurrence in an environment during a second time period of the plurality of time periods; and electronically causing, based on the discovery of the second instance of the occurrence, a change in the environment via an electronically-controlled device.

A method and system for capturing and annotating measurement data includes communicatively connecting a mobile computing device to one or more measurement devices, and receiving measurement data from the one or more measurement devices. The mobile computing device stores the received measurement data and annotates the stored measurement data with metadata. The metadata includes group identifying information that associates the stored measurement data with other data having similar group identifying information. In at least one embodiment, measurement data is automatically associated with the group identifying information based on the measurement data being captured within a predetermined amount of time of each other or within a predetermined distance of each other as determined by a positioning system. The metadata may include, for example, one or more of a time, a location, a test point, a work order, a task list, a job instruction, a technician identifier, a text note, a voice note, an image, a video, and an image annotation.

An EPF digital record transmission system may be configured to transmit an EPF digital record from an EPF device to a user device. The user device may then transmit the EPF digital record to a host server for storage and processing. The EPF device may also be configured to transmit health data and the user device may be configured to analyze one or both of the health data and the EPF digital record and present a health recommendation.

Systems and methods are described for securely monitoring a shipping container for an environmental anomaly using elements of a wireless node network of sensor-based ID nodes disposed within the container and a command node associated with the container. The method has the command node identifying which of the ID nodes are confirmed as trusted sensors based upon a security credential specific to each of the ID nodes; monitoring only the confirmed ID nodes for sensor data broadcast those ID nodes; detecting the anomaly based upon the sensor data from at least one of the confirmed ID nodes; automatically generating an alert notification related to the detected environmental anomaly for the shipping container; and transmitting the alert notification to the external transceiver to initiate a mediation response related to the detected environmental anomaly.

A communications device for forming a network node between two or more devices or systems. The communications device has a power supply connector for connecting to a power supply in a light socket of a lighting system thereby to power the communications device. The communications device depends from the light socket by the power supply connector. The communications device also includes a receiver for receiving incoming information from one or more first devices or systems, and a transmitter for transmitting outgoing information to one or more second devices or systems.

A remote hydraulic and water quality monitoring and telemetry device for being connected to a fire hydrant. The device connects to a hydrant nozzle via a swivel connection and includes a control valve mounted inside the nozzle to conserve space and release a determined volume of water from the hydrant lateral pipe to provide a sample from the main line pipe. The device includes a multi-parameter water quality sonde or sensors, data acquisition, and telemetry hardware. The door of the enclosure may include a solar panel. The device may rest on a plate mounted to the hydrant riser flange after the hydrant and upper hydrant valve stem are removed. The device may rest on the ground and be connected to a hydrant nozzle by a rotating pipe assembly which can be adjusted to be positioned at locations around the hydrant and at varying elevations relative to the hydrant nozzle.

A training device includes a communication circuitry configured to communicate according to Bluetooth specification, at least one processor, and at least one memory including a computer program code, wherein the at least one memory and the computer program code are configured, with the at least one processor, to cause the device to perform operations. The operations include obtaining physical activity-related measurement data of a user participating in a team sport activity, processing the physical activity-related measurement data into a physical activity-related information characterizing the physical activity of the user during the team sport activity, and broadcasting, according to the Bluetooth specification, the physical activity-related information using the communication circuitry.

A computer-implemented method of updating an auto insurance policy is provided. The method may include (1) determining that a customer's mobile device has a Telematics Application (“App”) installed on it, the Telematics App configured to (i) receive telematics data associated with another vehicle via a wireless communication broadcast; (ii) determine a travel event from analysis of the telematics data received, and (iii) generate a corrective action based upon the telematics data received or travel event determined that alleviates the risk of vehicle collision. The method may also include (2) monitoring, with the customer's permission, an amount or percentage of usage of the Telematics App on the customer's mobile device while the customer is driving in an insured vehicle; and (3) adjusting an insurance policy premium or discount based upon usage of the Telematics App to facilitate rewarding risk-averse drivers and encourage usage of risk mitigation or prevention technology.

An algorithm formulating system for use with a sensing ecosystem for identifying enterprise space states, the sensing ecosystem including a plurality of sensor devices mounted within an enterprise space wherein each sensor device is capable of sensing a plurality of parameters within the enterprise space, the system comprising a processor programmed to perform the steps of accessing a rule set that specifies a first parameter value set that corresponding to a perceived state within a first enterprise space, receiving sensor data from sensor devices within the first enterprise space, comparing the sensor data to the rule set to identify instances of the perceived state, examining sensor data to identify a second parameter value set that occurs at least a threshold percentage of time for the identified instances of the perceived state and using the second parameter value set as the basis for a new rule set to be associated with the perceived state.