A system for collecting and managing parametric data via an external communications network comprises one or more parametric stations operatively connected via the external network to a certification server and a payout server. Each parametric station is configured to receive parametric data from a remote source, determine that the parametric data satisfies a predetermined condition, and transmit the parametric data over the external network to the certification server in response to the parametric data satisfying the predetermined condition. The certification server is configured to generate a certification report based on the parametric data and a data model related to the remote source and transmit the generated certification report to the payout server. The payout server is configured to determine that terms of an associated contract are satisfied based on the certification report, and trigger a payout based on the terms that are satisfied based on the certification report.

An impact indicator includes a housing configured to enable movement of a mass member from a first position to a second position in response to receipt by the housing of an acceleration event. The indicator also includes switch circuitry having a compressible switch element positionable between spaced apart contacts where the switch element is configured to be in spaced apart relationship to the mass member. A passive radio-frequency identification (RFID) module is coupled to the switch circuitry and, responsive to movement of the mass member from the first position to the second position, the mass member causes a positional change of the switch element relative to the first and second contacts, and the positional change causes a state change in the switch circuitry. The RFID module outputs a value based on the state of the switch circuitry when energized.

An impact indicator includes a housing configured to enable movement of a mass member from a first position to a second position in response to receipt by the housing of an acceleration event. The indicator also includes switch circuitry having a compressible switch element positionable between spaced apart contacts where the switch element is configured to be in spaced apart relationship to the mass member. A passive radio-frequency identification (RFID) module is coupled to the switch circuitry and, responsive to movement of the mass member from the first position to the second position, the mass member causes a positional change of the switch element relative to the first and second contacts, and the positional change causes a state change in the switch circuitry. The RFID module outputs a value based on the state of the switch circuitry when energized.

A device for monitoring and alerting for contact of an object with a line strung between two upright posts includes a housing having a body and a mounting portion extending from the body. A mount is positioned in the mounting portion. A camera a is positioned on the mounting portion for downward viewing of the line. A processor is positioned in the housing and an accelerometer is position in the housing in operable communication with the processor. The device includes a power supply operably connected to the processor. When the device is positioned on the line and the accelerometer senses movement of the device, the accelerometer generates and transmits a signal to the processor. The processor analyses the signal to determine whether the signal meets a threshold and, if the threshold is met, the processor generates and transmits an alarm signal to a receiving device.

A device for monitoring and alerting for contact of an object with a line strung between two upright posts includes a housing having a body and a mounting portion extending from the body. A mount is positioned in the mounting portion. A camera a is positioned on the mounting portion for downward viewing of the line. A processor is positioned in the housing and an accelerometer is position in the housing in operable communication with the processor. The device includes a power supply operably connected to the processor. When the device is positioned on the line and the accelerometer senses movement of the device, the accelerometer generates and transmits a signal to the processor. The processor analyses the signal to determine whether the signal meets a threshold and, if the threshold is met, the processor generates and transmits an alarm signal to a receiving device.

A sensing device for detecting a broken conductor. The sensing device comprises a first sensor for sensing a parameter of a conductor, a communication interface including a transceiver, and an electronic processor. The electronic processor is configured to receive the parameter of the conductor from the first sensor, determine a jerk of the conductor based on the parameter, compare the jerk to a first predetermined threshold value, and transmit, with the transceiver, at least one of a first signal to a utility manager and a second signal to a pole sensing device.

A sensing device for detecting a broken conductor. The sensing device comprises a first sensor for sensing a parameter of a conductor, a communication interface including a transceiver, and an electronic processor. The electronic processor is configured to receive the parameter of the conductor from the first sensor, determine a jerk of the conductor based on the parameter, compare the jerk to a first predetermined threshold value, and transmit, with the transceiver, at least one of a first signal to a utility manager and a second signal to a pole sensing device.

A household appliance includes at least one movable door and at least one sensor for detecting a door movement, particularly a door opening angle of the at least one door. The at least one sensor includes at least one inertial sensor integrated into the at least one door. The household appliance is particularly advantageously a refrigerating device, especially a refrigerator, having a pivoting door.

A household appliance includes at least one movable door and at least one sensor for detecting a door movement, particularly a door opening angle of the at least one door. The at least one sensor includes at least one inertial sensor integrated into the at least one door. The household appliance is particularly advantageously a refrigerating device, especially a refrigerator, having a pivoting door.

A device includes a signaling means and a motion sensor, and logic for activating or controlling the signaling means in response to a sensed motion according to an embedded logic. The device may be used as a toy, and may be shaped like a play ball or as a handheld unit. It may be powered from a battery, either chargeable from an AC power source directly or contactless by using induction or by converting electrical energy from harvested kinetic energy. The embedded logic may activate or control the signaling means, predictably or randomly, in response to sensed acceleration magnitude or direction, such as sensing the crossing of a preset threshold or sensing the peak value. The visual means may be a numeric display for displaying a value associated with the count of the number of times the threshold has been exceeded or the peak magnitude of the acceleration sensed.