Disclosed herein are systems and devices which are capable of detecting moisture and remotely indicating when the presence of moisture is detected. The systems utilize multilayer sensors that consist of two conductive layers surrounding an insulating, spacer layer. Nonwoven materials with conductive additives have shown particular advantages for use in constructing the conductive sensor layers. The multilayer sensor can be electrically coupled to a transmitter that is itself in electrical communication with one or more receiver devices. The transmitter and receiver devices are configured to provide indicators when moisture is detected through audible signals, vibration, visible signals or through notifications displayed on a software application. The sensor and/or the transmitter may be attached along a perimeter of the layers. The layered sensor may be affixed to an inside or outside of a package for location tracking, or may be attached to or incorporated in a diaper, as non-limiting examples.

Disclosed herein are systems and devices which are capable of detecting moisture and remotely indicating when the presence of moisture is detected. The systems utilize multilayer sensors that consist of two conductive layers surrounding an insulating, spacer layer. Nonwoven materials with conductive additives have shown particular advantages for use in constructing the conductive sensor layers. The multilayer sensor can be electrically coupled to a transmitter that is itself in electrical communication with one or more receiver devices. The transmitter and receiver devices are configured to provide indicators when moisture is detected through audible signals, vibration, visible signals or through notifications displayed on a software application. The sensor and/or the transmitter may be attached along a perimeter of the layers. The layered sensor may be affixed to an inside or outside of a package for location tracking, or may be attached to or incorporated in a diaper, as non-limiting examples.

A device for evaluating characteristics of a target ground containing a metal component is proposed. The device includes a penetration probe having a main frame and a pair of side frames respectively installed at opposite side ends of the main frame, wherein each side frame has a lower end thereof extending downward from the main frame; a plurality of electrodes installed to be exposed to outside on the main frame; an electrode measurement part for measuring apparent chargeability of the target ground by applying power for measurement to the plurality of electrodes; and a main processor for calculating a weight ratio of a metal component of the target ground on the basis of the apparent chargeability measured by the electrode measurement part and calculating a volume ratio of the metal component of the target ground on the basis of the calculated weight ratio of the metal component.

Various implementations directed to a system and method for using a magnetometer in a gyro-while-drilling (GWD) survey tool are provided. In one implementation, a method may include acquiring gyroscopic data using gyroscopic sensors of a GWD survey tool while the tool is disposed at a first position within a wellbore. The method may also include acquiring first magnetic data using a magnetometer of the GWD survey tool while the tool is disposed at the first position. The method may further include determining an offset value for the magnetometer based on the gyroscopic data and the first magnetic data. The method may additionally include acquiring second magnetic data using the magnetometer while the tool is disposed at second positions within the wellbore. The method may also include determining magnetic azimuth values for the tool disposed at the second positions based on the second magnetic data and the offset value.

Presence of water may be detected in internal circuitry of a subsea vehicle by measuring a change in resistance across two terminals to detect the presence of water using a interlock detection system comprising a plurality of voltage sources, connected to a ground, a predetermined set of connectors; an electrical conduit operatively connected to the predetermined set of connectors; an interlock detector comprising an analog circuit and an interlock electrical conduit as well as a first terminal and a second terminal; and a control system. Resistance is measured across the first and second terminals to detect presence of water proximate the first and second terminals, electrical faults, or lack of electrical faults where the measured resistance will equate to a predetermined voltage to be interpreted by the control system. A change in resistance measured across the first and second terminals aids in detection of the presence of water proximate the first and second terminals where the measured change in resistance may be used to detect a change in a state of the end device and the detected change used to effect controlling power to the end device.

Presence of water may be detected in internal circuitry of a subsea vehicle by measuring a change in resistance across two terminals to detect the presence of water using a interlock detection system comprising a plurality of voltage sources, connected to a ground, a predetermined set of connectors; an electrical conduit operatively connected to the predetermined set of connectors; an interlock detector comprising an analog circuit and an interlock electrical conduit as well as a first terminal and a second terminal; and a control system. Resistance is measured across the first and second terminals to detect presence of water proximate the first and second terminals, electrical faults, or lack of electrical faults where the measured resistance will equate to a predetermined voltage to be interpreted by the control system. A change in resistance measured across the first and second terminals aids in detection of the presence of water proximate the first and second terminals where the measured change in resistance may be used to detect a change in a state of the end device and the detected change used to effect controlling power to the end device.

Disclosed herein are systems and devices which are capable of detecting moisture and remotely indicating when the presence of moisture is detected. The systems utilize multilayer sensors that consist of two conductive layers surrounding an insulating, spacer layer. Nonwoven materials with conductive additives have shown particular advantages for use in constructing the conductive sensor layers. The system includes transmitter and receiver devices configured to provide indicators when moisture is detected through audible signals, vibration, visible signals or through notifications displayed on a software application. The conductive layers can also be placed in signal communication with a human body to draw electrical current to ground. Removing current results in the reduction of pain, improved sleep, and other physiological changes of clinical significance.

Disclosed herein are systems and devices which are capable of detecting moisture and remotely indicating when the presence of moisture is detected. The systems utilize multilayer sensors that consist of two conductive layers surrounding an insulating, spacer layer. Nonwoven materials with conductive additives have shown particular advantages for use in constructing the conductive sensor layers. The system includes transmitter and receiver devices configured to provide indicators when moisture is detected through audible signals, vibration, visible signals or through notifications displayed on a software application. The conductive layers can also be placed in signal communication with a human body to draw electrical current to ground. Removing current results in the reduction of pain, improved sleep, and other physiological changes of clinical significance.

A system for imaging material, typically in an underground scenario, comprising of a plurality of conductive electrodes supported on a conductive substrate positionable in an environment to be imaged, a signal generator connected to at least two of the electrodes, and a signal detector connected to at least two of the electrodes, and wherein an impedance compensator is arranged between each electrode and its substrate to counter parasitic impedance between the two. Typically the impedance compensator may be arranged to act as a negative capacitance, which may be approximately equal to any capacitance between the electrode and the substrate. An electrode may be a drive electrode coupled to a signal generator, or a detector electrode coupled to a detector, or may be reconfigurable to act as either one.

An electromagnetic measurement tool for making multi-frequency, full tensor, complex, electromagnetic measurements includes a triaxial transmitter and a triaxial receiver deployed on a tubular member. An electronic module is configured to obtain electromagnetic measurements at four or more distinct frequencies. The measurement tool may be used for various applications including obtaining a resistivity of sand layers in an alternating shale-sand formation; computing a dielectric permittivity, a conductivity anisotropy, and/or a permittivity anisotropy of a formation sample; and/or identifying formation mineralization including discriminating between pyrite and graphite inclusions and/or computing weight percent graphite and/or pyrite in the formation sample.