Abstract: Systems, methods, and sensor devices for fluid conduit inspection using passive magnetometry are provided. A method of inspecting a fluid conduit using passive magnetometry includes collecting magnetic flux data from inside the fluid conduit without actively magnetizing the fluid conduit, the magnetic flux data representing a residual magnetization of the fluid conduit, and identifying a conduit condition for the fluid conduit using the magnetic flux data. A computer system includes a memory for storing magnetic flux data collected from inside the fluid conduit without active magnetization of the fluid conduit, the magnetic flux data representing a residual magnetization of the fluid conduit; and a processor in communication with the memory and configured to generate an electronic representation of a conduit condition for the fluid conduit based on the magnetic flux data, wherein the electronic representation is stored in the memory.

Abstract: Provided is a device, method, and inspection system for collecting data in a fluid conduit. The inspection system includes a pig, wherein the pig is defined by at least a front end and a read end, the rear end being distally opposed to the front end along a longitudinal axis, a mount assembly secured to the rear end of the pig; and at least one sensor device removably coupled to the mount assembly.

Abstract: Systems, methods, and devices for fluid conduit inspection using absolute velocity of a sensor device are provided. The method includes: receiving sensor data collected by a sensor device during a measurement run from an interior of the fluid conduit while traveling along a length of the fluid conduit, the sensor device including a first magnetometer and a second magnetometer each having a fixed position in the sensor device, the fixed positions defining a separation distance between the first magnetometer and second magnetometer, the sensor data including magnetic flux data comprising first magnetic flux data collected by the first magnetometer and second magnetic flux data collected by the second magnetometer; determining a time delay between when a magnetic signal is present in the first magnetic flux data and when the magnetic signal is present in the second magnetic flux data; determining an absolute velocity of the sensor device.

Abstract: Provided is a method, system, and sensor device for identifying and detecting presence of a leak in a fluid conduit. The sensor device freely flows with a fluid within the fluid conduit. The sensor device includes an outer capsule that is free flowing within the fluid and provides fluid-tight containment to an interior compartment, at least one acoustic sensor mounted within the interior compartment, wherein the at least one acoustic sensor senses acoustic properties of the fluid to detect the presence of the leak, and a conductor for activating the at least one acoustic sensor to sense the acoustic properties of the fluid and the fluid conduit, wherein the conductor passes from the interior compartment and through to the outer capsule.

Abstract: Provided is a method, system, and sensor device for identifying and detecting presence of a leak in a fluid conduit. The sensor device freely flows with a fluid within the fluid conduit. The sensor device includes an outer capsule that is free flowing within the fluid and provides fluid-tight containment to an interior compartment, at least one acoustic sensor mounted within the interior compartment, wherein the at least one acoustic sensor senses acoustic properties of the fluid to detect the presence of the leak, and a conductor for activating the at least one acoustic sensor to sense the acoustic properties of the fluid and the fluid conduit, wherein the conductor passes from the interior compartment and through to the outer capsule.

Abstract: Systems, methods, and sensor devices for fluid conduit inspection using passive magnetometry are provided. A method of inspecting a fluid conduit using passive magnetometry includes collecting magnetic flux data from inside the fluid conduit without actively magnetizing the fluid conduit, the magnetic flux data representing a residual magnetization of the fluid conduit, and identifying a conduit condition for the fluid conduit using the magnetic flux data. A computer system includes a memory for storing magnetic flux data collected from inside the fluid conduit without active magnetization of the fluid conduit, the magnetic flux data representing a residual magnetization of the fluid conduit; and a processor in communication with the memory and configured to generate an electronic representation of a conduit condition for the fluid conduit based on the magnetic flux data, wherein the electronic representation is stored in the memory.

Abstract: There is provided a sensor device for measuring fluid and fluid conduit properties, and a method for activating the sensor device. The sensor device comprises an outer capsule for providing fluid-tight containment to an interior compartment of the sensor device in a closed position. The outer capsule comprises a first capsule portion and a second capsule portion. An aperture is located in the second capsule portion and fluidly connects the inner compartment to an exterior of the outer capsule. A mounting bracket is disposed within the inner compartment, the mounting bracket connects the first capsule portion to the second capsule portion and provides structural integrity and pressure resistivity for the outer capsule. At least one pressure sensor is constrained between the mounting bracket and an inner surface of the second capsule portion and is aligned with the aperture of the second capsule portion.

Abstract: There is provided a sensor device for measuring fluid and fluid conduit properties, and a method for activating the sensor device. The sensor device comprises an outer capsule for providing fluid-tight containment to an interior compartment of the sensor device in a closed position. The outer capsule comprises a first capsule portion and a second capsule portion. An aperture is located in the second capsule portion and fluidly connects the inner compartment to an exterior of the outer capsule. A mounting bracket is disposed within the inner compartment, the mounting bracket connects the first capsule portion to the second capsule portion and provides structural integrity and pressure resistivity for the outer capsule. At least one pressure sensor is constrained between the mounting bracket and an inner surface of the second capsule portion and is aligned with the aperture of the second capsule portion.

Abstract: Provided is a method, system, and sensor device for collecting fluid data and fluid conduit data. The sensor device includes an outer capsule that is free flowing within the fluid and provides fluid-tight containment to an interior compartment, at least one sensor mounted within the interior compartment, wherein the at least one sensor senses fluid data and fluid conduit data, the sensed fluid properties being the collected fluid data, and a conductor for activating the at least one sensor to sense fluid data and fluid conduit data, wherein the conductor passes from the interior compartment and through the outer capsule.

Abstract: Provided is a device, method, and inspection system for collecting data in a fluid conduit. The inspection system includes a pig, wherein the pig is defined by at least a front end and a read end, the rear end being distally opposed to the front end along a longitudinal axis, a mount assembly secured to the rear end of the pig; and at least one sensor device removably coupled to the mount assembly.

Abstract: Provided is a method, system, and sensor device for collecting fluid data and fluid conduit data. The sensor device includes an outer capsule that is free flowing within the fluid and provides fluid-tight containment to an interior compartment, at least one sensor mounted within the interior compartment, wherein the at least one sensor senses fluid data and fluid conduit data, the sensed fluid properties being the collected fluid data, and a conductor for activating the at least one sensor to sense fluid data and fluid conduit data, wherein the conductor passes from the interior compartment and through the outer capsule.

Abstract: Provided is a method, system, and sensor device for identifying and detecting presence of a leak in a fluid conduit. The sensor device freely flows with a fluid within the fluid conduit. The sensor device includes an outer capsule that is free flowing within the fluid and provides fluid-tight containment to an interior compartment, at least one acoustic sensor mounted within the interior compartment, wherein the at least one acoustic sensor senses acoustic properties of the fluid to detect the presence of the leak, and a conductor for activating the at least one acoustic sensor to sense the acoustic properties of the fluid and the fluid conduit, wherein the conductor passes from the interior compartment and through to the outer capsule.

Abstract: The invention provides a sensor system, mote and a motes-system. The sensor system is configured for being contained in a container having a maximum outer dimension less than 10 millimeter and for sensing at least one environmental parameter (T, P, pH, ?). The sensor system includes at least one sensor configured for measuring the at least one environmental parameter and for generating a sensed value (xT, xP). The sensor system includes a storage element and a timer in which the at least one sensor is configured to measuring the at least one environmental parameter at each time triggers (t1, t2, . . . ) from the timer and for storing a sensed value (xT, xP). The sensor system further includes an energy storage comprising a chargeable capacitor being chargeable via electro-magnetic radiation of a predefined frequency, and wherein the sensor system is configured to initiate a sequence of sensed values when the energy storage is charged or is being charged.

Abstract: Some embodiments provide a first mote and a system of motes for detecting a spatially configuration without the need for an external reference. A first mote is configured for wirelessly receiving a plurality of signal pulses transmitted by a plurality of second motes, each second mote transmitting the signal pulse at one particular modulation frequency from a plurality of frequencies of a frequency band. The first mote includes a receiver for determining from a received signal at least one of the plurality of signal pulses and for identifying the particular modulation frequency of the at least one signal pulse. The first mote further includes a clock for generating a time-stamp at which the signal pulse is received and a storage unit for storing the time-stamp and the corresponding identified particular modulation frequency. The system includes a plurality of first motes and second motes.

Abstract: The invention provides a method of inserting a video mode into a remote environment, a video mote, and a sensor system. The video mote includes a camera for capturing a digital image via a flexible wire to a central computer. The video mote further includes an at least partially transparent container and includes a flexible wire having a length of more than 1 meter being connected to the receiver. The method of inserting the video mote include the steps of lowering the video mote into a pipe to a first position near an opening, and forcing a liquid through the pipe and thereby forcing the video mote through the opening into the remote environment.

Abstract: The invention provides a sensor system, mote and a motes-system. The sensor system is configured for being contained in a container having a maximum outer dimension less than 10 millimeter and for sensing at least one environmental parameter (T, P, pH, ?). The sensor system includes at least one sensor configured for measuring the at least one environmental parameter and for generating a sensed value (xT, xP). The sensor system includes a storage element and a timer in which the at least one sensor is configured to measuring the at least one environmental parameter at each time triggers (t1, t2, . . . ) from the timer and for storing a sensed value (xT, xP). The sensor system further includes an energy storage comprising a chargeable capacitor being chargeable via electro-magnetic radiation of a predefined frequency, and wherein the sensor system is configured to initiate a sequence of sensed values when the energy storage is charged or is being charged.

Abstract: Some embodiments provide a first mote and a system of motes for detecting a spatially configuration without the need for an external reference. A first mote is configured for wirelessly receiving a plurality of signal pulses transmitted by a plurality of second motes, each second mote transmitting the signal pulse at one particular modulation frequency from a plurality of frequencies of a frequency band. The first mote includes a receiver for determining from a received signal at least one of the plurality of signal pulses and for identifying the particular modulation frequency of the at least one signal pulse. The first mote further includes a clock for generating a time-stamp at which the signal pulse is received and a storage unit for storing the time-stamp and the corresponding identified particular modulation frequency. The system includes a plurality of first motes and second motes.

Abstract: Method and processor (12) for: a. setting up a telecommunication link between various communication appliances (1, 2, 3, 7, 8, 9); b. setting up a monitoring link (13) between the telecommunication link and the processor (12); c. the storage in enciphered form of a first identity of either a first user of a first communication appliance (1, 2, 3) or of the first communication appliance (1, 2, 3) and a second identity of either a second user of a second communication appliance (7, 8, 9) or of the second communication appliance (7, 8, 9); d. the storage of the data despatched via the telecommunication link, which data have been enciphered prior to the storage using a symmetrical conversation key; e. the storage of the conversation key enciphered using public keys of the users; f. the signing of the data stored using the symmetrical conversation key and also of the first and second identities stored in enciphered form.