A sensor that that can be, but do not have to be, communicatively coupled with luminaires, includes a sensor module having an electronics board and a battery enclosure. The electronics board includes a sensing component, a controller, and a flex antenna. The battery enclosure is couple with the electronics board and includes a base and a side wall having an outer wall surface. The flex antenna is supported on the outer wall surface such that the flex antenna forms a radially outermost portion of the sensor module, and the flex antenna is conformable to a profile of the outer wall surface. In certain aspects, the sensor module is configured to support a power source on the sensor module. In some cases, the sensor is an indoor sensor.

A sensor that that can be, but do not have to be, communicatively coupled with luminaires, includes a sensor module having an electronics board and a battery enclosure. The electronics board includes a sensing component, a controller, and a flex antenna. The battery enclosure is couple with the electronics board and includes a base and a side wall having an outer wall surface. The flex antenna is supported on the outer wall surface such that the flex antenna forms a radially outermost portion of the sensor module, and the flex antenna is conformable to a profile of the outer wall surface. In certain aspects, the sensor module is configured to support a power source on the sensor module. In some cases, the sensor is an indoor sensor.

The combination of one or more 3-component microseismic sensors deployed into a wellbore adjacent a microseismic event and a linear array of distributed fiber optic acoustic sensors deployed uphole thereof provides two sets of data for establishing noise-free signals for locating the microseismic event in the formation about the wellbore. The distributed fiber optic signals monitor noise transmitted along coiled tubing used to pump a completion operation or as a result of the fluid flowing through the casing or coiled tubing, or along wireline used to deploy the microseismic sensors. The noise is mapped and extrapolated for estimating noise at the 3-component sensors. The estimated noise is removed from the 3-component sensor data for producing clean signals representing the location of the microseismic events.

The combination of one or more 3-component microseismic sensors deployed into a wellbore adjacent a microseismic event and a linear array of distributed fiber optic acoustic sensors deployed uphole thereof provides two sets of data for establishing noise-free signals for locating the microseismic event in the formation about the wellbore. The distributed fiber optic signals monitor noise transmitted along coiled tubing used to pump a completion operation or as a result of the fluid flowing through the casing or coiled tubing, or along wireline used to deploy the microseismic sensors. The noise is mapped and extrapolated for estimating noise at the 3-component sensors. The estimated noise is removed from the 3-component sensor data for producing clean signals representing the location of the microseismic events.

An analytical method that establishes a thermodynamic equilibrium or known dynamic relationship between the concentrations of gases, natural gas liquids and oils or pressures of gasses in an isolated zone of a shale, or group of distinct shale gas intervals, with the concentrations of fluids or pressures of gasses in a wellbore penetrating the shale interval or intervals. An analytical method for identifying the chemical composition of gas, natural gas liquids and oils and determining their origin in an isolated zone of a shale, or group of distinct shale gas intervals with the identification of chemical composition of gas, natural gas liquids and oils in a wellbore penetrating the shale interval or intervals. A surface measurement apparatus capable of performing the measurement ex-situ. A downhole measurement apparatus capable of reliably performing the measurement in-situ and a downhole straddle-packer assembly capable of isolating part of, or an entire shale interval.

A method for determining the presence or absence of disposable pipette tips in pipette tip carriers on the work area of a laboratory workstation. Each of the pipette tip carriers has a support panel with receiving holes into each of which a disposable pipette tip can be inserted. The laboratory workstation for carrying out the method has a robot arm with at least one pipette which is designed to receive and dispose of disposable pipette tips. The laboratory workstation has a digital camera which is arranged on a support device and is operatively connected to an analyzing unit. The work area of the laboratory workstation can be completely imaged in at least one first direction using the digital camera.

A method for determining the presence or absence of disposable pipette tips in pipette tip carriers on the work area of a laboratory workstation. Each of the pipette tip carriers has a support panel with receiving holes into each of which a disposable pipette tip can be inserted. The laboratory workstation for carrying out the method has a robot arm with at least one pipette which is designed to receive and dispose of disposable pipette tips. The laboratory workstation has a digital camera which is arranged on a support device and is operatively connected to an analyzing unit. The work area of the laboratory workstation can be completely imaged in at least one first direction using the digital camera.

Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.

Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.

Provided according to one or more embodiments is a thermostat having a housing, the housing including a forward-facing surface, the thermostat comprising a passive infrared (PIR) motion sensor disposed inside the housing for sensing occupancy in the vicinity of the thermostat. The PIR motion sensor has a radiation receiving surface and is able to detect the lateral movement of an occupant in front of the forward-facing surface of the housing. The thermostat further comprises a grille member having one or more openings and included along the forward-facing surface of the housing, the grille member being placed over the radiation receiving surface of the PIR motion sensor. The grille member is configured and dimensioned to visually conceal and protect the PIR motion sensor disposed inside the housing, the visual concealment promoting a visually pleasing quality of the thermostat, while at the same time permitting the PIR motion sensor to effectively detect the lateral movement of the occupant. In one embodiment, the grille member openings are slit-like openings oriented along a substantially horizontal direction.