An oral measurement apparatus that extends in a longitudinal direction and includes a sensor, a processor, and a temperature information obtaining section. The sensor is disposed at a first end of the oral measurement apparatus in the longitudinal direction and obtains analog information inside a mouth. The processor is disposed closer to the sensor with respect to a central portion of the oral measurement apparatus in the longitudinal direction. The processor converts the analog information obtained by the sensor into digital information and outputs the digital information as a processing result. The temperature information obtaining section obtains temperature information indicating a temperature of the processor and outputs the temperature information.

A method of controlling a dryer stand, which includes a receptacle on which a dryer for discharging drying air is mounted and which is rotatable in a horizontal direction, and an air purification unit, are provided. The method includes detecting the dryer mounted on the receptacle, charging a battery provided in the dryer when the dryer mounted on the receptacle is detected, determining whether a predetermined condition for air purification operation is satisfied, and operating the air purification unit when it is determined that the predetermined condition for air purification operation is satisfied, whereby it is possible to purify indoor air. A method of controlling the dryer while it is not on the stand is also provided.

Provided is method of detecting presence or absence of a liquid suctioned by a syringe pump. The method includes, in a following order: a step of detecting a change in electrostatic capacitance between a pair of electrodes provided to a syringe, having a tubular shape in which a piston is moved in an axial direction of the syringe, of a syringe pump; and a step of detecting that liquid suction has been performed by the syringe pump based on the change in the electrostatic capacitance.

A capacitive relative humidity sensor includes a first electrode and a second electrode, where at least the one of the electrodes is a water-permeable electrode. The electrodes act in conjunction with a water-sensitive hygroscopic dielectric material. The design enables low-cost and simple fabrication of fast-responding and stable relative humidity sensors using digital fabrication techniques.

An oral measurement apparatus that extends in a longitudinal direction and includes a sensor, a processor, and a temperature information obtaining section. The sensor is disposed at a first end of the oral measurement apparatus in the longitudinal direction and obtains analog information inside a mouth. The processor is disposed closer to the sensor with respect to a central portion of the oral measurement apparatus in the longitudinal direction. The processor converts the analog information obtained by the sensor into digital information and outputs the digital information as a processing result. The temperature information obtaining section obtains temperature information indicating a temperature of the processor and outputs the temperature information.

An insulated pipe includes an elongated tube having a first end, a second end, and a sidewall extending therebetween, including an inner surface and an outer surface. The insulated pipe also includes an insulating member covering a portion of the outer surface of the sidewall and a planar moisture sensor. The planar moisture sensor is positioned in the insulating member or between the insulating member and the outer surface of the tube sidewall. The planar moisture sensor includes: a first electrode having a flat conductive member having an inner surface and an outer surface; a second electrode spaced apart from the first electrode having a flat conductive member having an inner surface and an outer surface, and a dielectric layer. The dielectric layer includes an absorbent dielectric polymer material positioned between and in electrical contact with the inner surfaces of the first electrode and the second electrode.

A method of determining wettability may include: measuring an electrical property of a drilling fluid; and correlating the electrical property to wettability.

An insulated pipe includes an elongated tube having a first end, a second end, and a sidewall extending therebetween, including an inner surface and an outer surface. The insulated pipe also includes an insulating member covering a portion of the outer surface of the sidewall and a planar moisture sensor. The planar moisture sensor is positioned in the insulating member or between the insulating member and the outer surface of the tube sidewall. The planar moisture sensor includes: a first electrode having a flat conductive member having an inner surface and an outer surface; a second electrode spaced apart from the first electrode having a flat conductive member having an inner surface and an outer surface, and a dielectric layer. The dielectric layer includes an absorbent dielectric polymer material positioned between and in electrical contact with the inner surfaces of the first electrode and the second electrode.

A humidity detector includes a humidity sensor; a voltage dividing resistance that converts a current analog signal of the humidity sensor to a voltage analog signal indicating a voltage value corresponding to a resistance value of the humidity sensor; a switcher that alternately applies first voltage and second voltage to the humidity sensor, the first voltage causing current to flow in a first direction, the second voltage causing current to flow in a second direction different from the first direction through the voltage dividing resistance; and an ASIC having a first detection mode for determining humidity in accordance with a first voltage value detected while the first voltage is being applied and a second detection mode for determining humidity in accordance with a second voltage value detected while the second voltage is being applied.

Sensor accuracy issues may arise when a humidity sensor is kept in a high humidity environment for an extended period of time. In these circumstances, a humidity sensor reading may tend to may become less accurate over time. To improve the accuracy of sensor readings, methods and systems described herein estimate and correct for sensor drift in high humidity conditions. Methods and systems described herein may use memory to store past humidity or other sensor readings so that an estimated amount of sensor drift may be determined to improve the accuracy of sensor readings. A memory may be embedded in a sensor module so that past readings for a given sensor module are stored in the memory of the sensor module. Algorithms for sensor drift compensation, and systems and methods that use such algorithms to improve the accuracy of sensor readings, are disclosed herein.