A sensing system and method is provided for crop material in a harvester. The sensing system includes a conveyor auger device oriented in a substantially vertical direction and having an entrance aperture, an exit aperture located upwardly above a radially oriented sensing aperture disposed therebetween. The conveyor auger device includes a conveyor auger having a flight for moving crop material upwardly, wherein the flight has a reduced radial extension adjacent the sensing aperture. A sensor disposed at or adjacent the sensing aperture senses the essentially continuously upwardly moving crop material for determining a property thereof.

A method for calculating the humidity level in a cooking apparatus is disclosed. The method includes heating a food load in a cooking cavity of the cooking apparatus and selectively activating a convection fan in the cooking cavity. The method further includes monitoring a humidity signal detected by a humidity sensing apparatus in response to the activation of the convection fan. As a result of the activation of the convection fan, the method may determine an actual humidity level from a plurality of humidity levels based on a change in the humidity signal.

A moisture detector includes a sensor chip and a moisture determining unit. The sensor chip includes a humidity detector having a detection surface on which to measure humidity, and also includes a heater heating the detection surface, and the moisture determining unit is configured to, after causing the heater to start heating, determine whether moisture is present on the detection surface based on a difference in changes in the humidity measured by the humidity detector.

The present disclosure provides systems and methods for monitoring an environment of a front opening universal pod (FOUP). The systems and methods may include one or more environmental sensors disposed within the FOUP, configured to measure environmental parameters of the environment of the FOUP and a FOUP configured to hold one or more wafers. The systems and methods may also include a wireless transmitter in communication with the environmental sensor, which may be disposed within the FOUP and configured to transmit the measured environmental parameters from the environmental sensor.

The present disclosure provides systems and methods for monitoring an environment of a front opening universal pod (FOUP). The systems and methods may include one or more environmental sensors disposed within the FOUP, configured to measure environmental parameters of the environment of the FOUP and a FOUP configured to hold one or more wafers. The systems and methods may also include a wireless transmitter in communication with the environmental sensor, which may be disposed within the FOUP and configured to transmit the measured environmental parameters from the environmental sensor.

Methods and systems suitable for producing agricultural prescriptions and/or measuring or monitoring parameters that are used in the production of the prescriptions. According to one aspect, such a method includes obtaining and recording a series of aerial thermal images of a field over a period of time, and analyzing the series of aerial thermal images to determine nutrient mineralization rates for the field.

Methods and systems suitable for producing agricultural prescriptions and/or measuring or monitoring parameters that are used in the production of the prescriptions. According to one aspect, such a method includes obtaining and recording a series of aerial thermal images of a field over a period of time, and analyzing the series of aerial thermal images to determine nutrient mineralization rates for the field.

A method of measuring a quantity of moisture in an electrode includes at least three steps as follows: disposing an electrode, which is a measurement target sample, inside a container provided with a gas introduction pipe and a gas discharge pipe; heating the electrode by supplying inert gas heated to a predetermined temperature in advance to the inside of the container through the gas introduction pipe, and vaporizing moisture adsorbed to the electrode; and collecting the moisture vaporized from the electrode, together with the inert gas through the gas discharge pipe and determining the quantity of the collected moisture. In addition, a moisture quantity measuring apparatus includes a container that has a gas introduction pipe and a gas discharge pipe, a heating unit, and a moisture quantity measuring unit that collects moisture vaporized from a sample, through the gas discharge pipe and determines the quantity of collected moisture.

A method of measuring a quantity of moisture in an electrode includes at least three steps as follows: disposing an electrode, which is a measurement target sample, inside a container provided with a gas introduction pipe and a gas discharge pipe; heating the electrode by supplying inert gas heated to a predetermined temperature in advance to the inside of the container through the gas introduction pipe, and vaporizing moisture adsorbed to the electrode; and collecting the moisture vaporized from the electrode, together with the inert gas through the gas discharge pipe and determining the quantity of the collected moisture. In addition, a moisture quantity measuring apparatus includes a container that has a gas introduction pipe and a gas discharge pipe, a heating unit, and a moisture quantity measuring unit that collects moisture vaporized from a sample, through the gas discharge pipe and determines the quantity of collected moisture.

A gas sensor (1) including a first gas detection element (2) and a second gas detection element (3), a first storage portion (4) having a first internal space (4A), and a first opening (4B) establishing communication between the first internal space (4A) and the outside space thereof exposed to a detection subject atmosphere, a second storage portion (5) having a second internal space (5A) and a second opening (5B) establishing communication between the second internal space (5A) and the outside space, a first membrane (4C) allowing permeation of water vapor and substantially not allowing permeation of a detection target gas, and covering the first opening (4B), and a calculation unit (12) for calculating the concentration of a detection target gas contained in the detection subject atmosphere, based on outputs from the first and second gas detection elements (2, 3), respectively.