An insect trap and a method of using the same. The insect trap includes a housing. The insect trap also includes a glue board receiving space located inside the housing. The insect trap further includes one or more light sources for attracting insects into the housing. The insect trap also includes a camera having a lens. The lens has a front element. The camera is positioned to capture images of a glue board when the glue board is received in the glue board receiving space. There is no line of sight between the or each light source and the front element of the lens. This may prevent light from the or each light source reaching the front element directly. The method can include using an image captured by the camera to determine that a glue board received in the glue board receiving space needs to be replaced.

The present disclosure is directed to a method for applying an agrochemical to an agricultural area of interest based on information generated from a remote sensing survey. A remote sensing survey is performed within or adjacent to the agricultural area of interest wherein the survey generates remotely sensed data. The remotely sensed data can be analyzed and/or interpreted to determine whether to apply an agrochemical based on an insect presence within or adjacent to the agricultural area of interest.

One variation of a method for interpreting pressures in plants includes: accessing a first image of a first set of sentinel plants in a field; accessing a second image of a second set of sentinel plants in the field, recorded during a first period; interpreting a first pressure of a stressor in the first set based on features extracted from the first image, captured during the first period; interpreting a second pressure in the second set based on features extracted from the second image; deriving a model associating pressure at the first set and pressure at the second set based on the first pressure and the second pressure; interpreting a third pressure in the first set based on features extracted from a third image captured during a second period; and predicting a fourth pressure in the second set during the second period based on the third pressure and the model.

One variation of a method for interpreting pressures in plants includes: accessing a first image of a first set of sentinel plants in a field; accessing a second image of a second set of sentinel plants in the field, recorded during a first period; interpreting a first pressure of a stressor in the first set based on features extracted from the first image, captured during the first period; interpreting a second pressure in the second set based on features extracted from the second image; deriving a model associating pressure at the first set and pressure at the second set based on the first pressure and the second pressure; interpreting a third pressure in the first set based on features extracted from a third image captured during a second period; and predicting a fourth pressure in the second set during the second period based on the third pressure and the model.

A pest detection device including a capacitive sensor having a plurality of traces that can be capacitively sensed using self-capacitance or mutual capacitance measurements. The sensor including conductive shield traces to facilitate a number of sensing applications. The sensor including a coated portion to facilitate crawling of pests over the sensing area of the circuit board.

An improved remote insect detector is disclosed. The detector includes a pitfall trap that is adapted to trap a target insect within the pitfall trap. An insect funnel passage is located below the pitfall trap and is dimensioned to retain the target insect in a detecting position. An optical beam detection circuit operates to detect the target insect in the detecting position and operates to generate a detection signal.

A detection apparatus for detecting an object, the detection apparatus includes a housing having an inner surface whose reflectance is equal to or lower than a certain value; an emitter configured to emit infrared rays into the housing; a sensor configured to detect infrared rays; and one or more processors configured to adjust an intensity of reflected infrared rays according to a result of detection by the sensor.

An insect trap analysis system may detect an insect specimen on a trap mechanism of an insect trap. The insect trap analysis system may control, based on detecting the insect specimen on the trap mechanism, one or more mechanical devices to: adjust a position of the insect specimen relative to a position of an image capture device associated with the insect trap, or adjust the position of the image capture device relative to the position of the insect specimen. The insect trap analysis system may cause, while controlling the one or more mechanical devices to adjust the position of the image capture device or the position of the insect specimen, the image capture device to capture a plurality of images of the insect specimen from a plurality of different angles relative to the insect specimen, and may perform an action associated with the plurality of images.

A system for monitoring for presence of insects in non-hollow trees, the system including a structural element configured to be driven into the tree's interior and bearing a vibration sensor; and a processor configured to receive data recorded by the sensor, to detect presence of insects in the tree's interior by analyzing said data, and to generate alerts accordingly.

Minimal-cost, high-accuracy, and portable devices used to detect the presence of insects at all stages of life, including in the egg stage, in stored products by sensing gas phase markers such as volatile pheromones, semiochemicals, and kairomones. The methods, devices, and systems disclosed herein utilize a sensor array configured to simultaneously measure a plurality of target markers and filter background gases while remaining compact, highly accurate, and easy to operate.