It is important to trap and identify mosquitos to ensure the safety of the population where mosquitos gather. The classification of a type of mosquito is typically accomplished by a unique wingbeat signature that is characteristic of different types of mosquitos. One of the goals of the trap is to quickly identify the mosquito and then quickly release the mosquito. This application will allow the user to obtain an approximate population so that the appropriate type and amount of insecticide can be applied to control the population to insure the health of the human and animal population while at the same time minimizing danger to the environment or surrounding ecosystem.

A system may include a trap and a consumable. The trap may include a data capture mechanism configured to capture data and send the data to a system operator. The consumable may include a device having an associated electronic identification code. A status-determining mechanism may be configured to determine a status of the consumable, which status may be readable via the data capture mechanism. The consumable may include a sensor configured to detect flying insects via mutual capacitance sensing. The sensor may be configured to provide a directional fringe field responsive to a flying insect. The sensor may include a plurality of sensor triplets arranged in a grid array. Each sensor triplet may include a sensor conductor and two electrically conductive un-grounded conductors. The two un-grounded conductors may be disposed one on either side of the sensor conductor to form the sensor triplet.

An insect trap includes a base and a lid, the base having an inner cavity configured to receive a refillable container that can be filled with an insect attractant. The lid may have a plurality of openings that allow access to the inner cavity, for insects to enter through. Each of the plurality of openings may have a chamfered surface to facilitate a landing space for insects. The plurality of openings have a first opening and a second opening that opens into the inner cavity of the base, housing an insect attractant.

One example system for insect detection includes a block of material defining a transit opening and a sensing opening, the transit opening defined along a first axis in a first direction, and the sensing opening defined to provide a light path to traverse a cross-section of the transit opening; a light emitter positioned at a first end of the sensing opening and oriented to project light through the sensing opening and across the transit opening; and a plurality of light detectors positioned at a second end of the sensing opening and oriented to receive the projected light and to output detector signals based on an amount of detected light.

A wasp catching device installed on a beehive according to an embodiment of the present invention includes a capture chamber installed above the bee entrance of the beehive, formed of a mesh through which light is transmitted or a transparent or translucent material, and configured to capture wasps, and a capture chamber entrance located in the lower portion of the capture chamber, and formed to attract wasps by light entering the inside of the capture chamber. A flight space for the free flight of wasps and bees is provided below the capture chamber entrance by spacing the capture chamber apart from the ground by a predetermined distance. The wasp catching device allows wasps having the habit of flying upward to fly upward and be attracted to the capture chamber entrance by means of light emitted from the inside of the capture chamber while flying in the flight space.

A wasp catching device installed on a beehive according to an embodiment of the present invention includes a capture chamber installed above the bee entrance of the beehive, formed of a mesh through which light is transmitted or a transparent or translucent material, and configured to capture wasps, and a capture chamber entrance located in the lower portion of the capture chamber, and formed to attract wasps by light entering the inside of the capture chamber. A flight space for the free flight of wasps and bees is provided below the capture chamber entrance by spacing the capture chamber apart from the ground by a predetermined distance. The wasp catching device allows wasps having the habit of flying upward to fly upward and be attracted to the capture chamber entrance by means of light emitted from the inside of the capture chamber while flying in the flight space.

An insect monitoring device and method of monitoring insects having a body with a slide out tray assembly. The tray assembly has a replaceable sheet assembly with an exposed adhesive surface. The tray assembly has an aperture through which insects may pass to encounter the adhesive surface. Spaced from the adhesive surface is a heating element to warm the interior of the monitoring device. A sheet assembly has a reflective side to reflect heat back onto the adhesive surface and an insulating side to increase efficiency. A sensor array images the adhesive surface and transmits images to a remote computer. Other sensors may also be present on the sensor array.

A pest control device comprising a capacitive sensor array including a plurality of sensor pads, the capacitive sensor array being configured to generate an electrical output signal indicating the state of each sensor pad, and an electronic controller electrically connected to the capacitive sensor array, the electronic controller including a processor and a memory including a plurality of instructions, which, when executed by the processor, causes the processor to: receive the electrical output signals from the capacitive sensor array, determine a measured capacitance value for each sensor pad based on each electrical output signal, calculate a baseline for each sensor pad based on the measured capacitance value of the sensor pad, determine whether a difference between the measured capacitance value of at least one sensor pad and its corresponding baseline exceeds a first predetermined threshold, update a counter when the first predetermined threshold is exceeded, and record an event indicative of a presence of a pest when the counter exceeds a predetermined limit.

The disclosure relates to the detection of arthropods (beneficial insects and/or pests) in a region in which plants grow via a camera.

Insect trap comprising a container divided into at least two internal cavities where the first cavity houses a first solid or semi-solid bait with a toxic substance and the second cavity houses a second much more volatile bait comprising an attractant and volatile substance impregnated in a holder where both baits act in a coordinated manner, since the more volatile substance disperses the attractant substance such as water vapor, causing the insects to enter the trap and easily access the first bait.