A cockroach monitor includes a monitoring chamber with one or more openings to allow cockroaches to enter. A light is emitted from a light emitter into the monitoring chamber and received by a photoelectric transducer for detecting cockroaches by analyzing the received light for obstruction in the path of the light. In various embodiments, a board having a sticky surface can be attached to a ceiling of the monitoring chamber to capture cockroaches by their backs. In various embodiment, the light emitter and the photoelectric transducer are arranged in the cockroach monitor for the photoelectric transducer to receive the emitted light directly form the light emitter (without reflection) or to receive the emitted light as reflected from a surface.

A system and method for processing and analyzing a photographic image of a board having a sticky surface of an insect traps allows for remote monitoring of deployed insect traps to maintain effectiveness of the insect traps while eliminating the need for frequent manual inspections. The processing and analyzing can include converting the photographic image to a grayscale image and determining a concentration of insects on the board and can be performed using edge computing.

A mite propagation inhibiting sheet has a sheet layer, an adhesive layer, and an unwoven fabric layer wherein mites are allowed to invade from a surface of the unwoven fabric layer to which an adhesive is not adhered, thereby forming a colony and the mites are trapped by an adhesive of the adhesive layer when the mites invade deep in the unwoven fabric layer by instinct, and further, a method of manufacturing a mite propagation inhibiting sheet, and a method of inhibiting the propagation of mites.

A mite propagation inhibiting sheet has a sheet layer, an adhesive layer, and an unwoven fabric layer wherein mites are allowed to invade from a surface of the unwoven fabric layer to which an adhesive is not adhered, thereby forming a colony and the mites are trapped by an adhesive of the adhesive layer when the mites invade deep in the unwoven fabric layer by instinct, and further, a method of manufacturing a mite propagation inhibiting sheet, and a method of inhibiting the propagation of mites.

A container is combined with a base having insect combating features, i.e. for trapping and/or poisoning of insects, preferably but not necessarily combined with insect attracting elements. In particular, the container may be a waste basket, and the targeted insects may be bed bugs, and/or roaches, and/or ants. The assembly has a container portion and a base portion. The interior of the base portion is accessible by insects via one or more small gaps or openings, and contains the trapping and/or poisoning elements, which may include a replaceable glue strip or the like. Preferably, the assembly is also be provided with insect attracting means, which may include chemical attractants, carbon dioxide generation, and/or heat. In some embodiments, separate areas may be provided to combat different insects.

A container is combined with a base having insect combating features, i.e. for trapping and/or poisoning of insects, preferably but not necessarily combined with insect attracting elements. In particular, the container may be a waste basket, and the targeted insects may be bed bugs, and/or roaches, and/or ants. The assembly has a container portion and a base portion. The interior of the base portion is accessible by insects via one or more small gaps or openings, and contains the trapping and/or poisoning elements, which may include a replaceable glue strip or the like. Preferably, the assembly is also be provided with insect attracting means, which may include chemical attractants, carbon dioxide generation, and/or heat. In some embodiments, separate areas may be provided to combat different insects.

In an embodiment, as insect trap is disclosed including: a trap portion including an enclosure having an adhesive surface and a first opening, wherein the adhesive surface is at least partially contained within the enclosure and is configured to adhere to an insect; and a base portion including a lighting element and a mounting portion, wherein the lighting element is configured to provide light to the trap portion, and wherein the mounting portion is configured to communicate with and receive power from a power source; and a first heating element in communication with the power source, wherein the trap portion is configured to removably engage with the base portion and receive light from the base portion when engaged therewith, and wherein the first heating element provides heat to at least a portion of the trap when the trap is engaged.

A device for pollinating plants such as flowering trees. The device is a movable platform such as a drone that has an image capturing device that is in communication with image recognition software. Images of plants are analyzed to detect objects that are consistent with pollen-receiving plants and/or plant areas. Once such plant object is detected, the device automatically disperses pollen in the proximity of the detected plant or plant object.

A device for pollinating plants such as flowering trees. The device is a movable platform such as a drone that has an image capturing device that is in communication with image recognition software. Images of plants are analyzed to detect objects that are consistent with pollen-receiving plants and/or plant areas. Once such plant object is detected, the device automatically disperses pollen in the proximity of the detected plant or plant object.

An arthropod trapping device having a housing including a base and a shade coupled to the base. The base includes a convex outward-facing wall and an opposing rear-facing wall, electrically conductive prongs, a circuit board, and a first and second LED electrically connected to the circuit board. The shade includes an outward-facing surface and a LED-facing surface. A first end region of the shade is adjacent to the outward-facing wall of the base such that the first end region of the shade overlaps at least a portion of the outward-facing wall of the base. The LED-facing surface that overlaps the base is spaced apart from the outward-facing wall of the base such that an opening is defined between the LED-facing surface of the shade and the outward-facing wall of the base. The opening extends from a first side edge of the base to a second side edge of the base.