The present invention relates to a pest trap device in a cereal storage environment including a long hollow body having a medial portion having a plurality of openings and a lower portion. The medial portion and the lower portion are connected by a non-return opening system. The pest trap device includes an on-board electronic module having at least one sensor configured to generate at least one risk data item containing at least one item of representative information of an infestation risk in the trapping zone. Wireless transmission means are configured to transmit the at least one risk data item to an offset electronic entity.

A device for controlling at least one insect bait station (100), in particular for insects harmful to humans, animals and plants, in which the bait station is provided with: at least one container (3, 5) provided with an insect entrance opening, the container containing bait and being at least partially transparent or translucent, a lighting device (10) lighting the inside of the container but located outside same, a telecommunication module (23, 25) and a printed circuit comprising, inter alia, a memory and a processor connected to said telecommunication means. The device comprises an optical sensor essentially opposite the lighting device, and connected to the printed circuit (12), which measures the general opacity caused by the insect(s) in the container, the corresponding value being transmitted for processing and analysis of the status of the bait station.

Pitfall traps, coasters, devices, apparatus, systems and methods for capturing crawling insects, such as bed bugs, and/or for preventing the insects from climbing up furniture legs to furniture such as beds, cots, chairs and any type of furniture where a person would rest or sleep. Smooth slick surfaces and/or pesticide treated surfaces can be located on underside facing horizontal or angled surfaces used with or without sticky surfaces which all can be used to prevent insect and bed bug travel and assist in helping trap the insects and bed bugs.

A discrete and safe automated insect monitoring system includes a housing, an interior chamber within the housing, and a light source arranged within the housing to illuminate at least a portion of a floor surface of the interior chamber. A multi-pixel optical sensor is arranged within the housing so that a field of view of the sensor comprehends a substantial portion of the floor surface. A processing circuit arranged within the housing receives optical data from the multi-pixel optical sensor, analyzes the optical data to detect the intrusion of an insect or other object into the interior chamber by comparing most recently received optical data to previously received optical data, and generates an indication in response to detecting the intrusion of an insect or other object. Detection and/or classification results can be wirelessly forwarded to another device, to alert appropriate personnel.

A monitoring trap and classification system may help pest control professionals, landlords, and homeowners identify, monitor, and manage insects. The trap may have an adhesive area that traps an insect, as well as several features that assist in identifying the insect. A classification system may use a picture or image of the trap to extract the trap's identifier, orient and adjust the image to standardize the image's color and scale, and have the insect identified. The trap and classification system may be used by individual homeowners, tenants, landlords, farmers, and pest professionals to capture, identify, and manage insects. The classification system may reduce the complexity of counting and classifying trapped insects, and it may generate a history through a series of reminders and keeping a database of previous observations.

A discrete and safe automated insect monitoring system includes a housing, an interior chamber within the housing, and a light source arranged within the housing to illuminate at least a portion of a floor surface of the interior chamber. A multi-pixel optical sensor is arranged within the housing so that a field of view of the sensor comprehends a substantial portion of the floor surface. A processing circuit arranged within the housing receives optical data from the multi-pixel optical sensor, analyzes the optical data to detect the intrusion of an insect or other object into the interior chamber by comparing most recently received optical data to previously received optical data, and generates an indication in response to detecting the intrusion of an insect or other object. Detection and/or classification results can be wirelessly forwarded to another device, to alert appropriate personnel.

A bug trap apparatus suited for trapping and killing lanternflies is presented. More specifically, the present invention traps and kills lanternflies, specifically emplacing the present invention in nesting areas, feeding areas, or any other areas where lanternflies congregate. The bug trap apparatus comprises an enclosure, a mounting frame, and at least one capturing element. The at least one capturing element each comprises a trap body, a trap entrance, and a trap reservoir. The at least one capturing element is distributed about the mounting frame. The mounting frame is positioned within the enclosure. The trap entrance and the trap base are positioned terminally opposite to each other along the trap body. The trap reservoir is positioned within the trap body. The trap entrance traverses within the trap reservoir.

A crawling insect detection and protection system includes a curved member for attachment to a surface. The curved member has a coarse textured outer surface and a smooth interior surface, the interior surface includes a grooved upper lip located at a top portion of the curved member and a smooth lower lip located at a bottom portion of the curved member. The width of the grooved upper lip is recessed from the bottom lip to allow a crawling insect to fall into the lower lip portion. The system includes an attachment means which may be an adhesive fastener and/or a mechanical fastener for affixing a mounting surface of the flexible curved member to an attachment surface.

A trap for certain insect pests may be configured to be particularly suitable for bedbugs and take the form of a foldable pitfall bedbug trap. The pitfall trap walls extend vertically upwardly at an angle and are sufficiently rough to permit bedbugs to climb to an upper edge of the trap, whereas the inner surfaces of the pitfall trap walls have been treated with a smooth material, such as being laminated, causing bedbugs at the upper edge to fall upon initiating contact with the inner pitfall walls and their smooth characteristics. The resultant foldable pitfall bedbug trap is relatively inexpensive to produce and easily user-deployable.

An insect capture device is used to monitor, capture, and/or kill insects. The device has a raised portion to create a gap between a surface and the device to entice insects to pass under. At the raised portion, a glue board includes an adhesive facing the surface. As the insect passes under the raised portion, the insect can unknowingly become attached to the adhesive portion and stuck thereto. To aid in installing the glue board, one or more sections of the glue board can be free of adhesive to connect or fit to a part of the device to hold the glue board in place, while also allowing for easy removal to replace the glue board with a new one, free of captured insects.