Composite materials that are palatable to a wood-destroying pest species and also pesticidal to the pest species can be used in pest control devices and can be used as wood substitutes for structural components, which are resistant to destruction by wood-destroying pests. The composite materials include a thermoplastic polymer, a food material for the pest and a pesticide. The composite material is formed by mixing a thermoplastic polymer, wood fragments or other cellulosic materials and a quantity of pesticide, and thereafter creating a molten material within a mixer, compounder, extruder or the like. The molten material is extruded or molded to form the desired shape.

An insect capturing device having an imaging function for harmful insect information management, according to the present invention, comprises: a collection unit having a collection net so as to collect harmful insects, and having a passage tube, provided on one side of the collection net, through which the collected harmful insects pass; a support unit provided on the other side of the collection unit so as to support the collection unit; a capturing analyzer having an outer filter connected to the collection unit through the passage tube so as to separate moisture from air introduced with the harmful insects, an inner filter connected to the outer filter and maintaining constant temperature and humidity conditions, a capturing tube unit connected to the inner filter and having a count sensor for sensing the harmful insects having passed there through and counting the number of harmful insects, and a gathering unit connected to the capturing tube unit and having a gathering net for enabling the harmful insects suctioned in and moved through the capturing tube unit to be finally filtered; an imaging unit provided at a position aimed at the gathering unit in the capturing tube unit, and photographing harmful insects being moved to the upper part of the gathering net; and a capture unit provided between the imaging unit and the gathering net such that the imaging unit obtains images of the harmful insects suctioned in and moved through the capturing tube unit, and enabling the harmful insects to be temporarily filtered before being filtered in the gathering net. Therefore, it is possible to provide an insect capturing device having an imaging function for harmful insect information management, the device simply classifying and analyzing harmful insects according to the occurrence frequency and types of the harmful insects by easily obtaining, in real time, without an expensive high speed camera, images of harmful insects collected in the insect capturing device for collecting harmful insects such as flies or mosquitoes.

Techniques for remote detection of insect infestation are described. In a first aspect, an aerial platform operates above trees and captures imagery of the trees suitable for detecting indicators of insect infestation. In a second aspect, imagery of trees captured by an aerial platform operated above the trees is analyzed to detect indicators of insect infestation. In a third aspect, the capturing of imagery of the trees is performed by a camera that dynamically adjusts the point of focus relative to the ground and/or top of the trees. In particular embodiments, the imagery is oblique imagery. In selected embodiments, the capturing of imagery comprises down-sampling or discarding portions of the imagery. In portions of some embodiments, the detection employs machine-learning techniques, such as convolved neural nets.

A remote insect monitor and associated method include a container configured to allow an insect attractant within the container to escape into ambient air proximate a landing area. At least one detection sensor generating sensor data of insects proximate the landing area, and a control module has a processor and a memory storing machine readable instructions executable by the processor to process the sensor data and count insects proximate the landing area. The remote insect monitor and associated method may also include an analyzer for analyzing an insect of interest to determine whether the insect carries a disease, wherein the control module sends an indication of whether the insect carries the disease to the remote server.

A system (10) for remote detection of pests, in this case as applied to a domestic dwelling (11) where a base station (12) communicates with eight detector or monitor units (13). The dotted (lines (14) indicate wired or wireless communication between the units (13) and the base station (12). As used herein the expressions “monitor” and “detector” are used interchangeably or where the detector is used as part of a box or cartridge where the detector is part (and may be reusable and separable) the whole unit including the detector part may be referred to as a monitor.

A rapid method to detect and/or remove mobile insects inside granular material is presented. The core of this method is to heat grain samples to the desired temperatures (about 55 C) using microwave or radio frequency energy to force insects to move out of the granular material.

A detection system for detecting a residential pest, the detection system may include a housing, a vibration sensor that is configured to sense vibration signals; a processor that is configured to process the vibration signals and detect residential pest activities; a coupler that once connected to a metal-including element of a resident vibrationally couples the metal-including element to the vibration sensor.

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.

A method of providing pest control service to a customer includes signing up the customer for a pest monitoring service. A pest sensor or multiple pest sensors are set up to monitor a pest monitoring site designated by the customer. The pest sensor determines that there is a need for pest control service within the pest monitoring site. A pest control technician and the customer are alerted that pest control services are needed at the pest monitoring site without additional intervention by the customer. The pest control technician and the customer to make an appointment for the technician to provide pest control service, and the pest control technician provides the necessary pest control service at the pest monitoring site.

A system and method of monitoring and controlling cellulose-consuming pests in a predetermined location provides for the use of an assembly that has a main body with a cylindrical upper portion and a lower portion continuously co-axially formed with the upper portion. The lower portion is formed as blades meeting at a lowermost point and defining a sharp bottom point that helps penetrate the soil in the selected location. A plurality of cellulose-containing bait units are detachably fitted in the lower portion and the upper portion. The bait units fitted in the lower portion are retained by the blade portions, which engage radial slots of the bait units. A moisture-retaining member is positioned in the upper portion above an uppermost of the bait units. A removable cap frictionally fittingly engages with the upper portion. The cap has an opening allowing water to be poured into the main body to moisten the bait units and make them more attractive to foraging insects. If consumption of the cellulose material is detected, the bait units may be substituted with a bait material containing poisonous substance. The pests consume the bait and carry the poison to the colonies.