Certain aspects of the present disclosure provide an insect trap for trapping insects, the insect trap comprising one or more serviceable parts, the insect trap being movable between a first configuration for trapping insects, and a second configuration for servicing of the one or more serviceable parts. The insect trap is arranged so that the position of the one or more serviceable parts in the first configuration differs from the position of the one or more serviceable parts in the second configuration.

Certain aspects of the present disclosure provide an insect trap for trapping insects, the insect trap comprising one or more serviceable parts, the insect trap being movable between a first configuration for trapping insects, and a second configuration for servicing of the one or more serviceable parts. The insect trap is arranged so that the position of the one or more serviceable parts in the first configuration differs from the position of the one or more serviceable parts in the second configuration.

The present invention describes a new technology for the formulation of semiochemicals in wick diffusers particularly effective in controlling the diffusion of semiochemicals over periods of several months regardless of the outside temperature.

The present invention describes a new technology for the formulation of semiochemicals in wick diffusers particularly effective in controlling the diffusion of semiochemicals over periods of several months regardless of the outside temperature.

A flying insect light trap monitoring device and related methods and systems. The flying insect light trap monitoring device includes a housing, camera, controller, and communications module. The housing includes a mounting structure configured to couple with a flying insect light trap. The camera generally includes a wide angle lens. The camera and wide angle lens are secured to the housing and take a digital photograph image of a glue board in the flying insect light trap. The controller, including a processor and a memory, is secured within the housing and is communicatively coupled to the camera. The controller receives the digital photograph image. The communications module is operatively coupled with the controller and sends data packets, including the digital photograph image, to a remote server. Further, an image processing engine that processes the image and generates an insect count can be included.

An intelligent insect trap and identification system is disclosed. The intelligent insect trap and identification system can include an insect imaging chamber and identification system. The chamber can include a first cell for accepting insects, a second cell, a first reflector in the second cell, and a first imaging device in the second cell for recording one or more first visual images of the one or more insects in the first cell. Based on the image, the insect imaging chamber can detect and identify the insects. Other aspects, embodiments, and features are also claimed and described.

A pest monitoring system may include a sensor and a sensor unit. The sensor may be configured to measure a change in fringe capacitance. The sensor unit may include a housing, at least one microprocessor, a non-volatile memory, a transceiver, a clock, and a connector operatively connected to the sensor. The housing may include a power source. The sensor unit may be programmed to manage power usage.

A pest monitoring system generally includes a circuit, wherein the circuit is initially in a first impedance state that is configured to change to a second impedance state due to pest activity, wherein the second impedance state is lower than the first impedance state.

An apparatus includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a non-biological skin substitute substrate, and a heater coupled to the substrate.

The present invention discloses an easy-to-clean visual grain monitoring device which includes a housing. A circuit board is provided within the housing and is connected with a monitoring unit; an insect collecting pipe, which is provided within the housing, includes multiple first entrances; the housing includes multiple second entrances which are corresponding to the first entrances respectively; an execution element, which is installed on a base, is connected with a lower end of the insect collecting pipe for driving the insect collecting pipe to move up and down; an insect leaking passage, which is provided at an upper end of the base, extends downwards along a side wall of the base; a tail end of the insect leaking passage has a first insect leaking hole for discharging pests, the housing has a second insect leaking hole in a position corresponding to the first insect leaking hole, and the lower end of the insect collecting pipe has a third insect leaking hole staggered with the insect leaking passage. The insect leaking passage is blocked and unblocked by moving the insect collecting pipe up and down, so as to achieve rapid cleaning. The present invention is simple in structure, convenient to operate, and rapid in cleaning.