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 pest control lighting device having a connector capable of electrically connecting to a common lightbulb socket or electrical outlet. The pest control lighting device includes one or more light sources in electrical connection with the connector. The pest control lighting device may include an inner module capable of holding one or more pest control materials, such as an insect repellent. The pest control lighting device may further include sound emitting components that may be capable of emitting an ultrasonic sound.

Provided is a tick trap having a glue constructed to trap ticks touching the glue by sticking to the ticks, and a plant based scent formed from a part of a plant that attracts ticks to the glue. The tick trap can be used to trap ticks within a dwelling or in the environment.

Provided is a tick trap having a glue constructed to trap ticks touching the glue by sticking to the ticks, and a plant based scent formed from a part of a plant that attracts ticks to the glue. The tick trap can be used to trap ticks within a dwelling or in the environment.

Provided is a method of trapping ticks using a tick trap having a glue constructed to trap ticks touching the glue by sticking to the ticks, and a plant based scent formed from a part of a plant that attracts ticks to the glue, the method includes placing the trap on a location surface and using the tick attractant to attract ticks to the glue.

Provided is a method of trapping ticks using a tick trap having a glue constructed to trap ticks touching the glue by sticking to the ticks, and a plant based scent formed from a part of a plant that attracts ticks to the glue, the method includes placing the trap on a location surface and using the tick attractant to attract ticks to the glue.

A device for use in identifying an explosive includes a processor and an induction heat source in communication with the processor. The induction heat source is configured to emit radiation to heat a metallic component of an explosive device by way of induction. The device also includes a temperature sensor in communication with the processor that is configured to detect heat emitted from the metallic component of the explosive device. The processor is configured to identify a location of the metallic component of the explosive device based on the detected heat. A gas sensor is used to detect one or more gases emitted from a non-metallic explosive device. The device further includes an action arm configured to conduct a detonation attempt at the location of the metallic component of the explosive device.

A device for use in identifying an explosive includes a processor and an induction heat source in communication with the processor. The induction heat source is configured to emit radiation to heat a metallic component of an explosive device by way of induction. The device also includes a temperature sensor in communication with the processor that is configured to detect heat emitted from the metallic component of the explosive device. The processor is configured to identify a location of the metallic component of the explosive device based on the detected heat. A gas sensor is used to detect one or more gases emitted from a non-metallic explosive device. The device further includes an action arm configured to conduct a detonation attempt at the location of the metallic component of the explosive device.

An insect trap device and methods of using the device are described herein. In some embodiments, an insect trap includes a light source, a removable enclosure with at least one opening, an adhesive surface at least partially within the enclosure, and optics to redirect light from the light source onto an adhesive trapping surface. The light source may include at least one light emitting diode (LED). The optics may be attached to the removable enclosure, and may be located at least partially within the enclosure. The optics may include optical enhancers such as a reflector, a lens and/or a diffuser. The insect trap may further include an insect attractant that emits sound or scent.

An insect trap device and methods of using the device are described herein. In some embodiments, an insect trap includes a light source, a removable enclosure with at least one opening, an adhesive surface at least partially within the enclosure, and optics to redirect light from the light source onto an adhesive trapping surface. The light source may include at least one light emitting diode (LED). The optics may be attached to the removable enclosure, and may be located at least partially within the enclosure. The optics may include optical enhancers such as a reflector, a lens and/or a diffuser. The insect trap may further include an insect attractant that emits sound or scent.