The invention relates to methods of trapping a pest, said method comprising providing ferromagnetic particles for ingestion by the pest, and trapping the pest using one or more magnets, wherein a trapped pest has ingested and internally accumulated an amount of the ferromagnetic particles sufficient to permit immobilization of the pest using said one or more magnets. Devices for use with the methods of the instant invention are also disclosed.

In one aspect, an exterior lighting insect zapper includes a photosensor configured to sense an amount of light for turning on or off an exterior light and an insect zapper coupled to the photosensor. The exterior lighting insect zapper also includes a twist-lock plug compatible with a receptacle of an exterior light for a photosensor unit plug, such that the exterior lighting insect zapper can replace existing photosensors of exterior light fixtures.

A pest detector includes: a first electrode; a second electrode that is arranged to face the first electrode; an electric field generator that generates an electric field in a gap between the first electrode and the second electrode; an imager that images at least the first electrode; and a hardware processor that determines an attaching state of insect pests that can be attached to the first electrode, based on an image captured by the imager.

Exemplary embodiments of a flashlight having an electronic insect control system are provided. In some exemplary embodiments, a flashlight apparatus is provided, having a head portion comprising a first light source, a tail portion, and a body portion between the head portion and tail portion, the body portion comprising an electronic insect control system, the electronic insect control system comprising a frame portion, a second light source provided within the frame portion, and an electrical grid provided within the frame portion and surrounding the second light source, wherein the electrical grid is configured to generate a voltage.

A method of analyzing shipments of goods includes receiving, by a transceiver of a shipment analysis system, a heat map template, where the heat map template is an expected heat map for a plurality of packages in a shipment. The method also includes directing electromagnetic radiation from an electromagnetic radiation source to the package to heat any ferromagnetic material in or on a package. The method also includes generating, by a processor of the shipment analysis system, a heat map based on the heating of any ferromagnetic material in or on the package. The method further includes generating, by the processor, an alert responsive to a determination that the generated heat map does not match the heat map template. The alert indicates that the package is not one of the plurality of packages in the shipment.

A method of analyzing shipments of goods includes receiving, by a transceiver of a shipment analysis system, a heat map template, where the heat map template is an expected heat map for a plurality of packages in a shipment. The method also includes directing electromagnetic radiation from an electromagnetic radiation source to the package to heat any ferromagnetic material in or on a package. The method also includes generating, by a processor of the shipment analysis system, a heat map based on the heating of any ferromagnetic material in or on the package. The method further includes generating, by the processor, an alert responsive to a determination that the generated heat map does not match the heat map template. The alert indicates that the package is not one of the plurality of packages in the shipment.

An Internet-of-Things-based crop growth monitoring device includes a plurality of monitoring mechanisms. Each monitoring mechanism includes a base and a support rod fixed on the base. The support rod is provided with an electric element installation casing formed by snap-fitting an upper conical cover and a lower conical cover. A component for driving a swing cantilever to rotate is provided on the support rod at a position near a lowermost surface of the upper conical cover. A plurality of distance measuring laser sensors are provided on the swing cantilever. A component for driving an ultra-high-definition camera to rotate is provided on the support rod at the section of the upper conical cover. The images captured by the ultra-high-definition camera is used to obtain the leaf growth situation of the crops, and the data collected by the distance measuring laser sensors is used to determine the plant height of the crops.

The invention relates to an insect trapping device (100) comprising: a housing (110) having an opening (120) through which insects (I) can enter the housing; trapping means (130) for trapping insects within the housing; an attractant source (170) and regulating means for regulating a flow of an attractant (160) into the housing; propelling means (150) for evacuating at least a portion of the attractant from within the housing through the opening; control means communicatively coupled with the regulating means and propelling means; wherein the control means is configured to activate the propelling means once a threshold volume of attractant has accumulated within housing. Also disclosed is a method for of trapping insects. Advantageously, the present invention can effectively, consistently and quietly control the release of the attractant, where the attractant remains in the housing until the propelling means sends it through the opening, allowing the attractant to accumulate to a specified level in the housing and to be dispersed efficiently creating an effective lure for insects to follow into the traps.

A method for performing mold remediation includes placing a ferromagnetic material in or adjacent to a surface upon which mold is located. The method also includes emitting, by an electromagnetic radiation source, radiation to heat the ferromagnetic material that is adjacent to the surface upon which the mold is located. The method also includes detecting, by a temperature sensor, a temperature of the surface. The method further includes comparing, by a processor in communication with the electromagnetic radiation source and the temperature sensor, the temperature of the surface to a desired temperature to perform mold remediation.

A method for performing mold remediation includes placing a ferromagnetic material in or adjacent to a surface upon which mold is located. The method also includes emitting, by an electromagnetic radiation source, radiation to heat the ferromagnetic material that is adjacent to the surface upon which the mold is located. The method also includes detecting, by a temperature sensor, a temperature of the surface. The method further includes comparing, by a processor in communication with the electromagnetic radiation source and the temperature sensor, the temperature of the surface to a desired temperature to perform mold remediation.