A method of verifying product authenticity includes emitting, by an electromagnetic radiation source in communication with a processor, radiation to heat one or more pieces of ferromagnetic material in or on a product. The method also includes detecting, by a heat sensor in communication with the processor, heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The method further includes determining, by the processor, if the product is counterfeit based on the detected heat.

A system for monitoring an area includes a processor and an electromagnetic radiation source in communication with the processor. The electromagnetic radiation source is configured to emit radiation to heat a metallic object that is in or carried by a target. The system also includes an array of temperature sensors in communication with the processor, where the array of temperature sensors is configured to detect a first temperature associated with the target and a second temperature associated with the target. The first temperature is detected prior to emission of the radiation and the second temperature is detected subsequent to emission of the radiation. The processor is also configured to determine whether to trigger an alert based at least in part on a difference between the first temperature and the second temperature.

A device for detecting offending features on individual granular objects or small objects. The device uses an image capturing system to scan batches of granular or small objects such as wheat, grain, rice, seeds, legumes or nuts to detect any undesirable feature such as disease, mold or spoilage. An action head on the device is configured to automatically respond once an undesirable feature is identified. The action head may capture the individual objects having undesirable features or it may cast them aside.

A device for use in detecting metallic objects includes a processor and an electromagnetic radiation source in communication with the processor. The electromagnetic radiation source is configured to emit radiation to heat a metallic object. The device also includes a temperature sensor in communication with the processor. The temperature sensor is configured to detect heat emitted from the metallic object. The device also includes an alarm configured to notify an operator of the presence of the metallic object responsive to a determination by the processor that a temperature threshold has been exceeded.

A mold remediation system includes a processor and an electromagnetic radiation source in communication with the processor. The electromagnetic radiation source is configured to emit radiation to heat a ferromagnetic material in or adjacent to a wall board upon which mold is located. The system also includes a temperature sensor in communication with the processor. The temperature sensor is configured to detect a temperature of the wall board. The processor is configured to compare the temperature of the wall board to a desired temperature to perform mold remediation.

A device for use in detecting metallic objects includes a processor and an electromagnetic radiation source in communication with the processor. The electromagnetic radiation source is configured to emit radiation to heat a metallic object. The device also includes a temperature sensor in communication with the processor. The temperature sensor is configured to detect heat emitted from the metallic object. The device also includes an alarm configured to notify an operator of the presence of the metallic object responsive to a determination by the processor that a temperature threshold has been exceeded.

In certain embodiments, a packaged terminal device for killing pests in an affected area includes a housing configured to be positioned at least partially within an affected area, a fan positioned within the housing, and one or more heating elements positioned within the housing. The fan is operable to draw a flow of air from the affected area into the housing. The one or more heating elements are operable to generate heated air by transferring heat to the flow of air. The packaged terminal device further includes a control unit operable to control the operation of the one or more heating elements in order to cause the packaged terminal device to operate in either a first mode or a second mode. In the first mode, the operation of the one or more heating elements is controlled such that sufficient heated air is generated to heat at least a portion of the affected area to a temperature less than or equal to a first predefined temperature. In the second mode, the operation of the one or more heating elements is controlled such that sufficient heated air is generated to heat at least a portion of the affected area to a temperature greater than or equal to a second predefined temperature, the second predefined temperature being greater than the first predefined temperature.

The present disclosure generally relates to the field of pest elimination including all life stages of bed bugs. The present disclosure includes articles, systems, and methods of heat treatment to target and kill pests.

The present disclosure generally relates to the field of pest elimination including all life stages of bed bugs. The present disclosure includes articles, systems, and methods of heat treatment to target and kill pests.

The present disclosure relates to an organism trapping device that includes a vibration wave generator configured to generate frequency ranges from 1.00 to 1.67 Hz (Hertz), an inciting engine communicatively coupled with the vibration wave generator, and configured to generate signals representing vibration parameters based on the generated frequency, a walled container operatively coupled with the inciting engine and adapted to contain fluid and receives the generated signals to simulate flow of blood in human blood vessels based on the vibration parameters to attract number of organisms towards the device, a fumigating agent adapted to compress the number of organisms entering into the device, sensors configured to sense an entry of number of organisms into the device, and a processor communicatively coupled with the sensor and activates the fumigating agent based on the signal received from the sensor. The present disclosure also relates to method of trapping organisms.