A system to verify product authenticity includes a transceiver configured to receive information regarding one or more pieces of ferromagnetic material that are in or on a product. The system also includes an electromagnetic radiation source configured to emit radiation to heat the one or more pieces of ferromagnetic material in or on the product. The system also includes a heat sensor configured to detect heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The system further includes a processor in communication with the transceiver, the electromagnetic radiation source, and the heat sensor. The processor is configured to determine if the product is counterfeit based on the received information and the detected heat.

A system to verify product authenticity includes a transceiver configured to receive information regarding one or more pieces of ferromagnetic material that are in or on a product. The system also includes an electromagnetic radiation source configured to emit radiation to heat the one or more pieces of ferromagnetic material in or on the product. The system also includes a heat sensor configured to detect heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The system further includes a processor in communication with the transceiver, the electromagnetic radiation source, and the heat sensor. The processor is configured to determine if the product is counterfeit based on the received information and the detected heat.

An induction heating system includes a container that includes one or more ferromagnetic element mounting locations. The system also includes a plurality of ferromagnetic elements positioned in the one or more ferromagnetic mounting locations. The system also includes one or more electromagnetic radiation sources configured to individually target the plurality of ferromagnetic elements such that different ferromagnetic elements are heated to different temperatures. The system further includes a processor operatively coupled to the one or more electromagnetic radiation sources and configured to control an amount of electromagnetic radiation delivered to each of the ferromagnetic elements.

An insect killing system has a blower drawing air entraining insects from below a vacuum machine, impelling the air upward, a flange oriented horizontally at an outlet to the blower, and a killing assembly affixed to the flange. The system is characterized in that the killing assembly comprises a plurality of panels of a common width, having an upper edge, a lower edge, and opposite side edges defining an area for each panel, the area closed by a relatively thin perforated sheet material exhibiting a matrix of through holes, individual panels affixed by the bottom edge to the flange on opposite sides, with each panel oriented by a steep angle from vertical, with each panel in the plurality parallel to and spaced apart from one or more adjacent panels, such that the area defined by an inside diameter of the flange is covered by the plurality of adjacent parallel panels.

A device for detecting a group of offending objects and determining that the number of offending objects is above a predetermined threshold of offending objects. The device uses an image capturing system to scan areas to detect flying objects such as flying insects to detect a presence of a swarm of such flying objects. An action head on the device is configured to automatically respond once a swarm of objects is identified. The action head may disperse the swarm by expelling a substance such as a mist, smoke, repellant or insecticide.

A device for detecting a group of offending objects and determining that the number of offending objects is above a predetermined threshold of offending objects. The device uses an image capturing system to scan areas to detect flying objects such as flying insects to detect a presence of a swarm of such flying objects. An action head on the device is configured to automatically respond once a swarm of objects is identified. The action head may disperse the swarm by expelling a substance such as a mist, smoke, repellant or insecticide.

The present invention is to provide a system, a method, and a program for adjusting the balance of an insect killer hung from a robot that are capable to adjust the position of the insect killer. The system for adjusting the balance of an insect killer 1 hung from a robot 10 moving by a propeller 410 through a support arm 100 adjusts the balance of the insect killer 200 so that the angle between the support arm 100 and the direction of gravitational force from the robot 10 has a predetermined value or more; and adds a weight 300 to an end of the same support arm 100 as the support arm 100 in the negative direction to an angle of the predetermined value and calculates the weight 300 to adjust the balance of the insect killer 200.

The present invention is to provide a system, a method, and a program for adjusting the balance of an insect killer hung from a robot that are capable to adjust the position of the insect killer. The system for adjusting the balance of an insect killer 1 hung from a robot 10 moving by a propeller 410 through a support arm 100 adjusts the balance of the insect killer 200 so that the angle between the support arm 100 and the direction of gravitational force from the robot 10 has a predetermined value or more; and adds a weight 300 to an end of the same support arm 100 as the support arm 100 in the negative direction to an angle of the predetermined value and calculates the weight 300 to adjust the balance of the insect killer 200.

A hand held device for removing ticks that are fixed to the skin of an animal or human host and comprises a housing oriented along a longitudinal axis, a tick encapsulation zone at the front end of the housing employing an openable and closable lid section capable of closing around the tick while the tick is attached to the skin of the host. A piezoelectric voltage generation device is located within the housing and activated by a striker to send a high voltage through two lead wires having their distal ends mounted within the tick encapsulation zone in gapped relationship. A trigger is mounted along an axis tangential to the longitudinal axis for triggering the piezoelectric device to send a high voltage across the electrode gap to electrocute the tick. The electrocuted tick automatically becomes detached from the host's skin and falls into the closed encapsulation zone of the device.

Devices, methods, and systems for inactivation of insects with light are disclosed. In some examples, a first lighting source is operable to provide light at wavelength range of about 420 nm-510 nm with an irradiance sufficient to initiate the inactivation of insects. One or more sensors and a control system may be used to control operation of the first lighting source, such as by adjusting the first lighting source in response to various inputs.