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.

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 a security system includes a sensor, an image capture device, an action arm, and a processor in communication with the sensor, the image capture device, and the action arm. The processor is configured to receive data from the sensor and the image capture device and identify a target based on an analysis of the received data. The processor is also configured to determine, based on the analysis of the received data, that the target is a drone or other mechanical device. The processor is also configured to determine an action to take on the identified target. The processor is further configured to cause the action arm to perform the determined action on the target.

A device for use in a security system includes a sensor, an image capture device, an action arm, and a processor in communication with the sensor, the image capture device, and the action arm. The processor is configured to receive data from the sensor and the image capture device and identify a target based on an analysis of the received data. The processor is also configured to determine, based on the analysis of the received data, that the target is a drone or other mechanical device. The processor is also configured to determine an action to take on the identified target. The processor is further configured to cause the action arm to perform the determined action on the target.

A device for detecting an offending object such as weeds or insects, and addressing the offending object by removing or marking the same. The device has image acquisition and image recognition systems that captures images of plants and automatically responds by way of an action when a weed or insect is identified. The action head may grip the offending object or release a substance such a herbicide to eliminate a weed.

A device for detecting an offending object such as weeds or insects, and addressing the offending object by removing or marking the same. The device has image acquisition and image recognition systems that captures images of plants and automatically responds by way of an action when a weed or insect is identified. The action head may grip the offending object or release a substance such a herbicide to eliminate a weed.

A moving assembly has a base with a base bottom, a side wall, a rectangular conduit formed in the base bottom, and a fan with a motor mounted on the base bottom, and a collector box for collecting mosquitos. The fan functions to create a vacuum for drawing in mosquitos. A killing assembly has an upper dish and a lower dish. The upper dish has electrically charged wires. A pool in the lower dish constitutes a container for standing water. Air tubes are laterally spaced and vertically oriented. The air tubes have upper ends disposed above the pool to draw in mosquitos entering the vicinity of the upper ends and lower ends received in the rectangular conduit.

A moving assembly has a base with a base bottom, a side wall, a rectangular conduit formed in the base bottom, and a fan with a motor mounted on the base bottom, and a collector box for collecting mosquitos. The fan functions to create a vacuum for drawing in mosquitos. A killing assembly has an upper dish and a lower dish. The upper dish has electrically charged wires. A pool in the lower dish constitutes a container for standing water. Air tubes are laterally spaced and vertically oriented. The air tubes have upper ends disposed above the pool to draw in mosquitos entering the vicinity of the upper ends and lower ends received in the rectangular conduit.

A base assembly has an upward plate, a downward plate, a side wall, a front, a back, and laterally spaced sides. A drive assembly has drive wheels which extend downwardly from the downward plate and has a caster wheel. The drive assembly also has proximity sensors. A vacuum assembly has a vacuum slit formed in the downward plate between the laterally spaced sides. A source of vacuum pulls a vacuum through the vacuum slit. A tower assembly attracts and kills insects while the base assembly and tower assembly are driven by the drive assembly and the vacuum assembly vacuums up insects.