A system and method for driving geese away from an area employs predetermined random illuminations of particular wavelength light directed in a fashion that repels geese while avoiding annoying humans. Embodiments include systems associated with golf course flags and other structures and animal decoys that hide undesired aesthetic appearances of prior art industrial lighting elements. Other embodiments employ adjustable/movable mirror elements used in conjunction with systems powered by solar energy panels positioned below the light source, which can be adjusted in terms of direction, shielding, color, duration, wavelength and pulsation, providing a variety of random patterns so as to avoid habituation by geese.

A system and method for driving geese away from an area employs predetermined random illuminations of particular wavelength light directed in a fashion that repels geese while avoiding annoying humans. Embodiments include systems associated with golf course flags and other structures and animal decoys that hide undesired aesthetic appearances of prior art industrial lighting elements. Other embodiments employ adjustable/movable mirror elements used in conjunction with systems powered by solar energy panels positioned below the light source, which can be adjusted in terms of direction, shielding, color, duration, wavelength and pulsation, providing a variety of random patterns so as to avoid habituation by geese.

An automated system for mitigating risk from a wind farm. The automated system may include an array of a plurality of image capturing devices independently mounted in a wind farm. The array may include a plurality of low resolution cameras and at least one high resolution camera. The plurality of low resolution cameras may be interconnected and may detect a spherical field surrounding the wind farm. A server is in communication with the array of image capturing devices. The server may automatically analyze images to classify an airborne object captured by the array of image capturing devices in response to receiving the images.

An automated system for mitigating risk from a wind farm. The automated system may include an array of a plurality of image capturing devices independently mounted in a wind farm. The array may include a plurality of low resolution cameras and at least one high resolution camera. The plurality of low resolution cameras may be interconnected and may detect a spherical field surrounding the wind farm. A server is in communication with the array of image capturing devices. The server may automatically analyze images to classify an airborne object captured by the array of image capturing devices in response to receiving the images.

Disclosed herein are a drone detonator for animal and bird control and a method for animal and bird control using the same. The detonator may include an actuator, a firing rod and a blank cartridge. The detonator may be detachably coupled to a drone. The actuator may move the firing rod from a first position to a second position to trigger detonation of the blank cartridge during drone flight. The actuator may be in communication with a remote control source. A method of animal and bird control using the drone detonator may include attaching the detonator to a drone, flying the drone to a target zone, and detonating the blank cartridge at the target zone.

Disclosed herein are a drone detonator for animal and bird control and a method for animal and bird control using the same. The detonator may include an actuator, a firing rod and a blank cartridge. The detonator may be detachably coupled to a drone. The actuator may move the firing rod from a first position to a second position to trigger detonation of the blank cartridge during drone flight. The actuator may be in communication with a remote control source. A method of animal and bird control using the drone detonator may include attaching the detonator to a drone, flying the drone to a target zone, and detonating the blank cartridge at the target zone.

An unmanned aerial vehicle according to the present invention includes: a main body; an arm that extends from the main body to support a rotor; a first electrical conductor which is supported by the arm and to which a voltage is applied; a second electrical conductor which is supported by the arm and spaced apart from the first electrical conductor and to which a voltage lower than the voltage applied to the first electrical conductor is applied; and a controller configured to control electrical supply to the first and second electrical conductors.

A pest animal deterrent system including a support system including a mast attached to a tripod, the mast including an arm opposite the tripod; an optical module attached to the arm; a noise generator module attached to the arm, the noise generator module in operative communication with the optical module; a speaker in operative communication with the noise generator module; a battery electrically coupled to the optical module and the noise generator module; and a solar collector electrically coupled to the battery.

A pest animal deterrent system including a support system including a mast attached to a tripod, the mast including an arm opposite the tripod; an optical module attached to the arm; a noise generator module attached to the arm, the noise generator module in operative communication with the optical module; a speaker in operative communication with the noise generator module; a battery electrically coupled to the optical module and the noise generator module; and a solar collector electrically coupled to the battery.

The present invention relates to an animal deterrent device for deterring animals while traveling outdoors on foot. The device is primarily comprised of a body having at least one handle, at least one light, at least one speaker, and at least one shocking mechanism. The device can be carried while a user is walking outdoors to protect against attacks by dogs or other animals by producing loud sounds from the speaker and flashing lights from the light. Further, the shocking mechanism can be activated by a trigger, such that a prong is propelled from the mechanism and sticks into the body of the animal, delivering an electric shock via a generator of the mechanism and a wire that is connected to the generator and the prong.