One general aspect includes a method of animal detection and warning, the method including: detecting, via a processor, a presence of an animal in an area beneath a vehicle; and when the presence of an animal is detected in the area beneath the vehicle, warning, via the processor, the animal to vacate the area beneath the vehicle. Other embodiments of this aspect include corresponding computer systems, apparatus, and computer programs recorded on one or more computer storage devices, each configured to perform the actions of the methods.

An inlet air filtration unit for a gas turbine includes an inlet filter house having an upstream surface through which air is ingested. A plurality of weather hoods is secured to the upstream surface. A wave-generating system is installed on or proximate to the plurality of weather hoods, the wave-generating system emitting waves that deter pests from the inlet filter house. A method of deterring pests from entering an inlet filter house of an inlet air filtration system is also provided. The method includes: installing a wave-generating system proximate to or on a weather hood on an upstream surface of the inlet filter house; and energizing the wave-generating system to produce energy waves across the upstream surface of the inlet filter house.

An inlet air filtration unit for a gas turbine includes an inlet filter house having an upstream surface through which air is ingested. A plurality of weather hoods is secured to the upstream surface. A wave-generating system is installed on or proximate to the plurality of weather hoods, the wave-generating system emitting waves that deter pests from the inlet filter house. A method of deterring pests from entering an inlet filter house of an inlet air filtration system is also provided. The method includes: installing a wave-generating system proximate to or on a weather hood on an upstream surface of the inlet filter house; and energizing the wave-generating system to produce energy waves across the upstream surface of the inlet filter house.

The present invention relates to an ultrasonic generator for repelling harmful animals. The invention comprises a columnar ultrasonic wave generating body 18 which has a piezoelectric element 16 and a connecting body 22 and a smaller-diameter connecting body 24 each having a reduced diameter, a diaphragm 28 which is in the form of a speaker horn, and a connecting rod 26 which extends from the ultrasonic wave generating body 18 and connects and fixes the diaphragm 28 to an end thereof. The thickness of the diaphragm 28 gradually decreases from the base 34 connected to the connecting rod 26 toward an outer edge of the diaphragm 28 and one or more undulated portions 36 are formed concentrically on the front face of the diaphragm.

The present invention relates to an ultrasonic generator for repelling harmful animals. The invention comprises a columnar ultrasonic wave generating body 18 which has a piezoelectric element 16 and a connecting body 22 and a smaller-diameter connecting body 24 each having a reduced diameter, a diaphragm 28 which is in the form of a speaker horn, and a connecting rod 26 which extends from the ultrasonic wave generating body 18 and connects and fixes the diaphragm 28 to an end thereof. The thickness of the diaphragm 28 gradually decreases from the base 34 connected to the connecting rod 26 toward an outer edge of the diaphragm 28 and one or more undulated portions 36 are formed concentrically on the front face of the diaphragm.

An insect trap device includes a housing, a sticky board, and at least one LED light bar. The housing is formed with a plurality of holes. The sticky board is arranged on a bottom of the housing. The sticky board has a surface coated with insect sticking glue. The at least one LED light bar is arranged in an interior of the housing to form indirect lighting and emit a wavelength of insect luring light. As such, the at least one LED light bar emits light that attracts insects to enter through the plurality of holes of the housing to get stuck to the sticky board.

An insect trap device includes a housing, a sticky board, and at least one LED light bar. The housing is formed with a plurality of holes. The sticky board is arranged on a bottom of the housing. The sticky board has a surface coated with insect sticking glue. The at least one LED light bar is arranged in an interior of the housing to form indirect lighting and emit a wavelength of insect luring light. As such, the at least one LED light bar emits light that attracts insects to enter through the plurality of holes of the housing to get stuck to the sticky board.

A security system for monitoring a property includes a plurality of sensor units disposed at different locations throughout the property, an autonomous vehicle that travels throughout the property and contains a camera, and a central station, in communication with the sensor units and the autonomous vehicle, that dispatches the autonomous vehicle to a location corresponding to an unknown object detected by at least some of the sensor units and determined by a processing module of the central station to be a potential intrusion, wherein the autonomous vehicle provides video data of the potential intrusion to the central station. The autonomous vehicle may be a flying vehicle. The autonomous vehicle may be dispatched to a vantage point that is clear of any obstacles and provides an unobstructed view of the location of the potential intruder. A user of the device may approve dispatching the autonomous vehicle.

A security system for monitoring a property includes a plurality of sensor units disposed at different locations throughout the property, an autonomous vehicle that travels throughout the property and contains a camera, and a central station, in communication with the sensor units and the autonomous vehicle, that dispatches the autonomous vehicle to a location corresponding to an unknown object detected by at least some of the sensor units and determined by a processing module of the central station to be a potential intrusion, wherein the autonomous vehicle provides video data of the potential intrusion to the central station. The autonomous vehicle may be a flying vehicle. The autonomous vehicle may be dispatched to a vantage point that is clear of any obstacles and provides an unobstructed view of the location of the potential intruder. A user of the device may approve dispatching the autonomous vehicle.

In a first aspect, the embodiments of the invention provide a surveillance system for a wind park comprising a detection system configured to detect flying birds and issue a detection signal; one or more drones; and a control system configured to command one or more of said drones to be deployed based on the detection of birds flying in the vicinity of the wind park. The invention extends to a wind park comprising a plurality of wind turbines and a system as defined above. The invention also embraces a method of operating a surveillance system in a wind park, comprising scanning a geographical area proximal to a wind park using a surveillance system for the detection of birds; on detecting the presence of birds in the vicinity of the wind park, automatically commanding the deployment of one or more drones to act as a deterrent to the detected birds.