IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0682038
(2012-11-20)
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등록번호 |
US-8598998
(2013-12-03)
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발명자
/ 주소 |
- Vassilev, Vassil Marinov
- Vassileva, Lidia Ivanova
- Karsch, Michael Adam
- Petkov, Kiril Petkov
- Petkov, Petko Kirilov
- Larre, John Charles
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출원인 / 주소 |
|
대리인 / 주소 |
Sterne, Kessler, Goldstein & Fox P.L.L.C.
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인용정보 |
피인용 횟수 :
7 인용 특허 :
17 |
초록
▼
The present disclosure is grounded in field study of habits of many species of animals, such as birds and bats to provide some examples, as well as their anatomical composition. This study has allowed an understanding of ingrained responses of these animals that can be modified by a biological under
The present disclosure is grounded in field study of habits of many species of animals, such as birds and bats to provide some examples, as well as their anatomical composition. This study has allowed an understanding of ingrained responses of these animals that can be modified by a biological understanding of physiology, sound and ultrasound technology, laser technology, and intelligent animal recognition. The unique coordination between these specialized technologies provides for animal casualty prevention in a sustainable way that achieves unprecedented success in diverting or deterring animals from their collision course with objects, such as wind turbines or aircraft to provide some examples. Moreover, the present disclosure does not substantially affect the well-being of the animals and does not introduce substantially harmful side-effects to the animals, their environment, and any surrounding human population.
대표청구항
▼
1. A wind turbine within a wind farm, comprising: a plurality of blades configured to convert kinetic energy from wind into mechanical energy that is used to produce electricity; andan animal collision avoidance system configured to electronically produce, upon recognition of a bird, an electronical
1. A wind turbine within a wind farm, comprising: a plurality of blades configured to convert kinetic energy from wind into mechanical energy that is used to produce electricity; andan animal collision avoidance system configured to electronically produce, upon recognition of a bird, an electronically generated acoustic sounding signal between approximately 300 Hz and 6,500 Hz, the acoustic sounding signal as delivered to within approximately 3.3 feet of an ear of the recognized bird having a rise time from a first power level to a second power level within a maximum acoustic startle response rise time, wherein the change in power level is approximately 112 dB;wherein the electronically generated acoustic sounding signal induces an acoustic startle reflex (ASR) of the bird to deter the bird from the wind farm or to divert a trajectory of the bird away from the wind farm. 2. The wind turbine of claim 1, wherein the animal collision avoidance system comprises: a detection module configured to sweep its field of view within the wind farm to detect a presence of an object and to recognize the object within its field of view as being the bird. 3. The wind turbine of claim 2, wherein the detection module is farther configured to recognize the bird when a motion parameter or a characteristic of the object is substantially similar to a known motion parameter corresponding to the bird or a known characteristic corresponding to the bird. 4. The wind turbine of claim 1, wherein the animal collision avoidance system comprises: a deterrence module configured to provide the electronically generated acoustic sounding signal; andwherein the maximum acoustic startle response rise time of the recognized bird is approximately 30 ms. 5. The wind turbine of claim 4, wherein the deterrence module is further configured to provide a sequential repetition of the synthetic sounding signal with a silence interval between repetitions as the electronically generated acoustic sounding signal to induce the ASR of the bird. 6. The wind turbine of claim 4, wherein the electronically generated acoustic sounding signal further comprises: a plurality of electronically generated modulation sounds,wherein the deterrence module is further configured to sequence the synthetic sounding signal and the plurality of electronically generated modulation sounds to provide the electronically generated acoustic sounding signal to amplify the ASR of the bird through inducement of modulation by attention or modulation by emotion. 7. The wind turbine of claim 1, wherein the animal collision avoidance system is further configured to electronically produce an electronically generated sonic signal, upon recognition of a bat, to deter the bat from entering into a zone proximate to the wind turbine or to divert a trajectory of the bat away from the zone. 8. The wind turbine of claim 7, wherein the electronically generated sonic signal is characterized as being within a first frequency range of approximately 4 kHz to approximately 7 kHz or a second frequency range of approximately 22 kHz to approximately 24 kHz. 9. A plurality of animal collision avoidance systems for use in an airport, comprising: a plurality of detection modules configured to scan their fields of view within the airport to detect a presence of an object and to recognize the object within their fields of view as being a bird; anda plurality of deterrence modules configured to electronically produce a plurality of electronically generated acoustic sounding signals, upon recognition of the bird, to induce an acoustic startle reflex (ASR) of the bird to deter the bird from an airport runway or to divert a trajectory of the bird away from the airport runway;wherein the electronically generated acoustic sounding signal is between approximately 300 Hz and 6,500 Hz, the acoustic sounding signal as delivered to within approximately 3.3 feet of an ear of the recognized bird within a maximum acoustic startle response rise time, and wherein the change in power level is approximately 12 dB. 10. The plurality of animal collision avoidance systems of claim 9, wherein a first group of plurality of animal collision avoidance systems is positioned to be proximate to an airport runway, and wherein a second group of the plurality of animal collision avoidance systems is configured to deter the bird from entering ascending and/or descending paths of aircraft as the aircraft arrives at or departs from the airport. 11. The plurality of animal collision avoidance systems of claim 10, wherein the plurality of detection modules are further configured to determine a motion parameter and a location of the bird upon its recognition, and wherein the plurality of deterrence modules are further configured to compensate for motion of the object as indicated by the motion parameter from the location when directing the plurality of electronically generated acoustic sounding signals toward the bird. 12. The plurality of animal collision avoidance systems of claim 9, wherein a first electronically generated acoustic sounding signal of a first animal collision avoidance system from among the plurality of animal collision avoidance systems is configured to overlap a second electronically generated acoustic sounding signal of a second animal collision avoidance system from among the plurality of animal collision avoidance systems and a third electronically generated acoustic sounding signal of a third animal collision avoidance system from among the plurality of animal collision avoidance systems. 13. The plurality of animal collision avoidance systems of claim 9, wherein the electronically generated acoustic sounding signal is selected from among a plurality of electronically generated acoustic sounding signals, the plurality of electronically generated acoustic sounding signals being specifically tailored to different taxonomic ranks for birds, wherein the detection module is further configured to recognize a taxonomic order of the bird, andwherein the deterrence module is further configured to select the electronically generated acoustic sounding signal from among the plurality of electronically generated acoustic sounding signals that corresponds to the taxonomic rank of the bird. 14. The plurality of animal collision avoidance systems of claim 9, wherein the plurality of animal collision avoidance systems are coupled to a plurality of ground footings in a plurality of fixed locations that are proximate to the airport runway. 15. A network of animal collision avoidance systems, comprising: a plurality of animal collision avoidance systems configured to electronically produce an electronically generated deterrent signal upon recognition of an object within an environment, to deter the object from an environment or to divert a trajectory of the object away from the environment; anda remote Environmental Data Center, communicatively coupled to the plurality of animal collision avoidance systems via a communication network, configured to control operation of the plurality of animal collision avoidance systems;wherein the electronically generated deterrent signal is between approximately 300 Hz and 6,500 Hz, the acoustic sounding signal as delivered to within approximately 3.3 feet of an ear of the bird having a rise time from a first power level to a second power level within a maximum acoustic startle response rise time, wherein the change in power level is approximately 112 dB. 16. The network of animal collision avoidance systems of claim 15, wherein an animal collision avoidance system from among the plurality of animal collision avoidance systems is configured to provide an image, a video, or audio of the object within a field of view of the animal collision avoidance system to the remote Environmental Data Center when the animal collision avoidance system is unable to recognize the object, and wherein the remote Environmental Data Center is configured to analyze the image, the video, or the audio to recognize the object and to provide an update to the animal collision avoidance system to allow the animal collision avoidance system to recognize the object in the future. 17. The network of animal collision avoidance systems of claim 15, wherein the electronically generated deterrent signal comprises: an electronically generated acoustic sounding signal configured to induce an acoustic startle reflex (ASR) of the object;an electronically generated lighting signal configured to substantially enclose a zone within the environment to deter the object from entering into the zone and/or to divert a trajectory of the object away from the zone; oran electronically generated sonic signal configured to substantially enclose a zone within the environment to deter the object from entering into the zone and/or to divert a trajectory of the object away from the zone. 18. The network of animal collision avoidance systems of claim 15, wherein the electronically generated deterrent signal is selected from among a plurality of electronically generated deterrent signals, the plurality of electronically generated deterrent signals being specifically tailored to different objects, and wherein remote Environmental Data Center is configured to remotely update the plurality of electronically generated deterrent signals. 19. The network of animal collision avoidance systems of claim 15, wherein the plurality of animal collision avoidance systems are configured to recognize a taxonomic rank of the object and to select an electronically generated deterrent signal corresponding to the taxonomic rank of the object from among a plurality of electronically generated deterrent signals, the plurality of electronically generated acoustic sounding signals being specifically tailored to different taxonomic ranks. 20. An animal collision avoidance system, comprising: a detection module configured to detect for a presence of an object within an environment and to recognize a taxonomic rank of the object; anda deterrence module configured to electronically produce an electronically generated acoustic sounding signal, upon recognition of the taxonomic rank, to induce an acoustic startle reflex (ASR) of the object to deter the object from entering into the environment;wherein the electronically generated acoustic sounding signal is between approximately 300 Hz and 6,500 Hz, the acoustic sounding signal as delivered to within approximately 3.3 feet of an ear of the object having a rise time from a first rower level to a second power level within a maximum acoustic startle response rise time, and wherein the chance in power level is approximately 112 dB. 21. The animal collision avoidance system of claim 20, wherein the detection module is further configured to recognize the taxonomic rank when a motion parameter or a characteristic of the object is substantially similar to a known motion parameter or a known characteristic that corresponds to the taxonomic rank. 22. The animal collision avoidance system of claim 21, wherein the known motion parameter or the known characteristic is selected from a plurality of motion parameters and a plurality of characteristics, respectively, the plurality of motion parameters and the plurality of characteristics being stored in a plurality of databases, wherein a first database from among the plurality of databases is configured to include information about a plurality of possible types of taxonomic ranks that are able to be found within the environment, andwherein a second database from among the plurality of databases is configured to include the plurality of motion parameters and the plurality of characteristics of the plurality of possible types of taxonomic ranks that are able to be found within the environment. 23. The animal collision avoidance system of claim 20, wherein the electronically generated acoustic sounding signal comprises: a synthetic sounding signal configured to have a sufficient rise time from a first power level to a second power to induce the ASR of the taxonomic rank. 24. The animal collision avoidance system of claim 20, wherein the deterrence module is further configured to provide a sequential repetition of the synthetic sounding signal with a silence interval between repetitions as the electronically generated acoustic sounding signal to induce the ASR of the taxonomic rank. 25. The animal collision avoidance system of claim 20, wherein the electronically generated acoustic sounding signal is configured to not substantially affect stress level or wellbeing of the taxonomic rank.
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