IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0047463
(2002-01-15)
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발명자
/ 주소 |
- Simon, Gary B.
- Wartofsky, David J.
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출원인 / 주소 |
- Potomac Aviation Technology Corporation
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대리인 / 주소 |
Hamilton, Brook, Smith & Reynolds, P.C.
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인용정보 |
피인용 횟수 :
26 인용 특허 :
50 |
초록
▼
A method and apparatus for automatically providing advisories to pilots in a monitored airspace comprises monitoring weather conditions and air traffic in an airspace and then generating and broadcasting advisories over a radio channel in response to relevant air traffic conditions. Advisory lengths
A method and apparatus for automatically providing advisories to pilots in a monitored airspace comprises monitoring weather conditions and air traffic in an airspace and then generating and broadcasting advisories over a radio channel in response to relevant air traffic conditions. Advisory lengths are sized based on the volume of communications on the common traffic advisory frequency. An airspace model, made up of a multitude of constantly updated records, is used to keep track of important flight information and weather conditions. A monitoring CPU, accessing the airspace model, creates the advisory messages based upon hazard criteria, guidelines, airport procedures and other relevant air traffic data.
대표청구항
▼
A method and apparatus for automatically providing advisories to pilots in a monitored airspace comprises monitoring weather conditions and air traffic in an airspace and then generating and broadcasting advisories over a radio channel in response to relevant air traffic conditions. Advisory lengths
A method and apparatus for automatically providing advisories to pilots in a monitored airspace comprises monitoring weather conditions and air traffic in an airspace and then generating and broadcasting advisories over a radio channel in response to relevant air traffic conditions. Advisory lengths are sized based on the volume of communications on the common traffic advisory frequency. An airspace model, made up of a multitude of constantly updated records, is used to keep track of important flight information and weather conditions. A monitoring CPU, accessing the airspace model, creates the advisory messages based upon hazard criteria, guidelines, airport procedures and other relevant air traffic data. unit having: a power output terminal for providing said operating voltage, a multiplex signal input terminal for receiving said multiples signal, an interrogation output terminal for providing said interrogation signal, a fire-determination input terminal for receiving said fire-presence signal, and a port for connection with the receiver, said method comprising combining at least one of said smoke sensor unit and said thermal sensor unit with said power unit and optionally with at least one of said processing unit and said signal transmission unit. 2. The process as set forth in claim 1, wherein at least one of said smoke sensor unit, said thermal sensor unit, said signal processing unit, said signal transmission unit, and said power unit is realized into an integrated circuit. 3. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said smoke sensor unit, said thermal sensor unit, said signal processing unit, said signal transmission unit, and said power unit, said smoke sensor unit having said smoke density output terminal connected to said smoke density input terminal of said signal processing unit, said thermal sensor unit having said temperature output terminal connected to said temperature input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said signal transmission unit, said signal processing unit having said interrogation input terminal connected to said interrogation output terminal of said signal transmission unit, said signal transmission unit having said multiplex signal output terminal connected to said multiplex signal input terminal of said power unit, said signal transmission unit having said interrogation input terminal connected to said interrogation output terminal of said power unit, said power unit having said power output terminal connected to said power input terminals of said smoke sensor unit, said thermal sensor unit, said signal processing unit, and said signal transmission unit. 4. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said smoke sensor unit, said thermal sensor unit, said signal processing unit, and said power unit, said smoke sensor unit having said smoke density output terminal connected to said smoke density input terminal of said signal processing unit, said thermal sensor unit having said temperature output terminal connected to said temperature input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said power unit, said power unit having said power output terminal connected to said power input terminals of said smoke sensor unit, said thermal sensor unit, and said signal processing unit. 5. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said smoke sensor unit, said signal processing unit, said signal transmission unit, and said power unit, said smoke sensor unit having said smoke density output terminal connected to said smoke density input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said signal transmission unit, said signal processing unit having said interrogation input terminal connected to said interrogation output terminal of said signal transmission unit, said signal transmission unit having said multiplex signal output terminal connected to said multiplex signal input terminal of said power unit, said signal transmission unit having said interrogation input terminal connected to said interrogation output terminal of said power unit, said power unit having said power output terminal c onnected to said power input terminals of said smoke sensor unit, said signal processing unit, and said signal transmission unit. 6. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said smoke sensor unit, said signal processing unit, and said power unit, said smoke sensor unit having said smoke density output terminal connected to said smoke density input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said power unit, said power unit having said power output terminal connected to said power input terminals of said smoke sensor unit and said signal processing unit. 7. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said smoke sensor unit, said signal transmission unit, and said power unit, said smoke sensor unit having said fire-determination output terminal connected to said fire-determination input terminal of said signal transmission unit, said signal processing unit having said multiplex signal output connected to said multiplex signal input of said power unit, said power unit having said power output terminal connected to said power input terminals of said smoke sensor unit and said signal transmission unit. 8. A fire detector fabricated in accordance with a method of claim 1 wherein said fire detector is equipped with said smoke sensor unit and said power unit, said smoke sensor unit having said fire-determination output terminal connected to said fire-determination input terminal of said power unit, said power unit having said power output terminal connected to said power input terminal of said smoke sensor unit. 9. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said thermal sensor unit, said signal processing unit, said signal transmission unit, and said power unit, said thermal sensor unit having said temperature output terminal connected to said temperature input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said signal transmission unit, said signal processing unit having said interrogation input terminal connected to said interrogation output terminal of said signal transmission unit, said signal transmission unit having said multiplex signal output terminal connected to said multiplex signal input of said power unit, said signal transmission unit having said interrogation input terminal connected to said interrogation output terminal of said power unit, said power unit having said power output terminal connected to said power input terminals of said thermal sensor unit, said signal processing unit, and said signal transmission unit. 10. A fire detector fabricated in accordance with a method of claim 1, wherein said fire detector is equipped with said thermal sensor unit, said signal processing unit, and said power unit, said thermal sensor unit having said temperature output terminal connected to said temperature input terminal of said signal processing unit, said signal processing unit having said fire-determination output terminal connected to said fire-determination input terminal of said power unit, said power unit having said power output terminal connected to said power input terminals of said thermal sensor unit and said signal processing unit.
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