IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0937119
(2007-11-08)
|
등록번호 |
US-8145119
(2012-03-27)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Kaonetics Technologies, Inc.
|
대리인 / 주소 |
Stroock & Stroock & Lavan, LLP
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
1 |
초록
▼
A jamming system includes at least three jamming units. Each jamming unit is separately positionable and pointable. Each jamming unit covers different frequency bands. A method of using the jamming system includes moving a first jamming unit relative to a second jamming unit, and yawing a first jamm
A jamming system includes at least three jamming units. Each jamming unit is separately positionable and pointable. Each jamming unit covers different frequency bands. A method of using the jamming system includes moving a first jamming unit relative to a second jamming unit, and yawing a first jamming unit relative to an orientation of a third jamming unit.
대표청구항
▼
1. A method for jamming a band of frequencies within a finite spatial domain using a plurality of portable rf jamming devices, comprising: positioning a first portable rf signal jamming device at a first location;positioning a second portable rf signal jamming device at a second location that is phy
1. A method for jamming a band of frequencies within a finite spatial domain using a plurality of portable rf jamming devices, comprising: positioning a first portable rf signal jamming device at a first location;positioning a second portable rf signal jamming device at a second location that is physically separated from the first location by a first distance;positioning at least a third portable rf signal jamming device at a third location that is physically separated from the first and second locations by a second and third distance, respectively;transmitting a first rf signal in the first portable rf signal jamming device at a first portion of frequency bandwidth from a first transmitter to a first plurality of antennae associated with the first portable rf signal jamming device to produce a first radiation pattern;transmitting a second rf signal in the second portable rf signal jamming device at a second portion of frequency bandwidth from a second transmitter to a second plurality of antennae associated with the second portable rf signal jamming device to produce a second radiation pattern; andtransmitting at least a third rf signal in the third portable rf signal jamming device at a third portion of frequency bandwidth from a third transmitter to a third plurality of antennae associated with the third portable rf signal jamming device to produce a third radiation pattern,the transmitted signals further being characterized such that the combined effect of the impingement of the first, second, and third radiation patterns create a 3-dimensional volume that is jammed over at least the rf frequencies being transmitted. 2. The method according to claim 1, additionally comprising selecting the frequency portions and transmission bandwidths of the first, second and third rf signals of the physically separated first, second and third portable rf signal jamming devices such that a plurality of greater regenerative interference signals are created within the 3-dimensional volume than would result from the first, second, and third rf jamming devices being located at a same location. 3. The method according to claim 2, additionally comprising providing frequency filtering that manipulates a plurality of harmonic frequencies associated with the transmitted frequencies to strengthen the plurality of greater regenerative interference signals. 4. The method according to claim 1, wherein the 3-dimensional volume is physically located between the first, second, and third portable rf signal jamming devices. 5. The method according to claim 1, wherein the 3-dimensional volume created includes the locations of the first, second, and third portable rf signal jamming devices. 6. A system for jamming a band of frequencies within a finite spatial domain, comprising: a first portable rf signal jamming device positioned at a first location, further comprising a transmitter capable of transmitting a first rf signal at a first portion of frequency bandwidth to a first plurality of antennae to produce a first radiation pattern;a second portable rf signal jamming device further comprising a transmitter capable of transmitting a second rf signal at a second portion of frequency bandwidth to a second plurality of antennae to produce a second radiation pattern, the second portable rf signal jamming device being positioned at a second location that is physically separated from the first location by a first distance, and;at least a third portable rf signal jamming device further comprising a transmitter capable of transmitting a third rf signal at a third portion of frequency bandwidth to a third plurality of antennae to produce a third radiation pattern, the third portable rf signal jamming device being positioned at a third location that is physically separated from the first and second locations by a second and third distance, respectively;the system being further characterized such that the combined effect of the impingement of the first, second and third radiation patterns creates a 3-dimensional volume that is jammed over at least the rf frequencies being transmitted. 7. The system according to claim 6, additionally being characterized by the unique selection of the frequency portions and transmission bandwidths of the first, second and third rf signals of the physically separated first, second and third portable rf signal jamming devices such that a plurality of greater regenerative interference signals are created within the 3-dimensional volume than would result from the first, second, and third rf jamming devices being located at a same location. 8. The system according to claim 6, further comprising at least a first frequency filter for manipulating a plurality of harmonic frequencies associated with the first rf signal in order to strengthen the plurality of greater regenerative interference signals. 9. The system according to claim 6, wherein the first, second, and third radiation patterns are polarized in differing orientations. 10. A method for jamming a band of frequencies within a finite spatial domain using a partitioned plurality of portable rf jamming devices, comprising the steps of positioning a first portable rf signal jamming device at a first location;positioning a second portable rf signal jamming device at a second location that is physically separated from the first location by a first distance;positioning at least a third portable rf signal jamming device at a third location that is physically separated from the first and second locations by a second and third distance, respectively;transmitting a first rf signal in the first rf signal jamming device at a first portion of frequency bandwidth from a first transmitter to a first plurality of antennae associated with the first rf signal jamming device to produce a first radiation pattern;transmitting a second rf signal in the second portable rf signal jamming device at a second portion of frequency bandwidth from a second transmitter to a second plurality of antennae associated with the second portable rf signal jamming device to produce a second radiation pattern; andtransmitting at least a third rf signal in the third portable rf signal jamming device at a third portion of frequency bandwidth from a third transmitter to a third plurality of antennae associated with the third portable rf signal jamming device to produce a third radiation pattern, the transmitted signals further being characterized such that the combined effect of the impingement of the first, second, and third radiation patterns create a 3-dimensional volume that is jammed over at least the rf frequencies being transmitted; andmoving at least one of the plurality of portable rf jamming devices, such that the motion of the one portable rf jamming device relative to the others of the plurality of portable rf jamming devices creates a shearing effect in a composite magnetic flux pattern in the 3-dimensional volume, thereby generating additional interference signals within the 3-dimensional volume. 11. The method according to claim 10, additionally comprising selecting the frequency portions and transmission bandwidths of the first, second and third rf signals of the physically separated first, second and third portable rf signal jamming devices such that a plurality of greater regenerative interference signals are created within the 3-dimensional volume than would result from the first, second, and third portable rf jamming devices being located at a same location. 12. The method according to claim 11, additionally comprising providing frequency filtering that manipulates a plurality of harmonic frequencies associated with the transmitted frequencies to strengthen the plurality of greater regenerative interference signals. 13. The method according to claim 10, wherein the 3-dimensional volume is physically located between the first, second, and third portable rf signal jamming devices. 14. The method according to claim 10, wherein the 3-dimensional volume created includes the locations of the first, second, and third portable if signal jamming devices. 15. A system for jamming a band of frequencies within a finite spatial domain, comprising: a first portable rf signal jamming device positioned at a first location, further comprising a transmitter capable of transmitting a first rf signal at a first portion of frequency bandwidth to a first plurality of antennae to produce a first radiation pattern;a second portable if signal jamming device further comprising a transmitter capable of transmitting a second rf signal at a second portion of frequency bandwidth to a second plurality of antennae to produce a second radiation pattern, the second portable rf signal jamming device being positioned at a second location that is physically separated from the first location by a first distance, and;at least a third portable rf signal jamming device further comprising a transmitter capable of transmitting a third rf signal at a third portion of frequency bandwidth to a third plurality of antennae to produce a third radiation pattern, the third portable rf signal jamming device being positioned at a third location that is physically separated from, and in continuous relative motion to, the first and second locations by a second and third distance, respectively;the system being further characterized such that the combined effect of the impingement of the first, second and third radiation patterns creates a 3-dimensional volume that is jammed over at least the if frequencies being transmitted. 16. The system according to claim 15, additionally being characterized by the unique selection of the frequency portions and transmission bandwidths of the first, second and third rf signals of the physically separated first, second and third portable if signal jamming devices such that a plurality of greater regenerative interference signals are created within the 3-dimensional volume than would result from the first, second, and third rf jamming devices being located at a same location. 17. The system according to claim 15, further comprising at least a first frequency filter for manipulating a plurality of harmonic frequencies associated with the first rf signal in order to strengthen the plurality of greater regenerative interference signals. 18. The system according to claim 15, wherein the first, second, and third radiation patterns are polarized in differing orientations. 19. The system according to claim 18, wherein at least one of the first, second, and third radiation patterns are continuously changing the radiation orientations relative to the other two radiation patterns. 20. A method of using three or more jamming units, each jamming unit being separately positionable and pointable, each jamming unit covering a different frequency bands, the method comprising: moving a first jamming unit relative to a second jamming unit; andyawing a first jamming unit relative to an orientation of a third jamming unit.
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