Method and apparatus for eliminating intermodulation interference in cellular telephone systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-007/00
H04J-001/16
출원번호
US-0377443
(1999-08-19)
발명자
/ 주소
Lee, William Chien-Yeh
Farrill, F. Craig
출원인 / 주소
Cellco Partnership
대리인 / 주소
Gates & Cooper LLP
인용정보
피인용 횟수 :
10인용 특허 :
20
초록▼
The invention describes method and apparatus for reducing intermodulation interference caused by reception of undesired signals in wireless receivers. The apparatus comprises an antenna for receiving the desired signal, a low noise amplifier for amplifying this signal, an adjustable attenuator, and
The invention describes method and apparatus for reducing intermodulation interference caused by reception of undesired signals in wireless receivers. The apparatus comprises an antenna for receiving the desired signal, a low noise amplifier for amplifying this signal, an adjustable attenuator, and a transmitting antenna to transmit the amplified signal to the wireless receiver. By increasing the strength of the desired signal, the present invention eliminates intermodulation distortion caused by the undesirable signals. The invention also describes an apparatus further comprising an adjustable filter for limiting the spectral content of the transmitted amplified signal, and an apparatus for selecting the characteristics of the adjustable filter in accordance with the measured characteristics of the desired and undesired signals.
대표청구항▼
The invention describes method and apparatus for reducing intermodulation interference caused by reception of undesired signals in wireless receivers. The apparatus comprises an antenna for receiving the desired signal, a low noise amplifier for amplifying this signal, an adjustable attenuator, and
The invention describes method and apparatus for reducing intermodulation interference caused by reception of undesired signals in wireless receivers. The apparatus comprises an antenna for receiving the desired signal, a low noise amplifier for amplifying this signal, an adjustable attenuator, and a transmitting antenna to transmit the amplified signal to the wireless receiver. By increasing the strength of the desired signal, the present invention eliminates intermodulation distortion caused by the undesirable signals. The invention also describes an apparatus further comprising an adjustable filter for limiting the spectral content of the transmitted amplified signal, and an apparatus for selecting the characteristics of the adjustable filter in accordance with the measured characteristics of the desired and undesired signals. vices in the network from the NMC, b. declaring said specific communications device as broken if the NMC detects at least two changes, said changes being chosen from the group comprising: b1. the NMC receives no replies to its polling requests directed at the specific communications device, b2. the NMC receives no replies to its polling requests directed at communications devices which can only be contacted by the NMC through the specific communications device b3. detecting no traffic flowing in any lines to or from the specific communications device, b4. changes in line status bits on lines connected to the specific communications device. 4. A method as defined in claim 1, 2, or 3 where the communications device or devices is either a single object or aggregates of objects. 5. A method as defined in claim 1, 2, or 3 where the communications device or devices is either a single object or aggregates of objects, none of which has replied to requests for information (i.e. unmanaged). 6. A method as claimed in claim 3 wherein the specific communications device is a line having more than two ends, said line being treated as a single device from the point of view of breaks. 7. A method of determining a line break of a line connected to communications devices in a communications network from a network management computer (NMC) connected to the network, said method comprising: a. determining that the communications devices are not broken b. declaring the line to be broken if all the conditions in a set of conditions are met concurrently, said set of conditions being chosen from the group comprising: b1. (i) detecting zero traffic on the line, ((ii) detecting a change in line interface status, b2. (i) having no traffic reported on the line after a predetermined amount of time, (ii) detecting no changes in line status after a predetermined amount of time. 8. A method of determining a transit delay of frames of a first communications device in a network through the use of a network management computer (NMC), the first communications device and the NMC being connected to said network, the method comprising: (a) determining the transit delay of frames of a first set of devices connected between the first communications device and the NMC; (b) determining the transit delay of frames of a second set of devices connected to the first communications device, said second set of devices being accessible to the NMC only through the first communications device; (c) manipulating the results of steps (a) and (b) to determine the operating characteristics of the first communications device; wherein all the operating characteristics are determined relative to the NMC, wherein the transit delay of frames is a mean transit delay of frames, each of the first set of devices is closer to the NMC than the first communications device, and step (c) is carried out in accordance with the process: T(x)=((w+(x)-W-))/2 where T(x): the mean frame transit delay for the first communications device, W(a): the mean round trip time taken between a poll request from the NMC to a communications device a and the receipt of the reply by the NMC (measured over the last N sampling periods), W-(x): The NMC's perception of the mean value of W(z) for all devices z connected to the first communications device, all devices z being in the first set of devices and are not broken, W+(x): The NMC's perception of the mean value of W(y) for all devices y connected to the first communications device, all devices y being in the second set of devices and are not broken. 9. A method of determining a mean drop rate of a first communications device in a network through the use of a network management computer (NMC), the first communications device and the NMC being connected to said network, the method comprising: (a) determining the mean drop rate of a first set of devices connected between the first communications device and the NMC; (b) determining the mean drop rate of a second set of devices connected to the first communications device, said second set of devices being accessible to the NMC only through the first communications device; (c) manipulating the results of steps (a) and (b) to determine the operating characteristics of the first communications device; wherein all the operating characteristics are determined relative to the NMC, wherein the mean drop rate is a mean drop rate of frames, each of the first set of devices is closer to the NMC than the first communications device, and step (c) is carried out in accordance with the process: D(x)=((L+(x)-L-(x)/2, and L(X1)=1-A(x1) where A(x1): the fraction of poll requests from the NMC to a device x1 for which the NMC receives replies (measured over the last M sampling periods), (wherein x must not be broken), C(x): the mean frame drop rate in the first communications device, L(c): NMC's perception of the loss rate to a device c and back, L-(x): the NMC's perception of the mean value of L(z) for all devices z connected to the first communications device, each device z being in the first set of devices and is not broken, and L+(x): the NMC's perception of the mean value of L(y) for all devices y connected to the first communications device, each device y being in the second set of devices and is not broken. 10. A method of determining a break state transit delay of frames of a first communications device in a network through the use of a network management computer (NMC), the first communications device and the NMC being connected to said network, the method comprising: (a) determining the break state of a first set of devices connected between the first communications device and the NMC; (b) determining the break state of a second set of devices connected to the first communications device, said second set of devices being accessible to the NMC only through the first communications device; (c) manipulating the results of steps (a) and (b) to determine the operating characteristics of the first communications device; wherein all the operating characteristics are determined relative to the NMC, wherein steps (a) and (b) comprises polling the first communications device along with the first and second set of devices, said polling being accomplished from the NMC and determining if the NMC receives replies to its polling requests, the method further includes detecting traffic flow in lines to and from the first communications device and monitoring changes in line status bits on lines connected to the first communications device, step (c) comprises declaring the first communications device as broken if the NMC detects at least two changes, said changes being chosen from the group comprising: c1. the NMC receives no replies to its polling requests directed at the first communications device, c2. the NMC receives no replies to its polling requests directed at the second set of devices, c3. detecting no traffic flowing in any lines to or from the specific communications device, c4. changes in line status bits on lines connected to the first communications device. 11. A method of determining a break state of a first communications device in a network through the use of a network management computer (NMC), the first communications device and the NMC being connected to said network, the method comprising: (a) determining the break state of a first set of devices connected between the first communications device and the NMC; (b) determining the break state of a second set of devices connected to the first communications device, said second set of devices being accessible to the NMC only through the first communications device; (c) manipulating the results of steps (a) and (b) to determine the operating characteristics of the first communications device; wherein all the operating characteristics are determined relative to the NMC, wherein the first communications
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