Add to ORKGThe probability of exceeding interference power levels and the duration of interference at the Deep Space Network (DSN) antenna is calculated parametrically when the state vector of an Earth-orbiting satellite over the DSN station view area is not known. A conditional probability distribution function is derived, transformed, and then convolved with the interference signal uncertainties to yield the probability distribution of interference at any given instant during the orbiter's mission period. The analysis is applicable to orbiting satellites having circular orbits with known altitude and inclination angle
As low Earth orbit (LEO) satellite communication systems are gaining increasing popularity, new theo...
The single entry interference problem is treated for frequency sharing between the broadcasting sate...
The Earth Exploration Satellites operating in the 8025-8400 MHz band can have strong adjacent band e...
The interference problems faced by nongeostationary satellites may be of major significance. A gener...
It is often desirable to determine the potential for radio frequency interference between earth stat...
The trade-offs between the number of antennas at Deep Space Network (DSN) Deep-Space Communications ...
This report presents the complete analysis and formulas necessary to quantify the interference exper...
We consider on the move satellite systems with geostationary satellites. Using the antenna pointing ...
This letter characterizes the contact angle distribution based on the condition that the relay low e...
This article investigates the transmission delay of a Low Earth Orbit (LEO) satellite communication ...
Providing truly ubiquitous connectivity requires development of low Earth orbit (LEO) satellite Inte...
This letter characterizes the contact angle distribution based on the condition that the relay low e...
Computer prediction of network radio frequency interference between multiple satellite
A method for determining optimal radio frequency channels for the Deep Space Network is described. C...
Mutual interferences among geostationary satellite communication systems determine the permitted spa...
As low Earth orbit (LEO) satellite communication systems are gaining increasing popularity, new theo...
The single entry interference problem is treated for frequency sharing between the broadcasting sate...
The Earth Exploration Satellites operating in the 8025-8400 MHz band can have strong adjacent band e...
The interference problems faced by nongeostationary satellites may be of major significance. A gener...
It is often desirable to determine the potential for radio frequency interference between earth stat...
The trade-offs between the number of antennas at Deep Space Network (DSN) Deep-Space Communications ...
This report presents the complete analysis and formulas necessary to quantify the interference exper...
We consider on the move satellite systems with geostationary satellites. Using the antenna pointing ...
This letter characterizes the contact angle distribution based on the condition that the relay low e...
This article investigates the transmission delay of a Low Earth Orbit (LEO) satellite communication ...
Providing truly ubiquitous connectivity requires development of low Earth orbit (LEO) satellite Inte...
This letter characterizes the contact angle distribution based on the condition that the relay low e...
Computer prediction of network radio frequency interference between multiple satellite
A method for determining optimal radio frequency channels for the Deep Space Network is described. C...
Mutual interferences among geostationary satellite communication systems determine the permitted spa...
As low Earth orbit (LEO) satellite communication systems are gaining increasing popularity, new theo...
The single entry interference problem is treated for frequency sharing between the broadcasting sate...
The Earth Exploration Satellites operating in the 8025-8400 MHz band can have strong adjacent band e...