George A Livergood, Age 74Olathe, KS

2013020, Aug 8, 2013

Feb 6, 2013

13/760821

George A. Livergood - Overland Park KS, US

H04B 7/185

455430, 455 133

A hybrid satellite communication system in which a hub station transmits signals to remote stations through a satellite at a relatively low frequency which is unaffected by weather effects and in which the remote stations transmit signals to the hub station at a relatively higher frequency which enables the use of more economical equipment at the remote stations. The hub station senses the signal quality or strength received from each remote station and transmits power control signals to remote stations with poor signal strengths to cause such remote stations to increase their output power to overcome weather effects. The power control signals are transmitted on the lower frequency to prevent the power control signals from being masked by the weather effects.

2022024, Aug 4, 2022

Dec 7, 2021

17/544662

John Moroney - , US
George A. Livergood - Rogers AR, US

H04B 7/185

An electromagnetic pulse (EMP) resistant telecommunications system includes core components mounted within and shielded by a Faraday cage. The components include a data source or storage device. An ethernet switch selectively connects the data source or storage device to a primary satellite router and a post-EMP satellite router. Telecommunications signals are output from and input to the core components via low noise blocks (LNBs) and block upconverters (BUCs). A method of resisting EMP interference for a telecommunications system includes the steps of enclosing and shielding core components in a Faraday cage and providing output via LNBs and BUCs to an antenna subsystem. The antenna subsystem can include one or more antenna elements with configurations chosen from the group comprising: parabolic dish; array; unidirectional; and omnidirectional.

2022024, Aug 4, 2022

Apr 15, 2022

17/722140

John Moroney - , US
George A. Livergood - Rogers AR, US

H05K 9/00
H04B 7/185
H01Q 3/02
H02J 9/06

An electromagnetic pulse (EMP) resistant telecommunications (telecom) system includes core components mounted within and shielded by a Faraday cage. The components include a data source or storage device. An ethernet switch selectively connects the data source or storage device to a primary satellite router and a post-EMP satellite router. Telecom signals are output from and input to the core components via low noise blocks (LNBs) and block upconverters (BUCs). A method of resisting EMP interference for a telecommunications system includes the steps of enclosing and shielding core components in a Faraday cage and providing output via LNBs and BUCs to an antenna subsystem. The antenna subsystem can include one or more antenna elements with configurations chosen from the group comprising: parabolic dish; array; unidirectional; and omnidirectional. The EMP-resistant telecom can optionally be combined with a signal regenerating subsystem and used with a signal regenerating method.

2023011, Apr 13, 2023

Nov 22, 2022

17/992237

John Moroney - Jupiter FL, US
George A. Livergood - Rogers AR, US

H01Q 1/40
H04B 7/185
H05K 9/00
H01Q 21/00

An electromagnetic pulse (EMP) resistant telecommunications (telecom) system includes core components mounted within and shielded by a Faraday cage. The components include a data source or storage device. An ethernet switch selectively connects the data source or storage device to a primary satellite router and a post-EMP satellite router. Telecom signals are output from and input to the core components via low noise blocks (LNBs) and block upconverters (BUCs). A method of resisting EMP interference for a telecommunications system includes the steps of enclosing and shielding core components in a Faraday cage and providing output via LNBs and BUCs to an antenna subsystem. The antenna subsystem can include one or more antenna elements with configurations chosen from the group comprising: parabolic dish; array; unidirectional; and omnidirectional. The EMP-resistant telecom can optionally be combined with a signal regenerating subsystem and used with a signal regenerating method.

2021032, Oct 14, 2021

Apr 10, 2020

16/845566

- Jupiter FL, US
John Moroney - Jupiter FL, US
Sean Thomas - Boca Raton FL, US
George A. Livergood - Rogers AR, US

H04B 7/185
H04B 7/195

A hybrid satellite communication system in which a hub station transmits signals to remote stations through a satellite at a relatively low frequency unaffected by weather effects and in which the remote stations transmit signals to the hub station at a relatively higher frequency which enables use of more economical equipment at remote stations. The hub station senses signal quality or strength received from each remote station and transmits power control signals to remote stations with poor signal strengths to cause such remote stations to increase output power to overcome weather effects. The power control signals are transmitted on the lower frequency to prevent the power control signals from being masked by the weather effects. A communications satellite can the either geostationary or low Earth orbit (LEO). Data can also be transmitted on the relatively low frequency. The communication system can utilize antennae with dish, array and other suitable configurations.

2015023, Aug 20, 2015

May 5, 2015

14/704876

- Rogers AR, US
George A. Livergood - Olathe KS, US

H04W 52/24
H04W 72/04
H04B 7/185

A hybrid satellite communication system in which a hub station transmits signals to remote stations through a satellite at a relatively low frequency which is unaffected by weather effects and in which the remote stations transmit signals to the hub station at a relatively higher frequency which enables the use of more economical equipment at the remote stations. The hub station senses the signal quality or strength received from each remote station and transmits power control signals to remote stations with poor signal strengths to cause such remote stations to increase their output power to overcome weather effects. The power control signals are transmitted on the lower frequency to prevent the power control signals from being masked by the weather effects.