Method and system for cellular communication with centralized control and signal processing
First Claim
1. A cellular communication system comprising:
- radio frequency receiving apparatus at a cell site, said apparatus comprising;
a radio frequency energy receiver for receiving radio frequency (RF) energy at frequencies within a predetermined range of radio frequencies and modulated by data signals, wherein the RF energy has a predetermined spectral occupancy;
downconverting means coupled to said radio frequency receiver for converting the data signal modulated RF energy received by said radio frequency receiver to energy modulated by said data signals having a frequency lower than said predetermined range of frequencies of energy received by said radio frequency receiver, wherein the lower frequency energy has a spectral occupancy which is the same as the predetermined spectral occupancy; and
an optical signal transmitter coupled to said downconverting means, wherein said optical signal transmitter transmits optical signals modulated by said energy modulated by said data signals having a frequency lower than said predetermined range of frequencies of energy received by said radio frequency receiver;
a telephone switching office comprising;
an optical signal receiver for converting the optical signals into electrical signals; and
switching and control means coupled to said optical signal receiver for providing output signals corresponding to said electrical signals; and
at least one optical fiber interconnecting said optical signal transmitter with said optical signal receiver.
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Abstract
A cellular system includes wide band digital signal processing at a central office that is connected to one or more cellular sites by optical fiber cables. Data signals are exchanged between the cell sites and the central office using intensity modulated optical data signals. Control of call supervision and handling is consolidated in the central office to enable dynamic variation of wireless service reception and transmission capabilities at a cell site in response to changing demands for wireless service. Each antenna at a cell site may receive and transmit an assigned RF bandwidth using any frequency within that band. The central office processes the entire received spectrum for controlling detection and transmitting range, RF carrier frequency and transmit power level for an active channel link established between a cellular station and the system in a cell site.
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Citations
11 Claims
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1. A cellular communication system comprising:
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radio frequency receiving apparatus at a cell site, said apparatus comprising;
a radio frequency energy receiver for receiving radio frequency (RF) energy at frequencies within a predetermined range of radio frequencies and modulated by data signals, wherein the RF energy has a predetermined spectral occupancy;
downconverting means coupled to said radio frequency receiver for converting the data signal modulated RF energy received by said radio frequency receiver to energy modulated by said data signals having a frequency lower than said predetermined range of frequencies of energy received by said radio frequency receiver, wherein the lower frequency energy has a spectral occupancy which is the same as the predetermined spectral occupancy; and
an optical signal transmitter coupled to said downconverting means, wherein said optical signal transmitter transmits optical signals modulated by said energy modulated by said data signals having a frequency lower than said predetermined range of frequencies of energy received by said radio frequency receiver;
a telephone switching office comprising;
an optical signal receiver for converting the optical signals into electrical signals; and
switching and control means coupled to said optical signal receiver for providing output signals corresponding to said electrical signals; and
at least one optical fiber interconnecting said optical signal transmitter with said optical signal receiver. - View Dependent Claims (4)
wherein said cell site further comprises frequency modulating means coupled to said downconverting means for converting said downconverted energy modulated by said data signals to frequency modulated signals; wherein said optical signal transmitter is coupled to said frequency modulating means for transmitting optical signals modulated by said frequency modulated signals; and
wherein said office further comprises frequency discriminating means coupled to said optical signal receiver for frequency demodulating said electrical signals.
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2. A cellular communication system comprising:
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a telephone switching office comprising;
switching and control means for providing data signals; and
an optical signal transmitter coupled to said switching and control means for transmitting optical signals analogically modulated by said data signals;
radio frequency transmitting apparatus at a cell site, said apparatus comprising;
an optical signal receiver for converting optical signals into electrical signals, wherein said electrical signals have a predetermined spectral occupancy;
upconverting means coupled to said optical signal receiver for converting said electrical signals into radio frequency energy at frequencies in a predetermined range of frequencies, wherein the radio frequency energy has a spectral occupancy which is the same as the predetermined spectral occupancy; and
a radio frequency energy transmitter coupled to said upconverting means for transmitting the radio frequency energy into which said upconverter converts said electrical signals, wherein said transmitted radio frequency energy is at the frequencies within the predetermined range of radio frequencies at which said transmitter transmits modulated radio frequency energy; and
at least one optical fiber interconnecting said optical signal transmitter with said optical signal receiver.
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3. A cellular communication system comprising:
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radio frequency (RF) receiving and transmitting apparatus at a cell site, said apparatus comprising;
a radio frequency energy receiver for receiving radio frequency energy at frequencies within a predetermined range of radio frequencies and modulated by first data signals, wherein the received RF energy has a first spectral occupancy; and
a radio frequency energy transmitter for transmitting radio frequency energy at frequencies within a predetermined range of frequencies and modulated by second data signals, wherein the transmitted RF energy has a second spectral occupancy;
said cell site comprising;
downconverting means coupled to said receiver for converting the modulated radio frequency energy received by said receiver to intermediate frequency energy modulated by said first data signals and having a frequency lower than said predetermined range of frequencies of energy received by said receiver, wherein the intermediate frequency energy has the first spectral occupancy;
a first optical signal transmitter coupled to said downconverting means for transmitting optical signals modulated by said intermediate frequency energy;
a first optical signal receiver for converting optical signals into first electrical signals, wherein said electrical signals have the second spectral occupancy; and
upconverting means coupled to said first optical signal receiver for converting said first electrical signals into radio frequency energy at frequencies in said predetermined range of frequencies at which said transmitter transmits modulated radio frequency energy, said radio frequency energy transmitter being coupled to said upconverting means for transmitting the radio frequency energy into which said upconverter converts said first electrical signals;
a telephone switching office comprising;
a second optical signal receiver for converting optical signals into second electrical signals;
switching and control means coupled to said second optical signal receiver for providing output signals corresponding to said second electrical signals, said switching and control means also being connectable to a source of data signals for providing the second data signals; and
a second optical signal transmitter coupled to said switching and control means for transmitting analogically modulated optical signals corresponding to said second data signals; and
at least one optical fiber interconnecting said first optical signal transmitter with said second optical signal receiver and interconnecting said second optical signal transmitter with said first optical signal receiver. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11)
wherein said cell site further comprises frequency modulating means coupled to said downconverting means for converting said downconverted energy modulated by said first data signals to first frequency modulated signals; wherein said first optical signal transmitter is coupled to said frequency modulating means for transmitting optical signals modulated by said first frequency modulated signals; and
wherein said office further comprises frequency discriminating means coupled to said second optical signal receiver for frequency demodulating said second electrical signals.
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6. The communication system of claim 3,
wherein said switching and control means further comprises means for processing said second electrical signals for determining RF power levels of said RF energy modulated by the first data signals. -
7. The communication system of claim 3,
wherein said switching and control means further comprises means for processing said output signals corresponding to said second electrical signals according to at least one selected wireless protocol. -
8. The communication system of claim 3,
wherein said RF energy receiver further comprises a plurality of receiving means for receiving said RF energy modulated by said first data signals, and wherein said switching and control means further comprises a modem and means for selecting the receiving means from which the corresponding output signals are processed at the modem. -
9. The communication system of claim 3,
wherein said RF energy transmitter further comprises a plurality of transmitting means for transmitting RF energy modulated by second data signals, and wherein said switching and control means further comprises means for selecting the transmitting means from which upconverted second electrical signals corresponding to said second data signals are transmitted. -
10. The communication system of claim 3,
wherein said switching and control means further comprises means for controlling power levels at which the RF energy transmitter transmits said RF energy into which said upconverter converts said first electrical signals. -
11. The communication system of claim 3,
wherein said switching and control means further comprises means for controlling a frequency at which the RF energy transmitter transmits said RF energy into which said upconverter converts said first electrical signals.
Specification