Radio frequency planning and assignment in a discontiguous spectrum environment
First Claim
1. A method of deriving discontiguous RF operating frequencies for a radio communications system, the method comprising:
- (a) tentatively assigning transmit channel center frequencies for a group of RF base station transmitters operating within at least one discontiguous portion of the radio frequency spectrum based on a frequency reuse plan to provide a first block of adjacent transmit channels at a first regular channel spacing; and
(b) optimally shifting the tentatively assigned channel center frequencies of said first block of adjacent transmit channels to minimize interference with a second block of channels adjacent to the discontiguous spectrum portion, said second block of channels having a second regular channel spacing different from said first channel spacing in order to provide a guardband between said first block of channels and said second block of channels, said guardband having a bandwidth that minimizes interference between said first and second blocks of channels while maximizing the number of channels within said first block of channels.
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Accused Products
Abstract
Techniques and systems for formalizing discontiguous spectrum frequency planning maximize system capacity while minimizing the potential for adjacent channel interference. Within the context of an overall system frequency plan, spatial separation can be used to offset overlap resulting from channelization mapping when additional frequencies are not available. Site by site modification and/or design can be used to prevent intermodulation products and/or adjacent channel interference effects. A variety of factors can be taken into account including, for example, control channel position and separation in a new spectrum, probability block utilization, threshold levels for adjacent channel interference, symmetric vs. non-symmetric adjacent channel interference, frequency plan type, Antenna Near Part (ANP) separation, intermodulation effects, local topography, frequency environment conditions, and site availability. These techniques are especially useful for (although not limited to) establishing a downbanded cellular (DBC) radio communication system by overlaying 30 kHz channelization on portions of the Specialized Mobile Radio (SMR) band having 25 kHz channelization.
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Citations
19 Claims
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1. A method of deriving discontiguous RF operating frequencies for a radio communications system, the method comprising:
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(a) tentatively assigning transmit channel center frequencies for a group of RF base station transmitters operating within at least one discontiguous portion of the radio frequency spectrum based on a frequency reuse plan to provide a first block of adjacent transmit channels at a first regular channel spacing; and (b) optimally shifting the tentatively assigned channel center frequencies of said first block of adjacent transmit channels to minimize interference with a second block of channels adjacent to the discontiguous spectrum portion, said second block of channels having a second regular channel spacing different from said first channel spacing in order to provide a guardband between said first block of channels and said second block of channels, said guardband having a bandwidth that minimizes interference between said first and second blocks of channels while maximizing the number of channels within said first block of channels. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 17)
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10. A method of deriving a frequency plan for a cellular radio communications system, the method comprising:
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(a) developing a channel center frequency list for at least one discontiguous portion of the radio frequency spectrum by mapping a first channelization providing a first block of adjacent channels of a first regular channel spacing onto a second channelization providing a second block of adjacent channels of a second regular channel spacing different from said first spacing; (b) tentatively assigning center frequencies from the channel center frequency list to cellular RF base station groups based on a cellular frequency reuse plan to provide said first channelization in said discontiguous spectrum portion; (c) optimally shifting the assigned center frequencies to minimize interference with said second block of channels adjacent to the discontiguous spectrum portion, so as to provide a guardband between said first channel block and said second channel block, said guardband having a bandwidth that minimizes interference between said first channel block and said second channel block while maximizing the number of channels in said first channel block; and (d) transmitting radio signals from the RF base station groups to cellular radiotelephones over the optimally shifted, assigned frequencies. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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18. A downbanded cellular radio system operating on a discontiguous portion of the RF spectrum on a first block of adjacent channels having a first regular channel spacing that differs from a second block of channels in a portion of the RF spectrum adjacent said discontiguous portion, said system comprising:
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a switch, a home location register, a plurality of spatially separated repeaters operating on a first block of channel center frequencies that are regularly spaced and arranged in accordance with a frequency reuse plan, and a plurality of cellular telephones communicating via wireless transmissions with the repeaters, wherein the repeater operating frequencies are assigned within at least one discontiguous portion of the radio spectrum to provide a channelization that differs from the channelization provided in said spectrum portion that lies adjacent to the discontiguous spectrum portion, and the operating frequencies are optimally shifted so that spatial separation between the repeaters is used to minimize interference with channels in the spectrum portion adjacent to the discontiguous spectrum portion and a guardband is provided between said discontiguous spectrum portion channelization and said channelization of said spectrum portion adjacent thereto, said guardband having a bandwidth that minimizes interference while maximizing the number of channels within said discontinuous spectrum portion.
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19. In a downbanded cellular radiotelephone communications system that communicates radio signals over a block of adjacent radio channels having center frequencies that nominally differ from the center frequencies defined by the channelization of a discontiguous portion of the RF spectrum the downbanded system operates within, an improvement comprising:
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selecting control channels to provide best isolation and highest mobile telephone seek probability while optimizing the control channel selection to minimize adjacent channel interference, and shifting the center frequencies of said block of adjacent radio channels to provide a guardband between said discontiguous portion channelization and a spectrum portion adjacent thereto having a different channelization, said guardband having a bandwidth that minimizes adjacent channel interference while maximizing the number of channels within said discontiguous spectrum portion.
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Specification