Simultaneous sharing of spectrum in wireless communications

We claim: 1. A system comprising: a first Base Station (BS) in a first cell; and a second BS in the first cell, wherein the first BS and the second BS belong to the same mobile network operator and are disposed at predetermined locations of the first cell, wherein the first cell is a geographical area comprising an interior region having a predetermined area surrounding a center of the first cell and a first exterior region comprising at least a portion of a remainder of the first cell, the first cell having a first region comprising a first part of the interior region and a first part of the first exterior region; and a second region comprising a second part of the interior region and a second part of the first exterior region, wherein the second region has an overlapping boundary with the first region, wherein the first BS and the second BS each comprises a first antenna to service the first region and a second antenna to service the second region, wherein the first BS is to: send downlink signals through the first antenna of the first BS to a User Equipment (UE) in the first part of the interior region in a first band of a frequency spectrum; and send downlink signals through the first antenna of the first BS to a User Equipment (UE) in the first part of the first exterior region in a second band of the frequency spectrum; and send downlink signals through the second antenna of the first BS to a User Equipment (UE) in the second part of the interior region in a third band of a frequency spectrum; and send downlink signals through the second antenna of the first BS to a User Equipment (UE) in the second part of the first exterior region in the second band of a frequency spectrum; and, wherein the second BS is to: send downlink signals through the first antenna of the second BS to a User Equipment (UE) in the first part of the interior region in the first band of a frequency spectrum; and send downlink signals through the first antenna of the second BS to a User Equipment (UE) in the first part of the first exterior region in the second band of a frequency spectrum; and send downlink signals through the second antenna of the second BS to a User Equipment (UE) in the second part of the interior region in the third band of a frequency spectrum; and send downlink signals through the second antenna of the second BS to a User Equipment (UE) in the second part of the first exterior region in the second band of a frequency spectrum; and wherein the first BS and the second BS are configured to send the downlink signals in the first band of the frequency spectrum at the same time without blanking, send the downlink signals in the second band of the frequency spectrum at the same time without blanking, and send the downlink signals in the third band of the frequency spectrum at the same time without blanking. 2. The system of claim 1 , wherein the frequency spectrum further comprises a fourth band and a fifth band and wherein the system comprises: a third BS in a second cell and belonging to the same mobile network operator, wherein the second cell has an overlapping boundary with the first cell and wherein the third BS is to send downlink signals to a UE in a first exterior region of the second cell in the fourth band; a fourth BS in the second cell and belonging to the same mobile network operator, wherein the fourth BS is to send downlink signals to a UE in the first exterior region of the second cell in the fourth band; a fifth BS in a third cell and belonging to the same mobile network operator, wherein the third cell has an over-lapping boundary with the first cell and the second cell and wherein the fifth BS is to send downlink signals to a UE in a first exterior region of the third cell in the fifth band; and a sixth BS in the third cell and belonging to the same mobile network operator, wherein the sixth BS is to send downlink signals to a UE in the first exterior region of the third cell in the fifth band. 3. The system of claim 1 , wherein the first BS comprises: a first antenna to service a first region of the first cell; and a second antenna to service a second region of the first cell, wherein the second BS comprises: a third antenna to service the first region of the first cell; and a fourth antenna to service the second region of the first cell, wherein the first BS is to: transmit, through the first antenna, a preamble signal having a combination of a preamble signal and a frequency sub-band different than that transmitted through the second antenna, the third antenna, and the fourth antenna. 4. The system of claim 3 , wherein the combination of the preamble signal and the frequency sub-band transmitted by the first antenna is different than that transmitted through antennas of BS's in other cells that have an overlapping boundary with the first cell. 5. The system of claim 1 , comprising: a third BS in a second cell and belonging to the same mobile network operator, the second cell having an overlapping boundary with the first cell; and a fifth BS in a third cell and belonging to the same mobile network operator, the third cell having an overlapping boundary with the first cell and the second cell, wherein the first BS is to send a first pilot signal in a plurality of resource elements (REs) of a physical resource block (PRB), the third BS is to send a second pilot signal in a plurality of REs of the PRB, and the fifth BS is to send a third pilot signal in a plurality of REs of the PRB. 6. The system of claim 5 , wherein each of the first cell, the second cell, and the third cell comprises: a first set of regions; and a second set of regions, each region of the second set of regions having an overlapping boundary with a region of the first set of regions, each of the first BS, the third BS, and the fifth BS comprises a first set of antennas to service the first set of regions in its respective cell and a second set of antennas to service the first set of regions in its respective cell, first set of antennas of the first BS are to send the first pilot signal in a first set of REs of the PRB, second set of antennas of the first BS are to send the first pilot signal in a second set of REs of the PRB, first set of antennas of the third BS are to send the second pilot signal in the first set of REs of the PRB, second set of antennas of the third BS are to send the second pilot signal in the second set of REs of the PRB, first set of antennas of the fifth BS are to send the third pilot signal in the first set of REs of the PRB, and second set of antennas of the fifth BS are to send the third pilot signal in the second set of REs of the PRB. 7. The system of claim 6 , comprising: a fourth BS in the second cell and belonging to the same mobile network operator; and a sixth BS in the third cell and belonging to the same mobile network operator, wherein each of the second BS, the fourth BS, and the sixth BS comprises a first set of antennas to service the first set of regions in its respective cell and a second set of antennas to service the second set of regions in its respective cell, first set of antennas of the second BS are to send the first pilot signal in a third set of REs of the PRB, second set of antennas of the second BS are to send the first pilot signal in a fourth set of REs of the PRB, first set of antennas of the fourth BS are to send the second pilot signal in the third set of REs of the PRB, second set of antennas of the fourth BS are to send the second pilot signal in the fourth set of REs of the PRB, first set of antennas of the sixth BS are to send the third pilot signal in the third set of REs of the PRB, and second set of antennas of the sixth BS are to send the third pilot signal in the fourth set of REs of the PRB.