System and method for selective transmission and reception for stationary wireless networks

The invention claimed is: 1. A selective wireless transmission system, the system including: an end user equipment, a primary base station, a core network, and a selective server; the end user equipment transmits a request for transmission to the primary base station receiver; the primary base station authenticates the end user equipment using a cellular network authentication process, searches for a time slot data for the end user equipment from the selective server, determines whether the time slot is open for transmission, steers a beam towards the end user equipment when time slot is open for transmission, and enables transmission from the end user equipment, wherein the enabling is performed by the primary base station; and the core network receives transmission from the end user equipment. 2. The system of claim 1 , the system further including: an external program initiates an incoming call; the core network determines whether an end user equipment is transmitting the incoming transmission to the primary base station, if the primary base station is being transmitted to, the core network transmits a signal to the primary base station to steer the beam towards the end user equipment; and the primary base station steers the beam towards the end user equipment when time slot is open for transmission and enables transmission from the end user equipment. 3. The system of claim 2 , the system further including the core network transmits the signal to a secondary base station to steer the beam towards the end user equipment when the end user equipment is not within the same coverage as the primary base station; and the secondary base station steers the beam towards the end user equipment when time slot is open for transmission and enables transmission from the end user equipment. 4. The system of claim 3 , wherein the primary base station and the secondary base station is stationary. 5. The system of claim 1 , wherein the selective server calculates a time slot data based on a time period to cover the entire Radio Frequency (RF) coverage area by the primary base station and the time period to cover one group of end user equipment. 6. The system of claim 1 , wherein the selective server is connected to a plurality of core networks. 7. A method of selective wireless transmission system, the method including: transmitting, by an end user equipment, a request for transmission to a primary base station receiver; authenticating the end user equipment with a cellular network authentication process, wherein the authentication process is performed by a primary base station processor; searching a time slot data for the end user equipment from a selective server memory, wherein the searching is performed by the primary base station processor; determining whether the time slot is open for transmission, wherein the determining is performed by the primary base station processor; steering a beam towards the end user equipment when the time slot is open for transmission, wherein the steering is performed by a primary base station; enabling transmission from the end user equipment, wherein the enabling is performed by the primary base station; and transmitting the transmission by the end user equipment through a core network. 8. The method of claim 7 , the method further including initiating an incoming transmission, wherein the initiating is performed by an external program; determining whether an end user equipment is transmitting the incoming transmission to the primary base station, wherein the determining is performed by a core network; transmitting a signal to the primary base station to steer the beam towards the end user equipment when the end user equipment is transmitting the incoming transmission to the primary base station, wherein the transmitting of the signal to the primary base station is performed by the core network; enabling reception of the signal by the end user equipment, wherein the enabling is performed by the primary base station; receiving the signal, wherein the receiving is performed by an end user equipment receiver; and transmitting the signal to the core network to terminate the transmission assigned to the time slot data, wherein the transmitting of the signal to the core network is performed by the end user equipment transmitter. 9. The method of claim 8 , the method further including transmitting the signal to a secondary base station to steer the beam towards the end user equipment when the end user equipment is not transmitting the incoming transmission to the primary base station, the transmitting of the signal to the secondary base station is performed by the core network. 10. The method of claim 7 , the method further including configuring the primary base station to connect with a selective server during an installation and provisioning process, wherein the configuring is performed by the primary base station; transmitting a primary base station location data and a primary base station identification data to the selective server, wherein the transmitting of the primary base station location data and primary base station identification data is performed by a primary base station transmitter; receiving the primary base station location data and the primary base station identification data, wherein the receiving of the primary base station location data and the primary base station identification data is performed by the selective server; and storing the primary base station location data and the primary base station identification data to the selective server memory, wherein the storing is performed by the selective server. 11. The method of claim 10 , the method further including: configuring the end user equipment to connect with the selective server during the installation and provisioning process, wherein the configuring is performed by the primary base station; transmitting a test call to the selective server, wherein the transmitting the test call to the selective server is performed by the end user equipment transmitter; receiving the test call, wherein the receiving the test call is performed by the selective server; extracting a user equipment location data and a user equipment identification data from the test call, wherein the extracting is performed by the selective server; and storing the user equipment location data and the user equipment identification data to the server memory, wherein the storing is performed by the selective server. 12. The method of claim 7 , the method further including: determining whether a connection entity is available for the configuration of the selective server, wherein the determining is performed by the selective server; and locating and connecting to the selective server when the connection entity is intranet, wherein the locating and connecting is performed by the core network. 13. The method of claim 12 , the method further including: locating and connecting to the selective server when the connection entity is internet, wherein the locating and connecting is performed by the core network.