Method and apparatus for beamforming

The invention claimed is: 1. A method of tactical communication, the method comprising: receiving information indicating a tactical situation associated with a target area, wherein the tactical situation is one of a missile in-flight, an eavesdropper, a signal jammer, and a transceiver located in the target area; performing a beamforming process including instructing transmission of a first set of one or more signaling beams from a first set of one or more transmitters toward the target area; performing a second beamforming process including instructing transmission of a second set of one or more signaling beams from a second set of one or more transmitters toward the target area; and simultaneously transmitting (i) the first set of one or more signaling beams from the first set of one or more transmitters toward the target area and (ii) the second set of one or more signaling beams from the second set of one or more transmitters toward the target area, wherein the second set of one or more transmitters is not co-located with the first set of one or more transmitters. 2. The method of claim 1 wherein performing the second beamforming process comprises: determining the second set of one or more signaling beams of the second set of one or more transmitters according to an algorithm known to the transceiver located in the target area; explicitly communicating an identity of the second set of one or more signaling beams of the second set of one or more transmitters to the transceiver located in the target area via a well protected channel; or conveying the identity of the second set of one or more signaling beams of the second set of one or more transmitters to the transceiver located in the target area using hints or secret codes that are mutually known to the second set of one or more transmitters and the transceiver. 3. The method of claim 1 , wherein the tactical situation is associated with a first foe, and wherein the plurality first and second sets of signaling beams are for generating interference inhibiting communication by the first foe with a second foe. 4. The method of claim 1 , wherein the tactical situation is associated with a friend, and wherein the first and second sets of signaling beams are for generating decodable signal for enhancing communication with the friend. 5. The method of claim 1 further comprising: determining the target area associated with the tactical situation; wherein the target area is a present location of the tactical situation or an anticipated future location of the tactical situation. 6. The method of claim 1 further comprising at least one of: determining the first set of one or more transmitters from a set of transmitters available for transmission to the target area; determining the first set of beams from a set of beams available at the first set of one or more transmitters; and determining resources from a set of communication resources available to operate on the first set of beams of the first set of one or more transmitters. 7. The method of claim 6 wherein the set of communication resources available to operate include one or more physical layer parameters including at least one of a frequency, channel, time, space, power, and a code sequence. 8. The method of claim 1 wherein performing the beamforming process comprises: performing joint beam scheduling with the first set of one or more transmitters, wherein the first set of one or more transmitters is part of a set of transmitters that are capable of serving the target area. 9. The method of claim 8 wherein performing joint beam scheduling with the first set of one or more transmitters that are capable of serving the target area comprises: calculating a joint beamforming vector on a per-user basis using at least one of instantaneous channel feedback information or measured channel feedback information. 10. Network equipment for performing the method according to claim 1 in a communication system, the network equipment being configured to communicate with other equipment in the system, the network equipment including a processor and an associated memory unit, the processor configured to: receive information indicating a tactical situation associated with a target area, wherein the tactical situation is one of a missile in-flight, an eavesdropper, a signal jammer, and a transceiver located in the target area; and perform a beamforming process including instructing transmission of the first set of one or more signaling beams from the first set of one or more transmitters toward the target area, wherein: the network equipment further includes the first set of one more transmitters and the second set of one or more transmitters; the second set of one or more transmitters is not co-located with the first set of one or more transmitters; and the network equipment is further configured to simultaneously transmit (i) the first set of one or more signaling beams from the one or more transmitters toward the target area and (ii) the second set of one or more signaling beams from the second set of one or more transmitters toward the target area. 11. The network equipment of claim 10 wherein the processor is configured to determine the tactical situation is associated with a first foe, and wherein the first and second sets of signaling beams are for generating interference for inhibiting communication by the first foe with a second foe. 12. The network equipment of claim 10 wherein processor is configured to determine the tactical situation is associated with a friend, and wherein the first and second sets of signaling beams are for generating decodable signal for enhancing communication with the friend. 13. The network equipment of claim 10 wherein processor is configured to determine the target area associated with the tactical situation, wherein the target area is a present location of the tactical situation or an anticipated future location of the tactical situation. 14. The network equipment of claim 10 wherein processor is configured to at least one of: determine the first set of one or more transmitters from a set of transmitters available for transmission toward the target area; determine the first set of beams from a set of beams available at the first set of one or more transmitters; and determine resources from a set of communication resources available for operation of the first set of beams of the first set of one or more transmitters. 15. The network equipment of claim 10 wherein the one or more transmitters are capable of serving the target area, wherein the processor is configured to perform joint beam scheduling with a set of transceivers that are capable of serving the target area to determine the first set of one or more transmitters; and signal a joint beam schedule to the first set of one or more transmitters. 16. The network equipment of claim 10 further comprising the first set of one or more transmitters. 17. The network equipment of claim 10 , wherein: the tactical situation is of a missile in-flight; the missile in-flight comprises the other equipment in the system; and the first and second sets of signaling beams from the first and second sets of one or more transmitters are adapted to overcome a jamming attempt of the missile in-flight. 18. The network equipment of claim 10 , wherein: the tactical situation is a missile in-flight; and the first and second sets of signaling beams from the first and second sets of one or more transmitters are directed toward the missile in-flight and adapted to ja