Method and system for utilizing multiplexing to increase throughput in a network of distributed transceivers with array processing

What is claimed is: 1. A method of relaying data streams between a first device and a second device by a relay device comprising a plurality of distributed transceivers, each distributed transceiver comprising an antenna array comprising a plurality of antenna elements, the method comprising: configuring beamforming settings for the antenna arrays of a first set of distributed transceivers in the plurality of distributed transceivers to establish a first link between the first device and the relay device, configuring the beamforming settings for the antenna arrays of the first set of distributed transceivers comprising phase shifting a signal received by each antenna element of the antenna array of the first set of distributed transceivers by a different value; configuring beamforming settings for the antenna arrays of a second set of distributed transceivers in the plurality of distributed transceivers to establish a second link between the relay device and the second device, configuring the beamforming settings for the antenna arrays of the second set of distributed transceivers comprising phase shifting a signal transmitted by each antenna element of the antenna array of the second set of distributed transceivers by a different value; and receiving a data stream at the first set of distributed transceivers from the first device through the first link and relaying the data stream from the second set of distributed transceivers to the second device through the second link. 2. The method of claim 1 , wherein the relay device concurrently receives the data stream at the first set of distributed transceivers from the first device and relays the data stream from the second set of distributed transceivers to the second device. 3. The method of claim 1 , wherein the relay device receives the data stream from the first device and relays the data stream to the second device over a same frequency channel. 4. The method of claim 1 , wherein the relay device receives the data stream from the first device over a first frequency channel and relays the data stream to the second device over a second different frequency channel. 5. The method of claim 1 , the relay device further comprising a set of down-converters, the method further comprising down converting the data stream received from the first device from a first carrier frequency to an intermediate frequency by the set of down-converters. 6. The method of claim 5 , the relay device further comprising a set of up-converters, the method further comprising up converting the data stream relayed from the relay device from the intermediate frequency to the first carrier frequency. 7. The method of claim 5 , the relay device further comprising a baseband processor, the method further comprising: sending the data stream in the intermediate frequency from the set of down-converters to the baseband processor; and performing baseband digital signal processing on the data stream in the intermediate frequency by the baseband processor. 8. The method of claim 1 , wherein configuring the beamforming settings for the antenna arrays of the first and second sets of distributed transceivers comprises (i) using a same frequency channel for receiving and relaying the data stream and (ii) utilizing non-overlapping antenna patterns to minimize interference. 9. The method of claim 1 , wherein configuring the beamforming settings for the antenna arrays of the first set of distributed transceivers comprises selecting one of a narrow beam and a wide beam based on a distance between the relay device and the first device. 10. The method of claim 1 , wherein configuring the beamforming settings for the antenna arrays of the second set of distributed transceivers comprises selecting one of a narrow beam and a wide beam based on a distance between the relay device and the second device. 11. The method of claim 1 further comprising: identifying a set of reflectors in a propagation environment among the relay device and the first and second devices; and monitoring the propagation environment to identify antenna patterns for the antenna array of the first and second sets of distributed transceivers that result in strong reflected signals communicated between the relay device and the first and second devices. 12. The method of claim 1 further comprising: monitoring a propagation environment among the relay device and the first and second devices to identify the propagation environment conditions comprising one or more of link quality, device capabilities, locations, target throughput, and application quality of service (QoS) requirements reported from the first and second devices; and configuring the beamforming settings for the first and second sets of distributed transceivers based on the propagation environment conditions. 13. The method of claim 1 further comprising utilizing the beamforming on incoming and outgoing signals of the relay device to minimize interference between the incoming and outgoing signals. 14. The method of claim 1 further comprising utilizing multiplexing mode by the relay device to concurrently relay data streams to a plurality of devices comprising the second device in a same radio frequency (RF) channel using different transceivers. 15. The method of claim 1 , wherein the data stream is a first data stream in a first plurality of data streams comprising a set of information bits, the method further comprising: receiving the first plurality of data streams at the relay device from the first device using one of spatial multiplexing and frequency multiplexing; and relaying the set of information bits in a second plurality of data streams from the relay device to the second device using one of spatial multiplexing and frequency multiplexing. 16. The method of claim 1 , wherein the data stream is a first data stream in a plurality of data streams comprising a set of information bits, the method further comprising: receiving the plurality of data streams at the relay device from the first device using one of spatial multiplexing and frequency multiplexing; and relaying the set of information bits in the first data stream from the relay device to the second device. 17. The method of claim 1 , wherein the data stream received from the first device comprises a set of information bits, the method further comprising relaying the set of information bits in a plurality of independent data streams from the relay device to the second device using one of spatial multiplexing and frequency multiplexing. 18. A relay device for relaying data streams between a first device and a second device, the relay device comprising: a plurality of distributed transceivers, each distributed transceiver comprising an antenna array comprising a plurality of antenna elements; and a processor for: configuring beamforming settings for the antenna arrays of a first set of distributed transceivers in the plurality of distributed transceivers to establish a first link between the first device and the relay device, configuring the beamforming settings for the antenna arrays of the first set of distributed transceivers comprising phase shifting a signal received by each antenna element of the antenna array of the first set of distributed transceivers by a different value, configuring beamforming settings for the antenna arrays of a second set of distributed transceivers in the plurality of distributed transceivers to establish a second link between the relay device and the second device, configuring the beamforming settings for the antenna arrays of