Simultaneous CSI at single RX chain device

What is claimed is: 1. A user client device for channel estimation in a network, comprising: a transceiver comprising a single receive (RX) chain; a first antenna coupled to the transceiver; a second antenna coupled to the transceiver; and a processor coupled to the transceiver, the first antenna, and the second antenna and configured to execute instructions that cause the user client device to: couple the single RX chain to the first antenna to receive a first data packet on a first channel, wherein the first data packet on the first channel comprises a first plurality of fields; determine a first channel state information (CSI) tile of the first channel based on one or more of the first plurality of fields; decouple the first antenna from the single RX chain and couple the second antenna to the single RX chain to continue receiving the first data packet on a second channel, wherein the first data packet on the second channel comprises a portion of the first plurality of fields; determine a second CSI tile of the second channel based on one or more of the portion of the first plurality of fields; aggregate the first CSI tile with the second CSI tile; and generate a CSI matrix based on aggregating the first CSI tile with the second CSI tile. 2. The user client device of claim 1 , wherein the first data packet is a wireless local area network (WLAN) packet, wherein the first plurality of fields comprises a first physical layer (PHY) preamble, a first PHY header, and a first media access control (MAC) header, and wherein the processor is configured to generate the first CSI tile based on first subcarrier information in any field of the first PHY preamble, the first PHY header, and the first MAC header. 3. The user client device of claim 1 , wherein the processor is further configured to receive a second data packet comprising a second plurality of fields with the second antenna. 4. The user client device of claim 3 , wherein the second data packet is a WLAN packet, wherein the second plurality of fields comprises a second PHY preamble, a second PHY header, and a second MAC header, and wherein the processor is configured to generate the second CSI tile based on second subcarrier information in any field of the second PHY preamble, the second PHY header, and the second MAC header. 5. The user client device of claim 4 , wherein the second plurality of fields comprises a payload field, and wherein the processor is further configured to generate the second CSI tile based on pilot subcarrier information in the payload field. 6. The user client device of claim 4 , wherein the first plurality of fields and the second plurality of fields comprise one or more long training fields (LTFs), and wherein the processor is configured to generate the second CSI tile based on any LTF in the one or more LTFs. 7. The user client device of claim 1 , wherein the first data packet is directed to a second user client device that is a neighbor to the user client device. 8. The user client device of claim 1 , wherein the first data packet is directed to the user client device. 9. The user client device of claim 1 , wherein the first plurality of fields comprises a payload field, and wherein the processor is further configured to generate the first CSI tile based on pilot subcarrier information in the payload field. 10. A system for channel estimation in a network, comprising: a transmit node configured to transmit a first data packet; and a first user client node wirelessly coupled to the transmit node, wherein the first user client node comprises: a transceiver comprising a single receive (RX) chain, a first antenna, and a second antenna; and a processor coupled to the transceiver, the first antenna, and the second antenna and configured to execute instructions that cause the first user client node to: couple the single RX chain to the first antenna; receive the first data packet from the first antenna, wherein the first data packet from the first antenna comprises a first physical layer (PHY) preamble, a first PHY header, and a first media access control (MAC) header; determine a first channel state information (CSI) tile based on one or more of the first PHY preamble, the first PHY header, and the first MAC header of the first data packet from the first antenna; decouple the first antenna from the single RX chain and couple the second antenna to the single RX chain; continue to receive the first data packet from the second antenna, wherein the first data packet from the second antenna comprises at least a portion of the first PHY preamble, the first PHY header, and the first MAC header; determine a second CSI tile based on the first data packet from the second antenna; aggregate the first CSI tile with the second CSI tile; and generate a CSI matrix based on aggregating the first CSI tile with the second CSI tile. 11. The system of claim 10 , wherein the first PHY preamble comprises one or more long training fields (LTFs), and wherein the instructions cause the first user client node to generate the first CSI tile based on any LTF in the one or more LTFs. 12. The system of claim 10 , wherein the first data packet is a wireless local area network (WLAN) packet comprising a first plurality of orthogonal frequency division multiplexing (OFDM) symbols in the first PHY preamble, the first PHY header, and the first MAC header, and wherein the instructions cause the first user client node to generate the first CSI tile based on the first plurality of OFDM symbols. 13. The system of claim 10 , wherein the instructions cause the first user client node to receive a second data packet comprising a second plurality of fields from the second antenna, wherein the second data packet is a multi-path WLAN packet comprising a second plurality of OFDM symbols in a second PHY preamble, a second PHY header, and a second MAC header, and wherein the instructions cause the first user client node to generate the second CSI tile based on the second plurality of OFDM symbols. 14. The system of claim 13 , wherein the second PHY preamble comprises one or more LTFs, and wherein the instructions cause the first user client node to generate the second CSI tile based on any LTF in the one or more LTFs. 15. The system of claim 10 , wherein the system further comprises a second user client node wirelessly coupled to the transmit node and that is a neighbor to the first user client node, and wherein the instructions cause the first user client node to generate the first CSI tile based on the first data packet that is directed to the second user client node. 16. The system of claim 10 , wherein the instructions cause the first user client node to generate the first CSI tile based on the first data packet that is directed to the first user client node. 17. The system of claim 10 , wherein the first data packet is a WLAN packet comprising a payload field, and wherein the instructions further cause the first user client node to generate the first CSI tile based on pilot subcarrier information in the payload field. 18. A method for channel estimation in a network, comprising: providing a user client device comprising a single receive (RX) chain transceiver, a first antenna, and a second antenna; coupling the single RX chain transceiver to the first antenna; receiving, by the first antenna, a first data packet on a first channel, wherein the first data packet on the first channel comprises a first plurality of fields; determining a first channel state information (CSI) tile of the first channel base