Abstract: A method and apparatus in which multiple Internet Protocol (IP) based wireless data transmissions are simultaneously provided between a wireless device and a server, including providing multiple antennas, multiple T/R units, multiple processors and multiple I/O ports on the wireless device. The method includes receiving multiple IP data packets on the I/O ports at substantially the same time, and sending multiple data packets from the wireless device to the server, whereby the transmission rate between the wireless device and the server is increased.

Abstract: A method and apparatus in which multiple Internet Protocol (IP) based wireless data transmissions are simultaneously provided between a wireless device and a server, including providing multiple antennas, multiple T/R units, multiple processors and multiple I/O ports on the wireless device. The method includes receiving multiple IP data packets on the I/O ports at substantially the same time, and sending multiple data packets from the wireless device to the server, whereby the transmission rate between the wireless device and the server is increased.

Abstract: Many concentric/overlaying networks exist in one or more wired or wireless networks simultaneously. The network box or mobile device may use one or more transmission protocols as deemed optimal and appropriate by the local server or the super server located in a LAN, WAN or the Internet. The units have the ability to multiplex between one or more transmission protocols. T/R may be located within or in close proximity to computer system to route the data. The software capability that is resident at the server level is capable of dynamically determining a number of factors for best data transfer, the best transmission frequencies and protocols, the best error correction and channel coding algorithms and multiplexes the transmission paths and tasks. Various optical and wireless protocols can co-exist in a network. Multiple communication environments are enabled by the data paths having devices such as CT/MDs, network switch boxes, and combinations.

Abstract: Having a single channel for a transmit/receive (T/R) unit with a single antenna or a single processor would cause a limitation in data transfer rates, so multiple channels are provided. The single processor may have multiple channels for parallel processing of each data stream to process accurately two distinct signals that were more optimally received by two dedicated antennas and two separate T/R units contained within the cellular telephone/mobile wireless device (CT/MD) to improve performance and quality of output. An example is a CT/MD which is optimized for video and voice.