Communication apparatus and method, computer program, and communication system enabling improved throughput for an entire plurality of users

The invention claimed is: 1. A communication apparatus, comprising: a data processor configured to process transmit/receive frames; and a communication interface configured to transmit and receive frames; wherein the data processor adds reverse direction permission information, which indicates that reverse direction frame transmission is permitted, to individual MAC (Media Access Control) data frames in a plurality of MAC data frames to be sent at a first same time, the individual MAC data frames in the plurality of MAC data frames each being individually addressed to one of a plurality of communication apparatuses, and the communication interface multiplexes and transmits the plurality of MAC data frames at the first same time to the plurality of communication apparatuses, and also receives, at a second same time, respective MAC data frames obeying the reverse direction permission information from respective communication apparatuses of the plurality of communication apparatuses that received the plurality of MAC data frames, wherein frame lengths of the MAC data frames received at the second same time are the same for each of the plurality of communication apparatuses that received the plurality of MAC data frames transmitted at the first same time. 2. The communication apparatus according to claim 1 , wherein the communication interface is provided with a plurality of antenna elements able to function as an adaptive array antenna with weights applied, multiplexes and transmits the plurality of MAC data frames at the first same time, and also receives a plurality of MAC data frames sent at the second same time from the plurality of communication apparatuses. 3. The communication apparatus according to claim 1 , wherein the data processor specifies, with the reverse direction permission information, a frame length for MAC data frames sent in the reverse direction. 4. The communication apparatus according to claim 3 , wherein the data processor specifies, with the reverse direction permission information, a transmit start time for MAC data frames sent in the reverse direction. 5. The communication apparatus according to claim 1 , wherein the data processor specifies, with the reverse direction permission information, a transmit start time for MAC data frames sent in the reverse direction. 6. The communication apparatus according to claim 1 , wherein the data processor specifies, with the reverse direction permission information, a frame length for all the respective MAC data frames sent in the reverse direction sent from the respective communication apparatuses. 7. The communication apparatus according to claim 6 , wherein the data processor specifies, with the reverse direction permission information, a transmit start time for all the respective MAC data frames sent in the reverse direction from the respective communication apparatuses. 8. The communication apparatus according to claim 1 , wherein the data processor specifies, with the reverse direction permission information, a transmit start time for all the respective MAC data frames sent in the reverse direction from the respective communication apparatuses. 9. The communication apparatus according to claim 1 , wherein the communication interface is provided with a plurality of antenna elements able to function as an adaptive array antenna with weights applied, wherein the weights applied are determined by applying Recursive Least Square (RLS) algorithm on a training signal received from each of the respective communication apparatuses. 10. A communication apparatus, comprising: a data processor configured to process transmit/receive frames; and a communication interface configured to transmit and receive frames; wherein in response to receiving a MAC (Media Access Control) data frame individually addressed to the communication apparatus including reverse direction additional information added thereto, the data processor generates a reverse direction MAC data frame having a frame length specified by the reverse direction additional information, and the communication interface transmits the reverse direction MAC data frame at a given timing simultaneously with a plurality of communication apparatuses transmitting reverse direction MAC data frames, and the frame length of the reverse direction MAC data frame is the same as that of each of the plurality of communication apparatuses simultaneously transmitting reverse direction MAC data frames. 11. The communication apparatus according to claim 10 , wherein the data processor adds padding data to the reverse direction MAC data frame. 12. The communication apparatus according to claim 11 , wherein the data processor adds an amount of the padding data to the reverse direction MAC data frame such that the reverse direction MAC data frame has the frame length. 13. A communication apparatus, comprising: a data processor configured to process transmit/receive frames; and a communication interface configured to transmit and receive frames; wherein in response to receiving a MAC (Media Access Control) data frame individually addressed to the communication apparatus including reverse direction additional information added thereto, the data processor generates a reverse direction MAC data frame, and the communication interface transmits the reverse direction MAC data frame at a transmit start time specified by the reverse direction additional information simultaneously with a plurality of communication apparatuses transmitting reverse direction MAC data frames, and a frame length of the reverse direction MAC data frame is the same as that of each of the plurality of communication apparatuses transmitting reverse direction MAC data frames. 14. A communication method including: generating a plurality of MAC (Media Access Control) data frames with reverse direction permission information, which indicates that reverse direction frame transmission is permitted, added thereto, each of the plurality of MAC data frames each being individually addressed to one of a plurality of communication apparatuses; transmitting the plurality of MAC data frames at a first same time to the plurality of communication apparatuses; and receiving, at a second same time, respective MAC data frames obeying the reverse direction permission information from respective communication apparatuses of the plurality of communication apparatuses that received the plurality of MAC data frames, wherein frame lengths of the MAC data frames received at the second same time are the same for each of the plurality of communication apparatuses that received the plurality of MAC data frames transmitted at the first same time. 15. A non-transitory medium storing a computer program stated in computer-readable format such that a communication apparatus executes processing for transmitting frames on a computer, the program causing the computer to function as a data processor that processes transmit/receive frames, and a communication unit that transmits and receives frames, wherein the data processor adds reverse direction permission information, which indicates that reverse direction frame transmission is permitted, to individual MAC (Media Access Control) data frames in a plurality of MAC data frames to be sent at a first same time, the individual MAC data frames in the plurality of MAC data frames each being individually addressed to one of a plurality of communication apparatuses, and the communication unit multiplexes and transmits the plurality of MAC data frames at the first same time to the plurality of com