IEEE 802.15.3c is a short distance transmission standard designed for the transmission of high-throughput video signals. Under this standard, the data rate can be reached up to 5Gbps. It is known that the channel capacity can be effectively enhance with the multiple-input-multiple-output (MIMO) technology. However, in MIMO systems, if the MIMO size is large, the complexity of optimum signal detection or demapping will be high. This is particularly true for the high-throughput system such as IEEE802.15.3c. Many suboptimum approaches have been proposed; nevertheless, an algorithm with near optimum performance, low complexity, and good implementation architecture is still not available. In this thesis, we propose a new MIMO detection algorithm having the aforementioned advantages. The idea is combining the listed-based, the K-best, and the successive-interference-cancellation (SIC) algorithms in an intelligent way. Simulations with IEEE802.15.3c systems show that the proposed algorithm works as expected.