Abstract Multiple Input Multiple Output (MIMO) systems have been researched and developed in wireless communication systems. MIMO systems can increase systems capacity and link level quality. The purpose of this thesis is to analyze multiple antenna techniques and MIMO with the main focus on estimation and detection for MIMO channels. Firstly the thesis will introduce the basic principles of the all popular multiple antenna techniques. Next we will examine MIMO estimation techniques including linear and non linear or from simple to complex techniques, including linear estimate Zero Forcing (ZF), Minimum Mean Squared Error (MMSE), Nonlinear VBLAST, SVD, MRC and Alumouti code. The remainder of the thesis will focus on VBLAST architecture and which algorithm can achieve the highest spectral efficiency in multiple-input multiple-output (MIMO) systems due to the multiplexing and diversity over the space domain Base benefit of each technique. We have provided a combination of techniques which can reach simple implementation and achieve about performance. In our first test case we combine VBLAST with ZF and MRC and the second case presented, we combined VBLAST with ALAMOUTI and ZF. In this thesis in addition to using ZF we also analyzed the performance when using minimum mean square error (MMSE) and parallel interference cancellation (PIC) detection technologies Keywords: MIMO, OFDM, ZF, MMSE, MRC, VBLAST, ALAMOUTI