Considering the increase of the network applications, varieties, and complexities, the more internet bandwidth and the capacity of wireless communication are getting more and more required by the internet users. To fulfill the above demands, MIMO (Multiple in Multiple out), the wireless communication technology, has been developed as one of the most important solutions. Since MIMO system requires multiple antennas to transmit and to receive wireless signals simultaneously, and the relative position of antennas resulting in different radiation patterns and the isolation will impact the transmission rate of the system, the ability to efficiently estimate the related wireless parameters at the beginning of the product design stage becomes a very important subject. This thesis focused on the external choke sleeve antenna. The induced emf method is employed to construct analytical model of mutual inductance to quickly come up with the estimation; it’s validity is verified by comparison with both the numerical data obtained by HFSS simulation and the experimental data. This analytical model is expected to provide a better data for RF engineers beforehand when doing the related design in the future. According to result the Induced EMF approach is able to precisely estimate the value of the isolation between 2 antennas. However, the result of the HFSS simulation is relatively weak for reference. In terms of the distribution analysis regarding the radio pattern, due to the environmental factors, the values obtained from the measurement and the simulation varied from the different angles of peak gain. However, the distribution trends of the radio patterns are consistent.