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Introduction Long Term Evolution (LTE) goods are quickly being viewed on the industry today and much more products are anticipated later on. With 5G proposed and anticipated to arrive around 2020, engineers need to work and examine these new products out quickly. However, the sophistication of these devices doesn't make this job an easy one. There are lots of performance measures to contemplate such as SNR, SIR, ability, and a lot more as well as different characteristics that may be essential to arrive at the desired outcomes. For purposes of the project, I'll appraise a journal by Agilent Technologies that clarifies how to quickly decide if a MIMO channel is capable of supporting spatial multiplexing if given a distinct signal-to-noise ratio (SNR). The expression вЂњcondition numberвЂќ will also be introduced when dealing with retrieval of MIMO transmission. Many wireless systems used today have improved data capacity using the multi-antenna system. But, not all of MIMO wireless systems are acceptable for spatial multiplexing. To be able to accommodate this advantage, the wireless station must have the appropriate antenna configuration and have the ability to correctly recover the station coupling matrix coefficients. As mentioned before, engineers face many complexities when dealing with wireless channels. Among those complexities include channel correlation and interference/noise prices. That's where the condition number calculation is useful. The condition number is a deterministic calculation that evaluates the performance of a wireless channel whilst estimating for SNR demodulation for a LTE MIMO system. The aim would be to get a condition number as close as 0 dB as possible and try to avoid any values greater than 10 dB. .