User pairing for mobile communication systems with OSC and SC-FDMA transmission

The main subject of this thesis is user pairing for mobile communication systems. User pairing in general describes a user selection process, where we choose the users that should transmit on the same time and frequency resource in the same cell. Typically, user pairing is optimized for a prescribed performance criterion, like bit error rate (BER) or achievable data rate. In this thesis, user pairing is considered for two systems and the spectral efficiency gains compared to randomly chosen pairs are shown to be impressive. First, we focus on downlink transmission with orthogonal sub-channels (OSC). The evolution of the Global System for Mobile Communications (GSM) led to the standardization of Voice services over Adaptive Multi-user channels on One Slot (VAMOS). The aim of VAMOS is to double the spectral efficiency of GSM voice transmission by deliberately transmitting two Gaussian minimum-shift keying (GMSK) signals on the same time and frequency resource in the same cell. The phase of the signal of the second user is rotated by 90° compared to that of the first user, which is referred to as OSC transmission. Second, the thesis considers the uplink of Long Term Evolution (LTE). In contrast to the downlink of LTE, the first release of LTE specifies only a single transmit antenna single-carrier frequency-division multiple access (SC-FDMA) transmission for the uplink. To enhance the spectral efficiency in the uplink, a virtual multiple-input multiple-output (V-MIMO) transmission can be employed, where multiple users are paired. Here, multiple receive antennas at the base station facilitate a separation of the signals of a user pair. By employing the proposed schemes, the spectral efficiency is impressively improved compared to a transmission without user pairing.