The formulation of cooperative communications is based on the case that users in the environment nearby share their antenna(s) to relay signals; thus, creating a virtual multiple-input multiple-output (MIMO) system with additional spatial diversity gains. In cooperative communications, the decode-and-forward (DF) protocol can give promising error-rate performance provided that the relay node has the decoding capability. In this thesis, we apply the idea of cooperative communications with DF to the multi-carrier code division multiple access (MC-CDMA) system. In the first part, we analyze the bit-error rate (BER) performance of this cooperative MC-CDMA system. In the cooperation, we consider that the channel is Rayleigh faded, binary-phase shift keying (BPSK) signaling is used, and every two users cooperate with each other in the network. The destination node employs maximal ratio combining (MRC) to combine those received signals. With the idea of MC-CDMA with double number of subcarriers, its BER can be approximated. In the second part, we examine two kinds of multiuser detection (MUD), i.e., successive interference cancelation (SIC) and parallel interference cancelation (PIC), for use in the considered cooperative MC-CDMA system. We discuss the usefulness of these two detectors and show that they are good for different channel environments. In addition, we extend the PIC detector to include more stages to improve the performance. We also give a discussion about under what scenario more stages should be used to enhance the performance.