In this thesis, we propose a load-aware approach to performing the downlink coordinated multi-point joint transmission (JT-CoMP) scheme in a dense heterogeneous cellular network consisting M tiers of different kinds of base stations(BSs). Inspiring from the fact that there could exist a considerable number of the void BSs without any users in a dense HetNet, the proposed load-aware JT-CoMP is able to coordinate the void BSs so as to enhance the downlink transmission of the non-void BSs. Using such a CoMP scheme, the fundamental upper and lower limits on the coverage and ergodic link throughput of a user with downlink MISO channel are accurately found in a low-complexity approximated form and they straightforwardly show that the load-aware CoMP scheme has the capability of significantly increasingthe coverage and ergodic link throughput of a user as long as the user intensity is not very much higher than the total intensity of the BSs. Afterwards, the downlink coverage performance of the HetNet with the non-cooperative and the proposed cooperative NOMA schemes is studied in order to understand how they are improved by the NOMA schemes. Numerical results validate the correctness of the analytical results and demonstrate the significant gains of the performance exploited by the proposed load-aware CoMP scheme.