The multiple access technique in wireless communication, Gain-Division Multiple Access (GDMA), is a non-orthogonal multiple access method proposed in recent years. The main principle of GDMA is that multiple users can transmit message under the same channel resource through their distinct channel coefficients associated with distinct users. In a previous thesis, based on the view of point that Low-Density Signature Code Division Multiple Access (LDS-CDMA) can be regarded as GDMA systems with diversity. Here, we further interpret the LDS-CDMA scheme as a combination of several dependent GDMA systems, where a GDMA system is applied to each resource. The original message passing for LDS-CDMA may also be interpreted as the message passing among various GDMA systems. We extend the interpretation to construct high-density (HDS) CDMA schemes. The advantage of HDS-CDMA schemes can be the requirement of smaller number of resources, or achieve more diversity that result in capability of accommodating more users in overall system, etc.