Let $A \in \mathbb{C}^{N \times M}$ be a D999: Complex matrix such that

(i)	\begin{equation} A = \begin{bmatrix} A_{1, 1} & A_{1, 2} & \cdots & A_{1, M} \\ A_{2, 1} & A_{2, 2} & \vdots & A_{2, M} \\ \vdots & \cdots & \ddots & \vdots \\ A_{N, 1} & A_{N, 2} & \cdots & A_{N, M} \end{bmatrix} \end{equation}

The conjugate transpose of $A$ is the D999: Complex matrix \begin{equation} A^* : = \begin{bmatrix} \overline{A}_{1, 1} & \overline{A}_{2, 1} & \cdots & \overline{A}_{N, 1} \\ \overline{A}_{1, 2} & \overline{A}_{2, 2} & \vdots & \overline{A}_{N, 2} \\ \vdots & \cdots & \ddots & \vdots \\ \overline{A}_{1, M} & \overline{A}_{2, M} & \cdots & \overline{A}_{N, M} \end{bmatrix} \end{equation}

Let $A \in \mathbb{C}^{N \times M}$ be a D999: Complex matrix.
The conjugate transpose of $A$ is the D999: Complex matrix \begin{equation} A^* : = \overline{A^T} \end{equation}