Cartesian augmented Hammerstein model for non‐linearity and I/Q impairments compensation in concurrent dual‐band transmitters

“…In multi‐branch and multi‐band transmitters, predistortion is one of the most prominent techniques for linearisation of non‐linearities and digital predistortion (DPD) technique employs the existing digital signal processor of the base station's transmitter using the concept of software‐defined‐radios [6–30]. The power consumption in implementing DPD on the digital signal processor is relatively low as compared to the high power consumption of PA.…”

“…Many DPD models such as volterra‐series [6], memory polynomial (MP) [7], adapted MP with two‐dimensional (2D) indexing [8], complex gain convergence [9], lookup table‐based adaptive DPD [10] and steepest descent approach‐based direct learning DPD [11] have been proposed for linearisation of PA in single‐input–single‐output (SISO) transmitter. Many predistortion techniques have been proposed for multi‐carrier, multi‐band transmitters and satellite channels [12–17].…”

Efficient linearisation technique for crosstalk and power amplifier non‐linearity suitable for massive MIMO transmitters

“…In multi‐branch and multi‐band transmitters, predistortion is one of the most prominent techniques for linearisation of non‐linearities and digital predistortion (DPD) technique employs the existing digital signal processor of the base station's transmitter using the concept of software‐defined‐radios [6–30]. The power consumption in implementing DPD on the digital signal processor is relatively low as compared to the high power consumption of PA.…”

“…Many DPD models such as volterra‐series [6], memory polynomial (MP) [7], adapted MP with two‐dimensional (2D) indexing [8], complex gain convergence [9], lookup table‐based adaptive DPD [10] and steepest descent approach‐based direct learning DPD [11] have been proposed for linearisation of PA in single‐input–single‐output (SISO) transmitter. Many predistortion techniques have been proposed for multi‐carrier, multi‐band transmitters and satellite channels [12–17].…”

Efficient linearisation technique for crosstalk and power amplifier non‐linearity suitable for massive MIMO transmitters

Digital predistortion technique for low resource consumption using carrier aggregated 4G/5G signals