Grunnleggende konsepter
A model-driven deep learning approach is proposed for efficient sensing node selection and power allocation to track maneuvering targets in perceptive mobile networks, achieving better performance with lower computational complexity compared to conventional optimization-based methods.
Sammendrag
The content presents a model-driven deep learning (DL) approach for sensing node (SN) selection and power allocation to track maneuvering targets in perceptive mobile networks (PMNs).
Key highlights:
- An iterative SN selection method is proposed by jointly exploiting the majorization-minimization (MM) framework and the alternating direction method of multipliers (ADMM).
- The iterative MM-ADMM algorithm is unfolded into a deep neural network, named deep alternating network (DAN), to reduce computational complexity. The convergence of DAN is analyzed and proven.
- An efficient power allocation method based on fixed-point water-filling is proposed and combined with the SN selection under an alternative optimization framework.
- Simulation results show the proposed method achieves better performance than conventional optimization-based methods with much lower computational complexity.
Statistikk
The content does not provide specific numerical data or metrics. It focuses on the algorithmic development and theoretical analysis.
Sitater
The content does not contain any striking quotes that support the key logics.