access deny [1301]
access deny [1026]
In this work, we consider the problem of finding globally optimal joint successive interference cancellation (SIC) ordering and power allocation (JSPA) for the general sum-rate maximization problem in downlink multi-cell NOMA systems. We propose a globally optimal solution based on the exploration of base stations (BSs) power consumption and distributed power allocation. The proposed centralized algorithm is still exponential in the number of BSs, however scales well with larger number of users. For any suboptimal decoding order, we address the problem of joint rate and power allocation (JRPA) to achieve maximum users sum-rate. Furthermore, we design semi-centralized and distributed JSPA frameworks with polynomial time complexity. Numerical
In this paper, we propose a model-free deep reinforcement learning (DRL)-based proactive failure recovery (PFR) framework called zero-touch PFR (ZT-PFR) for the embedded stateful virtual network functions (VNFs) in network function virtualization (NFV) enabled networks. To realize the ZT-PFR concept, sequential decision-making based on network status is necessary. To this end, we formulate an optimization problem for efficient resource usage by minimizing the defined network cost function including resource cost and wrong decision penalty. Inspired by ETSI and ITU, we propose a novel impending failure model where each VNF state transition follows a Markov process. As a solution, we propose state-of-the-art DRL-based methods such as soft act
Multiple access-based molecular communication (MC) is an important way to implement MC nanonetworks for the Internet of Bio-Nano Things. In this paper, we propose a framework for time division multiple access (TDMA)-based MC by considering multiple-type transmission multiple-type reception (MTMR) for a system with multiple transmitter nanomachines and one receiver nanomachine (RN) which is non-ideal and has a switching delay. The reception process is based on ligand-binding reception. We study the drug release management approaches by minimizing the error probability. Besides, we propose a metric to find signal-to-interference ratio based on the channel memory. Analytical results, which are verified by the simulation, show that the TDMA-MTM
This paper studies a novel approach for successive interference cancellation (SIC) ordering and beamforming in a multiple antennas non-orthogonal multiple access (NOMA) network with multi-carrier multi-user setup. To this end, we formulate a joint beamforming design, subcarrier allocation, user association, and SIC ordering algorithm to maximize the worst-case energy efficiency (EE). The formulated problem is a non-convex mixed integer non-linear programming (MINLP) which is generally difficult to solve. To handle it, we first adopt the linearizion technique as well as relaxing the integer variables, and then we employ the Dinkelbach algorithm to convert it into a more mathematically tractable form. The adopted non-convex optimization probl
In this paper, we consider a cooperative multiple-input single-output (MISO) heterogeneous communication network based on the power domain non-orthogonal multiple access (PD-NOMA). We aim to investigate a resource allocation problem regarding the uncertainty of the channel state information at the transmitter (CSIT) and the imperfect SIC case. Since there is an essential need for low-complexity algorithms with reasonably good performance for the extremely complex access architectures, we propose two novel methods based on matching game with externalities and successive convex approximation (SCA) to realize the hybrid scheme where the number of the cooperative nodes is variable. Moreover, we propose a new matching utility function to manage
In this paper, we devise a novel radio resource block (RB) structure named dynamic resource block structure (D-RBS) which can handle low latency traffics and large fluctuations in data rates by exploiting smart time and frequency duplexing. In our framework, the main resource block with a predefined bandwidth and time duration is divided into several small blocks with the same bandwidth and time duration. Depending on the service requirements, eg, data rate and latency, the users are assigned to some these small blocks which could be noncontiguous both in frequency and time. This is in contrast to the previously introduced static resource block structure (S-RBS) where the size of each RB is predetermined and fixed. We provide resource alloc