On Orthogonal Multiple Access Noma News Today : Breaking News, Live Updates & Top Stories | Vimarsana

Stay updated with breaking news from On orthogonal multiple access noma . Get real-time updates on events, politics, business, and more. Visit us for reliable news and exclusive interviews.

Top News In On Orthogonal Multiple Access Noma Today - Breaking & Trending Today

"NOMA Cooperative Spectrum Sharing Average Capacity Improvement in 5G N" by Mohamed Hassan, Rashid A. Saeed et al.

One of the most effective approaches to satisfying the requirements of the next generation of wireless services is non-orthogonal multiple access (NOMA). Spectrum efficiency and average capacity are two aspects of wireless communication that have become increasingly important as the number of mobile services in use has increased. Using both traditional MIMO and Massive MIMO (M-MIMO), this study proposes two new methods for increasing the average capacity of a 5G network's downlink (DL) NOMA power domain (PD) in conjunction with a Cooperative Cognitive Radio Network (CCRN). The initial method involves NOMA users competing for available rivalry channels (R-CH) on the CCRN. The second technique creates a dedicated channel (D-CH) for NOMA users. The MATLAB program is utilized to evaluate the proposed methods in three scenarios with varying distances, power location coefficients, and transmission power. Successive interference cancellation (SIC) and unstable channel conditions are also ....

Monte Carlo , Cognitive Radio Network , Cooperative Cognitive Radio Network , Cooperative Cognitive Radio Network Ccrn , Edicated Channeld Ch , On Orthogonal Multiple Access Noma , Ivalry Channelsr Ch ,

"BER Improvement of Cooperative Spectrum Sharing of NOMA in 5G Network" by Mohamed Hassan, Rashid A. Saeed et al.

Non-orthogonal multiple access is one of the best methods for addressing the needs of 5G wireless services (NOMA). The proliferation of mobile devices in recent years has increased the importance of cooperative spectrum sharing and utilization in wireless communication due to increases in the bit error rate (BER) brought on by collisions and interference. In this study, MIMO and Massive MIMO (M-MIMO) in the downlink (DL) NOMA power domain (PD) in conjunction with the Cooperative Cognitive Radio Network are proposed as two new ways for improving and evaluating BER in the 5G network (CCRN). Customers of NOMA compete for available channels on the CCRN in this first strategy. The second approach creates a dedicated channel for NOMA users. Three scenarios with varying distances, power location coefficients, and transmission power are used to evaluate the proposed methods in the MATLAB software program. It is assumed that four users will share a 90 MHz BW using QPSK modulation in all three s ....

Cognitive Radio Network , Cooperative Cognitive Radio Network , Cooperative Cognitive Radio Network Ccrn , Assive Mimom Mimo , Ultiple Input Multiple Output Mimo , On Orthogonal Multiple Access Noma ,

"Enhancing NOMA's Spectrum Efficiency in a 5G Network through Cooperati" by Mohamed Hassan, Manwinder Singh et al.

Non-orthogonal multiple access (NOMA) is one of the most effective techniques for meeting the spectrum efficiency (SE) requirements of 5G and beyond networks. This paper presents two novel methods for improving the SE of the downlink (DL) NOMA power domain (PD) integrated with a cooperative cognitive radio network (CCRN) in a 5G network using single-input and single-output (SISO), multiple-input and multiple-output (MIMO), and massive MIMO (M-MIMO) in the same network and in a single cell. In the first method, NOMA users compete for free channels in a competing channel (C-CH) on the CCRN. The second method provides NOMA users with a dedicated channel (D-CH) with high priority. The proposed methods are evaluated using the Matlab software program using the three scenarios with different distances, power location coefficients, and transmitting power. Four users are assumed to operate on 80 MHz bandwidths (BWs) and use the quadrature phase shift keying (QPSK) modulation technique in all th ....

Cooperative Cognitive Radio Ccr , Assive Mimom Mimo , Ultiple Input Multiple Output Mimo , On Orthogonal Multiple Access Noma ,