NOMA-Aided Joint Radar and Multicast-Unicast Communication Systems
The novel concept of non-orthogonal multiple access (NOMA) aided joint radar and multicast-unicast communication (Rad-MU-Com) is investigated. Employing the same spectrum resource, a multi-input-multi-output (MIMO) dual-functional radar-communication (DFRC) base station detects the radar-centric use...
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| Abstract | The novel concept of non-orthogonal multiple access (NOMA) aided joint radar and multicast-unicast communication (Rad-MU-Com) is investigated. Employing the same spectrum resource, a multi-input-multi-output (MIMO) dual-functional radar-communication (DFRC) base station detects the radar-centric users (R-user), while transmitting mixed multicast-unicast messages both to the R-user and to the communication-centric user (C-user). In particular, the multicast information is intended for both the R- and C-users, whereas the unicast information is only intended for the C-user. More explicitly, NOMA is employed to facilitate this double spectrum sharing, where the multicast and unicast signals are superimposed in the power domain and the superimposed communication signals are also exploited as radar probing waveforms. First, a beamformer-based NOMA-aided joint Rad-MU-Com framework is proposed for the system having a single R-user and a single C-user. Based on this framework, the unicast rate maximization problem is formulated by optimizing the beamformers employed, while satisfying the rate requirement of multicast and the predefined accuracy of the radar beam pattern. The resultant non-convex optimization problem is solved by a penalty-based iterative algorithm to find a high-quality near-optimal solution. Next, the system is extended to the scenario of multiple pairs of R- and C-users, where a cluster-based NOMA-aided joint Rad-MU-Com framework is proposed. A joint beamformer design and power allocation optimization problem is formulated for the maximization of the sum of the unicast rate at each C-user, subject to the constraints on both the minimum multicast rate for each R&C pair and on accuracy of the radar beam pattern for detecting multiple R-users. The resultant joint optimization problem is efficiently solved by another penalty-based iterative algorithm developed. |
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| AbstractList | in IEEE Journal on Selected Areas in Communications, vol. 40, no.
6, pp. 1978-1992, June 2022 The novel concept of non-orthogonal multiple access (NOMA) aided joint radar
and multicast-unicast communication (Rad-MU-Com) is investigated. Employing the
same spectrum resource, a multi-input-multi-output (MIMO) dual-functional
radar-communication (DFRC) base station detects the radar-centric users
(R-user), while transmitting mixed multicast-unicast messages both to the
R-user and to the communication-centric user (C-user). In particular, the
multicast information is intended for both the R- and C-users, whereas the
unicast information is only intended for the C-user. More explicitly, NOMA is
employed to facilitate this double spectrum sharing, where the multicast and
unicast signals are superimposed in the power domain and the superimposed
communication signals are also exploited as radar probing waveforms. First, a
beamformer-based NOMA-aided joint Rad-MU-Com framework is proposed for the
system having a single R-user and a single C-user. Based on this framework, the
unicast rate maximization problem is formulated by optimizing the beamformers
employed, while satisfying the rate requirement of multicast and the predefined
accuracy of the radar beam pattern. The resultant non-convex optimization
problem is solved by a penalty-based iterative algorithm to find a high-quality
near-optimal solution. Next, the system is extended to the scenario of multiple
pairs of R- and C-users, where a cluster-based NOMA-aided joint Rad-MU-Com
framework is proposed. A joint beamformer design and power allocation
optimization problem is formulated for the maximization of the sum of the
unicast rate at each C-user, subject to the constraints on both the minimum
multicast rate for each R&C pair and on accuracy of the radar beam pattern for
detecting multiple R-users. The resultant joint optimization problem is
efficiently solved by another penalty-based iterative algorithm developed. The novel concept of non-orthogonal multiple access (NOMA) aided joint radar and multicast-unicast communication (Rad-MU-Com) is investigated. Employing the same spectrum resource, a multi-input-multi-output (MIMO) dual-functional radar-communication (DFRC) base station detects the radar-centric users (R-user), while transmitting mixed multicast-unicast messages both to the R-user and to the communication-centric user (C-user). In particular, the multicast information is intended for both the R- and C-users, whereas the unicast information is only intended for the C-user. More explicitly, NOMA is employed to facilitate this double spectrum sharing, where the multicast and unicast signals are superimposed in the power domain and the superimposed communication signals are also exploited as radar probing waveforms. First, a beamformer-based NOMA-aided joint Rad-MU-Com framework is proposed for the system having a single R-user and a single C-user. Based on this framework, the unicast rate maximization problem is formulated by optimizing the beamformers employed, while satisfying the rate requirement of multicast and the predefined accuracy of the radar beam pattern. The resultant non-convex optimization problem is solved by a penalty-based iterative algorithm to find a high-quality near-optimal solution. Next, the system is extended to the scenario of multiple pairs of R- and C-users, where a cluster-based NOMA-aided joint Rad-MU-Com framework is proposed. A joint beamformer design and power allocation optimization problem is formulated for the maximization of the sum of the unicast rate at each C-user, subject to the constraints on both the minimum multicast rate for each R&C pair and on accuracy of the radar beam pattern for detecting multiple R-users. The resultant joint optimization problem is efficiently solved by another penalty-based iterative algorithm developed. |
| Author | Guo, Li Lin, Jiaru Mu, Xidong Hanzo, Lajos Liu, Yuanwei |
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| BackLink | https://doi.org/10.1109/JSAC.2022.3155524$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.2110.02372$$DView paper in arXiv |
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| Snippet | The novel concept of non-orthogonal multiple access (NOMA) aided joint radar and multicast-unicast communication (Rad-MU-Com) is investigated. Employing the... in IEEE Journal on Selected Areas in Communications, vol. 40, no. 6, pp. 1978-1992, June 2022 The novel concept of non-orthogonal multiple access (NOMA) aided... |
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| SubjectTerms | Beamforming Communication Communications systems Computational geometry Computer Science - Information Theory Convexity Design optimization Iterative algorithms Mathematics - Information Theory Maximization Multicasting Optimization Radar beams Waveforms |
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