This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Ahmed, M., Li, Y., Waqas, M., Sheraz, M., Jin, D. and Han, Z. 2018. “A survey on socially aware device-to-device communications,” IE EE Communication Survey and Tutorials 20(3): 2169–2197.AhmedM.LiY.WaqasM.SherazM.JinD.HanZ.2018“A survey on socially aware device-to-device communications,”20(3):2169219710.1109/COMST.2018.2820069Search in Google Scholar
Arachchillage, U. S. S. S., Jayakody, D. N. K., Biswash, S. K. and Dinis, R. 2018. “Recent advances and future research challenges in non-orthogonal multiple access for 5g networks,” IE EE Vehicular Technology Conference, pp. 1–6.ArachchillageU. S. S. S.JayakodyD. N. K.BiswashS. K.DinisR.2018“Recent advances and future research challenges in non-orthogonal multiple access for 5g networks,”pp.1610.1109/VTCSpring.2018.8417843Search in Google Scholar
Asheralie va, A. and Miyanaga, Y. 2016. “Dynamic buffer status-based control for LTE – a network with underlay D2D communication,” IE EE Transactions on Communications 64(3): 1342–1355.Asheralie vaA.MiyanagaY.2016“Dynamic buffer status-based control for LTE – a network with underlay D2D communication,”64(3):1342135510.1109/TCOMM.2016.2523505Search in Google Scholar
Balyan, V. 2020. “Outage probability of cognitive radio network utilizing non orthogonal multiple access,” 2020 7th International Conference on Signal Processing and Integrated Networks, SPIN 2020, pp. 751–755.BalyanV.2020“Outage probability of cognitive radio network utilizing non orthogonal multiple access,”pp.75175510.1109/SPIN48934.2020.9071401Search in Google Scholar
Balyan, V. and Danie ls, R. 2020. “Resource allocation for NOMA based networks using relays: cell centre and cell edge users”, International Journal on Smart Sensing and Intelligent Systems, 13(1): 1–18.BalyanV.Danie lsR.2020“Resource allocation for NOMA based networks using relays: cell centre and cell edge users”,13(1):11810.21307/ijssis-2020-031Search in Google Scholar
Balyan, V. and Saini, D. S. 2011. “Integrating new calls and performance improvement in OVSF based CDMA Networks,” International Journal of Computers & Communication, 5(2): 35–42.BalyanV.SainiD. S.2011“Integrating new calls and performance improvement in OVSF based CDMA Networks,”5(2):3542Search in Google Scholar
Balyan, V. and Saini, D. S. 2014. “A same rate and pattern recognition search of OVSF Code Tree for WCDMA networks”, IE T Communications 8(13): 2366–2374.BalyanV.SainiD. S.2014“A same rate and pattern recognition search of OVSF Code Tree for WCDMA networks”8(13):2366237410.1049/iet-com.2013.0814Search in Google Scholar
Balyan, V., Ligwa, M. and Groenewald, B. 2018. Mobile broadband scaling and enhancement for fast moving trains. Broadband Communications Networks – Recent Advances and Lessons from Practice, doi: 10.5772/intechopen.71782.BalyanV.LigwaM.GroenewaldB.2018Mobile broadband scaling and enhancement for fast moving trainsdoi:10.5772/intechopen.71782Open DOISearch in Google Scholar
Cui, Y., Lau, V. K. N., Wang, R., Huang, H. and Zhang, S. 2012. “A survey on delay-aware resource control for wireless systems—large deviation theory, stochastic lyapunov drift, and distributed stochastic learning,” IE EE Transactions on Information Theory, 58(3): 1677–1701, doi: 10.1109/TIT.2011.2178150.CuiY.LauV. K. N.WangR.HuangH.ZhangS.2012“A survey on delay-aware resource control for wireless systems—large deviation theory, stochastic lyapunov drift, and distributed stochastic learning,”58(3):16771701doi:10.1109/TIT.2011.2178150Open DOISearch in Google Scholar
Ding, Z., et al. 2017. “Application of non-orthogonal multiple accessDingZ.2017Search in Google Scholar
in LTE and 5G Networks,” IE EE Communication Magazine 55(2): 185–191.in LTE and 5G Networks,”55(2):185191Search in Google Scholar
Li, J., Xia, W. and Shen, L. 2017. “Delay-aware resource control for device-to-device underlay communication systems,” Transactions on Emerging Telecommunications Technologie s, 28: 1–6.LiJ.XiaW.ShenL.2017“Delay-aware resource control for device-to-device underlay communication systems,”281610.1002/ett.2949Search in Google Scholar
Liu, J., Kato, N., Ma, J. and Kadowaki, N. 2015. “Device-to-device communication in LTE-advanced networks: a survey,” IE EE Communication Survey and Tutorials 17(4): 1923–1940.LiuJ.KatoN.MaJ.KadowakiN.2015“Device-to-device communication in LTE-advanced networks: a survey,”17(4):1923194010.1109/COMST.2014.2375934Search in Google Scholar
Pan, Y., Pan, C., Yang, Z. and Chen, M. 2018. “Resource allocation for D2D communications underlaying a NOMA-based cellular network,” IE EE Wireless Communication Letter 7(1): 130–133.PanY.PanC.YangZ.ChenM.2018“Resource allocation for D2D communications underlaying a NOMA-based cellular network,”7(1):13013310.1109/LWC.2017.2759114Search in Google Scholar
Rabie, K. M. and Adebisi, B. 2017. “Enhanced amplify-and-forward relaying in non-Gaussian PLC networks,” IEEE Access 5: 4087–4094.RabieK. M.AdebisiB.2017“Enhanced amplify-and-forward relaying in non-Gaussian PLC networks,”54087409410.1109/ACCESS.2017.2680599Search in Google Scholar
Saini, D. S. and Balyan, V. 2012. “OVSF code slots sharing and reduction in call blocking for 3G and beyond WCDMA networks,” WSEAS Transactions on Communication 11(4): 135–146.SainiD. S.BalyanV.2012“OVSF code slots sharing and reduction in call blocking for 3G and beyond WCDMA networks,”11(4):135146Search in Google Scholar
Wan, X., Zhu, X., Jiang, Y., Liu, Y. and Zhao, J. 2020. “An interference alignment and ICA based semi-blind dual-user downlink NOMA system for high-reliability low-latency IoT,” IEEE Internet of Things Journal 4662(c): 1–1.WanX.ZhuX.JiangY.LiuY.ZhaoJ.2020“An interference alignment and ICA based semi-blind dual-user downlink NOMA system for high-reliability low-latency IoT,”4662(c):11Search in Google Scholar
Wang, W., Zhang, F. and Lau, V. K. N. 2015. “Dynamic power control for delay-aware device-to-device communications,” IEEE Journal on Selected Areas in Communications 33(1): 14–27.WangW.ZhangF.LauV. K. N.2015“Dynamic power control for delay-aware device-to-device communications,”33(1):142710.1109/JSAC.2014.2369614Search in Google Scholar
Xin, J., Zhu, Q., Liang, G. and Zhang, T. 2019. “Performance analysis of d2d underlying cellular networks based on dynamic priority queuing model”, IEEE Access 7: 27479–27489.XinJ.ZhuQ.LiangG.ZhangT.2019“Performance analysis of d2d underlying cellular networks based on dynamic priority queuing model”,7274792748910.1109/ACCESS.2019.2894678Search in Google Scholar
Xu, Y., Shen, C., Chang, T. H., Lin, S. C., Zhao, Y. and Zhu, G. 2020. “Transmission energy minimization for heterogeneous low-latency NOMA downlink,” IEEE Transaction on Wireless Communication 19(2): 1054–1069.XuY.ShenC.ChangT. H.LinS. C.ZhaoY.ZhuG.2020“Transmission energy minimization for heterogeneous low-latency NOMA downlink,”19(2):1054106910.1109/TWC.2019.2950318Search in Google Scholar
Zhao, J., Liu, Y., Chai, K. K., Chen, Y., Elkashlan, M. and Alonso-Zarate, J. 2018. “NOMA-based D2D communications: Towards 5G,” 2016 IEEE Global Communications Conference GLOBECOM 2016–Proceedings, pp. 132–137.ZhaoJ.LiuY.ChaiK. K.ChenY.ElkashlanM.Alonso-ZarateJ.2018“NOMA-based D2D communications: Towards 5G,”pp.13213710.1109/GLOCOM.2016.7842024Search in Google Scholar