Effective Anomaly Relationship Patterns Maximizing Long-Term Value
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Chu, J.-H., Feng, K.-T., & Chang, T.-S. (2014). Energy-efficient cell selection and resource allocation in LTE-A heterogeneous networks. In 2014 IEEE 25th annual international symposium on personal, indoor, and mobile radio communication (PIMRC), 2014: IEEE, pp. 976–980.��
�Guvenc, I. (2011). Capacity and fairness analysis of heterogeneous networks with range expansion and interference coordination. IEEE Communications Letters, 15(10), 1084–1087.��
* Okino, K., Nakayama, T., Yamazaki, C., Sato, H., & Kusano, Y. (2011). Pico cell range expansion with interference mitigation toward LTE-Advanced heterogeneous networks. In 2011 IEEE international conference on communications workshops (ICC), 2011: IEEE, pp. 1–5.��
* Tefft, J. R., & Kirsch, N. J. (2013). A proximity-based Q-learning reward function for femtocell networks. In 2013 IEEE 78th vehicular technology conference (VTC Fall), 2013: IEEE, pp. 1–5.� �
* Saad, H., Mohamed, A., & ElBatt, T. (2012). Distributed cooperative Q-learning for power allocation in cognitive femtocell networks. In 2012 IEEE vehicular technology conference (VTC Fall), 2012: IEEE, pp. 1–5.�
* Wen, B., Gao, Z., Huang, L., Tang, Y., & Cai, H. (2014). A Q-learning-based downlink resource scheduling method for capacity optimization in LTE femtocells. In 2014 9th international conference on computer science & education, 2014: IEEE, pp. 625–628.��
* Galindo-Serrano, A., & Giupponi, L. (2010). Distributed Q-learning for interference control in OFDMA-based femtocell networks. In 2010 IEEE 71st vehicular technology conference, 2010: IEEE, pp. 1–5.��
* Guo, D., Tang, L., Zhang, X., & Liang, Y.-C. (2020). Joint optimization of handover control and power allocation based on multi-agent deep reinforcement learning. IEEE Transactions on Vehicular Technology, 69(11), 13124–13138.��
* Alnwaimi, G., Vahid, S., & Moessner, K. (2014). Dynamic heterogeneous learning games for opportunistic access in LTE-based macro/femtocell deployments. IEEE Transactions on Wireless Communications, 14(4), 2294–2308.��
* Onireti, O., et al. (2015). A cell outage management framework for dense heterogeneous networks. IEEE Transactions on Vehicular Technology, 65(4), 2097–2113.�
* Behjati, M., & Cosmas, J. (2013). Self-organizing network interference coordination for future LTE-advanced networks. In 2013 IEEE international symposium on broadband multimedia systems and broadcasting (BMSB), 2013: IEEE, pp. 1–5.�
* Aguilar-Garcia, A., et al. (2015). Location-aware self-organizing methods in femtocell networks. Computer Networks, 93, 125–140.��
* Kudo, T., & Ohtsuki, T. (2013). Cell range expansion using distributed Q-learning in heterogeneous networks. Eurasip journal on wireless communications and networking, 2013(1), 1–10.��
* Gomez, C. A., Shami, A., & Wang, X. (2018). Machine learning aided scheme for load balancing in dense IoT networks. Sensors, 18(11), 3779.��
* Ye, Q., Rong, B., Chen, Y., Al-Shalash, M., Caramanis, C., & Andrews, J. G. (2013). User association for load balancing in heterogeneous cellular networks. IEEE Transactions on Wireless Communications, 12(6), 2706–2716.��
* Jiang, H., Pan, Z., Liu, N., You, X., & Deng, T. (2016). Gibbs-sampling-based CRE bias optimization algorithm for ultradense networks. IEEE Transactions on Vehicular Technology, 66(2), 1334–1350.��
* Park, J.-B., & Kim, K. S. (2017). Load-balancing scheme with small-cell cooperation for clustered heterogeneous cellular networks. IEEE Transactions on Vehicular Technology, 67(1), 633–649.��
* Afshang, M., & Dhillon, H. S. (2018). Poisson cluster process based analysis of HetNets with correlated user and base station locations. IEEE Transactions on Wireless Communications, 17(4), 2417–2431.��
* Musleh, S., Ismail, M., & Nordin, R. (2017). Load balancing models based on reinforcement learning for self-optimized macro-femto LTE-advanced heterogeneous network. Journal of Telecommunication, Electronic and Computer Engineering (JTEC), 9(1), 47–54.��
* Jaber, M., Imran, M., Tafazolli, R., & Tukmanov, A. (2015). An adaptive backhaul-aware cell range extension approach. In 2015 IEEE international conference on communication workshop (ICCW), 2015: IEEE, pp. 74–79.�
* Hamidouche, K., Saad, W., Debbah, M., Song, J. B., & Hong, C. S. (2017). The 5G cellular backhaul management dilemma: To cache or to serve. IEEE Transactions on Wireless Communications, 16(8), 4866–4879.��
* Samarakoon, S., Bennis, M., Saad, W., & Latva-aho, M. (2013). Backhaul-aware interference management in the uplink of wireless small cell networks. IEEE Transactions on Wireless Communications, 12(11), 5813–5825.
* Team Basics: Edge, Security, Cloud, Data. Holistic Development with Community.
1�Aprodu, M., Naie, D.: Enriques diagrams and the log-canonical threshold for curves. Preprint, arXiv:math/07070783.�2�Casas-Alvero E.: Infinitely near imposed singularities and singularities of polar curves. Math. Ann. 287, 429–454 (1990)�� 3�Ein, L.: Multiplier ideals, vanishing theorems and applications. Algebraic geometry—Santa Cruz, pp. 203–219 (1995)�4�Ein L., Lazarsfeld R., Smith K.E., Varolin D.: Jumping coefficients of multiplier ideals. Duke Math. J. 123(3), 469–506 (2004)�� 5�Enriques F., Chisini O.: Lezioni Sulla Teoria Geometrica Delle Equazioni e Delle Funzioni Algebriche. N. Zanichelli, Bologna (1915)�� 6�Evain L.: La fonction de Hilbert de la réunion de 4h gros points génériques de ℙ� de même multiplicité. J. Algebraic Geom. 8, 787–796 (1999)�� 7�Favre Ch., Jonsson M.: Valuations and multiplier ideals. J. Am. Math. Soc. 18(3), 655–684 (2005)�� 8�Howald J.A.: Multiplier ideals of monomial ideals. Trans. Am. Math. Soc. 353, 2665–2671 (2001)�� 9�Järviletho, T.: Jumping numbers of a simple complete ideal in a two-dimensional regular local ring. Ph.D. Thesis, University of Helsinky (2007)�10�Lazarsfeld, R.: Positivity in algebraic geometry. A Series of Modern Surveys in Mathematics. Springer, Berlin (2004)�11�Naie D.: Irregularity of cyclic multiple planes after Zariski. L’enseignement mathématique 53, 265–305 (2008)�� 12�Semple J.G., Kneebone G.T.: Algebraic Curves. Oxford University Press, London-New York (1959)�� 13�Smith, K.E., Thompson, H.M.: Irrelevant exceptional divisors for curves on a smooth surface. Preprint, arXiv:math/0611765�14�Tucker, K.: Jumping Numbers on algebraic surfaces with rational singularities. Preprint, arXiv:math/081.0734�15�Wall, C.T.C.: Singular points of plane curves. London Mathematical Society Student Texts, vol. 63. Cambridge University Press, Cambridge (2004)




