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Michael Small
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2020 – today
- 2024
- [j61]Eugene Tan, Débora C. Corrêa, Thomas Stemler, Michael Small:
A Backpropagation Algorithm for Inferring Disentagled Nodal Dynamics and Connectivity Structure of Dynamical Networks. IEEE Trans. Netw. Sci. Eng. 11(1): 613-624 (2024) - 2023
- [j60]Lixiang Liu, Shanshan Chen, Michael Small, Jack Murdoch Moore, Keke Shang:
Global stability and optimal control of epidemics in heterogeneously structured populations exhibiting adaptive behavior. Commun. Nonlinear Sci. Numer. Simul. 126: 107500 (2023) - [j59]Tongfeng Weng, Xiaolu Chen, Zhuoming Ren, Huijie Yang, Jie Zhang, Michael Small:
Synchronization of machine learning oscillators in complex networks. Inf. Sci. 630: 74-81 (2023) - [j58]Yucheng Hao, Limin Jia, Enrico Zio, Yanhui Wang, Michael Small, Man Li:
Improving resilience of high-speed train by optimizing repair strategies. Reliab. Eng. Syst. Saf. 237: 109381 (2023) - 2022
- [j57]Haiying Wang, Jack Murdoch Moore, Michael Small, Jun Wang, Huijie Yang, Changgui Gu:
Epidemic dynamics on higher-dimensional small world networks. Appl. Math. Comput. 421: 126911 (2022) - [j56]Tongfeng Weng, Huijie Yang, Jie Zhang, Michael Small:
Modeling chaotic systems: Dynamical equations vs machine learning approach. Commun. Nonlinear Sci. Numer. Simul. 114: 106452 (2022) - [j55]Laurita dos Santos, Débora C. Corrêa, David M. Walker, Moacir Fernandes de Godoy, Elbert E. N. Macau, Michael Small:
Characterisation of neonatal cardiac dynamics using ordinal partition network. Medical Biol. Eng. Comput. 60(3): 829-842 (2022) - [j54]Ayham A. Zaitouny, Athanasios D. Fragkou, Thomas Stemler, David M. Walker, Yuchao Sun, Theodoros E. Karakasidis, Eftihia G. Nathanail, Michael Small:
Multiple Sensors Data Integration for Traffic Incident Detection Using the Quadrant Scan. Sensors 22(8): 2933 (2022) - [j53]Thomas Jüngling, Thomas Lymburn, Michael Small:
Consistency Hierarchy of Reservoir Computers. IEEE Trans. Neural Networks Learn. Syst. 33(6): 2586-2595 (2022) - [c20]Braden Thorne, Thomas Jüngling, Michael Small, Débora C. Corrêa, Ayham A. Zaitouny:
A Novel Approach to Time Series Complexity via Reservoir Computing. AI 2022: 442-455 - [c19]Eugene Tan, Débora C. Corrêa, Thomas Stemler, Michael Small:
Machine Learning Inspired Fault Detection of Dynamical Networks. AI 2022: 470-483 - [i21]Eugene Tan, Débora C. Corrêa, Thomas Stemler, Michael Small:
Backpropagation on Dynamical Networks. CoRR abs/2207.03093 (2022) - 2021
- [j52]Jaymin Moffatt, Ayham A. Zaitouny, Melinda R. Hodkiewicz, Michael Small:
Detecting Asset Cascading Failures Using Complex Network Analysis. IEEE Access 9: 120624-120637 (2021) - [j51]Zhongke Gao, An-An Liu, Yanhui Wang, Michael Small, Xiaojun Chang, Jürgen Kurths:
IEEE Access Special Section Editorial: Big Data Learning and Discovery. IEEE Access 9: 158064-158073 (2021) - [j50]Haiying Wang, Jack Murdoch Moore, Jun Wang, Michael Small:
The distinct roles of initial transmission and retransmission in the persistence of knowledge in complex networks. Appl. Math. Comput. 392: 125730 (2021) - [j49]Tongfeng Weng, Haiying Wang, Huijie Yang, Changgui Gu, Jie Zhang, Michael Small:
Representing complex networks without connectivity via spectrum series. Inf. Sci. 563: 16-22 (2021) - [j48]Kezan Li, Haifeng Zhang, Guanghu Zhu, Michael Small, Xinchu Fu:
Suboptimal Control and Targeted Constant Control for Semi-Random Epidemic Networks. IEEE Trans. Syst. Man Cybern. Syst. 51(4): 2602-2610 (2021) - [i20]Thomas Jüngling, Thomas Lymburn, Michael Small:
Consistency capacity of reservoir computers. CoRR abs/2105.13473 (2021) - 2020
- [j47]Michael Small, David Cavanagh:
Modelling Strong Control Measures for Epidemic Propagation With Networks - A COVID-19 Case Study. IEEE Access 8: 109719-109731 (2020) - [j46]Ayham A. Zaitouny, Michael Small, June Hill, Irina V. Emelyanova, M. Ben Clennell:
Fast automatic detection of geological boundaries from multivariate log data using recurrence. Comput. Geosci. 135: 104362 (2020) - [j45]Zahra Shahriari, Michael Small:
Permutation Entropy of State Transition Networks to Detect Synchronization. Int. J. Bifurc. Chaos 30(10): 2050154:1-2050154:10 (2020) - [j44]Shanshan Chen, Michael Small, Xinchu Fu:
Global Stability of Epidemic Models With Imperfect Vaccination and Quarantine on Scale-Free Networks. IEEE Trans. Netw. Sci. Eng. 7(3): 1583-1596 (2020) - [c18]Thomas Lymburn, Thomas Jüngling, Michael Small:
Quantifying Robustness and Capacity of Reservoir Computers with Consistency Profiles. ICANN (2) 2020: 447-458
2010 – 2019
- 2019
- [j43]Haiying Wang, Jun Wang, Michael Small, Jack Murdoch Moore:
Review mechanism promotes knowledge transmission in complex networks. Appl. Math. Comput. 340: 113-125 (2019) - [j42]Tongfeng Weng, Huijie Yang, Changgui Gu, Jie Zhang, Pan Hui, Michael Small:
Predator-prey games on complex networks. Commun. Nonlinear Sci. Numer. Simul. 79: 104911 (2019) - [j41]Xiaoyi Peng, Michael Small, Yi Zhao, Jack Murdoch Moore:
Detecting and Predicting Tipping Points. Int. J. Bifurc. Chaos 29(8): 1930022:1-1930022:11 (2019) - [j40]Xinyu Han, Yi Zhao, Michael Small:
Identification of Dynamical Behavior of Pseudoperiodic Time Series by Network Community Structure. IEEE Trans. Circuits Syst. II Express Briefs 66-II(11): 1905-1909 (2019) - [c17]Tat Kei Chau, Samson Shenglong Yu, Tyrone Fernando, Herbert Ho-Ching Iu, Michael Small:
An Investigation of the Impact of PV Penetration and BESS Capacity on Islanded Microgrids-A Small-Signal Based Analytical Approach. ICIT 2019: 1679-1684 - [c16]Thomas Jüngling, Thomas Lymburn, Thomas Stemler, Débora C. Corrêa, David M. Walker, Michael Small:
Reconstruction of Complex Dynamical Systems from Time Series using Reservoir Computing. ISCAS 2019: 1-5 - [i19]Ke-Ke Shang, Michael Small, Di Yin, Yan Wang, Tong-chen Li:
The key to the weak-ties phenomenon. CoRR abs/1906.03662 (2019) - [i18]Ke-Ke Shang, Michael Small, Yan Wang, Di Yin, Shu Li:
A novel metric for community detection. CoRR abs/1909.12467 (2019) - 2018
- [j39]Débora C. Corrêa, David M. Walker, Michael Small:
Detecting Determinism in Time Series with Complex Networks Constructed Using a Compression Algorithm. Int. J. Bifurc. Chaos 28(13): 1850165:1-1850165:13 (2018) - [j38]Jack Murdoch Moore, Michael Small:
Estimating dynamical dimensions from noisy observations. Inf. Sci. 462: 55-75 (2018) - [j37]Zili Liu, Weisheng Yan, Huiping Li, Michael Small:
Cooperative output regulation problem of multi-agent systems with stochastic packet dropout and time-varying communication delay. J. Frankl. Inst. 355(17): 8664-8682 (2018) - [j36]Mengfeng Sun, Michael Small, Shui Shan Lee, Xinchu Fu:
An Exploration and Simulation of Epidemic Spread and its Control in Multiplex Networks. SIAM J. Appl. Math. 78(3): 1602-1631 (2018) - [j35]Tat Kei Chau, Samson Shenglong Yu, Tyrone Fernando, Herbert Ho-Ching Iu, Michael Small:
A Load-Forecasting-Based Adaptive Parameter Optimization Strategy of STATCOM Using ANNs for Enhancement of LFOD in Power Systems. IEEE Trans. Ind. Informatics 14(6): 2463-2472 (2018) - [c15]Ashleigh Ballantyne, Nicholas Lawrance, Michael Small, Melinda Hodkiewicz, David Burton:
Fault prediction and modelling in transport networks. ISCAS 2018: 1-5 - [c14]Michael Small, Michael McCullough, Konstantinos Sakellariou:
Ordinal Network Measures - Quantifying Determinism in Data. ISCAS 2018: 1-5 - 2017
- [j34]Hai-Feng Zhang, Panpan Shu, Zhen Wang, Ming Tang, Michael Small:
Preferential imitation can invalidate targeted subsidy policies on seasonal-influenza diseases. Appl. Math. Comput. 294: 332-342 (2017) - [j33]Tania Loke, Jingwei Tang, Jeremy Rodriguez, Michael Small, Jingbo Wang:
Comparing classical and quantum PageRanks. Quantum Inf. Process. 16(1): 25 (2017) - [j32]Arif Mahmood, Michael Small, Somaya Ali Al-Máadeed, Nasir M. Rajpoot:
Using Geodesic Space Density Gradients for Network Community Detection. IEEE Trans. Knowl. Data Eng. 29(4): 921-935 (2017) - [i17]Tongfeng Weng, Jie Zhang, Michael Small, Farshid Hassani Bijarbooneh, Pan Hui:
Partial cover time that is sublinear in the number of targets on complex networks: a universal law. CoRR abs/1701.03259 (2017) - 2016
- [j31]Arif Mahmood, Michael Small:
Subspace Based Network Community Detection Using Sparse Linear Coding. IEEE Trans. Knowl. Data Eng. 28(3): 801-812 (2016) - [c13]Arif Mahmood, Michael Small:
Subspace based network community detection using sparse linear coding. ICDE 2016: 1502-1503 - [i16]Xiao-Long Peng, Xin-Jian Xu, Michael Small, Xinchu Fu, Zhen Jin:
Prevention of infectious diseases by public vaccination and individual protection. CoRR abs/1604.03731 (2016) - [i15]Tongfeng Weng, Jie Zhang, Moein Khajehnejad, Michael Small, Rui Zheng, Pan Hui:
Navigation by anomalous random walks on complex networks. CoRR abs/1610.02878 (2016) - 2015
- [j30]Lvlin Hou, Michael Small, Songyang Lao:
Dynamical Systems Induced on Networks Constructed from Time Series. Entropy 17(9): 6433-6446 (2015) - [j29]Ricardo Araújo Rios, Michael Small, Rodrigo Fernandes de Mello:
Testing for Linear and Nonlinear Gaussian Processes in Nonstationary Time Series. Int. J. Bifurc. Chaos 25(1): 1550013:1-1550013:19 (2015) - [i14]Hai-Feng Zhang, Panpan Shu, Ming Tang, Michael Small:
Preferential imitation of vaccinating behavior can invalidate the targeted subsidy on complex network. CoRR abs/1503.08048 (2015) - 2014
- [j28]Qingchu Wu, Haifeng Zhang, Michael Small, Xinchu Fu:
Threshold analysis of the susceptible-infected-susceptible model on overlay networks. Commun. Nonlinear Sci. Numer. Simul. 19(7): 2435-2443 (2014) - [c12]Michael Small, Kevin Judd, Linjun Zhang:
How is that complex network complex? ISCAS 2014: 1263-1266 - [c11]Xiaoke Xu, Michael Small, F. Javier Perez-Barberia:
Uncovering interaction patterns of multi-agent collective motion via complex network analysis. ISCAS 2014: 2213-2216 - [i13]Michael Small:
Expected degree of finite preferential attachment networks. CoRR abs/1407.0343 (2014) - 2013
- [j27]Cristian Carmeli, Paolo Bonifazi, Hugh Robinson, Michael Small:
Quantifying network properties in multi-electrode recordings: spatiotemporal characterization and inter-trial variation of evoked gamma oscillations in mouse somatosensory cortex in vitro. Frontiers Comput. Neurosci. 7: 134 (2013) - [j26]Qingchu Wu, Michael Small, Huaxiang Liu:
Superinfection Behaviors on Scale-Free Networks with Competing Strains. J. Nonlinear Sci. 23(1): 113-127 (2013) - [c10]Michael Small:
Complex networks from time series: Capturing dynamics. ISCAS 2013: 2509-2512 - [i12]Michael Small, Kevin Judd, Thomas Stemler:
What is preferential to preferential attachment? CoRR abs/1305.6429 (2013) - [i11]Kevin Judd, Michael Small, Thomas Stemler:
What exactly are the properties of scale-free and other networks? CoRR abs/1305.7296 (2013) - [i10]Michael Small, Kevin Judd, Thomas Stemler:
A surrogate for networks - How scale-free is my scale-free network? CoRR abs/1306.4064 (2013) - [i9]Linjun Zhang, Michael Small, Kevin Judd:
Exactly scale-free scale-free networks. CoRR abs/1309.0961 (2013) - [i8]Xiao-Long Peng, Michael Small, Xin-Jian Xu, Xinchu Fu:
Temporal prediction of epidemic patterns in community networks. CoRR abs/1311.4126 (2013) - 2012
- [j25]Graciano Dieck Kattas, Xiaoke Xu, Michael Small:
Dynamical Modeling of Collective Behavior from Pigeon Flight Data: Flock Cohesion and Dispersion. PLoS Comput. Biol. 8(3) (2012) - [j24]Jin Zhou, Xiaoqun Wu, Wenwu Yu, Michael Small, Junan Lu:
Flocking of multi-agent dynamical systems based on pseudo-leader mechanism. Syst. Control. Lett. 61(1): 195-202 (2012) - [c9]Xiaoke Xu, Jian-Bo Wang, Ye Wu, Michael Small:
Pairwise Interaction Pattern in the Weighted Communication Network. CGC 2012: 736-743 - [i7]Xiaoke Xu, Jian-Bo Wang, Ye Wu, Michael Small:
Pairwise interaction pattern in the weighted communication network. CoRR abs/1203.1105 (2012) - [i6]Michael Small, Kevin Judd, Thomas Stemler:
The stability of networks --- towards a structural dynamical systems theory. CoRR abs/1206.2145 (2012) - [i5]Hai-Feng Zhang, Zhi-Xi Wu, Xiaoke Xu, Michael Small, Bing-Hong Wang:
The Impacts of Subsidy Policies on Vaccination Decisions in Contact Networks. CoRR abs/1207.4553 (2012) - 2011
- [j23]Reik V. Donner, Michael Small, Jonathan F. Donges, Norbert Marwan, Yong Zou, Ruoxi Xiang, Jürgen Kurths:
Recurrence-Based Time Series Analysis by Means of Complex Network Methods. Int. J. Bifurc. Chaos 21(4): 1019-1046 (2011) - [j22]Maria G. Knyazeva, Cristian Carmeli, Eleonora Fornari, Reto Meuli, Michael Small, Richard S. Frackowiak, Philippe Maeder:
Binding under Conflict Conditions: State-Space Analysis of Multivariate EEG Synchronization. J. Cogn. Neurosci. 23(9): 2363-2375 (2011) - [j21]Haifeng Zhang, Michael Small, Xinchu Fu:
Staged progression model for epidemic spread on homogeneous and heterogeneous networks. J. Syst. Sci. Complex. 24(4): 619-630 (2011) - [c8]Graciano Dieck Kattas, Michael Small:
Building Computational Models of Swarms from Simulated Positional Data. ICSI (1) 2011: 9-18 - [i4]Xiaoke Xu, Jie Zhang, Ping Li, Michael Small:
Optimizing and controlling functions of complex networks by manipulating rich-club connections. CoRR abs/1106.5301 (2011) - 2010
- [j20]Jie Zhang, Kai Zhang, Jianfeng Feng, Michael Small:
Rhythmic Dynamics and Synchronization via Dimensionality Reduction: Application to Human Gait. PLoS Comput. Biol. 6(12) (2010) - [i3]Xiaoke Xu, Jie Zhang, Michael Small:
Rich-club connectivity dominates assortativity and transitivity of complex networks. CoRR abs/1010.1705 (2010) - [i2]Reik V. Donner, Michael Small, Jonathan F. Donges, Norbert Marwan, Yong Zou, Ruoxi Xiang, Jürgen Kurths:
Recurrence-based time series analysis by means of complex network methods. CoRR abs/1010.6032 (2010) - [i1]Xin-Jian Xu, Xiao-Long Peng, Michael Small, Xinchu Fu:
Fitness-driven deactivation in network evolution. CoRR abs/1012.4623 (2010)
2000 – 2009
- 2009
- [j19]Jin Zhou, Wenwu Yu, Xiumin Li, Michael Small, Junan Lu:
Identifying the Topology of a Coupled FitzHugh-Nagumo Neurobiological Network via a Pinning Mechanism. IEEE Trans. Neural Networks 20(10): 1679-1684 (2009) - [c7]Michael Small, Jie Zhang, Xiaoke Xu:
Transforming Time Series into Complex Networks. Complex (2) 2009: 2078-2089 - [c6]Xiaofan Liu, Chi Kong Tse, Michael Small:
Composing Music with Complex Networks. Complex (2) 2009: 2196-2205 - 2008
- [j18]Yi Zhao, Junfeng Sun, Michael Small:
Evidence Consistent with Deterministic Chaos in Human Cardiac Data: Surrogate and Nonlinear Dynamical Modeling. Int. J. Bifurc. Chaos 18(1): 141-160 (2008) - [j17]Jin Zhou, Xiaoke Xu, Jie Zhang, Junfeng Sun, Michael Small, Junan Lu:
Generating an Assortative Network with a Given Degree Distribution. Int. J. Bifurc. Chaos 18(11): 3495-3502 (2008) - [j16]Junfeng Sun, Jie Zhang, Michael Small:
Extension of the local subspace method to enhancement of speech with colored noise. Signal Process. 88(7): 1881-1888 (2008) - [c5]Michael Small, Chi Kong Tse:
Feasible implementation of a prediction algorithm for the game of roulette. APCCAS 2008: 1208-1211 - 2007
- [j15]Miguel Romera, Michael Small, Marius-F. Danca:
Deterministic and random synthesis of discrete chaos. Appl. Math. Comput. 192(1): 283-297 (2007) - [j14]Tomomichi Nakamura, Yoshito Hirata, Kevin Judd, Devin Kilminster, Michael Small:
Improved Parameter Estimation from Noisy Time Series for Nonlinear Dynamical Systems. Int. J. Bifurc. Chaos 17(5): 1741-1752 (2007) - [j13]Xiaodong Luo, Michael Small, Marius-F. Danca, Guanrong Chen:
On a Dynamical System with Multiple Chaotic attractors. Int. J. Bifurc. Chaos 17(9): 3235-3251 (2007) - 2006
- [j12]Tomomichi Nakamura, Michael Small:
Modeling Nonlinear Time Series Using Improved Least Squares Method. Int. J. Bifurc. Chaos 16(2): 445-464 (2006) - [j11]Jie Zhang, Michael Small, Kai Zhang:
Chaos inducement and Enhancement in Two Particular Nonlinear Maps Using Weak Periodic/quasiperiodic Perturbations. Int. J. Bifurc. Chaos 16(5): 1585-1598 (2006) - [j10]Tomomichi Nakamura, Kevin Judd, Alistair I. Mees, Michael Small:
A Comparative Study of Information Criteria for Model Selection. Int. J. Bifurc. Chaos 16(8): 2153-2175 (2006) - [j9]Tomomichi Nakamura, Michael Small:
Applying the Method of Small-shuffle Surrogate Data: Testing for Dynamics in fluctuating Data with Trends. Int. J. Bifurc. Chaos 16(12): 3581-3603 (2006) - [j8]Yi Zhao, Michael Small:
Minimum description length criterion for modeling of chaotic attractors with multilayer perceptron networks. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(3): 722-732 (2006) - [j7]David M. Walker, Michael Small:
Detecting Unstable Fixed Points Using Kalman Filters With Constraints. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(12): 2818-2827 (2006) - 2005
- [j6]Michael Small, Chi Kong Tse:
Small World and Scale Free Model of Transmission of SARS. Int. J. Bifurc. Chaos 15(5): 1745-1755 (2005) - [j5]Yi Zhao, Michael Small:
Equivalence between "feeling the pulse" on the human wrist and the pulse pressure wave at fingertip. Int. J. Neural Syst. 15(4): 277-286 (2005) - [c4]Michael Small, Chi Kong Tse, Tohru Ikeguchi:
Chaotic dynamics and simulation of Japanese vowel sounds. ECCTD 2005: 169-172 - 2004
- [c3]Yi Zhao, Michael Small:
Deterministic Propagation of Blood Pressure Waveform from Human Wrists to Fingertips. IDEAL 2004: 142-147 - [c2]Michael Small:
Combining Local and Global Models to Capture Fast and Slow Dynamics in Time Series Data. IDEAL 2004: 648-653 - 2003
- [j4]Michael Small, Dejin Yu, Robert G. Harrison:
Observation of a Period Doubling bifurcation during Onset of Human Ventricular Fibrillation. Int. J. Bifurc. Chaos 13(3): 743-754 (2003) - [c1]Michael Small, Chi Kong Tse:
Evidence for deterministic nonlinear dynamics in financial time series data. CIFEr 2003: 339-346 - 2001
- [j3]Michael Small, Dejin Yu, Robert G. Harrison, Richard H. Clayton, Trygve Eftestøl, Kjetil Sunde, Petter Andreas Steen:
Temporal Evolution of nonlinear Dynamics in Ventricular Arrhythmia. Int. J. Bifurc. Chaos 11(10): 2531-2548 (2001) - [j2]Michael Small, Kevin Judd, Alistair I. Mees:
Testing Time Series for Nonlinearity. Stat. Comput. 11(3): 257-268 (2001) - [j1]Michael Small, Dejin Yu, Robert G. Harrison:
Variation in the dominant period during ventricular fibrillation. IEEE Trans. Biomed. Eng. 48(9): 1056-1061 (2001)
Coauthor Index
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