1932
0
  1. Home
  2. A-Z Publications
  3. Annual Review of Condensed Matter Physics
  4. Volume 9, 2018
  5. Article

Annual Review of Condensed Matter Physics

Volume 9, 2018

Antagonistic Phenomena in Network Dynamics

Abstract

Recent research on the network modeling of complex systems has led to a convenient representation of numerous natural, social, and engineered systems that are now recognized as networks of interacting parts. Such systems can exhibit a wealth of phenomena that not only cannot be anticipated from merely examining their parts, as per the textbook definition of complexity, but also challenge intuition even when considered in the context of what is now known in network science. Here, we review the recent literature on two major classes of such phenomena that have far-reaching implications: () antagonistic responses to changes of states or parameters and () coexistence of seemingly incongruous behaviors or properties—both deriving from the collective and inherently decentralized nature of the dynamics. They include effects as diverse as negative compressibility in engineered materials, rescue interactions in biological networks, negative resistance in fluid networks, and the Braess paradox occurring across transport and supply networks. They also include remote synchronization, chimera states, and the converse of symmetry breaking in brain, power-grid, and oscillator networks as well as remote control in biological and bioinspired systems. By offering a unified view of these various scenarios, we suggest that they are representative of a yet broader class of unprecedented network phenomena that ought to be revealed and explained by future research.

Keyword(s): Braess paradoxcollective behaviorcomplex systemscontrolgame theorymore-for-less paradoxesNash equilibriumnetwork sciencenonlinear dynamicsprice of anarchyself-organizationsynchronization
Loading

Article metrics loading...

/content/journals/10.1146/annurev-conmatphys-033117-054054
2018-03-10
2024-04-19
Loading full text...

Full text loading...

/deliver/fulltext/conmatphys/9/1/annurev-conmatphys-033117-054054.html?itemId=/content/journals/10.1146/annurev-conmatphys-033117-054054&mimeType=html&fmt=ahah

Literature Cited

  1. Pigou AC. 1.  1920. The Economics of Welfare London: Macmillan
  2. Wardrop JG. 2.  1952. Proc. Inst. Civil Eng. (Part II). 1:3325–62
  3. Beckmann M, McGuire C, Winsten CB. 3.  1956. Studies in the Economics of Transportation New Haven, CT: Yale Univ. Press
  4. Braess D. 4.  1968. Unternehmensforschung 12:258–68
  5. Braess D, Nagurney A, Wakolbinger T. 5.  2005. Transp. Sci. 39:4446–50
  6. Roughgarden T. 6.  2005. Selfish Routing and the Price of Anarchy 174 Cambridge, MA: MIT Press
  7. Nash JF. 7.  1950. PNAS 36:148–49
  8. Pecora LM, Carroll TL. 8.  1990. Phys. Rev. Lett. 64:821–24
  9. Anderson PW. 9.  1972. Science 177:4047393–96
  10. Watts DJ. 10.  2011. Everything Is Obvious Once You Know the Answer: How Common Sense Fails Us New York: Crown Bus.
  11. Cohen JE, Horowitz P. 11.  1991. Nature 352:6337699–701
  12. Motter AE, Gulbahce N, Almaas E, Barabási A-L. 12.  2008. Mol. Syst. Biol. 4:1168
  13. Edwards J, Palsson B. 13.  2000. PNAS 97:105528–33
  14. Segrè D, Vitkup D, Church GM. 14.  2002. PNAS 99:2315112–17
  15. Cornelius SP, Lee JS, Motter AE. 15.  2011. PNAS 108:83124–29
  16. Motter AE. 16.  2010. BioEssays 32:3236–45
  17. Chait R, Craney A, Kishony R. 17.  2007. Nature 446:7136668–71
  18. Nicolaou ZG, Motter AE. 18.  2012. Nat. Mater. 11:7608–13
  19. Nicolaou ZG, Motter AE. 19.  2013. J. Stat. Phys. 151:61162–74
  20. Witthaut D, Timme M. 20.  2012. New J. Phys. 14:8083036
  21. Coletta T, Jacquod P. 21.  2016. Phys. Rev. E 93:3032222
  22. Filatrella G, Nielsen AH, Pedersen NF. 22.  2008. Eur. Phys. J. B 61:4485–91
  23. Rohden M, Sorge A, Timme M, Witthaut D. 23.  2012. Phys. Rev. Lett. 109:6064101
  24. Witthaut D, Timme M. 24.  2013. Eur. Phys. J. B 86:91–12
  25. Motter AE, Myers SA, Anghel M, Nishikawa T. 25.  2013. Nat. Phys. 9:3191–97
  26. Nishikawa T, Motter AE. 26.  2006. Phys. Rev. E 73:6065106
  27. Pecora LM, Carroll TL. 27.  1998. Phys. Rev. Lett. 80:102109
  28. Nishikawa T, Motter AE. 28.  2006. Phys. D 224:177–89
  29. Schröder M, Mannattil M, Dutta D, Chakraborty S, Timme M. 29.  2015. Phys. Rev. Lett. 115:5054101
  30. Schröder M, Chakraborty S, Witthaut D, Nagler J, Timme M. 30.  2016. Sci. Rep. 6:37142
  31. Stilwell DJ, Bollt EM, Roberson DG. 31.  2006. SIAM J. Appl. Dyn. Syst. 5:1140–56
  32. Chen L, Qiu C, Huang HB. 32.  2009. Phys. Rev. E 79:045101
  33. Jeter R, Belykh I. 33.  2015. IEEE Trans. Circuits Syst. I: Regul. Pap. 62:51260–69
  34. Nishikawa T, Motter AE. 34.  2010. PNAS 107:2310342–47
  35. Cohen J, Luczak T, Newman C, Zhou Z-M. 35.  1990. Proc. R. Soc. Lond. B 240:1299607–27
  36. Sahasrabudhe S, Motter AE. 36.  2011. Nat. Commun. 2:170
  37. Rosenzweig ML. 37.  1971. Science 171:3969385–87
  38. Cornelius SP, Kath WL, Motter AE. 38.  2013. Nat. Commun. 4:1942
  39. Dubey P. 39.  1986. Math. Oper. Res. 11:11–8
  40. Nagurney A. 40.  2010. Europhys. Lett. 91:448002
  41. Fisk C. 41.  1979. Transp. Res. Part B: Methodol. 13:4305–9
  42. Fujishige S, Goemans MX, Harks T, Peis B, Zenklusen R. 42.  2017. Math. Oper. Res. 42:3745–61
  43. Steinberg R, Stone RE. 43.  1988. Transp. Sci. 22:4231–41
  44. Smith M. 44.  1978. Transp. Res. 12:6419–22
  45. Yang H, Bell MG. 45.  1998. Transp. Res. Part A: Policy Pract. 32:7539–45
  46. Youn H, Gastner MT, Jeong H. 46.  2008. Phys. Rev. Lett. 101:12128701
  47. Skinner B. 47.  2015. Phys. Rev. E 91:5052126
  48. Solé-Ribalta A, Gómez S, Arenas A. 48.  2016. Phys. Rev. Lett. 116:10108701
  49. Korilis YA, Lazar AA, Orda A. 49.  1999. J. Appl. Probab. 36:1211–22
  50. Kameda H, Altman E, Kozawa T, Hosokawa Y. 50.  2000. IEEE Trans. Autom. Control 45:91687–91
  51. Lepore DM, Barratt C, Schwartz PM. 51.  2011. J. Math. Chem. 49:2356–70
  52. Blumsack S, Lave LB, Ilić M. 52.  2007. Energy J 28:473–100
  53. Nagurney LS, Nagurney A. 53.  2016. Europhys. Lett. 115:228004
  54. Calvert B, Keady G, Calvert B. 54.  1993. J. Aust. Math. Soc. Ser. B 35:1–22
  55. Keady G. 55.  1995. Electron. Rep., Dep. Math., Univ. West. Aust Nedlands, Australia:
  56. André J. 56.  2010. Optimization of investment in gas networks PhD Thesis, Univ. Lille Nord Fr Lille, France:
  57. Ayala L, Blumsack S. 57.  2013. Oil Gas Facil 2:352–64
  58. Pala M, Baltazar S, Liu P, Sellier H, Hackens B. 58.  et al. 2012. Phys. Rev. Lett. 108:7076802
  59. Sousa A, Chaves A, Farias G, Peeters F. 59.  2013. Phys. Rev. B 88:24245417
  60. Skardal PS, Taylor T, Sun J. 60.  2014. Phys. Rev. Lett. 113:14144101
  61. Nishikawa T, Motter AE. 61.  2016. Phys. Rev. Lett. 117:11114101
  62. Nishikawa T, Molnar F, Motter AE. 62.  2015. IFAC-PapersOnLine 48:181–6
  63. Kuramoto Y. 63.  2002. Nonlinear Dynamics And Chaos: Where Do We Go From Here? J Hogan, A Champneys, B Krauskopf, M di Bernardo, E Wilson, et al., ch. 9 Boca Raton, FL: CRC
  64. Abrams DM, Strogatz SH. 64.  2004. Phys. Rev. Lett. 93:17174102
  65. Rattenborg NC, Amlaner CJ, Lima SL. 65.  2000. Neurosci. Biobehav. Rev. 24:8817–42
  66. Davidenko JM, Pertsov AV, Salomonsz R, Baxter W, Jalife J. 66.  1992. Nature 355:349–51
  67. Kuramoto Y, Battogtokh D. 67.  2002. Nonlinear Phenom. Complex Syst. 5:4380–85
  68. Kuramoto Y, Shima S-i. 68.  2003. Prog. Theor. Phys. Suppl. 150:115–25
  69. Hagerstrom AM, Murphy TE, Roy R, Hövel P, Omelchenko I, Schöll E. 69.  2012. Nat. Phys. 8:9658–61
  70. Tinsley MR, Nkomo S, Showalter K. 70.  2012. Nat. Phys. 8:9662–65
  71. Martens EA, Thutupalli S, Fourrière A, Hallatschek O. 71.  2013. PNAS 110:2610563–67
  72. Wolfrum M, Omel'chenko E. 72.  2011. Phys. Rev. E 84:1015201
  73. Panaggio MJ, Abrams DM. 73.  2015. Nonlinearity 28:3R67
  74. Cho Y, Nishikawa T, Motter AE. 74.  2017. Phys. Rev. Lett. 119:8084101
  75. Suda Y, Okuda K. 75.  2015. Phys. Rev. E 92:6060901
  76. Hart JD, Bansal K, Murphy TE, Roy R. 76.  2016. Chaos 26:9094801
  77. Bick C, Ashwin P. 77.  2016. Nonlinearity 29:51468
  78. Schmidt L, Schönleber K, Krischer K, García-Morales V. 78.  2014. Chaos 24:1013102
  79. Nicolaou Z, Riecke H, Motter AE. 79.  2017. Phys. Rev. Lett. 119:24244101
  80. Nicosia V, Valencia M, Chavez M, Díaz-Guilera A, Latora V. 80.  2013. Phys. Rev. Lett. 110:17174102
  81. Zhang L, Motter AE, Nishikawa T. 81.  2017. Phys. Rev. Lett. 118:17174102
  82. Winful HG, Rahman L. 82.  1990. Phys. Rev. Lett. 65:131575
  83. Fischer I, Vicente R, Buldú JM, Peil M, Mirasso CR. 83.  et al. 2006. Phys. Rev. Lett. 97:12123902
  84. MacArthur BD, Sánchez-García RJ, Anderson JW. 84.  2008. Discret. Appl. Math. 156:183525–31
  85. Pecora LM, Sorrentino F, Hagerstrom AM, Murphy TE, Roy R. 85.  2014. Nat. Commun. 5:4079
  86. Hopfield JJ. 86.  1982. PNAS 79:82554–58
  87. Cardelli L, Hernansaiz-Ballesteros R, Dalchau N, Csikász-Nagy A. 87.  2017. PLOS Comput. Biol. 13:1e1005100
  88. Klinglmayr J, Bettstetter C. 88.  2012. ACM Trans. Auton. Adapt. Syst. 7:330
  89. Klinglmayr J, Kirst C, Bettstetter C, Timme M. 89.  2012. New J. Phys. 14:7073031
  90. Kirst C. 90.  2012. Synchronization, neuronal excitability, and information flow in networks of neuronal oscillators PhD Thesis, Univ. Göttingen, Göttingen Germany:
  91. Kirst C, Timme M, Battaglia D. 91.  2016. Nat. Commun. 7:11061
  92. Atay FM, Jost J, Wende A. 92.  2004. Phys. Rev. Lett. 92:14144101
  93. Ernst U, Pawelzik K, Geisel T. 93.  1995. Phys. Rev. Lett. 74:91570
  94. Timme M, Wolf F, Geisel T. 94.  2002. Phys. Rev. Lett. 89:15154105
  95. Meng JH, Riecke H. 95.  2016. arXiv1612.06881
  96. Clusella P, Politi A. 96.  2017. Phys. Rev. E 95:062221
  97. Amro RM, Lindner B, Neiman AB. 97.  2015. Phys. Rev. Lett. 115:3034101
  98. Achlioptas D, D'souza RM, Spencer J. 98.  2009. Science 323:59201453–55
  99. da Costa RA, Dorogovtsev SN, Goltsev AV, Mendes JFF. 99.  2010. Phys. Rev. Lett. 105:25255701
  100. Riordan O, Warnke L. 100.  2011. Science 333:6040322–24
  101. Grassberger P, Christensen C, Bizhani G, Son S-W, Paczuski M. 101.  2011. Phys. Rev. Lett. 106:22225701
  102. Nagler J, Levina A, Timme M. 102.  2011. Nat. Phys. 7:3265–70
  103. Vlasov V, Zou Y, Pereira T. 103.  2015. Phys. Rev. E 92:1012904
  104. Gómez-Gardeñes J, Gómez S, Arenas A, Moreno Y. 104.  2011. Phys. Rev. Lett. 106:12128701
  105. Leyva I, Sevilla-Escoboza R, Buldú J, Sendina-Nadal I, Gómez-Gardeñes J. 105.  et al. 2012. Phys. Rev. Lett. 108:16168702
  106. Zou Y, Pereira T, Small M, Liu Z, Kurths J. 106.  2014. Phys. Rev. Lett. 112:11114102
  107. Horgan J. 107.  1995. Sci. Am. 272:6104–9
/content/journals/10.1146/annurev-conmatphys-033117-054054
Loading
Antagonistic Phenomena in Network Dynamics
Annual Review of Condensed Matter Physics 9, 463 (2018); https://doi.org/10.1146/annurev-conmatphys-033117-054054
/content/journals/10.1146/annurev-conmatphys-033117-054054
/content/journals/10.1146/annurev-conmatphys-033117-054054
Loading

Data & Media loading...

  • Article Type: Review Article

Most Cited Most Cited RSS feed

This is a required field
Please enter a valid email address
Approval was a Success
Invalid data
An Error Occurred
Approval was partially successful, following selected items could not be processed due to error