Reference change · event page
Reference changes · DOI
& Barabási, A.-L
Published notice on a work cited in the Pith corpus. Exact quotes below. No model judges whether any citation was load-bearing.
This page records that a citing paper's bibliography includes a work with a published notice. It is not a judgment on the citing paper.
Correction
Crossref
6 open · 6 total · 0 disputed
- Event date
- 2019-03-28
01Notices on this DOI
-
Correction
Crossref · 2019-03-28
-
Correction
Crossref · 2016-05-03
02One-hop citing occurrences
Correction
Open
Scale-free congestion clusters in large-scale traffic networks: a continuum modeling study
ref [9] ·
2604.05439
· notice #6819
· dispute
Raw extraction · citation context
approach based on dynamic traffic assignment, Physica A 657 (2025) 130257.doi:10.1016/j. physa.2024.130257. [7] C. S. Holling, Resilience and stability of ecological systems, Annu. Rev. Ecol. Syst. 4 (1973) 1-23. doi:10.1017/9781009177856.038. 22 [8] S. E. Chang, M. Shinozuka, Measuring improvements in the disaster resilience of communities, Earthq. Spectra 20 (3) (2004).doi:10.1193/1.1775796. [9] J. Gao, B. Barzel, A. L. Barabási, Universal resilience patterns in complex networks, Nature 530 (2016) 307-312.doi:10.1038/nature16948. [10] L. Zhang, G. Zeng, D. Li, H. Huang, H. E. Stanley, S. Havlin, Scale-free resilience of real traffic jams, Proc. Natl. Acad. Sci. U. S. A. 116 (18) (2019) 8673-8678.doi:10.1073/pnas.1814982116. [11] P. Bak, C.
Parser render (TeX stripped for reading; raw above is the evidence)
approach based on dynamic traffic assignment, Physica A 657 (2025) 130257.doi:10.1016/j. physa.2024.130257. [7] C. S. Holling, Resilience and stability of ecological systems, Annu. Rev. Ecol. Syst. 4 (1973) 1-23. doi:10.1017/9781009177856.038. 22 [8] S. E. Chang, M. Shinozuka, Measuring improvements in the disaster resilience of communities, Earthq. Spectra 20 (3) (2004).doi:10.1193/1.1775796. [9] J. Gao, B. Barzel, A. L. Barabási, Universal resilience patterns in complex networks, Nature 530 (2016) 307-312.doi:10.1038/nature16948. [10] L. Zhang, G. Zeng, D. Li, H. Huang, H. E. Stanley, S. Havlin, Scale-free resilience of real traffic jams, Proc. Natl. Acad. Sci. U. S. A. 116 (18) (2019) 8673-8678.doi:10.1073/pnas.1814982116. [11] P. Bak, C
Correction
Open
Modeling Disruptions to Urban Metabolism using Interconnected Networks
ref [8] ·
2604.06104
· notice #6818
· dispute
Raw extraction · bibliography line
Universal resilience patterns in complex networks. Nature 530, 307–312. doi:10.1038/nature16948. 19 Gim, C., Miller, C.A.,
Parser render (TeX stripped for reading; raw above is the evidence)
Universal resilience patterns in complex networks. Nature 530, 307–312. doi:10.1038/nature16948. 19 Gim, C., Miller, C.A
Correction
Open
Complexity synchronization as a diagnostic and control principle for adaptive systems
ref [12] ·
2606.10948
· notice #6820
· dispute
Raw extraction · bibliography line
Gao, J., Barzel, B. & Barabási, A.-L. Universal resilience patterns in complex networks.Nature530, 307–312, DOI: 10.1038/nature16948 (2016)
Correction
Open
Scale-free congestion clusters in large-scale traffic networks: a continuum modeling study
ref [9] ·
2604.05439
· notice #3206
· dispute
Raw extraction · citation context
approach based on dynamic traffic assignment, Physica A 657 (2025) 130257.doi:10.1016/j. physa.2024.130257. [7] C. S. Holling, Resilience and stability of ecological systems, Annu. Rev. Ecol. Syst. 4 (1973) 1-23. doi:10.1017/9781009177856.038. 22 [8] S. E. Chang, M. Shinozuka, Measuring improvements in the disaster resilience of communities, Earthq. Spectra 20 (3) (2004).doi:10.1193/1.1775796. [9] J. Gao, B. Barzel, A. L. Barabási, Universal resilience patterns in complex networks, Nature 530 (2016) 307-312.doi:10.1038/nature16948. [10] L. Zhang, G. Zeng, D. Li, H. Huang, H. E. Stanley, S. Havlin, Scale-free resilience of real traffic jams, Proc. Natl. Acad. Sci. U. S. A. 116 (18) (2019) 8673-8678.doi:10.1073/pnas.1814982116. [11] P. Bak, C.
Parser render (TeX stripped for reading; raw above is the evidence)
approach based on dynamic traffic assignment, Physica A 657 (2025) 130257.doi:10.1016/j. physa.2024.130257. [7] C. S. Holling, Resilience and stability of ecological systems, Annu. Rev. Ecol. Syst. 4 (1973) 1-23. doi:10.1017/9781009177856.038. 22 [8] S. E. Chang, M. Shinozuka, Measuring improvements in the disaster resilience of communities, Earthq. Spectra 20 (3) (2004).doi:10.1193/1.1775796. [9] J. Gao, B. Barzel, A. L. Barabási, Universal resilience patterns in complex networks, Nature 530 (2016) 307-312.doi:10.1038/nature16948. [10] L. Zhang, G. Zeng, D. Li, H. Huang, H. E. Stanley, S. Havlin, Scale-free resilience of real traffic jams, Proc. Natl. Acad. Sci. U. S. A. 116 (18) (2019) 8673-8678.doi:10.1073/pnas.1814982116. [11] P. Bak, C
Correction
Open
Modeling Disruptions to Urban Metabolism using Interconnected Networks
ref [8] ·
2604.06104
· notice #3205
· dispute
Raw extraction · bibliography line
Universal resilience patterns in complex networks. Nature 530, 307–312. doi:10.1038/nature16948. 19 Gim, C., Miller, C.A.,
Parser render (TeX stripped for reading; raw above is the evidence)
Universal resilience patterns in complex networks. Nature 530, 307–312. doi:10.1038/nature16948. 19 Gim, C., Miller, C.A
Correction
Open
Complexity synchronization as a diagnostic and control principle for adaptive systems
ref [12] ·
2606.10948
· notice #3207
· dispute
Raw extraction · bibliography line
Gao, J., Barzel, B. & Barabási, A.-L. Universal resilience patterns in complex networks.Nature530, 307–312, DOI: 10.1038/nature16948 (2016)