ArcauteEHatnaEFergusonP, et al. (2014)
Constructing cities, deconstructing scaling laws.Journal of the Royal Society Interface12(102): 20140745.
2.
BattyM (2012)
Building a science of cities.Cities29: S9–S16.
3.
BettencourtLMALoboJHelbingD, et al. (2007)
Growth, innovation, scaling, and the pace of life in cities.Proceedings of the National Academy of Sciences of the United States of America104(17): 7301–7306.
4.
CottineauCHatnaEArcauteE, et al. (2017)
Diverse cities or the systematic paradox of Urban Scaling Laws. Computers, Environment and Urban Systems63: 80–94.
5.
FragkiasMLoboJStrumskyD, et al. (2013)
Does size matter? Scaling of CO2 emissions and U.S. urban areas.PLoS ONE8(6): e64727.
6.
GudipudiRRybskiDLüdekeMKB, et al. (2019)
The efficient, the intensive, and the productive: Insights from urban Kaya scaling.Applied Energy236: 155–162.
7.
Jogesh BabuGFeigelsonED (1992)
Analytical and monte carlo comparisons of six different linear least squares fits.Communications in Statistics – Simulation and Computation21(2): 533–549.
8.
LeitãoJCMiottoJMGerlachM, et al. (2016)
Is this scaling nonlinear?Royal Society Open Science3(7): 150649.
9.
LoufRBarthelemyM (2014)
Scaling: Lost in the Smog.Environment and Planning B: Planning and Design41(5): 767–769.
10.
OliveiraEAAndradeJSMakseHA (2015)
Large cities are less green. Scientific Reports4(1): 4235.
11.
RybskiDReusserDEWinzA-L, et al. (2017)
Cities as nuclei of sustainability?Environment and Planning B: Urban Analytics and City Science44(3): 425–440.
12.
SatterthwaiteD (2009)
The implications of population growth and urbanization for climate change.Environment and Urbanization21(2): 545–567.
