Versión de HTML Básico
Geoestadística y arqueología: una nueva perspectiva analítico-interpretativa. . .
Analíti a
k
4
Revista de Análisis Estadístico
Journal of Statistical Analysis
[50] Orquera, L. A. “Análisis de los conchales fueguinos y
de la distribución espacial interna del Sitio Túnel VII.”
Actas del XII Congreso Nacional de Arqueología Ar-
gentina, 66 -72. La Plata.
[51] Orquera, L. A.; Piana A. E. (1999): La vida social y
material de los Yámana. Eudeba-IFIC. Buenos Aires.
(1999)
[52] Pumain, D. “Vers une Théorie évolutive des villes.”
LŽEspace Géographique, 2.119-134. (1997)
[53] Ripley, B. D. “Spatial Statistics.” Wiley. New York.
(1981)
[54] Ripley, B. D. “The second order analysis of stationary
point process.” Journal of Applied Probability, 13. 255-
276. (1976)
[55] Schwarz, K R.; J. Mount “Integrating Spatial Statistics
into Archaeological Data Modeling.” In Mehrer, M.K.;
Wescott, K.L. (Eds.) GIS and Archaeological Site Loca-
tion Modeling. (167-189) Taylor y Francis. Boca Ratón.
(2006)
[56] Schabenberger, O.; Gotway, C.A. “Statisitcal Methods
for Spatial Data Analysis” Chapman y Hall/CR. Boca
Ratón. (2005)
[57] Smith, S. P.; Jain, A-K. “A test to determine the multi-
variate normality of a dataset". IEEE Transactions on
Pattern Analysis and Machine Intelligence 10 (5) 757-
761. (1988)
[58] Sokal, R. R.; Oden D. L. “Spatial autocorrelation in
Biology. 1. Methodology.” Biological Journal of the
Linnean Society 10:199-228. (1978a)
[59] Sokal, R. R.; Oden D. L. “Spatial autocorrelation in
biology. 2. Some biological implications and four ap-
plications of evolutionary and ecological interest.”
Biological Journal of the Linnean Society 10:229-249.
(1978b)
[60] Sokal, R.R.; Oden, N. L.; Rosenberg, M. S. and D. Di-
Giovanni D. “Ethnohistory, genetics, and cancer mor-
tality in Europeans.” Proceedings of the National Aca-
demy of Sciences USA 94:12728-12731. (1997)
[61] Sonka, M., Hlavac, V., and Boyle, R. “Image, Proces-
sing, Analysis and Machine Vision.” Chapman y Hall
Computing Series. Chapman y Hall, London. (1993)
[62] Tobler, W., “Cellular geography”, en Gale, S. y G.
Olsson (eds.): Philosophy in Geography. Dordrecht:
Reidel), pp. 379-386. (1979)
[63] Upton, G. J.; Finglenton, B. “Spatial Data Analysis by
Example.” Volume 1: Point Pattern and Interval Data.
John Wiley. New York. (1985)
[64] Venables W. N.; Ripley B. D. “Modern Applied Statis-
tics with S-Plus.” Springer. New York. (1994)
[65] Vila, A.; Estévez, J. “Calibrando el Método: Arqueolo-
gía en Tierra del Fuego.” Atti 1. Congreso Di Etnoar-
cheologia. Roma. (1999)
[66] Warren, R.E. “Predictive modelling of archaeological
site location: a primer.” In K.M.S. Allen, S.W. Green
and E.B.W. Zubrow (eds) Interpreting Space: GIS and
Archaeology. London. (1990)
[67] Wheatley, D.; Gillings, M. “Spatial Technology and
Archaeology: a Guide to the Archaeological Applica-
tions of GIS.” Taylor y Francis. London. (2002)
[68] Wünsch, G. “La organización del espacio interno
de los asentamientos de comunidades cazadoras-
recolectoras: Revisión crítica y alternativas.” Xama 4-
5. (1991)
[69] Wünsch, G., Arasa, E.; Pérez, M. “Dissecting the pa-
limpset: an easy computer-graphic approach to the
stratigraphic sequence of Tunel VII site (Tierra del
Fuego, Argentina).” Analecta Praehistorica Leindesia
Univ. of Leiden. (1996)
[70] Zurbrow, E. B.; Harbaugh, J. W. “Kriging and simu-
lation.” In I. Hodder (Ed.) Simulation Studies in Ar-
chaeology. Cambridge University Press. Cambridge.
(1978)
Analítika,
Revista de análisis estadístico
, 2 (2012), Vol. 4(2): 83-95
95