Skip to main content Accessibility help
×
Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-17T15:10:24.276Z Has data issue: false hasContentIssue false

References

Published online by Cambridge University Press:  06 April 2023

Tom Brughmans
Affiliation:
Aarhus Universitet, Denmark
Matthew A. Peeples
Affiliation:
Arizona State University
Get access

Summary

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Chapter
Information
Publisher: Cambridge University Press
Print publication year: 2023

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abadie-Reynal, Catherine 1989 Céramique et commerce dans le bassin Egéen du IVe au VIIe siecle. In Hommes et richesses dans l’empire byzantin, edited by Kravari, V., Lefort, J., and Morrisson, C., pp. 143159. Tome I, IVe–VIIe siècle. P. Lethielleux, Paris.Google Scholar
Adams, Colin 2007 Land Transport in Roman Egypt: A Study of Economics and Administration in a Roman Province. Oxford Classical Monographs. Oxford University Press, Oxford.Google Scholar
Adams, Jimi, Faust, Katherine, and Lovasi, Gina S. 2012 Capturing Context: Integrating Spatial and Social Network Analyses. Social Networks 34(1):15.Google Scholar
Adams, William Y., and Adams, Ernest W. 1991 Archaeological Typology and Practical Reality: A Dialectical Approach to Artifact Classification and Sorting. Cambridge University Press, Cambridge.Google Scholar
Adobe.com 2021 Color Wheel, a Color Palette Generator. https://color.adobe.com/create/color-wheel, accessed September 3, 2021.Google Scholar
Ahnert, Ruth, Ahnert, Sebastian E., Coleman, Catherine Nicole, and Weingart, Scott B. 2020 The Network Turn: Changing Perspectives in the Humanities. Cambridge University Press, Cambridge.CrossRefGoogle Scholar
Albert, Réka, and Barabási, Albert-László 2002 Statistical Mechanics of Complex Networks. Review of Modern Physics 74:4797.Google Scholar
Allen, Melinda S. 2004 Bet-Hedging Strategies, Agricultural Change, and Unpredictable Environments: Historical Development of Dryland Agriculture in Kona, Hawaii. Journal of Anthropological Archaeology 23(2):196224.Google Scholar
Alper, Basak, Bach, Benjamin, Riche, Nathalie Henry, Isenberg, Tobias, and Fekete, Jean-Daniel 2013 Weighted Graph Comparison Techniques for Brain Connectivity Analysis. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 483492. Association for Computing Machinery, New York.Google Scholar
Amaral, L. A. N., Scala, A., Barthélémy, M., and Stanley, H. E. 2000 Classes of Small-World Networks. Proceedings of the National Academy of Sciences of the United States of America 97(21):1114911152.Google Scholar
Amati, Viviana, Mol, Angus, Shafie, Termeh, Hofman, Corinne, and Brandes, Ulrik 2020 A Framework for Reconstructing Archaeological Networks Using Exponential Random Graph Models. Journal of Archaeological Method and Theory 27(2):192219.Google Scholar
Amati, Viviana, Shafie, Termeh, and Brandes, Ulrik 2018 Reconstructing Archaeological Networks with Structural Holes. Journal of Archaeological Method and Theory 25(1):226253.Google Scholar
Ancient World Mapping Center 2012 Road Information Derived from Talbert, Richard, J. A., and Roger, S. Bagnall. 2000. Barrington Atlas of the Greek and Roman World. Princeton University Press, Princeton, NJ. http://awmc.unc.edu/awmc/map_data/shapefiles/ba_roads/.Google Scholar
Anderson, James E. 2011 The Gravity Model. Annual Review of Economics 3(1):133160.Google Scholar
Apolinaire, Eduardo, and Bastourre, Laura 2016 Nets and Canoes: A Network Approach to the Pre-Hispanic Settlement System in the Upper Delta of the Paraná River (Argentina). Journal of Anthropological Archaeology 44:5668.Google Scholar
Arcenas, Scott 2015 ORBIS and the Sea: A Model for Maritime Transportation under the Roman Empire. https://orbis.stanford.edu/assets/Arcenas_ORBISandSea.pdf, accessed October 5, 2022.Google Scholar
Arnaud, Pascal 2005 Les routes de la navigation antique: itinéraires en Méditerranée. Errance, Arles.Google Scholar
Bach, Benjamin, Pietriga, Emmanuel, and Fekete, Jean-Daniel 2014 GraphDiaries: Animated Transitions and Temporal Navigation for Dynamic Networks. IEEE Transactions on Visualization and Computer Graphics 20(5):740754.Google Scholar
Bach, Benjamin, Riche, Nathalie Henry, Fernandez, Roland, Giannisakis, Emmanoulis, Lee, Bongshin, and Fekete, Jean-Daniel 2015 NetworkCube: Bringing Dynamic Network Visualizations to Domain Scientists. Posters of the Conference on Information Visualization (InfoVis), October 2015, Chicago.Google Scholar
Bach, Benjamin, and van Garderen, Mereke 2023 Beyond the Node-Link Diagram: A Fast Forward about Network Visualisation for Archaeology. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Bahn, Paul, and Renfrew, Colin 2008 Archaeology: Theories, Methods and Practice. 5th ed. Thames & Hudson, New York.Google Scholar
Balassa, Bela 1961 Towards a Theory of Economic Integration. Kyklos: International Review for Social Sciences 14(1):117.CrossRefGoogle Scholar
Bang, Peter Fibiger 2008 The Roman Bazaar: A Comparative Study of Trade and Markets in a Tributary Empire. Cambridge University Press, Cambridge.Google Scholar
Banning, Edward B. 2021 Sampled to Death? The Rise and Fall of Probability Sampling in Archaeology. American Antiquity 86(1):4360.Google Scholar
Barabási, Albert-László, and Albert, Réka 1999 Emergence of Scaling in Random Networks. Science 286:509512.Google Scholar
Barabási, Albert-László, and Frangos, Jennifer 2014 Linked: How Everything Is Connected to Everything Else and What It Means for Business, Science, and Everyday Life. Basic Books, New York.Google Scholar
Barkhordari, Mohammadhossein, and Niamanesh, Mahdi 2015 ScaDiPaSi: An Effective Scalable and Distributable MapReduce-Based Method to Find Patient Similarity on Huge Healthcare Networks. Big Data Research 2(1):1927.Google Scholar
Barnes, J. A. 1954 Class and Committees in a Norwegian Island Parish. Human Relations 7(1):3958.Google Scholar
Barnes, J. A., and Harary, Frank 1983 Graph Theory in Network Analysis. Social Networks 5(2):235244.Google Scholar
Barthelemy, Marc 2011 Spatial Networks. Physics Reports 499(1–3):1101.Google Scholar
Bastian, Mathieu, Heymann, Sebastien, and Jacomy, Mathieu 2009 Gephi: An Open Source Software for Exploring and Manipulating Networks. In Proceedings of the International AAAI Conference on Weblogs and Social Media 3(1):361362.CrossRefGoogle Scholar
Batjargal, Bat 2007 Internet Entrepreneurship: Social Capital, Human Capital, and Performance of Internet Ventures in China. Research Policy 36(5):605618.CrossRefGoogle Scholar
Baur, Michael, Benkert, Marc, Brandes, Ulrik, Cornelsen, Sabine, Gaertler, Marco, Köpf, Boris, Lerner, Jürgen, and Wagner, Dorothea 2002 Visone Software for Visual Social Network Analysis. In Graph Drawing, edited by Mutzel, Petra, Jünger, Michael, and Leipert, Sebastian, pp. 463464. Lecture Notes in Computer Science. Springer, Berlin.Google Scholar
Beck, Fabian, Burch, Michael, Diehl, Stephan, and Weiskopf, Daniel 2017 A Taxonomy and Survey of Dynamic Graph Visualization. Computer Graphics Forum 36(1):133159.Google Scholar
Behrisch, Michael, Bach, Benjamin, Riche, Nathalie Henry, Schreck, Tobias, and Fekete, Jean-Daniel 2016 Matrix Reordering Methods for Table and Network Visualization. Computer Graphics Forum 35(3):693716.Google Scholar
Bender-deMoll, Skye 2019 ndtv: Network Dynamic Temporal Visualizations. R Package version 0.13.0.Google Scholar
Bender-deMoll, Skye, and Morris, Martina 2021 tsna: Tools for Temporal Social Network Analysis. R Package version 0.3.5.Google Scholar
Bentley, R. Alexander, and Maschner, Herbert D. G. 2003 Complex Systems and Archaeology. University of Utah Press, Salt Lake City.Google Scholar
Bentley, R. Alexander, and Shennen, Stephen J. 2003 Cultural Transmission and Stochastic Network Growth. American Antiquity 68:459485.Google Scholar
Bernardini, Wesley 2007 Jeddito Yellow Ware and Hopi Social Networks. Kiva 72(3):295328.Google Scholar
Bernardini, Wesley, and Peeples, Matthew A. 2015 Sight Communities: The Social Significance of Shared Visual Landmarks. American Antiquity 80(2):215235.Google Scholar
Bevan, Andrew, and Wilson, Alan 2013 Models of Settlement Hierarchy Based on Partial Evidence. Journal of Archaeological Science 40(5):24152427.Google Scholar
Bian, Yanjie 1997 Bringing Strong Ties Back In: Indirect Ties, Network Bridges, and Job Searches in China. American Sociological Review 62(3):366385.Google Scholar
Biggs, Norman, Lloyd, E. Keith, and Wilson, Robin J. 1976 Graph Theory, 1736–1936. Clarendon Press, Oxford.Google Scholar
Binford, Sally, and Binford, Lewis R. 1968 New Perspectives in Archeology. Aldine Publishing, Chicago.Google Scholar
Birch, Jennifer, and Hart, John P. 2018 Social Networks and Northern Iroquoian Confederacy Dynamics. American Antiquity 83(1):1333.Google Scholar
Blair, Elliot Hampton 2015 Making Mission Communities: Population Aggregation, Social Networks, and Communities of Practice at 17th Century Mission Santa Catalina de Guale. PhD dissertation, University of California, Berkeley.Google Scholar
Blake, Emma 2013 Social Networks, Path Dependence, and the Rise of Ethnic Groups in Pre-Roman Italy. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 203222. Oxford University Press, Oxford.Google Scholar
Blake, Emma 2014 Social Networks and Regional Identity in Bronze Age Italy. Cambridge University Press, Cambridge.Google Scholar
Blondel, Vincent D., Guillaume, Jean Loup, Lambiotte, Renaud, and Lefebvre, Etienne 2008 Fast Unfolding of Communities in Large Networks. Journal of Statistical Mechanics: Theory and Experiment 10:112.Google Scholar
Bojanowski, Michal 2015 intergraph: Coercion Routines for Network Data Objects. R package version 2.02.Google Scholar
Bonacich, P. 1972 Factoring and Weighting Approaches to Status Scores and Clique Identification. Journal of Mathematical Sociology 2:113120.CrossRefGoogle Scholar
Borck, Lewis, Athenstädt, Jan C., Cheromiah, Lee Ann, Aragon, Leslie D., Brandes, Ulrik, and Hofman, Corinne L. 2020 Plainware and Polychrome: Quantifying Perceptual Differences in Ceramic Classification between Diverse Groups to Further a Strong Objectivity. Journal of Computer Applications in Archaeology 3(1):135150.Google Scholar
Borck, Lewis, Mills, Barbara J., Peeples, Matthew A., and Clark, Jeffery J. 2015 Are Social Networks Survival Networks? An Example from the Late Pre-Hispanic US Southwest. Journal of Archaeological Method and Theory 22(1):3357.Google Scholar
Borgatti, Stephen P. 2005 Centrality and Network Flows. Social Networks 27(1):5571.Google Scholar
Borgatti, Stephen P. 2006 Identifying Sets of Key Players in a Social Network. Computational & Mathematical Organization Theory 12(1):2134.Google Scholar
Borgatti, Stephen P., Carley, Kathleen M., and Krackhardt, David 2006 On the Robustness of Centrality Measures under Conditions of Imperfect Data. Social Networks 28(2):124136.Google Scholar
Borgatti, Stephen, Everett, Martin, and Freeman, Linton 2002 UCINET for Windows: Software for Social Network Analysis. Harvard University.Google Scholar
Borgatti, Stephen P., Everett, Martin G., and Shirey, Paul R. 1990 LS Sets, Lambda Sets and Other Cohesive Subsets. Social Networks 12:337357.Google Scholar
Borgatti, Stephen P., and Halgin, Daniel S. 2011a Analyzing Affiliation Networks. In The SAGE Handbook of Social Network Analysis, edited by Scott, John and Carrington, Peter J., pp. 417433. SAGE Publications, New York.Google Scholar
Borgatti, Stephen P., and Halgin, Daniel S. 2011b On Network Theory. Organization Science 22(5):11681181.Google Scholar
Borgatti, Stephen P., Mehra, Ajay, Brass, Daniel J., and Labianca, Giuseppe 2009 Network Analysis in the Social Sciences. Science 323:892895.Google Scholar
Borner, Katy, Maru, Jeegar T., and Goldstone, Robert L. 2004 The Simultaneous Evolution of Author and Paper Networks. Proceedings of the National Academy of Sciences 101:52665273.Google Scholar
Bott, Elizabeth 1955 Urban Families: Conjugal Roles and Social Networks. Human Relations 8(4):345384.Google Scholar
Bott, Elizabeth 1957 Family and Social Network: Roles, Norms, and External Relationships in Ordinary Urban Families. Tavistock, London.Google Scholar
Böttger, Joachim, Brandes, Ulrik, Deussen, Oliver, and Ziezold, Hendrik 2008 Map Warping for the Annotation of Metro Maps. IEEE Computer Graphics and Applications 28(5):5665.Google Scholar
Brandes, Ulrik, and Erlebach, Thomas 2005 Network Analysis: Methodological Foundations. Springer, Berlin.Google Scholar
Brandes, Ulrik, and Pich, Christian 2010 More Flexible Radial Layout. In Graph Drawing, edited by Eppstein, David and Gansner, Emden R., pp. 107118. Lecture Notes in Computer Science. Springer, Berlin.Google Scholar
Brandes, Ulrik, Robins, Garry, McCrainie, A. N. N., and Wasserman, Stanley 2013 What Is Network Science? Network Science 1(1):115.Google Scholar
Brandes, Ulrik, and Wagner, Dorothea 2004 Analysis and Visualization of Social Networks. In Graph Drawing Software, edited by Jünger, Michael and Mutzel, Petra, pp. 321340. Mathematics and Visualization. Springer-Verlag, Berlin.Google Scholar
Branting, Scott 2007 Using an Urban Street Network and a PGIS-T Approach to Analyze Ancient Movement. In Digital Discovery: Exploring New Frontiers in Human Heritage. Proceedings of the 34th CAA conference, Fargo, 2006, edited by Hagenmeister, J. T. and Clark, E. M., pp. 8796. Archaeolingua, Budapest.Google Scholar
Brass, Daniel J. 2009 Connecting to Brokers: Strategies for Acquiring Social Capital. In Social Capital: Reaching Out, Reaching In, edited by Bartkus, Viva Ona and Davis, James H.. Edward Elgar Publishing, Cheltenham.Google Scholar
Braun, David P., and Plog, Stephen 1982 Evolution of “Tribal” Social Networks: Theory and Prehistoric North American Evidence. American Antiquity 47(3):504525.Google Scholar
Breiger, Ronald L. 1974 The Duality of Persons and Groups. Social Forces 53(2):181190.Google Scholar
Bright, David A., Hughes, Caitlin E., and Chalmers, Jenny 2012 Illuminating Dark Networks: A Social Network Analysis of an Australian Drug Trafficking Syndicate. Crime, Law and Social Change 57(2):151176.Google Scholar
Brin, Sergey, and Page, Lawrence 1998 The Anatomy of a Large-Scale Hypertextual Web Search Engine BT. Computer Networks and ISDN Systems 30(1–7):107117.Google Scholar
Brinkmeier, Michael, and Schank, Thomas 2005 Network Statistics. In Network Analysis: Methodological Foundations, edited by Brandes, Ulrik and Erlebach, Thomas, pp. 293317. Springer, Berlin.CrossRefGoogle Scholar
Broodbank, Cyprian 2000 An Island Archaeology of the Early Cyclades. Cambridge University Press, Cambridge.Google Scholar
Brown, Bernadetta Bea, Patel, Cyra, McInnes, Elizabeth, Mays, Nicholas, Young, Jane, and Haines, Mary 2016 The Effectiveness of Clinical Networks in Improving Quality of Care and Patient Outcomes: A Systematic Review of Quantitative and Qualitative Studies. BMC Health Services Research 16(1):360.CrossRefGoogle ScholarPubMed
Brughmans, Tom 2010 Connecting the Dots: Towards Archaeological Network Analysis. Oxford Journal of Archaeology 29(3):277303.Google Scholar
Brughmans, Tom 2013a Networks of Networks: A Citation Network Analysis of the Adoption, Use and Adaptation of Formal Network Techniques in Archaeology. Literary and Linguistic Computing, the Journal of Digital Scholarship in the Humanities 28(4):538562.Google Scholar
Brughmans, Tom 2013b Thinking through Networks: A Review of Formal Network Methods in Archaeology. Journal of Archaeological Method and Theory 20:623662.Google Scholar
Brughmans, Tom, Bobou, Olympia, Kristensen, Nathalia B., Thomsen, Rikke R., Jensen, Jesper V., and Raja, Rubina 2021 A Kinship Network Analysis of Palmyrene Genealogies. Journal of Historical Network Research 6(1). https://doi.org/10.25517/jhnr.v6i1.65.Google Scholar
Brughmans, Tom, and Brandes, Ulrik 2017 Visibility Network Patterns and Methods for Studying Visual Relational Phenomena in Archeology. Frontiers in Digital Humanities 4:120.Google Scholar
Brughmans, Tom, Collar, Anna, and Coward, Fiona 2016 The Connected Past: Challenges to Network Studies in Archaeology and History. Oxford University Press, Oxford.Google Scholar
Brughmans, Tom, Keay, Simon, and Earl, Graeme 2014 Introducing Exponential Random Graph Models for Visibility Networks. Journal of Archaeological Science 49:442454.Google Scholar
Brughmans, Tom, Keay, Simon, and Earl, Graeme 2015 Understanding Inter-settlement Visibility in Iron Age and Roman Southern Spain with Exponential Random Graph Models for Visibility Networks. Journal of Archaeological Method and Theory 22(1):58143.Google Scholar
Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A. (editors) 2023 The Oxford Handbook of Archaeological Network Research. Oxford University Press, Oxford.Google Scholar
Brughmans, Tom, and Pecci, Alessandra 2020 An Inconvenient Truth: Evaluating the Impact of Amphora Reuse through Computational Simulation Modelling. In Recycling and Reuse in the Roman Economy, edited by Duckworth, Chloë and Wilson, Andrew, pp. 191234. Oxford Studies on the Roman Economy. Oxford University Press, Oxford.Google Scholar
Brughmans, Tom, and Peeples, Matthew A. 2017 Trends in Archaeological Network Research: A Bibliometric Analysis. Journal of Historical Network Research 1(1):124.Google Scholar
Brughmans, Tom, and Peeples, Matthew A. 2020 Spatial networks. In Archaeological Spatial Analysis: A Methodological Guide, edited by Gillings, Mark, Hacigüzeller, Piraye, and Lock, Gary, pp. 273295. Routledge, Abingdon.Google Scholar
Brughmans, Tom, and Poblome, Jeroen 2016a MERCURY: An Agent-Based Model of Tableware Trade in the Roman East. Journal of Artificial Societies and Social Simulation 19(1):13.Google Scholar
Brughmans, Tom, and Poblome, Jeroen 2016b Roman Bazaar or Market Economy? Explaining Tableware Distributions through Computational Modelling. Antiquity 350:393408.Google Scholar
Brusasco, Paolo 2004 Theory and Practice in the Study of Mesopotamian Domestic Space. Antiquity 78(299):142157.Google Scholar
Buchanan, Briggs, Andrews, Brian, Kilby, J. David, and Eren, Metin I. 2019 Settling into the Country: Comparison of Clovis and Folsom Lithic Networks in Western North America Shows Increasing Redundancy of Toolstone Use. Journal of Anthropological Archaeology 53:3242.Google Scholar
Buchanan, Briggs, Chao, Anne, Chiu, Chun-Huo, Colwell, Robert K., O’Brien, Michael J., Werner, Angelia, and Eren, Metin I. 2017 Environment-Induced Changes in Selective Constraints on Social Learning during the Peopling of the Americas. Scientific Reports 7(1):44431.Google Scholar
Buchanan, Briggs, Hamilton, M., and Kilby, J. David 2019 The Small-World Topology of Clovis Lithic Networks. Archaeological and Anthropological Sciences 11:35373548.Google Scholar
Burt, Ronald S. 1987a Social Contagion and Innovation: Cohesion versus Structural Equivalence. American Journal of Sociology 92(6):12871335.Google Scholar
Burt, Ronald S. 1987b A Note on Missing Network Data in the General Social Survey. Social Networks 9(1):6373.Google Scholar
Burt, Ronald S. 1995 Structural Holes: The Social Structure of Competition. Harvard University Press, Cambridge, MA.Google Scholar
Burt, Ronald S. 2000 The Network Structure of Social Capital. Research in Organizational Behavior 22:345423.Google Scholar
Burt, Ronald S. 2007 Brokerage and Closure: An Introduction to Social Capital. Oxford University Press, Oxford.Google Scholar
Butts, Carter T. 2008 network: A Package for Managing Relational Data in R. Journal of Statistical Software 24(2):136.Google Scholar
Butts, Carter T., Leslie-Cook, Ayn, Krivitsky, Pavel N., and Bender-deMoll, Skye 2021 networkDynamic: Dynamic Extensions for Network Objects. R Package version 0.11.1.Google Scholar
Cantor, Mauricio, Chimento, Michael, Smeele, Simeon Q., He, Peng, Papageorgiou, Danai, Aplin, Lucy M., and Farine, Damien R. 2021 Social Network Architecture and the Tempo of Cumulative Cultural Evolution. Proceedings of the Royal Society B: Biological Sciences 288(1946):20203107.Google Scholar
Carreras, Cèsar, and de Soto, Pau 2013 The Roman Transport Network: A Precedent for the Integration of the European Mobility. Historical Methods 46(3):117133.Google Scholar
Carrington, Peter J., Scott, John, Wasserman, Stanley, and Faust, Katherine 2005. Models and Methods in Social Network Analysis. Cambridge University Press, Cambridge.Google Scholar
Cegielski, Wendy Hope 2020 Toward a Theory of Social Stability: Investigating Relationships among the Valencian Bronze Age Peoples of Mediterranean Iberia. PhD thesis, Arizona State University.Google Scholar
Chang, Chunlei, Bach, Benjamin, Dwyer, Tim, and Marriott, Kim 2017 Evaluating Perceptually Complementary Views for Network Exploration Tasks. In Proceedings of the 2017 CHI Conference on Human Factors in Computing Systems, pp. 13971407. Association for Computing Machinery, New York.Google Scholar
Chapin, F. Stuart 1950 Sociometric Stars as Isolates. American Journal of Sociology 56(3):263267.Google Scholar
Chiang, Kai-Yang, Hsieh, Cho-Jui, Natarajan, Nagarajan, Dhillon, Inderjit S., and Tewari, Ambuj 2014 Prediction and Clustering in Signed Networks: A Local to Global Perspective. The Journal of Machine Learning Research 15(1):11771213.Google Scholar
Cho, Hyunghoon, Berger, Bonnie, and Peng, Jian 2016 Compact Integration of Multi-Network Topology for Functional Analysis of Genes. Cell Systems 3(6):540548.Google Scholar
Chorley, Richard J., and Haggett, Peter 1967 Models in Geography. Methuen, London.Google Scholar
Clark, Jeffrey J. 2001 Tracking Prehistoric Migrations: Pueblo Settlers among the Tonto Basin Hohokam. Vol. 65. Anthropological Papers of the University of Arizona. University of Arizona Press, Tucson.Google Scholar
Clark, Jeffery J., and Lyons, Patrick D. (editors) 2012 Migrants and Mounds: Classic Period Archaeology of the Lower San Pedro Valley. Anthropological Papers 45. Archaeology Southwest, Tucson, AZ.Google Scholar
Clarke, David L. 1968 Analytical Archaeology. Methuen, London.Google Scholar
Clauset, Aaron, Moore, Cristopher, and Newman, M. E. J. 2008 Hierarchical Structure and the Prediction of Missing Links in Networks. Nature 453(7191):98101.Google Scholar
Clauset, Aaron, Shalizi, Cosma Rohilla, and Newman, M. E. J. 2009 Power-Law Distributions in Empirical Data. SIAM Review 51(4):661703.Google Scholar
Cleveland, William S., and McGill, Robert 1985 Graphical Perception and Graphical Methods for Analyzing Scientific Data. Science 229(4716):828833.Google Scholar
Cochrane, Ethan E., and Lipo, Carl 2010 Phylogenetic Analyses of Lapita Decoration Do Not Support Branching Evolution or Regional Population Structure during Colonization of Remote Oceania. Proceedings of the Royal Society B 365:38893902.Google Scholar
Coleman, James Samuel 1964 Introduction to Mathematical Sociology. Free Press of Glencoe, New York.Google Scholar
Coleman, James S. 1988 Social Capital in the Creation of Human Capital. American Journal of Sociology 94:S95S120.Google Scholar
Collar, Anna 2013 Religious Networks in the Roman Empire: The Spread of New Ideas. Cambridge University Press, Cambridge.Google Scholar
Collar, Anna, Brughmans, Tom, and Mills, Barbara J. (editors) 2015 The Connected Past: Critical and Innovative Approaches to Networks in Archaeology. Journal of Archaeological Method and Theory 22(1).Google Scholar
Collar, Anna, Coward, Fiona, Brughmans, Tom, and Mills, Barbara J. 2015 Networks in Archaeology: Phenomena, Abstraction, Representation. Journal of Archaeological Method and Theory 22(1):132.Google Scholar
Concas, Anna, Fenu, Caterina, and Rodriguez, Giuseppe 2019 PQser: A Matlab Package for Spectral Seriation. Numerical Algorithms 80(3):879902.Google Scholar
Conolly, James, and Lake, Mark 2006 Geographical Information Systems in Archaeology. Cambridge Manuals in Archaeology. Cambridge University Press, Cambridge.Google Scholar
Cordell, Linda S., Van West, Carla R., Dean, Jeffrey S., and Muenchrath, Deborah A. 2007 Mesa Verde Settlement History and Relocation. Kiva 72(4):379405.Google Scholar
Coscia, Michele 2021 The Atlas for the Aspiring Network Scientist. www.networkatlas.eu.Google Scholar
Costenbader, Elizabeth, and Valente, Thomas W. 2003 The Stability of Centrality Measures When Networks Are Sampled. Social Networks 25(4):283307.Google Scholar
Cowan, Robin, and Jonard, Nicolas 2007 Structural Holes, Innovation and the Distribution of Ideas. Journal of Economic Interaction and Coordination 2(2):93110.Google Scholar
Coward, Fiona 2010 Small Worlds, Material Culture and Ancient Near Eastern Social Networks. Proceedings of the British Academy 158:449479.Google Scholar
Coward, Fiona 2013 Grounding the Net: Social Networks, Material Culture and Geography in the Epipalaeolithic and Early Neolithic of the Near East (~21–6,000 cal BCE). In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 247280. Oxford University Press, Oxford.Google Scholar
Cox, Michael A. A., and Cox, Trevor F. 2008 Multidimensional Scaling. In Handbook of Data Visualization, edited by Chen, Chun-houh, Härdle, Wolfgang, and Unwin, Antony, pp. 315347. Springer Handbooks of Computational Statistics. Springer, Berlin.Google Scholar
Crabtree, Stefani A. 2015 Inferring Ancestral Pueblo Social Networks from Simulation in the Central Mesa Verde. Journal of Archaeological Method and Theory 22(1):144181.Google Scholar
Crabtree, Stefani A., and Dunne, Jennifer A. 2023 Food Webs. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Crabtree, Stefani A., Dunne, Jennifer A., and Wood, Spencer A. 2021 Ecological Networks and Archaeology. Antiquity 95(381):812825.Google Scholar
Crawford, Katherine A. 2019 Rethinking Approaches for the Study of Urban Movement at Ostia. In Finding the Limits of the Limes: Modelling Demography, Economy and Transport on the Edge of the Roman Empire, edited by Verhagen, Philip, Joyce, Jamie, and Groenhuijzen, Mark R., pp. 313327. Computational Social Sciences. Springer International Publishing, Cham.Google Scholar
Crema, Enrico R. 2012 Modelling Temporal Uncertainty in Archaeological Analysis. Journal of Archaeological Method and Theory 19(3):440461.Google Scholar
Crema, Enrico R., Kandler, Anne, and Shennan, Stephen 2016 Revealing Patterns of Cultural Transmission from Frequency Data: Equilibrium and Non-Equilibrium Assumptions. Scientific Reports 6(1):39122.Google Scholar
Csardi, Gabor, and Nepusz, Tamas 2006 The igraph Software Package for Complex Network Research. InterJournal Complex Systems:1695.Google Scholar
Cutting, Marion 2003 The Use of Spatial Analysis to Study Prehistoric Settlement Architecture. Oxford Journal of Archaeology 22(1):121.Google Scholar
Darvill, Timothy 2008 The Concise Oxford Dictionary of Archaeology. 2nd ed. Oxford University Press, Oxford.Google Scholar
Davies, Toby, Fry, Hannah, Wilson, Alan, Palmisano, Alessio, Altaweel, Mark, and Radner, Karen 2014 Application of an Entropy Maximizing and Dynamics Model for Understanding Settlement Structure: The Khabur Triangle in the Middle Bronze and Iron Ages. Journal of Archaeological Science 43:141154.Google Scholar
De Floriani, Leila, Marzano, Paola, and Puppo, Enrico 1994 Line-of-Sight Communication on Terrain Models. International Journal of Geographical Information Systems 8(4):329342.Google Scholar
DeLanda, Manuel 2016 Assemblage Theory. Edinburgh University Press, Edinburgh.Google Scholar
De Montis, Andrea, and Caschili, Simone 2012 Nuraghes and Landscape Planning: Coupling Viewshed with Complex Network Analysis. Landscape and Urban Planning 105(3):315324.Google Scholar
De Moor, Sabine, Vandeviver, Christophe, and Vander Beken, Tom 2020 Assessing the Missing Data Problem in Criminal Network Analysis Using Forensic DNA Data. Social Networks 61:99106.Google Scholar
de Nooy, Wouter, Mrvar, Andrej, and Batagelj, Vladimir 2018 Exploratory Social Network Analysis with Pajek: Revised and Expanded Edition for Updated Software. 3rd ed. Cambridge University Press, New York.Google Scholar
de Pablo, Javier Fernández-López, and Barton, C. Michael 2015 Bayesian Estimation Dating of Lithic Surface Collections. Journal of Archaeological Method and Theory 22(2):559583.Google Scholar
Derex, Maxime, and Boyd, Robert 2016 Partial Connectivity Increases Cultural Accumulation within Groups. Proceedings of the National Academy of Sciences 113(11):29822987.Google Scholar
de Soto, Pau, and Carreras, Cèsar 2013 The Roman Transport Network: A Precedent for the Integration of the European Mobility. Historical Methods 46(3):117133.Google Scholar
de Soto, Pau, and Carreras, Cèsar 2021 The Role of Politics in the Historical Transport Networks of the Iberian Peninsula and the Pyrenees from Roman Times to the Nineteenth Century. Social Science History 45(2):233260.Google Scholar
Dietler, Michael, and Herbich, Ingrid 1998 Habitus, Techniques, Style: An Integrated Approach to the Social Understanding of Material Culture and Boundaries. In The Archaeology of Social Boundaries, edited by Stark, Miriam, pp. 232263. Smithsonian Institution Press, Washington, DC.Google Scholar
Dobres, Marcia-Anne, and Hoffman, Christopher R. 1994 Social Agency and the Dynamics of Prehistoric Technology. Journal of Archaeological Method and Theory 1(3):211258.Google Scholar
Donnellan, Lieve 2020 Archaeological Networks and Social Interaction. Routledge, Abingdon.Google Scholar
Doran, J. E., and Hodson, F. R. 1975 Mathematics and Computers in Archaeology. Edinburgh University Press, Edinburgh.Google Scholar
Duffy, Paul R. 2020 River Networks and Funerary Metal in the Bronze Age of the Carpathian Basin. PLoS ONE 15(9):e0238526.Google Scholar
Düring, Marten 2016 How Reliable Are Centrality Measures for Data Collected from Fragmentary and Heterogeneous Historical Sources? A Case Study. In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 85101. Oxford University Press, Oxford.Google Scholar
Earley-Spadoni, Tiffany 2015 Landscapes of Warfare: Intervisibility Analysis of Early Iron and Urartian Fire Beacon Stations (Armenia). Journal of Archaeological Science: Reports 3:2230.Google Scholar
Estrada, Ernesto 2012 The Structure of Complex Networks: Theory and Applications. Oxford University Press, Oxford.Google Scholar
Evans, J. 1989 Neutron Activation Analysis and Romano-British Pottery Studies. In Scientific Analysis in Archaeology, edited by Henderson, Julian, pp. 136162. Archaeological Research Tools 5. Oxbow Books, Oxford.Google Scholar
Evans, Tim 2016 Which Network Model Should I Use? Towards a Quantitative Comparison of Spatial Network Models in Archaeology. In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 149173. Oxford University Press, Oxford.Google Scholar
Evans, Tim S., and Rivers, Ray J. 2017 Was Thebes Necessary? Contingency in Spatial Modeling. Frontiers in Digital Humanities 4. https://doi.org/10.3389/fdigh.2017.00008.Google Scholar
Evans, Tim S., Rivers, Ray J., and Knappett, Carl 2012 Interactions in Space for Archaeological Models. Advances in Complex Systems 15(1–2):1150009.Google Scholar
Everton, Sean F. 2012 Disrupting Dark Networks. Cambridge University Press, Cambridge.Google Scholar
Facchetti, Giuseppe, Iacono, Giovanni, and Altafini, Claudio 2011 Computing Global Structural Balance in Large-Scale Signed Social Networks. Proceedings of the National Academy of Sciences 108(52):2095320958.Google Scholar
Fairclough, Graham 1992 Meaningful Constructions – Spatial and Functional Analysis of Medieval Buildings. Antiquity 66(251):348366.Google Scholar
Farine, Damien R., and Strandburg-Peshkin, Ariana 2015 Estimating Uncertainty and Reliability of Social Network Data Using Bayesian Inference. Royal Society Open Science 2(9):150367.Google Scholar
Feld, Scott L. 1981 The Focused Organization of Social Ties. American Journal of Sociology 86(5):10151035.Google Scholar
Fenoaltea, Enrico Maria, and Meng, Fanyuan 2021 Group Formation in Signed Networks. arXiv:2107.07324 (physics). Accessed March 31, 2022.Google Scholar
Fentress, Elizabeth, and Perkins, Philip 1988 Counting African Red Slip Ware. In L’Africa romana: Atti del V Convegno di studio Sassari, 11–13 dicembre 1987, edited by Mastino, Attilio, pp. 205214. Università di Sassari, Sassari.Google Scholar
Ferguson, T. J. 1996 Historic Zuni Architecture and Society: An Archaeological Application of Space Syntax. Papers of the University of Arizona No. 60. University of Arizona Press, Tucson.Google Scholar
Festinger, Leon, Schachter, Stanley, and Back, Kurt 1950 Social Pressures in Informal Groups; a Study of Human Factors in Housing. Harper, Oxford.Google Scholar
Feugnet, Aurélia, Rossi, Fabrice, and Filet, Clara 2017 Co-presence Analysis and Economic Patterns: Mediterranean Imports in the Celtic World. Frontiers in Digital Humanities 4:1.Google Scholar
Field, Sam, Frank, Kenneth A., Schiller, Kathryn, Riegle-Crumb, Catherine, and Muller, Chandra 2006 Identifying Positions from Affiliation Networks: Preserving the Duality of People and Events. Social Networks 28(2):97123.Google Scholar
Finley, Moses I. 1973 The Ancient Economy. University of California Press, Berkeley.Google Scholar
Fisher, P. F. 1991 First Experiments in Viewshed Uncertainty: Simulating the Fuzzy Viewshed. Photogrammetric Engineering and Remote Sensing 55:13211327.Google Scholar
Fisher, P. F. 1995 An Exploration of Probable Viewsheds in Landscape Planning. Environment and Planning B: Planning and Design 22(5):527546.Google Scholar
Fitzhugh, Ben, Colby Phillips, S., and Gjesfjeld, Erik 2011 Modeling Hunter-Gatherer Information Networks: An Archaeological Case Study from the Kuril Islands. In Information and Its Role in Hunter-Gatherer Bands, edited by Whallon, Robert, Lovis, William A., and Hitchcock, Robert K., pp. 89116. Cotsen Institute of Archaeology Press, Los Angeles.Google Scholar
Fladd, Samantha G. 2017 Social Syntax: An Approach to Spatial Modification through the Reworking of Space Syntax for Archaeological Applications. Journal of Anthropological Archaeology 47:127138.Google Scholar
Fletcher, Mike, and Lock, Gary R. 2005 Digging Numbers: Elementary Statistics for Archaeologists. Oxford University School of Archaeology Monograph 33. Oxford.Google Scholar
Fortunato, Santo 2010 Community Detection in Graphs. Physics Reports 486:75174.Google Scholar
Foster, Sally M. 1989 Analysis of Spatial Patterns in Buildings (Access Analysis) as an Insight into Social Structure: Examples from the Scottish Atlantic Iron Age. Antiquity 63(238):4050.Google Scholar
Fox, Tim, Pope, Matt, and Ellis, Erle C. 2017 Engineering the Anthropocene: Scalable Social Networks and Resilience Building in Human Evolutionary Timescales. The Anthropocene Review 4(3):199215.Google Scholar
Frank, K. A. 1995 Identifying Cohesive Subgroups. Social Networks 17(1):2756.Google Scholar
Frank, Ove 1971 Statistical Inference in Graphs. PhD dissertation, Stockholm University.Google Scholar
Frantz, Terrill L., Cataldo, Marcelo, and Carley, Kathleen M. 2009 Robustness of Centrality Measures under Uncertainty: Examining the Role of Network Topology. Computational and Mathematical Organization Theory 15(4):article 303.Google Scholar
Franzén, Oscar, Ermel, Raili, Cohain, Ariella, Akers, Nicholas K., Di Narzo, Antonio, Talukdar, Husain A., Foroughi-Asl, Hassan, Giambartolomei, Claudia, Fullard, John F., Sukhavasi, Katyayani, Köks, Sulev, Gan, Li-Ming, Giannarelli, Chiara, Kovacic, Jason C., Betsholtz, Christer, Losic, Bojan, Michoel, Tom, Hao, Ke, Roussos, Panos, Skogsberg, Josefin, Ruusalepp, Arno, Schadt, Eric E., and Björkegren, Johan L. M. 2016 Cardiometabolic Risk Loci Share Downstream Cis- and Trans-Gene Regulation across Tissues and Diseases. Science 353(6301):827830.Google Scholar
Fraser, David 1980 The Cutpoint Index: A Simple Measure of Point Connectivity. Area 12(4):301304.Google Scholar
Fraser, David 1983 Land and Society in Neolithic Orkney. British Archaeological Reports, Oxford.Google Scholar
Freeman, Linton C. 1979. Centrality in Social Networks. I. Conceptual Clarification. Social Networks 1:215239.Google Scholar
Freeman, Linton C. 2000 Visualizing Social Networks. Journal of Social Structure 1(1):article 1.Google Scholar
Freeman, Linton C. 2004 The Development of Social Network Analysis: A Study in the Sociology of Science. Empirical Press, Vancouver.Google Scholar
Freund, Kyle P., and Batist, Zack 2014 Sardinian Obsidian Circulation and Early Maritime Navigation in the Neolithic as Shown through Social Network Analysis. The Journal of Island and Coastal Archaeology 9(3):364380.Google Scholar
Friedman, Richard A., Sofaer, Anna, and Weiner, Robert S. 2017 Remote Sensing of Chaco Roads Revisited: Lidar Documentation of the Great North Road, Pueblo Alto Landscape, and Aztec Airport Mesa Road. Advances in Archaeological Practice 5(4):365381.Google Scholar
Fruchterman, Thomas M. J., and Reingold, Edward M. 1991 Graph Drawing by Force-Directed Placement. Software: Practice and Experience 21(11):11291164.Google Scholar
Fulminante, Francesca 2012 Social Network Analysis and the Emergence of Central Places: A Case Study from Central Italy (Latium Vetus). BABESCH 87:2753.Google Scholar
Fulminante, Francesca 2014 The Network Approach: Tool or Paradigm? Archaeological Review from Cambridge 29(1):167178.Google Scholar
Fulminante, Francesca 2020 Terrestrial Communication Networks and Political Agency in Early Iron Age Central Italy (950–500 BCE): A Bottom-Up Approach. In Archaeological Networks and Social Interaction. , edited by Donnellan, Lieve, pp. 196213. Routledge, Abingdon.Google Scholar
Gansner, Emden R., Koren, Yehuda, and North, Stephen 2005 Graph Drawing by Stress Majorization. In Graph Drawing, edited by Pach, János, pp. 239250. Lecture Notes in Computer Science. Springer, Berlin.Google Scholar
Gastner, Michael T., Seguy, Vivien, and More, Pratyush 2018 Fast Flow-Based Algorithm for Creating Density-Equalizing Map Projections. Proceedings of the National Academy of Sciences 115(10):E2156E2164.Google Scholar
Gauthier, Nicolas 2021 Hydroclimate Variability Influenced Social Interaction in the Prehistoric American Southwest. Frontiers in Earth Science 8(January):111.Google Scholar
Gemici, Kurtuluş, and Vashevko, Anthony 2018 Visualizing Hierarchical Social Networks. Socius 4(January). https://doi.org/10.1177/2378023118772982.Google Scholar
Gerald, Rex E. 2019 The Davis Ranch Site: A Kayenta Immigrant Enclave in Southeastern Arizona. Edited by Lyons, Patrick D.. University of Arizona Press, Tucson.Google Scholar
Gerdes, Luke M. 2015 Illuminating Dark Networks: The Study of Clandestine Groups and Organizations. Cambridge University Press, Cambridge.Google Scholar
Ghoniem, Mohammad, Fekete, Jean-Daniel, and Castagliola, Philippe 2005 On the Readability of Graphs Using Node-Link and Matrix-Based Representations: A Controlled Experiment and Statistical Analysis. Information Visualization 4(2):114135.Google Scholar
Giomi, Evan, Mills, Barbara J., Aragon, Leslie D., Bellorado, Benjamin A., and Peeples, Matthew A. 2021 Reading between the Lines: The Social Value of Dogoszhi Style in the Chaco World. American Antiquity 87(1), 100123.Google Scholar
Giomi, Evan, and Peeples, Matthew A. 2019 Network Analysis of Intrasite Material Networks and Ritual Practice at Pueblo Bonito. Journal of Anthropological Archaeology 53:2231.Google Scholar
Girvan, M., and Newman, M. E. J. 2002 Community Structure in Social and Biological Networks. Proceedings of the National Academy of Sciences of the United States of America 99(12):78217826.Google Scholar
Gjesfjeld, Erik 2015 Network Analysis of Archaeological Data from Hunter-Gatherers: Methodological Problems and Potential Solutions. Journal of Archaeological Method and Theory 22(1):182205.Google Scholar
Gjesfjeld, Erik, and Phillips, Stephen Colby 2013 Evaluating Adaptive Network Strategies with Geochemical Sourcing Data: A Case Study from the Kuril Islands. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 281306. Oxford University Press, Oxford.Google Scholar
Golitko, Mark, and Feinman, Gary M. 2015 Procurement and Distribution of Pre-Hispanic Mesoamerican Obsidian 900 BC–AD 1520: A Social Network Analysis. Journal of Archaeological Method and Theory 22(1):206247.Google Scholar
Golitko, Mark, Meierhoff, James, Feinman, Gary M., and Williams, Patrick Ryan 2012 Complexities of Collapse: The Evidence of Maya Obsidian as Revealed by Social Network Graphical Analysis. Antiquity 86:507523.Google Scholar
Gosselain, Olivier P. 2000 Materializing Identities: An African Perspective. Journal of Archaeological Method and Theory 7(3):187217.Google Scholar
Gould, Roger V., and Fernandez, Roberto M. 1989 Structures of Mediation: A Formal Approach to Brokerage in Transaction Networks. Sociological Methodology 19:89126.Google Scholar
Graham, Shawn. 2006a Networks, Agent-Based Models and the Antonine Itineraries: Implications for Roman Archaeology. Journal of Mediterranean Archaeology 19(1):4564.Google Scholar
Graham, Shawn 2006b EX FIGLINIS, the Network Dynamics of the Tiber Valley Brick Industry in the Hinterland of Rome. BAR International Series 1486. Archaeopress, Oxford.Google Scholar
Graham, Shawn, and Huffer, Damien 2023 The Antiquities Trade and Digital Networks – Or, the Supercharging Effect of Social Media on the Rise of the Amateur Antiquities Trader. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Graham, Shawn, and Weingart, Scott 2015 The Equifinality of Archaeological Networks: An Agent-Based Exploratory Lab Approach. Journal of Archaeological Method and Theory 22(1):248274.Google Scholar
Grahame, Mark 2000 Reading Space: Social Interaction and Identity in the Houses of Roman Pompeii. British Archaeological Reports, Oxford.Google Scholar
Granovetter, Mark S. 1973 The Strength of Weak Ties. American Journal of Sociology 78(6):13601380.Google Scholar
Granovetter, Mark S. 1976 Network Sampling: Some First Steps. American Journal of Sociology 81(6):12871303.Google Scholar
Gravel-Miguel, Claudine 2016 Using Species Distribution Modeling to Contextualize Lower Magdalenian Social Networks Visible through Portable Art Stylistic Similarities in the Cantabrian Region (Spain). Quaternary International 412:112123.Google Scholar
Gravel-Miguel, Claudine, and Coward, Fiona 2023 Palaeolithic Social Networks and Behavioural Modernity. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Griffin, Sarah, and Klimm, Florian 2023 Networks and Museum Collections. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Habiba, , Athenstädt, Jan C., Mills, Barbara J., and Brandes, Ulrik 2018 Social Networks and Similarity of Site Assemblages. Journal of Archaeological Science 92:6372.Google Scholar
Hagberg, Aric A., Schult, Daniel A., and Swart, Pieter J. 2008 Exploring Network Structure, Dynamics, and Function using NetworkX. In Proceedings of the 7th Python in Science Conference, edited by Varoquaux, Gaël, Vaught, Travis, and Millman, Jarrod, pp. 1115. SciPy, Pasadena, CA.Google Scholar
Hage, Per 1977 Centrality in the Kula Ring. The Journal of the Polynesian Society 86(1):2736.Google Scholar
Hage, Per, and Harary, F. 1991 Exchange in Oceania: A Graph Theoretic Analysis. Clarendon Press, Oxford.Google Scholar
Hage, Per, and Harary, F. 1996 Island Networks: Communication, Kinship and Classification Structures in Oceania. Cambridge University Press, Cambridge.Google Scholar
Hage, Per, and Harary, Frank 1983 Structural Models in Anthropology. Cambridge University Press, Cambridge.Google Scholar
Haggett, Peter, and Chorley, Richard J. 1969 Network Analysis in Geography. Arnold, London.Google Scholar
Hanson, Jack 2016 An Urban Geography of the Roman World, 100 BC to AD 300. Archaeopress Roman Archaeology 18. Archaeopress, Oxford.Google Scholar
Harary, Frank, Norman, Robert Z., and Cartwright, Dorwin 1965 Structural Models: An Introduction to the Theory of Directed Graphs. John Wiley & Sons, New York.Google Scholar
Harris, Charles R., Millman, K. Jarrod, van der Walt, Stéfan J., Gommers, Ralf, Virtanen, Pauli, Cournapeau, David, Wieser, Eric, Taylor, Julian, Berg, Sebastian, Smith, Nathaniel J., Kern, Robert, Picus, Matti, Hoyer, Stephan, van Kerkwijk, Marten H., Brett, Matthew, Haldane, Allan, del Río, Jaime Fernández, Wiebe, Mark, Peterson, Pearu, Gérard-Marchant, Pierre, Sheppard, Kevin, Reddy, Tyler, Weckesser, Warren, Abbasi, Hameer, Gohlke, Christoph, and Oliphant, Travis E. 2020 Array Programming with NumPy. Nature 585(7825):357362.Google Scholar
Harrison-Buck, Eleanor, and Hendon, Julia A. 2018 Relational Identities and Other-Than-Human Agency in Archaeology. University Press of Colorado, Boulder.Google Scholar
Hart, John P. 2012 The Effects of Geographical Distances on Pottery Assemblage Similarities: A Case Study from Northern Iroquoia. Journal of Archaeological Science 39(1):128134.Google Scholar
Hart, John P., and Engelbrecht, William 2012 Northern Iroquoian Ethnic Evolution: A Social Network Analysis. Journal of Archaeological Method and Theory 19(2):322349.Google Scholar
Hart, John P., Winchell-Sweeney, Susan, and Birch, Jennifer 2019 An Analysis of Network Brokerage and Geographic Location in Fifteenth-Century AD Northern Iroquoia. PLoS ONE 14(1):e0209689.Google Scholar
Healy, Kieran 2018 Data Visualization: A Practical Introduction. Princeton University Press, Princeton, NJ.Google Scholar
Henrich, Joseph 2004 Demography and Cultural Evolution: How Adaptive Cultural Processes Can Produce Maladaptive Losses: The Tasmanian Case. American Antiquity 69(2):197214.Google Scholar
Henrich, Joseph, and Broesch, James 2011 On the Nature of Cultural Transmission Networks: Evidence from Fijian Villages for Adaptive Learning Biases. Philosophical Transactions of the Royal Society B: Biological Sciences 366(1567):11391148.Google Scholar
Henry, Nathalie, and Fekete, Jean-Daniel 2007 MatLink: Enhanced Matrix Visualization for Analyzing Social Networks. In Human-Computer Interaction – INTERACT 2007, edited by Baranauskas, Cécilia, Palanque, Philippe, Abascal, Julio, and Barbosa, Simone Diniz Junqueira, pp. 288302. Lecture Notes in Computer Science. Springer, Berlin.Google Scholar
Henry, Nathalie, Fekete, Jean-Daniel, and McGuffin, Michael J. 2007 NodeTrix: A Hybrid Visualization of Social Networks. IEEE Transactions on Visualization and Computer Graphics 13(6):13021309.Google Scholar
Herzog, Irmela 2013 Least-Cost Networks. In Archaeology in the Digital Era. Papers from the 40th Annual Conference of Computer Applications and Quantitative Methods in Archaeology (CAA), Southampton, 26–29 March 2012, edited by Earl, Graeme, Sly, Tim, Chrysanthi, Angeliki, Murrieta-Flores, Patricia, Papadopoulos, Constantinos, Romanowska, Iza, and Wheatley, David, pp. 237248. Amsterdam University Press, Amsterdam.Google Scholar
Hill, J. Brett, Peeples, Matthew A., Huntley, Deborah L., and Carmack, H. Jane 2015 Spatializing Social Network Analysis in the Late Precontact U.S. Southwest. Advances in Archaeological Practice 3(1):6377.Google Scholar
Hillier, Bill 1996 Space Is the Machine. Space Syntax, London.Google Scholar
Hillier, Bill, and Hanson, Julienne 1984 The Social Logic of Space. Cambridge University Press, Cambridge.Google Scholar
Hiorns, R. W. 1971 Statistical Studies in Migration. In Mathematics in the Archaeological and Historical Sciences, Proceedings of the Anglo-Romanian Conference, Mamaia 1970, edited by Hodson, Frank Roy, Kendall, D. G., and Tăutu, Petre, pp. 291302. Edinburgh University Press, Edinburgh.Google Scholar
Hodder, Ian 1986 Reading the Past: Current Approaches to Interpretation in Archaeology. Cambridge University Press, Cambridge.Google Scholar
Hodder, Ian 2012 Entangled: An Archaeology of the Relationships between Humans and Things. John Wiley & Sons, Malden, MA.Google Scholar
Hodder, Ian, and Mol, Angus 2016 Network Analysis and Entanglement. Journal of Archaeological Method and Theory 23(4):10661094.Google Scholar
Hodder, Ian, and Orton, Clive 1976 Spatial Analysis in Archaeology. Cambridge University Press, Cambridge.Google Scholar
Holland, Paul W., and Leinhardt, Samuel 1971 Transitivity in Structural Models of Small Groups. Comparative Group Studies 2(2):107124.Google Scholar
Holten, Danny, and Van Wijk, Jarke J. 2009 Force-Directed Edge Bundling for Graph Visualization. Computer Graphics Forum 28(3):983990.Google Scholar
Huisman, Mark 2009 Imputation of Missing Network Data: Some Simple Procedures. Journal of Social Structure 10(1):129.Google Scholar
Huisman, M., and Snijders, T. A. B. 2003 Statistical Analysis of Longitudinal Network Data with Changing Composition. Sociological Methods & Research 32(2):253287. doi:10.1177/0049124103256096.Google Scholar
Hunt, Terry L. 1988 Graph Theoretic Network Models for Lapita Exchange: A Trial Application. In Archaeology of the Lapita Cultural Complex: A Critical Review, edited by Kirch, Patrick V. and Hunt, Terry L., pp. 135155. Thomas Burke Memorial Washington State Museum Research Reports no. 5, Burke Museum, Seattle.Google Scholar
Hunter, John D. 2007 Matplotlib: A 2D Graphics Environment. Computing in Science & Engineering 9(3):9095.Google Scholar
Irwin, G. J. 1978 Pots and Entrepots: A Study of Settlement, Trade and the Development of Economic Specialization in Papuan Prehistory. World Archaeology 9(3):299319.Google Scholar
Irwin-Williams, Cynthia 1977 A Network Model for the Analysis of Prehistoric Trade. In Exchange Systems in Prehistory, edited by Earle, Timothy K. and Ericson, Jonathon E., pp. 141151. Academic Press, New York.Google Scholar
Isaksen, Leif 2007 Network Analysis of Transport Vectors in Roman Baetica. In Digital Discovery: Exploring New Frontiers in Human Heritage. Proceedings of the 34th CAA conference, Fargo, 2006, edited by Clark, J. T. and Hagenmeister, E. M., pp. 7687. Archaeolingua, Budapest.Google Scholar
Isaksen, Leif 2008 The Application of Network Analysis to Ancient Transport Geography: A Case Study of Roman Baetica. Digital Medievalist 4, www.digitalmedievalist.org/journal/4/isakse.Google Scholar
Isaksen, Leif 2013 ‘O What a Tangled Web We Weave’ – Towards a Practice That Does Not Deceive. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 4370. Oxford University Press, Oxford.Google Scholar
Jelinek, Arthur J. 1967 A Prehistoric Sequence in the Middle Pecos Valley, New Mexico. Anthropological Papers 31. University of Michigan Press, Ann Arbor.Google Scholar
Jenkins, D. 2001 A Network Analysis of Inka Roads, Administrative Centers, and Storage Facilities. Ethnohistory 48(4):655687.Google Scholar
Jennings, Benjamin 2016 Exploring Late Bronze Age Systems of Bronzework Production in Switzerland through Network Science. STAR: Science & Technology of Archaeological Research 8923(June):123. doi:10.1080/20548923.2016.1183940.Google Scholar
Jiménez-Badillo, D 2012 Relative Neighbourhood Networks for Archaeological Analysis. In Revive the Past: Proceedings of Computer Applications and Quantitative Techniques in Archaeology Conference 2011, Beijing, edited by Zhou, Mingquan, Romanowska, Iza, Wu, Zhongke, Xu, Pengfei, and Verhagen, Philip, pp. 370380. Amsterdam University Press, Amsterdam.Google Scholar
Johnson, Kent M. 2016 Ethnicity, Family, and Social Networks: A Multiscalar Bioarchaeological Investigation of Tiwanaku Colonial Organization in the Moquegua Valley, Peru. PhD thesis, Arizona State University.Google Scholar
Johnson, Kent M. 2023 Biodistance Networks. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Kamada, Tomihisa, and Kawai, Satoru 1989 An Algorithm for Drawing General Undirected Graphs. Information Processing Letters 31(1):715.Google Scholar
Kandel, Sean, Heer, Jeffrey, Plaisant, Catherine, Kennedy, Jessie, van Ham, Frank, Riche, Nathalie Henry, Weaver, Chris, Lee, Bongshin, Brodbeck, Dominique, and Buono, Paolo 2011 Research Directions in Data Wrangling: Visualizations and Transformations for Usable and Credible Data. Information Visualization 10(4):271288.Google Scholar
Kandler, Anne, and Caccioli, Fabio 2016 Networks, Homophily and the Spread of Innovations. In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 175197. Oxford University Press, Oxford.Google Scholar
Keay, Simon, and Earl, Graeme P. 2011 Towns and Territories in Roman Baetica. In Settlement, Urbanization, and Population, edited by Bowman, Alan and Wilson, Andrew, pp. 276316. Oxford University Press, Oxford.Google Scholar
Kendall, D. G. 1969 Incidence Matrices, Interval Graphs and Seriation in Archeology. Pacific Journal of Mathematics 28(3):565570.Google Scholar
Kendall, D. G. 1971a Maps from Marriages: An Application of Non-Metric Multi-Dimensional Scaling to Parish Register Data. In Mathematics in the Archaeological and Historical Sciences, Proceedings of the Anglo-Romanian Conference, Mamaia 1970, edited by Hodson, Frank Roy, Kendall, D. G., and Tăutu, Petre, pp. 303318. Edinburgh University Press, Edinburgh.Google Scholar
Kendall, D. G. 1971b Seriation from Abundance Matrices. In Mathematics in the Archaeological and Historical Sciences, Proceedings of the Anglo-Romanian Conference, Mamaia 1970, edited by Hodson, Frank Roy, Kendall, D. G., and Tăutu, Petre, pp. 215252. Edinburgh University Press, Edinburgh.Google Scholar
Kintigh, Keith W. 1984 Measuring Archaeological Diversity by Comparison with Simulated Assemblages. American Antiquity 49(1):4454.Google Scholar
Kintigh, Keith W., Altschul, Jeffrey H., Beaudry, Mary C., Drennan, Robert D., Kinzig, Ann P., Kohler, Timothy A., Limp, W. Fredrick, Maschner, Herbert D. G., Michener, William K., Pauketat, Timothy R., Peregrine, Peter, Sabloff, Jeremy A., Wilkinson, Tony J., Wright, Henry T., and Zeder, Melinda A. 2014 Grand Challenges for Archaeology. Proceedings of the National Academy of Sciences 111(3):879880.Google Scholar
Kirkpatrick, David G., and Radke, John D. 1985 A Framework for Computational Morphology. In Machine Intelligence and Pattern Recognition, edited by Toussaint, G., 2:217248. Elsevier Science Publishers, North-Holland.Google Scholar
Kivelä, Mikko, Arenas, Alex, Barthelemy, Marc, Gleeson, James P., Moreno, Yamir, and Porter, Mason A. 2014 Multilayer Networks. Journal of Complex Networks 2(3):203271.Google Scholar
Knappett, Carl 2011 An Archaeology of Interaction: Network Perspectives on Material Culture and Society. Oxford University Press, Oxford.Google Scholar
Knappett, Carl (editor) 2013 Network Analysis in Archaeology: New Approaches to Regional Interaction. Oxford University Press, Oxford.Google Scholar
Knappett, Carl 2014 Avant-propos. Dossier: analyse des réseaux sociaux en archéologie. Nouvelles de l’archéologie 135:58.Google Scholar
Knappett, Carl 2018 From Network Connectivity to Human Mobility; Models for Minoanization. Journal of Archaeological Method and Theory 25:974995.Google Scholar
Knappett, Carl 2020 Relational Concepts and Challenges to Network Analysis in Social Archaeology. In Archaeological Networks and Social Interaction, edited by Donnellan, Lieve, pp. 2037. Routledge, Abingdon.Google Scholar
Knappett, Carl, Evans, Tim, and Rivers, Ray 2008 Modelling Maritime Interaction in the Aegean Bronze Age. Antiquity 82(318):10091024.Google Scholar
Knoke, David H., and Yang, Song 2008 Social Network Analysis. 2nd ed. SAGE, Los Angeles.Google Scholar
Knutson, Sara Ann 2021 Itinerant Assemblages and Material Networks: The Application of Assemblage Theory to Networks in Archaeology. Journal of Archaeological Method and Theory 28(3):793822.Google Scholar
Kobourov, Stephen G. 2013 Force-Directed Drawing Algorithms. In Handbook of Graph Drawing and Visualization, edited by Tamassia, Roberto, pp. 383408. CRC Press, Boca Raton, FL.Google Scholar
Koren, Y. 2005 Drawing Graphs by Eigenvectors: Theory and Practice. Computers & Mathematics with Applications 49(11):18671888.Google Scholar
Koschützki, Dirk, Lehmann, Katharina Anna, Peeters, Leon, Richter, Stefan, Tenfelde-Podehl, Dagmar, and Zlotowski, Oliver 2005 Centrality Indices. In Network Analysis: Methodological Foundations, edited by Brandes, Ulrik and Erlebach, Thomas, pp. 1661. Springer, Berlin.Google Scholar
Koskinen, Johan H., Robins, Garry L., and Pattison, Philippa E. 2010 Analysing Exponential Random Graph (p-Star) Models with Missing Data Using Bayesian Data Augmentation. Statistical Methodology 7(3):366384.Google Scholar
Kossinets, Gueorgi 2006 Effects of Missing Data in Social Networks. Social Networks 28(3):247268.Google Scholar
Kowalewski, Michał, and Novack-Gottshall, Phil 2010 Resampling Methods in Paleontology. The Paleontological Society Papers 16:1954.Google Scholar
Knappett, Carl 2018 From Network Connectivity to Human Mobility; Models for Minoanization. Journal of Archaeological Method and Theory 25:974995.Google Scholar
Krause, Robert W., Huisman, Mark, Steglich, Christian, and Snijders, Tom A. B. 2018 Missing Network Data A Comparison of Different Imputation Methods. In 2018 IEEE/ACM International Conference on Advances in Social Networks Analysis and Mining (ASONAM), edited by Brandes, Ulrik, Reddy, Chandan, and Tagarelli, Andrea, pp. 159163. IEEE Press.Google Scholar
Krivitsky, Pavel N., Handcock, Mark S., Hunter, David R., Butts, Carter T., Klumb, Chad, Goodreau, Steven M., and Morris, Martina 2020 Statnet: Software Tools for the Statistical Modeling of Network Data. Statnet Development Team.Google Scholar
Kwon, Seok-Woo, Rondi, Emanuela, Levin, Daniel Z., De Massis, Alfredo, and Brass, Daniel J. 2020 Network Brokerage: An Integrative Review and Future Research Agenda. Journal of Management 46(6):10921120.Google Scholar
Ladefoged, Thegn N., Gemmell, Caleb, McCoy, Mark, Jorgensen, Alex, Glover, Hayley, Stevenson, Christopher, and O’Neale, Dion 2019 Social Network Analysis of Obsidian Artefacts and Māori Interaction in Northern Aotearoa New Zealand. PLoS ONE 14(3):e0212941.Google Scholar
Larson, Frances, Petch, Alison, and Zeitlyn, David 2007 Social Networks and the Creation of the Pitt Rivers Museum. Journal of Material Culture 12(3):211239.Google Scholar
Latour, Bruno 2005 Reassembling the Social: An Introduction to Actor-Network Theory. Oxford University Press, Oxford.Google Scholar
Laumann, Edward O., Marsden, Peter V., and Prensky, David 1992 The Boundary Specification Problem in Network Analysis. In Research Methods in Social Network Analysis, edited by Freeman, Linton C., White, Douglas R., and Romney, Antone Kimball, pp. 6179. Transaction Publishers, New Brunswick, NJ.Google Scholar
Leidwanger, Justin 2013 Modeling Distance with Time in Ancient Mediterranean Seafaring: A GIS Application for the Interpretation of Maritime Connectivity. Journal of Archaeological Science 40(8):33023308.Google Scholar
Leidwanger, Justin, and Knappett, Carl (editors) 2018 Maritime Networks in the Ancient Mediterranean World. Cambridge University Press, Cambridge.Google Scholar
Lemercier, Claire 2005 Analyse de réseaux et histoire. Revue d’histoire moderne contemporaine 52e(2):88112.Google Scholar
Lemercier, Claire 2014 Méthodes quantitatives pour l’historien. La Découverte, Paris.Google Scholar
Lemercier, Claire 2015 Formal Network Methods in History: Why and How? In Social Networks, Political Institutions, and Rural Societies, edited by Fertig, Georg. pp. 281310. Brepols, Turnhout.Google Scholar
Lemonnier, Pierre 1992 Elements for an Anthropology of Technology. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar
Libby, W. F., Anderson, E. C., and Arnold, J. R. 1949 Age Determination by Radiocarbon Content: World-Wide Assay of Natural Radiocarbon. Science 109(2827):227228.Google Scholar
Liiv, Innar 2010 Seriation and Matrix Reordering Methods: An Historical Overview. Statistical Analysis and Data Mining: The ASA Data Science Journal 3(2):7091.Google Scholar
Lima, Manuel 2013 Visual Complexity: Mapping Patterns of Information. Princeton Architectural Press, Princeton, NJ.Google Scholar
Linero, Antonio R., and Daniels, Michael J. 2018 Bayesian Approaches for Missing Not at Random Outcome Data: The Role of Identifying Restrictions. Statistical Science 33(2):198213.Google Scholar
Litant, Thomas 2013 Dark Networks and the Missing Link Inference Problem. American Intelligence Journal 31(1):102115.Google Scholar
Liu, Jianhua, Jiang, Hongbo, Zhang, Hao, Guo, Chun, Wang, Lei, Yang, Jing, and Nie, Shaofa 2017 Use of Social Network Analysis and Global Sensitivity and Uncertainty Analyses to Better Understand an Influenza Outbreak. Oncotarget 8(26):4341743426.Google Scholar
Lozano, Sergi, Brughmans, Tom, Fulminante, Francesca, and Prignano, Luce (editors) 2017 Network Science Approaches for the Study of Past Long-Term Social Processes. Frontiers in Digital Humanities Special Issue.Google Scholar
Luccio, Fabrizio, and Sami, Mariagiovanna 1969 On the Decomposition of Networks in Minimally Interconnected Subnetworks. IEEE Transactions on Circuit Theory 16(2):184188. doiI:10.1109/TCT.1969.1082924.Google Scholar
Lulewicz, Jacob 2019 The Social Networks and Structural Variation of Mississippian Sociopolitics in the Southeastern United States. Proceedings of the National Academy of Sciences 116(14):67076712.Google Scholar
Lulewicz, Jacob, and Coker, Adam B. 2018 The Structure of the Mississippian World: A Social Network Approach to the Organization of Sociopolitical Interactions. Journal of Anthropological Archaeology 50:113127.Google Scholar
Lusher, Dean, Koskinen, Johan, and Robins, Garry (editors) 2013 Exponential Random Graph Models for Social Networks: Theory, Methods, and Applications. Structural Analysis in the Social Sciences. Cambridge University Press, Cambridge.Google Scholar
Lyman, R. Lee, and VanPool, Todd L. 2009 Metric Data in Archaeology: A Study of Intra-Analyst and Inter-Analyst Variation. American Antiquity 74(3):485504.Google Scholar
Maeno, Yoshiharu 2010 Discovering Network behind Infectious Disease Outbreak. Physica A: Statistical Mechanics and Its Applications 389(21):47554768.Google Scholar
Malinowski, Bronislaw 2014 Argonauts of the Western Pacific. Routledge, London.Google Scholar
Martin, Christoph, and Niemeyer, Peter 2019 Influence of Measurement Errors on Networks: Estimating the Robustness of Centrality Measures. Network Science 7(2):180195.Google Scholar
Marwick, Ben, Guedes, Jade D’Alpoim, Barton, C. Michael, Bates, Lynsey, Baxter, Michael, Bevan, Andrew, Bollwerk, Elizabeth, Bocinsky, R. Kyle, Brughmans, Tom, Carter, Alison, Conrad, Cyler, Contreras, Daniel, Costa, Stefano, Crema, Enrico, Daggett, Adrianne, Davies, Benjamin, Drake, Brandon, Dye, Tom, France, Phoebe, Fullagar, Richard, Giusti, Domenico, Graham, Shawn, Harris, Matthew D., Hawks, John, Heath, Sebastian, Huffer, Damien, Kansa, Eric C., Kansa, Sarah W., Madsen, Mark E., Melcher, Jennifer, Negre, Joan, Neiman, Fraser D., Opitz, Rachel, Orton, David C., Przstupa, Paulina, Raviele, Maria, Riel-Salvatore, Julien, Romanowska, Iza, Smith, Jolene, Strupler, Néhémie, Ullah, Isaac I., Van Vlack, Hannah G., Van Valkenburgh, Nathaniel, Watrall, Ethan C., Webster, Chris, Wells, Joshua, Winters, Judith, and Wren, Colin D. 2017 Open Science in Archaeology. SAA Archaeological Record 17(4):814.Google Scholar
Melamed, David, Breiger, Ronald L., and West, A. Joseph 2013 Community Structure in Multi-Mode Networks: Applying an Eigenspectrum Approach. Connections 33(1):1823.Google Scholar
Meltzer, David J., Leonard, Robert D., and Stratton, Susan K. 1992 The Relationship between Sample Size and Diversity in Archaeological Assemblages. Journal of Archaeological Science 19(4):375387.Google Scholar
Menze, Bjoern H., and Ur, Jason 2012 Mapping Patterns of Long-Term Settlement in Northern Mesopotamia at a Large Scale. Proceedings of the National Academy of Sciences of the United States of America 109(14):E778E787.Google Scholar
Merrill, Michael, and Read, Dwight 2010 A New Method Using Graph and Lattice Theory to Discover Spatially Cohesive Sets of Artifacts and Areas of Organized Activity in Archaeological Sites. American Antiquity 75(3):419451.Google Scholar
Michailidis, George 2008 Data Visualization through Their Graph Representations. In Handbook of Data Visualization, edited by Chen, Chun-houh, Härdle, Wolfgang Karl, and Unwin, Antony, pp. 103120. Springer Handbooks of Computational Statistics. Springer-Verlag, Berlin.Google Scholar
Mickel, Allison, and Meeks, Elijah 2015 Networking the Teams and Texts of Archaeological Research at Çatalhöyük. In Assembling Çatalhöyük, edited by Kristiansen, Kristian, Banffy, Eszter, Broodbank, Cyprian, Hodder, Ian, and Marciniak, Arkadiusz, pp. 2542. Routledge, London.Google Scholar
Mickel, Allison, Sinclair, Anthony, and Brughmans, Tom 2022 Knowledge Networks. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Migliano, A. B., Page, A. E., Gómez-Gardeñes, J., Salali, G. D., Viguier, S., Dyble, M., Thompson, J., Chaudhary, Nikhill, Smith, D., Strods, J., Mace, R., Thomas, M. G., Latora, V., and Vinicius, L. 2017 Characterization of Hunter-Gatherer Networks and Implications for Cumulative Culture. Nature Human Behaviour 1(2):16.Google Scholar
Mills, Barbara J. 2016 Communities of Consumption: Cuisines as Constellated Networks of Situated Practice. In Knowledge in Motion: Constellations of Learning across Time and Place, pp. 247270. Amerind Studies in Anthropology. University of Arizona Press, Tucson.Google Scholar
Mills, Barbara J. 2017 Social Network Analysis in Archaeology. Annual Review of Anthropology 46(1):379397.Google Scholar
Mills, Barbara J., Clark, Jeffery J., Peeples, Matthew A., Haas, W. R., Roberts, John M., Hill, J. Brett, Huntley, Deborah L., Borck, Lewis, Breiger, Ronald L., Clauset, Aaron, and Shackley, M. Steven 2013a Transformation of Social Networks in the Late Pre-Hispanic US Southwest. Proceedings of the National Academy of Sciences of the United States of America 110:57855790.Google Scholar
Mills, Barbara J., Peeples, Matthew A., Aragon, Leslie D., Bellorado, Benjamin A, Clark, Jeffery J., Giomi, Evan, and Windes, Thomas C. 2018 Evaluating Chaco Migration Scenarios Using Dynamic Social Network Analysis. Antiquity 92(364):922939.Google Scholar
Mills, Barbara J., Peeples, Matthew A., Haas, W. Randall Jr., Borck, Lewis, Clark, Jeffery J., and Roberts, John M. Jr. 2015 Multiscalar Perspectives on Social Networks in the Late Prehispanic Southwest. American Antiquity 80(1):324.Google Scholar
Mills, Barbara J., Roberts, John M., Clark, Jeffery J., Haas, William R. Jr., Huntley, Deborah, Peeples, Matthew A., Borck, Lewis, Ryan, Susan C., Trowbridge, Meaghan, and Breiger, Ronald L. 2013b The Dynamics of Social Networks in the Late Prehispanic U.S. Southwest. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 181202. Oxford University Press, Oxford.Google Scholar
Milo, R., Shen-Orr, S., Itzkovitz, S., Kashtan, N., Chklovskii, D., and Alon, U. 2002 Network Motifs: Simple Building Blocks of Complex Networks. Science 298:824–27.Google Scholar
Mitchell, J. Clyde 1969 The Concept and Use of Social Networks. In Social Networks in Urban Situations: Analysis of Personal Relationships in Central African Towns, edited by Mitchell, J. Clyde, pp. 150. Manchester University Press, Manchester.Google Scholar
Mizoguchi, Koji 2009 Nodes and Edges: A Network Approach to Hierarchisation and State Formation in Japan. Journal of Anthropological Archaeology 28(1):1426.Google Scholar
Mizoguchi, Koji 2013 Evolution of Prestige Good Systems: An Application of Network Analysis to the Transformation of Communication Systems and Their Media. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 151179. Oxford University Press, Oxford.Google Scholar
Mol, Angus A. A. 2014 The Connected Caribbean: A Socio-Material Network Approach to Patterns of Homogeneity and Diversity in the Pre-Colonial Period. Sidestone Press, Leiden.Google Scholar
Moreno, Jacob Levy 1932 Application of the Group Method to Classification. National Committee on Prisons and Prison Labor, New York.Google Scholar
Moreno, Jacob Levy 1934 Who Shall Survive?: A New Approach to the Problem of Human Interrelations. Nervous and Mental Disease Publishing, New York.Google Scholar
Moreno, Jacob Levy 1953 Who Shall Survive?: Foundations of Sociometry, Group Psychotherapy and Sociodrama. Beacon House, Boston.Google Scholar
Morris, James F. 2012 A Quantitative Methodology for Vetting “Dark Network” Intelligence Sources for Social Network Analysis. PhD dissertation, Air Force Institute of Technology.Google Scholar
Morris, James F., and Deckro, Richard F. 2013 SNA Data Difficulties with Dark Networks. Behavioral Sciences of Terrorism and Political Aggression 5(2):7093.Google Scholar
Mrvar, Andrej, and Batagelj, Vladimir 2016 Analysis and Visualization of Large Networks with Program Package Pajek. Complex Adaptive Systems Modeling 4(1).Google Scholar
Munson, Jessica 2015 From Metaphors to Practice. Journal of Archaeological Method and Theory 22(2):428460.Google Scholar
Munson, Jessica L., and Macri, Martha J. 2009 Sociopolitical Network Interactions: A Case Study of the Classic Maya. Journal of Anthropological Archaeology 28(4):424438.Google Scholar
Nadel, Siegfried Frederick 1957 The Theory of Social Structure. Melbourne University Press, Melbourne.Google Scholar
Nakajima, Kazuki, and Shudo, Kazuyuki 2021 Measurement Error of Network Clustering Coefficients under Randomly Missing Nodes. Scientific Reports 11(1):2815.Google Scholar
Neiman, Fraser D. 1995 Stylistic Variation in Evolutionary Perspective: Inferences from Decorative Diversity and Interassemblage Distance in Illinois Woodland Ceramic Assemblages. American Antiquity 60(1):736.Google Scholar
Nemmers, Thomas, Narayan, Anjana, and Banerjee, Sudipto 2019 Bayesian Modeling and Uncertainty Quantification for Descriptive Social Networks. Statistics and Its Inference 12:181191.Google Scholar
Newman, M. E. J. 2011 Complex Systems: A Survey. American Journal of Physics 79(8):800810.Google Scholar
Newman, M. E. J., and Girvan, M. 2004 Finding and Evaluating Community Structure in Networks. Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 69(2):115.Google Scholar
Newman, Mark 2010 Networks: An Introduction. Oxford University Press, Oxford.Google Scholar
Newman, Mark E. J. 2001 Scientific Collaboration Networks. I. Network Construction and Fundamental Results. Physical Review E 64(1):016131. doi:10.1103/PhysRevE.64.016131.Google Scholar
Nieto, X. 1997 Le commerce de cabotage et de distribution. In La navigation dans l’antiquité, edited by Pomey, Piero. Édisud, Aix-en-Provence.Google Scholar
Nocaj, Arlind, and Brandes, Ulrik 2013 Stub Bundling and Confluent Spirals for Geographic Networks. In Graph Drawing, edited by Wismath, Stephen and Wolff, Alexander, pp. 388399. Lecture Notes in Computer Science. Springer International Publishing, Cham.Google Scholar
Northway, Mary L. 1953 A Primer of Sociometry. University of Toronto Press, Toronto.Google Scholar
Oksanen, Jari, Blanchet, F. Guillaume, Friendly, Michael, Kindt, Roeland, Legendre, Pierre, McGlinn, Dan, Minchin, Peter R., O’Hara, R. B., Simpson, Gavin L., Solymos, Peter, Henry, M., Stevens, H., Szoecs, Eduard, and Wagner, Helene 2020 vegan: Community Ecology Package. R package version 2.6-2.Google Scholar
Opsahl, Tore 2009 Structure and Evolution of Weighted Networks. PhD dissertation, University of London (Queen Mary College).Google Scholar
Ortman, Scott G. 2016 Uniform Probability Density Analysis and Population History in the Northern Rio Grande. Journal of Archaeological Method and Theory 23(1):95126.Google Scholar
Ortman, Scott G., Varien, Mark D., and Gripp, T. Lee 2007 Empirical Bayesian Methods for Archaeological Survey Data: An Application from the Mesa Verde Region. American Antiquity 72(2):241272.Google Scholar
Orton, Clive 2000 Sampling in Archaeology. Cambridge Manuals in Archaeology. Cambridge University Press, Cambridge.Google Scholar
Östborn, Per, and Gerding, Henrik 2014 Network Analysis of Archaeological Data: A Systematic Approach. Journal of Archaeological Science 46:7588.Google Scholar
Östborn, Per, and Gerding, Henrik 2015 The Diffusion of Fired Bricks in Hellenistic Europe: A Similarity Network Analysis. Journal of Archaeological Method and Theory 22(1):306344.Google Scholar
O’Sullivan, Danial, and Turner, Alasdair 2001 Visibility Graphs and Landscape Visibility Analysis. International Journal of Geographical Information Science 15:221237.Google Scholar
Pachucki, Mark A., and Breiger, Ronald L. 2010 Cultural Holes: Beyond Relationality in Social Networks and Culture. Annual Review of Sociology 36(1):205224.Google Scholar
Padgett, John F., and Ansell, Christopher K. 1993 Robust Action and the Rise of the Medici, 1400–1434. American Journal of Sociology 98(6):12591319.Google Scholar
Pai, Shraddha, and Bader, Gary D. 2018 Patient Similarity Networks for Precision Medicine. Journal of Molecular Biology 430(18, Part A):29242938.Google Scholar
Pai, Shraddha, Hui, Shirley, Isserlin, Ruth, Shah, Muhammad A., Kaka, Hussam, and Bader, Gary D. 2019 netDx: Interpretable Patient Classification Using Integrated Patient Similarity Networks. Molecular Systems Biology 15(3):e8497.Google Scholar
Pailes, Matthew 2014 Social Network Analysis of Early Classic Hohokam Corporate Group Inequality. American Antiquity 79(3):465486.Google Scholar
Paletton.com. The Color Scheme Designer 2021. www.paletton.com, accessed September 3, 2021.Google Scholar
Paliou, Eleftheria, and Bevan, Andrew 2016 Evolving Settlement Patterns, Spatial Interaction and the Socio-Political Organisation of Late Prepalatial South-Central Crete. Journal of Anthropological Archaeology 42:184197.Google Scholar
Park, Jong Hee, and Sohn, Yunkyu 2020 Detecting Structural Changes in Longitudinal Network Data. Bayesian Analysis 15(1):133157.Google Scholar
Pebesma, Edzer 2018 Simple Features for R: Standardized Support for Spatial Vector Data. The R Journal 10(1):439446.Google Scholar
Pedersen, Thomas Lin 2021 ggraph: An Implementation of Grammar of Graphics for Graphs and Networks.Google Scholar
Peeples, Matthew A. 2011 Identity and Social Transformation in the Prehispanic Cibola World: A.D. 1150–1325. PhD dissertation, Arizona State University.Google Scholar
Peeples, Matthew A. 2017 Network Science and Statistical Techniques for Dealing with Uncertainties in Archaeological Datasets. www.mattpeeples.net/netstats.html, accessed May 30, 2017.Google Scholar
Peeples, Matthew A. 2018 Connected Communities: Networks, Identity, and Social Change in the Ancient Cibola World. University of Arizona Press, Tucson.Google Scholar
Peeples, Matthew A. 2019 Finding a Place for Networks in Archaeology. Journal of Archaeological Research 27:451499.Google Scholar
Peeples, Matthew A., Bernardini, Wesley, Balenquah, Lyle, and Throgmorton, Kellam 2021 Connections and Boundaries. In Becoming Hopi: A History, edited by Bernardini, Wesley, Koyiyumptewa, Stewart, Schachner, Gregson, and Kuwanwisiwma, Leigh, pp. 261298. University of Arizona Press, Tucson.Google Scholar
Peeples, Matthew A., and Brughmans, Tom 2022 Online Companion to Archaeological Network Science. https://archnetworks.net.Google Scholar
Peeples, Matthew A., and Haas, W. Randall 2013 Brokerage and Social Capital in the Prehispanic U.S. Southwest. American Anthropologist 115(2):232247.Google Scholar
Peeples, Matthew A., and Mills, Barbara J. 2018 Frontiers of Marginality and Mediation in the U.S. Southwest: A Social Networks Perspective. In Life beyond the Boundaries: Constructing Identity in Edge Regions of the North American Southwest, edited by Harry, Karen and Herr, Sarah, pp. 2556. University Press of Colorado, Boulder.Google Scholar
Peeples, Matthew A., Mills, Barbara J., Haas, W. Randall Jr., Clark, Jeffery J., and Roberts, John M. Jr. 2016 Analytical Challenges for the Application of Social Network Analysis in Archaeology. In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 5984. Oxford University Press, Oxford.Google Scholar
Peeples, Matthew A., and Roberts Jr, John M.. 2013 To Binarize or Not to Binarize: Relational Data and the Construction of Archaeological Networks. Journal of Archaeological Science 40(7):30013010.Google Scholar
Peeples, Matthew A., and Roberts Jr, John M.. 2017 Bootstrapping and Empirical Bayesian Methods for Assessing Variability in Archaeological Networks. Paper presented at the 45th Annual Computer Applications and Quantitative Methods in Archaeology international conference, Atlanta, GA.Google Scholar
Peeples, Matthew A., and Schachner, Gregson 2012 Refining Correspondence Analysis-Based Ceramic Seriation of Regional Data Sets. Journal of Archaeological Science 39(8):28182827.Google Scholar
Pengilley, Alana, Brand, Christabel, Flexner, James, Specht, Jim, and Torrence, Robin 2019 Detecting Exchange Networks in New Britain, Papua New Guinea: Geochemical Comparisons between Axe-Adze Blades and In Situ Volcanic Rock Sources. Archaeology in Oceania 54(3):200213.Google Scholar
Peregrine, Peter 1991 A Graph-Theoretic Approach to the Evolution of Cahokia. American Antiquity 56(1):6675.Google Scholar
Perreault, Charles 2019 The Quality of the Archaeological Record. University of Chicago Press, Chicago.Google Scholar
Phillips, Stephen Colby 2011 Networked Glass: Lithic Raw Material Consumption and Social Networks in the Kuril Islands, Far Eastern Russia. PhD dissertation, University of Washington.Google Scholar
Phillips, Steven J., and Dudík, Miroslav 2008 Modeling of Species Distributions with Maxent: New Extensions and a Comprehensive Evaluation. Ecography 31(2):161175.Google Scholar
Pisor, Anne C., and Gurven, Michael 2016 Risk Buffering and Resource Access Shape Valuation of Out-Group Strangers. Scientific Reports 6(1):30435.Google Scholar
Pisor, Anne C., and Jones, James Holland 2021 Do People Manage Climate Risk through Long-Distance Relationships? American Journal of Human Biology 33(4):e23525.Google Scholar
Pisor, Anne C., and Surbeck, Martin 2019 The Evolution of Intergroup Tolerance in Nonhuman Primates and Humans. Evolutionary Anthropology: Issues, News, and Reviews 28(4):210223.Google Scholar
Pitts, Forrest R. 1965 A Graph Theoretic Approach to Historical Geography. The Professional Geographer 17(5):1520.Google Scholar
Pitts, Forrest R. 1978 The Medieval River Trade Network of Russia Revisited. Social Networks 1(3):285292.Google Scholar
Plog, Stephen, and Hegmon, Michelle 1993 The Sample Size-Richness Relation: The Relevance of Research Questions, Sampling Strategies, and Behavioral Variation. American Antiquity 58(3):489496.Google Scholar
Plutniak, Sébastien 2021 The Strength of Parthood Ties: Modelling Spatial Units and Fragmented Objects with the TSAR Method – Topological Study of Archaeological Refitting. Journal of Archaeological Science 136:105501.Google Scholar
Polanyi, Karl 1957 The Great Transformation: The Political and Economic Origins of Our Time. Beacon Press, Boston.Google Scholar
Prignano, Luce, Morer, Ignacio, and Diaz-Guilera, Albert 2017 Wiring the Past: A Network Science Perspective on the Challenge of Archeological Similarity Networks. Frontiers in Digital Humanities 4(June):112. doiI:10.3389/fdigh.2017.00013.Google Scholar
R Core Team 2021 R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna.Google Scholar
Radicchi, Filippo, Castellano, Claudio, Cecconi, Federico, Loreto, Vittorio, and Paris, Domenico 2004 Defining and Identifying Communities in Networks. Proceedings of the National Academy of Sciences of the United States of America 101(9):26582663.Google Scholar
Radivojević, M., and Grujić, J. 2017 Community Structure of Copper Supply Networks in the Prehistoric Balkans: An Independent Evaluation of the Archaeological Record from the 7th to the 4th Millennium BC. Journal of Complex Networks 6(1):106124.Google Scholar
Rautman, Alison E. 1993 Resource Variability, Risk, and the Structure of Social Networks: An Example from the Prehistoric Southwest. American Antiquity 58(3):403424.Google Scholar
Rawat, Nagendra Singh 2017 An Ethnographic, Archaeological, and Geo-Informatics Study of Medieval Garhs/Forts of Garhwal Himalaya: A Study in Politico-Geographic Perspective. PhD dissertation, Garhwal University.Google Scholar
Rawat, Nagendra Singh, Brughmans, Tom, Nautiyal, Vinod, and Chauniyal, Devi Dutt 2021 Networked Medieval Strongholds in Garhwal Himalaya, India. Antiquity 95(381):753772.Google Scholar
Rawat, Nagendra Singh, and Nautiyal, Vinod 2020 Exploring Chaundkot Fort in Garhwal, Central Himalaya, India. Antiquity 94(376):E24. doi:10.15184/aqy.2020.117.Google Scholar
Read, Dwight W. 2009 Artifact Classification: A Conceptual and Methodological Approach. Left Coast Press, Walnut Creek, CA.Google Scholar
Renfrew, Colin, and Bahn, Paul 2008 Archaeology: Theories, Methods, and Practice. 5th ed. Thames & Hudson, London.Google Scholar
Rihll, Tracey Elizabeth, and Wilson, Alan Geoffrey 1987 Spatial Interaction and Structural Models in Historical Analysis: Some Possibilities and an Example. Histoire & Mesure 2(1):532.Google Scholar
Rihll, Tracey Elizabeth, and Wilson, Alan Geoffrey 1991 Modelling Settlement Structures in Ancient Greece: New Approaches to the Polis. In City and Country in the Ancient World, edited by Rich, John and Wallace-Hadrill, Andrew, pp. 6098. Routledge, London.Google Scholar
Rivers, Ray 2016 Can Archaeological Models Always Fulfil Our Prejudices? In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 123147. Oxford University Press, Oxford.Google Scholar
Rivers, Ray, and Evans, Tim S. 2013 What Makes a Site Important? Centrality, Gateways and Gravity. In Network Analysis in Archaeology. New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 125150. Oxford University Press, Oxford.Google Scholar
Rivers, Ray, Knappett, Carl, and Evans, Timothy 2013 Network Models and Archaeological Spaces. In Computational Approaches to Archaeological Spaces, pp. 99126. UCL Institute of Archaeology Publications 60. Left Coast Press, Walnut Creek, CA.Google Scholar
Roberts, John M., Jr., Mills, Barbara J., Clark, Jeffery J., Haas, W. Randall Jr., Huntley, Deborah L., and Trowbridge, Meaghan A. 2012 A Method for Chronological Apportioning of Ceramic Assemblages. Journal of Archaeological Science 39(5):15131520.Google Scholar
Roberts, John M., Yin, Yi, Dorshorst, Emily, Peeples, Matthew A., and Mills, Barbara J. 2021 Assessing the Performance of the Bootstrap in Simulated Assemblage Networks. Social Networks 65:98109.Google Scholar
Roberts, Nancy, and Everton, Sean F. 2011 Strategies for Combating Dark Networks. Journal of Social Structure 12(1):132. doiI:10.21307/joss-2019-030.Google Scholar
Robertson, Ian G. 1999 Spatial and Multivariate Analysis, Random Sampling Error, and Analytical Noise: Empirical Bayesian Methods at Teotihuacan, Mexico. American Antiquity 64(1):137152.Google Scholar
Rodrigues, Eduarda Mendes, Milic-Frayling, Natasa, Smith, Marc, Shneiderman, Ben, and Hansen, Derek 2011 Group-in-a-Box Layout for Multi-faceted Analysis of Communities. In 2011 IEEE Third International Conference on Privacy, Security, Risk and Trust and 2011 IEEE Third International Conference on Social Computing, pp. 354–361. IEEE Press.Google Scholar
Romano, Valéria, Lozano, Sergi, and de Pablo, Javier Fernández‐López 2020 A Multilevel Analytical Framework for Studying Cultural Evolution in Prehistoric Hunter–Gatherer Societies. Biological Reviews of the Cambridge Philosophical Society 95(4):10201035.Google Scholar
Romanowska, Iza, Wren, Colin D., and Crabtree, Stefani A. 2021 Agent-Based Modeling for Archaeology: Simulating the Complexity of Societies. Santa Fe Institute Press, Santa Fe, NM.Google Scholar
Rosenblatt, Samuel F., Smith, Jeffrey A., Gauthier, G. Robin, and Hébert-Dufresne, Laurent 2020 Immunization Strategies in Networks with Missing Data. PLOS Computational Biology 16(7):e1007897.Google Scholar
Rothman, Mitchell S. 1987 Graph Theory and the Interpretation of Regional Survey Data. Paléorient 13(2):7391.Google Scholar
Rouse, Irving 1960 The Classification of Artifacts in Archaeology. American Antiquity 25(3):313323.Google Scholar
Roux, Valentine 2019 Modeling the Relational Structure of Ancient Societies through the Chaîne Opératoire: The Late Chalcolithic Societies of the Southern Levant as a Case Study. In Integrating Qualitative and Social Science Factors in Archaeological Modelling, edited by Saqalli, M. and Vander Linden, M., pp. 163184. Springer International Publishing, New York.Google Scholar
Roux, Valentine 2020 Chaîne Opératoire Technological Networks and Sociological Interpretations. Cuadernos de Prehistoria y Arqueología de la Universidad de Granada 30:1534.Google Scholar
Rubin, Donald B. 1976 Inference and Missing Data. Biometrika 63(3):581592.Google Scholar
Rubinstein, Reuven Y., and Kroese, Dirk P. 2011 Simulation and the Monte Carlo Method. John Wiley & Sons, London.Google Scholar
Ruestes Bitrià, Carme 2008 A Multi-technique GIS Visibility Analysis for Studying Visual Control of an Iron Age Landscape. Internet Archaeology 23. https://doi.org/10.11141/ia.23.4.Google Scholar
Ryan, Louise, and D’Angelo, Alessio 2018 Changing Times: Migrants’ Social Network Analysis and the Challenges of Longitudinal Research. Social Networks 53:148158.Google Scholar
Sanchez, Gaston 2018 arcdiagram: Plot Pretty Arc Diagrams.Google Scholar
Santley, Robert S. 1991 The Structure of the Aztec Transport Network. In Ancient Road Networks and Settlement Hierarchies in the New World, edited by Trombold, Charles D., pp. 198210. Cambridge University Press, Cambridge.Google Scholar
Scheidel, Walter 2014 The Shape of the Roman World: Modelling Imperial Connectivity. Journal of Roman Archaeology 27:732.Google Scholar
Schloerke, Barret, Cook, Di, Larmarange, Joseph, Briatte, Francois, Marbach, Moritz, Thoen, Edwin, Elberg, Amos, and Crowley, Jason 2021 GGally: Extension to “ggplot2.”Google Scholar
Schoch, David 2021 edgebundle: Algorithms for Bundling Edges in Networks and Visualizing Flow and Metro Maps.Google Scholar
Scholnick, Jonathan B., Munson, Jessica L., and Macri, Martha J. 2013 Positioning Power in a Multi-Relational Framework: A Social Network Analysis of Classic Maya Political Rhetoric. In Network Analysis in Archaeology. New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 95124. Oxford University Press, Oxford.Google Scholar
Schöttler, Sarah, Yang, Yalong, Pfister, Hanspeter, and Bach, Benjamin 2021 Visualizing and Interacting with Geospatial Networks: A Survey and Design Space. Computer Graphics Forum 40(6):533.Google Scholar
Schwabish, Jonathan 2021 Better Data Visualizations: A Guide for Scholars, Researchers, and Wonks. Columbia University Press, New York.Google Scholar
Scott, John, and Carrington, Peter J. (editors) 2011 The SAGE Handbook of Social Network Analysis. SAGE Publications, London.Google Scholar
Selg, Peeter, and Ventsel, Andreas 2020 The “Relational Turn” in the Social Sciences. In Introducing Relational Political Analysis: Political Semiotics as a Theory and Method, edited by Selg, Peeter and Ventsel, Andreas, pp. 1540. Palgrave Studies in Relational Sociology. Springer International Publishing, Cham.Google Scholar
Shennan, Stephen 2001 Demography and Cultural Innovation: A Model and Its Implications for the Emergence of Modern Human Culture. Cambridge Archaeological Journal 11(1):516.Google Scholar
Simini, Filippo, Maritan, Amos, and Néda, Zoltán 2013 Human Mobility in a Continuum Approach. Edited by Csermely, Peter. PLoS ONE 8(3):e60069.Google Scholar
Simmel, Georg 1955 Conflict and the Web of Group-Affiliations. Free Press, New York.Google Scholar
Sinclair, Anthony 2016 The Intellectual Base of Archaeological Research 2004–2013: A Visualisation and Analysis of Its Disciplinary Links, Networks of Authors and Conceptual Language. Internet Archaeology 42, https://doi.org/10.11141/ia.42.8.Google Scholar
Sindbæk, Søren M. 2007a Networks and Nodal Points: The Emergence of Towns in Early Viking Age Scandinavia. Antiquity 81:119132.Google Scholar
Sindbæk, Søren M. 2007b The Small World of the Vikings: Networks in Early Medieval Communication and Exchange. Norwegian Archaeological Review 40:5974.Google Scholar
Sindbæk, Søren M. 2013 Broken Links and Black Boxes: Material Affiliations and Contextual Network Synthesis in the Viking World. In Network Analysis in Archaeology: New Approaches to Regional Interaction, edited by Knappett, Carl, pp. 7194. Oxford University Press, Oxford.Google Scholar
Slayton, Emma Ruth 2018 Seascape Corridors: Modeling Routes to Connect Communities across the Caribbean Sea. PhD dissertation, Leiden University.Google Scholar
Smith, Jeffrey A., and Moody, James 2013 Structural Effects of Network Sampling Coverage I: Nodes Missing at Random. Social Networks 35(4):652668.Google Scholar
Smith, Jeffrey A., Moody, James, and Morgan, Jonathan H. 2017 Network Sampling Coverage II: The Effect of Non-Random Missing Data on Network Measurement. Social Networks 48:7899.Google Scholar
Smith, Jeffrey A., Morgan, Jonathan H., and Moody, James 2022 Network Sampling Coverage III: Imputation of Missing Network Data under Different Network and Missing Data Conditions. Social Networks 68:148178.Google Scholar
Smith, Michael E. 2015 How Can Archaeologists Make Better Arguments? The SAA Archaeological Record 15(4):1823.Google Scholar
Smolla, Marco, and Akçay, Erol 2019 Cultural Selection Shapes Network Structure. Science Advances 5(8):eaaw0609.Google Scholar
Snijders, Tom A. B., van de Bunt, Gerhard G., and Steglich, Christian E. G. 2010 Introduction to Stochastic Actor-Based Models for Network Dynamics. Social Networks 32(1):4460.Google Scholar
Sobel, Elizabeth, and Bettles, Gordon 2000 Winter Hunger, Winter Myths: Subsistence Risk and Mythology among the Klamath and Modoc. Journal of Anthropological Archaeology 19(3):276316.Google Scholar
Stjernquist, Berta 1967 Models of Commercial Diffusion of Prehistoric Times. Gleerup, Lund.Google Scholar
Stöger, Hanna 2014 The Spatial Signature of an Insula Neighbourhood of Roman Ostia. In Spatial Analysis and Social Spaces: Interdisciplinary Approaches to the Interpretation of Prehistoric and Historic Built Environments, edited by Paliou, Eleftheria, Lieberwirth, Undine, and Polla, Silvia, pp. 297315. De Gruyter, Berlin.Google Scholar
Stovel, Katherine, Golub, Benjamin, and Milgrom, Eva M. Meyersson 2011 Stabilizing Brokerage. Proceedings of the National Academy of Sciences 108(Suppl. 4):2132621332.Google Scholar
Stovel, Katherine, and Shaw, Lynette 2012 Brokerage. Annual Review of Sociology 38(1):139158.Google Scholar
Strathern, Marilyn 1988 The Gender of the Gift: Problems with Women and Problems with Society in Melanesia. University of California Press, Los Angeles.Google Scholar
Strawhacker, Colleen, Snitker, Grant, Peeples, Matthew A., Kinzig, Ann P., Kintigh, Keith W., Bocinsky, Kyle, Butterfield, Brad, Freeman, Jacob, Oas, Sarah, Nelson, Margaret C., Sandor, Jonathan A., and Spielmann, Katherine A. 2020 A Landscape Perspective on Climate-Driven Risks to Food Security: Exploring the Relationship between Climate and Social Transformation in the Prehispanic U.S. Southwest. American Antiquity 85(3):427451. doi:10.1017/aaq.2020.35.Google Scholar
Suitor, J. Jill, Wellman, Barry, and Morgan, David L. 1997 It’s about Time: How, Why, and When Networks Change. Social Networks 19(1):1–7.Google Scholar
Sun, Maoyuan, Zhao, Jian, Wu, Hao, Luther, Kurt, North, Chris, and Ramakrishnan, Naren 2019 The Effect of Edge Bundling and Seriation on Sensemaking of Biclusters in Bipartite Graphs. IEEE Transactions on Visualization and Computer Graphics 25(10):29832998.Google Scholar
Swanson, Steve 2003 Documenting Prehistoric Communication Networks: A Case Study in the Paquimé Polity. American Antiquity 68(4):753767.Google Scholar
Szell, Michael, and Thurner, Stefan 2010 Measuring Social Dynamics in a Massive Multiplayer Online Game. Social Networks 32(4):313329.Google Scholar
Talbert, Richard J. A. (editor) 2000 Barrington Atlas of the Greek and Roman World. Princeton University Press, Princeton, NJ.Google Scholar
Temin, Peter 2013 The Roman Market Economy. Princeton University Press, Princeton, NJ.Google Scholar
Terrell, John E. 1976 Island Biogeography and Man in Melanesia. Archaeology and Physical Anthropology in Oceania 11(1):117.Google Scholar
Terrell, John E. 1977 Human Biogeography in the Solomon Islands. Fieldiana Anthropology 68(1):147.Google Scholar
Terrell, John E. 2010 Language and Material Culture on the Sepik Coast of Papua New Guinea: Using Social Network Analysis to Simulate, Graph, Identify, and Analyze Social and Cultural Boundaries between Communities. The Journal of Island and Coastal Archaeology 5(1):332.Google Scholar
Tilley, Christopher Y. 1994 A Phenomenology of Landscape: Places, Paths and Monuments. Berg, Oxford.Google Scholar
Tobler, W. R. 1970 A Computer Movie Simulating Urban Growth in the Detroit Region. Economic Geography 46:234240.Google Scholar
Tol, Paul 2021 Paul Tol’s Notes: Colour Blindness. https://personal.sron.nl/~pault/#sec:colour_blindness, accessed September 3, 2021.Google Scholar
Toussaint, Godfried T. 1980 The Relative Neighbourhood Graph of a Finite Planar Set. Pattern Recognition 12(4):261268.Google Scholar
Trigger, Bruce G. 1989 A History of Archaeological Thought. Cambridge University Press, Cambridge.Google Scholar
Tsirogiannis, Constantinos, and Tsirogiannis, Christos 2016 Uncovering the Hidden Routes: Algorithms for Identifying Paths and Missing Links in Trade Networks. In The Connected Past: Challenges to Network Studies in Archaeology and History, edited by Brughmans, Tom, Collar, Anna, and Coward, Fiona, pp. 103120. Oxford University Press, Oxford.Google Scholar
Tufte, Edward R. 2001 The Visual Display of Quantitative Information. Graphics Press, Cheshire, CT.Google Scholar
Tukey, John Wilder 1977 Exploratory Data Analysis. Addison-Wesley, Reading, MA.Google Scholar
Turner, Alasdair 2001 Angular Analysis. In Proceedings of the 3rd International Symposium on Space Syntax, edited by Wineman, Jean D., Peponis, John, and Bafna, Sonit. A. Alfred Taubman College of Architecture and Urban Planning, University of Michigan, Ann Arbor.Google Scholar
Turner, Alasdair, Doxa, Maria, O’Sullivan, David, and Penn, Alan 2001 From Isovists to Visibility Graphs: A Methodology for the Analysis of Architectural Space. Environment and Planning B: Planning and Design 28(1):103121.Google Scholar
Turner, Alasdair, Penn, Alan, and Hillier, Bill 2005 An Algorithmic Definition of the Axial Map. Environment and Planning B: Planning and Design 32(3):425444.Google Scholar
Upton, Andrew James 2019 Multilayer Network Relationships and Culture Contact in Mississippian West-Central Illinois, A.D. 1200–1450. PhD thesis, Michigan State University.Google Scholar
Ur, Jason 2003 CORONA Satellite Photography and Ancient Road Networks: A Northern Mesopotamian Case Study. Antiquity 77(295):102115.Google Scholar
Valavanis, Ioannis, Spyrou, George, and Nikita, Konstantina 2010 A Similarity Network Approach for the Analysis and Comparison of Protein Sequence/Structure Sets. Journal of Biomedical Informatics 43(2):257267.Google Scholar
Van Oyen, Astrid 2015 Actor-Network Theory’s Take on Archaeological Types: Becoming, Material Agency and Historical Explanation. Cambridge Archaeological Journal 25(1):6378.Google Scholar
Van Oyen, Astrid 2016 Historicising Material Agency: From Relations to Relational Constellations. Journal of Archaeological Method and Theory 23(1):354378.Google Scholar
Verhagen, Philip, Brughmans, Tom, Nuninger, Laure, and Bertoncello, Frédérique 2013 The Long and Winding Road: Combining Least Cost Paths and Network Analysis Techniques for Settlement Location Analysis and Predictive Modelling. In Proceedings of Computer Applications and Quantitative Techniques in Archaeology Conference 2012, Southampton, pp. 357366. Amsterdam University Press, Amsterdam.Google Scholar
Vitale, Valeria, and Simon, Rainer 2023 Linked Data Networks: How, Why and When to Apply Network Analysis to LOD. In The Oxford Handbook of Archaeological Network Research, edited by Brughmans, Tom, Mills, Barbara J., Munson, Jessica L., and Peeples, Matthew A.. Oxford University Press, Oxford.Google Scholar
Wang, Cheng, Butts, Carter T., Hipp, John R., Jose, Rupa, and Lakon, Cynthia M. 2016 Multiple Imputation for Missing Edge Data: A Predictive Evaluation Method with Application to Add Health. Social Networks 45:8998.Google Scholar
Wang, Dan J., Shi, Xiaolin, McFarland, Daniel A., and Leskovec, Jure 2012 Measurement Error in Network Data: A Re-classification. Social Networks 34(4):396409.Google Scholar
Wang, Li-Ying, and Marwick, Ben 2021 A Bayesian Networks Approach to Infer Social Changes from Burials in Northeastern Taiwan during the European Colonization Period. Journal of Archaeological Science 134:105471.Google Scholar
Wang, Peng, Sharpe, Ken, Robins, Garry L., and Pattison, Philippa E. 2009 Exponential Random Graph (p∗) Models for Affiliation Networks. Social Networks 31(1):1225.Google Scholar
Warnking, Pascal 2016 Roman Trade Routes in the Mediterranean Sea: Modelling the Routes and Duration of Ancient Travel with Modern Offshore Regatta Software. In Connecting the Ancient World: Mediterranean Shipping, Maritime Networks and Their Impact, edited by Schäfer, Christoph, pp. 4590. Verlag Marie Leidorf GmbH, Rahden.Google Scholar
Wasserman, Stanley, and Faust, Katherine 1994 Social Network Analysis: Methods and Applications. Cambridge University Press, Cambridge.Google Scholar
Watts, Duncan J. 2004 Six Degrees: The Science of a Connected Age. W. W. Norton, New York.Google Scholar
Watts, Duncan J., and Strogatz, Steven H. 1998 Collective Dynamics of “Small-World” Networks. Nature 393(6684):440442.Google Scholar
Watts, Joshua 2013 Traces of the Individual in Prehistory: Flintknappers and the Distribution of Projectile Points in the Eastern Tonto Basin, Arizona. Advances in Archaeological Practice 1(1):2536.Google Scholar
Watts, Joshua, and Ossa, Alanna 2016 Exchange Network Topologies and Agent-Based Modeling: Economies of the Sedentary-Period Hohokam. American Antiquity 81(4):623644.Google Scholar
Webb, Malcolm C. 1974 Exchange Networks: Prehistory. Annual Review of Anthropology 3:357383.Google Scholar
Weidele, Daniel, van Garderen, Mereke, Golitko, Mark, Feinman, Gary M., and Brandes, Ulrik 2016 On Graphical Representations of Similarity in Geo-Temporal Frequency Data. Journal of Archaeological Science 72:105116.Google Scholar
Weiner, Annette B. 1992 Inalienable Possessions: The Paradox of Keeping-While Giving. University of California Press, Berkeley.Google Scholar
Wenger, Etienne 1998 Communities of Practice: Learning, Meaning, and Identity. Cambridge University Press, Cambridge.Google Scholar
Wernke, Steven A. 2012 Spatial Network Analysis of a Terminal Prehispanic and Early Colonial Settlement in Highland Peru. Journal of Archaeological Science 39(4):11111122.Google Scholar
Whallon, Robert, Lovis, William A., and Hitchcock, Robert K. (editors) 2011 Information and Its Role in Hunter-Gatherer Bands. Cotsen Institute of Archaeology Press, Los Angeles.Google Scholar
Wheatley, D. W., and Gillings, Mark 2000 Visual Perception and GIS: Developing Enriched Approaches to the Study of Archaeological Visibility. In Beyond the Map: Archaeology and Spatial Technologies, edited by Lock, G.. IOS Press, Amsterdam.Google Scholar
Wheatley, David, and Gillings, Mark 2002 Spatial Technology and Archaeology: The Archaeological Applications of GIS. Taylor and Francis, New York.Google Scholar
White, Devin A., and Barber, Sarah B. 2012 Geospatial Modeling of Pedestrian Transportation Networks: A Case Study from Precolumbian Oaxaca, Mexico. Journal of Archaeological Science 39(8):26842696.Google Scholar
White, Howard D. 2011 Scientific and Scholarly Networks. In The SAGE Handbook of Social Network Analysis, edited by Scott, John and Carrington, Peter J., pp. 272285. SAGE, London.Google Scholar
Wickham, Hadley 2016 ggplot2: Elegant Graphics for Data Analysis. Springer-Verlag, New York.Google Scholar
Wickham, Hadley, Averick, Mara, Bryan, Jennifer, Chang, Winston, McGowan, Lucy D’Agostino, François, Romain, Grolemund, Garrett, Hayes, Alex, Henry, Lionel, Hester, Jim, Kuhn, Max, Pedersen, Thomas Lin, Miller, Evan, Bache, Stephan Milton, Müller, Kirill, Ooms, Jeroen, Robinson, David, Seidel, Dana Paige, Spinu, Vitalie, Takahashi, Kohske, Vaughan, Davis, Wilke, Claus, Woo, Kara, and Yutani, Hiroaki 2019 Welcome to the Tidyverse. Journal of Open Source Software 4(43):1686.Google Scholar
Wiessner, Polly 1983 Style and Social Information in Kalahari San Projectile Points. American Antiquity 48(2):253276.Google Scholar
Wiessner, Polly 1998 On Network Analysis: The Potential for Understanding (and Misunderstanding) !Kung Hxaro. Current Anthropology 39(4):514517.Google Scholar
Wilke, Claus O. 2019 Fundamentals of Data Visualization: A Primer on Making Informative and Compelling Figures. O’Reilly Media, Sebastopol, CA.Google Scholar
Willis, Amy D. 2019 Rarefaction, Alpha Diversity, and Statistics. Frontiers in Microbiology 10:2407.Google Scholar
Wilson, Andrew I., Schörle, Katia, and Rice, Candace 2012 Roman Ports and Mediterranean Connectivity. In Rome, Portus and the Mediterranean, edited by Keay, Simon. Archaeological Monographs of the British School at Rome. British School at Rome, London.Google Scholar
Wissink, Marieke, and Mazzucato, Valentina 2018 In Transit: Changing Social Networks of Sub-Saharan African Migrants in Turkey and Greece. Social Networks 53:3041.Google Scholar
Wobst, H. Martin 1974 Boundary Conditions for Paleolithic Social Systems: A Simulation Approach. American Antiquity 39(2, Part1):147178.Google Scholar
Wong, Bang 2011 Points of View: Color Blindness. Nature Methods 8(6):441.Google Scholar
Xiao, Zhixing, and Tsui, Anne S. 2007 When Brokers May Not Work: The Cultural Contingency of Social Capital in Chinese High-Tech Firms. Administrative Science Quarterly 52(1):131.Google Scholar
Xie, Feng, and Levinson, David M. 2007 Measuring the Structure of Road Networks. Geographical Analysis 39(3):336356.Google Scholar
Yau, Nathan 2011 Visualize This: The FlowingData Guide to Design, Visualization, and Statistics. John Wiley & Sons, London.Google Scholar
Young, Jean-Gabriel, Cantwell, George T., and Newman, M. E. J. 2021 Bayesian Inference of Network Structure from Unreliable Data. Journal of Complex Networks 8(6):cnaa046.Google Scholar
Zachary, Wayne W. 1977 An Information Flow Model for Conflict and Fission in Small Groups. Journal of Anthropological Research 33(4):452473.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

  • References
  • Tom Brughmans, Aarhus Universitet, Denmark, Matthew A. Peeples, Arizona State University
  • Book: Network Science in Archaeology
  • Online publication: 06 April 2023
  • Chapter DOI: https://doi.org/10.1017/9781009170659.013
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Tom Brughmans, Aarhus Universitet, Denmark, Matthew A. Peeples, Arizona State University
  • Book: Network Science in Archaeology
  • Online publication: 06 April 2023
  • Chapter DOI: https://doi.org/10.1017/9781009170659.013
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Tom Brughmans, Aarhus Universitet, Denmark, Matthew A. Peeples, Arizona State University
  • Book: Network Science in Archaeology
  • Online publication: 06 April 2023
  • Chapter DOI: https://doi.org/10.1017/9781009170659.013
Available formats
×