Edgework

doi:10.1017/9781009026949.013

Chapter 12 - Edgework

Viewing Curiosity as Fundamentally Relational

from Part III - Which Machinery Supports the Drive for Knowledge?

Published online by Cambridge University Press: 19 May 2022

Perry Zurn ,

Dale Zhou ,

David M. Lydon-Staley and

Dani S. Bassett

Edited by

Irene Cogliati Dezza ,

Eric Schulz and

Charley M. Wu

Show author details

Irene Cogliati Dezza: Affiliation:
University College London
Eric Schulz: Affiliation:
Max-Planck-Institut für biologische Kybernetik, Tübingen
Charley M. Wu: Affiliation:
Eberhard-Karls-Universität Tübingen, Germany

Book contents

Get access

Summary

Most theories of curiosity emphasize the acquisition of information. Yet, recent advances from philosophy and cognitive science suggest that it may be time to complement the acquisitional theory of curiosity with a connectional theory of curiosity. This alternative perspective focuses on the actions of the knower in seeking relations among informational units, laying down lines of intersection, and thereby building a scaffold or network of knowledge. Intuitively, curiosity becomes edgework. In this chapter, we dwell on the notion of edgework, wrestle with its relation to prior accounts, and exercise its unique features to craft alternative reasons for curiosity’s value to humanity. In doing so, we find that the notion of edgework offers a fresh, flexible, and explanatory account of curiosity. More broadly, it uncovers new opportunities to use the lens of science to examine, probe, and interrogate this important dimension of the human experience.

Keywords

Curiosity network connection edgework network neuroscience

Type: Chapter
Information: The Drive for Knowledge
The Science of Human Information Seeking
, pp. 259 - 278

DOI: https://doi.org/10.1017/9781009026949.013 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2022

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

Ahmed, S. (2012). On being included: Racism and diversity in institutional life. Duke University Press.Google Scholar

Ahmed, S. (2017). Living a feminist life. Duke University Press.Google Scholar

Ahmed, S. (2019). What’s the use. Duke University Press.Google Scholar

Aquinas, T. (1981). Summa theologica (p. Question 167). Christian Classics.Google Scholar

Augustine, S. (1961). Confessions, trans. W. Watts. London, 1631.Google Scholar

Bassett, D. S. (2020). A network science of the practice of curiosity. In Zurn, P. & Shankar, A. (Eds.), Curiosity studies: A new ecology of knowledge (pp. 57–74). Minnesota Press.Google Scholar

Bassett, D. S., Zurn, P., & Gold, J. I. (2018). On the nature and use of models in network neuroscience. Nature Reviews Neuroscience, 19(9), 566–578.CrossRef Google Scholar PubMed

Begus, K., & Southgate, V. (2018). Curious learners: How infants’ motivation to learn shapes and is shaped by infants’ interactions with the social world. In Active learning from infancy to childhood (pp. 13–37). Springer.Google Scholar

Benedict, B. (2003). Curiosity: A cultural history of early modern inquiry. University of Chicago Press.Google Scholar

Berlyne, D. E. (1960). Conflict, arousal, and curiosity. McGraw-Hill.CrossRef Google Scholar

Bertolero, M. A., Dworkin, J. D., David, S. U., Lloreda, C. L., Srivastava, P., Stiso, J., Zhou, D., … Bassett, D. S. (2020). Racial and ethnic imbalance in neuroscience reference lists and intersections with gender. bioRxiv, 10.12.336230. https://doi.org/10.1101/2020.10.12.336230.CrossRef Google Scholar

Birhane, A. (2021). The impossibility of automating ambiguity. Artificial Life, 27(1), 44–61.Google Scholar

Caplar, N., Tacchella, S., & Birrer, S. (2017). Quantitative evaluation of gender bias in astronomical publications from citation counts. Nature Astronomy, 1(6), 0141. https://doi.org/10.1038/s41550-017-0141.Google Scholar

Christianson, N. H., Blevins, A. S., & Bassett, D. S. (2020). Architecture and evolution of semantic networks in mathematics texts. Philosophical Transactions of the Royal Society, A, 476(2239), 20190741.Google Scholar PubMed

Chu, J., & Schulz, L. E. (2020). Play, curiosity, and cognition. Annual Review of Developmental Psychology, 2, 317–343.Google Scholar

Cofer, C. N., & Appley, M. H. (1964). Motivation: Theory and research. Wiley.Google Scholar

Cohen, J. D., McClure, S. M., & Yu, A. J. (2007). Should I stay or should I go? How the human brain manages the trade-off between exploitation and exploration. Philosophical Transactions of the Royal Society B: Biological Sciences, 362(1481), 933–942.CrossRef Google Scholar PubMed

Constantinescu, A. O., OReilly, J. X., & Behrens, T. E. J. (2016). Organizing conceptual knowledge in humans with a gridlike code. Science, 352(6292), 1464–1468. https://doi.org/10.1126/science.aaf0941.Google Scholar

Crawford, K., Gray, M. L., & Miltner, K. M. (2014). Big data. Critiquing big data: Politics, ethics, epistemology. Special Section Introduction. International Journal of Communication, 8(10).Google Scholar

Descartes, R. (1649). Passions of the soul. In Cottingham, J. (Ed.), The philosophical writings of Rene Descartes (p. sec. 88). Cambridge University Press, 1985.Google Scholar

Dewey, J. (1916/2011). Democracy and education. Simon and Brown.Google Scholar

Dewey, J. (1910/1933). How we think. D. C. Heath & Company.Google Scholar

Diener, E., & Diener, C. (1996). Most people are happy. Psychological Science, 7(3), 181–185.Google Scholar

Dion, M. L., Sumner, J. L., & Mitchell, S. M. (2018). Gendered citation patterns across political science and social science methodology fields. Political Analysis, 26(3), 312–327. https://doi.org/10.1017/pan.2018.12.Google Scholar

Dworkin, J. D., Linn, K. A., Teich, E. G., Zurn, P., Shinohara, R. T., & Bassett, D. S. (2020). The extent and drivers of gender imbalance in neuroscience reference lists. Nature Neuroscience, 23, 918–926.Google Scholar

Dworkin, J., Zurn, P., & Bassett, D. S. (2020). (In)citing action to realize an equitable future. Neuron, 106(6), 890–894.Google Scholar

Enloe, C. (2004). The Curious Feminist. University of California Press.CrossRef Google Scholar

Fredrickson, B. L. (2004). The broaden–and–build theory of positive emotions. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 359(1449), 1367–1377.CrossRef Google Scholar PubMed

Fredrickson, B. L., & Branigan, C. (2005). Positive emotions broaden the scope of attention and thought-action repertoires. Cognition & Emotion, 19(3), 313–332.CrossRef Google Scholar PubMed

Fricker, M. (2009). Epistemic injustice: Power and the ethics of knowing. Oxford University Press.Google Scholar

Garrosa, E., Blanco-Donoso, L. M., Carmona-Cobo, I., & Moreno-Jiménez, B. (2017). How do curiosity, meaning in life, and search for meaning predict college students’ daily emotional exhaustion and engagement? Journal of Happiness Studies, 18(1), 17–40.Google Scholar

Garvert, M. M., Dolan, R. J., & Behrens, T. E. (2017). A map of abstract relational knowledge in the human hippocampal–entorhinal cortex. Elife, 6, e17086.Google Scholar

George, M. J., Russell, M. A., Piontak, J. R., & Odgers, C. L. (2018). Concurrent and subsequent associations between daily digital technology use and high‐risk adolescents’ mental health symptoms. Child Development, 89(1), 78–88.Google Scholar

Gershman, S. J., & Niv, Y. (2015). Novelty and inductive generalization in human reinforcement learning. Topics in Cognitive Science, 7(3), 391–415. https://doi.org/10.1111/tops.12138.Google Scholar

Gopnik, A. (2020). Childhood as a solution to explore–exploit tensions. Philosophical Transactions of the Royal Society B, 375(1803), 20190502.Google Scholar

Gottlieb, J. (2012). Attention, learning, and the value of information. Neuron, 76(2), 281–295.Google Scholar

Gottlieb, J., & Oudeyer, P.-Y. (2018). Towards a neuroscience of active sampling and curiosity. Nature Reviews Neuroscience, 19(12), 758–770.CrossRef Google Scholar PubMed

Gottlieb, J., Hayhoe, M., Hikosaka, O., & Rangel, A. (2014). Attention, reward, and information seeking. Journal of Neuroscience, 34(46), 15497–15504.Google Scholar

Gray, M. L., Suri, S., Ali, S. S., & Kulkarni, D. (2016, February). The crowd is a collaborative network. In Proceedings of the 19th ACM conference on computer-supported cooperative work & social computing (pp. 134–147).Google Scholar

Gruber, M. J., Gelman, B. D., & Ranganath, C. (2014). States of curiosity modulate hippocampus-dependent learning via the dopaminergic circuit. Neuron, 84(2), 486–496.Google Scholar

Gruber, M. J., Valji, A., & Ranganath, C. (2019). Curiosity and learning: A neuroscientific perspective. In Renniger, K. & Hidi, S. E. (Eds.), The Cambridge handbook of motivation and learning (pp. 397–417). Cambridge University Press.CrossRef Google Scholar

Hidi, S. E., & Renninger, K. A. (2019). Interest development and its relation to curiosity: needed neuroscientific research. Educational Psychology Review, 31(4), 833–852.Google Scholar

Huntenburg, J. M., Bazin, P.-L., & Margulies, D. S. (2018). Large-scale gradients in human cortical organization. Trends in Cognitive Sciences, 22(1), 21–31.Google Scholar

Inan, I. (2011). The philosophy of curiosity. Routledge.Google Scholar

James, W. (1925). Talks to teachers on psychology: And to students on some of life’s ideals. Henry Holt Company.Google Scholar

James, W. (1890; 1918). The principles of psychology, vol. 2. Dover Publications.Google Scholar

Ju, H., & Bassett, D. S. (2020). Dynamic representations in networked neural systems. Nature Neuroscience, 23(8), 908–917.CrossRef Google Scholar PubMed

Ju, H., Zhou, D., Blevins, A. S., Lydon-Staley, D. M., Kaplan, J., Tuma, J. R., & Bassett, D. S. (2020). The network structure of scientific revolutions. arXiv Preprint arXiv:2010.08381.Google Scholar

Kahn, A. E., Karuza, E. A., Vettel, J. M., & Bassett, D. S. (2018). Network constraints on learnability of probabilistic motor sequences. Nature Human Behaviour, 2(12), 936–947.Google Scholar

Kang, M. J., Hsu, M., Krajbich, I. M., Loewenstein, G., McClure, S. M., Wang, J. T.-y., & Camerer, C. F. (2009). The wick in the candle of learning: Epistemic curiosity activates reward circuitry and enhances memory. Psychological Science, 20(8), 963–973.Google Scholar

Karuza, E. A., Kahn, A. E., & Bassett, D. S. (2019). Human sensitivity to community structure is robust to topological variation. Complexity, 2019 (8379321).CrossRef Google Scholar

Karuza, E. A., Kahn, A. E., Thompson-Schill, S. L., & Bassett, D. S. (2017). Process reveals structure: How a network is traversed mediates expectations about its architecture. Scientific Reports, 7(1), 1–9.Google Scholar

Karuza, E. A., Thompson-Schill, S. L., & Bassett, D. S. (2016). Local patterns to global architectures: Influences of network topology on human learning. Trends in Cognitive Sciences, 20(8), 629–640.CrossRef Google Scholar PubMed

Kashdan, T. B., & Steger, M. F. (2007). Curiosity and pathways to well-being and meaning in life: Traits, states, and everyday behaviors. Motivation and emotion, 31(3), 159–173.Google Scholar

Kashdan, T. B., Gallagher, M. W., Silvia, P. J., Winterstein, B. P., Breen, W. E., Terhar, D., & Steger, M. F. (2009). The curiosity and exploration inventory-ii: Development, factor structure, and psychometrics. Journal of Research in Personality, 43(6), 987–998.Google Scholar

Kashdan, T. B., Stiksma, M. C., Disabato, D. J., McKnight, P. E., Bekier, J., Kaji, J., & Lazarus, R. (2018). The five-dimensional curiosity scale: Capturing the bandwidth of curiosity and identifying four unique subgroups of curious people. Journal of Research in Personality, 73, 130–149.Google Scholar

Kemp, C., & Tenenbaum, J. B. (2008). The discovery of structural form. Proceedings of the National Academy of Sciences, 105(31), 10687–10692.Google Scholar

Kidd, C., & Hayden, B. Y. (2015). The psychology and neuroscience of curiosity. Neuron, 88(3), 449–460.Google Scholar

Kim, J. Z., Lu, Z., & Bassett, D. S. (2019a). Design of large sequential conformational change in mechanical networks. arXiv, 1906, 08400.Google Scholar

Kim, J. Z., Lu, Z., Strogatz, S. H., & Bassett, D. S. (2019b). Conformational control of mechanical networks. Nature Physics, 15, 714–720.CrossRef Google Scholar

Larson, R., & Csikszentmihalyi, M. (2014). The experience sampling method. In Flow and the foundations of positive psychology (pp. 21–34). Springer. https://link.springer.com/book/10.1007/978-94-017-9088-8.Google Scholar

León, C. (2020). Curious entanglements: Opacity and ethical relation in Latina/or aesthetics. In Zurn, P. and Shankar, A. (Ed.), Curiosity studies: A new ecology of knowledge (pp. 167–187). University of Minnesota Press.CrossRef Google Scholar

Litman, J. A. (2008). Interest and deprivation factors of epistemic curiosity. Personality and Individual Differences, 44(7), 1585–1595.Google Scholar

Litman, J. A., & Jimerson, T. L. (2004). The measurement of curiosity as a feeling of deprivation. Journal of Personality Assessment, 82(2), 147–157.CrossRef Google Scholar PubMed

Loewenstein, G. (1994). The psychology of curiosity: A review and reinterpretation. Psychological Bulletin, 116(1), 75.Google Scholar

Lydon-Staley, D. M., Barnett, I., Satterthwaite, T. D., & Bassett, D. S. (2019a). Digital phenotyping for psychiatry: Accommodating data and theory with network science methodologies. Current Opinion in Biomedical Engineering, 9, 8–13.Google Scholar

Lydon-Staley, D. M., Falk, E. B., & Bassett, D. S. (2019b). Within-person variability in sensation-seeking during daily life: Positive associations with alcohol use and self-defined risky behaviors. Psychology of Addictive Behaviors, 34(2), 257–268.Google Scholar

Lydon-Staley, D. M., Zhou, D., Blevins, A. S., Zurn, P., & Bassett, D. S. (2019c). Hunters, busybodies, and the knowledge network building associated with curiosity. Nature Human Behavior, 6(3), 327–336.Google Scholar

Lydon-Staley, D. M., Zurn, P., & Bassett, D. S. (2019d). Within-person variability in curiosity during daily life and associations with well-being. Journal of Personality, 88(4), 625–641.Google Scholar

Lynn, C. W., & Bassett, D. S. (2020). How humans learn and represent networks. Proceedings of the National Academy of Sciences of the United States of America, 117(47), 29407–29415.Google Scholar

Lynn, C. W., & Bassett, D. S. (2021). Quantifying the compressibility of complex networks. Proceedings of the National Academy of Sciences 118(32): e2023473118. https://doi.org/10.1073/pnas.2023473118.Google Scholar

Lynn, C. W., Kahn, A. E., & Bassett, D. S. (2020). Abstract representations of events arise from mental errors in learning and memory. Nature Communications, 11(1), 2313.Google Scholar

Lynn, C. W., Papadopoulos, L., Kahn, A. E., & Bassett, D. S. (2020). Human information processing in complex networks. Nature Physics, 16, 965–973. https://doi.org/10.1038/s41567-020-0924-7.Google Scholar

Maliniak, D., Powers, R., & Walter, B. F. (2013). The gender citation gap in international relations. International Organization, 67(4), 889–922. https://doi.org/10.1017/S0020818313000209.Google Scholar

Margulies, D. S., Ghosh, S. S., Goulas, A., Falkiewicz, M., Huntenburg, J. M., Langs, G., Bezgin, G., … et al. (2016). Situating the default-mode network along a principal gradient of macroscale cortical organization. Proceedings of the National Academy of Sciences, 113(44), 12574–12579.Google Scholar

Mitchell, S. M., Lange, S., & Brus, H. (2013). Gendered citation patterns in international relations journals. International Studies Perspectives, 14(4), 485–492. https://doi.org/10.1111/insp.12026.Google Scholar

Mott, C., & Cockayne, D. (2017). Citation matters: Mobilizing the politics of citation toward a practice of “conscientious engagement.” Gender, Place and Culture, 24(7), 954–973.Google Scholar

Nietzsche, F. W. (1886/1989). Beyond good and evil. Random House.Google Scholar

Ocko, S. A., Hardcastle, K., Giocomo, L. M., & Ganguli, S. (2018). Emergent elasticity in the neural code for space. Proceedings of the National Academy of Sciences, 115(50), E11798–E11806.Google Scholar

Onnela, J.-P., Saramäki, J., Kertész, J., & Kaski, K. (2005). Intensity and coherence of motifs in weighted complex networks. Physical Review E, 71(6), 065103.Google Scholar

Oudeyer, P.-Y. (2018). Computational theories of curiosity-driven learning. In Gordon, G. (Ed.), The new science of curiosity (pp. 43–72). Nova Science Publishers.Google Scholar

Oudeyer, P.-Y., Gottlieb, J., & Lopes, M. (2016). Intrinsic motivation, curiosity, and learning: Theory and applications in educational technologies. In Progress in brain research (Vol. 229, pp. 257–284). Elsevier.Google Scholar

Pekrun, R. (2019). The murky distinction between curiosity and interest: State of the art and future prospects. Educational Psychology Review, 31(4), 905–914.Google Scholar

Plutarch, . (2005). On being a busybody. In Moralia VI (pp. 473–517). Harvard University Press.Google Scholar

Reeves, B., Ram, N., Robinson, T. N., Cummings, J. J., Giles, C. L., Pan, J., Chiatti, A., … & others. (2019). Screenomics: A framework to capture and analyze personal life experiences and the ways that technology shapes them. Human–Computer Interaction, 1–52.Google Scholar

Reio, T. G., & Callahan, J. L. (2004). Affect, curiosity, and socialization-related learning: A path analysis of antecedents to job performance. Journal of Business and Psychology, 19(1), 3–22.CrossRef Google Scholar

Rodrigue, J. R., Olson, K. R., & Markley, R. P. (1987). Induced mood and curiosity. Cognitive Therapy and Research, 11(1), 101–106.Google Scholar

Rossiter, M. W. (1993). The Matthew/Matilda Effect in science. Social Studies of Science, 23(2), 325–341.Google Scholar

Rousseau, J.-J. (1762; 1909). Emile. Appleton & Company.Google Scholar

Schapiro, A. C., Rogers, T. T., Cordova, N. I., Turk-Browne, N. B., & Botvinick, M. M. (2013). Neural representations of events arise from temporal community structure. Nature Neuroscience, 16(4), 486–492.Google Scholar

Schapiro, A. C., Turk-Browne, N. B., Botvinick, M. M., & Norman, K. A. (2017). Complementary learning systems within the hippocampus: A neural network modelling approach to reconciling episodic memory with statistical learning. Philosophical Transactions of the Royal Society B: Biological Sciences, 372(1711), 20160049.Google Scholar

Schmidhuber, J. (2008). Driven by compression progress: A simple principle explains essential aspects of subjective beauty, novelty, surprise, interestingness, attention, curiosity, creativity, art, science, music, jokes. Workshop on Anticipatory Behavior in Adaptive Learning Systems, 48–76. https://link.springer.com/chapter/10.1007/978-3-642-02565-5_4.Google Scholar

Scholtes, I. (2017). When is a network a network? Multi-order graphical model selection in pathways and temporal networks. Proceedings of the 23rd ACM Sigkdd International Conference on Knowledge Discovery and Data Mining, 1037–1046. https://dl.acm.org/doi/10.1145/3097983.3098145.Google Scholar

Sizemore, A. E., Karuza, E. A., Giusti, C., & Bassett, D. S. (2018). Knowledge gaps in the early growth of semantic networks. Nature Human Behavior, 2(9), 682–692.Google Scholar

Stachenfeld, K. L., Botvinick, M. M., & Gershman, S. J. (2017). The hippocampus as a predictive map. Nature Neuroscience, 20(11), 1643.Google Scholar

Suárez, L. E., Markello, R. D., Betzel, R. F., & Misic, B. (2020). Linking structure and function in macroscale brain networks. Trends in Cognitive Sciences, 24(4), 302–315.Google Scholar

Swanson, H. (2020). Curious ecologies of knowledge: More-than-human anthropology. In Zurn, P. and Shankar, A. (Eds.), Curiosity studies: A new ecology of knowledge (pp. 15–36). University of Minnesota Press.Google Scholar

Tompson, S. H., Falk, E. B., O’Donnell, M. B., Cascio, C. N., Bayer, J. B., Vettel, J. M., & Bassett, D. S. (2020). Response inhibition in adolescents is moderated by brain connectivity and social network structure. Social Cognitive and Affective Neuroscience, 15(8), 827–837.Google Scholar

Vives, J. L. (1531; 1913). On education. Cambridge University Press.Google Scholar

Watson, L. (2018). Curiosity and inquisitiveness. In Battaly, H. (Ed.), The Routledge handbook of virtue epistemology (pp. 155–166). Routledge.Google Scholar

West, R., & Leskovec, J. (2012). Human wayfinding in information networks. Proceedings of the 21st International Conference on World Wide Web, 619–628. https://dl.acm.org/doi/10.1145/2187836.2187920.Google Scholar

Yonge, C. D., & Philo, . (1854). The works of Philo Judaeus, the contemporary of Josephus (Vol. 1). Bohn.Google Scholar

Zhou, D., Cornblath, E. J., Stiso, J., Teich, E. G., Dworkin, J. D., Blevins, A. S., & Bassett, D. S. (2020a). Gender diversity statement and code notebook v1.0. https://doi.org/10.5281/zenodo.3672110.Google Scholar

Zhou, D., Lydon-Staley, D. M., Zurn, P., & Bassett, D. S. (2020b). The growth and form of knowledge networks by kinesthetic curiosity. Current Opinion in Behavirioral Sciences, 35, 125–134. https://doi.org/10.1016/j.cobeha.2020.09.007.Google Scholar

Zhou, D., Lynn, C. W., Cui, Z., Ciric, R., Baum, G. L., Moore, T. M., Roalf, D. R., … & others. (2020c). Efficient coding in the economics of human brain connectomics. Network Neuroscience.Google Scholar

Zuckerman, M. (1994). Behavioral expressions and biosocial bases of sensation seeking. Cambridge University Press.Google Scholar

Zurn, P. (2019). Busybody, hunter, and dancer: Three historical models of curiosity. In Papastephanou, M. (Ed.), Toward new philosophical explorations of the epistemic desire to know: Just curious about curiosity (pp. 26–49). Cambridge Scholars Press.Google Scholar

Zurn, P. (2021). Curiosity and power: The politics of inquiry. University of Minnesota Press.Google Scholar

Zurn, P., & Bassett, D. S. (2018). On curiosity: A fundamental aspect of personality, a practice of network growth. Personality Neuroscience, 1.Google Scholar

Zurn, P., & Bassett, D. S. (2020). Network architectures supporting learnability. Philosophical Transactions of the Royal Society B, 375(1796), 20190323.CrossRef Google Scholar PubMed

Zurn, P. & Bassett, D. S., (2022). Curious minds: The power of connection. MIT Press.CrossRef Google Scholar

Zurn, P., Bassett, D. S., & Rust, N. C. (2020). The citation diversity statement: A practice of transparency, a way of life. Trends in Cognitive Science, 24(9), 669–672.Google Scholar

Book contents

Chapter 12 - Edgework

Summary

Keywords

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive