Contemplative neuroaesthetics in architecture: A real-world mobile EEG study in the ancient city of Ghardaïa, Algeria

Nourelhouda Zair; Kenza Boussora; Zakaria Djebbara

doi:10.1016/j.foar.2025.02.001

Front. Archit. Res. ›› 2025, Vol. 14 ›› Issue (5) : 1311 -1327. DOI: 10.1016/j.foar.2025.02.001

RESEARCH ARTICLE

Contemplative neuroaesthetics in architecture: A real-world mobile EEG study in the ancient city of Ghardaïa, Algeria

Author information +

History +

PDF (3271KB)

Abstract

This study investigates the potential of built environments to induce contemplative states, contributing to the emerging field of contemplative neuroaesthetics. While the psychological benefits of these states are well-documented, their relationship with architecture remains underexplored. Using an embodied cognition framework, we explore how architectural features engage the sensorimotor system, fostering contemplative experiences. The ancient city of Ghardaïa, known for its natural harmony and subtle aesthetics, was the case study. Twenty participants, with no prior exposure to the site or architectural background, took part in a real-world experiment. They followed a designated path while equipped with a 32-channel mobile EEG system, smart band, and wide-angle cameras. Subjective feedback was collected via questionnaires. Multiple linear regression revealed that curved pathways significantly reduced Default Mode Network (DMN) activity (β = -0.064; p < 0.0001), suggesting heightened sensorimotor engagement, potentially inducing a contemplative state. Conversely, higher occlusivity, measured through space syntax, correlated with increased DMN activity (β = 0.153; p < 0.009), indicating enclosed spaces promote introspection. Architectural features like corbels, arches, and landmarks also influenced DMN activity, highlighting spatial elements' role in shaping brain dynamics. Future research should examine architectural contexts to clarify these mechanisms, with implications for designing spaces that promote well-being.

Keywords

Externally-induced contemplative states / Default mode network (DMN) / Embodiment / Sensorimotor / 3D isovist / Mobile EEG

Cite this article

Download citation ▾

Nourelhouda Zair, Kenza Boussora, Zakaria Djebbara. Contemplative neuroaesthetics in architecture: A real-world mobile EEG study in the ancient city of Ghardaïa, Algeria. Front. Archit. Res., 2025, 14(5): 1311-1327 DOI:10.1016/j.foar.2025.02.001

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Abdulmawla, A. , Bielik, M. , Buš P. , BuDennemark353; M. , Fuchkina, E. , Miao, Y. , Schneider, S. , Knecht, K. , König, R. , 2017. DeCoding-Spaces toolbox for grasshopper.

[2]	Akara, aime A. , Karaa, S. , Latifoǧlub, F. , Bilgiç V. , 2012. Pectral analysis of photoplethysmographic signals: he importance of preprocessing.

[3]	Alexander, C. , 1979. The Timeless Way of Building. Oxford University Press.

[4]	Benedikt, M.L. , 1979. To take hold of space:isovists and isovist fields. Environ. Plann. Plann. Des. 6, 47- 65.

[5]	Benhassir, S. , Seddiki, H. , 2013. Le M'Zab, Les régions d'Algérie et d'ailleurs. Al Bayazin, Alger.

[6]	Bermudez, J. , Ro, B. , 2012. Extraordinary architectural experiences:comparative study of three paradigmatic cases of sacred spaces—the Pantheon. The Chartres Cathedral and the Chapel of Ronchamp.

[7]	Bermudez, J. , Krizaj, D. , Lipschitz, D.L. , Bueler, C.E. , Rogowska, J. , Yurgelun-Todd, D. , Nakamura, Y. , 2017. Externally-induced meditative states:an exploratory fMRI study of architects' responses to contemplative architecture. Front. Architect. Res. 6, 123- 136.

[8]	Boccia, M. , Piccardi, L. , Guariglia, P. , 2015. The meditative mind: a comprehensive meta-analysis of mri studies. BioMed Res. Int., 419808.

[9]	Bond, K. , Ospina, M.B. , Hooton, N. , Bialy, L. , Dryden, D.M. , Buscemi, N. , Shannahoff-Khalsa, D. , Dusek, J. , Carlson, L.E. , 2009. Defining a complex intervention:the development of demarcation criteria for "meditation". Psychol. Relig. Spirit. 1, 129.

[10]	Breakspear, M. , 2017. Dynamic models of large-scale brain activity. Nat. Neurosci. 20, 340- 352.

[11]	Brewer, J.A. , Worhunsky, P.D. , Gray, J.R. , Tang, Y.Y. , Weber, J. , Kober, H. , 2011. Meditation experience is associated with differences in default mode network activity and connectivity. Proc. Natl. Acad. Sci. U. S. A 108, 20254- 20259.

[12]	Buckner, R.L. , Andrews-Hanna, J.R. , Schacter, D.L. , 2008. The brain's default network:anatomy, function, and relevance to disease. Ann. N. Y. Acad. Sci. 1124, 1- 38.

[13]	Cahn, B.R. , Polich, J. , 2006. Meditation states and traits:EEG, ERP, and neuroimaging studies. Psychol. Bull. 132, 180.

[14]	Charalambous, E. , Djebbara, A.Z. , 2023. On natural attunement:shared rhythms between the brain and the environment (preprint). PsyArXiv.

[15]	Charalambous, E. , Hanna, S. , Penn, A. , 2021. Aha! I know where I am:the contribution of visuospatial cues to reorientation in urban environments. Spatial Cognit. Comput. 21, 197- 234.

[16]	Chen, H. , Li, Y. , Yang, L. , 2024. Creating an endless visual space:an Isovist analysis of a small traditional Chinese garden. Environ. Plan. B: Urban Analytics City Sci.

[17]	Chuquichambi, E.G. , Vartanian, O. , Skov, M. , Corradi, G.B. , Nadal, M. , Silvia, P.J. , Munar, E. , 2022. How universal is preference for visual curvature? A systematic review and metaanalysis. Ann. N. Y. Acad. Sci. 1518, 151- 165.

[18]	Csikszentmihalyi, M. , Csikzentmihaly, M. , 1990. Flow:the Psychology of Optimal Experience. Harper & Row, New York.

[19]	Delorme, A. , Makeig, S. , 2004. EEGLAB:an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis. J. Neurosci. Methods 134, 9- 21.

[20]	Djebbara, Z. , 2023. Naturalistic paradigms: Rich behaviors and environmental features comment on "Beyond simple laboratory studies: Developing sophisticated models to study rich behavior" by Maselli et al. Phys. Life Rev. 47, 151- 153.

[21]	Djebbara, Z. , Jensen, O.B. , Parada, F.J. , Gramann, K. , 2022. Neuroscience and architecture:modulating behavior through sensorimotor responses to the built environment. Neurosci. Biobehav. Rev. 138.

[22]	Djebbara, Z. , King, J. , Ebadi, A. , Nakamura, Y. , Bermudez, J. , 2024. Contemplative neuroaesthetics and architecture:a sensorimotor exploration. Front. Architect. Res. 13, 97- 111.

[23]	Edelstein, E.A. , Macagno, E. , 2012. Form follows function:bridging neuroscience and architecture. In:Rassia, S.Th, Pardalos, P.M.(Eds.), Sustainable Environmental Design in Architecture, Springer Optimization and its Applications. Springer, New York, New York, NY, pp. 27-41.

[24]	Evans, G.W. , McCoy, J.M. , 1998. When buildings don't work:the role of architecture in human health. J. Environ. Psychol. 18, 85- 94.

[25]	Fan, M. , Hedayati Marzbali, M. , Abdullah, A. , Maghsoodi Tilaki, M.J. , 2024. Using a space syntax approach to enhance pedestrians' accessibility and safety in the historic city of George Town, penang. Urban Sci. 8, 6.

[26]	Farb, N.A.S. , Segal, Z.V. , Mayberg, H. , Bean, J. , McKeon, D. , Fatima, Z. , Anderson, A.K. , 2007. Attending to the present:mindfulness meditation reveals distinct neural modes of selfreference. Soc. Cognit. Affect Neurosci. 2, 313- 322.

[27]	Gifford, R. , 2014. Environmental Psychology:Principles and Practice. Optimal Books.

[28]	Gramann, K. , Gwin, J.T. , Ferris, D.P. , Oie, K. , Jung, T.-P. , Lin, C.-T. , Liao, L.-D. , Makeig, S. , 2011. Cognition in action: imaging brain/body dynamics in mobile humans. Rev. Neurosci. 22.

[29]	Greicius, M.D. , Krasnow, B. , Reiss, A.L. , Menon, V. , 2003. Functional connectivity in the resting brain:a network analysis of the default mode hypothesis. Proc. Natl. Acad. Sci. U.S.A. 100, 253- 258.

[30]	Hjortskov, N. , Rissén, D. , Blangsted, A.K. , Fallentin, N. , Lundberg, U. , Søgaard, K. , 2004. The effect of mental stress on heart rate variability and blood pressure during computer work. Eur. J. Appl. Physiol. 92, 84- 89.

[31]	Jaafar, R. , Chung Xian, O. , 2021. Analysis of heart rate variability using wearable device. In:Alfred, R., Iida, H., Haviluddin, H., Anthony, P. (Eds.), Computational Science and Technology, Lecture Notes in Electrical Engineering. Springer, Singapore, pp. 453-461. Singapore.

[32]	Jeli c, A. , Tieri, G. , De Matteis, F. , Babiloni, F. , Vecchiato, G. , 2016. The enactive approach to architectural experience:a neuro-physiological perspective on embodiment, motivation, and affordances. Front. Psychol. 7

[33]	Kaptsevich, O. , 2021. Psychological effects of urban environment visual perception:a systematic review. Psychol. J. Higher School Econ. 18, 575- 597.

[34]	Keng, S.-L. , Smoski, M.J. , Robins, C.J. , 2011. Effects of mindfulness on psychological health:a review of empirical studies. Clin. Psychol. Rev. 31, 1041- 1056.

[35]	Khanna, A. , Pascual-Leone, A. , Michel, C.M. , Farzan, F. , 2015. Microstates in resting-state EEG:current status and future directions. Neurosci. Biobehav. Rev. 49, 105- 113.

[36]	Kim, H.-G. , Cheon, E.-J. , Bai, D.-S. , Lee, Y.H. , Koo, B.-H. , 2018. Stress and heart rate variability:a meta-analysis and review of the literature. Psychiatry Investig 15, 235- 245.

[37]	King, J.L. , Parada, F.J. , 2021. Using mobile brain/body imaging to advance research in arts, health, and related therapeutics. Eur. J. Neurosci. 54, 8364- 8380.

[38]	Klug, M. , Kloosterman, N.A. , 2022. Zapline-plus:a Zapline extension for automatic and adaptive removal of frequency-specific noise artifacts in M/EEG. Hum. Brain Mapp. 43, 2743- 2758.

[39]	Klug, M. , Jeung, S. , Wunderlich, A. , Gehrke, L. , Protzak, J. , Djebbara, Z. , Argubi-Wollesen, A. , Wollesen, B. , Gramann, K. , 2022. The BeMoBIL Pipeline for automated analyses of multi-modal mobile brain and body imaging data (preprint). Neuroscience.

[40]	Koenig, T. , Lehmann, D. , Merlo, M.C.G. , Kochi, K. , Hell, D. , Koukkou, M. , 1999. A deviant EEG brain microstate in acute, neuroleptic-naive schizophrenics at rest. Eur. Arch. Psychiatr. Clin. Neurosci. 249, 205- 211.

[41]	Koenig, T. , Prichep, L. , Lehmann, D. , Sosa, P.V. , Braeker, E. , Kleinlogel, H. , Isenhart, R. , John, E.R. , 2002. Millisecond by millisecond, year by year:normative EEG microstates and developmental stages. Neuroimage 16, 41- 48.

[42]	Kothe, C. , 2014. Lab streaming layer (LSL).

[43]	Krier, L. , 1998. Architecture:Choice or Fate. Papadakis Publisher.

[44]	Ladouce, S. , Donaldson, D.I. , Dudchenko, P.A. , Ietswaart, M. , 2019. Mobile EEG identifies the re-allocation of attention during realworld activity. Sci. Rep. 9, 15851.

[45]	Le Corbusier , 1966. Le corbusier-voyage d'Orient. Forces Vives(Paris).

[46]	Lehmann, D. , Ozaki, H. , Pal, I. , 1987. EEG alpha map series:brain micro-states by space-oriented adaptive segmentation. Electro. Clin. Neurophysiol. 67, 271- 288.

[47]	Lutz, A. , Brefczynski-Lewis, J. , Johnstone, T. , Davidson, R.J. , 2008. Regulation of the neural circuitry of emotion by compassion meditation:effects of meditative expertise. PLoS One 3, e1897.

[48]	Makeig, S. , Gramann, K. , Jung, T.-P. , Sejnowski, T.J. , Poizner, H. , 2009. Linking brain, mind and behavior. Int. J. Psychophysiol. 73, 95- 100.

[49]	Mejía-Mejía, E. , Kyriacou, P.A. , 2023. Effects of noise and filtering strategies on the extraction of pulse rate variability from photoplethysmograms. Biomed. Signal Process Con. 80, 104291.

[50]	Michel, C.M. , Koenig, T. , 2018. EEG microstates as a tool for studying the temporal dynamics of whole-brain neuronal networks: a review. Neuroimage 180, 577- 593.

[51]	Moir, J.A. , 1978. Contemplative Place in Cities (Thesis). Massachusetts Institute of Technology.

[52]	Nanchen, D. , 2018. Resting heart rate:what is normal? Heart 104, 1048- 1049.

[53]	Nash, J.D. , Newberg, A. , 2013. Toward a unifying taxonomy and definition for meditation. Front. Psychol. 4, 806.

[54]	Nenna, F. , Do, C.T. , Protzak, J. , Gramann, K. , 2021. Alteration of brain dynamics during dual-task overground walking. Eur. J. Neurosci. 54, 8158- 8174.

[55]	Noel, J.-P. , Serino, A. , 2023. High action values occur near our body.

[56]	Ottaviani, C. , Couyoumdjian, A. , 2013. Pros and cons of a wandering mind: a prospective study. Front. Psychol. 4.

[57]	Pallasmaa, J. , 2000. Hapticity and time. Architect. Rev. 207, 78- 84.

[58]	Pallasmaa, J. , 2014. Space, place and atmosphere. Emotion and Peripherical Perception in Architectural Experience. Lebenswelt:Aesthetics and Philosophy of Experience.

[59]	Palmer, J.A. , Kreutz-Delgado, K. , Makeig, S. , 2012. AMICA:an Adaptive Mixture of Independent Component Analyzers with Shared Components. Swartz Center for Computatonal Neursoscience, University of California, San Diego, Tech, pp. 1-15.

[60]	Panda, R. , Bharath, R.D. , Upadhyay, N. , Mangalore, S. , Chennu, S. , Rao, S.L. , 2016. Temporal dynamics of the default mode network characterize meditation-induced alterations in consciousness. Front. Hum. Neurosci. 10.

[61]	Pascual-Marqui, R.D. , 2002. Standardized low-resolution brain electromagnetic tomography (sLORETA):technical details. Methods Find Exp. Clin. Pharmacol. 24(Suppl. D), 5- 12.

[62]	Pascual-Marqui, R.D. , Michel, C.M. , Lehmann, D. , 1994. Low resolution electromagnetic tomography:a new method for localizing electrical activity in the brain. Int. J. Psychophysiol. 18, 49- 65.

[63]	Pascual-Marqui, R.D. , Michel, C.M. , Lehmann, D. , 1995. Segmentation of brain electrical activity into microstates:model estimation and validation. IEEE Trans. Biomed. Eng. 42, 658- 665.

[64]	Petruccioli, A. , 2007. After Amnesia. Learning from the Islamic Mediterranean Urban Fabric. ICAR, Italy.

[65]	Pion-Tonachini, L. , Kreutz-Delgado, K. , Makeig, S. , 2019. ICLabel:an automated electroencephalographic independent component classifier, dataset, and website. Neuroimage 198, 181- 197.

[66]	Poerio, G.L. , Totterdell, P. , Miles, E. , 2013. Mind-wandering and negative mood:does one thing really lead to another? Conscious. Cognit. 22, 1412- 1421.

[67]	Pouladfar, P. , Eskandari, R. , 2023. The impact of hierarchy:how different hierarchy scenarios for an entrance affect users' brain dynamics. In: Academy of Neuroscience for Architecture, 20th Anniversary Conference. Academy of Neuroscience for Architecture (ANFA). La Jolla, California, pp. 66-67.

[68]	Poulsen, A.T. , Pedroni, A. , Langer, N. , Hansen, L.K. , 2018. Microstate EEGlab toolbox: an introductory guide.

[69]	Quintana, D.S. , Guastella, A.J. , Outhred, T. , Hickie, I.B. , Kemp, A.H. , 2012. Heart rate variability is associated with emotion recognition:direct evidence for a relationship between the autonomic nervous system and social cognition. Int. J. Psychophysiol. 86, 168- 172.

[70]	Raichle, M.E. , 2015. The brain's default mode network. Annu. Rev. Neurosci. 38, 433- 447.

[71]	Raichle, M.E. , MacLeod, A.M. , Snyder, A.Z. , Powers, W.J. , Gusnard, D.A. , Shulman, G.L. , 2001. A default mode of brain function. Proc. Natl. Acad. Sci. U.S.A. 98, 676- 682.

[72]	Rapoport, A. , 1990. The Meaning of the Built Environment: A Nonverbal Communication Approach. University of Arizona Press.

[73]	Ravereau, André , Fathy, Hassan; , Roche, Manuelle , 1981. Le M'Zab, une leçon d'architecture. Sindbad.

[74]	Redjem, M. , Mazouz, S. , 2022. Spatial and social interaction in medieval Algerian mosques:a morphological analysis using space syntax. Built Heritage 6, 17.

[75]	Reece, R. , Bornioli, A. , Bray, I. , Alford, C. , 2022. Exposure to green and historic urban environments and mental well-being: results from EEG and psychometric outcome measures. IJERPH 19, 13052.

[76]	Ro, B.R. , Bermudez, J. , 2015. Understanding extraordinary architectural experiences through content analysis of written narratives. ENQ 12.

[77]	Sarhaddi, F. , Kazemi, K. , Azimi, I. , Cao, R. , Niela-Vilén, H. , Axelin, A. , Liljeberg, P. , Rahmani, A.M. , 2022. A comprehensive accuracy assessment of Samsung smartwatch heart rate and heart rate variability. PLoS One 17, e0268361.

[78]	Shah, R. , 2009. A Phenomenological Study of Contemplative Experiences:Implications for Interior Design. VDM Verlag.

[79]	Smallwood, J. , Schooler, J.W. , 2015. The science of mind wandering:empirically navigating the stream of consciousness. Annu. Rev. Psychol. 66, 487- 518.

[80]	Sumantry, D. , Stewart, K.E. , 2021. Meditation, mindfulness, and attention:a meta-analysis. Mindfulness 12, 1332- 1349.

[81]	Sun, X. , Li, Z. , 2021. Use of electroencephalography (EEG) for comparing study of the external space perception of traditional and modern commercial districts. J. Asian Architect. Build Eng. 20, 840- 857.

[82]	Sykes, J.J. , 2023. Tools and peripersonal space:an enactive account of bodily space. Phenomenol. Cognitive Sci.

[83]	Tang, Y.-Y. , Hölzel, B.K. , Posner, M.I. , 2015. The neuroscience of mindfulness meditation. Nat. Rev. Neurosci. 16, 213- 225.

[84]	Tarvainen, M.P. , Niskanen, J.-P. , Lipponen, J.A. , Ranta-aho, P.O. , Karjalainen, P.A. , 2014. Kubios HRV — heart rate variability analysis software. Comput. Methods Progr. Biomed. 113, 210- 220.

[85]	Tei, S. , Faber, P.L. , Lehmann, D. , Tsujiuchi, T. , Kumano, H. , Pascual-Marqui, R.D. , Gianotti, L.R.R. , Kochi, K. , 2009. Meditators and non-meditators:EEG source imaging during resting. Brain Topogr. 22, 158- 165.

[86]	Thayer, J.F. , Lane, R.D. , 2009. Claude Bernard and the heart—brain connection:further elaboration of a model of neurovisceral integration. Neurosci. Biobehav. Rev. 33, 81- 88.

[87]

Tomescu, M.I. , Rihs, T.A. , Becker, R. , Britz, J. , Custo, A. , Grouiller, F. , Schneider, M. , Debbané M. , Eliez S. , Michel, C.M. , 2014. Deviant dynamics of EEG resting state pattern in 22q11.2 deletion syndrome adolescents:a vulnerability marker of schizophrenia? Schizophr. Res. 157, 175- 181.

[88]	Vara Sánchez, C. , 2022. Enacting the aesthetic:a model for raw cognitive dynamics. Phenomenol. Cognitive Sci. 21, 317- 339.

[89]	Vara Sánchez, C. , 2023. Aesthetic Rhythms. Mimesis.

[90]	Varela, F.J. Thompson, E. Rosch, E. , 1991. The embodied mind:cognitive science and human experience. The Embodied Mind:Cognitive Science and Human Experience. The MIT Press, Cambridge, MA, US.

[91]	Vartanian, O. , Navarrete, G. , Chatterjee, A. , Fich, L.B. , Leder, H. , Modro, xf, xe, C. , Nadal, M. , Rostrup, N. , Skov, M. , 2013. Impact of contour on aesthetic judgments and approach-avoidance decisions in architecture. Proc. Natl. Acad. Sci. U. S. A. 110, 10446- 10453.

[92]	Westoby, M.J. , Brasington, J. , Glasser, N.F. , Hambrey, M.J. , Reynolds, J.M. , 2012. 'Structure-from-Motion' photogrammetry: a low-cost, effective tool for geoscience applications. Geomorphology 179, 300- 314.

[93]	Yamaoka, A. , Yukawa, S. , 2020. Mind wandering in creative problem-solving: relationships with divergent thinking and mental health. PLoS One 15, e0231946.

[94]	Yu, H. , Samsudin, N.A. , Chen, F. , 2023. Spatial form cognition of historical streets in Hongcun village through a space syntax approach. IOP Conf. Ser. Earth Environ. Sci. 1274, 012024.