Comparison of Hemodynamic Brain Responses Between Big Wave Surfers and Non-big Wave Surfers During Affective Image Presentation by Mary Showstark, Ryan Bahadursingh, Sheng Zhang, Adam Fry, Barbara Kozminski, Per Lundstam, David Putrino

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Surfing the technology wave: An international perspective on enhancing teaching and learning in accounting by Maryam Omer Madhaffar Al Ghatrifi, Jawaher Salim Sultan Al Amairi, Mohammed Muneerali Thottoli

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Surfing on Fitness Landscapes: A Boost on Optimization by Fourier Surrogate Modeling by Luca Manzoni, Daniele M. Papetti, Paolo Cazzaniga, Simone Spolaor, Giancarlo Mauri, Daniela Besozzi, Marco S. Nobile

“…Surfing in rough waters is not always as fun as wave riding the “big one”. …”
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Acoustic wave propagation in rivers: an experimental study by T. Geay, L. Michel, L. Michel, S. Zanker, J. R. Rigby

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Pull and Push Drivers of Giant-Wave Spectators in Nazaré, Portugal: A Cultural Ecosystem Services Assessment Based on Geo-Tagged Photos by António Azevedo

“…The paper also proposes a theoretical framework that highlights the pull drivers (risk recreation, storm chasing, or spectacular death voyeurism) and the push drivers (e.g., marketing campaigns and wave forecasts alerts) that explain the behaviors of the big-wave spectators/chasers during the experience journey. …”
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Autism in the family : caring and coping together / by Naseef, Robert A., author

Numerical simulation of detached breakwaters for mangrove restoration in Bengkalis Island, Indonesia by Mubarak, Sutikno Sigit, Defarian Alvin, Murakami Keisuke, Yamamoto Koichi

“…Initial planting of mangroves still needs seawater for their growth, but they will be distracted by the big wave. How is the detached breakwater should be designed for this purpose is the objective of this research. …”
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Emerging Downdrift Erosion by Twin Long-Range Jetties on an Open Mesotidal Muddy Coast, China by Yu-Hai Wang, Yan-Hong Wang, An-Jun Deng, Hao-Chuan Feng, Dang-Wei Wang, Chuan-Sheng Guo

“…Using FVCOM and SWAN, 2DH process-based numerical simulations are performed to simulate the flow, the sediment transport, and the yearly-magnitude accretion/erosion distribution in the jetty-affected area by a representative tidal force and an annual-magnitude wave force. The results demonstrate that the reciprocal tidal flow is predominantly responsible for the muddy sediment accretions at downdrift intertidal and surf zones shallower than a 4.0-m isobath, whereas big wind waves play a decisive role in triggering and developing the downdrift erosional process. …”
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