| La encuesta como técnica de investigación. Elaboración de cuestionarios y tratamiento estadístico de los datos (I) JC Anguita, JRR Labrador, JD Campos Atención primaria 31 (8), 527, 2013 | 5013 | 2013 |
| A review of distributed optical fiber sensors for civil engineering applications A Barrias, JR Casas, S Villalba Sensors 16 (5), 748, 2016 | 859 | 2016 |
| A review of recent distributed optical fiber sensors applications for civil engineering structural health monitoring MF Bado, JR Casas Sensors 21 (5), 1818, 2021 | 343 | 2021 |
| Fiber optic sensors for bridge monitoring JR Casas, PJS Cruz Journal of bridge engineering 8 (6), 362-373, 2003 | 341 | 2003 |
| A combined method for measuring cable forces: the cable-stayed Alamillo Bridge, Spain JR Casas Structural Engineering International 4 (4), 235-240, 1994 | 298 | 1994 |
| A state of the art review of modal-based damage detection in bridges: Development, challenges, and solutions JJ Moughty, JR Casas Applied Sciences 7 (5), 510, 2017 | 242 | 2017 |
| Structural damage identification from dynamic-test data JR Casas, AC Aparicio Journal of Structural Engineering 120 (8), 2437-2450, 1994 | 222 | 1994 |
| Application of optical fiber distributed sensing to health monitoring of concrete structures S Villalba, JR Casas Mechanical Systems and Signal Processing 39 (1-2), 441-451, 2013 | 218 | 2013 |
| A comprehensive traffic load model for bridge safety checking C Crespo-Minguillon, JR Casas Structural safety 19 (4), 339-359, 1997 | 199 | 1997 |
| Testing of externally prestressed concrete beams AC Aparicio, G Ramos, JR Casas Engineering structures 24 (1), 73-84, 2002 | 176 | 2002 |
| Structural Health Monitoring with Distributed Optical Fiber Sensors of tunnel lining affected by nearby construction activity J Gómez, JR Casas, S Villalba Automation in Construction 117, 103261, 2020 | 136 | 2020 |
| Bridge damage detection based on vibration data: past and new developments JR Casas, JJ Moughty Frontiers in Built Environment 3, 4, 2017 | 133 | 2017 |
| Embedded distributed optical fiber sensors in reinforced concrete structures—A case study A Barrias, J R. Casas, S Villalba Sensors 18 (4), 980, 2018 | 123 | 2018 |
| Hardened properties of self-compacting concrete—A statistical approach FM Almeida Filho, BE Barragán, JR Casas, ALHC El Debs Construction and Building Materials 24 (9), 1608-1615, 2010 | 112 | 2010 |
| Application of distributed optical fiber sensors for the health monitoring of two real structures in Barcelona A Barrias, G Rodriguez, JR Casas, S Villalba Structure and Infrastructure Engineering 14 (7), 967-985, 2018 | 111 | 2018 |
| Digital twin for civil engineering systems: An exploratory review for distributed sensing updating MF Bado, D Tonelli, F Poli, D Zonta, JR Casas Sensors 22 (9), 3168, 2022 | 108 | 2022 |
| Cracking assessment in concrete structures by distributed optical fiber G Rodríguez, JR Casas, S Villaba Smart Materials and Structures 24 (3), 035005, 2015 | 93 | 2015 |
| Study of the compressive behavior of concrete confined by fiber reinforced composites C Aire, R Gettu, JR Casas carbon 1, 239-243, 2001 | 84 | 2001 |
| A direct displacement-based method for the seismic design of bridges on bi-linear isolation devices M Jara, JR Casas Engineering structures 28 (6), 869-879, 2006 | 82 | 2006 |
| Diagnostic load testing and assessment of existing bridges: examples of application P Olaszek, M Łagoda, JR Casas Structure and Infrastructure Engineering 10 (6), 834-842, 2014 | 80 | 2014 |
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