Featured Research
- Researchers develop a stochastic formulation to evaluate the sustainability of structural systems
- Researchers identify the disaster consequences that matter the most for societal wellbeing
- Researchers develop probabilistic models to predict the strength and the elastic reduction factors of rubberized concrete
- Researchers develop a novel formulation to select the modeling resolution of infrastructure
- Researchers develop new probabilistic geospatial models to measure the role of transportation infrastructure on the impact of natural hazards on communities
- Researchers develop the new state-of-the-art in mathematical modeling of interdependent infrastructure
- Researchers develop new probabilistic models to predict time-varying reliability and resilience of deteriorating infrastructure
- Researchers develop new probabilistic models to predict the peak parameters of blast loading and quantify the failure probability of a steel column under varying blast intensities, axial load and charge weight
- Researchers develop a new method for regional resilience analysis and optimizing the resilience of interdependent infrastructure
- Researchers at the MAE center develop new conditional formulations for the calibration of multi-level spatial random fields when data are incomplete
- Team develops novel multi-level random field formulations for the modeling and reliability analysis of engineering systems
- Researchers investigate the seismic performance of precast segmental bridge columns repaired with CFRP wraps
- Researchers develop a novel physics-based probabilistic formulation that has the rigor of differential equations and convenience of analytical models
- Researchers develop the first orthogonal classification and a mathematical modeling of infrastructure interdependencies
- The new hurricane season is incoming, let’s be prepared! The center develops a probabilistic formulation for storm surge predictions
- Researchers investigate the possibility to protect objects of art and freestanding equipment from earthquakes by using dynamic absorbers
- Promoting the resilience of infrastructure? Researchers develop a mathematical formulation to estimate the probability of exceeding a target level of recovery
- Risk assessment for business continuity: a novel ground-up approach to estimate the likelihood of business interruption
- Team develops a novel risk-based formulation for CAT bond pricing
- Team develops a bayesian formulation to predict normal and shear stiffness in weak sedimentary rocks
- Team develops probabilistc models for seismic safety of rigid block like elements
- Team develops a load-transfer function for drilled shafts
- Team develops a bayesian formulation for predicting the strength of intact rocks
- Team develops methodology for incorporating big data analytics into models for the societal impact of natural hazards
- Guidotti et al. (2019) develop a comprehensive probabilistic model to integrate physical infrastructure and social systems
- Team develops a physics based method for the baseline correction of ground motions
- Team illustrates the use of baseline corrected strong motions to measure coseismic deformation of the Hualien earthquake
- Team develops a new method for evaluating the peak side resistance for rock socketed shafts
- Team develops a new method for deriving acceleration and displacement design spectra
- Team develops a new formulation for societal risk and resilience analysis capturing the dynamics of infrastructure-social systems
- Center develops directional search algorithm for hierarchical model development and selection
- Team develops a model to predict fatality rates due to earthquakes
- Team develops a procedure for simulating synthetic main shock‐aftershock ground motion sequences
- MAE Center puts forward a new design paradigm: Society-Based Design
- The role of social justice in defining resilience
- Center’s researchers develop a simulation approach for performance estimation of deteriorating systems
- Center’s researchers develop a general stochastic framework for deterioration modeling
- Team develops new formulations for non-stationary spatial-temporal random fields
- Experts give earthquake warning
- Center’s researchers work on high-pass filter cutoff period of ground motions
- Team develops new mathematical formulations for resilience analysis and recovery modeling
- Team develops a reliability-based capability approach to quantify the societal impact of a hazard
- Team develops new formulation for network reliability analysis
- NIST-funded research leads to new formulation for modeling the resilience of critical infrastructure
- Gardoni contributes to the development of a virtual community to study resilience
- Team Receives Grant to Tackle Food Security, Infrastructure Issues