Aims

The idea behind Reliability Engineering and Resilience is to answer the safety problems concerns which may refer to a component or complex systems. The reliability engineering attempts to measure the safety of the structure, stipulate the minimum required safe margin, and propose methods and tools to implement the optimum safety level of a component or systems. Also, the resilience attempts to provide a mechanism to avoid an undesired failure. The focus of this journal is on applications of reliability engineering and resilience methods in several problems.

Scope

Domains of applications include a broad range of engineering and technology scopes consisting of structural, aerospace, biomechanical, mechanical, and electrical engineering. Articles submitted to this journal could also be concerned about the most significant recent developments on the topics of probabilistic approaches in engineering. The journal also provides a forum where engineering researchers can achieve information on relevant new developments in structural reliability and residence. We encourage the submission of manuscripts that make an authentic reliability and resilience contribution to a challenging engineering problem.

Typical areas of interest could be listed as below:

  • Structural Reliability
  • Reliability Analysis
  • Resilience Metrics
  • System Reliability
  • Failure Probability
  • Structural Safety
  • Target Reliability
  • Fragility Assessment
  • Life-Cycle Prediction
  • Stochastic and Statistical Analysis of Structural Resistance and Material
  • Probabilistic Design Approaches
  • Data Selection
  • Risk Assessment
  • Forensic Engineering
  • Probabilistic-Based Design Code Development
  • Structural Simulation
  • Uncertainties Evaluation of Fabrication, Material, and Professional
  • Structural and Infrastructural Safety
  • Uncertainties Evaluation of Loads and Loading Conditions
  • Human Error
  • Test and Maintenance Policies
  • Sensitivity Analysis
  • Aerospace and Electrical System Reliability