TY - GEN
T1 - Influence of human error on structural reliability
AU - Brehm, Eric
AU - Hertle, Robert
AU - Wetzel, Markus
PY - 2017
Y1 - 2017
N2 - In common structural design, random variables, such as material strength or loads, are represented by fixed numbers defined in design codes. This is also referred to as deterministic design. Addressing the random character of these variables directly, the probabilistic design procedure allows the determination of the probability of exceeding a defined limit state. This probability is referred to as failure probability. From there, the structural reliability, representing the survival probability, can be determined. Structural reliability thus is a property of a structure or structural member, depending on the relevant limit states, failure modes and basic variables. This is the basis for the determination of partial safety factors which are, for sake of a simpler design, applied within deterministic design procedures. In addition to the basic variables in terms of material and loads, further basic variables representing the structural model have to be considered. These depend strongly on the experience of the design engineer and the level of detailing of the model. However, in the clear majority of cases [1] failure does not occur due to unexpectedly high or low values of loads or material strength. The most common reasons for failure are human errors in design and execution. This paper will provide practical examples of original designs affected by human error and will assess the impact on structural reliability.
AB - In common structural design, random variables, such as material strength or loads, are represented by fixed numbers defined in design codes. This is also referred to as deterministic design. Addressing the random character of these variables directly, the probabilistic design procedure allows the determination of the probability of exceeding a defined limit state. This probability is referred to as failure probability. From there, the structural reliability, representing the survival probability, can be determined. Structural reliability thus is a property of a structure or structural member, depending on the relevant limit states, failure modes and basic variables. This is the basis for the determination of partial safety factors which are, for sake of a simpler design, applied within deterministic design procedures. In addition to the basic variables in terms of material and loads, further basic variables representing the structural model have to be considered. These depend strongly on the experience of the design engineer and the level of detailing of the model. However, in the clear majority of cases [1] failure does not occur due to unexpectedly high or low values of loads or material strength. The most common reasons for failure are human errors in design and execution. This paper will provide practical examples of original designs affected by human error and will assess the impact on structural reliability.
KW - Design review
KW - Human error
KW - Reliability
KW - Structural failure
UR - http://www.scopus.com/inward/record.url?scp=85021649657&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85021649657
T3 - IABSE Workshop 2017: Ignorance, Uncertainty and Human Errors in Structural Engineering
SP - 24
EP - 30
BT - IABSE Workshop 2017
PB - International Association for Bridge and Structural Engineering (IABSE)
T2 - 5th IABSE Workshop 2017: Ignorance, Uncertainty and Human Errors in Structural Engineering
Y2 - 15 February 2017 through 16 February 2017
ER -