TY - JOUR
T1 - Development and application of safety technology adoption decision-making tool
AU - Nnaji, Chukwuma
AU - Gambatese, John
AU - Karakhan, Ali
AU - Osei-Kyei, Robert
PY - 2020
Y1 - 2020
N2 - The need to enhance worker safety in construction has often studied recently due to the high rates of fatalities and injuries in the construction industry. To abate this scourge, various control methods including the use of technology have been adopted to improve workplace safety performance in construction. However, not all of the technologies adopted by industry personnel for safety management have achieved the desired outcome or have proved to be effective. More research is needed regarding the adoption of safety technologies in the construction industry. Importantly, industry stakeholders need to evaluate their readiness to adopt safety technologies. The present study develops a decision-making tool that can aid in the adoption of safety technology in the construction industry. The safety technology decisionmaking adoption tool is developed using the fuzzy synthetic evaluation technique and consists of three categories of safety technology predictors: external, organization, and technology-related. Technology-based predictors have emerged as the most impactful predictor. Subsequently, a technology adoption assessment protocol was developed and applied to a case study to assess an organization’s readiness to adopt wearable sensing devices. The present work contributes to the body of knowledge by identifying, quantifying, and categorizing predictors of technology adoption and then integrating the predictors into an evaluation protocol to assess the adoption of safety technologies in the construction industry. This contribution is translated into practice by developing a user-friendly tool called the Construction Safety Technology Adoption Index (C-STAI). The developed tool is expected to help construction professionals and practitioners make informed decisions regarding the adoption of safety technology. Improved technology adoption in construction is expected to lead to enhanced safety and reduce injuries on construction projects.
AB - The need to enhance worker safety in construction has often studied recently due to the high rates of fatalities and injuries in the construction industry. To abate this scourge, various control methods including the use of technology have been adopted to improve workplace safety performance in construction. However, not all of the technologies adopted by industry personnel for safety management have achieved the desired outcome or have proved to be effective. More research is needed regarding the adoption of safety technologies in the construction industry. Importantly, industry stakeholders need to evaluate their readiness to adopt safety technologies. The present study develops a decision-making tool that can aid in the adoption of safety technology in the construction industry. The safety technology decisionmaking adoption tool is developed using the fuzzy synthetic evaluation technique and consists of three categories of safety technology predictors: external, organization, and technology-related. Technology-based predictors have emerged as the most impactful predictor. Subsequently, a technology adoption assessment protocol was developed and applied to a case study to assess an organization’s readiness to adopt wearable sensing devices. The present work contributes to the body of knowledge by identifying, quantifying, and categorizing predictors of technology adoption and then integrating the predictors into an evaluation protocol to assess the adoption of safety technologies in the construction industry. This contribution is translated into practice by developing a user-friendly tool called the Construction Safety Technology Adoption Index (C-STAI). The developed tool is expected to help construction professionals and practitioners make informed decisions regarding the adoption of safety technology. Improved technology adoption in construction is expected to lead to enhanced safety and reduce injuries on construction projects.
KW - industrial safety
UR - https://hdl.handle.net/1959.7/uws:54634
U2 - 10.1061/(ASCE)CO.1943-7862.0001808
DO - 10.1061/(ASCE)CO.1943-7862.0001808
M3 - Article
VL - 146
JO - Journal of Construction Engineering and Management
JF - Journal of Construction Engineering and Management
IS - 4
M1 - 4020028
ER -