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Ergonomic practices significantly enhance productivity, reduce injuries and improve worker satisfaction in construction sites. However, a key issue in the Nigerian construction industry is the limited awareness and implementation of these practices. This study addresses this issue by raising awareness and driving ergonomic improvements to advance occupational health and safety standards.

A quantitative research method was employed, using close-ended questionnaires distributed to construction professionals, including architects, builders, engineers and quantity surveyors. The data collected were analyzed through statistical tools such as percentages, frequencies and mean scores. The Kruskal–Wallis H-test was used to determine significant differences in respondents’ opinions.

The study found that construction professionals have limited knowledge of ergonomic practices, and the implementation of these practices within the industry is minimal, raising concerns about occupational health and safety.

This article provides a comprehensive roadmap for developing economies like Nigeria to improve the understanding of ergonomic practices among construction professionals. It also outlines how collaborative efforts among key stakeholders, including higher education institutions, government, policymakers, lawmakers, financial institutions and professional bodies, can enhance the awareness and implementation of these innovative practices.

While extensive research has been conducted on ergonomic practices in developed countries, few studies have examined their awareness and implementation in developing nations, particularly Nigeria. This study addresses this gap from the perspective of construction professionals.

Despite the global shift toward smart building features and technologies, the level of awareness among stakeholders in Nigeria’s construction sector remains unclear, limiting engagement with these innovations. This study examines the awareness of smart building features and technologies, providing insights to address knowledge gaps and improve understanding within the sector.

This study adopted the quantitative research approach, using a questionnaire survey to obtain data from construction stakeholders that were purposively selected in Lagos State and Abuja, Nigeria. The collected data were analyzed using various statistical tools such as frequencies, percentiles, mean item scores, standard deviation and the Mann–Whitney U test.

From the result of the analysis, the study concluded that the most cognizant smart building features and technology were security doors, escalators and lifts, solar panels and energy-saving equipment, fire alarms, heating, ventilation, air and conditioning.

This study provides insights into the awareness of smart building features and technologies among Nigerian construction stakeholders, bridging theory and practice. It informs policy development, enhances professional knowledge and promotes educational initiatives. Its findings support sustainable construction efforts, potentially improving societal attitudes and quality of life.

This study uniquely explores the level of awareness of smart building features and technologies among clients and professionals in Nigeria’s construction sector. Identifying existing knowledge gaps provides critical insights that can guide efforts to enhance understanding and foster deeper engagement with these innovations.

The main aim of this research study is to comprehensively evaluate the level of awareness and practical implementation of mechatronic technologies in developing countries, with a particular emphasis on their application within the Nigerian construction industry.

Using a quantitative framework, this study uses a well-structured questionnaire that was administered to professionals within the Nigerian construction industry. Subsequently, the obtained data was subjected to in-depth analysis such as mean values and standard deviations, utilization of the Kruskal–Wallis H-test and application of the Shapiro-Wilk normality test.

Results from the study revealed a relatively fair level of awareness and implementation of mechatronic technologies among Nigerian construction professionals. Among the 22 mechatronic technologies surveyed, respondents exhibited considerable awareness and implementation of only a few, underscoring the imperative for further initiatives to enhance awareness of these technologies.

By focusing on a developing country context and specifically addressing the construction sector, this research offers novel insights into the opportunities associated with adopting advanced technological solutions in a unique setting. The findings of this study provide a foundation for future discussions, strategies and interventions aimed at fostering the integration of mechatronic technologies in similar contexts.

The purpose of this study is to investigate the obstacles to mechatronics adoption in the construction industry from a Nigerian perspective. It aims to fill the knowledge gap by focusing on the specific challenges faced in developing countries, considering the unique contexts and constraints of the Nigerian construction industry.

The study used a comprehensive literature review to identify 26 obstacles to mechatronics adoption. These obstacles were used to develop a well-structured questionnaire, which was then distributed to construction professionals using Google Forms through purposive and snowball sampling techniques. The rankings obtained from the questionnaire responses were analyzed to determine the most significant obstacles.

The study revealed the top five most significant obstacles to mechatronics adoption in the Nigerian construction industry. These obstacles include high costs of operation and maintenance, resistance to adopting new technologies, a lack of standardized protocols, insufficient maintenance capabilities and a lack of government support. Factor analysis revealed five clusters of obstacles: technological-related factors, economic-related factors, capability-related factors, government-related factors and awareness-related factors.

Findings from this study have the potential to inform decision-making, drive policy changes and guide future research efforts aimed at promoting the widespread adoption of mechatronics technologies, ultimately leading to the transformation and improvement of the construction industry as a whole.

This study contributes to the field of mechatronics adoption in the construction industry by addressing the gap in research specific to developing countries such as Nigeria. By identifying and analyzing the obstacles from a Nigerian perspective, the study offers unique insights and original findings.