Can ChatGPT exceed humans in construction project risk management?

1. Introduction

The radical emergence of Artificial Intelligence (AI) has initiated a paradigm shift across multiple industries, recalibrating conventional modes of operation and harnessing innovative potential (Chui et al., 2023; Eloundou et al., 2023). One emerging beneficiary of this technological evolution is the construction industry, which has historically been associated with volatility, unpredictability, and inherent risk (Smith et al., 2006; Project Management Institute, 2016).

In light of these challenges, the concept of construction project risk management (CPRM) has long played a key role in ensuring project success. Modern CPRM methods require intricate planning, systematic assessment, and comprehensive control measures (Project Management Institute, 2016; International Organization for Standardization, 2018). However, despite advances, traditional CPRM practices often fall short in their efficiency and accuracy, a void that AI promises to fill.

Recent research indicates that AI's application in construction project management, particularly in CPRM, could significantly enhance efficiency and accuracy, pointing to a new era of advancements (Abioye et al., 2021). However, comprehensive investigations into AI's role in CPRM are still rising (Zhao, 2022).

Previous studies, often using less advanced models like GPT-3.5, show varied results and potential biases due to non-anonymous author evaluations or focus groups (Aladağ, 2023; Barcaui and Monat, 2023; Hofert, 2023). This highlights the necessity for more objective methods, such as blind reviews, to validate AI capabilities in this domain (Shoham and Pitman, 2020; Monaghan et al., 2021). The majority of existing literature pre-dates significant developments like ChatGPT's June 2022 and GPT-4's March 2023 releases (Abioye et al., 2021).

This study aims to fill this research gap, exploring the ability of OpenAI's GPT-4-based model, ChatGPT, to outperform human experts in CPRM. The GPT-4 model's ability to understand and generate human-like text (OpenAI, 2023) provides a unique lens to examine the potential for AI applications in risk management. Additionally, this study utilizes a CPRM test, with anonymous blind peer-reviews to determine AI and human capabilities, enhancing the objective comprehension of AI capabilities in CPRM.

The objective of this study was to explore the capabilities of AI, specifically ChatGPT (GPT-4), in performing CPRM with a focus on risk identification, risk analysis, and risk control compared to human professionals (International Organization for Standardization, 2018). To achieve this objective, we designed an empirical skills test that was used to gather responses both from ChatGPT (GPT-4) and human experts through a series of CPRM-related questions. These tasks revolved around a simulated case project, providing a unique dataset that could be used for a comparison of generative AI and human performance in CPRM through an anonymous peer review process.

Interestingly, the results of our research revealed indications of the superiority of ChatGPT over human experts in the test comparison. This finding undermines the narrative of human dominance in complex decision-making tasks and reveals the potential of generative AI to support traditional CPRM processes alongside human experts.

The implications of this study are profound and far-reaching. Our research suggests that AI solutions, such as ChatGPT (GPT-4), can serve as powerful tools to augment and refine existing risk management protocols. This use indicates the potential to bring greater precision, efficiency, and effectiveness to the process, enabling more informed decision-making and risk control when its limitations are properly addressed.

This paper serves as both a report of the research findings and a call to the building industry to further investigate the practical uses of AI in construction management. The research uncovers AI's abilities in the CPRM compared to human professionals through anonymous peer review and challenges the status quo by offering insights into a new AI-powered risk management approach to build a safer, more predictable, and less risky future.

2. Literature background

The past few decades have witnessed the remarkable rise of artificial intelligence (AI) from the realm of science fiction to the heart of numerous professional fields (Chui et al., 2023). Its ability to learn, adapt, and emulate human cognitive functions has evolved exponentially, driven by advances in machine learning, neural networks, and natural language processing (Eloundou et al., 2023; OpenAI, 2023). The potential for AI to revolutionize traditional industries is vast, and its impact on improving efficiency, precision, and productivity has been lauded by businesses (Chui et al., 2023) and academic circles (Abioye et al., 2021; Bolpagni et al., 2021).

At the same time, the construction industry, which has often been criticized for its resistance to innovation, faces persistent challenges (Liu et al., 2018; Akinosho et al., 2020; Bolpagni et al., 2021). In particular, risk management in construction projects remains fraught with uncertainty due to complexities related to various aspects such as logistics, planning, safety, budget, and schedule constraints (Project Management Institute, 2016). Traditional risk management methods, such as checklists, judgmental heuristics, and sensitivity analysis, have been unable to fully mitigate these risks due to their inherent limitations (Chapman and Ward, 2011; Maldonato and Dell'Orco, 2011).

Moreover, challenges in managing uncertainty and risk significantly have hindered the effectiveness of project management. This issue is reflected in the high rate of project failures; surveys reveal that 37% of projects have significantly missed their budget and or schedule performance targets due to lack of effective risk management (Armstrong et al., 2023). Furthermore, particularly large-scale projects often run up to 80% over budget and exceed their scheduled timelines by 20% (Agarwal et al., 2016).

This trend is not confined to a specific sector; it spans various industries, with 12% of projects classified as failures and 65% not meeting their scheduled completion times (Project Management Institute, 2021). The statistics underscore the difficulty in predicting and controlling project variables, highlighting the need for more effective project risk management.

To address the aforementioned problems, various CPRM methods have been developed, such as deep learning (Akinosho et al., 2020), Bayesian network-based methods (Arabi et al., 2022), and uncertainty network modeling (Nyqvist et al., 2024). However, the existing methods have not yet been able to significantly transform the construction industry performance, and performance problems persist (Agarwal et al., 2016; Project Management Institute, 2021).

However, novel technologies around generative AI have emerged that indicate potential to address the challenges. Research has highlighted the capabilities of novel AI technologies (e.g. ChatGPT, Gemini, and Llama) in their ability to analyze extensive datasets, identify complex patterns, and generate insights (OpenAI, 2023; Touvron et al., 2023, Google, 2023), indicating potential also in application within CPRM.

Therefore, the intersection of AI and CPRM provides a fertile area for research and innovation. A handful of studies have examined the application of AI to specific tasks in the construction domain, such as planning, scheduling, and cost estimation (Abioye et al., 2021; Zhao, 2022; Aladağ, 2023; Rane, 2023).

Generally, the early work using AI in construction risk management has been promising, highlighting the technology's ability to identify, analyze, and mitigate risks more effectively than traditional methods (Abioye et al., 2021; Kamari and Ham, 2022).

In a recent study, Aladağ (2023) used non-anonymous expert focus groups to determine the accuracy of ChatGPT (GPT-3.5 demo version) in CPRM. The findings indicated a moderate level of performance in managing risks. Furthermore, outside of construction projects, ChatGPT proficiency in risk management has been investigated with generally positive, but mixed results through author evaluation (Barcaui and Monat, 2023; Hofert, 2023).

These studies suggest that AI can add a layer of sophistication and accuracy to risk management. However, research on large language models and generative AI, such as ChatGPT, has been scarce in the CPRM context (Abioye et al., 2021; Zhao, 2022; Aladağ, 2023) and a full revelation of the potential and limitations of AI for CPRM has been largely uncovered (Klepo et al., 2023) as the majority of publication predate the publication of ChatGPTs GPT-3 2022 and GPT-4 2023, indicating a that the general novelty of the research topic persists.

The existing studies are not comprehensively representative of the GPT-4 model capabilities in CPRM (OpenAI, 2023), with authors such as Aladağ (2023) and Hofert (2023) utilizing the less powerful GPT-3.5 model. Additionally, the used research methods pose potentially biased results, due to reliance on author evaluations (Barcaui and Monat, 2023; Hofert, 2023), or non-anonymous focus groups evaluations (Aladağ, 2023) indicating a need for additional anonymous reviews to confirm the findings (Shoham and Pitman, 2020; Monaghan et al., 2021).

Therefore, despite the growing progress of AI applications in the construction industry (Abioye et al., 2021; Zhao, 2022, Ghimire et al., 2023), the full extent of its transformative potential has remained shrouded in uncertainty, posing a persisting knowledge gap on the measurement of AI capabilities. The general understanding of how generative AI solutions, such as ChatGPT, could be used to revolutionize CPRM is still insufficient. A deeper dive into this topic could provide a more nuanced understanding of the potential practical and managerial applications and limitations of AI.

In conclusion, the confluence of AI and CPRM represents an exciting frontier for research and innovation. Through rigorous exploration and testing, the industry can uncover the transformative potential of AI and capitalize on the opportunities it presents. In doing so, we can shift the paradigm of CPRM and create a more resilient, efficient, and forward-looking industry. In the following sections, this study aims to contribute to this expanding discourse and shed light on the potential of generative AI-powered solutions in CPRM.

3. Research design and methods

This study used a mixed-methods approach pitting the AI solution, ChatGPT GPT-4, against human experts in the field of CPRM through a test, where participants answer a series of questions related to the risk management of a simulated case project. After answering, all of the responses were anonymized and peer-reviewed by other research participants to provide data that was then analyzed by the lead author, both qualitatively and quantitatively, to provide answers to the research question “Can ChatGPT exceed humans in construction project risk management?”

Blind peer review was chosen to provide an objective approach because of its robust reliability in areas such as scientific publishing (Shoham and Pitman, 2020) and medical testing (Monaghan et al., 2021).

This research process, as illustrated below in Figure 1, was developed to ensure the validity and reliability of the findings, the research paid careful attention to the design and validation of the test questions. The goal was to create a robust measure of risk management capability close to a real-world situation, where bias towards or against AI or human responses could be mitigated through anonymous peer review.

In Phase 1, human participants were selected from different Finnish construction companies, reflecting a diversity of experiences and perspectives while being able to test the advantages of localized knowledge in the following test to indicate AI capabilities in a simulated real-world case.

As the AI participant, ChatGPT GPT-4 was chosen, as it functions as a generative AI, capable of generating text based on the user's prompts, and due to its leading position in the field of generative AI solutions during the research conducted in the spring of 2023.

The focus of the research was a case project carefully designed to emulate the real-life situation and complexities encountered in CPRM to showcase human and AI capabilities in a valid, realistic setting. The case project was tailored to include region-specific information and to replicate scenarios where local experts (e.g. human participants) might have an advantage. The full case project description goes as follows: You are the main contractor in a renovation project of a medium-sized health center in Helsinki. The site is located in a densely populated area in Töölö. The building was originally built in the 1930s but has been renovated several times during its life cycle. The area to be renovated covers an area of approximately 4,500 m2. The renovation project is being commissioned by a financially sound company with which you have a fixed-price contract for the renovation work. The contract stipulates that the entire renovation work is to be carried out in 2024. A special feature of the project is that part of the premises will remain in use as a health center during the project.

The case project description was created to simulate a real construction project with specific details such as construction type, location, size, age of the building, contract type, client details (i.e. financial status), building use, and special constraints associated with the project. The case characteristics were chosen to encourage responses that capture the real-world complexities and intricacies of CPRM, as opposed to generic responses.

Next, in Phase 2 the test was conducted around the case project, with both human experts and ChatGPT answering a series of questions about the case project, through an online questionnaire. These included the following series of questions: First, respondent information, including name, position and years of experience. Second, identify and list what are the potential risks to the project? Third, which of these risks are the most critical? Could you analyze them? Third, tell us what are you doing to control these critical risks?

The questions were designed to simulate three key risk management steps, risk identification, risk analysis, and risk control. The baseline data provided to answer these questions was identical for both the human experts and ChatGPT.

The study generated a total of 16 responses from the human experts, initially chosen to respond based on their relevant experience towards CPRM (see Table 1 for respondent information including respondent titles, and experience), and one AI response by ChatGPT using the GPT-4 model. The test introduction, case descriptions, and all of the responses were generated in Finnish to fit the human respondent's native language.

Upon receipt of the responses, all were anonymized to ensure confidentiality and then redistributed among the participants. Each participant received a package containing two randomly selected human responses, excluding their own, and one response generated by ChatGPT. The participants were not given information on whether responses were given by humans of ChatGPT. All participants had given informed consent for their responses to be used and were assured of their anonymity throughout the process.

A total of 19 voluntary human expert reviewers and ChatGPT GPT-4 participated in the evaluation. Each of the reviewers was asked to provide quantitative scores on a scale of 1–10 on individual responses, an overall score, and qualitative feedback on each of the responses they reviewed. This provided a consistent scoring framework for all reviewers and resulted in quantitative and qualitative data for further analysis.

Finally, in Phase 3 the data analysis included both quantitative and qualitative methods. For the quantitative analysis, the research calculated the average and standard deviation of the scores. The qualitative feedback was analyzed by grouping the feedback into positive and negative, and by identifying recurring patterns and insights to create a thematic synthesis of the data.

Throughout the study, participants were unaware of ChatGPT participation, or details of the other human participants to protect the study from potential bias. One of the reviews submitted only qualitative feedback, and five reviewers did not provide any qualitative feedback.

Strict measures were taken to manage and store the collected data securely. All data was anonymized and access was restricted to the research team to ensure participant confidentiality. Respondents were not told which responses were given by AI and which by humans to reduce potential bias towards answering the questions.

Finally, the authors re-tested ChatGPT's GPT-4 responses on the original test and made a qualitative comparison between the AI's responses from April 2023 and December 2023 to determine the variation in response quality and whether it could affect the overall assessment of ChatGPT's capabilities.

4. Analysis and results

The structure of the analysis and results presentation is divided into two parts: a quantitative analysis and a qualitative analysis. The quantitative section compares the performance of ChatGPT and human experts through a scoring system. The qualitative portion evaluates the feedback provided by human experts on risk management strategies derived by both humans and ChatGPT. It concludes with a summary of the strengths and weaknesses of generative AI-driven risk management, underlining the potential and challenges of AI in this field through an anonymized peer-reviewed test.

5. Discussion

The primary objective of this research was to investigate and understand the capabilities of both humans and ChatGPT (GPT-4) in the context of CPRM, specifically exploring the question “Can ChatGPT exceed humans in CPRM?” as the existing research literature has been insufficiently covering the topic (Akinosho et al., 2020; Abioye et al., 2021; Aladağ, 2023).

Prior research, conducted before 2022, inherently lacks insight into ChatGPT, given its more recent publication. Furthermore, contemporary studies often omit the implementation of blind peer review (e.g. Aladağ, 2023; Barcaui and Monat, 2023; Hofert, 2023) and typically focus on earlier, less advanced versions of ChatGPT, such as GPT-3.5 (e.g. Aladağ, 2023; Hofert, 2023). This scenario represented a research gap, particularly in understanding and defining the capabilities of ChatGPTs latest iteration, GPT-4, in CPRM.

To address the research gap and research question, the research conducted a CPRM test pitting human experts against ChatGPT (GPT-4). Answers to a series of questions related to the case project were collected from both ChatGPT and humans. Participants anonymously peer-reviewed the responses. Both quantitative scoring and qualitative feedback were analyzed.

The key findings of this study revealed that, under the conditions of the test applied, ChatGPT could surpass the performance of human experts. Quantitative results provided significant evidence to suggest the potential of generative AI in this domain.

ChatGPT demonstrated its ability to provide comprehensive and detailed risk assessments, exceeding the average performance of human experts. Comparingly, the results differ from the findings by Aladağ (2023), where experts evaluated ChatGPT (GPT-3.5 demo version) answers as moderate, but provided similar capabilities on word-based answers as research by Barcaui and Monat (2023) and Hofert (2023).

However, several factors could have influenced these results. First, this divergence can arguably be attributed, in part, to the influence of different ChatGPT versions on the performance of AI solutions, as discussed by Eloundou et al. (2023). Second, the application of an anonymous peer review method in this study reduces bias, in comparison to prior publications which have relied on small focus groups (Aladağ, 2023), or author assessment (Barcaui and Monat, 2023; Hofert, 2023).

As a result, the quantitative and qualitative results provide a new understanding of the capabilities of AI and humans on CPRM. The methods in this research arguably enabled a balanced evaluation of AI capabilities by paralleling comparisons in a similar test scenario, without participants having prior knowledge on the subject of assessment.

Furthermore, AI models are currently limited in their ability to access and interpret implicit data, such as personal experience with nuanced and complex underlying assumptions and hidden correlations, or unarticulated expertise and judgment, a dimension where human experts hold an advantage. This has been identified also in various literature and indicates advantages for human professionals in CPRM.

Compared to publications covering the capabilities of AI in other fields, this research found similar advantages. In previous publications, GPT-4 has performed well against humans in tests such as the Uniform Bar Exam, SAT math exams, and medical exams both in the United States and Spain (Eloundou et al., 2023; Ray, 2023). Additionally, Barcaui and Monat (2023) found that AI-generated plans can introduce novel insights, especially in areas like risk management. Similarly, ChatGPT GPT-4 performed well in this research indicating that these generative AI solutions have widespread implications across different fields.

Additionally, the research provided insight into version differences between GPT-4 April 2023 and December 2023 versions. While the findings indicate that generative AI produces varying responses to the CPRM capability test, the variation is smaller than that between this study and contemporary literature utilizing GPT-3.5.

The findings were mostly consistent with the literature covered above. However, it could be concluded that the findings presented a more robust method of measurement, and improved the existing definitions of the capabilities of the ChatGPT GPT-4 model in CPRM. Therefore, the anonymous peer review method provides a testing template for further development and can be used to test AI capabilities in other construction project management-related tasks once generative AI models keep improving.

6. Conclusion

In conclusion, this research advances the theoretical understanding of generative AIs' role in CPRM. It demonstrated that generative AI, as exemplified by the ChatGPT GPT-4, can augment CPRM processes. Quantitatively, ChatGPTs performance, with an average score of 8.6, notably surpasses that of human experts, who scored an average of 5.7. This finding underpins AI's prowess in handling extensive data and crafting intricate responses on CRPM, suggesting a paradigm shift in how risk management is approached in construction project scenarios.

However, the study also contributes to the discourse by highlighting the current limitations of generative AI, represented by OpenAIs ChatGPT GPT-4. The qualitative analysis underscores the importance of context-specific, practical knowledge, and the ability to propose implementable strategies – areas where human experts still hold an edge. ChatGPT responses, while comprehensive, were criticized for their lack of specificity and practicality, highlighting an area for future development. This underscores a pivotal practical implication: the current version of AI tested in CPRM requires a complementary human element to realize its full potential.

Taken together, the findings of this research suggest that the future of CPRM is not a choice between AI and human professionals but rather lies in a synergistic combination of both. The comprehensive and detailed risk assessments provided by AI can serve as a strong basis for risk management, while human professionals, with their practical knowledge and intuition, can further refine and review these assessments and develop practical, context-specific strategies.

This study thus measured ChatGPTs capabilities in CPRM and uncovered the potential where AI can serve as a foundational tool, enhancing human performance and enabling more informed decision-making. Therefore, while AI, in its current state, may not completely surpass human capabilities in CPRM, it undeniably presents a promising tool in the evolution of risk management practices to enhance human performance.