The Journal of Asian Finance, Economics and Business

Korea Distribution Science Association (한국유통과학회)
권호 표지
DOI QR코드

DOI QR Code

Critical Factors of Subcontractor Evaluation and Selection: A Case Study in Vietnam

  • VO, Khoa Dang (Department of Project Management, Ho Chi Minh City Open University) ;
  • PHAM, Cuong Phu (Department of Construction Economics, Faculty of Transport and Economics, Campus in Ho Chi Minh City, University of Transport and Communications) ;
  • PHAN, Phuong Thanh (Department of Project Management, Ho Chi Minh City Open University) ;
  • VU, Ngoc Bich (School of Advanced Study, Ho Chi Minh City Open University) ;
  • DUONG, My Tien Ha (Faculty of Economics and Public Management, Ho Chi Minh City Open University) ;
  • LE, Loan Phuc (School of Advanced Study, Ho Chi Minh City Open University) ;
  • NGUYEN, Quyen Le Hoang Thuy To (Office of Cooperation and Research Management, Ho Chi Minh City Open University)
  • Received : 2020.09.20
  • Accepted : 2021.02.03
  • Published : 2021.03.30
Download PDF
⟨ Previous Next ⟩

Abstract

A contractor or a main contractor is a company with full capacity to construct all project's works for the owner. A subcontractor is an organization that works with the main contractor to execute and complete work packages for the project. Selecting an effective subcontractor will help the efficiency and success of any projects in the construction industry. Therefore, this study identified subcontractor evaluation factors in Vietnam by collecting questionnaire survey data from engineers and staffs in the construction industry project environment. An exploratory factor analysis (EFA) was then performed to identify the critical factors when evaluating and selecting the subcontractor in construction projects. Moreover, when considering the impact level in terms of the average value, the research results showed that the most critical concern was the subcontractor's reputation. Furthermore, the top five factors affecting the sub-contractor evaluation and selection are (i) reputation, (ii) price, (iii) construction techniques, (iv) ability to implement projects according to commitments, and (v) subcontractor competence (the team of workers, technician staff, engineers with full capacity according to regulations). These research results provide an overall perspective that will help main contractors develop suitable subcontractors' evaluation and selection factors in their projects in the construction industry.

Keywords

1. Introduction

The construction industry plays an essential role in building all countries’ infrastructure, whether developed or developing (Faridi & El-Sayegh, 2006; Nguyen, 2020; Nguyen, Likhitruangsilp, & Onishi, 2018; Nguyen & Nguyen, 2020; Nguyen, Nguyen, & Do, 2020; Pham, Dao, Cho, Nguyen, & Pham-Hang, 2019; Phong et al., 2017). The changing working environment dramatically influences a construction project’s features, such as the need for coordination among the parties and other risks in project management and implementation (Hinze & Tracey, 1994; Hossain, 2009; Vo, Nguyen, & Nguyen, 2020). The main contractor – the unit responsible for project management – implement their project by breaking down the project’s huge workloads into smaller work packages to manage their schedule, quality, and budget to minimize their risks. A subcontractor is a construction company that contracts with the main contractor with the responsibility of implementing and completing the project’s work packages, including supplying the workforce (workers), equipment, tools, designs, and other supplies (Abbasianjahromi, Rajaie, & Shakeri, 2013; Arditi & Chotibhongs, 2005). With this form, a subcontractor shares both the benefits and risks of the construction services to the owner with the main contractor.

Subcontracting firms are increasingly specialized and outstanding in their fields and work to meet the rigorous needs of the main contractors (Arditi & Chotibhongs, 2005; Choudhry, Hinze, Arshad, & Gabriel, 2012). Subcontractors can be divided into three main groups: (i) subcontracting related to trade, material provider for the project; (ii) special services subcontracting that provide individual services such as mechanical and electrical construction, tank systems, lighting, sound, etc.; and (iii) workforce contractor, supplying skilled workers to perform parts of the construction works (Mbachu, 2008). Specialization is the construction industry trend, with subcontractors perfecting their services through different projects with similar workloads. Thus, they can perform work packages on a single project faster and at less cost than the main contractor (Arditi & Chotibhongs, 2005; Yoke-Lian, Hassim, Muniandy, & Teik-Hua, 2012). Subcontractors, thus, have an advantage in using the equipment and training more specialized workers. Therefore, the contractual relationship between the main contractor and the subcontractors has become more popular (El-Mashaleh, 2009; Hinze & Tracey, 1994; Kale & Arditi, 2001). A project’s overall success was influenced by the success and effectiveness of the cooperative relationship between them. As a result, selecting the subcontractors and their selection criteria have become topics of interest to many researchers (Arditi & Chotibhongs, 2005; El-khalek, Aziz, & Morgan, 2019; Ng, Luu, & Chu, 2008; Shivam & Kashiyani, 2018; Ulubeyli, Kazaz, & Arslan, 2017).

The characteristics of specific construction projects create difficulties for the main contractors, especially financial or cost risk (Le-Hoai, Dai Lee, & Lee, 2008; Luong, Tran, & Nguyen, 2018; Nguyen, Le-Hoai, Tran, Dang, & Nguyen, 2019; Nguyen & Nguyen, 2020; Owolabi et al., 2020; Sy, Likhitruangsilp, Onishi, & Nguyen, 2017; Thong et al., 2020). Using subcontractors is a means of minimizing risks and, thus, sharing benefits. The main contractor goes through a contractor selection process that includes evaluating the criteria for subcontractors selection (Turskis, 2008). Further, the tendering price of the subcontractors, as well as other measures need to be considered in the selection process for the main contractor. Because the tendering price is not an evaluation of all the subcontractors’ characteristics and capabilities, the construction process can be affected. Delays, cost overruns, and low quality are high risk for the main contractor if their subcontractor does not comply with the contractual requirements (Nguyen, Likhitruangsilp, & Onishi, 2020; Pham et al., 2020).

The selection of subcontractors is still not given due attention to the construction industry in developing countries, which account for many SMEs (Abbasianjahromi et al., 2013; Ulubeyli, Manisali, & Kazaz, 2010). The selection of subcontractors for specialized work in the construction process minimizes the risks for main contractors. On the other hand, if the subcontractor selection process does not match the construction industry at a project site (project size, market characteristics, and owner expectations), negative consequences are inevitable. This study was done by adopting contractor selection criteria from previous studies and practices in a specific project environment’s conditions. The study also provides a method for selecting subcontractors that is appropriate, saving costs and time.

2. Literature Review

In recent literature, subcontractor selection factors have varied widely in the research. However, the most essential and characteristic factors include cost (price), quality, safety, and schedule (Bailey, 2016; Nguyen, 2020). The subcontractor selection criteria also are the expected bid, reputation (past performance), accreditation from government agencies (quality), staff qualifications (technical capacity), financial status (number of public work in the past five years), timing (estimated project duration), construction health and safety records, management (including information provided and how subcontractors respond to documents necessary), production and capacity (technology level: equipment), location, shares for subcontractors (Koçak, Kazaz, & Ulubeyli, 2018).

Table 1: Subcontractor Evaluation and Selection Factors

OTGHEU_2021_v8n3_297_t0001.png 이미지

Experience and product quality are essential factors for ranking sub-contractors (Hartmann, Ling, & Tan, 2009). Ulubeyli et al. (2017) offered a list of critical factors affecting subcontractor selection, including experience, past performance, formal relationships, financial strength, and workload. Further, project knowledge, reliability, altruism, problem-solving ability, enthusiasm for the project, price, quality of the technical staff, labor, the payment plan, and the number of subcontracting units needed are also included. The subcontractor’s work quality was indicated to be important in Shivam and Kashiyani (2018) study. The list of their factors included the quality of work, timely work completion, craft standards, the lowest bid, and flexibility and cooperation when dealing with delays. Further, the completed project’s scope, financial stability, material resources equipment, health and safety records, and reputation were all issues.

A schedule was an indispensable factor when assessing the performance of a subcontractor. In Jordan, a group of factors was used for assessment: project duration, reputation (past performance based on the number of successful projects done), expected price, employee qualifications, technology level (physical equipment), equity for subcontractors, subcontractor rating, health and safety profiles, general impressions, and subcontractors’ response rates, workload (financial) over the past five years, all certified by government agencies (Abunada & Mohammed, 2018).

Contract guarantees were the main contractor’s interests being included in the contract (Marzouk, El Kherbawy, & Khalifa, 2013). Besides, other factors such as flexibility and cooperation when dealing with delays; compliance with specifications and quality; a supplier’s ability to deliver raw materials on time; ability to complete the contract; a subcontractor’s physical resources; bidding price; difficulty in repayment, and flexibility in critical operations. Other matters affecting the performance of the subcontractor were identified by El-khalek et al. (2019). For example, guaranteeing on-time delivery of materials, failure to complete a contract due to financial problems, reimbursement issues were identified as critical factors. Furthermore, issues such as prestige, bidding, and handling essential activities in the construction and progress stage that exceeded the performance contract mattered. If the labor capacity was insufficient, the work’s proportion completed behind schedule, and the project’s technical difficulties needed to be incorporated into the evaluation. Other factors that establish a contractor’s strength in participating in a competency competition with other contractors include construction engineering, time control, operating method, material waste, service after work completion, cooperation with other subcontractors, safety and protection practices, usage habits tools (tools borrowed from contractors), work ground clearance, manageability, the personality of subcontractors, economic conditions (Ko, Cheng, & Wu, 2007). The study was done to synthesize factors from previous research in Table 1 (Abbasianjahromi, Sepehri, & Abbasi, 2018; Basu, Nanyam, & Sawhney, 2017; Keshavarz-Ghorabaee, Amiri, Zavadskas, Turskis, & Antucheviciene, 2018).

3. Research Methodology

The questionnaire was designed using a five-point scale, conducting a pilot study, which was adjusted to have an official questionnaire in this study. Data was collected through surveys with project engineers and staff in Ho Chi Minh City, Vietnam, and the surrounding area. Then, the data was filtered and encoded, analyzed, and synthesized through the use of statistical software. From the survey, the results were analyzed and presented. The total value of data included in the analysis was 96 questionnaires. Statistical analysis and Exploratory Factor Analysis were performed to find the main factors in the selection of subcontractors.

4. Results and Discussion

The largest proportion was composed of engineers and staff working for the contractor (42.6%) about the job position. In the next group were people of the owner’s (26.6%). The smallest two groups were composed of staff in the design and the supervision unit, 11.7% and 16%. Next, the data gathered included many respondents with less than five years to over 15 years of experience. The largest proportion belonged to the group with 5–10 years of experience (41%). The groups with 10–15 years of experience and with less than five years were represented equally, at 27% and 23%, respectively. The lowest rate was a group of engineers with over 15 years (9%) of experience. In general, the data is a good representation of the subcontractor selection criteria since the data was primarily comprised of engineers working for the main contractor and were experienced in working directly with subcontractors.

Table 2: Data Characteristics

OTGHEU_2021_v8n3_297_t0002.png 이미지

The reliability scale of the study was verified through Cronbach’s Alpha value (> 0.926). The scale is suitable and a good measure for the subcontractor evaluation criteria. Tests were performed for five groups of factors (Eco; Abi, Exp, Qua, and Rel). Cronbach’s Alpha values of these groups of variables measuring the subcontractor selection criteria showed in the table below. All values (>0.7) indicated that the scale was suitable (see Table 3).

Table 3: Reliability Statistics

OTGHEU_2021_v8n3_297_t0003.png 이미지

The factor rating average showed how much influence each factor has on the selection of subcontractors. Ranking factors according to their importance was based on the average of the factors in Table 4.

Table 4: Ranking Factors of Selection of Subcontractors

OTGHEU_2021_v8n3_297_t0004.png 이미지

The results of this ranking of all the factors affecting the selection of subcontractors, which included 20 factors, reputation (4.41) was considered to have the most significant influence on subcontractor selection (rank 1). Next, the factors that had a strong impact after prestige were price (4.31); construction techniques (4.16); ability to implement projects as committed (4.04); a team of workers, technicians, engineers with full capacity according to regulations (4.00). The above five criteria focus on two groups: (i) price and (ii) technical capacity or resources. Moreover, the research results showed the degree of correlation between the contractor and supervisor in the ranking factors in selecting subcontractors (r = 0.786). Besides, the contractor was the direct unit in the selection of subcontractors. They were correlated with the design unit (r = 0.690) and owner with r = 0.676 (p < 0.01). The results found the correlation coefficient r = 0.405 (p = 0.77) was not statistically significant. It indicated the difference in the evaluation of a subcontractor selection between the owner and the designer. Nevertheless, that did not greatly affect the results’ accuracy as the subcontractors’ selection was closely related to the main contractor. Therefore, the results showed that evaluating contractor selection among related units was quite similar, from the contractor’s point of view. In the Exploratory Factor Analysis (EFA), twenty variables were used in the Principal Component Analysis (PCA). KMO (Kaiser-Mayer-Olkin) and Bartlett’s of Sphericity tests were to check the suitability of data before performing EFA analysis, as shown in Table 5.

Table 5: The Correlations between Parties

OTGHEU_2021_v8n3_297_t0005.png 이미지

**. Correlation is significant at the 0.01 level (2-tailed).

The KMO value (0.861) and the sig. value of Bartlett’s Test of Sphericity (0.000) indicated that the data were suitable for analysis. EFA analysis was performed with 20 observed variables and was reduced by Principal Component Analysis (PCA) with varimax rotation. In the first run of EFA, the results showed that item Abi3 had an extraction value of <0.440. It was excluded from analysis, and we conducted the second EFA analysis with items of 19. The EFA analysis process was done through seven steps and with six inappropriate items removed, including Abi3, Abi5, Rel4, Abi8, Qua1, Abi4, respectively (see Table 6).

Table 6: The Exploratory Factor Analysis Processes

OTGHEU_2021_v8n3_297_t0006.png 이미지

The results extracted four groups of factors, with a total cumulative explanation variance of 81, 523%. Factor loadings for each factor were shown in Table 7. The four groups of factors have been named, as follows: (i) Experience and Relationship; (ii) Competence; (iii) Reputation; and(iv) Finance. The Experience and Relationship Group included five items with a percentage variance of 22, 042%. This group represents subcontractors’ values through their relationships and experiences of the number of projects they have worked on. The first significant group most greatly affected their ability to succeed in competing in the construction industry. The Competency group included four items, accounting for a variance of 18, 402%. This group represented the values of the subcontractor’s capacity (in terms of machinery, human resources, and safety measures, etc.) was the second group in explaining the factors that influence the selection of subcontractors in construction projects. Next, the Reputation group of three factors with the percentage of variance explained was 15.916%. This group addressed issues of clarity in their cost estimates, the credibility of the entity, and their compliance with regulations. Finally, the last group was Finance. This group included two items, and the explanatory variance accounted for 13, 531%. That group represented the financial situation of the business.

Table 7: The Research Results

OTGHEU_2021_v8n3_297_t0007.png 이미지

5. Conclusions

With a high growth rate, Vietnam is one of the most dynamic developing countries in the East Asia Pacific region (Nguyen & Bui, 2020a, 2020b; Nguyen & Ngo, 2020). This is because a large portion of the construction industry is industrialized. To achieve industrialization and modernization, construction companies need a process and criteria for selecting a competent subcontractor because this selection and the effectiveness of the selection process have a direct impact on the overall project outcomes. The evaluation of subcontractors in construction projects has become popular and has attracted both industry practitioners and researchers’ attention. This study has been carried out to find the most critical factors in the evaluation when selecting a subcontractor from the project staff and engineers’ point of views in Vietnam. The exploratory factor analysis results showed that there were four main criteria groups with 14 items to be considered, including issues related to experience and relationship, competence, reputation, and finance. These research results contribute to business practice, making the partnership between the main contractor and subcontractor more sustainable. These subcontractor evaluation factors provide a basis of reference to help the main contractor have a general perspective on the comprehensive evaluation. Also, subcontractors, too, have the basis for orienting the development of the company’s capabilities.

Acknowledgements

This research is funded by Ho Chi Minh City Open University under the grant number E2020.02.1.

[script] var kistiSpellChecker_replaceCKEditorOptionId = setInterval(function() { if ( ! window.CKEDITOR ) return; clearInterval(kistiSpellChecker_replaceCKEditorOptionId); var isMarkTagAllowed = function(config) { if (config.allowedContent === true) return true; if (typeof(config.allowedContent) === 'string' && config.allowedContent.includes('mark') ) { return true; } if (typeof(config.allowedContent) === 'object' && config.allowedContent.keys().includes('mark') ) { return true; } if (typeof(config.extraAllowedContent) === 'string' && config.extraAllowedContent.includes('mark') ) { return true; } if (typeof(config.extraAllowedContent) === 'object' && config.extraAllowedContent.keys().includes('mark') ) { return true; } return false; }; for (var key in CKEDITOR.instances) { var editor = CKEDITOR.instances[key]; var element = editor.element; var config = editor.config; if ( isMarkTagAllowed(config) ) { continue; } config.extraAllowedContent = 'mark; ' + (config.extraAllowedContent || ''); var originEditorKey = null; for (var key in window) { if ( window[key] === editor ) { originEditorKey = key; break; } } var extraProperties = { listSeq: editor.listSeq // KISTI 기계학습데이터 구축 작업화면 대응 }; console.log('listSeq before destroy', editor.listSeq); editor.destroy(); window[originEditorKey] = editor = CKEDITOR.replace(element, config); for (var key in extraProperties) { editor[key] = extraProperties[key]; } console.log('extraProperties after recreate', extraProperties); } }, 100);[/script] [script] var kistiSpellChecker_replaceCKEditorOptionId = setInterval(function() { if ( ! window.CKEDITOR ) return; clearInterval(kistiSpellChecker_replaceCKEditorOptionId); var isMarkTagAllowed = function(config) { if (config.allowedContent === true) return true; if (typeof(config.allowedContent) === 'string' && config.allowedContent.includes('mark') ) { return true; } if (typeof(config.allowedContent) === 'object' && config.allowedContent.keys().includes('mark') ) { return true; } if (typeof(config.extraAllowedContent) === 'string' && config.extraAllowedContent.includes('mark') ) { return true; } if (typeof(config.extraAllowedContent) === 'object' && config.extraAllowedContent.keys().includes('mark') ) { return true; } return false; }; for (var key in CKEDITOR.instances) { var editor = CKEDITOR.instances[key]; var element = editor.element; var config = editor.config; if ( isMarkTagAllowed(config) ) { continue; } config.extraAllowedContent = 'mark; ' + (config.extraAllowedContent || ''); var originEditorKey = null; for (var key in window) { if ( window[key] === editor ) { originEditorKey = key; break; } } var extraProperties = { listSeq: editor.listSeq // KISTI 기계학습데이터 구축 작업화면 대응 }; console.log('listSeq before destroy', editor.listSeq); editor.destroy(); window[originEditorKey] = editor = CKEDITOR.replace(element, config); for (var key in extraProperties) { editor[key] = extraProperties[key]; } console.log('extraProperties after recreate', extraProperties); } }, 100);[/script]

References

  1. Abbasianjahromi, H., Rajaie, H., & Shakeri, E. (2013). A framework for subcontractor selection in the construction industry. Journal of Civil Engineering and Management, 19(2), 158-168. https://doi.org/10.3846/13923730.2012.743922
  2. Abbasianjahromi, H., Sepehri, M., & Abbasi, O. (2018). A decisionmaking framework for subcontractor selection in construction projects. Engineering Management Journal, 30(2), 141-152. https://doi.org/10.1080/10429247.2018.1448967
  3. Abunada, S. Y., & Mohammed, I. A. (2018). Optimization model in subcontractors assignment in Jordan. International Journal of Applied Engineering Research, 13(1), 564-575.
  4. Arditi, D., & Chotibhongs, R. (2005). Issues in subcontracting practice. Journal of Construction Engineering and Management, 131(8), 866-876. https://doi.org/10.1061/(ASCE)0733-9364(2005)131:8(866)
  5. Bailey, J. M. (2016). Subcontractor Selection in the Construction Industry-Development of a research approach to investigate selection criteria, methods, value creation initiatives and supply chain management. NTNU.
  6. Basu, R., Nanyam, V. N., & Sawhney, A. (2017). A Multidimensional Subcontractor Evaluation Framework for Nonconventional Housing Systems. Procedia Engineering, 196, 253-261. https://doi.org/10.1016/j.proeng.2017.07.197
  7. Choudhry, R. M., Hinze, J. W., Arshad, M., & Gabriel, H. F. (2012). Subcontracting practices in the construction industry of Pakistan. Journal of Construction Engineering and Management, 138(12), 1353-1359. https://doi.org/10.1061/(ASCE)CO.1943-7862.0000562
  8. El-khalek, H. A., Aziz, R. F., & Morgan, E. S. (2019). Identification of construction subcontractor prequalification evaluation criteria and their impact on project success. Alexandria Engineering Journal, 58(1), 217-223. https://doi.org/10.1016/j.aej.2018.11.010
  9. El-Mashaleh, M. S. (2009). A construction subcontractor selection model. Jordan Journal of Civil Engineering, 3(4), 375-383.
  10. Faridi, A. S., & El-Sayegh, S. M. (2006). Significant factors causing delay in the UAE construction industry. Construction Management and Economics, 24(11), 1167-1176. https://doi.org/10.1080/01446190600827033
  11. Hartmann, A., Ling, F. Y. Y., & Tan, J. S. (2009). Relative importance of subcontractor selection criteria: evidence from Singapore. Journal of Construction Engineering and Management, 135(9), 826-832. https://doi.org/10.1061/(ASCE)0733-9364(2009)135:9(826)
  12. Hinze, J., & Tracey, A. (1994). The contractor-subcontractor relationship: the subcontractor's view. Journal of Construction Engineering and Management, 120(2), 274-287. https://doi.org/10.1061/(ASCE)0733-9364(1994)120:2(274)
  13. Hossain, L. (2009). Communications and coordination in construction projects. Construction Management and Economics, 27(1), 25-39. https://doi.org/10.1080/01446190802558923
  14. Kale, S., & Arditi, D. (2001). General contractors' relationships with subcontractors: a strategic asset. Construction Management and Economics, 19(5), 541-549. https://doi.org/10.1080/01446193.2001.9709630
  15. Keshavarz-Ghorabaee, M., Amiri, M., Zavadskas, E. K., Turskis, Z., & Antucheviciene, J. (2018). A dynamic fuzzy approach based on the EDAS method for multi-criteria subcontractor evaluation. Information, 9(3), 68. https://doi.org/10.3390/info9030068
  16. Ko, C.-H., Cheng, M.-Y., & Wu, T.-K. (2007). Evaluating sub-contractors performance using EFNIM. Automation in Construction, 16, 525-530. https://doi.org/10.1016/j.autcon.2006.09.005
  17. Kocak, S., Kazaz, A., & Ulubeyli, S. (2018). Subcontractor selection with additive ratio assessment method. Journal of Construction Engineering, Management & Innovation, 1(1), 18-32. https://doi.org/10.31462/jcemi.2018.01018032
  18. Le-Hoai, L., Dai Lee, Y., & Lee, J. Y. (2008). Delay and cost overruns in Vietnam large construction projects: A comparison with other selected countries. KSCE Journal of Civil Engineering, 12(6), 367-377. https://doi.org/10.1007/s12205-008-0367-7
  19. Luong, D.-L., Tran, D.-H., & Nguyen, P. T. (2018). Optimizing multi-mode time-cost-quality trade-off of construction project using opposition multiple objective difference evolution. International Journal of Construction Management, 1-13. https://doi.org/10.1080/15623599.2018.1526630
  20. Marzouk, M. M., El Kherbawy, A. A., & Khalifa, M. (2013). Factors influencing sub-contractors selection in construction projects. Hbrc Journal, 9(2), 150-158. https://doi.org/10.1016/j.hbrcj.2013.05.001
  21. Mbachu, J. (2008). Conceptual framework for the assessment of subcontractors' eligibility and performance in the construction industry. Construction Management and Economics, 26(5), 471-484. https://doi.org/10.1080/01446190801918730
  22. Nguyen, H. M., & Bui, N. H. (2020a). Energy consumption - Economic growth nexus in Vietnam: An ARDL approach with a structural break. Journal of Asian Finance, Economics and Business, 7(1), 101-110. https://doi.org/10.13106/jafeb.2020.vol7.no1.101
  23. Nguyen, H. M., & Bui, N. H. (2020b). Revisiting the relationship between energy consumption and economic growth nexus in Vietnam: new evidence by asymmetric ARDL cointegration. Applied Economics Letters, 1-7. https://doi.org/10.1080/13504851.2020.1789543
  24. Nguyen, H. M., & Ngo, T. T. (2020). Psychological capital, organizational commitment and job performance: A case in Vietnam. Journal of Asian Finance, Economics and Business, 7(5), 269-278. https://doi.org/10.13106/JAFEB.2020.VOL7.NO5.269
  25. Ng, S. T., Luu, C. D., & Chu, A. W. (2008). Delineating criteria for subcontractors registration considering divergence in skill base and scales. International Journal of Project Management, 26(4), 448-456. https://doi.org/10.1016/j.ijproman.2007.08.002
  26. Nguyen, L. D., Le-Hoai, L., Tran, D. Q., Dang, C. N., & Nguyen, C. V. (2019). Effect of project complexity on cost and schedule performance in transportation projects. Construction Management and Economics, 37(7), 384-399. https://doi.org/10.1080/01446193.2018.1532592
  27. Nguyen, P.T, & Nguyen, C. P. (2020). Risk Management in Engineering and Construction: A Case Study in Design-Build Projects in Vietnam. Engineering, Technology & Applied Science Research, 10(1), 5237-5241. https://doi.org/10.48084/etasr.3286
  28. Nguyen, P. T. (2020). Attitude of construction workers toward labour safety. International Journal of Business Continuity and Risk Management, 10(2-3), 181-193. https://doi.org/10.1504/IJBCRM.2020.108507
  29. Nguyen, P. T. (2020). Construction site layout planning and safety management using fuzzy-based bee colony optimization model. Neural Computing and Applications, 1-22. https://doi.org/10.1007/s00521-020-05361-0
  30. Nguyen, P. T., Likhitruangsilp, V., & Onishi, M. (2018). Prioritizing factors affecting traffic volume of public-private partnership infrastructure projects. International Journal of Engineering & Technology, 7(04), 2988-2991.
  31. Nguyen, P. T., Likhitruangsilp, V., & Onishi, M. (2020). Success factors for public-private partnership infrastructure projects in Vietnam. International Journal on Advanced Science, Engineering and Information Technology, 10(2), 858-865. https://doi.org/10.18517/ijaseit.10.2.5839
  32. Nguyen, P. T., & Nguyen, Q. L. H. T. T. (2020). Critical Factors Affecting Construction Price Index: An Integrated Fuzzy Logic and Analytical Hierarchy Process. Journal of Asian Finance, Economics and Business, 7(8), 197-204. https://doi.org/10.13106/jafeb.2020.vol7.no8.197
  33. Nguyen, T. A., Nguyen, P. T., & Do, S. T. (2020). Application of BIM and 3D Laser Scanning for Quantity Management in Construction Projects. Advances in Civil Engineering, 2020. https://doi.org/10.1155/2020/8839923
  34. Owolabi, H. A., Oyedele, L. O., Alaka, H. A., Ajayi, S. O., Akinade, O. O., & Bilal, M. (2020). Critical success factors for ensuring bankable completion risk in PFI/PPP megaprojects. Journal of Management in Engineering, 36(1), 04019032. https://doi.org/10.1061/(ASCE)ME.1943-5479.0000717
  35. Pham, C. P., Nguyen, P. T, Phan, P. T., Nguyen, Q. L. H. T. T., N., Le, L. P., & Duong, M. T. H. Risk Factors Affecting Equipment Management in Construction Firms. Journal of Asian Finance, Economics and Business, 7(11), 347-356. https://doi.org/10.13106/jafeb.2020.vol7.no11.347
  36. Pham, H. C., Dao, N.N., Cho, S., Nguyen, P. T., & Pham-Hang, A.-T. (2019). Construction Hazard Investigation Leveraging Object Anatomization on an Augmented Photoreality Platform. Applied Sciences, 9(21), 4477. https://doi.org/10.3390/app9214477
  37. Phong, N. T., Likhitruangsilp, V., & Onishi, M. (2017). Developing a stochastic traffic volume prediction model for public-private partnership projects. Paper presented at the AIP Conference Proceedings. https://doi.org/10.1063/1.5011564
  38. Shivam, J., & Kashiyani, B. (2018). Development of conceptual model for effective selection of subcontractor for building construction project. Development, 5(04).
  39. Sy, D. T., Likhitruangsilp, V., Onishi, M., & Nguyen, P. T. (2017). Impacts of risk factors on the performance of Public-Private Partnership transportation projects in Vietnam. ASEAN Engineering Journal, 7(2), 1-24. https://doi.org/10.11113/aej.v7.15489
  40. Thong, Q. V., Cuong, P. P., Thu, A. N., Phong, T. N., Phuong, T. P., & Quyen, L. H. T. T. N. (2020). Factors Influencing Cost Overruns in Construction Projects of International Contractors in Vietnam. The Journal of Asian Finance, Economics and Business, 7(9), 389-400. https://doi.org/10.13106/jafeb.2020.vol7.no9.389
  41. Turskis, Z. (2008). Multi-attribute contractors ranking method by applying ordering of feasible alternatives of solutions in terms of preferability technique. Technological and Economic Development of Economy, 14(2), 224-239. https://doi.org/10.3846/1392-8619.2008.14.224-239
  42. Ulubeyli, S., Kazaz, A., & Arslan, V. (2017). Decision criteria for subcontractor selection in international construction projects. Paper presented at the Proceedings of the International Conference on Civil and Environmental Engineering (ICOCEE), May.
  43. Ulubeyli, S., Manisali, E., & Kazaz, A. (2010). Subcontractor selection practices in international construction projects. Journal of Civil Engineering and Management, 16(1), 47-56. https://doi.org/10.3846/jcem.2010.04
  44. Vo, K. D., Nguyen, P. T., & Nguyen, Q. (2020). Disputes in Managing Projects: A Case Study of Construction Industry in Vietnam. Journal of Asian Finance, Economics and Business, 7(8), 635-644. https://doi.org/10.13106/jafeb.2020.vol7.no8.635
  45. Yoke-Lian, L., Hassim, S., Muniandy, R., & Teik-Hua, L. (2012). Review of subcontracting practice in construction industry. International Journal of Engineering and Technology, 4(4), 442. https://doi.org/10.7763/IJET.2012.V4.406

Cited by

  1. Factors Influencing Horizontal Cooperation Among Logistics Enterprises: An Empirical Study from Vietnam vol.8, pp.12, 2021, https://doi.org/10.13106/jafeb.2021.vol8.no12.0313