Factors Influencing Technology Transfer for Sustainable Construction Management in Nigeria

The move to embrace sustainable building is an international paradigm with the desire for sustainable development in society. Developing countries, however, are the most susceptible regions to unsustainable development. This study focused on factors influencing Technology Transfer in Construction Management in Nigeria. Questionnaires were applied to collect primary data. A total of 55 registered architectures, quantity surveyors and engineers were interviewed. The data were analyzed and both descriptive and inferential statistics were applied in the study. The findings show that research on sustainability and involvement of stakeholders influence the success of technology transfer. These findings have managerial implications on technology transfer to attain sustained development in the construction industry for many developing countries.


Introduction
Internationally, the construction sector has been primarily linked to the depletion of resources and use of energy, changes in the ecosystem and global warming.For instance, in North America, structures use about two-fifths of the total power generated, nearly three-quarters of the overall electricity and made approximately two-fifths of primary Carbon dioxide gas discharges.Furthermore, buildings are responsible for consuming over one in ten of the freshwater across the globe, a quarter of trees cut, and two-fifths of material and which prioritizes less resource utilization and environmental protocols to promote a pleasant surrounding.
The radical change in the sector has a socio-cultural and environmental impact in the international setting [3].It has provided the necessity to formulate policies for green construction.The terminology "green building guidelines" refer to "the rules that examine the environmental outcomes from the 'whole building' perspective over the building's service life" [4].Many states, for instance, America, Britain, China, and South Africa have also enacted the protocols or are on the verge of formulating the policies.The US Green Building Council (USGBC) was among the pioneers that began Leadership in Energy and Environmental Design (LEED) guidelines in 2000.Currently, LEED has over 12,659 qualified or listed ventures in all the fifty states in America and over eighty-five designated ventures in sixty-nine nations [5].Some third world nations, more so the fast developing states, for instance, India, have also begun taking steps in this region.According to this particular investigation, the phrase developing countries implies the partly industrialized nations that mostly have low GDP or domestic private capital to fund the projects to promote economic development according to IMF [6].The quick move to put operation these requirements has the potential to assist in reducing over-exploitation of non-renewable and natural resource deposits in these nations although there are many bottlenecks [7].
A transfer is the movement of an item from one location to another.This means there have to be two active parties for a successful transfer process, the transferor and the recipient (transferee).This research is bent on seeking answers on the factors that influence transfer from the transferee's point of view, that is, from Nigeria's end as the recipient of technologies from developed countries

Research Question
The study aims at examining the factors influencing technology transfer in Nigeria.To achieve this aim, by the following guided objectives: 1) To assess the status of sustainable building to Nigeria's construction industry.Engineering 2) To explore the influence of research on sustainable building construction on the success of technology transfer.
3) To explore the influence of the involvement of stakeholders in building construction on the success of technology transfer.

Literature Review
The Brundtland Commission suggested the idea of sustainable development in 1972 with the intention of "Meeting the necessities and demands of the current without affecting the capacity of the coming generations to satisfy their needs." Interestingly, this description has changed since then.At the United Nations Earth Summit organized by the UNDP [8] in Brazil's city of Rio de Janeiro, green construction was described as "Enhancing the lifestyle of people at the same time operating within the carrying capacity of supporting ecosystems."The meaning affected the socio-economic-environmental development and was subsequently embraced globally.
Although there are many definitions of the concept, the aims of green construction are universal.This is a strategy for developing the sector to shift towards attaining sustainable development, considering the macroeconomic environmental factors.Ref [3] sustainable construction has been described extensively as "the entire procedure that begins with the sourcing of raw materials, planning, design, and development of structures, and ends with pulling down and management of the secondary waste materials."Ref [1], the traditional construction design concentrates on the cost, performance and quality objectives.
On the other hand, green construction also considers controlling the depletion of resources, mitigating environmental degradation, and promoting a healthy environment.
Globally, mostly in developed countries and the fast developing countries, environmental certification systems have been designed as a means for benchmarking buildings towards sustainable development.They provide a practical model for examining structure environmental performance and combining green construction into developing and the construction methods; as it can be applied as a design instrument through coming up with sustainable design priorities and goals, formulating practical design plans; and choosing performance parameters to provide a roadmap for project design and decisionmaking procedures.They can also be applied as administration tools to organize and address environmental issues in the design, construction, and operations stages.

Sustainable Construction Technology
Technology is the "combination of knowledge and skills embodied in products, with product technological features and production processes that are comprised of a complicated inextricably interlinked process technology elements: techno-ware which entails equipment, tools, and machines, human-ware, info-ware Engineering and organ-ware "(organizational framework)" as alluded by [9].Ofori [10] noted that technology in the construction sector relates to materials, plant and equipment, organizations, policies and information systems incorporated in planning, designing, constructing, maintaining, modification and demolition of buildings and infrastructure.
Appropriate technologies is defined as "the application of technological styles that do not destroy the ecosystem and local social and cultural variables" [11].For ecologically sustainable building, it is accepted that technology is appropriate when it does not cause effects that undermine the ecological health of a particular region.It must also fit the economic and social environments.
It has been agreed that the critical decisions relating to the construction technology, materials utilized and the relevant skills are specified at the initial stages of project design as opposed to midway during the construction process [12].Therefore, it is the responsibility of the designer to evaluate the guidelines for making use of the appropriate technology.Ofori [13] provides a useful framework for analyzing the techniques and materials employed in the construction sector of developing countries regarding sustainable development requirements (Table 1).

Research and Development on Sustainable Building Construction
Promoting research and development (R&D) through investment is critical in helping a nation develop new technologies, products, and services which are important factors that help corporations maintain their competitive edge in the international markets.For many years, the R&D department in the construction sector has been neglected compared to the same office in the manufacturing industry.However, corporations are on the verge of incorporating R&D in construction activities.The Race for Global Advantage in the construction industry has put measures to support the green initiative that includes increasing state R&D funding, training manpower, and promoting R&D tax incentives to encourage global R&D investment Ref [12].

Involvement of Stakeholders in Building Construction
Every construction project has a number of stakeholders who must take part in project execution.The primary participants include project designers, customers, contractors and project managers are some of the project stakeholders who directly influence the implementation process.Project implementation strategies are often determined by several factors such as power exerted, interests, roles of stakeholders and risks among many other forces.Some of the key stakeholders in a construction project include clients, project designers, contractors, and managers.Olander [14] defines "stakeholders as any group or person capable of influencing, or is affected by, the attainment of a firm's goals".This definition is extensive and can be enhanced by integrating the element of participation in decision making and sessions in addition to enjoying or suffering losses from the results of decisions.They take part in wealth-creating initiatives and therefore stand to enjoy benefits or suffer losses of a project.Hence, a stakeholder is described as a person or team that has a personal interest in the implementation of a project.The stakeholder scope can comprise some elements of rights or ownership.There is both a direct and indirect reciprocal association between a stakeholder and an organization or project; the party has the capacity to influence or be affected by the activities of the other.Project customers are the internal stakeholder and mostly have administrative responsibilities and authority.On the other hand, the owner can be a syndicate that has the power to entrust administrative duties to another party.In many cases, they invest their financial resources in a project and organizations or individuals who have a contract with the project owner.The local communities, state, prospect consumers, supervisors, environmentalists, and the press are examples of external stakeholders.

Theoretical Backgrounds
This section focuses on the numerous factors that are mostly taken into consideration during a construction venture.Most of these factors are unknown, uncertain, unwanted and mostly unforeseen.This is the nature of risk.Threats cannot be eradicated but can be controlled to a certain degree.

Conceptual Framework
The conceptual framework depicts the outcome and predictor variables.The outcome variable in this investigation is the success of technology transfer.The predictor variables included the Research and development on sustainability and involvement of stakeholders (Figure 1).

Research Hypothesis
The construction industry, as most of the other sectors in the developing countries, is faced with low technological capabilities.Technology Development and Engineering The multiple dimensions of technology transfer mean there are many potential stakeholders, including innovators, developers, owners, suppliers, buyers, recipients, users, consumers, financiers, donors, governments (including policymakers and regulators), insurers, international institutions, and non-governmental and community-based organizations.The stakeholders involved in any specific transaction will depend on the type and status of the technology and the associated nature of the transfer pathway [17].
All stakeholders must have the necessary knowledge and skills to perform the roles and tasks expected of them in technology transfer.High levels of awareness, motivation, and empowerment within the public and private sectors and in civil society will help ensure that people, communities, and broader organizations can adapt continuously to new circumstances and challenges that drive and arise from technology transfer.

Research Design
The research method was designed robustly to achieve valid data concerning the study of technology transfer in construction management.The data collection tool, a questionnaire, was tested on 10% of the sample of the questionnaires to validate whether it is appropriate and convenient.It was analyzed using six respondents.Questionnaire surveys were used to collect data.This study used a quantitative design method.The questionnaire was designed to capture data on factors influencing technology transfer in Nigeria.

Target Population
In the research, the target population from whom information was obtained is the architects, quantity surveyors, and engineers within Nigeria.These professions are very resourceful as they are considered highly influential in decision making during the construction process.Also, Nigeria has the highest population density.It also has the highest number of building professionals and construction activities.Architects and engineers being the designers of any construction concept, they dictate the materials and technologies to be used to render the result, functional, durable and environmentally friendly.Therefore, sustainable construction commences with them.
As they dictate on the appropriate technologies to use, they also advise the building owners on their efficiency and effectiveness in the long run.Architects also oversee the construction process, where the role of project managers has not fully developed as is the case in Nigeria.They are therefore to ensure sustainable construction practices are being carried out during construction.
Quantity surveyors are essential in this study as most building owners are faced with resource constraints; hence the use of sustainable technologies is controlled by this constraint.The quantity surveyor has to budget and control costs as well as to advice on alternative technologies within the financial obstacles to ensure value for money with sustainable construction.These professions, therefore, influence the inflow of new technology significantly.

Sampling Method
The sampling method adopted by the analysis is the stratified random sampling.Engineering Sampling is the process of selecting units like people from accessible population so as to fairly generalize results to the target population [18].Stratification of the society is also viewed as one way of reducing sampling error because the allocation of population members into strata restricts the variance within the range of values in each layer.The study assumed a confidence level of 95% meaning the response achieved was within either plus or minus 5% of the actual state of affairs in the Nigerian construction industry.
The adequate sample size was established by applying the statistical method below ( ) where: N = Size of the population (average number of registered architectural, quantity surveying and engineering firms).n = sample size.p = sample proportion.q = 1 -p.e = acceptable error (e = 0.05) i.e. estimates to be within 5% of the true value.

Z = value of the standard variant at a confidence level (area under a normal curve in a distribution table).
(Source: Chava F and Nachmias D, 1969) = 55 Architects, Quantity surveyors, and engineering firms.

Research Instruments
Research instruments are the techniques or methods of data collection [19].A survey which is based on some form of random sampling technique will produce a sample which is representative of the particular population under study and will produce findings which may be generalized to the wider population [20].
The research adopts a trend study; a type of longitudinal design where different samples of targeted population are asked the same questions.The questionnaires comprised of both closed and open-ended questions.The former questions were more in number since possible answers accompany them that a respondent can choose from.They are easy to analyze because their information content is short.Open-ended questions were appropriate to the study because the researcher was interested in in-depth information from the respondents to air out their views.Section A of the questionnaire contained the demographic information of the participants (age, professional qualifications, and length of practice).Sections B C and D included questions relating to the objectives of the study (Table 2).

Data Analysis
Statistical procedures were utilized to evaluate the survey statistics to answer the research questions.Data collected was analyzed quantitatively.Quantitative data were examined using the Statistical Package for Social Sciences (SPSS).The statistics calculated included frequencies, means, percentages, and trends.The analysis of the data was then made within the scope of the research problem.

Reliability of the Data Collection Instrument
In this research, the data collection tool (questionnaire) was examined on 10% of the sample of the questionnaires to make sure that it is relevant and compelling.
It was pre-tested on 6 respondents.

Validity of Data Collection Instrument
For construct validity, the surveys were categorized into a number of sections to make sure that every part assesses information for a particular objective and also provide the same close ties to the conceptual framework for this study.

Results and Discussion
In this section, data has been analyzed, interpreted and the results of the study presented.The results were based on the collection of data on factors influencing the transfer of technology for sustainable construction in Nigeria.Data from architects, quantity surveyors and engineers were used to answer the research questions.

Sustainable Construction in Nigeria
This section of the paper examines the knowledge of construction consultants on sustainable construction.It also discusses their view on the status of sustainability in construction in Nigeria.The respondents were asked to give their opinion on elements of construction and factors affecting technology transfer in its potential to implement sustainable construction.This question is a reflection of the technological status in the construction industry as a means of developing sustainable construction.

Status of Sustainable Construction in Nigeria
The question sought to establish the professional perception of sustainability in construction.This helped to determine whether the professionals were aware of Engineering the scope and the purpose of sustainable construction.The responses were as follows: (Table 3).
Low environmental impacts are the most highly perceived element of sustainability by all the professional respondents (100%).All the respondent architects also indicated resource efficiency as an element of sustainable construction while 17 (85.8%) of the respondent quantity surveyors and 9 (81.8%) of the engineers identified resource efficiency as an element of sustainable construction.The study found out that 16 (94.1%) of the architects who responded identified economic advantages as an element of sustainable construction while 18 (90%) of the respondent quantity surveyors and 8 (72.7%) of construction engineers identified economic benefits as an element of sustainable construction.Social advantages were the least recognized element of sustainable construction by 15 (88.2%) of the respondent architects, 13 (65%) of the respondent quantity surveyors and 7 (3.6%) of the respondent construction engineers.

Factors Affecting Technology Transfer
The primary purpose of this investigation was to identify the features influencing the transfer of technology to enable sustainable building in Nigeria's construction industry.To achieve this objective, the researcher listed some indicators in research on the sustainability of technology transfer and the involvement of stakeholders on how they were influencing technology transfer.
The findings from

Inferential Statistics
The inferential statistics were obtained by carrying regression analyses.The results are presented in the subsections that follow.

Figure 1 .H0 1 :
Figure 1.Conceptual framework for studying the association between the research on sustainability and involvement of stakeholders in the success of technology transfer.

Table 1 .
Below shows some attributes of sustainable characteristics.

Table 2 .
Objectives of each section in the questionnaire.

Table 3 .
Elements of sustainable construction.

Table 4 .
Factors affecting technology transfer.

Table 5
Illustrates that there is an excellent linear association between the predictor and outcome variables; this is tabulated in the above table.This is ex-