Influence of Teachers’ Competencies on ICT Implementation in Kenyan Universities

Teachers’ ICT implementation is of growing importance in classrooms; currently, technology has become an essential ingredient of teachers’ practice. )e study explores the implication of teachers’ competencies on ICT implementation in universities. )e empirical literature has established a considerable research gap despite teachers’ competencies being critical in ICT implementation. )e study presents a university survey in Kenya on 475 teachers exploring the implication of teachers’ ICT competencies on ICT implementation and teachers’ skills and knowledge. )e descriptive statistics results indicated a mean of 4.279 and a Spearman correlation of 0.618 between teachers’ competencies and use of software tools, implying that teachers’ level of competencies increases as they use and employ software tools when teaching. )e chi-square test statistic indicated results of 288.498 and a significance of P< 0.005. )e P value is less than the chosen significance level α� 0.05, which checks for independence on the teachers’ competencies on ICT implementation. )erefore, implying that the null hypothesis was rejected at the 5% level of testing.)e conclusion was that there is significant evidence that teachers’ competencies significantly influence ICT implementation.)erefore, this study forms a foundation informing all universities stakeholders on their responsibility to support teachers in implementing technology in their instruction.


Introduction
Information Communication and Technology (ICT) implementation in universities has recently gained momentum due to the technological revolution and advancement of the Internet as the medium of communication [1]. erefore, ICT implementation has attracted the interest of institutions of higher learning, teachers, and the corporate sector. Technology has greatly transformed higher education in the 21st century. According to Ogegbo and Aina [2], the world is currently in the ICT era; thus, information is no longer restricted by time-space and channel. Information Communication Technology (ICT) Implementation in education has created a robust classroom environment that has transformed teaching and learning. Teachers and learners apply knowledge in an active, self-directed, and constructive way [3]. Teachers play an essential role in the effective implementation of one-to-one initiatives, and they bear the responsibility of implementing ICT in the classroom. erefore, there is a need to investigate teachers' competencies since overall, teachers integrate ICT into the school. e playing field between student and teacher should be leveled. If there is no ICT integration, there will be a wide generation gap; thus, the importance of this research is to ascertain the teacher's competencies as an influencing factor in ICT implementation.
Mavrina and Mingaleva [4] indicate various ICT interventions in education at institutional, national, regional, and global levels, thus making it easy for ICT to improve the quality of teaching and learning, increasing education accessibility, enhancing social equity, and cultivating inclusive knowledge society across the world. Similarly, Teacher Education for sub-Saharan Africa (TESSA) is a well-tailored program creating multimedia resources for sub-Saharan teachers and teacher educators. e program has made a milestone by introducing BBC radio programs that debate teachers' roles and responsibilities in improving their skills and acted as a tool kit for education planners and stakeholders in designing open and distant learning for tutors in Africa. ICT implementation is a revolutionary tool that has brought meaningful changes in teaching methodologies. Technology has contributed immensely towards learner-centered teaching methods [5,6].
Teachers' competencies on ICT in the 21st century require a regular update on knowledge and skills to be in tandem with the technology dynamic to implement it in classroom instruction. Collaboration in ICT Knowledge and integration is paramount for the teachers and students to navigate the large amount of information needed to accomplish complex tasks in the world economy [7]. Many developing countries are pressurized to implement ICT in teaching and learning to cope with the skills and knowledge needed in the 21st century [8]. However, the key challenge facing education institutions globally is curriculum transformation to equip learners with the relevant skills needed in the 21st century [9]. Further, despite addressing the teachers' initial anxiety of getting involved in technology, technical support has still been a challenge; however, teachers are advised not to be discouraged by technological failure they do not comprehend [10].
Teachers need to be equipped with relevant ICT competencies, including software with specific applications apart from word processors, data processors, and spreadsheets; the Statistical Package for the Social Sciences (SPSS) analyzes data, thus enhancing output. erefore, increasing learners' learning experience can access their learning through community education, cultural diversification, and globalization, ensuring no boundary in place and time.
us, knowledge is student-centered [11]. Further, ICT provides tools needed in the "Information Knowledge Society"; therefore, teachers are compelled to digitally integrate ICT in instruction to empower their students in the 21st century. ICT enables collaboration, creation, storage, and dissemination of knowledge and resources worldwide [6]. erefore, with the increasing demand for ICT skills, education institutions must provide learners with essential roles in knowledge dissemination in the current digital world [12].
Teachers' competencies are critical influencers on ICT implementation in institutions of higher learning, as reported by Yang [13]. Similarly, Agarwal [14] posits that training gaps aided by administrators are viewed as an obstacle towards ICT implementation. Storte et al. [15] have categorized ICT implementation into levels such as teachers' competencies, training, and motivation, the school environment on ICT access, and absence of ICT dimension and school system, which explores the system's rigidity that explores more comprehensive educational framework. erefore, there are conspicuous gaps between policies and changes in classroom exercises that directly affect [16]. erefore, the implication is that teachers should articulate policies, but unfortunately, they are unaware of the policy themselves or their purposes. Consequently, policies are affected as programs; however, these programs rarely attain an anticipated change in the classroom.
Teachers' roles such as course development, course facilitation, course moderation, and learners' evaluation will significantly change with introducing the innovation [17]. erefore, the need for teachers to learn the skills enhances their competencies within the learning environment. Wang and Lu [18] revealed that effective application of policies in the classroom significantly correlated with the teachers' learning with the policy-related document. Similarly, research has established that learning is a process of interception between teachers and learners since they all participate in the learning process; however, the teachers should take the initiative to lead the way since they greatly influence curriculum implementation. However, the empirical review has shown inadequacies of teachers' competencies using ICT tools to develop courses, upload learning materials, facilitate online discussions, and evaluate learners remains unclear [19]. erefore, there is a need for teachers to possess the prerequisite competencies in teaching and management. Consequently, the study was guided by the following objectives: (i) To determine the influence of teachers' competencies on university ICT implementation (ii) To assess the relationship between teachers' competencies and ICT implementation in universities

Purpose of the Study
According to Uslu [20] for any innovation to be effective and successful, change agents are required key; among them are the teachers since they are the essential medium of instruction. Teachers' competencies greatly influence any innovation and curriculum adjustment that necessitates any change in content and methods [21]. However, effective ICT implementation in universities may not be adequate if university teachers lack the necessary competencies to function adequately in teaching and learning. By assessing the influence of teachers' competencies on ICT implementation in Kenyan universities, the research highlights teachers' competence gaps that impede ICT implementation and addresses the need for appropriate intervention to improve teachers' competencies to enhance access and effective ICT implementation.

Teachers' Competencies
Teachers' competencies are the confidence, skill, and capability in using ICT for instruction purposes to perform the task appropriately [22]. Teachers' competency is a vital capacity required to implement ICT in teaching and learning. Studies by Emiliani et al. [23] established that the lack of confidence in using ICT in instruction is caused by inadequate knowledge on ICT-related tasks and deficient skills in using ICT software tools and appliances. Brown et al. [24] reiterate that capacity building in education on ICT use should concentrate on sketch multimedia modules borderless training strategy and in-service training using ICT. erefore, the instructors should be equipped and furnished with relevant knowledge and skills to become more agreeable with technology, the Internet, web design, and projectbased approaches to education. UNESCO [25] teachers' pedagogical integration of ICT is a process with four key 2 Education Research International stages, namely, emerging, which is the application of productivity instruments; applying, which is the intensification of traditional teaching methods; infusing, which is the facilitation of blended learning within or across subject areas; and altering, which is the creation of interactive learning platforms. All this is geared towards equipping instructors to employ ICT in subject teaching, familiarizing ICT tools, and specializing in usage patterns. Similarly, Wolff et al. [26] reiterate that skill and knowledge, if not addressed conclusively, could inhibit the effectiveness of ICT use in teaching and learning. Further, Xue and Churchill [27] posit that there has been a meaningful improvement in teachers' awareness and transformation of classroom activities after training geared towards educational practices and strategies on ICT application. e findings are consistent with Zha et al. [28] who deduced that instructors with limited ICT training are authoritarian and inefficient, making learning difficult for learners as they view school being repressive. Similarly, research has established that routine use of ICT through teachers' professional development and instruction process correlates with high-level learners' ICT-related skills and experience. Further, teachers' inefficient ICT skills and knowledge influence their competencies in implementation in their institutions. Hofer et al. [29] established that teachers devoid of ICT skills and knowledge do not integrate ICT in teaching and learning. us, rendering integration and implementation are an uphill task since instructors with limited experience with ICTfear to try using them, as posited by Yang and Lam [30]. e latter deduced that teachers shy away from integrating ICT in teaching.
Teachers' competencies are the key predictor in ICT implementation in universities. Mabrouk et al. [31] established the correlation of teachers' competencies with their confidence; thus, teachers' confidence relates to the perception of ICT tools in the classroom in relation to their learners' perceived competence. Similarly, teachers' ICT competency correlates with their qualifications; thus, academic qualifications influence ICT implementation. Molteni et al. [32] established that personalities with lower education significantly use ICT tools rarely for various purposes in both developing and developed countries. Marcinkiewicz-Wilk and Jurczyk-Romanowska [33] showed that computer competence correlated with computer use among university lecturers in the United States of America. ey, therefore, concluded that computing confidence greatly influenced university preparedness on ICT implementation. Further, [34]established that ICT competence was fundamental to ICT implementation by lecturers in teaching and learning. erefore, ICT competence by lecturers influenced ICT implementation in the university since lecturers are crucial in enhancing institution capacity to embrace ICT.

ICT Implementation. Information Communication
Technology (ICT) implementation involves the choices and decisions of an individual or a learning institution to adopt a particular technological innovation [35]. e implementation consists in adoption of all necessary procedures to use the technology [36]. Generally, the process should be complete, where all the critical components are put together to make a whole [37]. e ICT implementation procedure uses research tools, evaluation procedures, organization, and information communication [38]. Further, in universities, teaching and learning tools for research and the Internet are widely used [39]. Similarly, other tools like computers, projectors, and audial and visual technology in universities are applied for teaching and learning [40].
Studies on teachers by Garcia et al. [41] established that 85% had inadequate skills to implement ICT in teaching and learning effectively. us, skill competence was regarded as the critical factor limiting ICT implementation in instruction. Similarly, a study by Selim et al. [42] on teachers' acceptance of ICT integration in teaching deduced that skill inadequacy contributed to little confidence in using ICT technology, thus a significant influence in ICT implementation in universities in Malaysia. Further, Agboola et al. [43] investigated the preparedness of university lecturers for the introduction of ICT in the International Islamic University of Malaysia established that confidence and training in ICT was a significant predictor of ICT implementation. us, the correlation implied that trained lecturers' exhibited substantial levels of preparedness and demonstrated confidence in integrating ICT. e study further investigated the impacts of background factors such as gender, age, and experience and established that ICT implementation had a weaker correlation; thus, they are not significant.
Studies by Wu et al. [44] investigated the factors influencing ICT websites adoption in universities. ey established that intention to use ICT websites was greatly influenced by the relative advantage of the website, compatibility of the technology, and prior experience in ICT use. Further, lecturers' use of ICT websites was greatly influenced by their competence in using the technological tools. erefore, ICT competent lecturers exemplified quick accessibility of ICT websites, unlike the incompetent who had challenges. However, the study eluded the affordability and accessibility of ICT infrastructure; therefore, it may not be applicable in developing countries. Further, Konovalova et al. [45] investigated the factors influencing e-learning at a university in Bahrain.
e study was premised on the Technology Acceptance Model (TAM), which established that perceived usefulness and ease of use significantly influenced lecturers' use of ICT in teaching.
Further, the findings demonstrated that computer selfefficacy significantly influenced accepting ICT technology. erefore, the study was necessary to upskill ICT skills and knowledge by the teachers because they greatly influence the ICT perception of both their students and university management. However, the Technology Acceptance Model (TAM) applied in the study was weak in not considering the socioeconomic and cultural factors that determine an individual's technology use orientation [46].
Further, Sobieraj and Krämer [47] investigated the role of gender and social influence in technology acceptance behavior among the academic staff of public universities. ey established that men accepted the new technology more than women. Similarly, younger teachers were more Education Research International interested in new technology than the older lecturers. e findings implied that younger teachers were open to new ideas, unlike more senior teachers who were afraid of new technologies and considered them a threat to their careers.
Kalla et al. [48] investigated the factors influencing teachers' computer use in the classroom in selected commonwealth Virginia schools.
e study established that personal belief in ICT competence significantly predicted ICT use to support learning. e findings further reiterated that lecturers' competence greatly influences ICT use in teaching and learning. Similarly, Knezek et al. [49] investigated the impact of new ICT on lecturers' function and performance. e study applied an alternative hypothesis that high-level ICT skills result in higher technology integration, thus positively impacting students' achievements. erefore, the model implied that teachers with higher skills easily influenced their institutions to integrate ICT technology in teaching and learning.
Garousi et al. [50] investigated teachers' attributes on computing skills in Ecuadorian public universities. ey established that changing lecturers' negative attitudes is essential for improving competence in ICT implementation in universities. erefore, for successful ICT implementation in universities, lecturers should possess a positive attitude on ICT tools. e findings further concluded that lecturers could develop a positive attitude when comfortable and knowledgeable with the technology. Additionally, Law and Lynch's [51] study on "worldwide assessment of ICT integration" established that inadequate ICT skills greatly influenced ICT implementation in teaching and learning, with lecturers' adequate knowledge and skills being the critical impediments to technology implementation in learning institutions. erefore, there is need for addressing the skill challenge among the teachers for efficient ICT implementation in universities.
Luan et al. [52] investigated gender differences in ICT competencies among teachers and teaching staff at University Putra Malaysia. e study used different software tools such as spreadsheets, databases, presentations, electronic mail, World Wide Web (WWW), multimedia, and virtual applications and assessed the differences in competencies among male and female lecturers. e findings established the fact that both female and male teachers had good skills in word processing and e-mailing tools. ese results were attributed to frequent utilization of ICT materials, manuscript writing, and general communication. e findings indicated that female lecturers had competence in the use of many software tools in comparison to their male counterparts. For example, female teachers had scored 85% against 64% for males in the insertion of texts in the word processing. Further, females scored higher than males in the application of e-mailing tools with 96% against males with 87%. e findings further established that overall, 64% of all the lectures had some computer competencies [52].

Theoretical Background
is research study is premised on Information System (IS) Success Model developed by [53]. e proponent examined the Information System (IS) success literature and developed a comprehensive taxonomy of factors that contribute to the success of the Information System. Further, the IS model involves a combination of hardware and software hardware, training personnel by equipping them with relevant skills and knowledge to facilitate planning, control, coordination, and decision-making in an institution. e factors include the following.
System Quality Factor. It focuses on the use and performance aspects of the system being examined. e overall quality is the common dimension in evaluating the system. It indirectly impacts how the system delivers benefits by mediational relationships through user satisfaction and usage intention resulting from access, convenience, usability, and flexibility.
Information Quality Factor. It focuses on the quality of information that is produced by the system (IS's output) and its usefulness to the user. It is the most common dimension in which the systems are evaluated. It impacts users' satisfaction and intentions to use the system. us, an effect on the benefits accrued to the user and institution, for example, the instruction quality in teaching. e factor is measured through availability, adequacy, and IS relevance.
Service Quality Factor. It focuses on the quality of support users receive from management, IS department, and ICT support personnel. e service quality directly impacts user intention and satisfaction with the system, thus impacting the net benefit of the system, for example, policy guidance, training, and technical support. e service quality is measured through users' competency and capability, assurance, and empathy.
Intention to Use or System Use. is is the extent and how an IS is used. It is influenced by information, the system, and the quality of services. e use factor is believed to influence the users' satisfaction with the system, influencing the intention to use. erefore, intention to use or system use with user's satisfaction directly impacts the net benefits provided by the system. Consequently, it can be measured through the actual use and readiness to use, thus measuring system success.
User Satisfaction. is is the satisfaction and efficiency of IS by an individual or group of users. User satisfaction directly influences the net benefits of the information system. System use is directly affected by the degree to which the user is content with the information system. It is measured by users' enjoyment, attitude, or perception of implementing the system.
Net Benefit Factor. is is the degree to which the IS contributes to individual and organization success. e net system benefits are affected by system use and user satisfaction. e system benefits influence both user satisfaction and intention to use the system. It is measured by the extent of system efficiency or productivity and returns on investment (ROI).
According to DeLone and McLean [53], the six factors are interrelated and not independent based on causal and process considerations. e factors are indicators for measurement and influential factors whose extent determines the success and productivity of any IS performance. Further, the factors imply measuring, analyzing, and reporting IS success. e model advocates that an IS is first created with various characteristics that exhibit different system and information quality degrees. e managers and users then experience these characteristics through system use; thus, they are either satisfied or dissatisfied with the system. Further, system use and its information impact an individual user in their work, and the individuals' influences result in institutional or organizational impact. erefore, this study has adopted the information system success to describe the influence of teachers' competencies on ICT implementation in universities. e taxonomy of the factors in the model is essential for effective ICT implementation in universities (net benefits). e indicator factors applied in this study are university curriculum and government support. ey constitute key factors that are fundamental to implementing ICT in universities effectively.
DeLone and McLean's IS success model was published in 1992 and was based on theoretical and empirical IS research done by researchers in the 1970s and 1980s. However, the role of information system (IS) success has tremendously advanced in the last few decades. Further, the model has been researched widely since its publication in 1992 [53,54]. e model applies a multidimensional approach applicable in different ICT implementation contexts. Further, the model has been widely linked to positive outcomes in various studies on factors influencing ICT implementation. erefore, the study has developed justifiable recommendations on developing applicable teachers' competencies that enhance ICT implementation.
Further research has established that the success of any information system is dependent on the dimensions of IS model. Perceived system quality measured by ease of use, that is, the implementation of ICT, and perceived Information quality measured by availability and adequacy of ICT infrastructure are key predictors in system satisfaction. e perceived system quality, that is, the ease of use of the system, is also an important predictor of system use that is the actual system use. e user satisfaction was found to be a strong predictor of individual impact and institutional net benefit to studies on "Electronic Health Record (EHR)" by [55]. However, the said studies by this model were widely done in different contexts rather than Kenyan universities. erefore, there is a need for adopting the model and conducting a study to establish the setbacks of effective ICT implementation in Kenyan Universities.

Methodology
e study adopted a descriptive survey research design. e target population for this study was teachers and university administrators from Chuka University in Kenya. e number sampled was 475 from a sample of 1400 university staff. Data were analyzed using both descriptive and inferential statistics. e analysis used descriptive statics and identified the mean statistics. e correlation was tested using Spearman's rho correlation and Chi-square used for hypothesis testing with the help of the Statistical Package of Social Sciences (SPSS), where a level of significance at 0.05 led to an acceptance of the hypothesis.

Participants.
is study targeted the teachers' population of Kenyan universities. e target population is composed of all teachers and universities' administrators. e population specification that addresses the inquiry affects the researchers' decisions on sampling and resources used [56]. e population is considered a group of individuals, observation, and a test involved in the search problem [57]. According to research, the population is regarded as a distinct component of analysis like a school, institution, or organization [58]. erefore, the target population of this study included university teachers and university administrators chosen because they are the implementers of the ICT process at the university level.

Instruments.
is study applied the questionnaire method to collect data. A questionnaire is a research instrument for gathering data evaluated against a particular social, educational, and psychological perspective [56]. e questionnaire is distributed to specific people to obtain data on an investigated phenomenon. is research instrument fit the study because it could reach many people with minimal cost and elicited a lot of information. e respondents gave an insight into their feelings, background information, hidden motivation, interest, and decisions. Open-ended questions allowed and stimulated respondents to think about their feelings or motives and to express what they considered to be most important.

Data Collection Procedure.
e researchers sought permission from the National Council of Science, Technology, and Innovation (NACOSTI) and the university administration to conduct the research. Generally, the study was guided by informed consent since research participation is not a straightforward matter and needs permission [59]. In writing, the selected respondents were informed on their option to participate or not to participate. Further, the justification for sampling was clearly explained. e respondents were briefed correctly before completing the questionnaire. e research purpose was to assess teachers' competencies influencing ICT implementation in Kenyan universities.

Data Analysis.
e questionnaires were processed and entered into the computer for analysis. e data was processed through coding the responses to enhance good analysis with the Statistical Package for Social Sciences (SPSS) using descriptive statistics. e study applied Spearman's rho correlation analysis using the correlation coefficient analysis to test hypothesis Ha 1 , using Spearman's Rho correlation denoted by r. A Spearman rho correlation Education Research International analysis investigated an association or variance between teachers' competencies and ICT implementation in Kenyan universities. Further, the chi-square test that checks for independence on the teachers' competencies on ICT implementation statistics helped calculate each response's means, mode, median, and standard deviations in each category.

Sample Size and Sampling Procedures.
e study used a total sample size of 475 individuals for the study drawn from a target population of 11,328 individuals, according to Krejcie and Morgan sample size table. e researchers developed a model for determining sample sizes at different confidence levels and error margins. e 95% confidence level margin and a sample of 475 subjects were considered an appropriate representation of a population above 10,000 issues but equal to or less than 15,000. Generally, it is argued that the bigger the sample size used, the closer the distribution to an ordinary distribution, referred to as the central limit theorem, which can also occur if the sample is not ordinarily distributed [56]. [56], the sample needs to be significant to ensure sufficient responses for the required margin error, and a 100% response rate is unlikely. ere is a need for a high response rate to ensure adequate sample representatives. In this study, the response was due to some respondents' COVID-19 lockdown and restrictions and lack of time. A total of 550 questionnaires were distributed to university teachers and administrators. Out of the 550 questionnaires distributed, 475 (86.4%) were appropriately filled and returned. e rest 75 (13.6%) were not filled and others partially filled; thus, they were discarded during data analysis. Mugenda and Mugenda [56] indicate that a 50% and above return rate is acceptable in any study. erefore, a return rate of 475 (86.4%) was considered adequate for the study. Table 1 indicates the gender of the research study respondents. Of the 475 respondents, 250 were males. e results constitute 52.6%. Again 225 females constituted 47.4%. e implication was that most university teachers involved in ICT implementation in Kenyan universities were men and that most males significantly influenced ICT programs in the institution. Table 2 indicates the ages of the respondents. 25.3% of the respondents were below 30%, 37.9% were within 31 and 40 years, 24.6% were between 41 and 50 years, 10.3% were between 51 and 60 years, and 1.9% were over 60 years. Table 3 shows descriptive statistics, showing the influence of the teachers' competencies on ICT implementation. e mean statistic is 4.2791, and Figure 1 gives a value of 4 when rounded up. e mean value shows that the teachers were competent enough to use ICT in teaching and learning. e majority of the teachers could perform basic ICT tasks, such as switching on and off a computer. ey also agreed that they were competent enough to use the Internet for educational materials and scan for viruses. e teachers were also capable enough to use the Internet for e-mail services. ey are also competent enough to be using application packages, such as spreadsheets, database management systems, and word processors.     Education Research International Table 4 shows a strong positive correlation that is statistically significant that teachers' competencies significantly influence ICT implementation in universities.

Findings.
ere is a correlation of 0.618 between teachers' competencies and the use of software tools. e findings indicate that the more teachers use ICT tools, the more competency they use when teaching software tools. Table 5 highlights the teachers' frequency of use of ICT software tools; the mean statistic of 3.64 and standard deviation of 0.71 translate to significant use of ICT by teachers in learning institutions.
e chi-square test statistic of 288.498 checks for independence on the teachers' competencies on ICT implementation.
erefore, according to the results, the significance is 0.000 P < 0.005. e P value is less than the chosen significance level α � 0.05, implying the null hypothesis was rejected at the 5% level of testing. e conclusion is that there is significant evidence that teachers' competencies significantly influence ICT implementation.

Discussion
e discussion is premised on Information Systems (IS) Success Model developed by [53]. e proponent examined the Information System (IS) success literature and developed a comprehensive taxonomy of factors that contribute to the success of the Information System. Further, the IS model involves a combination of hardware and software, training personnel by equipping them with relevant skills and knowledge to facilitate planning, control, coordination, and decision-making in an institution. is study adopted the Information System Success Model to investigate the influence of teachers' competencies on ICT implementation in Kenyan universities to develop strategies to streamline them for effective ICT implementation.
From the conceptual framework, teachers' ICT competencies constitute key indicators of effective implementation of ICT in universities. Nevertheless, teachers should integrate ICT into their curriculum to enhance access and quality teaching and learning to implement ICT in universities effectively. e IS model by DeLone and McLean's (M&D) was adopted to derive a conceptual framework that further determines the direction, process, and study outcome. e framework has been customized and domesticated as per the IS model. It has guided the study to establish the influence of teachers' competencies on ICT implementation in Kenyan universities.
Generally, the Information system (IS) Success Model is adopted to guide this study's theoretical and conceptual framework. e six (6) factors in the Information System (IS) success model such as System Quality factor, Information Quality factor, Service Quality; Intention to use or System use, User satisfaction, and Net benefit Factor defines the indicators that are conceptualized in the conceptual framework as key variables that determine the effective implementation of ICT in universities. Further, the Net benefit of the Information system (IS) Success Model, which describes the outcome of information system (IS), has been operationalized in this study to depict the Effective ICT implementation in universities, representing the dependent variable. us, the model helps establish the influence of teachers' competencies on ICT implementation. e findings in Table 3 show descriptive statistics showing the influence of the teachers' competencies on ICT implementation. e mean statistic is 4.2791, and Figure 2 gives a value of 4 when rounded up. e mean value shows that the teachers were competent enough to use ICT in teaching and learning. e majority of the teachers could perform basic ICT tasks such as switching on and off a computer.
ey also agreed that they were competent enough to use the Internet for educational materials and scan for viruses. e teachers were also capable enough to use the Internet for e-mail services. ey are also competent enough to be using application packages such as spreadsheets, database management systems, and word processors. e findings are consistent with Berner et al. [60], who investigated the factors influencing teachers' computer use in the classroom in selected commonwealth Virginia schools. e study established that personal belief in ICT competencies significantly predicted ICT use to support learning.
e findings further reiterated that teachers' competencies greatly influence ICT use in teaching and learning. Similarly, the results agree with Knezek and Christensen [61], who investigated the impact of new ICT on teachers' function and performance. e study applied an alternative hypothesis that high-level ICT skills result in higher technology integration, thus positively impacting students' achievements. erefore, the model implied that teachers with higher skills easily influenced their institutions to integrate ICT technology in teaching and learning. Table 4 shows statistically significant evidence that teachers' competencies significantly influence university ICT implementation.
ere is a correlation of 0.618 between teachers' competencies and the use of software tools. e findings indicate that the more the lecturers become competent, the more they use and employ software tools when teaching. e results agree with studies by Lam and Law [62] on teachers' preparedness for ICT, which established that 85% had inadequate skills to implement ICT in teaching and learning effectively. us, skill competence was regarded as the critical factor limiting ICT implementation in instruction.
Similarly, the results further agree with Eid et al.'s [63] study on teachers' acceptance of ICT integration in teaching, which deduced that skill inadequacy contributed to little confidence in using ICT technology, thus having a significant influence in ICT implementation in universities in Malaysia. Further, Lakshmi et al. [64] investigated the preparedness of university teachers for the introduction of ICT in the International Islamic University of Malaysia established that confidence and training in ICT was significant predictor of ICT implementation. us, the correlation implied that trained lecturers' exhibited significant levels of preparedness and demonstrated confidence in integrating ICT. Table 5 highlights the teachers' frequency of use of ICT software tools; the mean statistic of 3.6411 rounds off to a value of 4, translating to significant use of ICT by teachers in Education Research International learning institutions. e results correspond with Singh et al. [65], who investigated change levers for unifying top-down and bottom-up approaches to the adoption and Diffusion of e-learning in higher education. e study depended on Giddens' theory of structuration as a theoretical framework. e researchers surveyed five prominent United Kingdom universities to unearth the significant challenges of integrating the top-down and bottom-up approaches to the adoption and Diffusion of e-learning. e theory applied was used to explain the frequency of ICT use and the dynamics of organizational change on the adoption and Diffusion. e findings are intended to support our understanding of the interplay between top-down strategy and bottom-up ICT implementation. e study established that the integrated approach significantly influenced the adoption and diffusion of e-learning in higher learning institutions. Factors like teachers' competence, teaching staff's skill levels, and leadership significantly influenced university ICT use.
Tables 6-8 indicate a chi-square statistic test results of 288.498 checks for independence on the teachers' competencies on ICT implementation. erefore, according to the results, the significance is 0.000 P < 0.005. e P value is less than the chosen significance level α � 0.05, implying the null hypothesis was rejected at the 5% level of testing. e conclusion is that there is significant evidence that teachers' competencies significantly influence ICT implementation. e results confirm that teachers' competencies substantially influence ICT implementation. e findings agree with Yakubu et al. [66], who investigated factors influencing the adoption and use by university students in developing countries. e study was informed by the unified theory of acceptance and use of technology (UTAUT) and modeled according to survey method collecting data from 286 students of a higher education institution in Nigeria. e data were analyzed using the maximum likelihood of structural equation modeling (SEM) using the IBM Amos 22.0 application. e study's findings indicated that performance expectancy and effort expectancy (P < 0.001) were significant factors in influencing the use of Canvas. us, facilitating conditions such as competence, knowledge, and behavioral intentions were the most important influencing

Conclusions
e study sought to establish the teachers' competencies as an influencing factor on ICT implementation in universities. e study's objectives were to determine the influence of teachers' competencies on ICT implementation in Kenyan universities and assess the relationship between teachers' competencies and ICT implementation in universities. e study hypothesized a significant relationship between teachers' competencies and ICT implementation in Kenyan universities.
erefore, the study found that teachers' competence greatly influences ICT implantation in universities. e findings indicated a very high statistic mean of 4.2791, showing that the majority of teachers were competent enough to use ICT in the teaching and learning process. Many teachers could perform basic ICT tasks such as switching on and off a computer. Further, the results indicated that many lecturers were competent enough to use the Internet for educational materials and scan for viruses.
Similarly, other teachers could also use the Internet for e-mail services. ey are also competent enough to be using application packages, such as spreadsheets, database management systems, and word processors. Further, the value of the chi-square result of 288.498, with 4 degrees of freedom and a P-value of 0.000 which was significant at a 0.01 error margin, confirmed that the teachers' competencies have a substantial influence on ICT implementation. erefore, it was concluded that teachers' competencies are statistically significant and influence ICT implementation in universities, similarly, with a correlation of 0.618 between teachers' competencies and software tools. It can be concluded that teachers enhance their competence with the continued use of software tools when teaching; thus, they need to familiarize themselves with all ICT tools in instruction.

Contribution of the Study.
e conduct of this study was motivated by the need and realization that ICT implementation has become a necessity in higher education in the current 21st century world. us, universities have to redefine their mission on technology innovation in instruction to enhance their competitiveness in the world economy. erefore, this study provides valuable baseline information to stimulate investment teachers' ICT competencies to streamline university education. Further, Information Communication and Technology (ICT) implementation in universities is a new venture in developing countries; there is a shortage of empirical literature to inform universities on the adoption model. erefore, this study will benefit many institutions in developing countries to shift from traditional delivery mode to ICT implementation. e study will also contribute to the existing literature on ICT Implementation in universities in developing countries where few systematic studies on ICT have been done. Further, the study incorporated theInformation Systems (IS) Success Model, thus contributing to the model by suggesting a model for addressing many antecedents of theInformation Systems (IS) Success Model applicable in universities in developing countries.
Data Availability e data for this research paper is included in the paper and it is readily available from the corresponding author upon request.

Conflicts of Interest
e authors declare that they have no conflicts of interest regarding the publishing of this paper.