Next Article in Journal
Customer Churn in Retail E-Commerce Business: Spatial and Machine Learning Approach
Next Article in Special Issue
Show Me What You Do and I Will Tell You Who You Are: A Cluster Typology of Supply Chain Risk Management in SMEs
Previous Article in Journal
Antecedents of Online Impulse Buying: An Analysis of Gender and Centennials’ and Millennials’ Perspectives
Previous Article in Special Issue
Deploying Big Data Enablers to Strengthen Supply Chain Agility to Mitigate Bullwhip Effect: An Empirical Study of China’s Electronic Manufacturers
 
 
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Decision-Making Strategy for Digital Transformation: A Two-Year Analytical Study and Follow-Up Concerning Innovative Improvements in University e-Services

1
Department of Computer Information Technology, Faculty of Applied Studies, King Abdulaziz University, P.O. Box 80200, Jeddah 21589, Saudi Arabia
2
Department of Information Technology, Faculty of Computing and Information Technology, King Abdulaziz University, Jeddah 21589, Saudi Arabia
*
Author to whom correspondence should be addressed.
J. Theor. Appl. Electron. Commer. Res. 2022, 17(1), 138-164; https://doi.org/10.3390/jtaer17010008
Submission received: 21 November 2021 / Revised: 22 December 2021 / Accepted: 11 January 2022 / Published: 14 January 2022

Abstract

:
Universities worldwide strive to provide the best student services possible, particularly those that support student achievements and career goals. Therefore, academic advising continues to be a significant part of the student experience, one which universities need to fully understand in terms of its objectives, application processes, and required skill. As a result of significant technological improvements since the turn of the millennium, including expanding internet applications and digital transformations, universities have established computer information systems that support academic advising and course registration services. This study examined the effects of modifications to the electronic academic advising and course registration systems at King Abdulaziz University in 2018, and then again in 2020, following a university-wide system failure in 2018 resulting from a demand overload. In 2018, a preliminary statistical analysis and student feedback survey were conducted by the authors to measure student satisfaction with the online portal On-Demand University Services (ODUS Plus). In addition to recommendations suggested by the 2018 analysis such as balancing the load distribution of the university’s network, organizational (i.e., non-technical) solutions, rules, and regulations were adjusted such as progressive course registration that prioritized those expected to graduate first. The survey and analysis were repeated by the authors in 2020 to assess improvements in student satisfaction. As a result of the changes, the investigation revealed improved student satisfaction with the performance of ODUS Plus and network access. Overall, students were significantly more satisfied in 2020 than in 2018. This research shows that some technical challenges can be resolved using re-engineered processes and organizational solutions.

1. Introduction

The primary objective of this paper is to investigate how changes made to the electronic educational systems of higher education institutions may affect institutional decision-making strategies. In addition, this study contributes to the ongoing academic and practical discussions concerning the efficacy of digital transformation of higher education institutions based on the latest artificial intelligence developments.
While this study evaluated some changes made to the electronic education system used by King Abdulaziz University, a leading public university in Saudi Arabia, this study is an attempt to stay abreast of recent developments to improve the educational process, especially in terms of digital transformation, which may be central both to enhancing the process and in decision-making.
The university stage is considered the essential link in the educational chain due to its contributions to developing the student’s critical thinking skills as well as their resilience when faced with the challenges of working life. From this perspective, it is critical to provide students with the skills, capabilities, and relevant work experience to assist them as they take their first steps into their career.
The significant increase in students and the expansion of specialties, especially the scientific disciplines, as well as the diversity of student backgrounds have led to increasing innovations in methods and processes concerning academic advising in universities around the world, including King Abdulaziz University. The virtual space has become a critical part of the direction communication between universities and students that allows academic advising to commence regardless of time or location.
King Abdulaziz University has integrated academic advising services and electronic systems that were designed with the latest programming languages, databases, and software for its website applications. Furthermore, providing innovative, interactive advising services to university students provides a gateway to the university’s digital educational offerings through their online portal [1,2,3,4,5,6,7,8,9].
After studying best practices at universities in developed countries, we found that students benefit from a university’s efficient implementation of distance education systems, as well as a shift in purpose concerning academic advising. Rather than the traditional concept of academic advising as an educational guide, academic advising can expand its role to effectively, and virtually, support students by providing both guidance and an interactive, supportive community. For clarity, this is not the same process as e-advising, which relies on electronic data, advising instructions and protocols, and a study plan to facilitate the traditional academic process between advisors and students. This novel, interactive academic advising promotes communication between the student and the advisor, the student and other students, and the advisor and other advisors.
The academic advising process at King Abdulaziz University is an integrated approach that enables all associated parties (e.g., students, advisors, faculty members, and university management) to interact and communicate electronically. It promotes the integration of both male and female campuses in the academic environment, so they can reach the highest levels of academic achievement. Therefore, developing students’ skills academically, intellectually, and socially is required for attaining the university’s education goals. The electronic academic advising system at King Abdulaziz University has numerous key features that connect students and academic advisors for various educational purposes, the most essential of which are shown in Figure 1.
Taking King Abdulaziz University as a case study, we investigated how changes to the online processes involved in academic advising and course registration impact student satisfaction and their decision-making process.
This research offers insights on practical outcomes when considering similar changes for leaders in higher education institutions (HEIs). It also provides technical solutions for typical problems that can be easily resolved with re-engineered processes and organizing solutions and may be used in the future as a reference for the development and implementation of online course registration and virtual academic advising processes.

2. Literature Review

Universities worldwide rely heavily on online services for registration and academic advising as well as for other services. This shift has expanded and has become a predominant feature of respected universities worldwide, even before the COVID-19 pandemic. As a term, “advising” or “academic advising” or, sometimes, “student advising”, can have variations in their meanings, as each definition has its particular nuance or focus. For example, Crookston [10] tackled advising from a student development approach and, therefore, viewed academic advising as “a teaching function based on a negotiated agreement between the student and the teacher in which varying degrees of learning by both parties to the transaction are the product.” Abernathy and Engelland [11] viewed advising as serving to “provide the primary guidance and direction a student needs to navigate through the college course selection and registration process successfully.” Therefore, we inferred that e-advising could be considered a technology-supported version of academic advising.
While universities must address student dissatisfaction with advising and registration processes regardless of the efforts made by advisors to accommodate student needs, Laghari [12] suggested that from a student’s perspective the registration process involved choosing which courses they should take. However, from the administration’s perspective, it involved keeping records up to date to create class lists and organize other academic activities. Therefore, a robust system for advising and registration is required.
Accordingly, automated advising systems have been developed to successfully assist students in course selection during online registration. Since academic advising has been shown to improve academic performance, Brdesee et al. [6] suggested that universities could engage students’ passion for social media to deliver advising services and develop an integrated framework that offered academic advising via social networks. Meanwhile, within the same context, Afify and Nasr [13] proposed a web-based program for academic advising to enhance the overall advising experience that focused on the methodologies used to develop the system, as they considered advising as more of a process than a product. The study’s premise was that the online advising and registration system should detect student problems and, consequently, provide them with solutions. The proposed program, which was built using the Ruby programming language and PostgreSQL’s open-source database system, stressed the significance of the academic advising system as a web-based application and recommended further developments for advising programs using more complex systems.
Pasquini and Steele [14] asserted that artificial intelligence (AI) could support academic advising and other student services with a focus on the impact of AI interactions on all involved parties. To make well-informed decisions and offer students more comprehensive support, technology should underpin advising and registration programs. The study also stressed that stakeholders’ input regarding these issues must be prioritized before the implementation of any new or improved student support technologies, as the stakeholders directly engage with students and have increased awareness concerning how AI could enhance students’ experience in academic advising and registration processes. This view was also shared by Henderson and Goodridge [15]. They maintained that the process of academic advising in higher education has many inefficiencies, including high student loads, redundant issue handling, and long waiting periods, among other issues. Henderson and Goodridge proposed an intelligent web-based application to provide e-advising services. The study suggested that using AI to facilitate academic advising without any human involvement improved the efficiency and transparency of the advising process in higher education. It was recommended that students who had problems beyond the scope of the online system could communicate with human academic advisors using online methods such as e-mail.
Furthermore, Estevez et al. [16] pointed out that course registration systems often posed usability problems for users. Therefore, the researchers proposed an enhanced model for course registration that improved usability and increased user satisfaction. The study concluded that designing the right solution for a university’s needs reduced the time involved in registration and improved student satisfaction. While maintaining that academic advising has a crucial role in resolving academic issues for students as well as in boosting their satisfaction and loyalty, Assiri et al. [2] examined other technologies that have been used in academic advising. They recommended creating robust AI-based e-advising systems while stressing the need to address the challenges and drawbacks in e-advising systems, including how to deal individually with students with special issues, the problems associated with information overload, the need for a holistic approach that encompasses advising goals (i.e., competencies, goals and interests), and system speed and response times, among others. The study also found that the e-advising systems must be integrated with universities’ student records databases.
Academic advising is concerned mainly with registration issues. Students contact their academic advisors when they face complex registration problems, usually for reasons such as early graduation, changing majors, transferring course credits, and studying abroad. Since the mid-1990s, universities have, for the most part, computerized their registration systems. The link between academic advising and registration encourages research on assessing the validity, reliability, and usability of higher education electronic advising and registration systems. In a study conducted in Saudi Arabia, specifically on King Abdulaziz University system, Noaman et al. [8] maintained that universities with a large number of students suffered a massive burden in terms of academic advising provisions for students and found that the e-academic advising approach adopted by King Abdulaziz University improved the advising process. The researchers suggested further developments of such e-services. Furthermore, Eckroth and Anderson [17] proposed an academic advising system named “Tarot”, which employed planning engines that considered unexpected scenarios for course registration.
Tchouakeu et al. [18] argued that one of the key academic objectives should be making the registration process “more convenient and easier to achieve”. Their study considered the “e-Lion” system (now “LionPATH”), used in Pennsylvania State University, illustrating how the system succeeded in increasing efficiency and satisfaction. Meanwhile, Liu et al. [19] proposed a model system for university student registration as an information management system that functions as a registration tool and offers statistics and analysis for all inputs. The researchers recommended upgrading and expanding the proposed system to boost the e-registration process further. Likewise, Almazmomi and Alhassan [20] maintained that usability assessments reflected user satisfaction. Their study investigated optical character recognition (OCRS) and subsequently proposed a model to measure OCRS usability, taking King Abdulaziz University’s e-platform (ODUS plus) as a case study. Their study concluded that the student satisfaction level was second only to the importance of the system design.
Abalorio and Cerna [21] proposed the course evaluation generator (CEG) model to address registration and advising problems using (OCR). This allowed the system to read directly from the student’s academic transcript. The study proved the feasibility of crediting courses from the scanned image, providing that the right policy and text imaging tools were used. Furthermore, the researchers proposed the integration of more sophisticated AI and machine learning in e-registration systems.
Iatrellis et al. [22] investigated e-advising systems by examining the literature on experimental case studies conducted from 2008 to 2017. After reviewing and analyzing scores of studies, the researchers concluded that there were three predominant focuses in the empirical research on academic advising systems, namely pedagogy-oriented issues, learning analytics, and educational data mining, while observing that the three issues were not completely autonomous as there was frequent overlap. The study recommended that universities needed effective academic advising software to augment the relationship between students and their advisors, noting that the existing software cannot and should not replace human advisors. The researchers also suggested more interdisciplinary research into learning science, psychology, pedagogy, and computer science in terms of e-advising systems.
Kalamkarian et al. [23] discussed the ongoing efforts to leverage e-advising technologies to redesign the e-advising and registration systems in three HEIs in the United States. The study recommended that other HEIs redesign their e-advising tools so they can be customized for technology-mediated advising to further support their students.
Pelletier and Hutt [24] maintained that although advisors had more technological solutions, they still needed to advance the use of technology and develop new mindsets and skills for a successful transformation. The researchers recommended introducing more training for advisors; nevertheless, operations at the institutional level were also highlighted. The researchers underlined that shareholders needed to go beyond comprehending the features of new technologies and that they must understand how the new technologies operate so that they can apply them strategically. Donaldson et al. [25] examined academic advisors’ perspectives on enhanced advising programs, wherein they found that for an improved advising experience, students needed to participate and engage in constructing a proactive educational plan.
After reviewing the literature, and based on the experiences of several universities regarding e-advising services, there is an opportunity to improve higher education e-advising and e-registration systems using advanced technology.
To attain this objective, this study developed two questionnaires that would be issued two years apart to measure the development of electronic registration and academic advising services in a university. The two questionnaires were delivered in 2018 and 2020 to the affiliates of King Abdulaziz University, a leading university in Saudi Arabia. The questionnaires aimed to compare the satisfaction levels of students regarding course registrations and academic advising.

3. Research Objectives

This study examined the effects of changes made to King Abdulaziz University’s electronic educational system, specifically to their electronic academic advising and electronic course registration processes. Prior to 2018, the students used their accounts to add and drop courses with online support provided by their academic advisors, which meant that approximately 107,000 students and approximately 3000 academic advisors logged into the system simultaneously. The university network and data servers were unable to handle the load, which caused a system failure. A cascade of complications followed, where students enrolled for courses they did not yet need and others were unable to meet their required course load, among other consequential issues. Therefore, in 2018, a preliminary survey and a statistical analysis were conducted to measure student satisfaction with portal services.
A follow-up survey was conducted in 2020 to examine whether student satisfaction had improved over the previous two years. Based on the survey recommendations, improvements were implemented in work methods. The most important of which was the distribution of the demand across the networked electronic systems. The number of permissible credit hours and other adjustments were used to determine when electronic registration could commence and balance the network load.
This study, therefore, used statistical analysis to examine the data collected from the questionnaire. As a result of the digital solutions implemented by the university, this study analyzed the improvements in course registration as well as in academic advising processes in 2020, as compared with 2018.
Therefore, statistical hypotheses about the extent to which digital transformation had improved registration and academic advising were derived to address this research goal. Six statistical hypotheses were formed, as follows:
Hypothesis 1 (H1).
Improved digital solutions have reduced the pressure on the ODUS Plus electronic system and made network access easier.
Hypothesis 2 (H2).
Student satisfaction increased as a result of improvements to the electronic systems that permitted course registration for last-year students first.
Hypothesis 3 (H3).
Improved digital solutions have increased student satisfaction in course registration, allowing the male campus students to register at alternate times other than those reserved for the female campus.
Hypothesis 4 (H4).
Modifications to the electronic procedures have increased student satisfaction with the university’s role in academic advising and course registration.
Hypothesis 5 (H5).
Student satisfaction with the role of the DAR in academic advising and course registration has increased as a result of the improved digital solutions.
Hypothesis 6 (H6).
Modifications to the electronic procedures have increased student satisfaction with the role of their academic advisor.
Initially, descriptive analysis was utilized to calculate the repetitions and ratios of study variables, as discussed in the analysis section, and determine student trends regarding these variables. In addition, some evidentiary approaches were used to determine the improvements in student satisfaction apart from the variances in student satisfaction in 2020 based on various factors such as campus, campus location, and college, among others.

4. Materials and Methods

To confirm the feasibility of using student and academic advisor data to analyze a university’s performance in advising services and provide an additional tool for decision-makers, the authors decided to employ a case study framework to understand university digital transformation. One of the biggest Saudi Arabian universities was selected, particularly the university’s Deanship of Admission and Registration information system. The system has more than 170,000 users. The system is dynamic, responding to thousands of requests by students, advisors, and admins every hour. Its efficiency ensures that the activities involved in academic advising (AA) have a broader impact through online services.
Data on the activities of the Deanship of Admissions and Registration (DAR) system were obtained through a distributed online survey to students on two occasions, in 2018 and 2020. The authors designed one survey format, which was used for each survey period. A sample of 1100 students was surveyed in 2018 and 2020, and some responses were eliminated while other specific questions were skipped. Only three university campus locations were used, and some were excluded due to a lack of response.
The questionnaire included issues related to electronic registration and academic advising services provided by the university. The first section eliminated typical students such as external or graduate students, as it was designed for undergraduate students. The following survey section requested the student’s demographic information including age group, campus, and others. This introductory section was followed by a series of questions related to online services, such as the satisfaction level on performance, availability, and reliability of e-services. They responded using a typical 5-point Likert scale, and there were other scales used based on the question aims.
The survey was submitted to the DAR Twitter account, which had more than 340,000 followers, and it was also sent to student email accounts. The questionnaire was available for ten days. All records were transferred to an Excel spreadsheet and kept securely on the university servers. The data were used only for research purposes. The following tests were applied in the inference analysis [26,27,28,29,30]:
  • Calculating the ratio between two independent proportions to see if the percentage of difficulties students faced in 2020 was lower than in 2018.
  • A two-sample t-test was used to assess how student perceptions of study variables improved from 2018 to 2020.
  • The one-way analysis of variance (ANOVA) test was used to analyze the differences between student feedback on study variables in 2020 according to a range of factors, such as campus, campus location, college, and others.
  • The correlation link matrix between study variables was calculated to determine the relationship between these variables.
  • It should be noted that a level of significance of 0.05 was adopted in all tests.
Therefore, this research involving structured data was considered quantitative research. An SPSS package was used to analyze the obtained data. The hypotheses mentioned in the analysis section were addressed in an effort to contribute to the existing literature.

5. Data Analysis

5.1. Validity & Reliability Tests

After a questionnaire is produced, it is critical to assess its validity, and Al-Bannaa [28] has suggested that validity should measure a trait or phenomena. Subjective validity was used to verify the validity of the questionnaire, which was calculated by finding the square root of consistency (Cronbach’s alpha).
The reliability of a questionnaire indicates that it will produce similar results when used under similar conditions. There are numerous approaches to ensure reliability, and Cronbach’s alpha was employed in the current study to ensure the consistency of the questionnaire. The validity for the study years was 79% in 2018 and 77% in 2020 while the reliability results for the same years were 89% and 88%, respectively. These resulted indicated that the tool’s validity and reliability across two years were high; therefore, the tool was deemed both valid and reliable [29].

5.2. Students’ Characteristics

This section calculates the descriptive statistics for the study variables such as the ratios and the repetitions for the years 2018 and 2020 to determine the categories in which the majority of student responses were clustered and estimate student satisfaction rates across study variables. Table 1 shows the distribution of student responses at different levels between 2018 and 2020 survey periods. We noted that second-year students were 24.82% more responsive in 2018 while third-year students were 28.73% more responsive in 2020.
Table 2 shows the distribution of student numbers by campus between 2018 and 2020 survey periods. During the two periods, we noted that the responses of the female campus students increased significantly, as compared with the male campus.
Table 3 shows the distribution of student numbers by campus location between 2018 and 2020 survey periods. All student responses came from three campus locations, mainly in Sulaymaniyah, Rabigh, and Al-Marjan. During the two periods, we note that more than 90% of the responses came from the main campus location in Sulaymaniyah.
Table 4 shows the distribution of student numbers by college between 2018 and 2020 survey periods. Colleges with fewer than 30 responses were integrated into another category. In 2018, the Faculty of Arts and Humanities had the highest response rate at 23.91% while the highest response rate in 2020 came from the Faculty of Science at 29%.
Table 5 and Figure 2 display the distribution of student numbers based on the number of academic hours completed between 2018 and 2020, which were classified into five categories. Figure 1 shows how this information was represented graphically. In 2018, the responses from students with 61–90 academic hours were 37.55% greater than those from other groups in 2020.
Table 6 shows the distribution of student numbers according to the student’s grade point average (GPA) between the years 2018 and 2020. Their GPA was divided into five main categories, from less than 2 to 4.5 and above. It should be noted that no category with fewer than two responses was found. These data were graphically represented, as shown in Figure 3. The 3.75–4.49 category had the highest response rate at 43.45% and 41.91% in 2018 and 2020, respectively.

5.3. The Most Important Problems Students Face While Registering Courses

Table 7 displays the distribution of student numbers based on the problems they reported encountering during course registration in 2018 and 2020. The most prevalent problem faced by students in 2018 was the system failure of ODUS Plus and the subsequent difficulty accessing the network, which 58.73% of students reported. However, this percentage decreased to 19.18% in 2020. However, despite the decreased ratio in 2020, the list of responses was mostly negative, which indicated a significant improvement in those services after two years. This suggested that by 2020 the procedures to make course registration easier had yielded this decreased ratio.
The following discussion includes our analysis of the non-technical improvements the university had made, which were included in the student survey.

5.4. Opening Course Registration for Those Expected to Graduate First

Table 8 depicts the distribution of student numbers based on their feedback regarding the progressive registration procedure that the university implemented between 2018 and 2020, wherein the last-year students (i.e., those expected to graduate within the next two semesters) accessed course registration first; once they had completed their registrations, third-year students could access the registration system, and so on. The registration process in 2020 was more streamlined than it had been in 2018. We found that the approval rating in 2018 was 56.73% (strongly approve and approve). In 2020, student approval rose to 62.18%. These data are graphically depicted in Figure 4.

5.5. Opening Course Registration for Male Campus Students on Days Other Than Those Reserved for the Female Campus

Table 9 shows the distribution of student numbers based on their feedback on allowing course registration for the male campus on days other than those reserved for the female campus. We noted that the approval rate during 2018 (strongly approve and approve) was 58%, and the approval rate among students increased in 2020 to 80%. This change led to a streamlined registration process in 2020, as compared with 2018, with approval ratings increasing by 22% between 2018 and 2020. These data are graphically represented in Figure 5.

5.6. Role of the University in Academic Advising and Course Registration

Table 10 displays the distribution of student numbers based on their views on the university’s role in academic advising and course registration between 2018 and 2020. We noted that the approval percentage in 2018 was 33.9% (strongly agree and agree), whereas it was 51% in 2020. In 2020, students were more satisfied with the university’s academic advising and course registration than they were in 2018.

5.7. Role of the Deanship of Admission and Registration in Academic Advising and Course Registration

Table 11 depicts the distribution of student numbers based on their feedback on the DAR’s role in academic advising and course registration between 2018 and 2020. We noted that in 2018, the approval percentage (strongly agree and agree) was 17.55%, whereas, in 2020, it was 65.64%. Therefore, we estimated that in 2020, student satisfaction with the DAR’s role in academic advising, and course registration was much higher than in 2018.

5.8. Academic Advisor

Table 12 shows five statements that were used to assess student satisfaction with their academic advisor as well as their responses to various expressions and the overall focal point/axis level for 2018 while Table 13 shows the outcomes for 2020. As shown in Table 12, the majority of the axis expressions and the focal point/axes, in general, were neutral in 2018. Students were satisfied with all expressions, as well as the overall focal point/axes, according to the 2020 findings, as shown in Figure 6.

6. Data Analysis: Inference Statistics

This section details the testing of our statistical hypotheses concerning the extent to which digital transformation has improved registration and academic advising and the statistically significant differences between student feedback on registration status and academic advising by campus, college, academic year, campus location, number of approved academic hours, and GPA. It also aims at looking into certain links between variables.
Hypothesis 1. Changes in digital transformation methods have reduced the pressure on the ODUS Plus electronic system and made network access easier.
This hypothesis sought to find out whether changes in digital transformation methods have lessened the strain on the ODUS Plus electronic system as well as the challenges of connecting to the network in 2020 versus 2018. Table 14 displays the results of the independent proportions test in 2018 and 2020, which showed that accessing the network was more difficult in 2018 as a result of digital transformation. However, the modifications relieved the burden on the ODUS Plus electronic system in 2020, which was also reflected in the results.
Hypothesis 2. Student satisfaction increased as a result of improvements to the electronic systems that permitted course registration for last-year students first.
This hypothesis sought to find out whether improvements to the electronic systems increased student satisfaction by permitting course registration for students who were projected to graduate first. Table 15 displays the independent samples test results for 2018 and 2020, showing that, due to improvements to the electronic systems, students were more satisfied with a progressive course registration procedure in 2020 than the previous procedure used in 2018.
Hypothesis 3. Improved digital solutions have increased student satisfaction in course registration, allowing the male campus students to register at alternate times other than those reserved for the female campus.
This hypothesis sought to find out whether improvements to digital transformation procedures enhanced student satisfaction in 2020 by permitting course registration for the male campus on days other than those reserved for female students in 2020, as compared with 2018. Table 15 shows the results of the independent samples t-test in 2018 and 2020, which indicated that as a result of changes, students were more satisfied with allowing course registration for the male campus on days other than those reserved for female students in 2020, as compared with 2018.
Hypothesis 4. Modifications to the electronic procedures have increased student satisfaction with the university’s role in academic advising and course registration.
The purpose of this hypothesis was to see if changes to the electronic procedures enhanced student satisfaction with the university’s participation in academic advising and course registration in 2020, as compared with 2018. Table 15 shows the results of the independent samples test in 2018 and 2020, which showed that students had a higher level of satisfaction with the university’s role in academic advising and course registration in 2020 than they did in 2018.
Hypothesis 5. Student satisfaction with the role of the DAR in academic advising and course registration has increased as a result of the improved digital solutions.
Table 15 shows the results of the independent samples test in 2018 and 2020, which indicated that students were more satisfied with the role of the DAR in academic advising and course registration in 2020 as compared to 2018.
Hypothesis 6. Modifications to the electronic procedures have increased student satisfaction with the role of their academic advisor.
The purpose of this hypothesis was to see if changes to the electronic procedures increased student satisfaction with the role of their academic advisor in 2020, as compared with 2018.
Table 15 illustrates the results of the independent samples test in 2018 and 2020, indicating that, as a result of improvements, students were more satisfied with the role of their academic advisor in 2020, as compared to 2018.
Next, we examined if there were variations in student satisfaction in 2020 based on a set of parameters. We deduced from prior findings that digital transformation improvements increased student satisfaction with the five study factors (as listed in the following section) connected to course registration and academic advising in 2020, as compared with 2018. The parameters for this analysis were as follows: (1) campus, (2) student year level, (3) campus location, (4) college, (5) approved academic hours, and (6) GPA.

7. To Establish Which Categories Were More and Less Satisfied for Future Planning Purposes

  • Examine the value implications of variations in satisfaction levels with the study variables by campus:
The purpose of this analysis was to see if there were any value differences between students from male and female campuses and their levels of satisfaction with the following five study variables:
First: Progressive course registration starting with last-year students.
Second: Opening course registration for male campus students on days other than those reserved for the female campus.
Third: Role of the affiliated college in academic advising and course registration.
Fourth: Role of the DAR in academic advising and course registration.
Fifth: Academic advisor role
Table 16 shows descriptive data, whereas Table 17 shows the t-test findings (independent samples). Student value feedback differed on the availability of course registration for those expected to graduate first and the availability of course registration for male campus students on days other than those of the female campus students, where male campus students had a higher satisfaction score than female students.
2.
Examine the implications of disparities in satisfaction levels with the study variables by student year level:
The purpose was to determine the extent to which, as a result of digital transformation, there were value variations in the degree of satisfaction by student year level from the five study variables for 2020.
Table 18 shows no value disparities in the perspectives of students with different variations on the role of the DAR, enrollment in academic advising, course registration, and the academic advisor. The results of the ANOVA test confirmed that there were value differences between the feedback of students of different grades regarding the progressive course registration for those expected to graduate first, allowing course registration for male campus students on days other than those reserved for the female campus, and the role of the affiliated college in academic advising and course registration.
The least significant difference (LSD) test was used to determine which variables were responsible for these differences. It was discovered that the expected-to-graduate and fourth-year students were responsible for the value discrepancies in progressive course registration, as they were more satisfied than the other students. As for the availability of course registration for the male campus on days other than those for the female campus, the reason for the value differences was that the expected graduate students were less satisfied than the different student year levels.
In addition, those expecting to graduate were less satisfied with the rest of the courses, resulting in value inequalities in student feedback regarding the affiliated college’s role in academic advising and course registration.
3.
Examine the value implications of disparities in satisfaction levels with the study variables by campus location:
The purpose was to determine the extent to which digital transformation resulted from value disparities in the degree of satisfaction by campus location in 2020 based on the five study variables. Table 19 shows that there were no value differences between student feedback in terms of campus locations on allowing the expected to graduate students to register for courses first, the availability of course registration for the male campus on days other than those reserved for the female campus, the college’s role in academic advising, the registration of courses, and ultimately the role of the DAR in academic advising and course registration, and academic advisor.
4.
Examine the value disparities in satisfaction levels with the study variables among college students:
The purpose was to determine the extent to which, due to digital transformation, there were value disparities in the degree of satisfaction by college affiliation regarding the five study factors in 2020. The LSD test was used to determine which college affiliations were correlated to the value differences in progressive course registration for those expected to graduate first, and we found that the Faculty of Science was the origin of the value discrepancies in progressive course registration for those expected to graduate first, as it had the lowest satisfaction average, as compared with the other colleges, see Table 20.
We should also mention that the Faculty of Computers and Information Technology was connected to the value differences in allowing male campus students to register for courses on days other than those reserved for female campus students, as well as the academic advisor, where it had the highest satisfaction levels among the colleges.
5.
Examine the value disparities in satisfaction levels with the study variables according to the number of approved academic hours:
The purpose was to determine how much of a difference there was in value satisfaction for the five research variables in 2020 due to digital transformation, as measured by the number of approved academic hours, see Table 21.
The goal was to see how much of a difference there was in value satisfaction for the five research variables in 2020 as a result of digital transformation, as measured by approved academic hours. Table 22 and Table 23 show that there were value differences in the student feedback based on the number of approved academic hours with regard to progressive course registration for those expected to graduate first, availability of course enrollment for male campus students on days other than the female campus, and the affiliated college’s role in academic advising and course registration. However, there were no value differences between the rest of the variables according to the number of approved academic hours.
The LSD test was used to determine which college affiliations were connected to these differences. It was discovered that a category of more than 120 h was connected to the value differences between the degree of student satisfaction in terms of allowing course registration to be available to those expected to graduate first, where it had the highest average. This group was also correlated with the value differences between the degree of students’ satisfaction in terms of the role of the college in academic advising and course registration, where it had the lowest average.
A class of 91–120 academic hours triggered value discrepancies between the students’ degree of satisfaction with this variable, which had the highest average, as compared with the rest of the categories, in terms of availability of course registration for male campus students on days other than those intended for female campus students.
6.
Examine the value disparities in satisfaction levels with the study variables according to GPA:
The purpose was to determine the extent of value disparities in satisfaction levels according to GPA from the five study factors in 2020 due to digital transformation.
Table 22 shows that there were value differences between student feedback and GPA with progressive course registration for those expected to graduate first, allowing course registration for male campus students on days other than those intended for female campus students, and the academic advisor, while there were no value differences with allowing course registration for those expected to graduate first.
Students with a 4.5 GPA or higher showed value disparities in their attitudes about the availability of course registration for those expected to graduate first. According to the LSD test, which was used to establish which institutions were accountable for the irregularities, it had the highest average.
However, the 2.0–2.74 GPA group was connected to the value disparities between the student perspectives on course registration for male campus students on days other than those intended for female campus students, as well as the academic advisor, which had the lowest average among the study rate categories.
7.
Examination of the relationship between the research variables:
The purpose was to determine the degree to which the five research variables were correlated. Pearson’s correlation coefficients and their semantic levels are shown in Table 24 (between brackets). Table 24 shows that ejective correlations between distinct variables were statistically significant. This graph depicts the relationship between satisfaction and various criteria as a result of digital transformation and the implications for course registration and academic advising.

8. Discussion and Outcomes

As a result of modifications and enhancements to the electronic academic advising and course registration systems at King Abdulaziz University:
  • Balancing the demand for the ODUS Plus electronic system improved network access.
  • Students were more satisfied with progressive course registration for those expected to graduate first in 2020 than they were in 2018.
  • Student satisfaction with allowing course registration for the male campus students on days other than those allotted for the female campus increased in 2020, as compared with 2018.
  • In 2020, students were more satisfied with the university’s role in academic advising and course registration than they were in 2018.
  • In 2020, students were more satisfied with the DAR’s role in academic advising and course registration than they were in 2018.
  • Student satisfaction with the role of the academic advisor in 2020 was higher than it was in 2018.
  • Students’ perspectives on the role of the affiliated college and the DAR in academic advising and the role of the academic advisor differed significantly in 2020. There were also value differences in student feedback regarding the availability of course registration for those expected to graduate first and the availability of course registration for the male campus students on days other than those reserved for the female campus students. In fact, the satisfaction score of the male campus students was higher than the female campus.
In 2020, there were value differences between student feedback in the different student year levels regarding the availability of course registration for those expected to graduate first, allowing course registration for male campus students on days other than female campus students, and the role of the college in academic advising and course registration. The value disparities were connected to the expected to graduate and fourth-year students as they reported more satisfaction than the other students, and the availability of course registration for the male campus on distinct days from the female campus. The results also showed that fourth-year students and those expected to graduate were connected to the value discrepancies, as they were less satisfied than the rest of the student year levels regarding the availability of course registration for male campus students on days other than those reserved for female campus students. In addition, expected graduate students were less satisfied with the university’s academic advising and course registration than the rest of the student year levels, resulting in value inequalities in student grades concerning the university’s role in academic advising and course registration.
There were value discrepancies between the different college students’ perspectives concerning the five study factors. The data also reveal that the Faculty of Science, which had the lowest average among the colleges, was related to the value dissimilarities in prioritizing course registration for the expected graduate students. We also noted that the Faculty of Law was connected to value differences regarding the role of the university in academic advising and course registration, as well as the role of the DAR in academic advising and course registration, where it had the lowest average satisfaction levels among the colleges. We should also mention that the Faculty of Computers and Information Technology was connected to the value disparities in allowing male campus students to register for courses on days other than those reserved to the female campus students, as well as the academic advisor, where it had the highest average of all the colleges.
There were value differences in student feedback based on the number of approved academic hours regarding progressive course registration for those expected to graduate first, allowing male campus students to register for courses on days other than those reserved for female campus students, and the college’s role in academic advising and course registration, while there were no value differences between the remainder of the factors according to the number of approved academic hours.
The findings also revealed that the category of more than 120 h was connected to the value differences between student satisfaction levels in terms of the progressive course registration for those expected to graduate first, which had the highest average. The same category was also connected to value differences between student satisfaction levels in terms of the university’s role in academic advancement, which had the lowest average. As for the availability of course registration for male campus students on days other than those reserved for female campus students, a class of 91–120 academic hours was connected to value differences between the students’ degree of satisfaction with this variable, which had the highest average, as compared to the rest of the categories.
There were value differences between student feedback based on their diverse GPAs regarding progressive course registration for those expected to graduate first, allowing male campus students to register for courses on days other than those reserved to the female campus students, as well as the academic advisor, while there were no value differences between the rest of the variables.
The results also reveal that the 4.5 GPA group and above was connected to the value differences between student feedback regarding progressive course registration for those expected to graduate first, with the highest average, while the 2.0–2.74 GPA group was connected to value differences between student feedback regarding the availability of course registration for the male campus students on days other than those reserved to the female campus students, as well as the academic advisor, which had the lowest average, as compared to the rest of the GPA categories.
The presence of statistically significant ejective correlations among several variables depicted the relationship between satisfaction and many variables and the implications for course registration and academic advising as a result of digital transformation.

9. Conclusions

Higher education institutions seek to modernize and develop study programs and systems. Universities such as King Abdulaziz University have been interested in developing digital solutions that promote academic counseling and advising for students since they have been shown to be a valuable asset in the educational process. The researchers compared student satisfaction across two surveys, one from 2018 and the other from 2020, to determine any variations, specifically in student satisfaction regarding academic advising and electronic course registration.
The investigation discovered that modifications in digital transformation procedures resulted in balancing the demand on the ODUS Plus electronic system and alleviated the problems accessing the network that occurred in 2018. This study examined student satisfaction with changes in digital transformation methods and advances in many parts of academic advising and course registration, including progressive course registration for those expected to graduate first This research is intended to broaden other universities’ research both inside Saudi Arabia and around the world. The questionnaire that was designed for this study was shown to be reliable and valid and, therefore, may be of use in future research under similar conditions. This research asserted that some technical challenges were easily resolved using modifications and digital solutions. This may provide a reference for the development of online platforms for academic advising and course registration.

10. Academic and Practical Implications, and Limitations

The research provided insights for decision-makers in the educational institutions that wish to enhance their performance in academia. Universities and HEIs seek efficient academic performance in each aspect. Academic advising (AA) is one effective aspect that positively impacts student outcomes in areas such as enrollment, course registration, academic accountability, and career success. The supporting information systems that facilitate AA should accelerate their development to support these goals.
However, implementing novel systems requires investigation into their impact on student performance and satisfaction. Therefore, this research indicated the benefit of examining AA systems to understand the profound learning process more fully. Otherwise, student retention rates may be negatively affected. This would harm not-for-profit and for-profit educational institutions alike. The authors believe that this research area can promote the development of more efficient and effective advising services for both students and HEIs.
HEI leaders may find this research useful in practical applications. Similar investigations can be applied to understand student satisfaction level before and after modifications to digital or other solutions to assure better organizational performance. The authors recommend that AI and machine learning be used to analyze and understand the classification of inquiry topics and the interactions received from beneficiaries in the future. This can be done by analyzing similar calculations from other universities to verify and confirm the findings. By its sample nature, this research was limited to one selected university; thus, the researchers also suggest that this study could be expanded in the future.

Author Contributions

Conceptualization, H.B. and W.A.; methodology, H.B. and W.A.; validation, H.B. and W.A.; formal analysis, H.B. and W.A.; investigation, H.B. and W.A.; resources, H.B. and W.A.; data curation, H.B. and W.A.; writing—original draft preparation, H.B. and W.A.; writing—review and editing, H.B. and W.A.; project administration, H.B. and W.A.; funding acquisition, H.B. and W.A. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by the Deanship of Scientific Research (DSR), King Abdulaziz University, Jeddah, Saudi Arabia. The authors, therefore, acknowledge the DSR for its technical and financial support. The author is also thankful to King Abdulaziz University of Saudi Arabia for supporting this research by providing the research environment, data, and funds.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Secured and private datasets were analyzed in this study.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Brdesee, H. A Divergent View of the Impact of Digital Transformation on Academic Organizational and Spending Efficiency: A Review and Analytical Study on a University E-Service. Sustainability 2021, 13, 7048. [Google Scholar] [CrossRef]
  2. Assiri, A.; AL-Ghamdi, A.; Brdesee, H. From Traditional to Intelligent Academic Advising: A Systematic Literature Review of e-Academic Advising. Int. J. Adv. Comput. Sci. Appl. 2020, 11, 507–517. [Google Scholar] [CrossRef]
  3. Brdesee, H. Outstanding Development in Student E-Services: A Case Study of the Scientific Recommendation System. In Proceedings of the ICERI2019, 12th Annual International Conference of Education, Research and Innovation, Seville, Spain, 11–13 November 2019; pp. 1095–1102. [Google Scholar]
  4. Brdesee, H. A mixed method analysis of the online information course withdrawal system. J. Behav. Inf. Technol. 2018, 37, 1037–1054. [Google Scholar] [CrossRef]
  5. Brdesee, H. An Online Verification System of Students and Graduates Documents and Certificates: A Developed Strategy that Prevents Fraud Qualification. Int. J. Smart Educ. Urban Soc. 2019, 10, 1–18. [Google Scholar] [CrossRef]
  6. Brdesee, H.; Madbouly, A.; Noaman, A.; Ragab, A. A comprehensive data mining framework used to extract academic advising knowledge from social media data. In Proceedings of the INTED2017, 11th Annual International Technology, Education and Development Conference, Valencia, Spain, 6–8 March 2017. [Google Scholar]
  7. Alsaggaf, W.; Asad, S.; Algrigri, N.; Alsaedi, N.; Brdesee, H. An electronic students attendance system using indoor positioning and mobile apps technologies. In Proceedings of the INTED2017, 11th Annual International Technology, Education and Development Conference, Valencia, Spain, 6–8 March 2017. [Google Scholar]
  8. Noaman, A.; Madbouly, A.; Brdesee, H.; Fouad, F. Assessing the Electronic Academic Advising Success: An Evaluation Study of Advisors satisfaction in Higher Education. In Proceedings of the INTED2017, 11th Annual International Technology, Education and Development Conference, Valencia, Spain, 6–8 March 2017. [Google Scholar]
  9. Brdesee, H.; Alsaggaf, W. Academic Advising and Social Media: A Case study on the Twitter Account of the Deanship and Registration of King Abdulaziz University. In Proceedings of the Conference of Academic Advising in Higher Education of the Gulf Cooperation Council States: Reality and Hope, Jeddah, Saudi Arabia, 2–3 November 2015; pp. 253–267. [Google Scholar]
  10. Crookston, B.B. A developmental view of academic advising as teaching. NACADA J. 1994, 14, 5–9. [Google Scholar] [CrossRef]
  11. Abernathy, T.; Engelland, B. The effects of frequency, recency, and academic prowess as moderators of service quality evaluations for collegiate academic advising. Mark. Manag. J. 2001, 11, 97–107. [Google Scholar]
  12. Laghari, M. Automated Course Advising System. Int. J. Mach. Learn. Comput. 2014, 4, 47–51. [Google Scholar] [CrossRef] [Green Version]
  13. Afify, E.; Nasr, M. A Proposed Model for a Web-Based Academic Advising System. Int. J. Adv. Netw. Appl. 2017, 9, 17. [Google Scholar]
  14. Pasquini, L.; Steele, G. Technology in academic advising: Perceptions and practices in higher education. NACADA Technol. 2013. [Google Scholar] [CrossRef]
  15. Henderson, L.; Goodridge, W. AdviseMe: An Intelligent Web-Based Applicationfor Academic Advising. Int. J. Adv. Comput. Sci. Appl. 2015, 6. [Google Scholar] [CrossRef] [Green Version]
  16. Estevez, R.; Rankin, S.; Silva, R.; Indratmo, I. A model for web-based course registration systems. Int. J. Web Inf. Syst. 2014, 10, 51–64. [Google Scholar] [CrossRef]
  17. Joshua, E.; Ryan, A. Tarot: A course advising system for the future. J. Comput. Sci. Coll. 2019, 34. [Google Scholar] [CrossRef]
  18. Tchouakeu, L.-M.N.; Hills, M.K.; Jarrahi, M.H.; Du, H. On-Line Course Registration Systems Usability. Int. J. Inf. Syst. Soc. Chang. 2012, 3, 38–52. [Google Scholar] [CrossRef] [Green Version]
  19. Liu, Y.; Gao, F.; Liu, Y. Design and implementation of student registration system for universities. In Proceedings of the 2012 2nd International Conference on Consumer Electronics, Communications and Networks (CECNet), Yichang, China, 21–23 April 2012; pp. 1760–1763. [Google Scholar]
  20. Almazmomi, N.; Alhassan, I. Usability of online courses registration systems: Empirical study from Saudi Arabia on ODUS plus. Indian J. Sci. Technol. 2020, 13, 1493–1504. [Google Scholar] [CrossRef]
  21. Abalorio, C.; Cerna, M. Course Evaluation Generator (Ceg): An Automated AcademicAdvising System with Optical Character Recognition. Int. J. Technol. Eng. Stud. 2018, 4, 189–196. [Google Scholar] [CrossRef]
  22. Iatrellis, O.; Kameas, A.; Fitsilis, P. Academic Advising Systems: A Systematic Literature Review of Empirical Evidence. Educ. Sci. 2017, 7, 90. [Google Scholar] [CrossRef] [Green Version]
  23. Kalamkarian, H.; Boynton, M.; Lopez, A. Redesigning Advising with the Help of Technology: Early Experiences of Three Institutions; Community College Research Center: New York, NY, USA, 2018. Available online: https://files.eric.ed.gov/fulltext/ED586059.pdf (accessed on 6 June 2021).
  24. Pelletier, K.; Hutt, C. Digital Transformation: Equipping Advisors for the Journey, Students for Success. Change Mag. High. Learn. 2021, 53, 30–36. [Google Scholar] [CrossRef]
  25. Donaldson, P.; McKinney, L.; Lee, M.M.; Horn, C.L.; Burridge, A.; Pino, D. Insider Information: Advisors’ Perspectives on the Effectiveness of Enhanced Advising Programs for Community College Students. NACADA J. 2020, 40, 35–48. [Google Scholar] [CrossRef]
  26. Al-Zuabi, M.; Talafeha, A. Statistical System SPSS Understanding and Analysis of Statistical Data; Dar Wael: Amman, Jordan, 2012. [Google Scholar]
  27. Al-Banna, M. Statistical Skills of the Educational Researcher with Practical Examples in 22 SPSS; Dar Wael: Amman, Jordan, 2016. [Google Scholar]
  28. Al-Banna, M. Basics of Assessment and Evaluation in Education and Psychology; Damascus Center: Ib, Yemen, 2017. [Google Scholar]
  29. George, D.; Mallery, P. SPSS for Windows Step by Step: A Simple Guide and Reference. 11.0 Update, 4th ed.; Allyn & Bacon: Boston, MA, USA, 2003. [Google Scholar]
  30. Sheskin, D.J. Handbook of Parametric and Nonparametric Statistical Procedures, 2nd ed.; Chapman: London, UK; Hall/CR: Boca Raton, FL, USA, 2000. [Google Scholar]
Figure 1. KAU’s e-services that connect students and academic advisors investigated in this research.
Figure 1. KAU’s e-services that connect students and academic advisors investigated in this research.
Jtaer 17 00008 g001
Figure 2. Distribution of student numbers by approved academic hours between 2018 and 2020 survey periods.
Figure 2. Distribution of student numbers by approved academic hours between 2018 and 2020 survey periods.
Jtaer 17 00008 g002
Figure 3. Distribution of student numbers by academic GPA during 2018 and 2020.
Figure 3. Distribution of student numbers by academic GPA during 2018 and 2020.
Jtaer 17 00008 g003
Figure 4. Distribution of student numbers according to their feedback on the progressive course registration process during 2018 and 2020 survey periods.
Figure 4. Distribution of student numbers according to their feedback on the progressive course registration process during 2018 and 2020 survey periods.
Jtaer 17 00008 g004
Figure 5. Distribution of student numbers according to their feedback on permitting course registration for the male campus on days other than those reserved for the female campus in 2018 and 2020.
Figure 5. Distribution of student numbers according to their feedback on permitting course registration for the male campus on days other than those reserved for the female campus in 2018 and 2020.
Jtaer 17 00008 g005
Figure 6. Student trends for academic advisors in 2018 and 2020.
Figure 6. Student trends for academic advisors in 2018 and 2020.
Jtaer 17 00008 g006
Table 1. Distribution of student numbers by student year level between 2018 and 2020 survey periods.
Table 1. Distribution of student numbers by student year level between 2018 and 2020 survey periods.
Student Year Level20182020
IterationRatioIterationRatio
I am a first-year college student.27224.73%11710.64%
I am a second-year college student. 27324.82%24021.82%
I am a third-year college student.18016.36%31628.73%
I am a fourth-year college student or beyond.20818.91%30027.27%
I am expected to graduate by the end of the current or summer semester.16715.18%12711.55%
Total1100100.00%1100100.00%
Table 2. Distribution of student numbers by campus between 2018 and 2020 survey periods.
Table 2. Distribution of student numbers by campus between 2018 and 2020 survey periods.
Campus20182020
IterationRatioIterationRatio
Male students26123.73%35932.64%
Female students83976.27%71467.36%
Total1100100.00%1100100.00%
Table 3. Distribution of student numbers by campus location between 2018 and 2020 survey periods.
Table 3. Distribution of student numbers by campus location between 2018 and 2020 survey periods.
Campus Location20182020
IterationRatioIterationRatio
Main Branch in Sulaymaniyah103293.82%99990.82%
Al-Marjan60.55%90.82%
Rabigh625.64%928.36%
Total1100100.00%1100100.00%
Table 4. Distribution of student numbers by the college between 2018 and 2020 survey periods.
Table 4. Distribution of student numbers by the college between 2018 and 2020 survey periods.
College20182020
IterationRatioIterationRatio
Faculty of Arts and Humanities26323.91%22420.36%
Faculty of Science565.09%31929.00%
Faculty of Economics and Management14212.91%807.27%
Faculty of Computers and Information Technology797.18%766.91%
Faculty of Engineering968.73%948.55%
Law School26123.73%736.64%
Other20318.45%23421.27%
Total1100100.00%1100100.00%
Table 5. Distribution of student numbers by approved academic hours in 2018 and 2020.
Table 5. Distribution of student numbers by approved academic hours in 2018 and 2020.
Approved Academic Hours20182020
IterationRatioIterationRatio
30 h or less575.18%322.91%
Between 31 and 60.29626.91%28325.73%
Between 61 and 90.41337.55%39035.45%
Between 91 and 120.22220.18%32229.27%
More than 120 h11210.18%736.64%
Total1100100.00%1100100.00%
Table 6. Distribution of student numbers by academic GPA in 2018 and 2020.
Table 6. Distribution of student numbers by academic GPA in 2018 and 2020.
GPA20182020
IterationRatioIterationRatio
Between 2.0 and 2.74.242.18%363.27%
Between 2.75 and 3.74.18717.00%26023.64%
Between 3.75 and 4.49.47843.45%46141.91%
4.5 and more41137.36%34331.18%
Total1100100.00%1100100.00%
Table 7. Distribution of student numbers by problems they encountered during the registration of courses in 2018 and 2020.
Table 7. Distribution of student numbers by problems they encountered during the registration of courses in 2018 and 2020.
Most Problems Students Faced during Course Registration20182020
IterationRatioIterationRatio
Pressure on the ODUS Plus electronic system and difficulty accessing the network64658.73%21119.18%
Lack of cooperation in educational affairs at the college282.55%524.73%
Lack of cooperation of the scientific department121.09%70.64%
Lack of cooperation of the academic advisor464.18%635.73%
Lack of cooperation of the DAR40.36%60.55%
Lack of sections33030.00%68462.18%
No problems343.09%777.00%
Total1100100.00%1100100.00%
Table 8. Distribution of student numbers according to their feedback on the progressive course registration process during 2018 and 2020 survey periods.
Table 8. Distribution of student numbers according to their feedback on the progressive course registration process during 2018 and 2020 survey periods.
Opening Course Registration for Those Expected to Graduate First20182020
IterationRatioIterationRatio
I disagree.11010.00%978.82%
I strongly disagree.14713.36%726.55%
Neutral21919.91%24722.45%
Agree21219.27%32029.09%
I strongly agree.41237.45%36433.09%
Total1100100.00%1100100.00%
Table 9. Distribution of student numbers according to their feedback on allowing course registration for the male campus on days other than those for the female campus in 2018 and 2020.
Table 9. Distribution of student numbers according to their feedback on allowing course registration for the male campus on days other than those for the female campus in 2018 and 2020.
Permitting Course Registration for the Male Campus on Days Other Than Those for the Female Campus20182020
IterationRatioIterationRatio
Disagree.605.45%383.45%
Strongly disagree.33430.36%151.36%
Neutral686.18%16715.18%
Agree16915.36%36733.36%
Strongly agree46942.64%51346.64%
Total1100100.00%1100100.00%
Table 10. Distribution of student numbers according to their feedback on the university’s role in academic advising and course registration in 2018 and 2020.
Table 10. Distribution of student numbers according to their feedback on the university’s role in academic advising and course registration in 2018 and 2020.
Role of the University in
Academic Advising and
Course Registration
20182020
IterationRatioIterationRatio
Unsatisfactory24622.36%14112.82%
Totally unsatisfactory21119.18%12311.18%
Neutral27024.55%27525.00%
Satisfactory25823.45%37534.09%
Very satisfactory11510.45%18616.91%
Total1100100.00%1100100.00%
Table 11. Distribution of student numbers according to their feedback on the role of the DAR in academic advising role and course registration in 2018 and 2020.
Table 11. Distribution of student numbers according to their feedback on the role of the DAR in academic advising role and course registration in 2018 and 2020.
Role of the DAR in
Academic Advising and
Course Registration
20182020
IterationRatioIterationRatio
Unsatisfactory56451.27%888.00%
Totally unsatisfactory928.36%464.18%
Neutral25122.82%24422.18%
Satisfactory15013.64%61555.91%
Very satisfactory433.91%1079.73%
Total1100100.00%1100100.00%
Table 12. Student trends concerning their academic advisors in 2018.
Table 12. Student trends concerning their academic advisors in 2018.
ExpressionUnsatisfactoryNeutralSatisfactoryWeighted AverageDirection
1. The academic advisor responds to your requests in a timely manner.21.45%30.18%48.36%2.27 Neutral
2. The academic advisor allots ample time to meet you.21.91%33.27%44.82%2.23 Neutral
3. The academic advisor is well-versed in your field of study.16.91%23.45%59.64%2.43 Satisfactory
4. The academic advisor is cooperating with you.17.36%26.00%56.64%2.39 Satisfactory
5. The academic advisor deals professionally with you.21.64%31.27%47.09%2.25 Neutral
6. Academic advisor role19.85%28.83%51.31%2.31Neutral
Table 13. Student trends about the Academic Advisor in 2020.
Table 13. Student trends about the Academic Advisor in 2020.
ExpressionUnsatisfactoryNeutralSatisfactoryWeighted AverageDirection
1. The academic advisor responds to your requests in a timely manner.15.27%25.27%59.45%2.44 Satisfactory
2. The academic advisor allots ample time to meet you.15.82%26.64%57.55%2.42 Satisfactory
3. Your academic advisor is well-versed in your field of study.10.64%23.45%65.91%2.55 Satisfactory
4. The academic advisor is cooperating with you.11.73%20.73%67.55%2.56 Satisfactory
5. The academic advisor deals professionally with you.12.82%24.36%62.82%2.50 Satisfactory
6. Academic advisor role13.26%24.09%62.66%2.494Satisfactory
Table 14. Test Results of the difference between two ratios.
Table 14. Test Results of the difference between two ratios.
Statement20182020zSig
Ratio0.19180.587319.020.000
Table 15. t-Test results for the difference between two averages.
Table 15. t-Test results for the difference between two averages.
VariableStatement20182020tSig
Students’ satisfaction has improved as a result of changes in digital transformation procedures that allow courses to be enrolled for those expected to graduate first.Average3.573.732.8510.0022
Standard deviation1.191.14
Students’ satisfaction has improved as a result of changes in digital transformation procedures that allow course registration for the male campus on days other than the female’s campus.Average3.344.2014.5360.000
Standard deviation1.740.92
Changes in digital transformation procedures have improved students’ satisfaction with the university’s role in academic advising and course registration.Average2.533.5926.2950.000
Standard deviation0.960.92
Student satisfaction with the role of the DAR in academic advising and course registration has improved as a result of changes to the digital transformation procedures.Average2.533.5926.2950.000
Standard deviation0.960.92
Academic advisor roleAverage2.3152.4946.7010.000
Standard deviation0.6520.603
Table 16. Descriptive statistics of study variables by campus.
Table 16. Descriptive statistics of study variables by campus.
VariableCampusNumberAverageStandard Deviation
Progressive course registration for those expected to graduate firstMale3594.01111.06487
Female7413.59921.23133
Allowing course registration for the male campus students on days other than those of the female campusMale3594.32310.91925
Female7414.14710.90864
Role of the college in academic advising and course registration Male3593.30921.26698
Female7413.3361.19646
Role of the DAR in academic advising and course registration Male3593.59610.96363
Female7413.5870.90018
Academic advisor roleMale3592.46020.6007
Female7412.51040.60454
Table 17. t-Test results for study variables by campus.
Table 17. t-Test results for study variables by campus.
VariabletSig
Progressive course registration for those expected to graduate first.5.7101370.000
Offering course registration for male campus students on days other than those reserved for the female campus. 3.0010670.003
Role of the College in academic advising and course registration.−0.3421520.732
Role of the DAR in academic advising and course registration.0.1528480.897
Academic Advisor−1.2946290.196
Table 18. Descriptive statistics of study variables by student year level.
Table 18. Descriptive statistics of study variables by student year level.
VariableStudent Year LevelNumberAverageStandard Deviation
Allowing courses to be registered for those expected to graduate firstI am a first-year college student.1173.23081.23445
I am a second-year college student.2403.40831.15708
I am a third-year college student.3163.51581.20175
I am a fourth-year college student or beyond.3004.151.04137
I am expected to graduate by the end of the current or summer semester.1274.37010.9743
Allowing course registration for the male campus on days other than those for the female campusI am a first-year college student.1174.07691.0184
I am a second-year college student. 2404.13750.88328
I am a third-year college student.3164.13290.94014
I am a fourth-year college student or beyond.3004.28330.87499
I am expected to graduate by the end of the current or summer semester.1274.44090.86054
Role of the college in academic advising and course registration I am a first-year college student.1173.38461.17331
I am a second-year college student. 2403.49581.25093
I am a third-year college student.3163.33541.13031
I am a fourth-year college student or beyond.3003.261.27979
I am expected to graduate by the end of the current or summer semester.1273.09451.23721
Role of the DAR in academic advising and course registration I am a first-year college student.1173.55561.09422
I am a second-year college student. 2403.66670.90866
I am a third-year college student.3163.59180.88073
I am a fourth-year college student or beyond.3003.60.846
I am expected to graduate by the end of the current or summer semester.1273.44881.02901
Academic advisorI am a first-year college student.1172.54190.54587
I am a second-year college student. 2402.52330.61157
I am a third-year college student.3162.46460.60821
I am a fourth-year college student or beyond.3002.520.60389
I am expected to graduate by the end of the current or summer semester.1272.40630.6223
Table 19. Metadata of study variables by campus location.
Table 19. Metadata of study variables by campus location.
VariableCampus
Location
NumberAverageStandard
Deviation
Allowing courses to be registered for those expected to graduate firstMain in Sulaymaniyah9993.74071.18434
Al-Marjan93.88891.05409
Rabigh923.64131.32251
Allowing course registration for the male campus on days other than those for the female campusMain in Sulaymaniyah9994.20820.92108
Al-Marjan94.55560.52705
Rabigh924.13040.87978
Role of the College in academic advising and course registration Main in Sulaymaniyah9993.30131.222
Al-Marjan93.77781.20185
Rabigh923.56521.17018
Role of the DAR in academic advising and course registration Main in Sulaymaniyah9993.58160.91912
Al-Marjan93.77780.97183
Rabigh923.6630.94086
Academic advisorMain in Sulaymaniyah9992.48550.60739
Al-Marjan92.84440.26034
Rabigh922.55220.57445
Table 20. Descriptive statistics of study variables by college.
Table 20. Descriptive statistics of study variables by college.
VariableCollegeNumberAverageStandard
Deviation
Progressive course registration for those expected to graduate firstFaculty of Arts and Humanities2243.6831.22474
Faculty of Science3193.50161.23338
Faculty of Economics and Management803.9751.14709
Faculty of Computers and Information Technology763.89471.14983
Faculty of Engineering944.02131.04705
Law School733.94521.18896
Other2343.78211.14952
Allowing course registration for the male campus on days other than those for the female campusFaculty of Arts and Humanities2244.11160.94752
Faculty of Science3194.15670.92513
Faculty of Economics and Management804.350.90148
Faculty of Computers and Information Technology764.46050.79062
Faculty of Engineering944.37230.82935
Law School734.16441.02759
Other2344.17090.89145
Role of the College in academic advising and course registrationFaculty of Arts and Humanities2243.04021.1991
Faculty of Science3193.52351.18105
Faculty of Economics and Management803.11.1757
Faculty of Computers and Information Technology763.64470.97576
Faculty of Engineering943.07451.22025
Law School732.68491.45179
Other2343.61111.13775
Role of the DAR in academic advising and course registrationFaculty of Arts and Humanities2243.49110.98869
Faculty of Science3193.60820.89023
Faculty of Economics and Management803.5750.97792
Faculty of Computers and Information Technology763.73680.71867
Faculty of Engineering943.52130.91262
Law School733.42471.10451
Other2343.69660.86282
Academic AdvisorFaculty of Arts and Humanities2242.35630.64652
Faculty of Science3192.60630.55123
Faculty of Economics and Management802.320.63692
Faculty of Computers and Information Technology762.68680.40442
Faculty of Engineering942.3340.55213
Law School732.22190.76344
Other2342.61880.55123
Table 21. Descriptive statistics of study variables by number of approved academic hours.
Table 21. Descriptive statistics of study variables by number of approved academic hours.
VariableApproved
Academic Hours
NumberAverageStandard
Deviation
Allowing courses to be registered for those expected to graduate first30 h or less323.40631.04293
Between 31 and 60.2833.20141.25974
Between 61 and 90.3903.57951.11894
Between 91 and 120.3224.27640.98651
More than 120 h734.36990.99313
Allowing course registration for the male campus on days other than those for the female campus30 h or less324.18750.85901
Between 31 and 60.2834.04950.99521
Between 61 and 90.3904.13080.90177
Between 91 and 120.3224.40370.82318
More than 120 h734.32880.92878
Role of the College in academic advising and course registration30 h or less323.65631.09572
Between 31 and 60.2833.43821.20234
Between 61 and 90.3903.37441.19483
Between 91 and 120.3223.2051.22852
More than 120 h733.04111.34823
Role of the DAR in academic advising and course registration30 h or less323.751.016
Between 31 and 60.2833.59010.96104
Between 61 and 90.3903.66150.87426
Between 91 and 120.3223.50310.92473
More than 120 h733.52050.9296
Academic Advisor30 h or less322.36250.72457
Between 31 and 60.2832.55050.56952
Between 61 and 90.3902.4790.62024
Between 91 and 120.3222.49070.59759
More than 120 h732.42740.6049
Table 22. Descriptive statistics of study variables by GPA.
Table 22. Descriptive statistics of study variables by GPA.
VariableGPANumberAverageStandard
Deviation
Allowing courses to be registered for those expected to graduate firstBetween 2.0 and 2.74.363.22221.04502
Between 2.75 and 3.74.2603.60771.1952
Between 3.75 and 4.49.4613.72231.24277
4.5 and more3433.8981.11794
Allowing course registration for the male campus on days other than those for the female campusBetween 2.0 and 2.74.363.58330.99642
Between 2.75 and 3.74.2604.13460.94703
Between 3.75 and 4.49.4614.22340.88709
4.5 and more3434.29740.89454
Role of the College in academic advising and course registrationBetween 2.0 and 2.74.363.51.0556
Between 2.75 and 3.74.2603.37311.21575
Between 3.75 and 4.49.4613.25381.22057
4.5 and more3433.37321.23572
Role of the DAR in academic advising and course registrationBetween 2.0 and 2.74.363.63890.89929
Between 2.75 and 3.74.2603.53850.95176
Between 3.75 and 4.49.4613.62260.88013
4.5 and more3433.58020.95444
Academic AdvisorBetween 2.0 and 2.74.362.250.68013
Between 2.75 and 3.74.2602.56080.56171
Between 3.75 and 4.49.4612.45290.61586
4.5 and more3432.52420.60085
Table 23. F test results for study variables by different factors.
Table 23. F test results for study variables by different factors.
FactorVariableFSig
Student Year LevelAllowing courses to be registered for those expected to graduate first.34.020
Allowing course registration for the male campus students on days other than those intended for female campus students.4.0930.003
Role of the College in academic advising and course registration2.6150.034
Role of the DAR in academic advising and course registration1.2130.304
Academic Advisor1.3250.259
Campus locationAllowing courses to be registered for those expected to graduate first0.3680.692
Allowing course registration for the male campus students on days other than those intended for female campus students.0.9710.379
Role of the College in academic advising and course registration2.60.075
Role of the DAR in academic advising and course registration0.5180.596
Academic Advisor2.0480.129
CollegeAllowing courses to be registered for those expected to graduate first4.2760
Allowing course registration for the male campus students on days other than those intended for female campus students.2.4790.022
Role of the College in academic advising and course registration11.5610
Role of the DAR in academic advising and course registration1.7860.099
Academic Advisor12.1230
Approved academic hours Allowing courses to be registered for those expected to graduate first44.0020
Allowing course registration for the male campus students on days other than those intended for female campus students.6.9610
Role of the College in academic advising and course registration3.1520.014
Role of the DAR in academic advising and course registration1.6540.158
Academic Advisor1.2870.273
GPAAllowing courses to be registered for those expected to graduate first5.4020.001
Allowing course registration for the male campus students on days other than those intended for female campus students.7.40
Role of the College in academic advising and course registration1.0830.355
Role of the DAR in academic advising and course registration0.510.676
Academic Advisor4.0540.007
Table 24. The correlation matrix between the five study variables.
Table 24. The correlation matrix between the five study variables.
VariableAllowing Courses to Be Registered for Those Expected to Graduate FirstAllowing Course Registration for the Male Campus Students on Days Other Than Those Intended for Female Campus Students.Role of the College in Academic Advising and Course RegistrationRole of the College in Academic Advising and Course RegistrationAcademic Advisor
Allowing courses to be registered for those expected to graduate first10.3380.1770.1440.101
(0.000)(0.000)(0.000)(0.001)
Allowing course registration for the male campus on days other than those for the female campus-10.1020.0950.62
(0.001)(0.002)−0.04
Role of the College in academic advising and course registration--10.3380.569
(0.000)(0.000)
Role of the DAR in academic advising and course registration---10.206
(0.000)
Academic Advisor----1
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Brdesee, H.; Alsaggaf, W. Decision-Making Strategy for Digital Transformation: A Two-Year Analytical Study and Follow-Up Concerning Innovative Improvements in University e-Services. J. Theor. Appl. Electron. Commer. Res. 2022, 17, 138-164. https://doi.org/10.3390/jtaer17010008

AMA Style

Brdesee H, Alsaggaf W. Decision-Making Strategy for Digital Transformation: A Two-Year Analytical Study and Follow-Up Concerning Innovative Improvements in University e-Services. Journal of Theoretical and Applied Electronic Commerce Research. 2022; 17(1):138-164. https://doi.org/10.3390/jtaer17010008

Chicago/Turabian Style

Brdesee, Hani, and Wafaa Alsaggaf. 2022. "Decision-Making Strategy for Digital Transformation: A Two-Year Analytical Study and Follow-Up Concerning Innovative Improvements in University e-Services" Journal of Theoretical and Applied Electronic Commerce Research 17, no. 1: 138-164. https://doi.org/10.3390/jtaer17010008

Article Metrics

Back to TopTop