British Journal of Educational TechnologyVol 35 No 3 2004 275-288Direct and indirect effects of online learning ondistance educationNamin Shin and Jason K.Y. ChanDr Namin Shin is a Research Fellow at the Centrefor Research in Distance and Adult Learning (CRIDAL)at the Open University of Hong Kong. She is currently managing the East Asia Global Distance Educa-tion Network while undertaking research projects at the institution. Mr Jason Chan is a research asso-ciate at CRIDAL. Addressfor correspondence: Dr Namin Shin, Rm A730, CRIDAL, The Open Universityof Hong Kong, 30 Good Shepherd Street, Ho Man Tin, Kowloon, Hong Kong. Email: nshin@ouhk.edu.hkAbstractThis paper presents an exploratory study that investigates the effects of onlinelearning on distance education students in an open university context.Two hypotheses are posited: (1) a direct relationship exists between students'involvement in online learning and distance learning outcomes, and (2) anindirect relationship exists between these two domains via the mediating vari-able of an institutional Transactional Presence (TP), that is, a student's senseof the availability of and connectedness with an educational institution.Student learning achievement, satisfaction and intent-to-persist are used asindicators of outcomes of distance learning. The analysis of data garneredfrom 285 distance students reveals multifaceted relationships between stu-dents' engagement in online learning, their perceptions of institutional TP andthe three learning outcome variables. Besides the findings, the paper willdiscuss factors affecting students' engagement in online learning in relationto different requirements, that is, optional or compulsory online use as well asthe level of the course (undergraduate or postgraduate).IntroductionThis paper presents an exploratory study that is part of a research project investigat-ing the effects of online learning on various aspects of distance education at the OpenUniversity of Hong Kong (OUHK). To support its students, the OUHK has developed anOnline Learning Environment (OLE) for both English and Chinese courses. The aim ofthe OLE is to provide distance students with rich resources for learning as well as a moreflexible mode of interaction with teachers and other students, thereby enriching stu-dents' learning experiences. This has been the standard rhetoric of distance educationprogramme providers when they adopt online technology partly, or entirely, in a coursedelivery system. This belief, however, may weaken unless buttressed by valid evidence.C) British Educational Conununications and Technology Agency, 2004.Pubbshed by Blackwell Publishing Ltd.. 9600 Garsington Road, Oxford OX4 2DQ, UK and 3 50 Main Street, Malden, MA 02148, USA.2 76 British Journal of Educational TechnologyVol 35 No 3 2004Researchers, nonetheless, appear to be more keen on finding out users', that is, stu-dents' and teachers', perceptions of the relatively new experience of online teachingand learning (eg, Angulo and Bruce, 1999; Daugherty and Funke, 1998; Goh andTobin, 1999; Zafeiriou et al, 2001) rather than on delving into what sort of effect canbe brought about in education by such Internet applications. Nevertheless, our limitedreview of literature discovered a few approaches to the theme relating to the effects ofonline learning. One of the exemplars would be Lu et al's (2000) research concerningHong Kong college students in web-based instruction. On the basis of longitudinalsurvey research, they found that, among available technical functions of their OLE,only the frequency of visits to lecture notes featured on their course site contributed tostudents' final exam scores. A more interesting but challenging finding from this studywas that the frequency of general web surfing had a negative impact on final examscores, which led the researchers to suggest that a purposeful use of the Internet forthe course should be contemplated on the part of students rather than merely spend-ing more time on it.Ahern and Repman (1994) took a rather micro-approach to the issue of the effect ofonline learning, looking at how interface design could affect students' participation inonline activities. When students using a graphic interface were compared to studentsin a text-based mode of asynchronous computer-mediated communication, the formergroup generated significantly more messages than the latter group. In addition, thegroup of students who had graphic organisers on the screen was more active in visit-ing the site, and addressed more messages to individual students than to the wholeclass, compared to their counterparts in a text-based mode. The researchers, therefore,argue that designing online interaction that provides a clear visual indication of newand stored messages from class members can facilitate students' participation in onlinediscussion.Woods and Keeler's (2001) study lies also within the line of research investigating theeffect of instructional design on online learning. Hypothesising that the use of audiomessages, as a supplement to text-based communication, can enhance student partici-pation in online discussion, the researchers compared four treatment groups receivinga different number of audio messages attached to an email, including one control groupthat received text messages only. To the researchers' surprise, the result did not supportprevious research and literature suggesting that the additional use of audio messagescould increase the level of student participation, positive perceptions of the course andstudent satisfaction. Anecdotal evidence, however, disclosed that the use of the audioemail messages helped the distance students gain a sense of class community and feelconnected to the group as a whole.Apart from the instructional elements, individual differences have been investigated asfactors affecting the process of student learning in courses involving Internet applica-tions. Among the factors is gender, as is found in Barrett and Lally's study (1999). Byanalysing the frequency and content of messages in an online seminar, they found that© British Educational Communications and Technology Agency, 2004.on distance education Direct and indirect effects of online learning 277men sent more messages than women, wrote twice as much as women and mademore socio-emotional contributions than women. Women's contributions were gearedtowards more interactive messages than those from men.In an open university context, too, researchers have been keen to see how Internettechnology is shaping their practice differently from previous approaches to distanceteaching and learning. For example, Carswell et al's (2000) study reports that, as faras students' final grades are concerned, no significant difference exists between thestudent group in a conventional instruction that the Open University UK providesand the student group taught exclusively through the Internet. However, other dataand anecdotal evidence support the notion that students in both groups inevitably gothrough different learning experiences influenced by the different media used forinstruction as well as by the management of instruction.Despite the valuable individual contributions of the reviewed studies, a coherent theo-retical frame seems lacking across the studies that can help distance educationresearchers put empirical studies into perspective. Given this problem, this paper aimsto map out the relationships among theoretical variables related to students' experi-ences of online learning as well as selected elements of distance learning outcomesusing survey data garnered from OUHK students.Theoretical frameworkBuilding on previous relevant studies (Shin, 2001, 2002a, 2002b), we set forth twohypotheses on the design and analysis of the survey research presented in this paper.One concerns a direct positive relationship between students' engagement in onlinelearning and learning outcomes, given the general advocacy that online learningwould enhance distance learning byt giving students more opportunities to interactwith teachers or peer students and by providing increased access to information avail-able on the Web. Besides learning outcomes, students' satisfaction with overall distancelearning experience as well as their intent to persist with distance learning was exam-ined in relation to the use of online learning, as these are widely regarded as indicatorsof successful distance learning programmes or courses (Gibson, 1991).Secondly, given the OUHK's integrated approach to course delivery and the provisionof student support and administrative services via the World Wide Web, it was conjec-tured that students who were active in the use of the OLE would have a stronger senseof institutional presence compared to the students less interested in gaining informa-tion from the OLE. This sense of institutional presence was defined as the degree towhich a distance student perceives the availability of support services, and the degreeof connectedness with the institution (Shin, 2002a).Research questionsGiven this background, the following research questions were developed:© British Educational Communications and Technology Agency, 2004.278 British Journal of Educational TechnologyVol 35 No 3 20041. Is a distance student's engagement in online learning related to (a) learning out-comes, (b) satisfaction with distance learning experience at the institution, and (c)intent-to-persist with distance learning in future?2. Is a distance student's involvement in online learning related to his/her perceptionof institutional presence?3. Is a distance student's perception of institutional presence related to(a) learningoutcomes, (b) satisfaction with their distance learning experience at the institution,and (c) intent-to-persist with distance learning?The Online Learning Environment (OLE)The OLE implemented at OUHK uses a modified WebCT platform, known as 'a versatilemanagement tool for Web-based teaching and learning' (Lu et al, 2000, 202). Figure1 shows the technical features available via the OLE such as 'News', AdministrativeInformation', 'Course Material', Assignments', 'Interactive Tools', 'Multimedia', 'Per-sonal Folder', 'Evaluation', and 'Help'. There is also a Chinese version of the OLE, basedon Lotus Notes, which provides virtually identical functions. Since the OLE was intro-duced into the institution as part of an instructional support system for creating a flex-ible learning environment rather than replacing the backbone of correspondencein delivering courses, use of the OLE is either optional or compulsory in demandingstudents to have Internet access. This is determined mostly on the basis of the natureof subject matter.___ .. oil licloils ommalimmom I[Sample Course] B329 -Systems Analysis and DesignNews Ad inistrahee nformation Course Matena AssigrmentsInteractive Tools Multinedia PersonalFolder EvaluationHelpFigure 1: The online learning environment (OLE)C) British Educational Cornmunications and Technology Agency, 2004.Direct and indirect effects of online learning on distance education 279Research designMeasurementDrawing from previous research studies (Shin instrument 2001, 2002a), measuring we developed the major a surveyconstructs of concern in the research measures questions. or 'I feel' in are composed Theorder to capture of items, a respondent's most of which subjective begin state with phrases of mind. such Respondents as 'I believe'areasked to indicate'to what extent they agree with the scale listed ranging items from on a five-point 'strongly disagree' Likertto 'strongly agree'.Engagement in the OLE was measured by the frequency site of a per student's week. log-in to the courseFiv7e intervals were given on to the 16 times scale, or more.ranging from 0-3 times throughInstitutional presence was defined as the degree to which availability a distance of student support perceives services in thethe institution while tion, feeling and was connected measured to with nine the institu-items. The reliability scale of the was checked institutional with presenceReliability Analysis embedded for Social in the Science Statistical (SPSS) Packagesoftware, (alpha and = .845). turned The out items to be are:moderately acceptable* I find it easy to contact student support staff at * When OUHKI see OUHK's symbol, or logo, I feel pride* I have a strong sense that I am an OUHK student* I believe that student support staff are willing to help me if I while have taking technical the courseproblems* I feel a sense of belonging to the OUHK* I believe that Registry staff are willing to help me * I with believe scheduling that library courses staff will be at OUHKwilling to help me find * I find learning it convenient resourcesto get information * about I feel OUHK attached coursesito the OUHKLearning outcomes were defined as what individual students taking an perceived as OLE course. The gains gains fromwere concerned at the with workplace either professional or more general developmentintellectual Kember development et al's or (2001) growth. item pools Drawn regarding fromlearning outcomes, to constitute 10 items the scale were of chosenlearning outcomes. highest amongst The alpha coefficient the construct (.893) scored scales included thein the instrument.* I gained practical ideas to be applied to my work* The courselprovided me with professional knowledge * The course,provided for workme with an opportunity to develop time learningmanagement skills for* The course enhanced my thinking skills* The course&helped my intellectual growth* My views of work were enriched * The with insight course allowed gained me to from look the courseat things in different ways© British Educational Communications and Technology Agency, 2004.280 British Journal of Educational TechnologyVol 35 No 3 2004* The course provided me with knowledge that allowed me to work more effectively* From the course I gained new perspectives of my work* The course enabled me to enhance my learning abilitySatisfaction was defined as the degree to which individual students sensed apositive association between the courses they have taken and overall distance learningexperiences. Six items were drawn from Shin (2002a); the reliability coefficientwas .842.* Taking a course at OUHK is a valuable experience for me* I have been able to learn a lot from the courses OUHK provides* I don't regret enrolling in distance learning courses that OUHK provides* I feel that I am continuously growing due to a variety of activities that I've beenengaged with at the OUHK* I feel a sense of accomplishment while studying at the OUHK* I like the fact that I am taking OUHK coursesIntent-to-persist was defined as the estimated likelihood of one's continued enrollmentat an educational institution. Four items were used for the analysis of data(alpha = .634).* It is important for me to earn the intended degree at the OUHK* I will try hard to overcome obstacles encountered in the course of studying at theOUHK* I will enrol for the next semester, if I have courses to complete* I will finish my studies at OUHK no matter how difficult it may beApart from the reliability test, the content of the instrument was validated by a panelof experts from Hong Kong, Canada and the US, whose speciality areas were concernedwith educational assessment or distance learning. The questionnaire also includeditems concerning a respondent's background such as the level of previous education,experience of online courses, the level of Internet skill, gender, age and so forth.Study participantsConsidering the exploratory nature of the study, the project team decided to includestudy participants who represent an array of courses from both undergraduate andgraduate levels, and from both optional and compulsory OLE component courses. Tothis end, we sampled four courses offered by the School of Business and Administra-tion, where choosing the range of OLE courses was readily feasible at the time ofthe research survey. The courses were 'Electronic Commerce for Managers' (B870),'Creativity, Innovation and Change' (B822), Auditing' (B406), and 'Networking Appli-cations and Electronic Commerce' (B322), all of which were two-semester coursescommenced in April 2001. This sampling strategy of was also intended to control forcompounding variables other than the effect of student engagement in the OLE. Table1 illustrates the nature of each course, the number of enrolments and the number ofstudents who actually participated in the survey.C British Educational Conununications and Technology Agency, 2004.Direct and indirect effects of online learning on distance education 281Table 1: Study participantsCourse Mode the OLE of Degree level Enrolment respondents SurveyResponse rateB322 Compulsory Undergraduate 248 91 B406 Optional 36.7%Undergraduate B822 161 Compulsory 60 Postgraduate 37.3%254 B870 105 Optional Postgraduate 41.3%83 29 34.9%Total 746 285 38.2%Study procedureThe survey questionnaire was mailed by post to all those enrolled in the chosen fourcourses in late February 2002. The students were also able to participate in the surveyonline by accessing a designated web site linked to the Centre for Research on Distanceand Adult Learning at the OUHK. This information was posted in 'News' or the dis-cussion board of the OLE courses by each course coordinator. The responses (145, 120via post and 2 5 online) were collected from 746 cases for the first round of the survey.Surprisingly, almost as many responses (140, 135 via post and 5 online) were submit-ted when the students were reminded of the survey two weeks later, by receiving a solic-iting letter and another copy of the questionnaire. In total, 285 completedquestionnaires were collected, giving a 38.2% response rate.Data analysisThe analysis of data was conducted using SPSS version 10.1. Before testing the pro-posed hypotheses, a preliminary analysis was run to obtain general understandingabout the study participants, particularly with respect to their involvement with onlinelearning. Not surprisingly, mean scores of students in compulsory courses were higherthan those of students in optional courses in the areas of frequency of log-ins per week,average time spent in the OLE per visit, perception of one's activity in using the OLEand self-reported Internet skill (Table 2). The differences were all statistically significantat a confidence level of. 05 (Table 3).In making sense of the mean scores reported in Table 2 and Table 4, however, a littlecaution is needed due to the use of interval scales. For example, the minimum score of'1' represents '0-3 times' and the maximum score of '5' indicates '16 times or above'in the scale measuring the frequency of log-in times per week. When appropriately con-verted, it can be claimed that students in an optional mode logged-in to the OLE 5.5times per week, whereas students in a compulsory mode visited their relevant OLE 7.3times per week. Likewise, when the scale measuring the average time spent in the OLEper visit ('1' indicates 'less than 0.5 hour' and '5 indicates '2 hours and more') was con-verted, it was found that students in optional courses spent about 50 minutes, whereasstudents in compulsory courses spent about 5 6 minutes on average. In perceiving one'sown level of activity in using the OLE, students in the optional mode described them-selves somewhere between 'inactive' and 'neutral', whereas students in the compulsory© British Educational Communications and Technology Agency, 2004.282 British Journal of Educational TechnologyVol 35 No 3 2004mode fell between 'neutral' and 'active'. Regarding self-reported Internet skill, bothgroups of students ranked themselves between 'fair' and 'good'; however, a slight dif-ference between the mean scores shown in Table 2 was statistically significant enoughto distinguish the two groups.Table 2: Comparisons between students' OLE use in optional and compulsory OLE coursesItems OLE component N Min Max Mean SDFrequency of log-ins per week Optional 165 1 5 1.61 1.004Compulsory 120 1 5 2.06 1.239Average time spent in the OLE Optional 165 1 5 1.67 .806per visit Compulsory 120 1 5 1.88 .999Activity in using the OLE Optional 165 1 5 2.72 1.011Compulsory 120 1 5 3.03 .934Self-reported Optional 165 1 5 3.45 .880Internet skill Compulsory 120 1 5 3.84 .860Table 3: Independent samples t-test for the comparisons between optional andcompulsory OLE coursesLevene's test forequality of t-test for equality ofvariances meansF Sig. T df Sig. (2-tailed)Frequency of log-ins per week 3.433 .065 -3.400 283 .001Average time spent in the .188 .665 -2.034 283 .043OLE per visitActivity in using the OLE 3.596 .059 -2.708 283 .007Self-reported Internet skill .400 .527 -3.703 283 .000Table 4: Comparisons between undergraduate and postgraduate courses in students' use of the OLEItems Course level N Min. Max. Mean SDFrequency of log-ins per week Undergraduate 151 1 5 1.70 1.095Postgraduate 134 1 5 1.91 1.160Average time spent on the Undergraduate 151 1 5 1.77 .844OLE per visit Postgraduate 134 1 5 1.75 .947Activity in using the OLE Undergraduate 151 1 5 2.77 .932Postgraduate 134 1 5 2.93 1.049Self-reported Undergraduate 151 1 5 3.62 .886Internet sldll Postgraduate 134 1 5 3.62 .899© British Educational Communications and Technology Agency. 2004.Direct and indirect effects of online learning on distance education 283Table 5: Independent samples t-test for comparisons between undergraduate and graduate coursesLevene's test forequality of variances F Frequency of log-in time perweekAverage time spent on the OLEper visitActivity in using the OLESelf-reported Internet skillSig. T t-testfor equality ofmeansdf Sig. (2-tailed).178 2.192 .666 .013 .674.140.415 .910 -1.609 .207 -1.346 -.033 283283283 283 .109.836.179.974IFigure 2: Analysis of optional OLE coursesNo such differences were significant, however, when the comparison was made betweenundergraduate and postgraduate courses (Tables 4 and 5). Given the distinctive naturesamong study participants, further analysis on the posed research questions was con-ducted separately between the group of students in optional OLE courses and the groupof students in compulsory OLE courses.FindingsStudents in optional mode of the OLEFigure 2 summarises correlations among the variables under investigation for thestudents in the optional mode of the OLE. For students who could opt for the OLE ontheir needs basis, the frequency of use was moderately, but significantly, related to theirperceptions of learning outcomes. In other words, students active in logging in to theirO British Educational Communications and Technology Agency, 2004.284 of Educational TechnologyBritish Journal Vol 3S No 3 2004m rikmllurfffFigure 3: Analysis of compulsory OLE coursescourse web site tended to report greater gains from the course than students less activein the same course. In addition, the analysis suggests that students with a higher levelof educational background are likely to be more positive about learning outcomes thanare students with low levels of education.However, the hypothesised relationship between the students' involvement in the OLEand their perceptions of institutional presence was not supported by this group ofstudents. What is remarkable, instead, is the multiple relations between the institu-tional presence variable and all the criteria variables of the study, that is, learning out-.403, p < .01), satisfaction (r= .610, p <.01) and intent-to-persist (r = .3 59,comes (r= p < .01). In this paper the correlation coefficient is indicated by Pearson's r.Among the student background variables, level of education, experience with previousonline learning and self-assessed Internet skill were found to be related to the extent towhich the students made use of the OLE.Students in compulsory mode of the OLEThe analysis of data from students in compulsory OLE courses resulted in differentpatterns from those noted above with respect to the optional OLE courses. One of thedifferences was that the level of students' engagement in the OLE was unrelated to theirperceptions of learning outcomes. While previous educational level and previous expe-rience with online learning were related to the level of students' use of the OLE regard-ing the optional OLE courses, this was not the case for the compulsory OLE courses.Nevertheless, the level of student Internet skill was related to the frequency of theirvisits to the OLE. In addition, for the students in compulsory OLE courses, their involve-© British Educational Communications and Technology Agency. 2004.Direct and indirect effects of online learning on distance education 285ment in the OLE was significantly linked to their perceptions of institutional presence.Given the significance and direction of the correlation coefficient, it is assumed that themore he/she engages with the OLE, the stronger the student senses the availability ofthe institutional support while feeling connectedness with the institution, or perhaps,vice versa.One similarity found in the analyses between the two modes of online courses was thestability of the institutional presence variable regarding its relationships with students'perceptions of learning outcomes, satisfaction with distance learning experiences andwillingness to continue being enrolled in courses at the institution. Data from studentsin the compulsory courses, too, confirm moderately high correlations between the per-ceptions of institutional presence and learning outcomes (r = .430, p < .01), satisfac-tion (r = .634, p < .01) and intent-to-persist (r = .463, p < .01).Discussions and implicationsThis research study provides some 'food for thought' on researching and practisingonline learning in a broader distance education system such as an open universityrather than within a single unit of a course. Considering the different mixture of studyparticipants, the analysis of data was carried out separately between students who canopt for using the OLE and students required to access the OLE on a regular basis. Theanalysis confirmed the assumption that students in compulsory OLE courses are gen-erally more active users than students in an optional mode of the OLE. However, therewere no significant differences between undergraduate and graduate students in web-related behaviours such as log-in frequency, average time spent per visit, and self-evaluation of level of activity in using the OLE as well as level of Internet skill. Thisfinding appears to challenge some of the course coordinators' perspectives that the OLEcan be used more effectively for graduate courses than for undergraduate ones due tothe relatively more mature and serious attitudes that graduate students project towardscourse participation (Shin, 2002c). At present, however, it is difficult to determinewhich data are more valid and reliable; given potential impact of these findings on insti-tutional policy, further investigation is required.Another disputable point is the statistically unsupported relationship between student'sengagement in the OLE and perceived learning outcomes, found in the analysis of thecompulsory OLE courses. One possible explanation for this is that for the students whoare required to access the OLE on a regular basis, what matters to their learning is notso much the sheer frequency of visits to the course site as a measure of the quality ofengagement in course activities. Given the usage of the compulsory mode, tutors orcourse coordinators may well try harder to engage students in the OLE than do thetutors and course coordinators in optional OLE courses. Future studies should takenotice of this point, using more sophisticated measures of students' engagement in theOLE, either quantitatively or qualitatively.When the use of the OLE was a matter of a student's choice, however, the effect of theOLE seems to be direct in relation to learning outcomes. This finding hints that studentsC British Educational Communications and Technology Agency, 2004.286 British Journal of Educational TechnologyVol 35 No 3 2004who are active in making use of the virtual component of learning materials or courseactivities may actually gain more from the course than students less interested in whatthe additional medium of instruction offers. But a subtle caution is needed in puttingthis observation into practice, for the finding was only true for the students in anoptional mode of the OLE. This would imply that while it is important to encourage stu-dents to be autonomous in participating in the OLE, worrying too much about the pos-sible low level of participation may be unnecessary.The data also reveal information about individual student backgrounds that can resultin varying levels of engagement in online learning, including level of previous educa-tion, previous online learning experience and level of competence using the Internet.Among these, self-assessed Internet skill was the strongest variable affecting bothgroups of students. Given this finding, the institution's current practice of providingstudents with the 'Online User's Guide' or 'OLE training video' is viewed as helpful tostudents in using the OLE (OUHK Working Group, 1999). Literature, too, stresses thatensuring a smooth 'learner-Interface interaction' with instructional media should be aprerequisite for distance students to effectively communicate with course content,instructors or peer students (Hillman et al, 1994).Apart from the aspects related to the OLE, what may be noteworthy for distance edu-cation researchers are the observed significant connections between students' sense ofinstitutional presence and the three indicators of involvement with distance learning(Figures 2 and 3). Put simply, distance students who have a stronger sense of avail-ability of, and connectedness with, educational programme providers are likely to bemore positive about learning outcomes, more satisfied with their learning experiencesand more willing to continue being involved in distance learning than are students witha weaker sense of institutional presence. This finding backs the assertion that estab-lished 'studentship' can be crucial to distance students' academic success as well ascourse or programme completion, particularly for the students involved in an open uni-versity system (Shin, 2002b; Student Research Centre I ET OU, 1986). From this, prac-tical lessons may be drawn such as that distance education programs or institutionsneed to be in continual communication with their students and should assure the stu-dents that their needs are taken care of despite the distance element. On the researchside, too, the confirmed significance of institutional presence on various aspects of dis-tance learning should compel researchers to attend to the 'totality of students' experi-ence' rather than focusing on the use of individual technologies within a course (Gibbs,2002, 101).ConclusionsGiven the growing expectations of online technology as a tool for providing distancestudents with a flexible learning environment, this paper reported a case of surveyresearch exploring what effect online learning can bring to distance education. Admit-tedly, the term 'effect' was used rather loosely in this paper, mainly referring to the co-occurrence between two or more attributes or events, not in a strict sense of causality.The analysis of survey data from selected OUHK courses indicates that the effect of© British Educational Communications and Technology Agency, 2004.Direct and indirect effects of online learning on distance education 287online learning can vary across individual courses, largely the OLE affected is integrated by the into way the in course whichas a whole. For example, OLE when the function was supplementary, of a direct therelationship dents' was visits found between to the course the site frequency and their of perceptions stu-sory of OLE learning courses, outcomes. however, In compul-the effect of students' be rather indirect, involvement mediated in the OLE by their appeared sense toanalysis of institutional suggests that presence. it is critical In addition, for distance theto have students a sense involved of belongingness in an open universityto or Replication connectedness studies with the are institution required to as a validate whole.the results of that the subsequent analysis, research and it is is notedcurrently underway in range the institution, of OLE courses involving including a widerthe Chinese OLE.AcknowledgementsThis research study was supported by the and President's Development Advisory at the Committee Open University on Researchof Hong David Murphy, Kong. The authors Acting are Director grateful to of Drthe ing Centre (CRIDAL), for Research for his in comments Distance and and Adult Learn-feedback on an early draft of this paper.ReferencesAhern T C aAngulo on Computing nd Repman in J (1994) The effects of technology on online education Journal of ResearchBarrett web-based A J E and instruction and Education Bruce M 26, (1999, 4, 537-546.Winter) Student's affective perceptions of supplementalLally V (1999) Innovative Gender Higher difference Education in 24, an online 2, 105-125.learning environment Carswell Computer L, Assisted Thomas Learning P, Petre 15, M, Price 1, 48-60.Journal ofB, and Richards Daugherty Internet: the student experience British Journal of Educational M (2000) Technology Distance 31, education 1, via theGibbs instruction M Journal and Punke of B L (1998) University faculty and student perceptions 29-46.of web-basedGibson G selected C C (2002) Distance Education 13, 1, 21-39.recent research (1991, Editorial May) Open Learning 17, 2, 101-103.Paper Changing presented perceptions at the of learners and learning at a distance: A review ofGoh distance S C and education, Tobin K Pennsylvania State University, second University American Park.Symposium on research inHillman environments education: C A, Willis in teacher education (1999) Student and Learning teacher Environment perspectives Research in computer-mediated 2, 169-190.learningan extension D J and Gunawardena of contemporary C N models (1994) Learner-interface interaction in distanceKember Journal C K (2001) D, of Armour Distance Education and strategies for practitioners The AmericanEvaluation R, Jenkins 8, 2, 30-42.of the W, part-time Lee K, Lstudent eung D experience Y P, Li N, Educational Murphy D, NTechnology g K C, Siaw and I and Yum JLu ing OUHK from A XUnit, YWorking a , single-source Zhu Open University J J H, and of Hong, Kong.Publish-Group study Stokes (1999) Journal M (2000) Report of Interactive The use and effects of web-based instruction: evidenceof first survey of Learning students Research in 11, OUHK online 2, 197-218.Shin University N (2001) of Hong Beyond Kong.courses Openinteraction: transactional presence and distance learning. UnpublishedShin doctoral Open, N (2002a) dissertation, Flexible and Institution's Pennsylvania Distance Learning presence: State II, its 1, 27-36.significance University, University to distance Park.learning Global E-Journal of© Bntish Educational Communications and Technology Agency, 2004.288 of Educational TechnologyJournal British Vol 35 No 32004Shin N (2002b) Beyond interaction: the relational construct of 'Transactional Presence' OpenLearning 17, 2, 121-137.Shin N (2002c) Online pedagogy: voices from students and teachers in Murphy D, Shin N andZhang W (eds) Advancing online teaching and learning in Asia Open University of Hong Kong.Student Research Centre I E T OU (19 86) The human dimension in Open University study OpenLearning June, 14-17.Woods R and Keeler J (2001) The effect of instructor's use of audio email messages on studentparticipation in and perceptions of online learning: a preliminary case study Open Learning 16,3,263-278.Zafeiriou G, Nunes J M B and Ford N (2001) Using students' perceptions of participation inforcollaborative learning activities in the design of online learning environments Education Information 19, 2, 83-106.C British Educational Communications and Technology Agency, 2004.COPYRIGHT INFORMATION
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