Investigating the factors driving adult learners' continuous intention to use M-learning application: a fuzzy-set analysis

Adult learners and M-learning application (MLA)

Adult learners in South Asian countries like Bangladesh who are potentially involved in the creation of the knowledge-based economy and decision-making are adults who are contributing actively to the economy of Bangladesh (Farooqui, 2007; Jamila, 2014). This group of adults, according to the literature, is defined on the bases of their sociocultural roles, status and responsibilities (Alkin, 1992; Jarvis, 1990; Tight, 2000; Tuijnman, 1996). Knowles (1998) stated that “we become adult psychologically when we arrive at a self-concept of being responsible for our own lives, of being self-directing” and “ we become adult socially when we start performing adult roles, such as the role of full-time worker, spouse, parent, voting citizen, and the like” (p. 64). Hence, the “functions” and “roles” of these adults, (not their “biological age”), determine the definition of adulthood in the context of the knowledge-based economy in the current study. This definition of adult learners is also endorsing in the recent statistics on the most active participation age group in adult education. The age group between 30 and 54 years was found to be the most active adult participants in both Finland (see Blomqvist et al., 1995) and the United States of America (see Caffarella and Merriam, 2000). Hence, it is highly possible that a similar age range of Bangladeshi adults (i.e. age between 30 and 54 years), who have professional work experience, also belong to the group who are actively seeking continuing professional education or other forms of formal education to enhance knowledge and learning in view of the changing scene in the global market.

Thus, adult learners can be characterized as self-directed, highly motivated and know what they want to achieve from their education program (Huang, 2002). These students are motivated by career development, job security, upward mobility, recareering and other professional and personal reasons (Katz, 1999; Eastmond, 1998). Their life experience usually aids adult learners, and their reflections and actions are integral components of the adult learning process (Merriam and Caffarella, 1991). According to Ruey (2010), for the MLA process to be successful, adult learners should be able to interact with the course materials, discuss and collaborate between instructor and other students, and integrate their past experience with the course content or assignment. Adult learners enjoy having discussions and relating course materials to their lives, use their experiences as a learning resource, are problem-centered and prefer “immediacy of application” (Morris, 2010). In other words, to actively engage adult learners in MLA, the program should be able to encourage them to discuss, argue, negotiate ideas and collaboratively solve problems (Ruey, 2010). This approach is said to be appropriate for adult learners because their learning context usually requires them to integrate their rich life and employment experiences in learning. Thus, to make a success, the MLA used should be able to support these needs. MLA that offer these needs is said to have a better likelihood to be used and adopted by adult learners (Eastmond, 1998; Huang, 2002).

Definition of construct

Antecedents of continuance intention to use M-learning apps (MLA)

With the rapid growth of e-learning, particularly in higher education institutions (Demirkan et al., 2010; Loh et al., 2015; Weng et al., 2015), successful e-learning has been discussed and investigated in various studies, from different perspectives and in different contexts (Alias et al., 2012; Bhuasiri et al., 2012; Govindasamy, 2001; Holsapple and Lee-Post, 2006; Lieblein, 2000; Sela et al., 2009; Selim, 2007; Song et al., 2003; Swan et al., 2000; Volery and Lord, 2000). Bhattacherjee (2001) proposed a postacceptance model of information system usage continuance by adapting expectation-confirmation theory. This theoretical model reflects users' perceptions of the usefulness of and satisfaction with a system as related to their continuance intention. Demirkan et al. (2010) discussed a reference model for sustainable m-learning systems. Ho (2010) proposed an integrated technology acceptance model (TAM), an expectation-confirmation model (ECM), a cognitive model and a self-determination model, and examined how motivational factors affect the synthesized model. Ho (2010) demonstrated that perceived usefulness, user satisfaction and attitudes could significantly predict users' e-learning continuance intention. Lin et al. (2011) developed a model that examined users' e-learning continuance intention concerning negative critical incidents. They found that negative critical incidents, perceived ease of use, perceived usefulness, satisfaction and attitudes were the core factors related to users' MLA continuance intentions (Thongsri et al., 2019). Lee et al. (2011) noted that the intention to continue using learning apps remains very low, particularly after initial acceptance of the system, and that satisfaction was found to be the strongest predictor for driving users' continuance intention. Based on Ifinedo (2006), this may be due to certain technological characteristics that influence students' perceived behavior and hence affect their usage and continuation intention with regard to e-learning systems. In addition, Liao et al. (2009) integrated TAM, ECM and the cognitive model in order to explain what drives users to continue with information system use. They proposed the constructs of confirmation, perceived usefulness, perceived ease of use, satisfaction, attitude and continuance intention to shape their TCT.

Technology continuance theory

The TCT has been used to describe the continuance usage intent of the MTB app among users in this study (Wu and Chen, 2017). The TCT was recommended as an improved model for the IS continuance that is appropriate for the total life cycle of acceptance (Liao et al., 2009). Three models, technology adoption model (TAM), expectancy confirmation model (ECM) and cognitive model (COGM), with their six constructs, which are confirmations, satisfaction, perceived usefulness, perceived ease of use and attitude, have synthesized to create a condensed model (Dağhan and Akkoyunlu, 2016; Wu and Chen, 2017; Khayer, 2019; Oghuma et al., 2016; Ratten, 2016). The major strong point of the TCT is that satisfaction and attitude are merged into one single continuance model while keeping the well-determined variables of perceived ease of use and usefulness as the first level of antecedent (Liao et al., 2009). Compared with the ECM, TAM and COGM, the TCT was favored for this research because of its explaining power for the adoption of the whole life cycle. According to Liao et al. (2009), unlike the ECM, TAM and COGM models, the TCT qualitatively and quantitatively provide a considerable improvement in order to explain the consumers' attitudes at different stages of confirmation. The TCT quantitatively represents a powerful explanation both for continuance intent and satisfaction. As for the qualitative point of view, the TCT contributes theoretically in that it merges attitude and satisfaction, into one continuance model.

Previous research results have suggested that cognitive needs and subjective norms are significant constructs of attitude and continuance intention to use MLA (Liao et al., 2009) and such constructs could be added to the TCT. The cognitive need is the learners' motivation to use materials as creative thinkers (Hashim et al., 2015; Mondi et al., 2007). Adult learners are supposed to be challenged to integrate their knowledge in their practical work to solve everyday problems while they should develop skills to create new knowledge to solve problems and communicate their knowledge with others (Mondi et al., 2007). For that reason, the current study model has included cognitive needs and subjective norms into the original TCT to predict better the attitude and continuance intention to use the MLA. According to TAM, consumers' attitudes used to determine the users' behavior toward MLA use (Talukder et al., 2019). The literature suggests that attitude has a significant impact on IS use and acceptance (Lee et al., 2011; Liao et al., 2009). As people show a positive perception toward a new system and technology, they are more enthusiastic to take continuance advantage of it. Therefore, it is believed that when users have positive attitudes toward an MLA, they will have a stronger interest to use it (Lee et al., 2011).

A great number of researchers have studied consumer satisfaction which shows the IT effectiveness from the users' points of view (DeLone and McLean, 1992, Dağhan and Akkoyunlu, 2016; Khayer, 2019; Wu and Chen, 2017; Liu et al., 2018; Cao, 2018; Hsiao et al., 2016; Ratten, 2016; Taylor and Hamdy, 2013) and also indicates the success of the IT acceptance in a compulsory environment (Oliver and Westbrook, 1993). The ECM maintains that the continuance intention of users shaped by their satisfaction with using the IS as well as their perceived usefulness of continued IS use. As Oliver (1993) and Lee (2010) believe, adult learners being satisfied with the IS use plays a vital role in forming the IS continuance intent. In the context of the adult learners' satisfaction with the MLA may derive their continuance intention to use.

Users will always want to keep using a particular learning application that can help them improve productivity (Bhattacherjee, 2001; Bhattacherjee and Premkumar, 2004). Moreover, according to Gagne (2007) and Lee (2010), there is a positive relationship between the intention to use and the perceived usefulness of a new product. Moreover, learners need to feel that the MLA is quite easy to use and beneficial. Thus perceived usefulness and perceived ease of use can influence learner attitude and continuance intention (Peng et al., 2016).

Conversely, users might not have the positive usefulness of new technology, mainly because they do not know what to expect from its usage (Hossain et al., 2018). In that case, confirmation experience could be used to adjust the IS perceived usefulness, especially when doubt and uncertainty about what to expect from the IS usage overshadow the consumers' primary perceived usefulness (Bhattacherjee, 2001). However, they are likely to accept the new technology to make their experience of using it as a platform to shape more perceptions. Even though at the initial level of using the IS, there is low perceived usefulness, such perceived usefulness might be modified based on the outcomes of the confirmation experiences. To be more specific, confirmation and disconfirmation, respectively, increases and lessens the degree of the perceived usefulness. (Ghazal et al., 2016).

To visualize these relations, we designed a conceptual model (Figure 1) illustrating seven independent variables and their intersections, as shown on the left, and the outcome of interest, on the right. The overlapped areas represent possible combinations among factors, that is, areas that one factor may exist together with the other factors. Also, to identify such patterns of factors in a complex system as continuous intention to use mobile learning applications, formulating hypotheses, common in variance-based methods that are framed as correlational expressions, does not allow for a holistic approach that will lead to the identification of multiple solutions. Indeed, Technology Continuous theories need to evolve to capture the complexity of phenomena under investigation (Bagozzi, 2007). Thus, we employ configuration theory approaches in which research propositions are formulated as causal recipes to capture the different combinations among factors, and theoretically specify which should be present or absent from the causal recipe (Sawy et al., 2010; Fiss, 2007; Ragin, 2008).

Measurement of constructs

Containing 40 items, the questionnaire of this study comprises two parts: the first part asked demographic questions about the participant, and the second part was concerned with items assessing the TCT's theoretical constructs. Demographic information included gender, age, race, occupational status, academic qualification, monthly family income, average monthly transportation cost and length of experience in using the MLA. To ensure content validity, the survey items were derived from those used in previous studies. The scale of the perceived usefulness and perceived ease of use were adapted from Venkatesh and Davis (1996). The confirmation, satisfaction and continuance intention items were adapted from Bhattacherjee and Barfar (2011). The items of the cognitive needs and subjective norms were adapted from Peng et al. (2012). Finally, the attitude was determined using a four-item scale adapted from Taylor and Todd (1995). A 5-point Likert scale was used to measure each item.

Procedures and data collection

This study was conducted in the central parts of Dhaka in Bangladesh due to the fact that the population of the MLA users was not available and it was impossible to select our sampling element from the population, directly. According to a Hand Phone User Survey conducted, around 57.4% of mobile users in Bangladesh have a smartphone (Sanou, 2016). This indicates that the majority of people have access to different mobile applications. Thus to facilitate learning for the adult, the Open University of Bangladesh developed MLA (see Table 1). This application helps learners to get interactive communication with teachers and student. A partial registration list of adult learners (age above 30 years) was collected from the Open University of Bangladesh those who registered in the MLA and contact them through email to have an appointment. We applied a nonprobability sampling technique, namely, the accidental sampling in which respondents answered the questionnaire according to their availability and willingness (Gravetter and Forzano, 2018). We selected this technique as it was quicker and easier to manage compared to the other techniques that needed more resources (e.g. technical resources, time). Also, accidental sampling is a common method used in the data collection process in technology adoption research. The survey was conducted in the months from June 2019 to July 2019. A sample of 250 learners was approached and handed a questionnaire. Out of the 240 responses, two were incomplete, 25 respondents mentioned that they are not using MLA though registered in the system. This left a total of 211 valid responses or an 89% response rate. Freedman (2015) suggested that “if the response rate is high (most interviews are completed), non-response bias is minimal”. Therefore, nonresponse bias is not an issue in this paper. After that, we prepared a dataset consisting of 211 records using the SPSS software package. As the dataset contained several corrupt or inaccurate records (e.g. duplicate observations, irrelevant observation, structural errors, incomplete records and missing data), we performed data cleansing method to correct the dataset. We fixed some structural errors (e.g. typos or inconsistent capitalization and mislabeled classes) as well as removed duplicate, irrelevant and missing records.

Measurement reliability and validity

We used internal reliability, convergent validity and discriminant validity criteria to assess the measurement model (Hair et al., 2013). Tables 2 and 3 present the results from our analysis of the measurement model. Convergent validity reflects the degree to which the measures underlying a latent construct assumed to be theoretically connected are in fact, connected (Henseler et al., 2009). Convergent validity can be assessed by estimates of the factor loadings of measurement items as well as the composite reliability (CR) and average variance extracted (AVE) for each construct (Hair et al., 2013).

Results indicate that the factor loadings of all measurement items are above 0.80. Likewise, the CR scores for all latent constructs are greater than 0.90, and their AVE values are more than 0.7 (Fornell and Larcker, 1981a). Since the values for factor loadings, CR and AVE exceed recommended thresholds of 0.7, 0.8 and 0.5, respectively (see Table 3) (Fornell and Larcker, 1981b), we can be assured of convergent validity in this study (Henseler et al., 2014).

Discriminant validity is assessed by comparing the squared root of the AVE for each latent construct and the cross-loadings for each measurement item (Hair et al., 2016). As shown in Table 2, the squared root of the AVE for each latent construct is higher than its correlations with other constructs (Aldholay et al., 2018). Furthermore, we can deduce that each item is reflective of its underlying latent construct because the within construct loading for an item is higher on its measured construct than its cross-loadings on other constructs (see Table 3). This, in turn, testifies to the discriminant validity of our study (Chin, 1998; Fornell and Larcker, 1981b).

Harman's one-factor test was also performed to determine the existence of common method bias (Podsakoff and Organ, 1986). Results indicate that the largest common variance explained by a single factor was 25.03%, far below the advocated threshold of 50% of the total variance explained. We can thus eliminate common method bias as a threat to our study (Sharma et al., 2016; Chan and Chong, 2012; Priyadarshinee et al., 2017).

Data calibration

Data calibration is necessary when employing fsQCA software. The raw data collected from our survey questionnaire were converted into fuzzy set values before analysis (Ragin, 2000). Following the procedure outlined by Ragin and Fiss (2008), the original scores of the variables in our research model were calibrated to fuzzy membership scores (ranging from 0 to 1) by utilizing the calibrating function accessible from the fsQCA 2.5 software.

Three qualitative breakpoints (1, 0.4 and 0) were designated to calibrate predictor variables (i.e. perceived usefulness, perceived ease of use, confirmation, satisfaction, attitude, perceived risk and subjective norms) into fuzzy sets. To match the fuzzy set calibration with the 7-point Likert scale employed for data collection, we set the original values of 7, 4 and 1 to correspond, respectively, to the three anchors. A full membership value of 1 was assigned to responses with an answer of 7, 0.4 was assigned to a response of 4, and 0 was assigned to an answer of 1. The other values of variables (such as 2, 3, 5 and 6) were calibrated based on the linear function fit into the four values of the variables.

Identifying the configurations

Following the calibration, the researcher is ready to run the fsQCA algorithm on the menu Analyze and to choose Fuzzy Truth Table Algorithm. At this point, the researcher chooses the outcome of interest (i.e. dependent variable) and all the causal conditions (i.e. independent variables). Regarding the outcome, the researcher may choose to examine the presence of the outcome and choose Set, or the absence of the outcome, Set Negated.

Next, the fsQCA algorithm produces a truth table of 2k rows, with k representing the number of outcome predictors and each row representing each possible combination. For example, a truth table between four variables (i.e. conditions) would provide 16 possible logical combinations. For every combination, the minimum membership value is calculated; that is, the degree to which every case supports the specific combination. FsQCA uses the threshold of 0.5 to identify the combinations that are acceptably supported by the cases. Thus, all combinations that are not supported by at least one case with membership over the threshold of 0.5 are automatically removed from further analysis.

The final step is to sort the truth table based on frequency and consistency (Ragin, 2008). Frequency describes the number of observations for each possible combination. Consistency refers to “the degree to which cases correspond to the set-theoretic relationships expressed in a solution” (Fiss, 2011). As the truth table computes all possible combinations, some of the combinations will likely have a frequency of zero, meaning that these combinations represent none of the cases in the sample. As the number of variables in the analysis is increased, the combinations increase as well, thus more combinations will have zero frequency. A frequency cut-off point needs to be set to ensure that a minimum number of empirical observations are obtained for the assessment of subset relationships. Increasing the frequency threshold means that each combination will refer to more cases in the sample, but it will reduce the percentage (i.e. coverage) of the sample that is explained by the solutions. On the other hand, a small frequency threshold will increase the coverage of the sample, although each combination will refer to fewer cases in the sample. For small and medium-sized samples, a cut-off point of 1 is appropriate, but for large-scale samples (e.g. 150 or more cases), the cut-off point should be set higher (Ragin, 2008), and can be set at 3. It is up to the researcher to decide if an even larger cut-off point should be set for very large datasets. Thus, after removing the combinations with low frequency using the option on the Edit menu, the truth table should be sorted based on their “raw consistency.”

A consistency threshold should be set, with the minimum recommended value being 0.75 (Rihoux and Ragin, 2009). A good indication for choosing this threshold is to identify big changes in the consistency of each combination. For example, one combination may have a consistency of 0.841 and the next one may have 0.781. Although both values are above the recommended threshold of 0.75, this is an indication of what the consistency threshold should be. Nonetheless, it is up to the researcher to choose what the exact threshold will be. It should be noted that a low consistency threshold leads to the identification of more necessary conditions, reducing type II errors (i.e. false negatives), but the increasing type I errors (i.e. false positives), and vice versa (Dul, 2016). The final step is to insert the value of 1 or 0 in the column with the outcome variable. Choosing 1 or 0 depends on the consistency threshold that has been chosen. For example, for a consistency threshold of 0.75, which is set here, all combinations with a consistency larger than 0.75 should be set at 1 and the rest at 0. Once this is complete, the researcher may proceed with the option of standard analyses.

Obtaining the solutions

Following the sorting of the truth table, the researcher is presented with the option to choose if a single independent variable should be present or absent at all times on the solutions. Unless otherwise needed, we suggest choosing “Present or Absent” in order to obtain all the possible combinations. Next, fsQCA provides the following three sets of solutions: complex, parsimonious and intermediate. Here, “solution” refers to a combination of conditions that is supported by a high number of cases, where the rule “the combination leads to the outcome” is consistent. The complex solution presents all the possible combinations of conditions when traditional logical operations are applied. In general, because the number of configurations identified can be very large, the number of complex solutions can be large and these may include configurations with several terms. Thus interprets the solution is difficult and in most cases impractical (Mendel and Korjani, 2012). For this reason, they are usually simplified further into parsimonious and intermediate solutions.

The parsimonious solution is a simplified version of the complex solution, based on simplifying assumptions and presents the most important conditions which cannot be left out from any solution. These are called “core conditions” (Fiss, 2011) and are identified automatically by fsQCA. Finally, the intermediate solution is obtained when performing a counterfactual analysis of the complex and parsimonious solutions (Ragin, 2008). In essence, the intermediate solution depends on simplifying assumptions that are applied by the researcher, which at all times should be consistent with theoretical and empirical knowledge. The intermediate solution is part of the complex solutions and includes the parsimonious solution. The conditions that are part of the intermediate solution and not part of the parsimonious solution are called “peripheral conditions” (Fiss, 2011). A more detailed and mathematically oriented description of the steps in the counterfactual analysis is provided by Mendel and Korjani (2012).

Interpreting and evaluating the solutions

FsQCA presents the complex and parsimonious solutions regardless of any simplifying assumptions employed by the researcher, while the intermediate solution depends directly on these assumptions. A combination of the parsimonious and intermediate solutions is recommended as the main point of reference for interpreting the fsQCA results. In detail, the researchers should create a table that will include both core and peripheral conditions (Fiss, 2011; Pappas, Kourouthanassis et al., 2016). This study identifies the conditions of the parsimonious solution and the intermediate solution. This will lead to a combined solution, which will present all core and peripheral conditions, thus helping in the interpretation of the findings. Typically, the presence of a core condition is present with a Capital letter “C”, the causal condition is presented with “P”, the absence with “AB” and the “do not care” condition with a blank space (Fiss, 2011). The researcher should also present the overall solution consistency as well as the overall solution coverage. The overall coverage describes the extent to which the outcome of interest may be explained by the configurations, and may be compared with the R-square reported on regression-based methods (Woodside, 2013).

Results of fsQCA

The study's hypothesis that the presence of perceived usefulness, perceived ease of use, confirmation, satisfaction, attitude, perceived risk and subjective norms should be associated with the presence of our target output of interest; continuance intention toward using MLA, while gender and consistency of use would be related to continuance intention to use regardless of their extant. That is, users' continuance intention should not be dictated by whether they are males or females, or how frequently MLA has been used during a day.

After calibrating the variables, a truth table was constructed to perform qualitative comparative analysis. A truth table encompasses all logically plausible combinations of casual conditions are included. Because there are seven causal conditions (perceived usefulness, social norms, perceived ease of use, confirmation, satisfaction, cognitive needs, subjective norms and attitude) in our research model, the truth table consists of 256 (2^8) distinct combinations or configurations. As the sample cases in a study might be limited and may not necessarily meet all possible configurations in the truth table, the initial truth table must be fine-tuned to isolate relevant configurations by setting a number-of-cases (frequency) threshold (Ragin and Fiss, 2008). After fine-tuning the truth table, the analysis moved to the identification of distinct configurations.

Table 4 depicts the configurations that culminate in a high membership score regarding users' continuance intention toward learning apps. These configurations entail both intermediate and complex solutions. The consistency and coverage (raw coverage and solution coverage) are also reported in Table 4. Consistency measures the extent to which configurations are sufficient for an outcome of interest to emerging (Ragin and Fiss, 2008). Solution coverage and raw coverage measure the degree to which the configurations can describe the outcome of interest (Ragin and Fiss, 2008). As articulated by Ragin (2008), the consistency value aids in determining the fit of each configuration. If a configuration exceeds the predefined consistency threshold of 0.75, the causal conditions it embodies are deemed to be sufficient in generating the outcome.

Conversely, configurations with consistency values below the threshold value of 0.75 are regarded as being insufficient. In this study, we set the consistency threshold at 0.90 to ensure a high membership value for the configurations. As shown in Table 4, the raw coverage values are between 0.165 and 0.960 and the solution coverage value of models 1, 2 and 3 is between 0.81 and 0.92. All consistency values exceed the cut-off value of 0.90. The configurations of continuance intention, as exhibited in the solution table (see Table 4), satisfy the required threshold (Ragin, 2009), thereby indicating all configurations are sufficient in yielding the outcome of interest (Rihoux et al., 2009). Furthermore, as shown in Table 4, the model 1, 2 and 3 explains 81.3%, 82% and 92%, respectively, of the cases of continuance intention toward MLA.

Based on the equifinality of different core conditions, both first- and second-order solutions exist in configurations (Fiss, 2011). In this study, we further identified three order equifinality of solutions, within-type equifinality of solution for configuration 1 (i.e. 1a, 1b, 1c and 1d), configuration 2 (2a, 2b) and 3 (3a) (see Table 4).

Results indicate that there are three major configurations of causal conditions that underpin users' continuance intention toward MLA. As shown in Table 4, the pattern of core condition (C), causal condition (P), and do not care conditions vary across the three configurations. As shown in Table 4, Solution 1 includes 4 configurations, covering the membership values of the observations from 16.7% to 71.0%, whereas Solution 2 covers 37–69.4% of the membership values, and Solution 3 covers 62.9% of the membership values. All three solutions represent sufficient configurations of causal conditions for continuance intention and Solution 1 is the most prevalent configuration for predicting users' continuance intention toward MLA.

General discussion and theoretical implication

The present study takes a different approach from traditional technology acceptance research, builds on complexity theory, employs configurational analysis, and proposes that in using MLA, cognitive need, satisfaction, confirmation, subjective norms, perceived usefulness, perceived ease of use and attitude combine to form configurations for predicting MLA adoption. By considering the role of different configurations, this study offers an alternative approach to examining technology adoption and sheds light on how adult learners may have high m-learning application adoption. To this end, a conceptual model is constructed which serves as the basis for identifying the configurations above.

Of particular interest in the findings was the role of cognitive need and satisfaction. Those two factors are present in five out of the seven solutions (Solutions 1a-d and 2a), and when cognitive is absent, high MLA adoption may be achieved only with the satisfaction and strong presence of an attitude (Solutions 3). The results reveal that the cognitive needs and satisfaction of MLA use are joint members of the set of continuance intentions, implying that they constitute core conditions for continued usage of learning apps. Within extant literature, past studies have certified that the learners' cognitive motivation to use materials as creative thinkers (Hashim et al., 2015; Mondi et al., 2008) are supposed to be challenged to integrate their knowledge in their education to solve everyday problems. It is necessary to develop skills continuously to create new knowledge to solve different problems. Therefore, learners will be satisfying to use the service regularly only when it full fill their needs for learning and developing skills (Hsiao et al., 2016; Zhang et al., 2006). But at the same time, only satisfaction is not sufficient in driving continuance intention. The cognitive need should be present together with other peripheral factors. In other words, the finding indicates that adult learners should not only use learning apps frequently but they should also feel the ease of the service. Learners will always want to keep using a particular app that can help them improve their efficiency (Bhattacherjee, 2001; Bhattacherjee and Premkumar, 2004). They are always concerned about the certainty of the application. Their confirmation experience plays vital role in post adaption behavior (Bhattacherjee, 2001). For example, users might not have a positive usefulness of a new application, mainly because they do not know exactly what to expect from its usage. Thus, confirmation, usefulness of the service will satisfy the learner need to create positive attitude for continuance use.

Likewise, the first solution embodies four configurations (1a, 1b, 1c, 1d) of casual conditions, showing the major features of the four different subgroups of users. Specifically, Solution 1a indicates that perceived ease of use in combination with cognitive need creates sufficient condition for MLAs' confirmation and satisfaction which leads learners' attitudes to use it continuously. According to users' gratification theory, cognitive needs positively influence on learners' satisfaction. For adult learners', it is the learners' motivation to use MLA and prove them as adopters of new technology to learn differently (Hashim et al., 2015; Mondi et al., 2008). As a result, it highlights cognitive needs in combination with satisfaction, is a sufficient condition in Solution 1b. For informal learners', subjective norms have a significant influence on satisfaction and attitudes. In combination with subjective norms and cognitive needs, it is sufficient in predicting continuance intention and attitude whenever they have confirmation about MLAs' perceived usefulness (Solution 1c).

On the other hand, it is observed that in Solution 1d, perceived ease of use, cognitive needs and perceived usefulness together creating sufficient conditions that influence learners continuance intention if they hold satisfied attitude in this method of learning (Li et al., 2012). This solution is consistent with condition 1b (Solution 1b) where learners are not caring much about social norms and confirmation about the service. Because according to self-determination theory, learners' motivation plays a vital role in continuance learning intention (Joo et al., 2018).

Similarly, Solution 2a reveals that the cognitive needs of using MLA play an instrumental role in adult learners' continuance intention in spite of the absence of perceived usefulness, perceived ease of use, satisfaction, confirmation and subjective norms. In that case, informal learners are likely to persist even when they have no negative perceptions of usefulness, confirmation, satisfaction, perceived ease of use and social appeal in MLA use (Arbaugh, 2000). In other words, fulfilling cognitive needs could lead to forming a regular activity among adult learners'. Because they will be able to solve their regular problem instantly at their working place by developing new skills and knowledge. In contrast, Solution 2b shows that the combination of perceived usefulness and confirmation of the service with the presence of learners' cognitive needs developing sufficient positive conditions. Thus, it will lead learners' attitudes to use service continuously.

As shown in Solution 3a, learners' satisfaction in the absences of other construct is uniquely sufficient for securing their continuance intention behavior toward MLA usage. Because satisfaction is concerned with his or her experience of an IS, which vividly describes the emotional response to the IS (Ives et al., 1983). A good number of researchers have studied consumer satisfaction which shows the IT effectiveness from the users' points of view (DeLone and McLean, 1992) and also indicates the success of the IT depends on its continuance usage in a compulsory environment (Oliver and Westbrook, 1993). Their satisfaction with using the service shapes the continuance intention of users. As Oliver (1993) and Lee (2010) believe, users being satisfied with the IS use plays a vital role in forming the IS continuance intention. In the context of the MLA, the learners' satisfaction with the learning method may derive their desire to use the application continuance.

Even though some past studies have considered attitude and satisfaction as being synonymous with each other (Bolton and Drew, 1991), most agree that the two are different from a conceptual point of view. While attitude is more stable and goes beyond prior experiences, satisfaction seems to be considered as a momentary experience-related factor (Liao et al., 2013). Attitude is a belief emerging out of the personal evaluation of a system, service and product while satisfaction is an evaluation occurring after purchasing a service or product (Venkatesh and Morris, 2000). So that satisfaction has been analyzed in-depth in the literature and has been found to play a critical role in predicting consumers' continuous behaviors (Iranmanesh et al., 2017; Sayyah Gilani et al., 2017).

Finally, the discussion revealed that cognitive needs and satisfaction indeed play important roles in MLA adoption for adult learners. The finding contradicts with prior studies that adopted technology confirmation theory approach (e.g. Kim and Chatterjee, 2013; Park and Ko, 2012) as well as related work in social influences on learning adoption (e.g. Shin and Kang, 2015; Yeap et al., 2016). They showed that perceived usefulness, social norms and facilitating conditions play a vital role in infrequent use of learning applications. But this study, by employing fsQCA, found that if cognitive need and satisfaction are not present, adult learners definitely need to have a strong presence of m-learning attitude to attain m-learning adoption. On the other hand, if learners have strong cognitive needs and satisfaction toward the service, there is no need form-learning attitude or social influences to have MLA adoption. Thus, this study expands on the research stream on adult learners' continuance use behavior by offering empirical evidence that attests to the applicability of a configurational lens toward MLA.

Regarding the theoretical implications, these findings also contribute to the literature in several ways. This study adds to the technology acceptance literature by providing an alternative view on the adoption process and shows how important antecedents of users' continuance intentions can combine, creating multiple solutions that explain MLA adoption. Following the need to extend and evolve technology continuance theories and models to better capture real-life phenomena, which are by definition complex and multidimensional (Benbasat and Barki, 2007; Nistor et al., 2014), we propose taking a different methodological approach that enables researchers to identify such complexities inherent in real-life situations. The methodology is essential, as it not only defines how we study a phenomenon but also affects how we think about it (Bagozzi, 2007). To this end, we propose employing complexity theory along with configurational analysis, to better explain the complex relationships among variables. Since such relationships are more likely to be asymmetric, researchers with fsQCA can identify different configurations (i.e. combinations) of the same variables predicting the same outcome, explaining, for example, the behavior of different parts of a sample which otherwise would have been considered as outliers and removed from further analysis. Identifying such configurations can help in theory building with fsQCA (Woodside, 2014), as configurations that frequently appear in different contexts provide support for their importance, increasing researchers' knowledge about their role in predicting behavior (Liu et al., 2017). Thus, we differentiate from traditional hypothesis building and assumptions of symmetric tests between individual variables, as the proposed approach can lead to the evolution of existing theories on technology continuance theory and behavior of individuals (e.g. TAM, TRA/TPB). In detail, identifying important configurations of existing variables, in multiple contexts, will offer more knowledge on their interrelations and guide researchers to the creation of new variables, and potentially hypotheses, answering the call for incorporating more complex and multidimensional variables into the field (Benbasat and Barki, 2007; Nistor et al., 2014).

Practical implications

In line with the previous studies by Hossain and Quaddus (2013); Bhattacherjee and Barfar (2011), the results reveal the important effects of confirmation and perceived usefulness on satisfaction. Therefore, meeting the expectations of the adult learners ensuring that the MLA is useful. MLA service providers should foster a close relationship with the adult learner to understand their expectations and extend the usefulness of the app to satisfy their users. In the planning and development of learning apps, software developers should pay attention to practical functions and extend key features that are frequently required for solving the problem using a new skill. On the marketing side, MLA companies should emphasize the full functionality of their apps to cater efficiently to the different needs and expectations of the learners.

This research also provides recommendations for MLAs service providers. Gaining a thorough understanding of the determinants of the continuance intention of users toward the learning app use will help the app's service providers to grasp the factors that result in continued learning app use. With such understanding, the service providers can improve their app to ensure its continued use after the first adoption. Since, cognitive need, satisfaction and attitude are critical to the continuance usage of the learning app, the providers of this app should give special notice to those antecedents. The app's service providers can increase the learners' beliefs of how it can enhance their convenience when taking the courses (perceived usefulness) and, consequently, satisfy them by developing an app that fulfills the need for qualification and credential of the learners (confirmation) with a good user interface (perceived ease of use) consistency. The MLA service providers should consider the importance of the perceived usefulness and cognitive need of the MLA in the postadoption stage. The results show that the users' cognitive needs can not only enhance the continuance intention of the MLA use but also influence their satisfaction and attitudes toward using the app.

Finally, the MLA service providers must improve the attitude of the user about using the MLA for learning. Therefore, perceived usefulness and subjective norms should be considered as an important configuration during the app's design and publicity. Furthermore, when the expectations of the MLA service users are met, satisfaction will generate. And only then the cycle of satisfaction and service improvement will run.

Implications for teaching and learning

This study helps to add important recommendations in the context of teaching and learning. The demand for skill-based employment is increasing tremendously (Taylor and Hamdy, 2013). Thus, it becomes essential for the educator to develop a learning management system based on adult learners' cognitive need (Santandreu Calonge, 2016). If they are satisfied with the teaching and learning materials that help them to upgrade needed skills and knowledge, their continuance intention will increase. Therefore, for the instructor, well-defined content, monitoring and performance assessment procedure should be maintained for the adult learners. Prioritizing interactive features such as threaded discussion, virtual discussion forums and learning community will help them to get actual feedback on their skill and knowledge development. Then adult learners' cognitive needs will be satisfied and continuance intention to use the service will increase. Finally, this study suggests that educator, teacher and professor need to ensure customized administration, documentation, feedback and reporting system to attract and satisfy more adult learners.

Limitations and future research directions

This paper has a couple of caveats that could be addressed in future research. First, this study was conducted in the context of adult learners MLA whereby the motivations for continued usage and the nature of technological innovation could differ. In this regard, findings from this study may not be generalizable to other technological contexts. Future research should therefore compare and contrast the antecedents of IS continuance, as derived in this study, against those identified in other contexts. Second, this study was conducted among users. Future research could consider replicating our study across other countries or cultural backgrounds.

This empirical work has some limitations. Adult learners' general perceptions of MLA are examined, without focusing on a specific service. Future studies may choose the specific application of learning systems or content in order to provide more accurate guidelines for professors and designers. In addition, this study examines learners' continuance intentions in m-learning, common in technology acceptance research, but without investigating actual user behavior. Although learners' continuance intention is considered as a powerful predictor of actual behavior (Fishbein and Ajzen, 1977), combining data from the actual use of learning systems and applications would provide more insight into the role of cognitive need, satisfaction, subjective norms and individual factors in predicting m-learning adoption. Future studies should build on learning analytics, and incorporate data from big learning analytics providers (e.g. Moodle), reflecting the use of complex learning ecosystems and offering a holistic understanding of the technology acceptance process in learning.

Nonetheless, in order to increase the reliability of the sample, future studies should ask the respondents to provide an example of what they believe is m-learning. Additionally, more predictors of m-learning adoption should be examined in the future, as well as various demographic characteristics, which have been proven to influence acceptance of m-learning (Wang et al., 2009). Finally, we should mention that fsQCA does not identify the unique contribution of each variable for every solution. Instead, the goal of fsQCA is to identify combinations of the independent variables. Future studies should combine fsQCA with regression-based techniques to gain a deeper insight into the data, and integrate knowledge from both methods toward extending current theories or developing new ones. As this study is among the first to employ configurational analysis with fsQCA in education and learning environments (Pappas, Cetusic et al., 2017; Pappas, Giannakos et al., 2017; Pappas, Giannakos et al., 2016; Plewa et al., 2016), further innovative research is needed to identify complex and important configurations that will move the field forward, and also reveal the full potential of configurational analysis.