The impact of lead users on innovation success: The mediating impact of knowledge sharing case of IT companies

2.1 Lead user theory

2.2 Innovation

2.3 Knowledge sharing

3.1 The impact of lead userness on innovation success

Compared to typical users with common interest in existing products only, LUs contribute effectively upon creating novel innovations. Hence, LUs play a powerful role in generating innovative ideas and new products and services through the lead userness, which determines the LUs two distinct characteristics:

1. being ahead of the market trend; and

2. high benefits from innovation (Hau & Kang, 2016).

Being ahead of the market trend implies that LUs face needs earlier related to a certain problem and high benefits from innovation mean that LUs expect relatively high benefits from obtaining solutions for their needs, which provides them with sufficient motivation to innovate (Hang & Kau, 2016).

LU theory implies that the more leading-edge users who are ahead of market trends and expect significant benefits from innovations are involved, the more commercially attractive products and successful innovations are created. Typically, LUs are characterized by great expertise and usage experience, and they possess personality traits such as a high locus of control and strong innovativeness. These characteristics enable them to detect their needs and problems and to develop effective solutions to those needs (Mahr & Lievens, 2012).

Franke, Von Hippel & Schreier (2006) tested the following hypothesis: “the higher the intensity of lead – user characteristics displayed by a user the greater the likelihood that the respective user yields commercially attractive innovations” and the study confirmed it.

We adopted our first hypothesis from Franke et al. (2006) research and suggested that lead userness is positively related to innovation success.

3.2 The impact of lead userness on knowledge sharing

LUs, because of their characteristics, are perceived as knowledge contributors to the community through exploring their KS behavior to the other community’s members (Jeppesen & Laursen, 2009).

Mahr and Lievens (2012) perceived LUs as generators of great knowledge obtained from two sources as follows: “usage experience” related to products’ consumption and “product environment-related knowledge” that results from various sources such as general know-how about the product’s structural design, technologies used in existing products or general market trends (Mahr & Lievens, 2012).

According to Jeppesen and Laursen (2009), LU characteristics relate positively to making contributions to the community by sharing their knowledge base. Hence, LUs are considered as key agents in the KS process (Jeppesen & Laursen, 2009).

Unlike most scholars who considered the two characteristics “being ahead of the market trend” and “the high benefits from innovation” as independent dimensions in the “lead userness” construct, Hau and Kang (2016) used lead userness as a formative construct composed of the being ahead of the market trend and the high benefits from innovation in the research model and hypothesized lead userness to be positively related to innovation-related KS in the online user community. The hypothesis was approved (Hang & Kau, 2016).

Accordingly, we hypothesize:

3.3 The impact of knowledge sharing on innovation success

Firms need to search for important criteria that ensure innovation success. One of these factors is knowledge, as knowledge created, transferred and shared among the organization’s members is the main source for innovation (Yeşil, Koska & Büyükbeşe, 2013).

In many studies, KS is perceived as a crucial factor in enhancing innovation capability and firms’ performance (Yeşil et al., 2013). As it was approved that sharing knowledge with respect to three main conditions: mutuality, trust and respect will contribute to higher performance and increasing profits (Wang & Hu, 2017).

According to Liao, Fei and Chen (2007), KS tends to boost knowledge exchange and development in the organization to gain competitive advantages (Liao et al., 2007) and creates opportunities to generate solutions and efficiencies that add value to a successful innovation project (Wang & Hu, 2017).

According to Yeşil et al. (2013), KS is regarded as a major factor in improving the innovation capability and performance of the firms. We build our third hypothesis on the basis of Yeşil et al. (2013) research and we formalize this argument in the following hypothesis:

3.4 The mediating effect of knowledge sharing

It was confirmed that firms, which involve LUs in their innovative processes are capable to guarantee their performance because of the knowledge gained from these users and shared among all its members.

Specifically, we suggest that KS, once extracted from LUs and exchanged between the rests of the community, helps to extract benefits from LUs for innovation success, as:

[…] knowledge sharing behavior of lead users is evident as such users – when connected – may provide needed know-how and task information; thus sustaining the level of knowledge supply in the community (Jeppesen & Laursen, 2009, p. 2).

However, previous empirical studies did not consider the “knowledge” behavior as an intermediate factor affecting the impact of LUs on innovation success. This is a reason to make assumptions on how could KS be a mediator variable that explains the relationship between LUs and innovation success variables.

Based on the research of Ashok et al. (2016), which analyzes how user collaboration and investments in KM practices influence the outputs of process innovation, we tried to build our fourth hypothesis.

We adapted the hypothesis proposed by Ashok et al. (2016) to our paper context and we suggest that KS (investments in KM) may serve as a mediator between LUs (user collaboration) and innovation success (process innovation) (Figure 2).

Accordingly, we suggest the following model for our research:

4.1 Research approach

The study uses a quantitative approach to answer the research questions and hypotheses and to reach a better understanding of the importance of LUs as a key success factor in innovation development.

4.2 Research method

We selected a quantitative research method to reach a better understanding of the importance of lead uses as a key success factor in innovation development. It implemented hypothesis testing to collect data that signified a relationship between dependent and independent variables.

We conducted our research in the IT sector. The reason behind the selection of “IT” as our target activity sector came after a deep investigation on different Tunisian economy sectors and discovering that the majority of those sectors as the banking one, for example, do not consider LUs as a strategic tool for their organizational improvement.

The study is directed strictly to Tunisian companies. We defined the boundary of study by our desired theories including “LU,” “innovation” and “KS.”

To test the theoretical model and the related hypotheses, we designed a survey on the basis of a comprehensive literature review to identify a set of items that ensured content validity.

The aim of the survey was to determine all patterns that will meet the research’s objectives.

4.3 Data collection technique

We used an online questionnaire to gather direct data. It was created using “Google Forms” platform and was written in English and translated into French.

Due to time and geographic issues, scheduling meetings with employees was challenging. By developing an online questionnaire, we approached different companies in an alternative way, covering the three main discussed concepts through the questions included there.

The survey was initiated and launched online using “LinkedIn” platform for better access by us and the respondents, better engagement and higher quality responses.

We started by sending the digital version by e-mail to all the companies that make up our sample, then we proceeded to phone calls to confirm the survey reception and to solicit answers.

4.4 Sample description

The population of our survey is made up of Tunisian companies. This study analyzes data at the firm level and the sample includes mid-size IT companies.

On the basis of the data provided by the survey, we have drawn up a sample composed of 30 companies, almost companies has a number of employees equal to or less than 50.

Moreover, our respondents are selected by considering different job titles, among them, we cite: chief executive officer, network consultants, web developers, IT managers and IT specialist […].

This study analyzes data at the firm level. The sample includes mid-size IT companies.

By selecting a sample to be studied rather than attempting to study the entire population of all IT companies available in Tunisia, we avoid interpretations and analysis of huge amounts of data. Hence, we can accomplish this research within time constraints.

Table III summarizes the firm activity sector and size (based on employees).

5.1 Lead userness measurement scale

Lilien, Morrison, Searls, Sonnack, & Hippel (2002) proposed the LES construct, which contains four types of measures: the first two, benefits recognized early and high benefits expected, represent the two elements of the original LU definition. The third represents direct elicitation of the overall construct (both self-reports and from third parties). The fourth set represents measures of innovative activities that have been hypothesized to be associated with benefits recognized early and high benefits expected (Morrison, Roberts, & Von Hippel, 2000) (Table IV).

The scale was characterized by unidimensionality and the measurement model for the LES construct was regarded as highly reliable (alpha of 0.83) (Morisson et al., 2002).

We adapted and modified the measure regarding our research’ requirements as following:

• Item 1: We are usually ahead of other companies in recognizing and planning new solutions.

• Item 2: The company can benefit significantly by the early adoption and use of technological innovations.

• Item 3: How leading edge the company you work in? (definition of LU given).

• Item 4: A count of how often your company is mentioned by others as being a LU.

• Item 5: We often find that we are suggesting new applications to equipment developers.

• Item 6: We have been used as a test site for prototype versions of new equipment.

• Item 7: We have close relationships with technology suppliers.

• Item 8: We are regarded as having pioneered some applications of technology.

5.2 Knowledge sharing measurement scale

Jian and Wang (2013) proposed six measurement items for KS and responses were based on five-point Likert scale ranging from strongly disagree to strongly agree. In this research, we adopted this scale because it is associated with the KS behavior of employees.

To what extent do the following statements represent your organization:

• Item 1: Your company is willing to share information related to service with cooperative partners.

• Item 2: Cooperative partners are willing to share market information or customers’ needs with your company.

• Item 3: Cooperative partners are willing to share information related to service with your company.

• Item 4: Your company shares information on market share and customers’ needs with cooperative partners.

• Item 5: Your company shares technology change information on important product/service with cooperative partners.

• Item 6: Your company and cooperative partners share a strategy or its change mutually.

5.3 Innovation success measurement scale

Moorman (1995) used a four-item scale, which deals with new product performance. It is a unidimensional and a five-point scale (where 5 = strongly agree and 1= strongly disagree). The scale is considered to be highly reliable with alpha of 0.95.

The scale aims to rate the extent to which the product has achieved the following outcomes during the first 12 months of its life in the marketplace:

• Item 1: Market share relative to its stated objective.

• Item 2: Sales relative to its stated objective.

• Item3: Return on assets relatives to its stated objective.

• Item4: Profit margin relative to its stated objective.

• Item5: Return on an investment relative to its stated objective.

6.1 Exploratory factor analysis

Exploratory factor analysis (EFA) consists in reducing the initial variables in a small number of factors, which result from linear combinations of the initial variables whose coefficients are provided by the factorial weights. Practically, it appears in some cases that some initial variables contribute more than others to the formation of a particular axis or that some variables have high factorial weights on one or more axes.

6.2 Regression analysis

Multiple regression is a generalization of the simple regression model in which several explanatory variables are included.

This technique requires identifying a dependent variable (to be explained) and the others as being independent (explanatory).

The objective of this type of regression is to put an interdependence relation between the endogenous variable that we are trying to explain and explanatory exogenous variables.

7.1 Exploratory factor analysis

8.1 Impact of lead userness on the innovation success of Tunisian companies

The variance R² measures the variation proportion of one variable that is explained by the other variable.

In our case, R² has a value of 0.457, so 45.7 per cent of the variations in the “innovation success” variable is explained by the “lead userness” variable of the model, which is an acceptable percentage.

The overall significance of the model is examined by the Fischer test, which has a value of less than 0.05 (p = 0.000), this proves that the model is globally significant.

In this case, we can analyze the individual significance of each of the selected explanatory variables.

The multiple linear regression method is applied to the H1 test, which links the “lead userness” variable to the success innovation of Tunisian companies.

The analysis retains the “lead userness” variable as a predictor of the Tunisian companies’ innovation success. With a positive regression coefficient of 0.534, which proves to have a considerable weight on success innovation.

The student’s T of 4.899 is well above the norm (1.96). The results confirm a positive effect of the lead userness variable on innovation success.

H1 is confirmed.

8.2 Impact of lead userness on knowledge sharing of Tunisian companies

H2 supposes the existence of a positive link between lead userness and KS of Tunisian companies.

First, the coefficient of determination R² is equal to 15.2 per cent, which reflects a good quality of linear adjustment between the dependent variable and the independent variable.

Thus, the explanatory variables have a significant influence on the variable to be explained and the R² values prove the overall significance of the model.

As shown in the table above, the F-statistics test measures the general importance of the model. As p is less than 0.05 for our model, the model is proved to be significant.

Thus, the combination of the variables significantly predicts the dependent variable (F = 5.038, p < 0.05) for our research model.

In this case, we can analyze the individual significance of each explanatory variable selected.

The results of the multiple regression enable us to detect a considerable influence of lead userness on KS. The regression coefficient is in the range of 0.463 at a significance level of 0.033.

In T student, T exceeds the commonly accepted limit (T = 2.245 > 1.96). These results are sufficient to confirm the existence of a positive influence of these two variables.

H2 is confirmed.

8.3 Impact of knowledge sharing on the innovation success of Tunisian companies

The result of the study of the impact of KS on the success innovation of Tunisian companies (Model 3) reveals a relevant relationship between these two variables.

Indeed, the value of R² (55.9 per cent) and adjusted R² (54.3 per cent) show a strong linear adjustment, thus a strong explanation of the success innovation of Tunisian companies by KS.

The overall significance of the model is examined by the Fisher test, which has a value of less than 0.05 (0.000). This means that the model is globally significant.

If we examine the KS variable, we find that it has a positive and significant coefficient (p < 0.01). This leads us to confirm hypothesis H3.

H3 is confirmed.

8.4 Mediating effect of the “knowledge sharing” variable

To measure the impact of the mediating variable, we compare the values of the regression results obtained before and after the introduction of the “KS” variable. We summarize the results obtained in Table V: the impact of the mediating variable “KS.”

H4 supposes the existence of a positive link between lead userness and success innovation under the mediation of the KS. The regression results (Table VI) allow deducing that the significance of the model is very satisfactory at the 0.01 threshold. The regression coefficient is in the order of 0.582 with a significance level of 0.050. The T Student is 2.024, thus exceeding the commonly accepted limit (1.96). This allows us to argue that innovation success is partially explained in terms of lead userness under the mediating effect of the KS variable (Table VI).

The overall significance of the model, examined by the Fisher test, shows a value of 0.002 that is less than 0.05, which proves that the model is globally significant (Table VI).

Based on the results noted in Table VII, we notice a significant variation of the R² value in both cases, following the introduction of the mediator variable “KS” in the model. The values obtained from R² in both cases show an average fit of the specified models.

The strong value of R² (36.7 per cent) and adjusted R² (32 per cent) show a strong linear fit. This result implies a strong explanation of the success innovation variable by the lead userness variable under the mediating effect of the KS variable (Table VII).

We have estimated a positive relationship between lead userness and success innovation through KS. The regression analysis allowed us to highlight this relationship.

H4 is confirmed.

10.1 Practical implications

This dissertation studies the impact of LUs’ contribution to innovation activities to leverage the firm’s innovation success. We explored an integrative framework that links LUs, innovation success and a third variable called “KS” to see beyond the intended importance of this type of user regarding the development of new innovations. KS is introduced in this research as a mediating variable that examines the impact of LUs on innovation success. First, LUs can be a profitable resource for companies to enhance successful innovations because of their knowledge and problem-solving skills. Moreover, the “KS” behavior among LUs and with the rest of the marketplace can enhance innovation activities and thereby mediates the impact of LUs on innovation success. Finally, as the LUs method enables to identify opportunities for future products and to gather new product ideas from leading edge customers, managers should plan to make it a part of their future new product development practices.

10.2 Limitations and directions for future research

Like any other research, this study has its limitations:

• We can obtain different results if we choose other fields (e.g. the banking sector), and therefore, we are not able to generalize our findings. Hence, it is required to explore other Tunisian activity sectors.

• Companies that have been selected for the study are all located in one city (Tunis) with relatively small sample size. It is, therefore, recommended that further research work on companies across all the country considering a high sample size, which would help detect hypothetical relationships. In addition, future studies could include other variables that may affect innovation performance.

• We selected a quantitative approach for the purpose of this paper. Generally, quantitative research methodology requires a large sample size and this is not the case of our study. Consequently, it would be better for future researchers to take into account mixed method research designs, which linked quantitative and qualitative data collection and analysis to guarantee a more complete and comprehensive understanding of the research problem than either quantitative or qualitative approaches alone.

• The innovation diffusion theory developed by Rogers (1962) has had a considerable positive impact on many fields of research. As expressed in this definition, innovation, communication channels, time and social system are the four key components of the diffusion of innovations. The innovators and the early adopters represent 2.5 and 13 per cent, respectively (Rogers, 2003). According to Giacomini Filho et al. (2007), the analysis of “diffusion of innovations” reveals that Roger’s studies do not fully address the social and communication demand on diffusion of innovations, deserving a concerted revision of social and communication’s configurations (Giacomini Filho et al., 2007). Accordingly, future research studies need to focus on critical factors that negatively affect the diffusion of innovations and determine the key determinants of successful innovations with regard to the “diffusion innovation” theory criticism.