Survey Data Analysis on Intention to Use Shared Mobility Services

. Shared mobility is a service that allows users to share various transportation modes and use them with reservations when necessary. It started with private automotive car-sharing and ride-sharing services. Currently, it operates on a wider range, including personal mobility devices such as electric bicycles and scooters. The purpose of this study is to derive a direction for providing future shared mobility services through analysis of factors aﬀecting the usage intention of both current and prospective users. The survey targets 753 citizens living in Gyeonggi Province, Korea. The survey period is from February 12, 2020, to February 26, 2020. In this study, a logistic regression analysis is conducted to investigate the factors aﬀecting the use intention of shared mobility. The analysis results show that gender, car ownership, and education, among variables reﬂecting socio-demographic characteristics, have signiﬁcant eﬀects on intention to use shared mobility. Moreover, we ﬁnd that experience factors, including mainly used transportation modes, ownership of shared mobility device, past experience in similar services, satisfaction of existing shared mobility services, and distance from the home to the nearest bus stop, are also statistically inﬂuential. The analysis results are expected to lay the foundation for the introduction of shared mobility services and can be used as data for planning smart mobility services in the future.


Introduction
As negative impacts of autoownership have gradually increased, such as significant energy consumption, traffic congestion, inefficient land use, and excessive vehicle purchasing and operating costs, drivers have begun to look for alternatives [1].Accordingly, shared mobility, a service that allows users to share various transportation modes and use them when necessary [2], has emerged as a major solution to existing transportation problems [1,[3][4][5].is can be further divided into conventional automotive vehicle-sharing and personal mobility-sharing services in terms of types of vehicles to share [6].e former involves car-sharing and ride-sharing services [7]: car sharing is when people share vehicles instead of using private vehicles (e.g., Drivy and Zipcar), often associated with a subscription fee, and ride sharing is when multiple passengers share their routes either partially or completely by a single vehicle (e.g., BlaBlaCar and Via).
Car sharing was introduced in Zurich, Germany, in 1948, as a car rental service, but it did not gain much popularity until in the late 1980s [1].Besides this, personal mobility-sharing services were first introduced in Amsterdam, the Netherlands, in 1965, in a system that allowed people to share public bicycles; however, it was difficult to proceed with long-term planning as a result of bicycle damage or theft issues [8].However, demand for alternative mobility has been continuously increasing according to its advantages (e.g., low cost, autonomy, flexibility, and rental in recent years) [9] and the disadvantages of owning personal cars (e.g., increased urban problems and uncertainty in future operation expenses) [1].
Especially, analysis of the user's intentions is attracting much attention in which it is closely related to future demand forecasting and economic evaluation.For example, Simsekoglu and Klöckner analyzed psychological attitudes and social determinants of electric bicycle use through structural equation modeling analysis [23].Matyas and Kamargianni used a stated preference survey method to obtain initial insight into whether sharing modes can be used as a successful or feasible mobility tool [24].Most recently, Ho et al. investigated user preferences for shared mobility.
ey identified the impact of current on-demand mobility services and obtained insight from customer demand analysis in terms of socio-economic conditions and travel needs [25].However, such studies of user intention still have limitations in which they usually focused on a single specific shared mobility mode.
While the spread of shared mobility has increased, most user-related studies have analyzed factors influencing the use of shared transportation modes that are already widely used.
In the analysis based on the shared mobility services already implemented, there is a possibility that established services did not fully reflect future user intention in the planning stages.us, such post-hoc analyses can be biased in terms of what potential users actually want and need, varying according to their individual situations.us, to predict the correct direction of the provision of a service based on the exact needs of users, it is necessary to analyze the intention to use a shared mobility system that has not been implemented yet.
To fill this research gap, we have conducted an online survey for citizens living in Gyeonggi Province, Korea, and carried out an ex-ante analysis of intention to use types of shared mobility services through a logistic regression model.
e intended contributions of this study can be summarized threefold: (1) We conduct an ex-ante analysis of potential user needs for shared mobility services to overcome the biases possibly inherent in the previous post-hoc analyses (2) We identify factors that influence user needs based on their statistical significance and quantify the extent of influence using survey data collected from Gyeonggi Province, Korea (3) We qualitatively suggest the direction of provision of shared mobility service in consideration of potential users' intention e following section describes the questionnaire and sample characteristics used in this study.In addition, this section shows the statistics of the current usage status of various transportation modes.Section 2 presents the statistical method used to analyze the collected data.e results are documented Section 3. Section 4 summarizes the findings and suggests policy directions to enhance the effectiveness and efficiency of shared mobility plans for the future.

Survey Overview and Questionnaire
Design.An online survey has been conducted to analyze the characteristics and factors affecting the potential user's intention of shared mobility services.It targets people aged from 19 to 65 who live in Gyeonggi Province, Korea, and its survey period is from February 12, 2020, to February 26, 2020. is province is characterized by dense traffic zones that are satellite cities connected to Seoul City, the capital of Korea.Each of the province and the capital city is home to more than 10 million people, and there are a large number of people commuting to Seoul City from the surrounding satellite cities.While 781 responses were collected, we select a total of 753 samples due to the incompleteness of responses [26,27].In detail, samples are excluded in the following cases: (i) if there is no response to a question that needs to be answered and (ii) if multiple responses are made to a question that requires one answer.
e survey is comprised of three parts.e first part is a respondent socio-demographic characteristic (e.g., gender, age, job, household size, household income, and residential area) [28].e second part is about the current and recent past use of conventional transportation modes and existing shared mobility services in the province.Specifically, the survey provides a detailed description of the shared mobility services (Table 1) and asks if the respondents are currently using or have used them and how satisfied they are to understand how their past experiences affect the future intention.e reason we consider only the past month's experiences is twofold.First, conventional transportation modes are mainly for commuting.us, the one-month survey can reflect the actual usage patterns.Second, the shared mobility services and their penetration rates are rapidly changing and still at a pilot phase, so the current perception of shared mobility services could not be highly influenced by old experiences obtained when the service environments were different from now.Since satisfaction is difficult to observe and measure explicitly, it is collected using the Likert scale [28,29].e third part is a future preference survey assuming that shared mobility services will be provided.
e survey questionnaire is summarized in Table 2.

Sample
Characteristics.An analysis of respondent characteristics confirms that the composition of the respondents reflects the entire socio-demographic characteristics of commuters in Korea.e sample numbers for different gender are almost even.Moreover, all age groups except for the 60s have almost the same sample number.As for the job, full-time workers occupy the majority of the respondents, so the collected sample reflects commuter traffic well [9].Table 3 shows the statistical characteristics of the collected samples.

Usage Status of Transportation Modes and Shared Mobility Services.
We survey the usage status of conventional transportation modes and shared mobility services, focusing on the experiences of respondents.We focus on the frequently used transportation modes in the past month of each 2 Journal of Advanced Transportation respondent.Driving an owned vehicle is the most common mobility mode, followed by using conventional public transit such as subways, buses, and railroads.KTX presented in Table 4 is an abbreviation of the "Korea Train express" operated by Korail, a Korean railway company.e use of car-sharing and shared personal mobility services occupies around 1%, much lower than that of other conventional transportation modes.us, it means that this study focuses on people's intentions who live in cities where shared mobility is not prevailing.In Table 4, the vehicle-sharing system, so-called macromobility, includes car sharing and ride sharing, and the personal mobility-sharing system, a component of micromobility, involves electric bicycle and scooter sharing.We analyze the usage status and characteristics of respondents who have experienced shared mobility services more than once, which are documented in Tables 5 and 6, respectively.e results show car sharing has the highest number of once-experienced users, followed by shared electric bicycle, ride sharing, and shared electric scooter.For the purpose of usage, leisure/tourism has the highest proportion for each type of service, but the total usage for commuting is relatively low [30].Furthermore, as can be intuitively expected, the travel distance and time per usage are longer in car sharing and ride sharing than personal mobility modes.

Analysis Method.
Linear regression analysis reveals the correlation between one dependent variable and multiple independent variables if we assume that the dependent variable changes linearly by independent variables [31].However, it is not suitable for dealing with binomial or discrete events.In contrast, logistic regression can analyze the nonlinear relationship between the dependent variable and independent variables that are binary or discrete.
erefore, it has the advantage of being able to understand the relationship between the binary dependent variable and several independent variables affecting various shared mobility choices [31].For a shared mobility service, the willingness-to-use of a potential user, denoted by p, is mathematically expressed as equation (1).It is obviously a nonlinear function of n potentially influential factors indexed by i, x 1 , . . ., x n , coupled with their coefficients, β 0 , β 1 , . . .β n .Even if the expression of p is nonlinear, the estimation of the coefficients can be efficiently done by transforming it to a linear form.e odds of p is p/(1 − p), and the logarithm of it is defined as the logit of p, Logit(p).As shown in equation (2), Logit(p) is a linear function of the inputs, so we can apply a linear regression to estimate the coefficients, β 0 , β 1 , . . .β n .In this paper, SPSS Statistics 25.0 software is used for the calculation: In this study, the collected data about socio-demographic characteristics and past transportation usage statistics are considered as potential influential factors (x 1 , . . ., x n ).e user intention of using a shared mobility is set as a dependent variable (p).Table 7 shows the input types of variables used in the model.
e detailed description of each variable is as follows: gender is divided into male and female; mainly, used transportation means whether you primarily use a vehicle or transportation when commuting; car ownership means you possess a vehicle that you can drive freely; ownership of shareable vehicle means respondents have at least one extra private vehicle that can be shared with other users; ownership of personal mobility device means respondents have electric bicycle or scooter; the education level is divided into twofold: high-school graduation and university or higher; previous experience refers to whether respondents have been used vehicle-sharing or personal mobility-sharing services; age is as natural number variables; distance from home to the nearest bus stop is as continuous variables in kilometers; satisfaction is measured on 5-point scale to show how satisfied the respondents were when they used the existing shared mobility services.
To identify variables associated with a significant correlation, we perform Pearson's correlation analysis.Furthermore, a multicollinearity test has been conducted to check if the selected variables are free from multicollinearity with other variables.e analysis results through the correlation and the multicollinearity analysis are presented in Figure 1 and Table 8, respectively.
e titles of the rows and columns in Figure 1 means the following.Transportation is mainly used transportation; Car refers to car ownership; SV means ownership of sharable vehicle; PMD indicates ownership of personal mobility device; PEVS denotes previous experience in vehicle sharing; PEPMS represents previous experience in mobility-sharing; Distance stands for distance from home to bus stop.
Figure 1 shows the results of extracting significant variables related to user intention.In this figure, the overall result has a weak correlation, as the correlation is lower than or equal to 0.3 [32].A few variables exceed 0.3, but we can consider them as moderate correlations since they are below 0.7 [32].

Journal of Advanced Transportation
For the variables with high significance shown in Figure 1, their VIF values are derived as shown in Table 8.VIF is a measure that calculates the association between a fixed independent variable and the other independent variables.If the VIF of a certain variable is 10 or more, we can understand that multicollinearity exists with the variable.Moreover, if this value exceeds 5, it is considered that attention is needed.In this case, it is inappropriate to put it into the model because the highly correlated variables can affect the model and result in undesirable biases [33].As a result of the analysis, all estimated VIF values are lower than 5, so we find that multicollinearity does not exist.
A detailed description of each notation is in Table 1.B is a predicted value, meaning influence of the variable and Beta is the standardized value of B; S.E is the standard error, which estimates the variability; t is a value that is the difference between the predicted value divided by standard error, which compares the differences according to variability; Sig.judges whether it is valid within the significance level (95% confidence level in this study); allowance and variance inflation factor (VIF) are indicators of multicollinearity.
In general, the model is evaluated using R 2 of Cox and Snell and R 2 of Nagelkerke in regression analysis.However, for logistic regression, R 2 is generally low and depends on the dependent variable, so it is not appropriate to evaluate the adequacy of model [34,35].us, Hosmer and Lemeshow test, which is a goodness-of-fit method that performs a verification of the degree of agreement between a predicted value and an observed value using a chi-square distribution [34], is used to test the fit of the proposed model.If the results are greater than the set significance level, it can describe that the model is well estimated.
We set the final estimation model using the variables that are selected by using the backward elimination method, which has been known to be appropriate to prevent removing statistically meaningful variables related to the dependent variable compared to the alternative, the forward elimination method [36].Table 9 shows the description and detailed verification results of the model through the Hosmer and Lemeshow test.
e chi-square measure is estimated as 8.718, and the significance level is 0.367, which is greater than the standard, 0.05.us, the estimated model is statistically suitable to represent intention to use shared mobility services.As a result of model estimation, age, which is a respondent characteristic variable, is removed because it presents no significant effect on the intention to use shared mobility.In other words, people do not have heterogeneous preferences and use intentions to shared mobility services for different age groups.Gender (B � 0.337 and p � 0.029), mainly used transportation (B � 0.514 and p � 0.009), possession of a car (B � 0.589 and p � 0.008) or shared mobility (B � 0.738 and p � 0.007; B � 1.000 and p � 0.009, education (B � 0.608 and p � 0.019), thoughts on shared mobility (B � 0.468 and p � 0.027; B � 1.179 and p � 0.0003), satisfaction when using shared mobility (p � 0.003), and distance to the nearest bus stop from home (B � and p � 0.032) are found to have significant effects.Especially, early adopters who have owned personal mobility devices (B �1.000 and p � 0.009) or already In the case of gender, since the coefficient has a positive value (B � 0.337), it can be determined that men are more willing to use shared services than women.According to the sign of the coefficient, people have a higher intention to use shared mobility in the following cases: using public transportation as their primary mode, owning a private car or extra vehicle to share, with higher education level than highschool graduation, experienced shared mobility at least once, having high satisfaction with past usage of shared mobility services, and suffering from long distance from home to nearest bus stop.It is because people who mainly use public transportation will get more benefits by mitigating the accessibility-related inconvenience, and these benefits should be greater if the current accessibility is low.Last, those who own an extra car have a high intention because this vehicle can be used for vehicle sharing.

Discussion
ese findings can be summarized by the following.First, the experience of using or owning personal mobility devices, introduced relatively recently compared to other transportation modes, has the most positive effect on the user intention.us, to promote shared mobility services to public, it is considerable to offer free or cheap opportunities to use such personal mobility devices.Second, we find which groups of people are more willing to use shared mobility services, so this knowledge can be used in two ways: we need to (i) focus on providing services to the groups with higher intentions in order to increase usage rate or (ii) advertise the services to the groups with less intentions to increase the potential population of future users.Last, if there is an inconvenience in using existing public transportation modes, there is a high possibility of becoming a potential user of shared mobility.It means that we need to first introduce shared mobility services on the sites associated with low accessibility to public transportation systems.

Conclusions
We conduct an online survey on shared mobility and analyze factors affecting user intention.Correlation and multicollinearity analyses are performed to reveal hidden relations among measures of intention to use and potentially influential factors. is study aims to better understand the intent of using shared mobility for practitioners, which can be developed into various policy proposals for future mobility dissemination.Additionally, factors affecting future intention to use shared mobility services are quantitatively analyzed through logistic regression, which can estimate willingness to use according to individual characteristics and usage conditions.
For the factors reflecting socio-demographic characteristics, the analysis results show that gender, possession of a car, and education have significant effects on future intention, while age has no significant effect.Furthermore, for the indicators related to past transportation usage, mainly used transportation modes, possession of a shared mobility device, past related experiences, satisfaction when using shared mobility, and distance from home to the nearest bus stop are shown to have significant effects on intention to use.
Among them, previous experience is identified as one of the most important factors determining its intention to use.It appears that people who have a shareable vehicle or have experienced shared transportation have a high intention to use such systems.is also can affect the satisfaction of users with the use of shared mobility.us, citizens who have been exposed to shared mobility services in the past lower hurdles to use in the future.Past experiences and satisfaction can reduce uncertainty and anxiety about the introduction of new modes.It will raise expectations for the introduction of shared mobility services.erefore, it is important to establish a social environment that can easily deliver the benefits of shared mobility to potential users when introducing new mobility.
ey also have a high intention to use when they have been mainly using public transit services, and this intention becomes higher as the distance from their home to the nearest bus stop increases.is is another notable finding in this study.e expectations of people's future use of shared mobility are closely tied to the location of existing public transport facilities.us, if the installation of public transport is sparse or the distance between transfers of public transport is far, introducing shared mobility can increase the likelihood of choosing this.erefore, policymakers may need to consider introducing shared mobility services when a number of citizens are in such situations.
It is possible to propose a more effective policy if we consider the analysis results of the user intention and the existing usage of transportation modes at the same time.We find that existing shared mobility is mainly used for leisure/ tourism purposes rather than commuting.erefore, in order to increase the utilization of shared mobility, introducing a service at a leisure or tourist complex may be considered.Moreover, it is found that vehicle-sharing mobility is more effective than personal mobility when trip distance is long.Likewise, personal mobility can be effectively introduced when the distance is relatively low, such as last-mile trips.
Coupled with the limitations of this study, we can consider some future research directions. is study focuses only on analyzing user intention in the future, assuming that shared mobility services are not currently settled and established.However, in many places in the world, services are in wide use, and their long-term usage and satisfaction statistics can be analyzed together to provide better services in the future.Moreover, to implement a shared mobility service in practice and suggest a policy, forecasting user intention and demand is not enough.A next step, a decisionmaking process, is needed to determine the scale and type of services.For this, both qualitative and quantitative methods can be adopted.As a qualitative method, it is possible to study cases of existing services based on the user demand, provided services, and user satisfaction.As a quantitative method, we can use an optimal decision-making framework to determine the most desirable scale and type of a newly introduced shared mobility service based on predicted 8 Journal of Advanced Transportation demand and intentions.Last, in the current study, we identify which factors are actually influential, so it will be worth focusing on them for further detail.For example, education is shown to be significant in user intention.e group with a bachelor's degree or above, which accounts for 88.4% of respondents, can be subdivided into groups with Bachelor, Master, and Ph.D. degrees to see how much levels of higher education affect the awareness and use intention of various kinds of shared mobility services [37].

Table 1 :
Description of the shared mobility services.

Table 2 :
Summary of survey questionnaire.

Table 3 :
Characteristics of the respondents.

Table 4 :
Usage status of transportation as the primary mode.

Table 5 :
Usage status of shared mobility services.

Table 6 :
Usage characteristics of shared mobility services.

Table 7 :
Variable format of the estimation model.

Table 10
describes the model estimation results.e detailed description of notation is as follows: Wald means how important a variable is to describe a model; d.f is the degree