Friend-Invitation Promotion SchemeUsed in Electric Carsharing: Empirical Analysis and Policy Implications

,e combination of electric vehicle (EV) and carsharing is expected to provide social and environmental benefits, like encouraging sustainable travel behaviors (reducing car ownership and vehicle kilometres of travel) and improving the accessibility and flexibility of urban transport. ,us, electric carsharing is encouraged to be adopted for daily trips, and the operators propose the friend-invitation promotion scheme for the membership expansion. ,is study explores the effectiveness of this scheme and the characteristics of the scheme participants and their invited friends (e.g., age, friend-invitation pattern, and EV rental pattern). ,e analysis found that 28.4% of these invited friends would make at least one EV rental after registration, whereas 30.4% of the other members who registered in the same period would do so, indicating that these invited friends were less active. ,erefore, suggestions are given based on the EV rental pattern of these invited friends (preferring a longer journey using a smaller but cheaper EV) to enhance the effectiveness of the friend-invitation promotion scheme.


Introduction
e ownership of private car keeps increasing [1], and China has been estimated to have 530-623 million vehicles by 2050 [2]. A private car is appealing because it offers doorto-door service with the needed privacy. Furthermore, COVID-19 has been found to change travel behaviors. Zhang et al. [3] suggested that the adult metro users in Hong Kong reduced more than 40% of their metro trips during the first three months of 2020. It is questionable whether the public transportation usage would be back to the level before the COVID-19. Because of the fear of infection, people more or less tend to avoid a crowded environment and it is possible that the public transportation users will have a stronger desire to buy a car than before. Zhang and Lee [4] conducted a questionnaire survey to study the possible post-COVID-19 travel behavior in China and revealed that the decrease in the public transportation travels could reach 20.5%, whereas that in the private car travels was 6.4%.
Carsharing service provides another option to people, which may help to control the ever-increasing car ownership [5,6] because it can offer the needed privacy and flexibility which are similar to those provided by driving a private car. Meanwhile, the fixed cost of using a carsharing service is much lower than that of driving a private car which requires a large amount of money for purchasing a car and car parking space [7]. Also, a vehicle used in carsharing would not be shared by as many people as those served by a bus or a metro, and carsharing companies promise to disinfect their vehicles as frequently as possible. is may help to alleviate the fear of infection during a journey. However, some have argued that carsharing service would also have influence on public transportation usage [7][8][9][10], as it may induce public transportation users to drive, which can result in the increase of carbon emission. Electric carsharing can balance this conflict because electric vehicles (EVs) do not produce carbon emissions on the road and still provide satisfactory services to people [11][12][13]. It may be the first step to persuade people to give up owning a car. Without owning a car, people can make a wiser decision on mode choices based on their travel purposes and increase the possibility of the mixture of transport modes and more environmentally friendly travel behaviors [6].
Electric carsharing companies provide EV rental services and encourage their customers to register to be a member. Membership is wildly used in the transport area (such as air travel) and is thought to play an important role in choice behavior [14]. One of the promotion schemes to increase members is the friend-invitation promotion scheme. A member can invite his/her friend to register, and once the friend becomes a new member, the member and his/her friend would enjoy a reward, such as a rental discount. Although the friend-invitation promotion scheme is widely adopted in the carsharing market, this scheme has not been studied in the context of carsharing yet, to the best of the author's knowledge. Hence, this study tries to bridge this research gap. e main contributions of this study are as follows: (1) To explore the characteristics of the members who invite friends to register and who accept the friend invitation to register (2) To analyze the electric carsharing pattern of the members who are invited to register (3) To provide policy implications for the friend-invitation promotion scheme to enhance the sustainable development of electric carsharing e remainder of this paper is organized as follows. In Section 2, a review of literature on electric carsharing and its sustainable development is provided. Section 3 describes the data that were provided by the EVCARD (the first electric carsharing company in China), the methods used for data analysis, and the results and a discussion of the analysis. Policy implications and suggestions for electric carsharing companies are given in Section 4, and the conclusion is given in Section 5.

Literature Review
Carsharing, which provides car access to people for a certain period, can date back to the 1940s, and the relative commercial activities can be traced back to the mid-1990s [15]. However, as the price of the private car became much cheaper, carsharing turned to be less attractive until the rising fuel prices and heavy road congestion have drawn the public's attention back to carsharing [8]. In recent years, shared mobility becomes a hot topic in transport development, and so does electrification [12,16,17]. Electric carsharing, a form of carsharing which rents EVs to people, combines these two items and is expected to inherit their positive impacts on sustainable transport development, including guiding the public to form a sustainable travel behavior [6], improving the accessibility and flexibility of the urban transport [12], reducing car ownership [5], vehicle kilometres of travel [9], traffic congestion [18], parking land use [18], and greenhouse gas emissions [11]. Hence, electric carsharing attracts many researchers. Liao and Correia [12] reviewed the studies of electric carsharing, and we refer interested readers to this review for further details.
In China, the first electric carsharing company, EVCARD, was launched in 2013 in Shanghai, followed by other electric carsharing companies like Yikazuche and Weigongjiao. Ministry of Transport in China posed the guidance for the sustainable development of vehicle rentals in 2017 (Guidance for the sustainable development of vehicle  rentals: http://www.gov.cn/xinwen/2017-08/08/ content_5216567.htm (accessed on May 20, 2021)). In this guidance, the environmental and social benefits of vehicle rentals are highlighted, and carsharing, especially electric carsharing, is expected to provide a new approach to solve the existing problems of urban mobility. Hence, the Chinese government supports the development of electric carsharing and requires that its development should be sustainable.
To ensure sustainability, electric carsharing companies face different challenges during the planning, management, and operation, including the demand management [10,19], efficiency of recharging [20], the station location choice [9,18], the safety management [21], etc. Many pilot studies have been performed to solve these challenges. For example, Wang and Yan [10] conducted a questionnaire survey in Shanghai and found that people's willingness to adopt electric carsharing was higher if the people were young, male, and public transportation users with middle-level income. Hence, they suggested that electric carsharing companies should target these people and pay attention to reduce the walking time to an electric carsharing station and the waiting time for assigning an available EV. Hu et al. [18] analyzed the number of customer requests and turnover rates at stations using the rental records of the EVCARD and recommended that new stations should be built in the areas with the low accessibility of metro services and the local authorities should consider the geographical balance of stations to ensure the spatial equality. Chen et al. [9] studied the station usage imbalance based on the EVCARD data. ey argued that electric carsharing could not compete with the metro during peak hours because of the high reliability of the metro. During the off-peak peak period, electric carsharing and the metro actually worked together to help people complete their trips. However, electric carsharing competed with the bus. Hence, Chen et al. [9] advised that stations of electric carsharing could be located near metro stations but not bus stops. Lan et al. [21] distributed online questionnaires to the EVCARD' customers to study the impact of the perceived risks of customers in electric carsharing, like fears of opportunistic behaviors, information asymmetry, and service uncertainty. ey found that a high level of the perceived risks would encourage antisharing behaviors, and thus they suggested mitigating these risks to achieve a win-win situation. Tao et al. [13] designed a statedpreference survey in Nanjing to investigate carsharing choices. ey observed that young people or people with higher education were more likely to adopt carsharing, and thus suggested that carsharing stations could be built in the area with more educated people, such as universities.
Moreover, with the quick development of Internet services, customers generally book carsharing services via smartphone apps. Some Internet-oriented promotion schemes are also adopted by carsharing companies for their sustainable development. For example, the EVCARD uses the friend-invitation promotion scheme, which is considered an efficient and effective method for the user growth of mobile games [22] and social software [23]. e EVCARD allows its members to copy e-links in its app to the Internetbased social software (e.g., QQ and WeChat) to invite their friends to register as a member. e friend-invitation promotion scheme contributed to more than 20% of the EVCARD's membership increase in the first five months of 2016. However, to the best of our knowledge, this scheme has not been studied in any literature in the context of carsharing. Hence, there are a number of questions waiting for exploring, such as who would be more likely to invite friends to use electric carsharing, who would be more likely to accept the friend invitation to register as an electric carsharing member, and what differences would be between the invited and not-invited new members. is study uses the EV rental records provided by the EVCARD to analyze the above questions and gives policy implications based on the analysis to further enhance the friend-invitation promotion scheme, which can contribute to the sustainable development of electric carsharing.

Data Analysis
In this section, the data description is given in Section 3.1, while the analysis method and results with discussion are presented in Sections 3.2 and 3.3, respectively.

Data.
e EVCARD was established in Shanghai in 2013 as the first electric carsharing company in China (EVCARD: https://en.wikipedia.org/wiki/EvCard (accessed on May 18, 2021)) and had expanded to 38 other Chinese cities by 2017 [18]. Considering the different needs on the rental duration and the rental period, the EVCARD provides four types of service as follows: (1) General rental in which the rental duration could be minutes or hours in a day (2) Overnight rental in which the rental period is from 18:00 to 9:00 in the next day (3) Short-period rental in which the rental duration is from one day to one month (4) Long-period rental in which the rental duration is more than one month Customers need to pay a deposit and register to be members before they can book an EV via the EVCARD smartphone app. Members can get EVs from the nearby rental station. During their journeys, they can go to any rental stations for recharging or vehicle exchange. Also, they can return EVs to any rental stations at any time and pay their bills via the smartphone app at the end of their journeys. e data provided by the EVCARD was collected in Shanghai. Although Shanghai is equipped with a wellestablished public transportation system, the road congestion problem is more and more serious due to the ever-increasing private car usage, and carsharing is considered as a competitive option to solve the problem. According to the study of Hu et al. [18]; in Shanghai, the EVCARD owned 5,213 EVs and 1,473 stations by the end of 2016, and the most EVCARD members were young men. In addition, college students were considered to be interested in the EVCARD, and the second-highest number of EV rentals was recorded at the station in the Jiading campus of Tongji University.
e data included the basic information of the EVCARD's members who registered with his/her driving license on and before May 2016, the friend-invitation records collected from January 2016 to May 2016, and the EV rental records collected from January 2016 to August 2016. e member basic information includes the recoded member ID, age, and registration time; a friend-invitation record marks a successful friend invitation, consisting of the recoded member IDs of the scheme participant and his/her friend who already registered as a member; and a rental record includes the type of the rental EV, the running mileage, the time to get the rental EV, and the rental duration. e data contains two EV types. e type with five seats (Type 2 including Roewe and Zinoro) requires a higher rental price than the other type with four seats (Type 1 including Chery) (EV types used in EVCARD: https://www. evcard.com/models/ (accessed on May 18, 2021)). e credibility of rental records was checked by a speed-limit rule. e rule was set based on the maximum speed in China (120 km/h) (Speed limits by country: https://en.wikipedia. org/wiki/Speed_limits_by_country (accessed on May 17, 2021)) and required that the running mileage should not be larger than the rental duration multiplied by the maximum speed. If a rental record did not follow the rule, this rental record was unrealistic and thus discarded. In total, the data contained 86,806 registered members and their 13,687 friend-invitation records and 319,971 EV rental records.

3.2.
Methods. Some types of members are defined as follows: (1) Members who registered as members before January 2016 were considered as the old members (2) Members who registered as members within the period from January 2016 to May 2016 were considered as the new members (3) Members who were the new members and registered as members via the friend-invitation promotion scheme were considered as the invited new members (4) Members who were the new members but registered as members not via the friend-invitation promotion scheme were considered as the not-invited new members (5) Members who successfully invited at least one friend within the period from January 2016 to May 2016 were considered as the scheme participants (6) Members who were not only the old members but also the scheme participants were considered as the old scheme participants Journal of Advanced Transportation 3 (7) Members who were not only the new members but also the scheme participants were considered as the new scheme participants e set diagram for these types of members is shown in Figure 1.
Electric carsharing patterns of different member types will be studied, such as activeness (x Activeness ), the number of EV rentals (x Rental ), running mileage (x Mileage ), and type of the rented EV (x Type ). A member was considered to be active if he/she made at least one EV rental during the first eight months in 2016. e value of x Activeness was defined as follows: x Activeness � 1, if the member made at least one EV rental, e more EV rentals he/she completed, the higher his/ her activeness level would be.
us, x Rental was used to describe the activeness level. And, x Type was defined as follows: x Type � 1, if the rented EV belonged to Type1, 2, otherwise.
e average of x Type (x Type ) was used to describe the general selection of EV type to rent, while the average of x Mileage (x Mileage ) was adopted for describing the general travel distance of a trip via a rented EV.
We had performed 25 tests in this analysis. For each test, we assumed that different sample groups were independent and had carefully checked the normality of the variables (including age, number of successful friend invitations, x Rental , x Mileage , and x Type ). We found that the residuals of these variables did not follow a normal distribution. Hence, we adopted a one-way analysis of variance (ANOVA) on the ranks method [24] and the Mann-Whitney Wilcoxon test [25], which relax the normal distribution assumption. e one-way ANOVA on ranks method was used to check whether the variables of different sample groups originated from the same distribution, and the Mann-Whitney Wilcoxon test was used to compare the difference in variables of two samples. We performed these tests and calculated the relative 95% confidence intervals (CIs) by using R software [26,27]. e null hypotheses used in this data analysis and their respective tests are summarized in Table 1.

Results and Discussion.
A general situation will be firstly discussed, and then the analysis of the friend-invitation promotion scheme will be presented.

General Situation.
e age distribution was shown in Figure 2. Besides, Figure 2 shows that the age range was from 18 (the minimum driving age in China (List of minimum driving ages-East Asia: https://en.wikipedia.org/wiki/ List_of_minimum_driving_ages#East_Asia (accessed on May 18, 2021))) to 75. Because the EVCARD relies on mobile apps and the elderly people have difficulties using a smart phone [28], it is not surprising to find out that a large proportion of members were young. e mean age of the studied members was about 34.1. is finding is consistent with the previous research, which found that the age of the majority of electric carsharing users was between 30 to 40 [12].
In the studied data, the earliest member registration was recorded in December 2013. Before January 2016, there were 30,139 members. Probably because of the more mature operation of the EVCARD and the rising interest in electric carsharing, a significant increase in membership (around 188.0%) occurred in the first five months of 2016. e age distribution of the old and new members is presented in Figure 3. As the testing results showed (null hypotheses 1 & 2: p < 0.01 * * , 95% CI: [−1.00E0, −6.07E − 5]), the age distribution statistically significantly changed, and the new members (34.3 years old on average) were statistically significantly elder than the old members (33.8 years old in average), which indicated that more elder people were attracted by electric carsharing. Besides, about 29.3% of the studied members had made at least one successful EV rental during the first eight months of 2016.

Analysis of the Friend-Invitation Promotion Scheme.
Nearly 24.2% of the encouraging increase in membership was due to the friend-invitation promotion scheme. 6.2% of the studied members successfully invited friends to register. Specifically, 4.9% of the old members and 7.0% of the new members did so, which indicated that the friend-invitation promotion scheme might attract more new members. However, the old scheme participants (about 2.7 successful friend invitations) tended to statistically significantly complete more successful friend invitations than the new scheme participants (about 2.5 successful friend invitations), as the result of testing null hypothesis 3 showed (p < 0.01 * * , 95% CI: [3.81E − 5, 6.51E − 5]). e possible reason could be that the old scheme participants could have a longer participation period because of their earlier registration time and thus make more invitations within the first five months of 2016.
To reduce the influence of registration time, we considered the average number of successful friend invitations in a month which is equal to the total number of successful friend invitations divided by the number of available months. For the old scheme participants, the number of available months was 5,   In terms of the age difference, the mean age of the invited new members was 33.2, less than that of the not-invited new members (mean age � 34.7), and the result of testing null hypothesis 7 (p < 0.01 * * , 95% CI: [1.00E0, 1.00E0]) showed that this difference was statistically significant. Moreover, the mean age of the scheme participants (mean age � 31.8) was statistically significantly smaller than that of other members (mean age � 34.3), as the result of testing null hypothesis 8 (p < 0.01 * * , 95% CI: [2.00E0, 2.00E0]) showed. ese results illustrated that younger people were more likely to be interested in the friend-invitation promotion scheme. Furthermore, we separated the total members into three groups, the old members, the invited new members, and the not-invited new members, and analyzed their electric carsharing patterns, including activeness, number of EV rentals, average running mileage, and a general selection of EV type to rent.
First, the activeness was explored. e member who made the most EV rentals completed 486 EV rentals from March 9 to August 31. Averagely, he/she made 2.7 rentals per day, illustrating that he/she might be quite satisfied with electric carsharing and rely on electric carsharing for daily travel (e.g., commuting). However, as Figure 4 shows, the majority of the studied members did not make any EV rentals during the first eight months of 2016. 28.1% of the old members were still active, whereas 28.4% of the invited new members and 30.4% of the not-invited new members were active.
As the results showed (null hypotheses 9 & 10: p � 0.49, 95% CI: [−4.62E − 5, 3.38E − 5]; and null hypothesis 11: p < 0.01 * * , 95% CI: [3.40E − 5, 4.30E − 05]), the activeness of the invited new members seemed to be similar to that of the old members, but statistically significantly lower than that of not-invited new members. e invited new members might be less self-motivated to begin to use electric carsharing because they might just want to do a favour for their friends so that their friends could enjoy the reward.
Second, the old active members (average number of EV rentals � 16.4) tended to make significantly more EV rentals than the invited new active members (average number of EV rentals of the invited new active members � 11.5, and null hypothesis 12: p < 0.01 * * , 95% CI: [7.04E − 05, 1.00E0]), probably because of the difference in the registration time. Besides, the not-invited new active members (average number of EV rentals � 10.5) seemed to make significantly fewer EV rentals than the invited new active members (null hypothesis 13: p < 0.01 * * , 95% CI: [−1.00E0, −1.00E0]). e respective distributions were presented in Figure 5. To reduce the influence of registration time, the number of EV rentals within the period from June 2016 to August 2016 was considered. All of the active members were registered before this period. e average number of EV rentals within the three-month period of the old active members, the invited new active members, and the not-invited new active members were 6.0, 7.5, and 5.7, respectively. e respective distributions were presented in Figure 6. e tests results supported that the invited new active members made significantly more EV rentals than other active members (null hypothesis 14: p < 0.01 * * , 95% CI: [−1.00E0, −1.00E0] and null hypothesis 15: p < 0.01 * * , 95% CI: [−1.00E0, −1.00E0]).
e possible reason could be that the invited new active members had been more or less persuaded and influenced by their friends who averagely made 7.6 EV rentals within the three-month period. In all, the level of the activeness was low, indicating that some problem existed to hinder members' participation. A further research on finding the reasons should be considered.
ird, the average running mileage of the active members was analyzed. e average running mileages of the old active members, the invited new active members, and the not-invited new active members were 24.5 km, 29.2 km, and  ). e possible reason why the invited new active members preferred longer trips could be that the reward for the registration might encourage them to have a longer trip to spend this monetary reward. It is an interesting issue that will be studied in the future.
e respective distributions are given in Figure 7. e longest average running mileage was 1,558 km. It was made by the member who only completed one EV rental in the studied period, and the rental duration was four days. e long rental duration might explain why the running mileage was so long. If the majority of trips were assumed to be performed on the urban road, the speed limit was 30-60 km/ h (Speed limits by country: https://en.wikipedia.org/wiki/ Speed_limits_by_country (accessed on May 17, 2021)), and the average speed could be assumed to be 45 km/h. Hence, the average travel times of the old active members, the invited new active members, and the not-invited new active members were about 32.7 min, 38.9 min, and 36.4 min, respectively. ese average travel times were similar to that (39 min) reported by Hu et al. [18], who studied the station location choice of electric carsharing using the EVCARD data in 2017.
Fourth, x Type of the active members were studied. e respective distributions of the old active members, the invited new active members, and the not-invited new active members are given in Figure 8 and Table 2. e majority of the active members would consider both EV types, whereas 36.4% of the active members would only rent one EV Type.
e mean values of x Type of the old active members, the invited new active members, and the not-invited new active members were 1.54, 1.51, and 1.54, respectively. e result of testing null hypothesis 20 (p < 0.01 * * , 95% CI: [5.32E − 5, 1.43E − 2]) seemed to support that there was a significant difference between the old and invited new active members in terms of the selection of EV types, and the not-invited new active members also seemed to significantly prefer a larger and more expensive EV type than the invited new active members (null hypothesis 21: p < 0.01 * * , 95% CI: to register and thus, they might be more sensitive to the price and prefer a cheaper EV. Furthermore, the difference between the old and not-invited new active members in terms of the selection of EV types was not statistically significant

Policy Implications
As the result given in Section 3.3 and the previous studies on the EVCARD [13,18] show, most members of the EVCARD are young, probably because the elderly people have difficulties operating the e-rental system [28]. Hence, this operation mode seems to exclude elderly people and may cause a potential aging inequality problem. However, this problem may not have a significant impact on elderly people because people would gradually shift from driving to public transportation modes for the most trips as they age [29][30][31], due to the decreasing ability to drive with increasing age [32]. erefore, the local governments should pay sufficient financial and administrative supports to public transportation for improving the elderly's mobility while promoting the usage of electric carsharing.
To encourage people to adopt electric carsharing, the friend-invitation promotion scheme is thought to be useful because people generally trust their friends' recommendations more than the advertisement [22], and peer influence often plays an important role on consumption behaviors [33]. e EVCARD adopts the friend-invitation promotion scheme for the market development, and this scheme contributed 24.2% of the increase in the membership in the first five months of 2016.
However, as the analysis given in Section 3.3.2 shows, the activeness of the invited new members seems to be low. 28.4% of the invited new members were active, whereas 75.5% of the scheme participants were active. Besides, the invited new members might be less likely to be active members than the other new members, although the difference between the invited new members and the old members was not significant. As discussed before, some of the invited new members might accept the invitation to register to just help their friends to get rewards, and they were not persuaded to try this new travel mode. However, if they were persuaded and became active members, they seemed to make more EV rentals than other new active members. us, the result indicated that the friend's promotion could have a positive impact on the increase in the membership, but the friend invitation to register as a member should be considered as a first step to attract new customers but not the last step. ere are some suggestions to enhance the effectiveness of the present friend-invitation promotion scheme.
First, other types of friend-invitation-oriented schemes should be further developed to encourage activeness. For example, if the invited new member completes a milestone, such as the first EV rental, who invited this member could get an extra discount reward. Or a member can invite his/her registered friends to travel during the weekend, and both the member and his/her friends can enjoy a discount if they rent EVs for their own weekend trips.
Second, specific schemes should be designed based on the characteristics of the invited new members to increase the rental rate. For instance, as the analysis in Section 3.3.2 shows, the invited new active members seemed to make longer trips than the other active members. Additionally, they might prefer to book a type 1 EV that has fewer seats with a lower rental price. erefore, coupons for long-distance trips or renting Type 1 EVs could be distributed to the targeted group.
ird, the operators should pay more effort to encourage members who have a higher potential to participate in the friend-invitation promotion scheme. As the analysis in Section 3.3.2 shows, younger members are more likely to participate in this activity. Besides, 12.7% of the invited new  members would make at least one successful friend invitation, whereas 6.2% of all the studied members would do so. In addition, members who will have more passion for this scheme and make more successful friend invitations should be encouraged to participate. As the analysis in Section 3.3.2 shows, the new members tend to have a higher average number of successful friend invitations in a month if they participate in this scheme. e operators could target the new members and send more relative advertisements via the smartphone app.
Fourth, the operators can distribute some short surveys via their smartphone app to ask the feedback from their customers. For example, after a member makes a friend invitation, the member could be asked for the experience of making a friend invitation and the satisfaction of the reward. Also, when an invited new member does not make any EV rental after the registration, a follow-up survey could be sent to know more details. ese small surveys can build good communication between the operators and their customers and help the promotion of electric carsharing.
Fifth, the operators can design some interviews for inactive invited members to understand more about their travel needs and concerns. ese interview results can help the operators to develop new strategies to contribute to the sustainable development of electric carsharing.

Conclusion
is study analyzed the friend-invitation promotion scheme used in electric carsharing based on the data provided by the EVCARD. In the analysis, we had the following main findings: (1) Most members of the EVCARD were young, and the activeness of the members was low, while about 29.3% of the members had made at least one EV rental during the studied period (2) e new members might be more likely to participate in the friend-invitation promotion scheme than the old members, and the new scheme participants might make more successful friend invitations per month than old scheme participants (3) Compared to the not-invited new members, fewer invited new members were active, but the invited new active members might make more EV rentals and longer EV trips than the not-invited new active members (4) Compared to the other active members, the invited new active members might prefer a smaller but cheaper EV type Considering these findings, we provided some suggestions to the operators in Section 4 to further enhance their friend-invitation promotion scheme and improve the sustainable development of electric carsharing.
With the limitations of the data, we cannot further examine the EV rental patterns of the invited active members, such as when and where they are more likely to make an EV rental and what will be the most motivating issue for them to begin the first EV rental. In the future study, we will collect more data via both the stated-preference and revealed-preference surveys and discuss the possible improvements based on the analysis. Furthermore, electric carsharing is now facing many difficulties, and our future study should use the EVCARD platform data and survey data to consider more issues, such as analyzing the travel demand and user types and optimizing station locations and rental prices.
Data Availability e data that support the findings of this study were provided by the EVCARD. Restrictions apply to the availability of these data, which were used under license for this study.

Conflicts of Interest
e authors confirm that there are no potential conflicts of interest. Journal of Advanced Transportation 9