Private Parking Space Sharing Intention in China: An Empirical Study Based on the MIMIC Model

)e shared parking scheme improves the utilization rate of existing parking resources and contributes to the sustainable development of cities, but many private parking spaces that are not included in the shared parking scheme have a low utilization rate in China. In order to better promote the shared parking scheme, it is necessary to study the intention of the owners of private parking spaces to share their parking spaces. )erefore, this paper used the Unified)eory of Acceptance and Use of Technology (UTAUT) and Benefit-Risk Analysis Model (BRA) as the combined theoretical framework (C-UTAUT-BRA). Hypothesis testing using the Multiple Indicators and Multiple Causes (MIMIC) model was performed using an empirical assessment of the shared parking scheme in China. )e results show that (1) the sharing behavioral intention (BI) is directly affected by perceived benefit (PB), perceived risk (PR), social influence (SI), and facilitating condition (FC) and indirectly affected by effort expectancy (EE), of which the total effect of PB is the largest; (2) exogenous variables have an indirect effect on BI through other psychological latent variables; among them, different sociodemographic and economic characteristics have a significant influence on different latent variables, while the built environment has no significant effect on latent variables. )is research contributes to theory building in shared parking participation intention and informs business and government leaders on how to promote the shared parking scheme through the action mechanism of influencing factors on BI.


Introduction
With the development of society and economy, the number of motor vehicles and the pressure of parking in cities have increased [1][2][3]. On the one hand, it is due to the insufficient supply of parking spaces. Taking the data of typical first-tier cities in China as an example, the total number of parking spaces is only 64.6% of the number of vehicles, and by July 2020, China's parking space gap has reached 80 million [4,5]. On the other hand, the utilization of parking spaces is not sufficient in certain periods and areas. For example, parking spaces in office areas are usually idle at night and weekends, while private parking spaces in residential areas are often idle during the day on weekdays. According to statistics, 485,000 parking spaces are designated for private use in Hong Kong, accounting for 70% of the total number of parking spaces; residential parking resources account for 58.1% of all parking resources in Beijing, and nearly 800,000 private parking spaces are idle during working hours [6].
at is because most urban residents work inconsistently with their homes, and parking spaces in residential areas have always been idle during working days. If the idle time of private parking spaces in these residential areas can be effectively used, the parking problem can be greatly alleviated. In addition, in the context of sudden public health incidents such as COVID-19, citizens have become more concerned about the hygiene of public transportation and shared bicycles, resulting in a further reduction in the proportion of green travel and an increase in the proportion of private car travel, which aggravates the contradiction between social parking supply and demand.
In recent years, with the development of sharing economy, the concept of shared parking has been put forward. Shared parking schemes allow the owners of private parking spaces (individuals or companies) to rent out spaces on the network platform when not in need of them [7]. Travelers with parking needs can purchase parking permits through the online platform. e sharing of private parking spaces can increase the utilization rate of idle parking spaces and bring certain benefits to the sharers. Besides, because the travelers with parking needs have more parking spaces to choose from, it can greatly reduce the time to find parking spaces and further alleviate traffic congestion. In addition, Zhao [8] pointed out that 120 shared parking spaces in Beijing can reduce carbon dioxide emissions by about 400 tons a year; if 20% of the existing parking spaces in Beijing are shared, carbon dioxide emissions can be reduced by 7.3 million tons per year. erefore, the shared parking not only can alleviate the parking problem but also can increase the income of suppliers; besides, it can also reduce environmental pollution caused by car emissions.
At present, although some cities have piloted shared parking schemes, people do not know much about shared parking, and people are not willing to supply their own private parking spaces to participate in shared parking, which affects the development of shared parking projects. erefore, it is necessary to deeply explore the internal and external factors that affect the intention of private parking space owners to supply shared parking spaces, to help platform operators and government departments to introduce corresponding incentive policies. e rest of this paper is organized as follows: in Section 2, the research hypotheses of this study are proposed after reviewing the literature related to shared parking and research methods; in Section 3, the theoretical applicability and the basic principles of the MIMIC model are introduced; in Section 4, the research survey design, variable measurement, data analysis, and model modification are introduced; in Section 5, the data analysis results of the research model are presented, including the relationship between latent variables and the relationship between latent variables and exogenous variables; in Section 6, the theoretical and practical significance of this study is summarized and the limitations of the current study and the future research directions are also noted.

Literature Review and Research Hypothesis
e rise of shared parking has aroused the research interest of scholars. e preliminary research on this topic involves the following three aspects: the selection behavior, matching, and pricing of shared parking.
In terms of the selection behavior of shared parking, Wang et al. [9] constructed structural equation models of cities of different levels in China to explore the factors affecting the intention to participating in shared parking; however, the effect of individual socioeconomic attributes and external factors was not considered. Wang et al. [10] constructed a binary Logistic empirical analysis model of shared parking selection behavior based on the perspective of demanders and analyzed the problems of shared parking in related demonstration units around Hangzhou Bay. Wang et al. [11] constructed a shared parking space selection model for demanders considering the individual's socioeconomic attributes and psychological latent variables. In the related research on the matching of shared parking, Shao et al. [12] established a matching model between residential parking spaces and demanders. Other scholars developed parking matching models based on GIS [13] and cloud technology [14]. Besides, a shared parking dual auction mechanism considering demanders of multiple periods and suppliers of multiple periods of time is also constructed [15]. In addition, Zhao et al. [16] proposed a shared parking resource management framework from both time and space dimensions, considering the uncertainty of the arrival time and departure time of P-users and O-users, and developed an intelligent parking management system (IPMS) to simulate the operation of shared parking. Wang et al. [17] formulated a dynamic optimal supply strategy for parking permits and constructed a stochastic optimal control model to minimize the expected value of the total time loss of the system considering the coexistence of public parking facilities that can be reserved and nonreservable. e charging of shared parking is the most important factor that affects the participation intention of shared parking supply and demand parties. At present, there are many studies on parking pricing, such as parking pricing strategies based on the marginal cost principle and suboptimal pricing theory [18,19] and competitive auction mechanisms based on parking allocation rules and transaction payment rules [15]. In addition, there are related studies on the allocationpricing-revenue mechanism of shared parking and pricing coordination of automobile manufacturers based on government intervention and carbon emission reduction [20,21]. e preliminary research on methodology mainly involves two aspects: the application of the UTAUT model and the BRA model.
In the study of the UTAUT model, Chen et al. [22] used a structural equation model to analyze the quantitative relationship among various influencing factors and built a passenger acceptance model of unmanned buses based on UTAUT. Madigan et al. [23] added hedonic motivation variables based on UTAUT to study passengers' acceptance of automatic road transport systems. Lan et al. [24] introduced price value and other variables to explain the acceptance and use behavior of shared cars. Chen et al. [25] analyzed the impact of "perceived ease of rental and accessibility" and "perceived convenience of travel" on the willingness to use shared bikes from the perspective of product service system. Although the UTAUT model has a strong universality in practice, it cannot fully explain the actual behavior in any case, and there are omissions [26]; that is, in addition to the above factors, the behavioral intention may also be affected by some other hidden factors that have not been discovered. Most of the existing studies incorporate new variables according to the characteristics of the research objects to better explain the intention and behavior of users. In the study of the BRA model, Luo et al. [27] combined the benefit-risk analysis theory and the planned behavior theory to study the effects of perceived 2 Discrete Dynamics in Nature and Society return, perceived ease of use, perceived usefulness, subjective norms, and perceived behavior control on users' willingness to use Yu'E Bao. Wang et al. [28] combined TAM and BRA theory to study residents' willingness to participate in "Internet + recycling." e extended BRA model enhances the ability to interpret and predict behavioral intentions and behaviors in specific situations. Although the abovementioned related research is fruitful, there are the following shortcomings: as a prerequisite for the promotion of shared parking, the research on the participation behavior of shared parking is focused on the participation of parking space users (demanders), and in sharing scheme practice, suppliers play an equally important role. Private parking spaces participating in shared parking are essentially private goods, and their supply comes from individuals whose purpose is to obtain a certain income, so their participation in decision-making plays a decisive role in the promotion of shared parking. In addition, there are few studies that combine UTAUT and BRA models to explore behavioral intentions.
In view of the shortcomings of previous studies, this paper combines UTAUT theory and BRA model as the theoretical framework (C-UTAT-BRA) to discuss the effect of psychological latent factors and exogenous factors on the parking space sharing intention of owners, and hypothesis testing using Multiple Indicators and Multiple Causes (MIMIC) model was performed using an empirical assessment of the shared parking schemes in China. e results of this study could provide a reference for the implementation and promotion of the shared parking scheme.

Research Hypothesis.
In this paper, SI refers to the extent to which the sharing intention of the parking space suppliers is influenced by relatives and friends, residents in the same residential area, government, and media; some studies have confirmed that SI is a factor affecting intention to participate [29][30][31]. EE refers to the expectation of the parking space suppliers on the effort or time that it needs to spend in the process of using the shared parking system to supply parking spaces; FC indicates the degree of influence of external environments such as the ease of use of shared parking system and relevant policy support. Many studies have agreed that EE and FC have a positive impact on BI [23,32].
According to the hypothesis of the UTAUT model on path relationship, users' BI is directly affected by SI, PE, and EE and indirectly influenced by FC. Meanwhile, it is affected by the experience, gender, age, and other moderators. However, since shared parking is not widely used, actual behavioral data is difficult to obtain, and BI can well explain actual behavior, so this study uses BI to predict actual behavior [33,34]. erefore, the following hypotheses are proposed: H1: SI has a positive effect on BI H2: EE has a positive effect on BI H3: FC has a positive effect on BI In this article, PR refers to the potential risks of security, privacy, overtime use of parking spaces, etc., foreseen by the shared parking space suppliers. Hae-Kyung Sohn's [35] research results show that PR can lead to people's negative perception of festivals, and PB refers to the potential benefits of shared parking space suppliers in terms of rental fee income and social benefits brought by parking spaces sharing. Lee's [36] research results show that the intention to use online banking is mainly negatively affected by security/ privacy risks and financial risks and is mainly positively affected by PB, ATT, and perceived usefulness. Besides, from a psychological point of view, if the shared parking space supplier perceives that the parking sharing behavior brings benefits, it will tend to reproduce the behavior. From an economic point of view, if the benefits of the shared parking space suppliers are higher than the cost of the corresponding behavior, it will prompt them to produce the corresponding intention and behavior. is article puts forward the following hypotheses: H4: PR has a negative effect on BI H5: PB has a positive effect on BI H6: there exists a significant relationship between PB and PR H7: EE has a positive effect on PB

eoretical Adaptability.
(1) e Benefit-Risk Analysis (BRA) model takes perceived benefit (PB) and perceived risk (PR) as important variables that affect user's behavioral intention to study human behavior. For the problems proposed in this paper, the behavior of supply shared parking spaces belongs to an individual decision-making process. Besides, participating in shared parking will bring lease income and perceived social benefits to suppliers, such as improving the utilization rate of parking resources and alleviating the problem of social parking difficulties while it also could bring security risks to residential areas. And when users use a parking space over time, it will put the suppliers at risk of not having a parking space available when they return; that is, the psychological game between benefit and risk will affect the intention of parking supply. erefore, when considering the intention of the participation in the shared parking for parking space owners, it is necessary to consider the potential benefit and potential risk perceived by the supplier to the influence of their sharing intention. erefore, the BRA model is suitable for this study. (2) e Unified eory of Acceptance and Use of Technology (UTAUT) model is a powerful theoretical tool to predict and explain the adoption of information technology by individuals or organizations. It has been widely used in many research fields, such as social behavior, learning behavior, business behavior, and other research fields [37].

Discrete Dynamics in Nature and Society
Venkatesh et al. [38] proposed UTAUT by combining eight theories in different fields, such as the theory of planned behavior, technology task adaptation model, innovation diffusion theory, theory of reasoned action, and social cognition theory. UTAUT proposes four core variables: performance expectancy (PE), effort expectancy (EE), promote condition (PC), social influence (SI), and some controlled variables, such as age and gender. Core variables affect users' intentions, while controlled variables influence behavioral intentions through core variables. e definitions of the core variables are shown in Table 1.
(3) In the practice of shared parking, there are conflicts between suppliers in the distribution of benefits and risks, and as new technology (system) that has not been widely used, the sharing intention of suppliers can be explored with the help of relevant theoretical tools. erefore, this paper combines with the theoretical framework of the UTAUT mode and BRA mode (C-UTAUT-BRA) to explore the influence of latent variables and exogenous factors on the intention of the owners of private parking spaces. ese latent variables such as PE, EE, PC, SI, PR, and PB and exogenous factors such as sociodemographic and economic characteristics and built environment are listed in Figure 1.

MIMIC Model.
In this paper, the MIMIC model is used to characterize the influence of latent variables and exogenous variables on the private parking space sharing intention.
MIMIC model does not need strict constraint conditions and assumptions to the premise, it can deal with multiple latent variables and endogenous indicators, and it makes exogenous variables and endogenous indicators exist in measurement errors. erefore, its theoretical framework is more clever than other indirect measure methods and potentially includes other indirect measure methods [39]. Its matrix form is shown in equations (1) and (2): where η is the psychological latent variable vector; x represents the exogenous variable vector; y indicates the observed variable vector; Γ and Λ are the parameter matrixes; and ζ and ε are the measurement errors. Substituting equation (1) into equation (2), we can get equations (3) and (4): Assuming that the measurement errors are independent of each other and subject to the normal distribution, then where Θ 2 is the lower triangular matrix, so the covariance matrix formula is as follows: e total covariance matrix can be calculated by observing the sample value of the variable; let � (θ); it can solve each parameter.
In the multi-indicator part of the MIMIC model, it is equivalent to carrying out a confirmatory factor analysis on latent variables. e multicause part can be expressed as follows: where l is latent variables, including EE, SI, PC, PR, PB, and BI; c indicates the parameter to be estimated; and i is the observed individual. e overall structural framework of the berth-sharing intention MIMIC model is shown in Figure 1, including observable exogenous variables (green part), latent variables that constitute C-UTAUT-BRA (blue part), and measurement variables that used to measure latent variables (orange part). e model assumes that exogenous factors such as sociodemographic and economic characteristics and the built environment affect latent variables, and the latent variables of these elements are explained by measured variables. Among them, the structural equation between latent variables and the measurement equation between the latent variables and the measurement variables can reflect the internal influence relationship among the latent variables. e structural equation can reflect whether exogenous variables have an influence on each latent variable and the extent of influence [40].

Survey Design.
In order to ensure the data quality of the questionnaire, we, respectively, carried out a presurvey and a formal survey. In the presurvey, people with a different understanding of shared parking were asked to fill in the questionnaire, and the formal questionnaire was obtained after adjusting the questionnaire items through the results of presurvey. e formal survey was conducted in the form of an online questionnaire. e survey mainly aimed at people who have private car spaces in urban areas, and a total of 673 questionnaires were collected. After the conditional screening, the number of valid questionnaires was 625 (the effective rate was 92.3%). When using the MIMIC model for multivariate studies, the sample size should be at least 5-10 times the number of variables, so the sample size of the formal survey should be higher than 270. erefore, the sample size of the formal survey can meet the research needs. e questionnaire's content consists of four parts: the socioeconomic attributes of the informants, the built environment of the surveyed residential area, the usage of parking spaces, and the observed variables of latent variables. Table 2 summarizes the main population characteristics of the effective sample.
is study uses a Likert five-scale (1 � strongly disagree; 5 � completely agree) and measured all psychological variables (C-UTAUT-BRA model variables), and the higher the score, the higher the degree of agreement. According to the research problem, we referred to existing research and interviewed relevant experts to determine the observed variables of the questionnaire. e six latent variables include 27 observed variables; specific observed variables are detailed in Table 3.

Reliability and Validity
Test. Reliability and validity are used to measure the accuracy and stability of questionnaire test results [46]. Reliability analysis is used to measure whether the results of the questionnaire are reliable, and Cronbach's coefficient (Cronbach's α) is generally used for evaluation. If Kronbach's coefficient is higher than 0.8, the reliability is high; if it is between 0.7 and 0.8, the reliability is acceptable; if it is between 0.6 and 0.7, it is basically acceptable; if it is lower than 0.6, the reliability is not good and it is necessary to revise the survey scale [47]. Table 4 shows the reliability and validity test results of each latent variable. From the results, Cronbach's coefficient of each latent variable is higher than 0.8, which indicates that the reliability of the questionnaire is very high.
Validity analysis is used to measure the validity and accuracy of the design of observed variables. e higher the validity, the more accurate the measurement results. Validity is usually verified by using Average Variance Extracted (AVE), and when the value is higher than 0.5, this indicates that the latent variable has well convergence validity. In addition, when the load coefficient of the standardized factor corresponding to each observed variable is higher than 0.6 and p < 0.05, it also shows that the convergence validity is up to standard. From the results in Table 4, the AVE of each latent variable is above 0.56, and the value of each observed variable is above 0.65, which indicates that the data has strong reliability and internal consistency.

Model Modification and Evaluation.
is study chose chi-square degree of freedom ratio (χ 2 /df), Root Mean Squared Error of Approximation (RMSEA), Goodness-of-Fit Index (GFI), Comparative Fit Index (CFI), and Adjust Goodness-of-Fit Index (AGFI) as model goodness-of-fit indices. Among them, χ 2 /df is a statistic that directly tests the similarity between the sample covariance matrix and the estimated covariance matrix; the closer χ 2 /df is to 0, the better the model fits. When the value is lower than 3, it means that the model fits well; when the value is between 3 and 5, it means that the observed data basically fits the model; when the sample is large, around 5 is acceptable. RMSEA is an absolute index without a baseline model. e smaller its value, the better the model fitness; if the value is lower than 0.05, this indicates that the model has a good fit, and when the value is 0.08, it represents the upper limit of the acceptable model fitness [48]. CFI is used to compare the absolute fit of the independent model with the absolute fit of the defined model, and the closer the value is to 1, the better the result. e closer the value of AGFI is to 1, the higher the model fitness is.
According to the assumption presented, using AMOS established structural equation models to verify the path. e preliminary verification found that the theoretical model and the empirical data could not be completely fitted. Modifying the model without affecting the integrity of the theoretical model, the path that has no significant impact at all is deleted, and the final model fitness test index calculation results are shown in Table 5.
e goodness-of-fit indices of the adjusted model all meet the requirements and are obviously better than the initial theoretical model. Figure 2. e value on the path in Figure 2 is the standardized path coefficient, which reflects the degree of influence between factors, and the arrow is the influence relationship; e1 ∼ e29 represent the error term. From the calibration results of the MIMIC model, we can see the mutual causality between the latent variables of C-UTAUT-BRA and the relationship between individual exogenous factors and latent variables. Most people around me will choose to offer shared parking spaces [41,42] SI2 e family will suggest and support me to supply shared parking spaces SI3

Results and Policy Applications e optimized MIMIC model is shown in
Friends/classmates/colleagues will suggest and support me to supply shared parking spaces SI4 Support and appeal from the government and media will let me more willing to supply shared parking spaces SI5 e more owners who provide shared parking spaces in the community, the more willing I am to supply shared parking spaces EE EE1 Using a shared parking system to supply shared parking spaces is easy I believe I can supply shared parking spaces through a shared parking system EE3 I have rich knowledge to supply shared parking spaces through the shared parking system EE4 I think I can completely control the use of the shared parking system PR PR1 Parker will park over time, which will cause more inconvenience to me personally [43] PR2 Supplying a shared parking space may expose my personal privacy (such as travel records and home address) PR3 Parked car has an accident in the neighborhood; it will probably get me into trouble PR4 Supplying shared parking will increase the cost of new equipment and redevelopment of the parking lot PR5 Supplying shared parking space will increase the pressure of property management in the community PB PB1 Supplying shared parking spaces, I can get a lot of money [44] PB2 Supplying shared parking spaces will improve the utilization rate of idle parking spaces PB3 Supplying shared parking spaces can help solve other people's parking problems PB4 Supplying shared parking spaces will improve the utilization rate of idle parking spaces PB5 Supplying shared parking spaces contributes to the sustainable development of the city BI BI1 I would like to try to supply shared parking spaces through the shared parking system in the future I would like to give priority to supplying shared parking spaces through the shared parking system in the future BI3 I will often supply shared parking spaces through the shared parking system in the future BI4 I will strongly recommend to my friends and family to participate in the shared parking program Discrete Dynamics in Nature and Society

e Relationship between Latent Variables.
e path relationship between the latent variables in the MIMIC model is shown in Figure 3. e solid arrow indicates that there is a significant influence relationship, the dashed arrow indicates that there is no significant influence relationship, * means p < 0.05, * * means p < 0.01, and * * * means p < 0.001.
(1) PB, PR, SI, and FC all have a significant impact on BI at the level of p < 0.05; in particular, the path coefficient of PB reaches 0.6, which shows that the parking space sharing intention is largely driven by the expected benefits, so, H1, H3, H4, and H5 are verified. EE has no direct impact on the BI, but the PB and PR indirectly affect BI, so H2 is not verified. However, EE has a significant impact on PB, which verifies H7. PB has a significant impact on PR, but PR has no significant effect on PB, thus partially verifying H6. e hypothesis test results are shown in Table 6.
(2) Not all latent variables have a direct effect on BI. ere are direct and indirect effect relationships between latent variables. e direct effect refers to a variable that has a direct effect on another variable without intermediary variables. e indirect effect refers to the indirect effect of a variable on another variable through an intermediary variable. According to the path coefficients between the latent variables, the direct effects, indirect effects, and total effects between the latent variables are obtained. e results are shown in Table 7.
(3) e latent variables that affect BI in descending order of impact are PB, EE, FC, SI, and PR; among them, PB has the largest total impact, and PR has the smallest total impact, indicating that, for suppliers, expected benefits are the main driving force for their sharing intention. When the private parking space owner perceives that the shared parking space can obtain better economic benefits and the problem of idle parking space can be solved, the intention of parking space sharing will be stronger, so it is extremely important to enhance the revenue attraction of parking space sharing. However, there are many interested parties involved in shared parking, including operating platforms, properties, and parking space suppliers. It is difficult for shared revenue to meet the expectations of parking suppliers. Although the government is not a profit-making organization, in theory, shared parking can generate more social benefits, such as reducing vacant parking spaces, reducing parking and traffic congestion, and alleviating environmental pollution. erefore, the government should support financial subsidies to alleviate the cost pressure on suppliers and managers. In addition, shared parking demonstration projects also require government policy and investment support. Demonstration of shared parking projects can increase public awareness of individuals and the public. e perception of potential shared benefits and the implementation effect and social value of shared parking lots should be broadcast to the public. rough demonstration projects, suppliers will be more aware of sharing benefits and risks in practice, thereby eliminating or alleviating their anxiety. (4) In addition, the impact level of EE is second only to PB, indicating that the better the suppliers' ability to perceive and control the shared parking operation process, the stronger their sharing intention, so related shared parking platforms should pay more attention to related operations. e ease of use of the system focuses on reducing the complexity of using the shared parking operating system and strengthening relevant instructions to promote the sharing intention of parking space owners. (5) SI positively affects BI, indicating that the sharing intention of parking space owners in residential areas is affected by the opinions of others, government     Discrete Dynamics in Nature and Society policies, and media propaganda; that is, when making decisions about whether to share parking spaces, they will have a certain degree with reference to the support or encouragement of relatives, friends, colleagues, and the degree of support from the government, so the government can formulate corresponding policies to support the development of shared parking projects and jointly promote the media to increase the public's understanding of shared parking. (6) e negative impact of PR on BI means that the less risk perceived by the suppliers, the stronger their intention to supply shared parking spaces. If the risks that may exist in the process of parking space sharing are reduced, such as the safety problems caused by the entry of foreign vehicles to the community, the overtime use of parking spaces by users, and the conflicts and disputes caused by the scratching of vehicles during parking, etc., the sharing intention of parking space owners will be promoted.

e Relationship between Exogenous Variables and Latent
Variables. e influence of exogenous factors such as socioeconomic characteristics, built environment, and parking space usage on the PR, PB, SI, EE, and FC is summarized in Tables 8 and 9, and Z-value is shown in brackets. We can draw the following conclusions: (1) Exogenous factors do not directly affect BI but indirectly affect BI through PB, PR, SI, FC, and EE. (2) As can be seen from Table 8, exogenous variables do not have a significant influence on every latent variable; for example, gender has no significant effect on all latent variables; age has a significant positive effect on PB, SI, EE, and FC, indicating that within a certain range, the older the person is, the more sensitive the income of shared parking is, and the greater the expected income is, including personal income and social benefits brought by shared parking. Meanwhile, when the confidence to control the shared parking system is stronger, they more tend to be influenced by society and the people around them. Both education level and income have significant positive effects on SI and EE, indicating that the higher the education level and income, the more willing they are to listen to the opinions of the surrounding groups. Meanwhile, the higher the income, the higher their learning ability and knowledge mastery, and thus the stronger their confidence in the control of the shared parking system. e city level has a negative effect on PB, SI, EE, and FC, indicating that the lower the city level is, the less the perceived revenue is, which may be related to the acceptance of new technology, and the weaker the control confidence is, and it is not easy to be affected by the surrounding environment to participate in  Bold font indicates a significant influence relationship. * p < 0.05; * * p < 0.01; * * * p < 0.001.

Conclusions
e purpose of this study is to explore the influencing factors that affect the parking space sharing intention of owners of private parking spaces in China as well as the relationships between the various factors. A private parking space sharing intention analysis model was constructed by combining the UTAUT model and BRA model. e MIMIC model was applied to describe the measurement relationship between latent variables and measurement variables, latent variables, and exogenous variables, as well as the structural relationships between the latent variables. e data obtained from the actual survey of respondents in China were used to verify the mutual influence relationships in the model quantitatively. In this study, it is found that SI, FC, PB, and PR directly affect BI and EE indirectly affect BI through PR and PB. e latent variables that affect BI in descending order of impact are PB, EE, FC, SI, and PR; among them, PB has the largest total impact, and PR has the smallest total impact, indicating that for suppliers, expected benefits are the main driving force for their sharing intention. Relatively speaking, the potential risk of shared parking is not the main factor affecting the sharing intention. Exogenous variables have different effects on different latent variables. Age, education level, and income all have positive effects on SI and EE, while most built-in environmental factors have no significant impact on latent variables, such as the convenience of surrounding public transportation, and traffic pressure. Although the built environment around the shared parking spaces may affect the potential benefits of parking space sharing, the suppliers are not sensitive to this, which may be a factor that shared parking space users are more concerned about. It can be considered that this combined theoretical framework has good applicability for the research of the sharing intention of owners of private parking spaces.
is study has two levels of significance in terms of theoretical enlightenment and practical application reference. At the theoretical level, an empirical basis has been provided for the effective combination of the UTAUT model and BRA, and the theoretical analysis methods have been enriched in the research field of technology acceptance. At the practical application level, this study explored the influencing factors that could affect the parking space sharing intention of owners of private parking spaces in China. An understanding of these factors will be beneficial for analyzing the operating market, thereby providing directions for parking sharing operators and policymakers in future technology research and development as well as functional design. e research results could also provide objective reference opinions for the government to issue management policies for shared parking projects. For example, it is found in this study that PB is the most important influencing factor for sharing intention, so promoters should raise the public's perception of potential shared benefits for individuals and the public.
ere are still some limitations in this study: (1) this research only considers the influence of psychological factors and exogenous factors on sharing intention and does not consider the influence of policy variables such as parking charges and overtime charges; (2) this study explores the intention to share parking space rather than actually sharing behavior. In the future, the research can be extended to the investigation of factors affecting sharing behaviors; (3) future research can further explore the influence of participants' behaviors on the stability of the shared parking system and supply behavior analysis under uncertain demand [49,50].

Data Availability
e data used to support the findings of this study are available from the corresponding author upon request.

Conflicts of Interest
e authors declare that there are no conflicts of interest regarding the publication of this paper.