Understanding the Effects of Various Factors on the Public Response to Congestion Charge: A Latent Class Modeling Approach ()
1. Introduction
Traffic gridlock is emerging as a serious hindrance to economic development in many urbanized areas, including Jakarta (the capital of Indonesia). The Jakarta region accounts for 19% of Indonesia’s gross domestic product, amounting to approximately US$ 118.7 billion [1] . The population of Jakarta accounts for 10% of the nation’s total, and has increased 1.6 times in 20 years―from 17 million in 1990 to 28 million in 2010 [2] . Commuting trips from peripheral areas into Jakarta have grown roughly 1.5 times between 2002 and 2010 [2] . Moreover, the city relies heavily on road transportation, with private vehicles taking a mode share of almost 80% of trips. The Jakarta police authority reported 7.5 million registered motorcycles and 2.1 million passenger cars, respectively, in 2010. This represents an increase of 464% (motorcycles) and 201% (cars) compared to the base year (2000). This tremendous number of motor vehicles results in huge economic losses arising from worsening traffic congestion. Estimates for 2002 suggest that US$300 million was lost in wasted vehicle operation costs and US$250 million in travel time [3] . Additionally, a number of externalities are manifested by motorized traffic, including excessive travel times, air pollution and energy consumption. Such externalities have affected Jakarta particularly badly in recently, and have led Jakarta’s government to take great interest in how to moderate the problems.
A promising policy measure for the government to mitigate congestion in Jakarta is the adoption of a congestion charge (CC). The term of CC, which is also referred to as road pricing, can be defined as any form of charging for the use of certain roads during times of peak demand [4] . The government of Jakarta desires to replace the existing 3-in-1 High Occupancy Vehicle (HOV) policy, which has had insufficient effect in alleviating traffic congestion, with a CC scheme [2] . A CC policy is regarded as the most effective measure to combat traffic congestion within a city center. Successfully implementations in Singapore, London and Stockholm have effectively mitigated congestion [5] - [7] . Although such schemes are capable of reducing congestion, they are at the same time uniquely difficult to implement [8] .A few cities have attempted such schemes. Rather than technical matters, it is social and legal issues, related to public and political acceptability, that are the major obstacles to implementation [9] . It is argued that most countries with democratic political systems find it hard to implement such schemes. This is confirmed by the experience of several cities that have dropped schemes for lack of public support, such as a proposal in Edinburgh [10] and one in New York City [11] . Understanding this is crucial to any investigation of what might improve public support for such schemes. Support might be affected by whether individuals gain benefits from the scheme or, conversely, find their private mobility affected.
In particular at behavioral research, there are concepts of interest related to psychological indicators. Extensive psychological studies have been carried out to identify individual factors that affect public support, indicating that the acceptability of transport pricing appears to be explained by a wide range of psychological motivations. Public approval strongly correspond to individual perceptions of the policy, such as perceived environmental benefits, improved freedom of movement and knowledge of the charging [12] - [14] . In respect to the CC proposal in Jakarta, a preliminary study on public acceptance was carried out by [15] . Psychometric data obtained from stated preference experiment were used to assess the influence of public consciousness on the acceptability of CC policy. They found that psychological factors such as recognition, fairness, awareness to congestion problem and inhibition of freedom of movement have the most significant influence on determining public approval.
In regards to modeling approach, it is unsurprising that the most commonly applied econometric to evaluate public response behavior is the ordered response model. The SORM imposes a restrictive and monatomic impact to the exogenous attributes of each outcome alternative. Therefore, this study is an attempt to assess the effects of various factors on public choice behavior with respect to the CC proposal in Jakarta by formulating an innovative framework of the LC-GORM. The proposed model probabilistically assigns respondents to selfish and altruistic class member-ships (latently) based on their knowledge on the proposed scheme and their specific attributes.
The rest of this paper is structured as follows. The next section describes the data set, the modeling framework and model estimation. Finally, the conclusions of the study are presented at the end of the paper.
2. Data
2.1. Stated Preference Survey
This study focused on the city center of Jakarta, as shown inFigure 1. The target zone is CBD, which is a dense mix of business and commercial areas. The charging zone is within the CBD, which is also the area proposed for TDM measures by the government of Jakarta [2] [3] . The CBD attracts many visitors and is served by urban arterial roads that experience serious congestion because of most visitors rely on private automobiles.
The stated preference or opinion survey method was used to design questionnaires. The questionnaires were designed to capture relevant information from respondents (visitors to the CBD), such as visitor mobility characteristics, approval of the proposed CC scheme, expectation of changes in mobility habits and socio-demo- graphic attributes (see Table 1). Respondents were asked to answer a set of questions regarding the CC proposal, designed to capture their intentions with respect to such a scheme. This set of questions was related to theindividual’s psychological motivations corresponding to several indexes as summarize in Table 1. Furthermore, the survey was conducted in November 2013 in the city center of Jakarta. Target respondents were visitors, including commuters, shoppers, commercial visitors and employees of business establishments. A total of 2100 questionnaires were distributed randomly. A total 1641 samples were valid and utilized in this study.
2.2. Data Profiles
Figure 2 shows the socio-demographic characteristics of the respondents. It is noteworthy that young people
(a) (b)
Figure 1.Study area and the area proposed for charging zone. (a) Jakarta Region; (b) the CC zone.
Table 1.Summary of questions in stated preference questionnaire.
(³30 years) dominate the sample set, accounting for more than 60% of respondents. The gender distribution is slightly skewed toward males. As regards employment status, the data set indicates that 69% are employed, with less than 6% of the sample being housewives or unemployed. Commuters dominate the samples, with nearly 95% of them making mandatory trips to the CBD (workers/students). Notably, closely three-quarters of the sample have a low annual income. That is, about 73.4% of the respondents have an annual income below 12 million IDR. A household with an annual income below 22 million IDR is classified as a low income[1] .
Figure 3 describes respondents’ mobility attributes. The data reveal that close to 70% of trip makers arelicensed drivers. However, this does not mean that 70% of trip makers used private modes to enter the CBD. It can be seen that the travel mode distribution is slightly skewed toward private modes. That is, 50.4% of respondents used private modes to visit the CBD. Turning to the purpose of the CBD visit, work and going to school are predominant, accounting for about 59.5% of the sample. Similarly, 63% of respondents visit the CBD quite often (3-5 days/week or more), with a possible reason for this being that nearly 60% of trip makers are commuters (working or studying). As expected, the data reveal that approximately 55.7% of respondents frequently use car (3-5 days/week or more). In contrast, 33.5% of respondents quite infrequently use car (up to 3 days/
month). It seems that respondents prefer to use their own mode because there is only one pleasant means of transit serving the corridors, the Jakarta BRT.
3. Methodology
3.1. Latent Variable Model
Prior to the latent class ordered response procedure, we estimate latent variables from psychometric data that we obtained from stated preference experiments. The approach used is a common one: confirmatory factor analysis with covariates, formerly known as the multiple-indicators multiple-causes (MIMIC) model, by[16] . Systematically, the MIMIC model consists of a structural equation model and measurement model given by:
(1)
whereyt is a vector of observable indicator variables,xt is a vector of the exogenous variables that cause ht, and B, Γ and Λ are matrices of factor loading to be estimated.The terms zt and et are measurement errors. In this study parameters were estimated using LISREL 9.1.
3.2. Latent Class Ordered Response Model
3.2.1. Upper Level Model: Class Membership Selection
The modeling concept is based on the assumption that there may be discrete classes of decision makers that are not immediately identifiable from the data set (that is, they are latently identified). A CC policy may stimulate a feeling of infringement. That is, a people might psychologically perceive that their freedom will be limited to some extent, leading to negative feelings on becoming conscious of the policy. This represents a feeling of unfairness perceived by “selfish respondents”. In contrast, certain people might experience positive feelings on becoming conscious. This reflects a feeling of fairness as experienced by “altruistic respondents”.Suppose that the population of respondents consist of c* different behavioral classes: the selfish class (“s”) and the altruistic class (“a”). Respondents in the same class use the same behavior in making their choices. Then, the utility function for individual i belonging to class sand the probability of respondent i belonging to the class membership s or aare respectively given by:
(2)
and (3)
whereziis a vector of the respondent’s characteristics,ais a vector of the unknown parameters, and uiis class-specific idiosyncratic random disturbance term assumed to be IID standard normal distribution.
3.2.2. Lower Level Model: Class Specific (Conditional) Choice
The latent class ordered response model here stated that a conditional on being in class s or a, are then simultaneously assigns to the class specific (conditional) choices. A common disaggregate approach with ordering outcomes is the SORM. Leti (i=1,2,∙∙∙, I) be an index representing the observation unit and let j (j=1,2, ∙∙∙,J) be an index representing the ordinal value j of an ordered-response variable, then the system equation of SORM is written as:
(4)
wherexi is a vector of the exogenous variables,b is a vector of the unknown parameters, representing the individual observations. The random error εiis assumed to be IID standard normal distribution. Then, the individual contribution to the unconditional probability can be drawn as:
(5)
where Φ(.) represents a standard normal cumulative density function, and mj and mj+1 represents upper and lower thresholds for outcome j. Hence, the SORM imposes a restrictive and monatomic impact of the exogenous attributes of each alternatives [17] [18] . To maintain the ordering conditions and allow the thresholds to vary across ordinal outcomes, we parametrize the thresholds to be linear function of the covariates [19] , with it turn to generalized ordered response model (GORM):
(6)
Substitution of Equation (6) in Equation (5) yields:
(7)
wheresince band gjcannot be identified separately, and it is understood that =−∞and =∞ such that and.Given above specification, the overall conditional probability of choice preferences j is the sum of those from the two respectively class memberships. Combining Equation (3) and Equation (5) final choice probabilities for latent class based on the SORM (LC-SORM), yields:
(8)
and compounding Equation (3) and Equation (7) turns to final choice probabilities for the LC-GORM:
(9)
Eventually, the likelihood function for the entire observations can be written as:
(10)
wherehij is the indicator function, 1 if a respondent i chooses outcome j, 0 otherwise. are the choice probabilities of a respondent i being in choice outcome j conditional on class membership c. In this study, the log likelihood function is written and implemented in GAUSS econometric programming version 3.2.32.
4. Analysis
4.1. Estimation Results of Latent Variable
The ordinal psychological-related questions included in the stated preference experiments transform into latent variables representing constructs of psychological indicators using a 4-point Likert scale. Variables notation, definition and empirical setting for both indicators and causes are summarized in Table 2 and Table 3.
Table 2 and Table 3 give the estimation results of the MIMIC model. The factors loading for indicators and causes into latent variables are listed in Table 2 and Table 3, respectively. A number of indices were computed to explain the fit of the model in the model fitting process. The fit indicators include the comparative fit index (CFI=0.92), the root mean square error of approximation (RMSEA=0.09) and the standardized root mean square residual (SRMR=0.07) likewise exhibit moderate acceptable fits [20] .
Table 2displays that the validity of CC adoption (APR, REC and APC) have similarly a positive tendency of contribution for scheme proposal. Concerning to CDC, it appears that transit and its availability have negative scores for the CDC. A negative sign of transit availability may partially indicator of the car dependency in Jakarta. Interestingly, IFM contributes as barrier for correct and acceptable scheme while doubts about the ability of CC policy in mitigate congestion has a positive sign.
Concerning to respondent’s socio-demographic attributes, Table 3displays the gender variable of males have a positive marks the latent variables of car dependency (CDC) and inhibition freedom of movement (IFM). It seems that male respondents are more dependent on private car use. Consequently they will perceive CC
Table 2.Description, empirical setting and factor loading for indicators (measured equation).
Note: *using ordinal responses of 4-point Likert scale 1=strongly supported/agreed, 4=strongly opposed/disaggreed.
Table 3.Description, empirical setting and factor loading for causes (structural equation).
Note: all path coefficients have significant at the 5% level.
implementation as inhibiting their freedom of movement. Interestingly, we found that respondents over 40 years old are more concerned with the appropriateness of CC adoption and have more positive awareness of the problems of cars in society (APC). One possible reason for this is that elderly respondents have relatively greater awareness of the congestion and environmental damage caused by badly autos traffic. This gives them greater expectations for the effect of CC in mitigating congestion and environmental problems.Looking at the variable of annual income, we find that it has a positive correlation with recognition of the effects of CC in mitigating congestion and environmental problems (REC), car dependency (CDC) and awareness of the problems of cars in society (APC). This means that respondents with higher income are more concerned with the problems manifested by motorization while, on the contrary, path coefficient between annual income (AI) and car dependency (CDC) displays 0.274. It discloses that they are automobile dependent. This might mean that respondents with higher income live in surrounding municipalities where public transit services are inadequate likely prefer to use private mode. Moreover, as expected, employed respondents are unlikely to endorse the appropriateness of CC adoption in Jakarta. This may be partially because of they need to enter city center more frequently as compared to non-commuter trip makers.
4.2. Estimation Results of Latent Class
The observed individual response to CC is treated as an apparent endogenous variable. Respondents were asked to choose a response from a 4-point Likert scale to CC as listed in upper part of Table 4. We combined outcome 3 (not accepted) with outcome 4 to reduce dimension and complexity in estimation procedures. Thus, we set three ordinal outcomes (i.e. 1. well accepted; 2. accepted; 3. combined not accepted) to be apparent endogenous. Description and empirical setting of endogenous and exogenous variables are summarized in Table 4.
Prior to the discussion of the modeling results, we compare the performance of the LC-SORM andLC-GORM model specifications. Two goodness and fit measures are conducted to compare performance of two non-nested models. That is, the AIC and Non-Nested Hypothesis (NNH) test. The AIC is defined as
and the NNH test can be computed as [21] . Table 5displays the
AIC of LC-SORM and LC-GORM are 2890.72 and 2888.91, respectively and the lower value of AIC is considerably superior. Moreover, the NNH test which compares two non-nested models by computing the probability ofτ based on the obtained in two models. The lower ofτ value (0.001) explicitly indicate that LC-GORM suggests superiority fit over LC-SORM.
Table 4.Empirical and description of endogenous and explanatory variables.
Table 5.Estimation result for LC-SORM and LC-GORM.
4.2.1. Class Membership Selections
Prior to the discussion the effects of various coefficients on the class-specific (conditional) choice. It is necessary to look after estimation result in the class-membership selections. We used estimated LC-GORM for generating several information as it shown in Table 6. Table 6 displays the likelihood of respondents probabilistically being assigned into selfish and altruistic classes. It reveals that the respondents consigned to class selfish are less (28%) whereas respondents assigned to altruistic class are predominant (72%). Selfish respondents unlikely to prone the CC policy mounting for approximately 42.8% while altruistic respondents considerably offer significant contribution (48.8%) being proved well accepted. The results clearly demonstrates that individuals involved in each segments have significant contribution to the scheme’s acceptance and the modeling framework by considering latent class reveals that each classes exhibit different choice behavior.
Table 5 (upper part model), estimated parameters correspond to the probability being selected as selfish class. Constant term displays a negative effect. It seems that the more people perceived the sense of injustice (unfair) the more people would not prone the policy is suggesting. Appropriateness of scheme adoption (APR) significantly has a positive contribution to the class selfish. It seems that the more respondents recognize the appropriateness or benefit of such scheme the more people likely would favor CC policy. However, recognition of CC (REP) confirms a negative alert. The likelihoods that insufficient understanding of scheme contributes more appearance of selfish. That is, respondents who lack a clear understanding of the schemes are unlikely to support by selfish class. Looking at personal attributes, the variable of dummy professional employee (PE) and transport expenditure (TE), both variables have a negative effect on determining selfish class. The more person professionally employed there are or the more transport cost be required, the less selfish likely will be.
4.2.2. Class-Specific (Conditional) Choice Membership
In the conditional choice models, most of the variables differ much between two classes. Empirically,Table 5 (see middle and lower models) shows that the magnitude of the coefficients (including the t-statistic) vary across outcome categories. These evidences telling us that there are exist an individual preference heterogeneity over ordinal preferences. That is, all significant coefficient parameters in the LC-SORM are not maintain to have same magnitude in the LC-GORM rather randomly distributed over thresholds as it parameterizes to be linear function of the covariates. For instance, the charges (CG) has significant parameter with t-values about −2.12 and −2.39 for selfish and altruistic classes in the LC-SORM, respectively. Whereas in the LC-GORM, CG confirms better fit (t-value −2.22) for selfish, while quite dropped a significant (t-value −1.61) for altruistic within threshold 2. By allowing flexibility of thresholds, it confirms that threshold 2 holds more significant parameters. These evidence discloses that threshold 2 clearly offers superior estimation parameters and carries more meaning concerning respondent’s choice behavior compared to threshold 1.
Investigating of charge (CG), parameters show more significant negative sign for selfish class compared to altruistic. It unveils that the more charges are purposing, the more selfish respondent would oppose the scheme. This could tell us that selfish are more sensitive on scheme’s rejection compared to altruistic segment. In respecting to latent variables, car dependency (CDC) and problem of awareness (APC) substantially have similar sign and significant parameters for each classes except for altruistic class holding by threshold 1. It found that less significant for variable doubt the effect of CC (DEC) over class memberships. Investigating of car dependency (CDC) variable, it has a negative sign for each segments. The more they autos dependence the more probably they uses auto to enter the CBD. Part of the reason for this is that, since there is a lack of adequate public transit into the charging zone (with a heavy reliance on Jakarta’s BRT), it is likelythat people prefer to use their car in terms of its flexibility. Without doubt, auto users tend to oppose proposed policy and are unlikely to reduce use of their cars. However, the variable for awareness of the problem of cars in society (APC) has a positive sign. The likelihood is that respondents are weary of encountering the collectiveproblem of congestion,
Table 6.Segmentations for selfish and altruistic class-memberships based LC-GORM.
which is badly manifested in the form of noise and emissions in recent years. They probably look forward to the policy that expected will cut congestion and its externalities.
Concerning to respondent’s mobility attributes, it shows that parameters are vary across segments. For instances, selfish class has significant negative parameters for frequency visiting city centers (FV) and frequency used car (FC) while all of them (LD, PV, FV, MU, and FC) have significant negative effect on conditional probability for altruistic class. For both classes, the more frequency visiting CBD (FV) the more likely they are to oppose the scheme. Particularly, this applies to traveler who enter city centers frequently and car users (FC). As for altruistic class, opposition significantly arises from respondents who have driver licensed (LD) and regularly used a private mode (MU) to visit city centers. The presumably that they think that the scheme will limit their freedom of using private vehicles.
5. Conclusion
The present study focuses on assessing the effects of various factors on the respondent’s choice behavior to a congestion charging proposal in Jakarta. The innovative formulation of the LC-GORM probabilistically assigns respondents into selfish and altruistic class memberships (latently) based on their knowledge on the proposed scheme and respondent’s specific attributes. The exogenous attributes, appropriateness and recognition to the scheme, employment status and transportation expenditure are significantly contribute in defining selfish class. Probabilistically, it found that selfish respondents unlikely to prone the CC policy mounting for approximately 42.8% while altruistic respondents considerably offer significant contribution (48.8%) being proved well accepted.A comprehensive explanatory variables include charges, latent variables related to respondent’s psychological motivations, mobility attributes and socio-demographic characteristics are incorporated into empirical analysis. The finding confirms that altruistic class are more sensitive on scheme’s acceptance while selfish are more sensitive on scheme’s rejection. The key of factors influencing public’s acceptance include charges, car dependency, awareness problem of car society, frequency visiting city centers and frequency used private mode. Empirical findings should provide insight for the government in designing a more acceptable policy in respecting to the charge and public response. Yet, a gradual introduction of scheme outlines to the public may be needed in particular to enhance fairness feeling perceived by public. This may be done by allowing them to gain more understanding the outlines of the scheme, eventually gaining a more acceptable response. We hope this work might help in the design of more effective policy aiming at promoting the adoption of CC in particular for Jakarta and in general for the context of developing countries.
NOTES
*Corresponding author.