The Level of Public Acceptance to the Development of a Coastal Flooding Early Warning System in Jakarta

Coastal flooding is a natural disaster that often occurs in coastal areas. Jakarta is an example of a location that is highly vulnerable to coastal flooding. Coastal flooding can result in economic and human life losses. Thus, there is a need for a coastal flooding early warning system in vulnerable locations to reduce the threat to the community and strengthen its resilience to coastal flooding disasters. This study aimed to measure the level of public acceptance toward the development of a coastal flooding early warning system of people who live in a coastal region in Jakarta. This knowledge is essential to ensure that the early warning system can be implemented successfully. A survey was conducted by distributing questionnaires to people in the coastal areas of Jakarta. The questionnaire results were analyzed using cross-tabulation and path analysis based on the variables of knowledge, perceptions, and community attitudes towards the development of a coastal flooding early warning system. The survey result shows that the level of public acceptance is excellent, as proven by the average score of the respondents’ attitude by 4.15 in agreeing with the establishment of an early warning system to manage coastal flooding. Thus, path analysis shows that knowledge and perception have a weak relationship with community attitudes when responding to the coastal flooding early warning model. The results show that only 23% of the community’s responses toward the coastal flooding early warning model can be explained by the community’s knowledge and perceptions. This research is expected to be useful in implementing a coastal flooding early warning system by considering the level of public acceptance.


Introduction
Coastal flooding is one of the natural disasters that often occur in coastal areas. The main causes of coastal flooding are tsunami, storm waves, inland flooding, and shallow coastal flooding [1]. Floods that occur on the coast are one of the major natural disasters that cause economic loss and loss of human life [2]. Coastal flooding is caused by various natural factors that build on each other to increase the impact on the people living in coastal areas. The extent of the coastal flooding is worse if it is accompanied by land subsidence in coastal areas. Land subsidence, combined with sea level rise, heavy rains, storms, and flood runoff from rivers, will expand the areas that are vulnerable to coastal flooding, particularly in Indonesian coastal cities [3]. This may result in extremely challenging problems in the management of islands and the provision of information related to marine affairs for coastal communities [4]. Jakarta, the capital city of Indonesia, is a large city in Southeast Asia that is highly vulnerable to coastal flooding. The province of the Special Capital Region of Jakarta (local term: Daerah Khusus Ibukota Jakarta (DKI Jakarta)) includes 13 natural and artificial rivers According to Mulyana [21], differences in ideology can lead to differences in thoughts, views, or concepts about human relationships and human perceptions of their reality. Accordingly, perception plays an important role in determining the community's attitudes in dealing with coastal flooding disasters. People respond to the danger they feel, and if their perception is wrong, then self-protection efforts, the public, and the environment will also tend to be wrong [22]. Several factors that can influence the disaster risk perception have been identified. One of them is that personal experience has a strong impact on the disaster risk perception, and makes people think more about the risks they might receive [23]. There are previous studies that discussed risk perception in responding to the behavior of early warning systems [24][25][26]. Risk perception is regarded as an assessment of the perceived probability of hazard and the perceived probability of the results (most often-negative consequences) [27,28].
Kaiser [29] stated that, traditionally, the object of a person's environmental attitude is the natural environment (e.g., air quality), or focusing on conservative behavior such as recycling. In general, attitudes toward individual behavior refer to studies on the theory of planned behavior. Attitudes toward the environment are generally associated with a multiple component approach in which aspects of individual attitudes can be distinguished. The concept of environmental attitudes as a behavior used by individuals to apply this belief implies a strong relationship between individual attitudes and behaviors. The implication of these individual attitudes in this study can significantly affect individual behavior, which is then expanded into community behavior in handling coastal flooding on Jakarta's north coast.

Study Area
The study was undertaken in North Jakarta, as it is an area that is very vulnerable to coastal flooding due to its location, which is directly adjacent to the sea and has experienced significant land subsidence over the past few years. In addition, the government is also developing a coastal flooding early warning system to reduce losses by implementing appropriate disaster mitigation in coastal areas. Therefore, it is very practical to choose North Jakarta as a research area. This study is one part of the proposed Coastal Flooding Early Warning model in Jakarta City.
Astronomically, DKI Jakarta Province is located between 6 • 12 S latitude and 106 • 48 E longitude. The demographic details of the study are shown in Figure 1. DKI Jakarta Province is a lowland with an average height of ±7 m above sea level. DKI Jakarta Province is bordered by the coast from west to east along ±35 km to the north based on its geographical position. The coastal area is the place for 13 rivers that borders the Java Sea. Meanwhile, in the west, it is bordered by Banten Province and West Java Province on the south and east. In this study, the focus of the research area is on the north coast of Jakarta, which administratively belongs to the Municipality of North Jakarta. The area of North Jakarta itself is 146.66 km 2 . North Jakarta stretches from West to East along approximately 35 km, jutting inland between 4 and 10 km. The height from sea level is between 0 and 2 m, while it is below sea level in certain places. Administratively, North Jakarta consists of 6 sub-districts, namely: Penjaringan, Pademangan, Tanjung Priok, Koja, Kelapa Gading, and Cilincing districts, each with an area of 45.41 km 2 , 11.92 km 2 , 22.52 km 2 , 12.25 km 2 , 14.87 km 2 , and 39.70 km 2 .
As previously explained, Jakarta has an overly complex condition if we examine coastal causes of flooding that often occur in this area. In addition, the level of public acceptance of the coastal flooding early warning system is needed to mitigate coastal flooding disasters so that the economic and social impacts can be significantly reduced. As previously explained, Jakarta has an overly complex condition if we examine coastal causes of flooding that often occur in this area. In addition, the level of public acceptance of the coastal flooding early warning system is needed to mitigate coastal flooding disasters so that the economic and social impacts can be significantly reduced.

Questionnaire Design
The level of public acceptance is measured by examining community responses to the coastal flooding early warning system based on a questionnaire conducted in communities around the coast of North Jakarta. The higher the average respondent's attitude, the more likely the respondent will have a good acceptance of the coastal flooding early warning model. In our study, the design of the questionnaire was based on four sections: Identity, capacity, knowledge, perception, and attitude (Appendix A). Each section consisted of several closed-ended questions with multiple choice answer options, which we thought was sufficient for the targeted research objectives. The identity section consisted of 10 questions, and the capacity section consisted of 33 questions. The identity and capacity sections were formulated by providing direct questions, either: (a) Multiple-choice questions, where respondents can choose answers based on the available choices, or (b) dichotomous questions, where respondents are only given yes or no choices to make it easier for respondents to understand the questions. To measure knowledge, perception, and attitude, we developed a set of 8, 5, and 6 item questions, respectively. These three variables were expected to describe the public acceptance pattern of a coastal flooding early warning system in settlement areas. These three sections were formulated using scaling questions, where the respondents can choose the available answers on a scale using a given range of values (we use the Likert scale, the easiest to construct as well as the most used by scholars). The Likert scale in the questionnaire is determined by assuming that knowledge is sufficiently represented by answering yes, doubtful, and no. The perception and attitude section had a greater range than knowledge because we wanted to observe

Questionnaire Design
The level of public acceptance is measured by examining community responses to the coastal flooding early warning system based on a questionnaire conducted in communities around the coast of North Jakarta. The higher the average respondent's attitude, the more likely the respondent will have a good acceptance of the coastal flooding early warning model. In our study, the design of the questionnaire was based on four sections: Identity, capacity, knowledge, perception, and attitude (Appendix A). Each section consisted of several closed-ended questions with multiple choice answer options, which we thought was sufficient for the targeted research objectives. The identity section consisted of 10 questions, and the capacity section consisted of 33 questions. The identity and capacity sections were formulated by providing direct questions, either: (a) Multiple-choice questions, where respondents can choose answers based on the available choices, or (b) dichotomous questions, where respondents are only given yes or no choices to make it easier for respondents to understand the questions. To measure knowledge, perception, and attitude, we developed a set of 8, 5, and 6 item questions, respectively. These three variables were expected to describe the public acceptance pattern of a coastal flooding early warning system in settlement areas. These three sections were formulated using scaling questions, where the respondents can choose the available answers on a scale using a given range of values (we use the Likert scale, the easiest to construct as well as the most used by scholars). The Likert scale in the questionnaire is determined by assuming that knowledge is sufficiently represented by answering yes, doubtful, and no. The perception and attitude section had a greater range than knowledge because we wanted to observe variations in answers from respondents ranging from a scale of one (the worst response) to five (the best response).

Sample and Data Selection
The purposive sampling method was used with certain considerations so that the data obtained in the field were more representative according to the research objectives. This was achieved by previously determining the sample candidates that could provide the appropriate required data and narrow the objectives of the sample's taker. Respondents were selected based on the people directly affected by coastal flooding and stakeholders directly involved with coastal flooding. The selection was performed so that the response to the research objectives was more precise and contextual.
We selected the research location to cover five sub-districts (local term: Kecamatan) in North Jakarta City. These five districts were selected because they are directly adjacent to the coast, which was the research area of this study. From these five sub-districts, the location was narrowed down to 8 villages (local term used in Jakarta province: Kelurahan), which can be seen in Table 1.  [30].
where n is the number of samples, N is the total population of North Jakarta, and α is the significance level of α = 0.05. Thus, the number of samples that were surveyed was calculated as follows: n = 1, 716, 591 1 + (1, 716, 591 × 0.05 2 ) ≈ 400 Individuals With the following samples distribution shown in Table 2: The data used in this study were obtained from a face-to-face questionnaire survey that was conducted in July 2019. Enumerators who collected the data were staff from the Class I Tanjung Priok Maritime Meteorology BMKG Station. All staff had basic knowledge about the coastal flooding early warning system. According to sample selection, in total, 400 questionnaires were distributed based on each predetermined village. All the questionnaires were collected, and the number of valid responses after the exclusion of incomplete questionnaires was 400 (the response rate was 100%). This excellent response rate occurred due to the use of purposive sampling.

Cross Tabulation
Validity and reliability tests were conducted prior to the analysis to determine whether the research variables met the requirements for further analysis. The questionnaire that was tested was an instrument used to measure the variables of knowledge, perceptions, and attitudes of society. The results of the statistical calculations for the validity test of each question instrument are presented in Table 3. In addition, the statistical calculations for testing the reliability of each measurement variable are presented in Table 4. In accordance with Table 3, the research instrument was found to be valid, as it had a Pearson correlation score higher than 0.3, and the significance test using a 2-tailed p-value was significant under an α level of 5% indicated by a value of 0, which is less than 0.05. In addition, Table 4 indicates that the questionnaire is reliable because the results showed that the Cronbach's Apha value for each variable is more than 0.6. This means that all question instruments (100%) for each variable (knowledge, perceptions, and attitudes) were valid and reliable, and thus could be used for further analysis.
Furthermore, cross tabulation analysis in this study used a contingency table type with statistical tests using Spearman's Rho rank correlation coefficient to see the relationship amongst variables in the questionnaire [31]. Researchers in analyzing variable relationships widely use this method. The Spearman's Rho rank correlation coefficient method is a non-parametric test method that can express the same variable's intensity and direction at different times. It was defined as: where r s is spearman correlation coefficient, y i is rating of initial observation, i is chronological order number of observation data (i = 1, 2, . . . , n), and n is total length of observation.

Path Analysis
Initially, the data were checked for possible relationships through cross-tabulation and the characteristics of data. Thereafter, path analysis with maximum likelihood estimation method was used in this study. Path analysis is a subset of structural equation modeling (SEM). It used to study direct and indirect effects between variables hypothesized as cause and variables treated as effects [32]. It was used to investigate how knowledge and perceptions affect the determination of community attitudes in accepting the coastal flooding early warning system. This analysis was carried out on respondents' data in the Northern Jakarta area consisting of eight villages observed through a questionnaire, and then the initial description of the path diagram model is presented in Figure 2.
the coastal flooding early warning system. This analysis was carried out on respondents' data in the Northern Jakarta area consisting of eight villages observed through a questionnaire, and then the initial description of the path diagram model is presented in Figure 2.
In Figure 2, is the knowledge variable, is the perception variable, and is the attitude variable. Symbol represents path coefficient to . Moreover, path coefficient to is represented by symbol. The symbol denotes the correlation coefficients of and . This path analysis model was developed by considering variables as suggested by past studies [33]. Lo, A.Y. [34] and Terpstra, T. [35] are others who have applied SEM in their data analysis. Although in their research they analyzed the relationship between perceptions and behavior regarding flooding, none of them discussed the relationship between the level of public acceptance of the coastal flooding early warning system from the perspective of the community's knowledge and perceptions. This study quantitatively analyzes and compares the relationship of knowledge and perceptions on attitudes, and looks in more detail at the level of public acceptance of the coastal flooding early warning system based on the characteristics of respondents in coastal areas.

Results and Discussion
Firstly, descriptive analysis was applied to quantitatively describe and summarize the socio-demographic characteristics of the respondents and the research variables (knowledge, perception, and attitude). Lastly, cross-tabulation and path analysis were conducted to examine the relationship between knowledge, perception, and attitude to determine the level of public acceptance of a coastal flooding early warning system.

The Respondents' Socio-demographic Characteristics
The respondents' socio-demographic characteristics are shown in Figures 3-6. The respondents were grouped into five age groups. The results showed that the age group with the most respondents was the 31-40-year-old group (35%), and the group with the least was in the >60-year-old group (1.25%) ( Figure 3). In Figure 2, X 1 is the knowledge variable, X 2 is the perception variable, and Y is the attitude variable. Symbol ρYX 1 represents path coefficient X 1 to Y. Moreover, path coefficient X 2 to Y is represented by ρYX 2 symbol. The symbol rX 1 X 2 denotes the correlation coefficients of X 1 and X 2 . This path analysis model was developed by considering variables as suggested by past studies [33]. Lo, A.Y. [34] and Terpstra, T. [35] are others who have applied SEM in their data analysis. Although in their research they analyzed the relationship between perceptions and behavior regarding flooding, none of them discussed the relationship between the level of public acceptance of the coastal flooding early warning system from the perspective of the community's knowledge and perceptions. This study quantitatively analyzes and compares the relationship of knowledge and perceptions on attitudes, and looks in more detail at the level of public acceptance of the coastal flooding early warning system based on the characteristics of respondents in coastal areas.

Results and Discussion
Firstly, descriptive analysis was applied to quantitatively describe and summarize the socio-demographic characteristics of the respondents and the research variables (knowledge, perception, and attitude). Lastly, cross-tabulation and path analysis were conducted to examine the relationship between knowledge, perception, and attitude to determine the level of public acceptance of a coastal flooding early warning system.

The Respondents' Socio-Demographic Characteristics
The respondents' socio-demographic characteristics are shown in Figures 3-6. The respondents were grouped into five age groups. The results showed that the age group with the most respondents was the 31-40-year-old group (35%), and the group with the least was in the >60-year-old group (1.25%) ( Figure 3).          Regarding sex, most respondents were male (70.5%), and the remaining respondents were female (29.5%) ( Figure 3).
Based on the level of education, most respondents (55.75%) had an education level of senior high school/equivalent (local term: SLTA) and at least 1.75% of them were academy graduates ( Figure 4).
Based on the type of occupation, most respondents (67.25%) worked as entrepreneurs/self-employed, and no respondents were working as Indonesian Military Soldiers or Police Officers (local term: TNI or POLRI) (Figure 4).
Based on citizenship status, most respondents (97%) were permanent residents according to the distribution area of the questionnaire, while the remaining 3% were residents with a national government ID card (local term: KTP) from outside of Jakarta Prov- Regarding sex, most respondents were male (70.5%), and the remaining respondents were female (29.5%) ( Figure 3).
Based on the level of education, most respondents (55.75%) had an education level of senior high school/equivalent (local term: SLTA) and at least 1.75% of them were academy graduates ( Figure 4).
Based on the type of occupation, most respondents (67.25%) worked as entrepreneurs/selfemployed, and no respondents were working as Indonesian Military Soldiers or Police Officers (local term: TNI or POLRI) ( Figure 4).
Based on citizenship status, most respondents (97%) were permanent residents according to the distribution area of the questionnaire, while the remaining 3% were residents with a national government ID card (local term: KTP) from outside of Jakarta Province ( Figure 5).
Based on the management of RT/RW (the Indonesian term for the lowest administrative area neighborhood consisting of 10-50 families), RW is one level higher than RT, but lower than a village; most respondents (89.25%) were not RT/RW administrators. The remaining 10.75% of the respondents were active members of the local RT/RW management ( Figure 5). This indicates that the survey carried out has been evenly distributed to both residents and local stakeholders.
Based on total income, most respondents (49%) had an income of between Rp. 3,501,000 and 6,000,000 (Rp. is similar to IDR, the currency of Indonesia), and the smallest number of respondents (3.25%) had an income of <Rp. 500,000 ( Figure 6).
The questionnaire results regarding the capacity of the respondents to face coastal flooding and the responses regarding coastal flooding early warnings are provided in Appendix B. In addition, the results indicated that most respondents had lived in coastal areas for more than 20 years, with the majority being native residents, where their residence or houses were mostly privately owned property.
From the survey, the largest proportion of people living in coastal areas were married with 4-6 people living in the same house, followed by 1-3 people in the same house. Based on the questions asked in the questionnaire, most respondents knew the causes and impacts of coastal flooding (i.e., sea level rise and poor drainage channels (gutters)). Based on the answers of the respondents, coastal flooding (local term: Rob-flood due to sea level rise) events occur at uncertain times according to most respondents, with a frequency of 1-3 times per month, each with a duration of 2-3 h and 0-30 cm depth.
Most respondents said that the dissemination of information related to flooding was rare by the head of the local RT/RW, as they did not participate in associations or organizations related to flood disasters. Some efforts have been made to deal with flooding, such as house reconstruction efforts like elevating the ground floor of houses as the most impact felt due to flooding is property damage (houses, vehicles, household utensils). Many respondents stated that the reason for living in the location where they are currently living is because they have lived there for a long time, even though when viewed from the survey results, it was found that the drainage conditions (waterways and/or gutters) in the neighborhood where most respondents were located could properly flow, but some of the drainage systems were clogged with mud and/or trash.
According to most respondents, there was no flood warning system in the neighborhood where they lived, and they commonly obtained the information/news related to flood disasters that occurred (including flood predictions) from news sources such as newspapers, television, or the internet. When they were questioned about where to go to save themselves when a flood occurs, they generally answered that they would remain at home as the modes of transportation mostly used to evacuate during such an emergency were motorbikes.
When they were asked about the type of fund allocation that is available, 69% of respondents said they did not have any funds allocated for flood disasters due to the low-income level in coastal areas. Moreover, according to most respondents, there was no financial assistance during or after flood disasters. The government provided aid during and after flood disasters; the assistance provided was mostly in the form of food supplies, followed by the provision of body protection such as clothes and blankets.
Previous research [36] suggested that the information needs of local residents and access to information are integral components in the process of public understanding. This theory was tested out for the government mitigation scheme.
Based on the answers to these questions, the capacity of coastal communities to deal with coastal flooding was observed. Of note, three-fourths of the respondents already knew the causes and impact of coastal flooding. However, the community rarely received information from the head of the RT/RW. This information is important because it impacts the lack of community participation in coastal flooding management. There is no early warning coastal flooding system, even though the questionnaire results showed that the government provides the most assistance to the community, both in terms of funding for disaster management and repairing drainage systems in coastal areas. It can be concluded that a large amount of government involvement makes the dissemination of the coastal flooding early warning system very critical for improving the level of public acceptance based on existing capacities.

Descriptive Analysis of Research Variables
This section describes the dynamics and distribution of the respondents' answers to the questions determining the variables of knowledge, perceptions, and attitudes. Recapitulation was performed to determine the average score of each variable, which was then compared, observed, and analyzed based on the sub-district. Referring to the minimum and maximum values described in Section 2.2, the existing median value for the knowledge variable was 2, and the value for the perception and attitude variables was 3. Table 5 shows that Warakas village had the lowest knowledge, with an average score value of 2.30. The highest average score value was in Koja Utara village (3.00). This indicated that the average community on the coast of North Jakarta had little knowledge about coastal flooding and the early warning of coastal floods in the community area. Table 5. Average score results on knowledge, perception, and attitude evaluation of coastal flooding early warning system in North Jakarta villages. Based on the context of public perception about the coastal flooding early warning information system, Kali Baru village had the lowest average score (2.44) compared to other urban villages, while the highest average score was in Warakas village (3.59). In addition, according to the average score for each village, the coastal communities of North Jakarta had a common perception that a coastal flooding early warning system would be suitable as a solution to manage coastal flooding.

Number of Samples
The questionnaire results showed that there were various responses regarding the respondents' perception of a coastal flooding early warning system that was already implemented in the community (i.e., local wisdom); 44.75% of respondents stated that they agreed or strongly agreed that the traditional early warning system was sufficient for the flood evacuation process. Nevertheless, the remaining 55.25% of respondents thought that it would be necessary to add another early warning system besides the traditional system of local wisdom.
The recapitulation results showed that 62.5% respondents thought that there was no local wisdom related to a flood early warning system. In contrast, 20.25% of the respondents stated that there was local wisdom in responding to early warning systems, such as traditional equipment like kentongan (a drum made from bamboo or wood that is struck to sound an alarm) or announcements from places of worship (such as a mosque). The remaining 17.25% of respondents suggested that there was already a flood warning system where they live in the form of technology conveying information via the internet. The local wisdom that exists in the community related to flood disasters and flood predictions includes paying attention to natural signs (28.75% of respondents) and information from neighbors and families and local government officials (27.25% of respondents). The remaining 44% of respondents received news from newspapers, TV, and the internet.
For the community attitude variable, the lowest average score was in Cilincing village (3.75), while the highest score was 4.81 in Koja Utara village. Overall, we concluded that the coastal communities of North Jakarta think that it is quite appropriate to use an early warning system to manage coastal flooding disasters. Table 5 shows the community's level of knowledge, perceptions, and attitudes more clearly based on each village observed in the study. This may be closely related to the community's social strata in Cilincing and Pluit villages, which are not directly located on the coast.

Cross Tabulation
The cross tabulation analysis was conducted to determine the relationship amongst knowledge, perception, and attitude variables. The results of this analysis are presented in Table 6 which shows that these three variables in the research correlates with each other.

Instruments Knowledge Perception Attitude
Knowledge 0 There is correlation There is correlation Perception There is correlation 0 There is correlation Attitude There is correlation There is correlation 0 If seen in more detail as in Table 7, it can be seen how the relationship between the characteristics of the respondents to the variables of knowledge, perception, and attitude. Table 7. Relationship between respondents' characteristics to variables of knowledge, perception, and attitude using cross tabulation analysis.

Respondents' Characteristics Knowledge Perception Attitude
Age 0 0 There is correlation Gender 0 0 0 Education There is correlation There is correlation There is correlation Occupation There is correlation There is correlation 0 Residence Status There is correlation 0 There is correlation Status of RT/RW Management There is correlation 0 There is correlation Average Income There is correlation There is correlation 0 From Table 7, the characteristics that have a relationship with these three variables are education and average income. Meanwhile, occupation, residence status, and RT/RW management status are related to the two variables observed. Furthermore, age is only related to one variable. In addition, it shows that gender does not have any impact in responding to answers regarding the variables observed.
The highest correlation coefficient between the community variables' knowledge and attitude based on Table 8 was found in Kali Baru Village (0.687). This implied that the Kali Baru community tends to have a strong relationship between their knowledge and the community's attitude regarding the development of an early warning system of coastal flooding. The highest correlation coefficient between perceptions and community attitudes variables was in Warakas village by 0.622, which showed that Warakas community tends to have a strong relationship between the community's perceptions and the community attitudes regarding the development of a coastal flooding early warning system. As seen in Table 8, several relationship anomalies occur in several urban villages that result in negative correlations. Ancol village has a high negative correlation (−0.63) for the relationship between the knowledge and the attitude variables. Meanwhile, Cilincing and Ancol villages (−0.122 and −0.051) show a low negative correlation between the perception and the attitude variables. The negative correlation related to the relationship between the knowledge and the attitude variables indicates that the higher the knowledge of Ancol community, the smaller the community's perception of the coastal flooding early warning model, and this shows a contradiction to a study conducted by Jing Huang [37] stating that there is a positive correlation between knowledge and attitudes related to behavior of flood protection handling. This contradiction can be traced by looking at the characteristics of the respondents and the community capacities in the Ancol Village in further research.

Path Analysis
The results of path analysis calculation as seen in Table 9, show that the knowledge variable has a direct effect on the attitude variable by 7.3%. Furthermore, Figure 7 indicates that t test is 6.18, as shown from the test results of knowledge influence on the community's attitudes. The value of t test (6.18) is higher than the value of t table (1.96). This means that public knowledge of the coastal flooding early warning model has a significant effect on the attitudes of the community towards the coastal flooding early warning model. Table 9. Correlation and influence amongst variables using path analysis.

Effect
Correlation Influence Value of Influence % Direct Effect (DE)  The path coefficient between knowledge and community's attitudes is 0.37, as shown in Figure 8, which is positive. This means that the higher the community's knowledge about the coastal flooding early warning model, the community's attitude in responding to the coastal flooding early warning model that is formed will increase. The path coefficient between knowledge and community's attitudes is 0.37, as shown in Figure 8, which is positive. This means that the higher the community's knowledge about the coastal flooding early warning model, the community's attitude in responding to the coastal flooding early warning model that is formed will increase. Table 10 strengthens the previous correlation analysis results that Kali Baru Village has the highest knowledge relationship on community attitudes regarding the coastal flooding early warning model compared to other villages. This is indicated by many respondents, the majority of whom have a senior high-level education compared to other villages. This analysis is reinforced by a previous study [38], which states that individuals with higher education are less likely to be affected by flooding than individuals with low education. These results are also consistent with other studies [39], which showed that respondents who were knowledgeable about floods felt higher adaptive capacity and were more likely to take adaptive measures. The path coefficient between knowledge and community's attitudes is 0.37, as shown in Figure 8, which is positive. This means that the higher the community's knowledge about the coastal flooding early warning model, the community's attitude in responding to the coastal flooding early warning model that is formed will increase.  Table 10 strengthens the previous correlation analysis results that Kali Baru Village has the highest knowledge relationship on community attitudes regarding the coastal flooding early warning model compared to other villages. This is indicated by many respondents, the majority of whom have a senior high-level education compared to other villages. This analysis is reinforced by a previous study [38], which states that individuals with higher education are less likely to be affected by flooding than individuals with low education. These results are also consistent with other studies [39], which showed that respondents who were knowledgeable about floods felt higher adaptive capacity and were more likely to take adaptive measures.   Table 10 shows the remarkably diverse variations in education levels in coastal communities, it can be used as a reference for determining the method of dissemination that must be carried out so that the level of public acceptance of the coastal flooding early warning model becomes better. Methods of delivery that can be carried out to embrace all society elements without paying attention to education level include the dissemination of information through social media, printable media, or through the official website of related agencies/institutions. Table 9 also shows that the perception variable has a direct influence on the attitude variable by 16.0%. The test results on the effect of perception on the community's attitudes obtained a t test as much as 9.12, as seen in Figure 7. Accordingly, the value of t test (9.12) is higher than the value of t table (1.96). This indicates that the community's perception on the coastal flooding early warning model has a significant effect on their attitudes towards the coastal flooding early warning model.
The path coefficient between perceptions and the community's attitudes is 0.51 positive, as shown in Figure 8. This means that the higher the public perception of the coastal flooding early warning model, the community's attitude in responding to the coastal flooding early warning model that is formed will increase. Table 11 shows that respondents in Warakas and Kali Baru Villages have a high proportion of respondents with a duration of stay of more than 20 years, higher than 50% compared to other villages. This strengthens the results of the correlation analysis, which states that people's perceptions in Warakas Village on their attitudes regarding the coastal flooding early warning model have the highest relationship compared to other villages. People who have lived in an area for a long time make the perception formed in the community better in coastal flooding disasters because they are more familiar with the condition of the area. It affects the increase of the level of public acceptance. The results of this analysis are in accordance with other researchers [40], which shows that cultural and historical relationships with place are a significant driver of their desire to stay on riverbanks affected by flooding. Lastly, knowledge and perception variables simultaneously influence the attitude variable by 23.3%. Therefore, such a simultaneously great influence of knowledge and perception variables on the attitude variable indicates that the community's attitude in responding to the coastal flooding early warning model can be explained by knowledge and perception variables simultaneously by 23.3%. Besides, the remaining 76.7% is explained by other variables not investigated in the research.

Conclusions
In this study, we concluded that the level of public acceptance toward the development of an early warning system is excellent as proven by the high average score of the respondents' attitude, i.e., agreeing with the establishment of an early warning system to manage coastal flooding (4.15). When the correlation between knowledge and perceptions toward community attitudes was analyzed using path analysis, the results showed a relationship with low effect. For further research, it is necessary to consider other variables that may significantly influence the determination of community attitudes in responding to coastal flooding early warning systems. This study could be used to improve the development of the coastal flooding early warning system by considering the level of public acceptance. Since knowledge and perspective connect to community attitudes and describe the public acceptance, therefore conducting socialization about coastal flooding and its system at the RT/RW level is needed before the implementation. It is hoped that the socialization could increase community attitudes toward accepting information about the system. Furthermore, our findings could be used as a mitigation reference for the local government to determine policies on the development of an early warning system. Funding: This research received no specific grant from any funding agency in the public, commercial, or non-for-profit sectors.
Informed Consent Statement: Informed consent was obtained from all subjects involved in the study.

Data Availability Statement:
The data presented in this study are available on request from the corresponding author. The data are not publicly available due to containing information that could compromise research participant privacy/consent. Rp. 500,000-Rp. 1,000,000 Rp. 100,000-Rp. 500,000 More than Rp. 1,000,000 B32. How much money did you save in a month?

C. Respondent's Knowledge
Please choose one answer that best represents the condition of your knowledge, by marking the checklist and completing the entries in the boxes provided.

Number
Questions Response

D. Respondent's Perception
Please choose one answer that best represents your perception, by marking the checklist in the box provided. Does the coastal flooding early warning system affect the preparedness actions that you will take? 4 In your opinion, will the existence of a coastal flooding early warning information system help you to overcome the enormous losses from coastal flooding? 5 Does the coastal flooding early warning system make you play an active role in coordinating the evacuation process?

E. Respondent's Attitude
Please choose one answer that best represents your attitude, by marking a checklist in the box provided. Do you agree that the government must act to evacuate residents as soon as the coastal flooding early warning information system has been issued?
6 Do you agree if you are asked to be involved in activities to inform coastal flooding early warnings?