Using Analytic Hierarchy Process to Examine the Success Factors of Autonomous Landscape Development in Rural Communities

The absence of comprehensive plans has resulted in disordered rural development and construction and a mix of new and old buildings in rural communities. Disorganized and blighted spaces have become rural landscape obstacles. After the Rural Rejuvenation Act was passed, rural construction has been guided with plans, and the government expects to enhance surroundings and expand policies through autonomous community development to create a good rural landscape. Through a literature review, this study aims to establish key success factors in autonomous landscape development of rural communities, covering 8 criteria and 28 sub-criteria. A questionnaire survey was conducted among national rural communities, experts, and scholars. The analytic hierarchy process reveals that manpower input has the highest importance, thereby indicating that the improvement of autonomous community development would double with the guidance of community cadres and the participation of artists and experts.


Introduction
Rural communities are places for agricultural production and village life.However, with changes in socioeconomic structure, rural functions are unable to meet the requirements of modern development [1].Rural emigration has resulted in a large age gap and an urban-rural gap, which has worsened the modern living environment, landscape ecology, and appearance of rural communities.Community residents discarded junk or waste in outdoor spaces and ignored the management of public spheres, thereby resulting in a poor visual landscape in communities [2,3].Blighted buildings and discarded refuse were rampant and caused communities to look dilapidated, and community residents have become immune to such waste.The broken windows theory was presented to explain the rise of waste and idle space in communities [4,5].
The problem of blighted space in rural communities has worsened in Taiwan, prompting rural communities to search for solutions.Since the promulgation of the Rural Rejuvenation Act on 4 August 2000, the relevant sub-regulations, and the rural rejuvenation fund, 4000 rural communities in Taiwan have been targeted for revitalization.The Act stresses the promotion of rural communities with the characteristic of an agricultural living environment.On the basis of the Rural Rejuvenation Act, regulations on landscape public space improvement, community ecological preservation and maintenance, historical survey and preservation, and industrial revitalization are organized into executable items for rural communities.Guidelines and promotion strategies are presented for the improvement and construction of rural communities under rural rejuvenation in areas of jurisdiction.
The idea of rural construction and the principle of autonomous promotion of aesthetics are introduced to improve agricultural production and sales, enhance rural residents' quality of life, and reduce rural ecological and environmental problems and the urban rural gap.For this reason, the autonomous development experiences and methods of model communities are studied to discuss the key success factors and assist communities in improving their environment.The growth of community residents in the autonomous development process is another motivation for this study.
Autonomous development aims to help communities work together and participate through self-organization, design, and communication.Although the entire process is implemented by community residents, subsidies and counsel are available from municipalities or county (city) authorities for local organizations and community development associations in Taiwan.Relevant promotion policies in the USA, Germany, and Japan are analyzed, as shown in Table 1.
16 years, up until the advent of the Rural Regeneration Plan in 2010.In these periods, the government invested much manpower and material resources as well as a considerable amount of financial resources.
By collecting and analyzing research [6][7][8][9] on the autonomous development of rural communities and rural aesthetics [10][11][12][13][14][15], this study intends to explore the benefits of autonomous development for space improvement in rural communities.Gladkova and Romero-Trillo [16] discovered that beauty was composed of evaluation, emotion, and perception.Liu [17] pointed out that style beauty, artistic beauty, and implication beauty are the compositions of excellent landscape works, as they presented the aesthetic structure of the surface, middle, and deep layers.Rural landscape versus urban landscape-including landscape change and the urbanization process-was studied by Antrop [18,19].Hsu and Sun [20] described the differences between rural and urban landscapes.Rural areas contain rich natural resources, such as mountains, water, farms, and plantations, whose natural colors were different from those in the urban environment.Humans were drawn to and could easily accept natural colors.Relevant research [21][22][23][24][25][26] covers various factors in the rural landscape.Thus, eight dimensions-namely, rural families, farmers, rural industries, green villages, hydropower resources, leisure and recreation, rural art, and rural history-are regarded as the compositions of rural landscape in this study.
Unlike traditional space constructed by offices and construction companies, autonomous development refers to the space change and construction process to stimulate local public and private sectors to develop a new partnership.Communities re-establish community workers through employment and cooperate with experts and residents to maintain the interaction with the living environment.Instead of randomly applying standard materials, construction materials that are suitable for local aesthetics are purchased [27].Wang and Zhai [28] regarded employment and purchase as the practice of participatory design to pass down traditional work skills and implement local aesthetics by the residents who understand and participate in the construction of community space.
Since 2009, the Taiwan Soil and Water Conservation Bureau has registered local organizations or groups in rural communities who have undergone counseling and participated in manpower training to propose plans for employment and purchase.The work covers environmental improvement and green landscaping, repurposing of space, and recovery of rural characteristic buildings.The budget is subsidized, and communities have to raise at least 10% matching grants.Employment and purchase are still new in Taiwan, and thus, many difficulties in the execution process still exist.
Employment and purchase assist communities in reusing the space to create community characteristics in finding local talents with professional skills to create more employment opportunities, and in adhering to community consensus through discussion.Rural areas in Taiwan could develop independently through a series of steps to achieve autonomous development [29,30].Employment and purchase is divided into pre-stage, planning and design, construction, acceptance verification, maintenance and management, and extension.
The real meaning of community development is gradually revealed when community organization and development associations achieve community status and define self-value through the autonomous development process.The core of a community is similar to that of a miniature society.A complete society is supported by a powerful structure, and a community is the same.This study focuses on the factors in communities that are beautifying blighted and idle space through autonomous development to promote the local environment.The following four research objectives are discussed in this study:

•
With the use of the analytic hierarchy process (AHP), key success factors in improvement are identified for communities to develop positive meanings in future promotion.

•
Through a questionnaire survey among community cadres and residents of good communities, the weights of key success factors in the construction of blighted space are acquired.

•
The understanding and opinions of experts and scholars and participants with regard to key success factors are compared, and the weight difference and the factors are compared for communities that seek to improve blighted spaces in the future.

•
The analysis of key success factors could serve as a reference for communities that aim to achieve autonomous development and practice community development.
Blighted space is a common dilemma in rural areas in Taiwan and influences the living environment and farmers' health.With the guidance of the Rural Rejuvenation Act, the government, by turning obstacles into benefits, subsidizes the autonomous action of communities to correspond to the philosophy of deduction, which could enhance the entire landscape, prioritize the elimination of cluttered places, avoid excessive hardware design, and focus on environmental improvement and green landscaping [28,[31][32][33][34][35].Moreover, living settlements could provide the most benefit to residents through enhanced quality of life with the improvement of the environment.
The development of rural communities is closely related to agricultural development, and the use of agricultural resources that serve as effective participation mechanisms for rural community development needs to be established to facilitate cohesion among community residents.On the basis of the geographical conditions of local communities, community leaders could actively execute development plans to inspire local residents' interest in farming and develop local characteristics of the community.Feasible resource raising and application could be taken into account, and local civil organizations, enterprises, and schools could join the development.
The dimensions, categories, and weights of success factors in autonomous landscape development in rural communities are established after confirming the research objective, collecting relevant literature, and interviewing experts.The importance of dimensions and success factors in autonomous landscape development in rural communities is further studied for analysis.The management significance of the results and conclusions is proposed.

Research Methodology
AHP is used for communities that practice autonomous development (Figure 1) [36][37][38][39].AHP, which is a decision-making method with multiple goals or standards, aims to divide complicated and unstructured problems into several groups and organize them into hierarchies.Then, the opinions of experts and scholars and various hierarchies that actually participate in decision-making to simplify complex systems are organized into a simple hierarchic system.The nominal scale is regarded as the pairwise comparison of the elements in different hierarchies.After establishing the pairwise comparison matrix, the eigenvector of the matrix is calculated, and the priority vector of the hierarchy is decided according to the eigenvector to represent the priority of elements.The eigenvalue is then calculated to evaluate the consistency of the pairwise comparison matrix as the decision evaluation indicator.AHP consists of six processes: identification of the evaluation factors, construction of hierarchical structure, establishment of the dual matrix, solving the eigenvalue and eigenvector, consistency test of the dual matrix, and solving the dominant proportion of factors, which are explained below.

Problem Definition
The system with problems should be expanded, and the possible factors should be included in the problems.A planning group is established to define the scope of the problems.

Establishment of the Hierarchical Structure
The members in the planning group would brainstorm to determine the evaluation, sub-evaluation, and bottom criteria that affect problem behaviors to form a hierarchical structure.According to Saaty [40], assuming that n factors exist in a complicated problem, total C n 2 = n(n − 1)/2 pairwise comparison is required.

Questionnaire Design and Survey
The nominal scale is used for the comparison in AHP.The nominal scale is divided into nine hierarchies from "equal importance" to "absolute importance", which are weighted from 1 to 9. The elements in each hierarchy are subjected to pairwise comparison and sequenced according to importance in AHP to understand the evaluators' subjective opinions.The elements in the previous hierarchy are used as the evaluation criteria for the pairwise comparison.According to the principle and meaning of the evaluation scale in AHP, problems in each pairwise comparison are included in a questionnaire for decision makers or decision-making groups.The problems in each pairwise comparison should be clearly described with detailed guidance and explanation.A pairwise comparison matrix is established according to the questionnaire survey result, and the eigenvalue and eigenvector are further calculated with analysis tools.Meanwhile, the matrix consistency is tested.When the matrix consistency does not correspond to the request, the judgment of the decision makers is inconsistent.The researcher has to clearly explain the questions to the decision makers.The scale used for the pairwise comparison is listed in Table 2.
Sustainability 2017, 9, 729 5 of 17 comparison matrix is established according to the questionnaire survey result, and the eigenvalue and eigenvector are further calculated with analysis tools.Meanwhile, the matrix consistency is tested.When the matrix consistency does not correspond to the request, the judgment of the decision makers is inconsistent.The researcher has to clearly explain the questions to the decision makers.The scale used for the pairwise comparison is listed in Table 2.When a compromise value between 3 and 5 is required.

Essential importance
Judging from experience, it tends somewhat to the first evaluation condition.(strongly)

Establishment of Pairwise Comparison Matrix
On the basis of the elements in the previous hierarchy as the evaluation standard of the element in a hierarchy, pairwise comparison among elements is performed to determine the relative importance between two elements.With the nominal scale, the relative importance ratio is set with the values of 1/9, 1/8, . . ., 1/2, 1, 2, 3, . . ., 8, 9.The pairwise comparison result is placed in the upper triangle of the pairwise matrix.The main diagonal is the comparison of the elements, with a value of 1.The lower triangle is the reciprocal of the upper triangle and is the pairwise comparison matrix A, as shown below.
where a ij stands for the cross comparison of decision factors i and j, as the importance of decision factors i and j for decision makers.The weights of elements in different hierarchies are then calculated after acquiring the pairwise comparison matrix.The common eigenvalue solution in numerical analysis is used to determine the eigenvector or dominant vector and the maximum eigenvalue of the pairwise comparison matrix.As a pairwise comparison matrix is a positive reciprocal matrix and not a symmetric matrix, the power and the householder methods are used for the eigenvalue solution.The eigenvector in this study is directly calculated with AHP.The maximum eigenvalue and eigenvector are calculated with the following equation: The pairwise comparison matrix A is first multiplied by the calculated eigenvector W i to acquire a new vector W i ', and then the average multiple of the two is the maximum eigenvalue λ max , which is shown as follows:

Consistency Test
In AHP, consistency index (C.I.) and consistency ratio (C.R.) are applied to measure the consistency of the pairwise comparison matrix.Numerous hierarchies and elements are judged.Therefore, achieving pairwise comparison consistency is difficult for the respondents.The pairwise comparison matrix value is therefore subjected to the consistency test to test the consistency of the pairwise comparison matrix constructed by the questionnaire respondents.In addition to the consistency test of hierarchies, the consistency of the entire hierarchical structure is tested.Saaty suggested the use of C.I. and C.R. to test the consistency of the pairwise comparison matrix, and the C.R. in various hierarchies or the entire hierarchical structure should be <0.1 to prove the consistency and rationality of the respondents' judgment.
Saaty proposed four approximate approaches of line vector mean standardization, row vector mean standardization, line vector and reciprocal standardization, and row vector geometric mean standardization to calculate the eigenvalue and eigenvector of the comparison matrix.The C.I. is calculated as follows: where λ max is the maximum eigenvalue and n is the number of evaluation criteria.
The consistency test could be used to judge evaluators and the entire hierarchical structure.To ensure consistency, Saaty [41] suggested the best C.I. < 0.1 and the maximum acceptable error C.I. < 0.2.When C.R. < 0.1, the pairwise comparison matrix consistency was satisfactory; otherwise, the pairwise comparison matrix consistency did not achieve the acceptable reliability.The evaluation value in the pairwise comparison matrix should be rationally modified and adjusted to reduce the risk of respondents' subjective misjudgment.

Option
The overall hierarchical weight is calculated after calculating the element weights in various hierarchies.When the hierarchical structure is consistent, the dominant vector of criteria could be calculated.When only a decision maker is considered, the comprehensive criterion evaluation is calculated.When a decision-making group is considered, the comprehensive criterion evaluation of each decision-making member is calculated separately.Geometric mean is then utilized to calculate the weighted evaluation to decide the relative importance and priority of the criteria.

Questionnaire Design
This study aims to discuss key success factors in the autonomous development of rural communities through AHP.With regard to the establishment of the AHP structure, domestic research on key success factors in autonomous community development is used as reference, and the structure for this study is shown in Figure 2. Saaty proposed four approximate approaches of line vector mean standardization, row vector mean standardization, line vector and reciprocal standardization, and row vector geometric mean standardization to calculate the eigenvalue and eigenvector of the comparison matrix.The C.I. is calculated as follows: where λ max is the maximum eigenvalue and n is the number of evaluation criteria.
The consistency test could be used to judge evaluators and the entire hierarchical structure.To ensure consistency, Saaty [41] suggested the best C.I. < 0.1 and the maximum acceptable error C.I. < 0.2.When C.R. < 0.1, the pairwise comparison matrix consistency was satisfactory; otherwise, the pairwise comparison matrix consistency did not achieve the acceptable reliability.The evaluation value in the pairwise comparison matrix should be rationally modified and adjusted to reduce the risk of respondents' subjective misjudgment.

Option
The overall hierarchical weight is calculated after calculating the element weights in various hierarchies.When the hierarchical structure is consistent, the dominant vector of criteria could be calculated.When only a decision maker is considered, the comprehensive criterion evaluation is calculated.When a decision-making group is considered, the comprehensive criterion evaluation of each decision-making member is calculated separately.Geometric mean is then utilized to calculate the weighted evaluation to decide the relative importance and priority of the criteria.

Questionnaire Design
This study aims to discuss key success factors in the autonomous development of rural communities through AHP.With regard to the establishment of the AHP structure, domestic research on key success factors in autonomous community development is used as reference, and the structure for this study is shown in Figure 2.  Factors in the first hierarchy are the so-called "success factors", which are defined as "factors in autonomous community development" on the basis of which the second and the third hierarchies are developed.After organizing the relevant research, the second hierarchy of AHP is preliminarily divided into geographic location, function and benefits, feature integration, culture and art, manpower input, technical expertise, creative development, and administration and maintenance.According to the above factors, the various research variables of the second hierarchy are further developed into 28 success factors of the hierarchy as follows: (1) Geographic location i.
Comprehensive planning: Locations for autonomous development improvement are considered in the rural rejuvenation plan.ii.
Development priority: Locations are the priority for community development improvement in this study.iii.
Scenic spot concatenation: Locations for autonomous development improvement could be linked with scenic spot concatenation around communities.iv.
Located in settlement: Autonomous development improvement is within the core settlement in communities.
(2) Function and benefits i.
Interior consensus: Thorough discussions are conducted internally prior to implementing autonomous development.ii.
Landscaping: The green landscaping is satisfactory after improving the original location.iii.
Functioning: The originally estimated function is developed after the autonomous development improvement.iv.
Surrounding residents and visitors could use the space after the autonomous development improvement.
( Maintenance reliability: Communities present the work of reliable maintenance and management.

Test Method
To improve blighted space in national rural communities identified by the Soil and Water Conservation Bureau (SWCB), the Council of Agriculture in 2012-2014, a total of 52 awarded communities and relevant teams, tutors, committees, and case officers were selected for this study.The 10 experts were chosen from the tutors, committees, and officers of SWCB.Random sampling was used to select 10 communities from the above 52 awarded communities, and three samples were selected among community leaders and residents in these 10 communities.A total of 30 questionnaires were collected, and 30 questionnaires were collected for the community data analysis.

Results and Discussion
AHP is used to study the key success factors in autonomous landscape development of rural communities in Taiwan.The weight and priority are calculated and sequenced, and the mechanism is established to evaluate the autonomous community development criteria and elements.The priority of key success factors in autonomous development of rural communities could provide a reference for communities practicing autonomous development as well as employment and purchase in the future.

Expert Data Analysis
C.I. and C.R. are used to test the pairwise comparison matrix consistency of experts' questionnaire survey results (Table 3).When C.I. < 0.1, the consistency of the questionnaire respondents' evaluation is acceptable; otherwise, the result is inconsistent.When C.R. < 0.1, the pairwise comparison matrix consistency is satisfactory; otherwise, the pairwise comparison matrix consistency does not achieve satisfactory and acceptable reliability.With the use of the previous equations to calculate the element weights in different hierarchies and the consistency test, the analyses proceed as follows: first, for the pairwise comparison matrix of the eight criteria of "geographic location", "function and benefits", "feature integration", "culture and art", "manpower input", "technical expertise", "creative invention", and "administration and maintenance" and the target hierarchy "key success factors in autonomous landscape development of rural communities", the weights are analyzed (Table 4).The element weights of criteria are multiplied by the relative weight of the corresponding elements of the sub-criteria to calculate the total weight of such elements to the target hierarchy "key success factors in autonomous landscape development of rural communities".The sequence of elements of sub-criteria in the overall evaluation is shown.
Experts regard the weights of success factors in rural communities with autonomous landscape development and find that "performance focus", "leading cadre", and "subdivision management" belong to "feature integration", "manpower input", and "administration and maintenance".Such a result shows that experts regard "manpower input", "feature integration", and "administration and maintenance" as the key success factors in communities with autonomous development."Manpower input" is consistent with Liang's study [23], "administration and maintenance" conforms to the research results of Wu and Chen [24], and "feature integration" agrees with Xu's research results [25].

Community Resident Data Analysis
Table 6 shows the test of the rural community questionnaire result.The C.R. of 30 community residents is <0.1, thereby indicating satisfactory pairwise comparison matrix consistency and acceptable reliability, and thus is an effective questionnaire.The consistency test result of rural community residents is shown in Table 7.The consistency test of the pairwise comparison matrix between the criteria of "geographic location", "function and benefits", "feature integration", "culture and art", "manpower input", "technical expertise", "creative invention", and "administration and maintenance" and the target hierarchy of "key success factors in autonomous development of rural landscape" obtains C.I. = 0.0011 and C.R. = 0.0015, which are both less than 0.1.Similarly, the element weight and consistency test in various hierarchies are calculated with previous equations.The analyses are explained as follows: for the pairwise comparison matrix between the criteria elements of "geographic location", "function and benefits", "feature integration", "culture and art", "manpower input", "technical expertise", "creative invention", and "administration and maintenance" and the target hierarchy of "key success factors in autonomous development of rural landscape" of community residents, the weights are analyzed (Table 8).The element weights in the criteria are multiplied by the relative weights of the corresponding elements in the sub-criteria to calculate the total weight of the factors in the target hierarchy of "key success factors in autonomous landscape development of rural communities".The sequence of the sub-criteria elements in the overall evaluation is further presented.Given the weights of success factors in rural communities with autonomous landscape development, rural community residents consider that "performance focus", "public use", and "art expert" belong to "feature integration", "function and benefits", and "manpower input".This result reveals that community residents consider "manpower input", "feature integration", and "function and benefits" as the key success factors in communities with autonomous development."Manpower input" is consistent with Liang's research [23], "feature integration" agrees with Xu's results [25], and "function and benefits" conforms to research results [24,26].
According to the overall weight and order in Table 8, the top three success factors in autonomous landscape development in rural communities are "manpower input" (0.2190), "function and benefits" (0.2096), and "feature integration" (0.1629).AHP indicates that experts, community cadres, and residents in this study regard manpower input as the critical success factors in autonomous landscape development in rural communities.The results reveal that rural communities have to follow the instruction of leading cadres in communities, call for volunteers, include community workers, and involve community art experts in rural autonomous development to achieve the maximum effect.
According to the weights in the second hierarchy, the experts consider "performance focus" (0.0813) as the most important criterion, followed by "leading cadre" (0.0662) and "subdivision management" (0.0658).However, "comprehensive planning" (0.0070) is lower, thereby revealing that the selection of autonomous development locations is not significantly correlated with rural rejuvenation comprehensive planning.The community residents also regard "performance focus" (0.0908) as the most important factor, followed by "public use" (0.0781) and "art expert" (0.0755), thereby showing that experts and community residents agree that the content of autonomous development should conform to the local rural development focus.
Numerous key success factors are needed in the autonomous development of rural communities.A complete key success factor evaluation model is constructed in this study for the reference of communities practicing autonomous development.For example, communities used to emphasize appearance after construction.Among the key success factors in the long-term community interviews, "manpower input" has the highest weight, thereby revealing that a community that invests considerably in human resources, including leading cadres, art experts, community workers, and volunteers, when practicing autonomous development to cohere to community residents' consensus and generate emotion, could enhance the effect of autonomous community development.
For instance, Pinghe Community in Dacun Township, Changhua County, combines construction with local red bricks with art to create a unique appearance.Moreover, using red bricks for construction supports the local brick factory, thereby creating a win-win situation between the local industry and the community itself [23,42].
The rural areas of Taiwan are often weaker than urban ones.There are relatively more pockets with a poorly functioning economy, a dirty environment, unhealthy conditions, and dilapidated buildings seen in rural areas.Through the efforts of governments, community organizations, and professional teachers, rural environment and the quality of the functioning of communities have improved significantly (Figure 3).From 2011 to 2015, there were 558 communities in Taiwan that participated in the project (NT $140 million, equivalent to US $4.67 million), and then an annual expenditure of NT $1.25 billion (equivalent to US $1.67 million) per year will continue to improve rural areas in the future.The project is expected to last for five years, until 2020.

Conclusions
Through a literature review and discussion with experts and scholars, a hierarchical structure with a target hierarchy, 8 criteria, and 28 sub-criteria is established.AHP is applied to calculate and organize the relative weights of factors in various hierarchies.A questionnaire survey among experts, Although laws and regulations, methods of community self-construction, and objectives are different in different regions of the country, the principles of bottom-up participation, self-planning and co-participation, and government subsidy and support will be similar.The methods proposed in this study can be applied in many democratic countries.Using the participation of the residents, democratic methods of interaction, discussion of the needs of their own community, and their own community proposals, community residents can apply for funding from the government to make the ideal of community construction real, which is the most valuable power of the people in a democratic country or even a democratic community.

Conclusions
Through a literature review and discussion with experts and scholars, a hierarchical structure with a target hierarchy, 8 criteria, and 28 sub-criteria is established.AHP is applied to calculate and organize the relative weights of factors in various hierarchies.A questionnaire survey among experts, scholars, and community residents indicates that "manpower input" is considered the most important key success factor in the autonomous landscape development of rural communities.This finding reveals that rural communities should follow the instruction of leading cadres, and enlist the help of volunteers, workers, and art experts for enhanced autonomous development.
Experts and scholars also regard "performance focus" as the most important factor, followed by "leading cadre" and "subdivision management".They agree less with regard to "comprehensive planning", thereby showing that selecting the place in the core settlement of rural rejuvenation for autonomous development is not particularly relevant.Residents also agree with the importance of "performance focus", thereby showing that experts, scholars, and residents consider that autonomous development should correspond to the rural development focus.This factor is followed by "public use" and "art expert".
Moreover, experts, scholars, and residents regard "geographic location" as the least important factor, with weights of 0.0070 and 0.0053.The sub-criteria of "comprehensive planning", "development priority", "scenic spot concatenation", and "located in settlement" also show low importance.Accordingly, whether "geographic location" for autonomous community development is connected with surrounding tourist spots or located in the core settlement of rural rejuvenation is unimportant.Experts and community residents have different viewpoints on key success factors, but their opinions tend to be consistent.

Figure 1 .Table 2 .
Figure 1.Research flowchart.Table 2. Definition and description of analytic hierarchy process (AHP) evaluation scale.Evaluation Scale Definition Description 1 Equal importance The evaluation potential of two comparison conditions presents equal importance.(equal) 2 Evaluation score between 1 and 3 When a compromise value between 1 and 3 is required.3 Weak importance Judging from experiences, it slightly tends to the first evaluation condition.(moderately) 4 Evaluation score between 3 and 5 When a compromise value between 3 and 5 is required.
hierarchies, the consistency of the entire hierarchical structure is tested.Saaty suggested the use of C.I. and C.R. to test the consistency of the pairwise comparison matrix, and the C.R. in various hierarchies or the entire hierarchical structure should be <0.1 to prove the consistency and rationality of the respondents' judgment.

Figure 3 .
Figure 3. Residents themselves participate in rural living environment work in A-Quan Community, Yunlin County: (a) before; (b) after.

Figure 3 .
Figure 3. Residents themselves participate in rural living environment work in A-Quan Community, Yunlin County: (a) before; (b) after.

Figure 4
Figure 4 shows the area for urban planning in Taiwan.Red areas indicate urban areas (around 4750 km 2 ), and the rural areas are outside the red areas (around 31,250 km 2 ), accounting for 86.8% of the total area of Taiwan.There are 4232 rural communities, and 2511 communities are involved in the Rural Regeneration Plan (59.3%) as of 26 April 2017; 578 rural communities (13.7%) have completed their self-created training and proposed their future vision programs.

Figure 3 .
Figure 3. Residents themselves participate in rural living environment work in A-Quan Community, Yunlin County: (a) before; (b) after.

Figure 4 .
Figure 4. Urban planning areas in Taiwan: the dots represent the 52 communities of this study (source: Construction and Planning Agency, Ministry of the Interior, Taiwan).

Figure 4 .
Figure 4. Urban planning areas in Taiwan: the dots represent the 52 communities of this study (source: Construction and Planning Agency, Ministry of the Interior, Taiwan).

Table 3 .
Expert questionnaire survey result.

Table 4
shows the results from the experts' questionnaire survey.The C.R. of 10 experts and scholars is <0.1, thereby indicating satisfactory pairwise comparison matrix consistency and acceptable reliability, thus indicating an effective

Table 4 .
Expert questionnaire passing hierarchical consistency test value.

Table 5 .
Relative weight of criteria.

Table 6 .
Community questionnaire survey results.

Table 7 .
Community resident questionnaire passing hierarchical consistency test value.

Table 8 .
Relative weight and sequence of hierarchical factors.