Analysis of Environmental Activities for Developing Public Health Investments and Policies: A Comparative Study with Structure Equation and Interval Type 2 Fuzzy Hybrid Models

The design of elements which exert pivotal effects on leisurely physical activity (LPA) in open space is an important part of urban development. However, little research has been done about the influence and discrepancies of those elements in different types of open space. To research these issues and to guide the design of urban open space, a survey from 8 open spaces (2 curtilage, 2 neighborhood squares (NS), 2 parks, and 2 campus) is conducted and a questionnaire is administered. Simultaneous analysis of several groups (SASG) of Structure equation model (SEM) is used, and the effects and discrepancies are acquired. In addition to this situation, interval type 2 (IT2) fuzzy hybrid decision making model is proposed in the second analysis. In this framework, IT2 fuzzy decision-making trial, evaluation laboratory (DEMATEL), and IT2 fuzzy technique for order preference by similarity to ideal solution (TOPSIS) methods are used. The results show that the influence relationships between elements and LPA did exist in four groups. Another important conclusion is that there were discrepancies of influence among different space groups. Physical environment (PE) has the greatest influence on LPA in the curtilage, whereas facilities exert the most effect in NS group. Additionally, amenities only have significant impact in parks and facilities only exercise remarkable influence on duration on campus. In addition to them, it is also identified that key design elements are presented for different types of space and that design strategy is provided through 4 specific examples.

[1]  Julio Frenk,et al.  Financing Common Goods: The Mexican System for Social Protection in Health Agenda , 2019, Health systems and reform.

[2]  Mohammad Reza Akbari Jokar,et al.  Sustainable supplier selection: A multi-criteria intuitionistic fuzzy TOPSIS method , 2019, Journal of Manufacturing Systems.

[3]  Anushua Sinha,et al.  Strengthening Cost-Effectiveness Analysis for Public Health Policy. , 2016, American journal of preventive medicine.

[4]  Jamie Bartram,et al.  Environmental conditions in health care facilities in low- and middle-income countries: Coverage and inequalities. , 2018, International journal of hygiene and environmental health.

[5]  Lisa M Barnett,et al.  Global participation in sport and leisure-time physical activities: A systematic review and meta-analysis. , 2017, Preventive medicine.

[6]  S. Salway,et al.  The potential value of priority-setting methods in public health investment decisions: qualitative findings from three English local authorities , 2016 .

[7]  Fabio Cibella,et al.  Environmental Conditions, Air Pollutants, and Airways , 2019, Exercise and Sports Pulmonology.

[8]  Kota Ogasawara,et al.  Public health improvements and mortality in interwar Tokyo: a Bayesian disease mapping approach , 2018 .

[9]  Jonas Helgertz,et al.  Public water and sewerage investments and the urban mortality decline in Sweden 1875–1930 , 2019, The History of the Family.

[10]  Yong Deng,et al.  Combining conflicting evidence using the DEMATEL method , 2018, Soft Comput..

[11]  Jaymie A Henry,et al.  The Transforming Power of High-Quality Surgical Care: Surgery’s Role in Improving Public Health , 2017 .

[12]  Bing Han,et al.  Multi-criteria project selection using fuzzy preference relations based AHP and TOPSIS , 2019, 2019 Chinese Control And Decision Conference (CCDC).

[13]  Bente Heggem Kojan,et al.  Combining Public Health Approaches with Increased Focus on Risk and Safety: A Norwegian Experience , 2019, Child Maltreatment.

[14]  Chu-Ren Huang,et al.  Emotion Cause Detection with Linguistic Constructions , 2010, COLING.

[15]  Xu Wang,et al.  Sustainable recycling partner selection using fuzzy DEMATEL-AEW-FVIKOR: A case study in small-and-medium enterprises (SMEs) , 2018, Journal of Cleaner Production.

[16]  Y. Hao,et al.  The dynamic relationship between environmental pollution, economic development and public health: Evidence from China , 2017 .

[17]  Silvia Caro,et al.  Evaluation of the environmental and human health impact of road construction activities , 2018 .

[18]  Roberto Codella,et al.  Outdoor physical activity bears multiple benefits to health and society. , 2019, The Journal of sports medicine and physical fitness.

[19]  Alan T. Murray,et al.  Regional Perspectives on Public Health , 2017 .

[20]  Marsha Dowda,et al.  Physical and Social Contexts of Physical Activity Behaviors of Fifth and Seventh Grade Youth. , 2018, The Journal of school health.

[21]  S. Vishwasrao,et al.  Effectiveness of public health spending on infant mortality in Florida, 2001-2014. , 2018, Social science & medicine.

[22]  Mamta Pandey,et al.  Identifying Causal Relationships in Mobile App Issues: An Interval Type-2 Fuzzy DEMATEL Approach , 2019, Wirel. Pers. Commun..

[23]  Gwo-Hshiung Tzeng,et al.  Comments on “Sustainable recycling partner selection using fuzzy DEMATEL-AEW-FVIKOR: A case study in small-and-medium enterprises” , 2019 .

[24]  Carmen H. Duke,et al.  Public health implications of social media use during natural disasters, environmental disasters, and other environmental concerns , 2016, Natural Hazards.

[25]  N W Burton,et al.  Patterns and correlates of physical activity in adolescents in Dhaka city, Bangladesh. , 2017, Public health.

[26]  Wen-Lung Shiau,et al.  Methodological research on partial least squares structural equation modeling (PLS-SEM) , 2019, Internet Res..

[27]  Megha Yadav,et al.  Veracity handling and instance reduction in big data using interval type-2 fuzzy sets , 2020, Eng. Appl. Artif. Intell..

[28]  Jonathan E. Fielding,et al.  Public health and the economy could be served by reallocating medical expenditures to social programs , 2017, SSM - population health.

[29]  John Cairney,et al.  Critical Considerations for Physical Literacy Policy in Public Health, Recreation, Sport, and Education Agencies , 2017 .

[30]  Gang Kou,et al.  Dealing with incomplete information in linguistic group decision making by means of Interval Type‐2 Fuzzy Sets , 2019, Int. J. Intell. Syst..

[31]  H. Hur,et al.  Environmental Escherichia coli: ecology and public health implications—a review , 2017, Journal of applied microbiology.

[32]  Ting-Yu Chen,et al.  The extended QUALIFLEX method for multiple criteria decision analysis based on interval type-2 fuzzy sets and applications to medical decision making , 2013, Eur. J. Oper. Res..

[33]  A. Davis,et al.  Evidence-Based Decision Making When Designing Environments for Physical Activity: The Role of Public Health , 2016, Sports Medicine.

[34]  R. Kobau,et al.  Adults with an epilepsy history fare significantly worse on positive mental and physical health than adults with other common chronic conditions—Estimates from the 2010 National Health Interview Survey and Patient Reported Outcome Measurement System (PROMIS) Global Health Scale , 2017, Epilepsy & Behavior.

[35]  Ismaila Amadu,et al.  The Contribution of Public Health Investments to the Economic Growth of Cameroon , 2017 .

[36]  Erkan Celik,et al.  An Integrated Best-Worst and Interval Type-2 Fuzzy TOPSIS Methodology for Green Supplier Selection , 2018, Mathematics.

[37]  Joseph Keating,et al.  Do Public Health Interventions Crowd Out Private Health Investments? Malaria Control Policies in Eritrea , 2012, SSRN Electronic Journal.

[38]  M. Clarke,et al.  Digital technologies for population health and health equity gains: the perspective of public health associations , 2016, Journal of public health policy.

[39]  Yukitoshi Matsushita,et al.  Public health and multiple‐phase mortality decline: Evidence from industrializing Japan , 2018, Economics and human biology.

[40]  Emma McIntosh,et al.  Economic evaluation of fluoride varnish application of daily supervision versus daily supervision and additional six-monthly intervals in Scotland (Protecting Teeth @ 3): a randomised controlled trial , 2019, The Lancet.

[41]  M. Depledge,et al.  Recreational physical activity in natural environments and implications for health: A population based cross-sectional study in England. , 2016, Preventive medicine.