Design of Theme Water Park: System Science and Engineering
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This report emphasizes on the preliminary and detailed design of the proposed water theme park in manner to assure that the developed project will be assuring the factor of enjoyment and sustainability for the individuals coming at the park for enjoyment. The report also discusses the evaluation, testing, validation and optimization processes of the park from business and non-functionality perspectives.
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Running head: SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
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2SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Table of Contents
Introduction................................................................................................................................3
Preliminary Design.....................................................................................................................4
Detailed Design..........................................................................................................................4
System test, evaluation, validation and optimisation processes.................................................5
Discussion from business perspective........................................................................................5
Non-functionality of the Park.....................................................................................................6
Evaluation..................................................................................................................................7
Conclusion..................................................................................................................................8
References................................................................................................................................10
Table of Contents
Introduction................................................................................................................................3
Preliminary Design.....................................................................................................................4
Detailed Design..........................................................................................................................4
System test, evaluation, validation and optimisation processes.................................................5
Discussion from business perspective........................................................................................5
Non-functionality of the Park.....................................................................................................6
Evaluation..................................................................................................................................7
Conclusion..................................................................................................................................8
References................................................................................................................................10
3SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Introduction
Previous assignment discusses the proposal plan for the water theme park in manner
to analyze the needs and requirements of the users and the park. The water theme park has
been always interesting and relaxing for the individuals and their family. Millions of the
individuals went to the water park for entertainment and enjoyment. It has become one of the
trending sections for the individuals to go there and look for the sources those could
contribute in the enjoyment factor for the individuals. The development of theme park has
been selected as the point of objective for this report. Theme park has been always a great
place for gathering of the individuals and utilizing the various entertainment sources.
Previous paper discussed the needs and the requirements for the development of the water
theme park. This section explained the basic need definition for the proposed project that
includes the safety, resource efficiency, impacts, Compatibility and interoperability, Quality
and durability, maintainability, sustainability, new attractions, zero pollution, minimal waste,
and affordability. These points were helpful in addressing the mapping of the project that was
to develop the water theme project where many individuals can come together and enjoy the
services being offered.
The developed park also considered sustainability as the major for the development
and execution of the project and development of the park that can fulfil the needs and
requirements of the visitors. Previous paper also introduces the conceptual design of the
proposed project in manner to analyse the strategies those could be considered as the prior
objectives for the development and execution of the project development.
This report will be emphasizing on the preliminary and detailed design of the
proposed water theme park in manner to assure that the developed project will be assuring the
factor of enjoyment and sustainability for the individuals coming at the park for enjoyment.
Introduction
Previous assignment discusses the proposal plan for the water theme park in manner
to analyze the needs and requirements of the users and the park. The water theme park has
been always interesting and relaxing for the individuals and their family. Millions of the
individuals went to the water park for entertainment and enjoyment. It has become one of the
trending sections for the individuals to go there and look for the sources those could
contribute in the enjoyment factor for the individuals. The development of theme park has
been selected as the point of objective for this report. Theme park has been always a great
place for gathering of the individuals and utilizing the various entertainment sources.
Previous paper discussed the needs and the requirements for the development of the water
theme park. This section explained the basic need definition for the proposed project that
includes the safety, resource efficiency, impacts, Compatibility and interoperability, Quality
and durability, maintainability, sustainability, new attractions, zero pollution, minimal waste,
and affordability. These points were helpful in addressing the mapping of the project that was
to develop the water theme project where many individuals can come together and enjoy the
services being offered.
The developed park also considered sustainability as the major for the development
and execution of the project and development of the park that can fulfil the needs and
requirements of the visitors. Previous paper also introduces the conceptual design of the
proposed project in manner to analyse the strategies those could be considered as the prior
objectives for the development and execution of the project development.
This report will be emphasizing on the preliminary and detailed design of the
proposed water theme park in manner to assure that the developed project will be assuring the
factor of enjoyment and sustainability for the individuals coming at the park for enjoyment.
4SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Preliminary Design
The preliminary design will be focusing on the planning on how a waste land can be
transformed in a water theme park and the necessary requirements for the management of the
enjoyment and output of the respective innovation. This will allow in the development of the
strategies of how different incorporations would allow the efficient and effective deployment
of the strategies those have been considered for the delivery of the respective innovation. The
preliminary design will include the parks, sheds, swimming pool, rides, washroom, cycle, and
many more those needed to be embedded in manner to assure that the delivery of the project
will meet the necessary requirements and the audiences would be happy with the deliveries
and output. This design will specify the respective areas of concentration and the necessary
places those would be contributing in the entertainment and sustainability management
throughout the parks. The different blocks have been represented considering the different
buildings those could be incorporated within the waste land for the necessary transformation
and allowing large number of consumers to avail the necessary services.
Figure 1: Preliminary design of water theme park
(Source: Created by Author)
Preliminary Design
The preliminary design will be focusing on the planning on how a waste land can be
transformed in a water theme park and the necessary requirements for the management of the
enjoyment and output of the respective innovation. This will allow in the development of the
strategies of how different incorporations would allow the efficient and effective deployment
of the strategies those have been considered for the delivery of the respective innovation. The
preliminary design will include the parks, sheds, swimming pool, rides, washroom, cycle, and
many more those needed to be embedded in manner to assure that the delivery of the project
will meet the necessary requirements and the audiences would be happy with the deliveries
and output. This design will specify the respective areas of concentration and the necessary
places those would be contributing in the entertainment and sustainability management
throughout the parks. The different blocks have been represented considering the different
buildings those could be incorporated within the waste land for the necessary transformation
and allowing large number of consumers to avail the necessary services.
Figure 1: Preliminary design of water theme park
(Source: Created by Author)
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5SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Detailed Design
The following design expresses the necessary detailed design of the water theme park
and innovations have been added through establishing the facilities for entertainment, games,
roaming, and enjoyment. The theme of the of the park is water and hence, the fun will only
be in water however, the individuals coming for the enjoyment will need certain facilities
such as restaurants, washrooms, garden, playing courts, sheds, and many more. The detailed
design explains the necessary fun buildings and the courts those are necessary considering the
fun and the facilities for the individuals. The measurement for the areas have not been
considered in the following diagram however, all the specified areas needed to be considered
while discussing the establishment of the buildings. The different sectors have been provided
for the establishment of the necessary buildings. The availability of so many sectors of
enjoyment will ensure that the consumers will be heavily attracted and number of the
consumers in the same sectors will be assuring that the number of consumers coming to the
waterpark daily is capable enough for making better benefits, however the sustainability will
also be assured. The reutilization of the water will ensure the efficient application of the
water being used in the pools and the drives. There will be the availability of the comforts,
fun, and sustainability management.
Detailed Design
The following design expresses the necessary detailed design of the water theme park
and innovations have been added through establishing the facilities for entertainment, games,
roaming, and enjoyment. The theme of the of the park is water and hence, the fun will only
be in water however, the individuals coming for the enjoyment will need certain facilities
such as restaurants, washrooms, garden, playing courts, sheds, and many more. The detailed
design explains the necessary fun buildings and the courts those are necessary considering the
fun and the facilities for the individuals. The measurement for the areas have not been
considered in the following diagram however, all the specified areas needed to be considered
while discussing the establishment of the buildings. The different sectors have been provided
for the establishment of the necessary buildings. The availability of so many sectors of
enjoyment will ensure that the consumers will be heavily attracted and number of the
consumers in the same sectors will be assuring that the number of consumers coming to the
waterpark daily is capable enough for making better benefits, however the sustainability will
also be assured. The reutilization of the water will ensure the efficient application of the
water being used in the pools and the drives. There will be the availability of the comforts,
fun, and sustainability management.
6SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Figure 2: Detailed design of Water Theme Park
(Source: Created by Author)
System test, evaluation, validation and optimisation processes
The discussed water theme park is aimed to be user-friendly and attracting in nature.
Hence, different factors and aspects have been considered as part of the theme park and no
single test or evaluation can be done to state the effectiveness and efficiency of the theme
park or its components. The water park in discussion has been designed with disruptive tools
and techniques and hence, the evaluation of the system needs to be based accordingly. The
table below has offered an insight into the evaluation, validation, testing and optimisation of
different crucial factors. The evaluated system will assure the fun of the individuals and
sustainability of the environment and how these parks could contribute in the growth and
development of the society. The park would be capable of allowing 500 individuals at a time
Figure 2: Detailed design of Water Theme Park
(Source: Created by Author)
System test, evaluation, validation and optimisation processes
The discussed water theme park is aimed to be user-friendly and attracting in nature.
Hence, different factors and aspects have been considered as part of the theme park and no
single test or evaluation can be done to state the effectiveness and efficiency of the theme
park or its components. The water park in discussion has been designed with disruptive tools
and techniques and hence, the evaluation of the system needs to be based accordingly. The
table below has offered an insight into the evaluation, validation, testing and optimisation of
different crucial factors. The evaluated system will assure the fun of the individuals and
sustainability of the environment and how these parks could contribute in the growth and
development of the society. The park would be capable of allowing 500 individuals at a time
7SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
and they all could avail the provided facilities and hence, a very large number of individuals
could efficiently enjoy the park. The next section will, be helpful in evaluating the technical
specifications of the proposed project and how those could be helpful in contributing in the
enhancement of the consumer satisfaction.
Discussion from business perspective
Factors Optimisation/ Evaluation/ Testing/ Validation
Location A research work by Dawood (2013), have developed a
certain list of criteria that validates the selection of a
location. The list will be used for the validation of the
location and the criterions are
Criteria 1: at least 100-meter away from hydrological
streams.
Criteria 2: less than 10 degrees’ terrain slopes.
Criteria 3: The land use type must be an empty
parcel.
Criteria 4: Away from an existing tourist
infrastructure by at least 200 meters.
Criteria 5: Away from an existing road by no more
than 100 meters.
Criteria 6: The area of the proposed site is larger than
1000 square meters.
Clean Environment NSW green rating will be used for validating the
environment friendliness (NSW Government 2018).
The discussed rating is provided based on the National
and they all could avail the provided facilities and hence, a very large number of individuals
could efficiently enjoy the park. The next section will, be helpful in evaluating the technical
specifications of the proposed project and how those could be helpful in contributing in the
enhancement of the consumer satisfaction.
Discussion from business perspective
Factors Optimisation/ Evaluation/ Testing/ Validation
Location A research work by Dawood (2013), have developed a
certain list of criteria that validates the selection of a
location. The list will be used for the validation of the
location and the criterions are
Criteria 1: at least 100-meter away from hydrological
streams.
Criteria 2: less than 10 degrees’ terrain slopes.
Criteria 3: The land use type must be an empty
parcel.
Criteria 4: Away from an existing tourist
infrastructure by at least 200 meters.
Criteria 5: Away from an existing road by no more
than 100 meters.
Criteria 6: The area of the proposed site is larger than
1000 square meters.
Clean Environment NSW green rating will be used for validating the
environment friendliness (NSW Government 2018).
The discussed rating is provided based on the National
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8SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Litter Index.
Value for money Value for money can be validated by surveying that
will potential visitors of the water park.
Quality of facilities and services Customer Satisfaction index needs to be developed
by the park to validate the quality of the facility and
services.
Non-functionality of the Park
Factors Optimisation/ Evaluation/ Testing/ Validation
Safety The safety measure guidelines proposed by the
Australian Government needs to be accounted for
safety optimisation in the park. Online sensor based
can be adopted for ensuring structural safety of the
park.
Affordability Affordability of the theme park need to be kept at a
price that can maintain the quality of the park and
should also be considerate of the competitive market
to attract more visitors.
Material requirements The material requirement of the theme park can be
assessed based on the type of material. For irons and
steel load testing, stress testing and other testings
needs to be done. For the polymers materials elasticity
testing along with the threshold identification and
other testing needs to be done. Similarly, for different
materials different testing needs to be done. Based on
Litter Index.
Value for money Value for money can be validated by surveying that
will potential visitors of the water park.
Quality of facilities and services Customer Satisfaction index needs to be developed
by the park to validate the quality of the facility and
services.
Non-functionality of the Park
Factors Optimisation/ Evaluation/ Testing/ Validation
Safety The safety measure guidelines proposed by the
Australian Government needs to be accounted for
safety optimisation in the park. Online sensor based
can be adopted for ensuring structural safety of the
park.
Affordability Affordability of the theme park need to be kept at a
price that can maintain the quality of the park and
should also be considerate of the competitive market
to attract more visitors.
Material requirements The material requirement of the theme park can be
assessed based on the type of material. For irons and
steel load testing, stress testing and other testings
needs to be done. For the polymers materials elasticity
testing along with the threshold identification and
other testing needs to be done. Similarly, for different
materials different testing needs to be done. Based on
9SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
the findings the material cost and quality can be
optimised.
Evaluation
Functionality Evaluation of the adopted technologies
Factors Optimisation/ Evaluation/ Testing/ Validation
Augmented Reality/ Virtual
Reality/ Robotics
The discussed technologies are system operated that are
based on the micro controller’s principles and hence,
they can be tested based on the principles of the
microcontrollers and systems. Functionality testing,
Regression Testing, Adhoc testing and retesting are part
of the evaluation procedure. To assess the QA three
metrics needs to be assessed and they are Process,
Product and Project
The image attached above reflects the shows the steps
that needs to be assessed for the complete evaluation of
technological system.
Automated Management It can be tested by using test metrics for different
the findings the material cost and quality can be
optimised.
Evaluation
Functionality Evaluation of the adopted technologies
Factors Optimisation/ Evaluation/ Testing/ Validation
Augmented Reality/ Virtual
Reality/ Robotics
The discussed technologies are system operated that are
based on the micro controller’s principles and hence,
they can be tested based on the principles of the
microcontrollers and systems. Functionality testing,
Regression Testing, Adhoc testing and retesting are part
of the evaluation procedure. To assess the QA three
metrics needs to be assessed and they are Process,
Product and Project
The image attached above reflects the shows the steps
that needs to be assessed for the complete evaluation of
technological system.
Automated Management It can be tested by using test metrics for different
10SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
system processes. Different test cases will be developed for
different processes. To identify the success percentage of
the test cases the formula is [Percentage test cases
executed= (No of test cases executed/ Total no of test
cases written) X 100].
Structure of the water theme park will be evaluated using the structural analysis. As
part of the evaluation different testing will be such as load testing, geometry testing and
others. Linear Elasticity is one of the most crucial evaluation that will be done to ensure the
holding of the structure. It will evaluate using four forms they are Direct tensor form,
Cartesian coordinate form, Cylindrical coordinate form and Spherical coordinate form.
The discussed equations formulate the linear elasticity study of the solid objects deforms due
to internal stress because of prescribed loading conditions.
Conclusion
The report in discussion can be emphasised to state that the water theme park in
discussion will be one of the most unique and attractive zone for the visitors because of the
user-friendly measures and the adopted disruptive technologies. A project plan diagram has
been attached that reflects different savouring zones that will be offered by the discussed
theme park. The savouring zones will include restaurants, pooling area and other savouring
zones. The parking spots and other crucial zones have also been included in the plan to offer
an insight into the final delivery. However, discussion of the plan cannot be completed with
discussion over the evaluation strategy of the components. Hence, the discussed paper has
offered an insight into the evaluation/ testing/ optimisation strategies of theme park.
system processes. Different test cases will be developed for
different processes. To identify the success percentage of
the test cases the formula is [Percentage test cases
executed= (No of test cases executed/ Total no of test
cases written) X 100].
Structure of the water theme park will be evaluated using the structural analysis. As
part of the evaluation different testing will be such as load testing, geometry testing and
others. Linear Elasticity is one of the most crucial evaluation that will be done to ensure the
holding of the structure. It will evaluate using four forms they are Direct tensor form,
Cartesian coordinate form, Cylindrical coordinate form and Spherical coordinate form.
The discussed equations formulate the linear elasticity study of the solid objects deforms due
to internal stress because of prescribed loading conditions.
Conclusion
The report in discussion can be emphasised to state that the water theme park in
discussion will be one of the most unique and attractive zone for the visitors because of the
user-friendly measures and the adopted disruptive technologies. A project plan diagram has
been attached that reflects different savouring zones that will be offered by the discussed
theme park. The savouring zones will include restaurants, pooling area and other savouring
zones. The parking spots and other crucial zones have also been included in the plan to offer
an insight into the final delivery. However, discussion of the plan cannot be completed with
discussion over the evaluation strategy of the components. Hence, the discussed paper has
offered an insight into the evaluation/ testing/ optimisation strategies of theme park.
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11SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
To enhance the quality of the understanding of the components and factors the testing
have been divided into categories. The first category being the business requirements for
which the findings reveal that different indexes offered by the governing or well-established
rating bodies are the unit of measurement or evaluation. The litter index has been identified
for validation and evaluation of the environment sustainability and similarly customer
satisfaction index for the measurement of the quality and services along with other indices
and criteria. The other categories that had been evaluated/ optimised/ tested and validated are
based on the functional and non-functional factors and features of the whole park. Based on
the types of the factors or tools testing has been recommended. The assessment of the factors
and features will enable for the development of a vital and efficient water theme park. It will
also establish a base for the future work of the water theme park with adequate and feasible
measures. Hence, in conclusion, it would be adequate to state that the discussed theme park is
one of the most unique featured park that is being developed according to the perception of
customer friendliness.
To enhance the quality of the understanding of the components and factors the testing
have been divided into categories. The first category being the business requirements for
which the findings reveal that different indexes offered by the governing or well-established
rating bodies are the unit of measurement or evaluation. The litter index has been identified
for validation and evaluation of the environment sustainability and similarly customer
satisfaction index for the measurement of the quality and services along with other indices
and criteria. The other categories that had been evaluated/ optimised/ tested and validated are
based on the functional and non-functional factors and features of the whole park. Based on
the types of the factors or tools testing has been recommended. The assessment of the factors
and features will enable for the development of a vital and efficient water theme park. It will
also establish a base for the future work of the water theme park with adequate and feasible
measures. Hence, in conclusion, it would be adequate to state that the discussed theme park is
one of the most unique featured park that is being developed according to the perception of
customer friendliness.
12SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
References
Cabeza, C., Rubido, N., & Marti, A. (2014). Learning physics in a water park. Physics
Education, 49(2),
187-194.
Cornelis, P. (2010). Impact of new attractions on theme park attendance. Worldwide
Hospitality and
Tourism Themes, 3(3).
Fletcher, C., & McDowell, D. (2016). Water slide injuries in Jamaica. Trauma Surgery & Acute Xare
Open, 1(1).
Fotiadis, A., & Vassiliadis, C. (2016). Service quality at theme parks. Journal of Quality Assurance in
Hospitality, 17(2), 178-190.
Health Fitness Revolution. (2015, May 15). Top 10 Health Benefits of Visiting Theme Parks. Retrieved
from Health Fitness Revolution: http://www.healthfitnessrevolution.com/top-10-health-
benefits-visiting-theme-parks/
Henderson, J. (2010). New visitor attractions in Singapore and sustainable destination
development.
Worldwide Hospitality and Tourism Themes, 3(3).
Irim. (2016, December 19). Top 8 Benefits Of Visiting A Theme Park For Kids And Adults. Retrieved
from Irim: http://irim.org.my/top-8-benefits-of-visiting-a-theme-park-for-kids-and-adults/
Kawamura, S., & Hara, T. (2010). A historical perspective and empirical analysis on
development of
theme parks in Japan. Worldwide Hospitality and Tourism Themes, 3(3).
Kim, C., & Kim, S. (2016). Measuring the operational efficiency of individual theme park
attractions.
SpringerPlus, 5(1), 834-842.
Mehta, R. (2013). Understanding perceived retail crowding: a critical review and research
agenda.
Journal of Retail Consum. Serv., 20(6), 642-649.
Milman, A. (2008). Evaluating the guest experience at theme parks: an empirical
investigation of key
attributes. International Journal of Tourism Research, 11(4), 1-10.
Milman, A. (2010). The global theme park industry. Worldwide Hospitality and Tourism
Themes, 3(3).
References
Cabeza, C., Rubido, N., & Marti, A. (2014). Learning physics in a water park. Physics
Education, 49(2),
187-194.
Cornelis, P. (2010). Impact of new attractions on theme park attendance. Worldwide
Hospitality and
Tourism Themes, 3(3).
Fletcher, C., & McDowell, D. (2016). Water slide injuries in Jamaica. Trauma Surgery & Acute Xare
Open, 1(1).
Fotiadis, A., & Vassiliadis, C. (2016). Service quality at theme parks. Journal of Quality Assurance in
Hospitality, 17(2), 178-190.
Health Fitness Revolution. (2015, May 15). Top 10 Health Benefits of Visiting Theme Parks. Retrieved
from Health Fitness Revolution: http://www.healthfitnessrevolution.com/top-10-health-
benefits-visiting-theme-parks/
Henderson, J. (2010). New visitor attractions in Singapore and sustainable destination
development.
Worldwide Hospitality and Tourism Themes, 3(3).
Irim. (2016, December 19). Top 8 Benefits Of Visiting A Theme Park For Kids And Adults. Retrieved
from Irim: http://irim.org.my/top-8-benefits-of-visiting-a-theme-park-for-kids-and-adults/
Kawamura, S., & Hara, T. (2010). A historical perspective and empirical analysis on
development of
theme parks in Japan. Worldwide Hospitality and Tourism Themes, 3(3).
Kim, C., & Kim, S. (2016). Measuring the operational efficiency of individual theme park
attractions.
SpringerPlus, 5(1), 834-842.
Mehta, R. (2013). Understanding perceived retail crowding: a critical review and research
agenda.
Journal of Retail Consum. Serv., 20(6), 642-649.
Milman, A. (2008). Evaluating the guest experience at theme parks: an empirical
investigation of key
attributes. International Journal of Tourism Research, 11(4), 1-10.
Milman, A. (2010). The global theme park industry. Worldwide Hospitality and Tourism
Themes, 3(3).
13SYSTEM SCIENCE AND ENGINEERING: DESIGN OF THEME WATER PARK
Milman, A., Okumus, F., & Dickson, D. (2010). The contribution of theme parks and
attractions to the
social and economic sustainability of destinations. Worldwide Hospitality and
Tourism Themes, 2(3), 338-345.
Neuts, B., & Nijkamp, P. (2012). Tourist crowding perception and acceptability in cities: an applied
modelling study on Bruges. Ann Tour Res., 39(4), 2133-2153.
Post, K. (2015, November 24). Things to consider in developing public & private waterparks.
Retrieved from Counsilman.Hunsaker: https://counsilmanhunsaker.com/2015/11/24/things-
to-consider-in-developing-public-private-waterparks/
Wahlroos, O., Valkama, P., Makinen, E., Ojala, A., Vasander, H., Vaananen, V., . . .
Nikinmaa, E. (2015).
Urban wetland parks in Finland: improving water quality and creating endangered
habitats. International Journal of Biodiversity Science, Ecosystem Services &
Management, 11(1), 46-60.
Zhang, W., Shan, S., & Halsall, J. (2016). The Theme Park Industry in China: A Research
Review. Cogent
Social Sciences, 2(1).
Milman, A., Okumus, F., & Dickson, D. (2010). The contribution of theme parks and
attractions to the
social and economic sustainability of destinations. Worldwide Hospitality and
Tourism Themes, 2(3), 338-345.
Neuts, B., & Nijkamp, P. (2012). Tourist crowding perception and acceptability in cities: an applied
modelling study on Bruges. Ann Tour Res., 39(4), 2133-2153.
Post, K. (2015, November 24). Things to consider in developing public & private waterparks.
Retrieved from Counsilman.Hunsaker: https://counsilmanhunsaker.com/2015/11/24/things-
to-consider-in-developing-public-private-waterparks/
Wahlroos, O., Valkama, P., Makinen, E., Ojala, A., Vasander, H., Vaananen, V., . . .
Nikinmaa, E. (2015).
Urban wetland parks in Finland: improving water quality and creating endangered
habitats. International Journal of Biodiversity Science, Ecosystem Services &
Management, 11(1), 46-60.
Zhang, W., Shan, S., & Halsall, J. (2016). The Theme Park Industry in China: A Research
Review. Cogent
Social Sciences, 2(1).
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