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=Use-case 3: ''“Proposals for a Greener Hoefkade”'' =
=Use-case 3: ''“Proposals for a Greener Hoefkade”'' =
A group of students of very different backgrounds used Tygron to develop an eco-consultancy plan for the municipality of the Hague, as an assignment for an area study course within their Sustainable Development interdisciplinary minor at the University of Leiden. In 4 weeks only, the team learned Tygron and created a complete plan for a greener Hoefkade neighborhood. Read more about this use-case.
For their sustainable development minor, a group of 4 students of different backgrounds were assigned to use the Tygron platform last year (2020) in order to develop a [https://www.tygron.com/en/2020/04/03/student-use-case-leiden-university-students-for-a-greener-hoefkade/ consultancy plan for the municipality of the Hague]. This assignment was for an area study course at the University of Leiden. Their research question was ''"How can more greenery and other climate adaptation measures be incorporated into the Hoefkade to mitigate heat stress and flooding while taking into account the opinions of residents and local employees?"''. In 4 weeks only, and without any prior knowledge of the Tygron platform, the team learned how to use Tygron and created a full advisory plan for a greener Hoefkade neighbourhood in collaboration with the Municipality of the Hague. They focused on the effects of greening on heat and water.


<gallery caption="Tygron Model showing the current situation in Hoefkade (scenario 0)" mode="packed-overlay" heights=200px>
<gallery caption="Tygron Model showing the current situation in Hoefkade (scenario 0)" mode="packed-overlay" heights=200px>
File:basemaphoefkade0.png|Tygron model showing the neighborhood
File:basemaphoefkade0.png|Tygron model showing the neighbourhood
File:heatstreeshoefkade0.png|Tygron Model showing the heat stress
File:heatstreeshoefkade0.png|Tygron Model showing the heat stress
</gallery>
</gallery>


[https://www.tygron.com/en/2020/04/03/student-use-case-leiden-university-students-for-a-greener-hoefkade/ Last year, students used Tygron for the first time in their course]
 
==Content of the course==
==Content of the course==
===General information===
===General information===
*'''Name of the course:''' "[https://studiegids.universiteitleiden.nl/courses/90161/area-study-sustainability-netherlands Area Study Sustainability Netherlands]"
*'''Name of the course:''' "[https://studiegids.universiteitleiden.nl/courses/90161/area-study-sustainability-netherlands Area Study Sustainability Netherlands]"
Line 18: Line 17:


===Target students===
===Target students===
To take part in the course Area Study Sustainability, students must have followed the previous courses Big Issues New Answers and Resilient Cities.
*This course is designed for students who have already followed the Big Issues New Answers and Resilient Cities courses.
*The students have limited prior experience with ArcGIS, but are not required to know the platform.
*Students had no prior knowledge or accessibility to the Tygron platform.
*This course is delivered every year for around 30 students.
*Students are expected to work alongside a representative from the municipality.
*Students can choose qualitative or quantitative approaches.
*Students come from very different backgrounds.


No prior knowledge of Tygron
The students who were chosen to work with the Tygron platform have the following backgrounds:
#Annemiek de Looze: International Studies
#Jos van der Sterre: Molecular Science & Technology / chemistry
#Veerle Cannemeijer: International Relations & Organisations
#Max van Beek: Molecular Science & Technology / chemical engineering


Background of the working group:
===Objectives and desired outcome===
#Annemiek de Looze International Studies
This course aims at:
#Jos van der Sterre Molecular Science & Technology
*exploring a real-world and current sustainability challenge in a local city.
#Veerle Cannemeijer International Relations & Organisations
*putting into practice the acquired theories and methods.
#Max van Beek Molecular Science & Technology
*analyzing the area challenges, solutions and the factors that obstruct these solutions.


The main objective is for students to act as sustainability experts to provide sustainability advice to the City Councils of either Leiden or The Hague, based on their sustainability goals.


===Objectives and desired outcome===
The main component of the course is interdisciplinary group work, which is crucial to resolving sustainability challenges.
In this course you will explore a real-world and current sustainability challenge in a local city. In groups you will analyse the problem, its solutions and the factors that obstruct these solutions. This course gives ownership to the students in structuring the course and stimulates creative and critical thinking and dealing with complex issues. The area study will enable you to put into practice the theories and methods you have learned in class.


In groups, you provide sustainability advise to the City Councils of Leiden or The Hague. These cities have set ambitious goals and initiatives to become a much more sustainable city. When implementing these initiatives, the councils often realise that there are additional challenges. They therefore reach out to you, future sustainability experts, to provide recommendations on how to overcome some of the barriers or how they can have a larger impact.
The expected (group) outcome of this course is:
 
#a consultancy report that provides recommendations for a better implementation of the goals set by the city councils.
Outcome:
#a contribution to a blog.
Students contribute to a blog, write a comprehensive advisory report and present their findings in a final presentation
#a final presentation of the findings.


==Design of the Course==
==Design of the Course==
===Syllabus and time distribution===
===Syllabus and time distribution===
4 weeks
* The course is full time and spread over 4 weeks.
7 credits
* There are 7 credits assigned for this course.
* During the course, there are lectures to provide additional content regarding the themes under study.
* During the course, excursions are organized to provide context on sustainability.
* Excursions are not related to the assignment. Last year (2020), students were taken to Tata Steel and to a waste incineration plant.
* Besides the excursions and the lectures, the rest of the course is self-monitored.
* Students are split into groups of 4-5 students and each group is assigned a different study area.
* At the end of the course:
**working groups submit their advisory reports.
**they showcase their results through group presentations during a final lecture.


====Using the Tygron platform====
As an experiment, last year (2020) one of the working groups was chosen to work with the Tygron platform for this assignment.
Their research focused on the ''effects of green spaces on heat stress, flooding, and livability'' in the Hoefkade, the Hague.
They used a scenario approach, where they compared quantitatively the effect of each scenario on the neighbourhood focusing on the heat and flooding indicators.
In 4 weeks, students had to learn the Tygron platform, conduct interviews with locals, and produce a consultancy plan that takes into account the city council's current redevelopment plan.
===Guidance and Resources===
===Guidance and Resources===
This section is taken from the perspective of students who used Tygron for their report.
This section is from the perspective of the working group that was using the Tygron platform.
 
*In day 1, students are split into groups. Each group chooses a study area.
*In day 2, the team who choose heat & flooding in the Hoefkade was asked to use the Tygron platform for their assignment. They downloaded the platform.
*In day 4, the team visited the Tygron office in the Hague and were given a demo explaining how the software works.
*After that, the team started working with the Tygron platform after watching some video tutorials.
*To make it easier, the team split into 2: 2 of them conducted interviews with residents of Hoefkade, and 2 were focusing on the configuration of the model in Tygron.
*It took the students around 1.5 weeks to get used to the platform.
*In the third week, everything went very quickly after all the scenarios are implemented in the platform.
*In the last few days, students focused on making the report and delivering the presentations.


The main component of the course is the interdisciplinary group work, which is crucial to resolving sustainability challenges. There will also be lectures to provide additional content regarding the themes under study, field trips to provide context and opportunities for discussion.
*Team members used their own laptops. One group member used his computer because it was faster.  
*A challenging aspect was translating the municipality plan into objects in Tygron.
*Students did not receive any direct support from Tygron during their assignment. However, they used the community forum to ask technical questions.  


<gallery  mode="packed-overlay" heights=300px>
File:basemaphoefkade0.png|Tygron model showing the current situation in the Hoefkade
File:basemaphoefkade2.png|Tygron model showing the municipality's redevelopment plan for the Hoefkade
</gallery>


*Functions that were used mostly in this assignment:
#[[Heat_Stress_Overlay|Heat stress overlay]]
#[[Water_Overlay|Water overlay]]
#[[Indicator|Indicators]]: green space, the reduction of heat stress, the reduction of water stress, and the number of parking spaces in the Hoefkade.
#[[Measure|Measures]]


In their project, the students investigated how the incorporation of greenery and climate adaptation measures could decrease the heat and flooding of Hoefkade.
==Outcome of the course==
[[File:results_hoefkade.png|thumb|right|heights=250px|Overview of the results of the different scenarios.]]


How can more greenery and other climate adaptation measures be incorporated
*To answer the main research question, the students developed five different scenarios to compare in the Tygron platform:
into the Hoefkade to mitigate heat stress and flooding while taking into account
#Scenario 0: the current situation
the opinions of residents and local employees?
#Scenario 1: the all green scenario
#Scenario 2: the current redevelopment plan
#Scenario 3: Scenario 2 + more green spaces
#Scenario 4: Scenario 3 + more water storage interventions


*The scenarios were implemented to test the effects of different greening plans on flooding and heat.


In order to do that, the students developed five different scenarios: the current situation, the all green scenario, the current redevelopment plan and two greener alternatives. For all of these scenarios, the group has used the Tygron Geodesign Platform in order to test the effects that the incorporation of greenery would have on flooding and heat. In the performed tests of the scenarios, the students used
The team was able to conclude that:
the heat stress overlay and the water overlay integrated into the Platform. In order to measure how the situation has changed in the played scenarios a number of indicators such a modified version of the heat stress indicator, water indicator and the parking space indicator were used.
#the current plans for the Hoefkade (scenario 2) will already prove to be effective and will reduce the heat up to 5,2°C.
#adding even more greenery will only reduce the heat by an extra 0,10°C.
#out of all-green measures, trees are the most effective in reducing the temperature.
#while greenery proved to be the perfect solution in decreasing heat, it did not sufficiently reduce the problem of flooding.
#an effective solution for flooding is water storage tanks and permeable bricks.


==Outcome and Assessment==
*The performance of the working group was very good.  
[[File:results_hoefkade.png|thumb|250px|right|Overview of the results of the different scenarios.]]


'''You can read the group's full report here: <u>[[File:A-Greener-Hoefkade.pdf]]'''</u>


<gallery caption="Tygron model showing the absolute PET heat stress levels for different scenarios" mode="packed-overlay" heights=200px>
<gallery caption="Tygron model showing the absolute PET heat stress levels for different scenarios" mode="packed-overlay" heights=200px>
File:heatstreeshoefkade2|Scenario 1 (full of trees)
File:heatstreeshoefkade1.png|Scenario 1 (full of trees)
File:heatstreeshoefkade2|Scenario 2 (municipality plan)
File:heatstreeshoefkade2.png|Scenario 2 (municipality plan)
File:heatstreeshoefkade3.png|Scenario 3  
File:heatstreeshoefkade3.png|Scenario 3  
File:heatstreeshoefkade4.png|Scenario 4
</gallery>
</gallery>
[[File:A-Greener-Hoefkade.pdf]]


==Feedback and recommendations==
==Feedback and recommendations==
 
Based on their experience with Tygron last year (2020), the students recommend the following:
 
* Learning and using the Tygron platform for 4 weeks was possible but very challenging. It is recommended to make the course longer unless it is used for something other than consultancy such as research.
One of the biggest limitations for us was the different grid sizes
* In this course, some groups were focusing on a neighbourhood level and some were focusing on a larger area. It is recommended to have areas that are similar in size for different teams.
in Tygron. Some objects possess great precision, such as buildings loaded in from the
* Include some lectures about the platform, including useful tips and tricks, which would make the course go smoother.
plan of the municipality, while the heat and water overlays were limited to 0.5 m x 0.5
* Choosing a smaller area, so that the software runs easier on weaker laptops.
m. This made it difficult to accurately draw other objects into the programme, such as
* Working offline in a classroom setting, especially if the assignment is a group project.
facade gardens or trees. The way Tygron calculates and uses different terrain types also
* Including real stakeholders in the project; students get excited if their proposal could potentially be implemented.
caused some problems, forcing us to treat grass and fallow land as the same. Moreover,
the biggest limitation with regards to calculating water stress was the automatically
generated sewer system, as Tygron did not load in any sewer data. More research into
the sewer of the Hoefkade is certainly recommended to find out if our water stress
calculations are accurate.
Moreover, the limited time we had to conduct this research led to us making certain
assumptions in Tygron without having researched them thoroughly. Examples of this
include tree size, locations of facade gardens, and the location of parking spots we
chose to delete. This is something for the municipality to look into more precisely.
 
<pre>
"It’s is really nice to see how Tygron makes a conceptual thing like a scenario a lot more concrete, making it come alive in front of the students."
 
Dr. Benjamin Sprecher – Leiden University
</pre>
 
<pre>
<pre>
"Tygron really brought our project to life. It was very interesting to be able to directly see the consequences of our ideas in the program. With Tygron we were able to make very concrete scenarios and that gave our project a lot of added value. We therefore hope that the municipality can do something with our findings to make the Hoefkade a bit more beautiful and sustainable."
"Tygron really brought our project to life. It was very interesting to be able to directly see the consequences of our ideas in the program. With Tygron we were able to make very concrete scenarios and that gave our project a lot of added value. We, therefore, hope that the municipality can do something with our findings to make the Hoefkade a bit more beautiful and sustainable."


Annemiek de Looze & Veerle Cannemeijer – the authors of the project
Annemiek de Looze & Veerle Cannemeijer – from the Hoefkade team
</pre>
</pre>


==Contact==
==Contact==
For more information about this course, you can contact us at: info@Tygron.com
For more information about this course, you can contact us at: {{email}}


You can also reach Max van Beek, a member of the working-group that used Tygron for this course: mcvanbeek@live.nl
You can also reach Max van Beek, a member of the working-group that used the Tygron platform for this course: {{email|mcvanbeek|live.nl}}


Course Lecturer: [https://www.universiteitleiden.nl/en/staffmembers/benjamin-sprecher#tab-1 Benjamin Sprecher]
Course Lecturer: [https://www.universiteitleiden.nl/en/staffmembers/benjamin-sprecher#tab-1 Benjamin Sprecher]

Latest revision as of 14:26, 22 September 2023

Use-case 3: “Proposals for a Greener Hoefkade”

For their sustainable development minor, a group of 4 students of different backgrounds were assigned to use the Tygron platform last year (2020) in order to develop a consultancy plan for the municipality of the Hague. This assignment was for an area study course at the University of Leiden. Their research question was "How can more greenery and other climate adaptation measures be incorporated into the Hoefkade to mitigate heat stress and flooding while taking into account the opinions of residents and local employees?". In 4 weeks only, and without any prior knowledge of the Tygron platform, the team learned how to use Tygron and created a full advisory plan for a greener Hoefkade neighbourhood in collaboration with the Municipality of the Hague. They focused on the effects of greening on heat and water.


Content of the course

General information

Target students

  • This course is designed for students who have already followed the Big Issues New Answers and Resilient Cities courses.
  • The students have limited prior experience with ArcGIS, but are not required to know the platform.
  • Students had no prior knowledge or accessibility to the Tygron platform.
  • This course is delivered every year for around 30 students.
  • Students are expected to work alongside a representative from the municipality.
  • Students can choose qualitative or quantitative approaches.
  • Students come from very different backgrounds.

The students who were chosen to work with the Tygron platform have the following backgrounds:

  1. Annemiek de Looze: International Studies
  2. Jos van der Sterre: Molecular Science & Technology / chemistry
  3. Veerle Cannemeijer: International Relations & Organisations
  4. Max van Beek: Molecular Science & Technology / chemical engineering

Objectives and desired outcome

This course aims at:

  • exploring a real-world and current sustainability challenge in a local city.
  • putting into practice the acquired theories and methods.
  • analyzing the area challenges, solutions and the factors that obstruct these solutions.

The main objective is for students to act as sustainability experts to provide sustainability advice to the City Councils of either Leiden or The Hague, based on their sustainability goals.

The main component of the course is interdisciplinary group work, which is crucial to resolving sustainability challenges.

The expected (group) outcome of this course is:

  1. a consultancy report that provides recommendations for a better implementation of the goals set by the city councils.
  2. a contribution to a blog.
  3. a final presentation of the findings.

Design of the Course

Syllabus and time distribution

  • The course is full time and spread over 4 weeks.
  • There are 7 credits assigned for this course.
  • During the course, there are lectures to provide additional content regarding the themes under study.
  • During the course, excursions are organized to provide context on sustainability.
  • Excursions are not related to the assignment. Last year (2020), students were taken to Tata Steel and to a waste incineration plant.
  • Besides the excursions and the lectures, the rest of the course is self-monitored.
  • Students are split into groups of 4-5 students and each group is assigned a different study area.
  • At the end of the course:
    • working groups submit their advisory reports.
    • they showcase their results through group presentations during a final lecture.

Using the Tygron platform

As an experiment, last year (2020) one of the working groups was chosen to work with the Tygron platform for this assignment.

Their research focused on the effects of green spaces on heat stress, flooding, and livability in the Hoefkade, the Hague.

They used a scenario approach, where they compared quantitatively the effect of each scenario on the neighbourhood focusing on the heat and flooding indicators.

In 4 weeks, students had to learn the Tygron platform, conduct interviews with locals, and produce a consultancy plan that takes into account the city council's current redevelopment plan.

Guidance and Resources

This section is from the perspective of the working group that was using the Tygron platform.

  • In day 1, students are split into groups. Each group chooses a study area.
  • In day 2, the team who choose heat & flooding in the Hoefkade was asked to use the Tygron platform for their assignment. They downloaded the platform.
  • In day 4, the team visited the Tygron office in the Hague and were given a demo explaining how the software works.
  • After that, the team started working with the Tygron platform after watching some video tutorials.
  • To make it easier, the team split into 2: 2 of them conducted interviews with residents of Hoefkade, and 2 were focusing on the configuration of the model in Tygron.
  • It took the students around 1.5 weeks to get used to the platform.
  • In the third week, everything went very quickly after all the scenarios are implemented in the platform.
  • In the last few days, students focused on making the report and delivering the presentations.
  • Team members used their own laptops. One group member used his computer because it was faster.
  • A challenging aspect was translating the municipality plan into objects in Tygron.
  • Students did not receive any direct support from Tygron during their assignment. However, they used the community forum to ask technical questions.
  • Functions that were used mostly in this assignment:
  1. Heat stress overlay
  2. Water overlay
  3. Indicators: green space, the reduction of heat stress, the reduction of water stress, and the number of parking spaces in the Hoefkade.
  4. Measures

Outcome of the course

Overview of the results of the different scenarios.
  • To answer the main research question, the students developed five different scenarios to compare in the Tygron platform:
  1. Scenario 0: the current situation
  2. Scenario 1: the all green scenario
  3. Scenario 2: the current redevelopment plan
  4. Scenario 3: Scenario 2 + more green spaces
  5. Scenario 4: Scenario 3 + more water storage interventions
  • The scenarios were implemented to test the effects of different greening plans on flooding and heat.

The team was able to conclude that:

  1. the current plans for the Hoefkade (scenario 2) will already prove to be effective and will reduce the heat up to 5,2°C.
  2. adding even more greenery will only reduce the heat by an extra 0,10°C.
  3. out of all-green measures, trees are the most effective in reducing the temperature.
  4. while greenery proved to be the perfect solution in decreasing heat, it did not sufficiently reduce the problem of flooding.
  5. an effective solution for flooding is water storage tanks and permeable bricks.
  • The performance of the working group was very good.

You can read the group's full report here: File:A-Greener-Hoefkade.pdf

Feedback and recommendations

Based on their experience with Tygron last year (2020), the students recommend the following:

  • Learning and using the Tygron platform for 4 weeks was possible but very challenging. It is recommended to make the course longer unless it is used for something other than consultancy such as research.
  • In this course, some groups were focusing on a neighbourhood level and some were focusing on a larger area. It is recommended to have areas that are similar in size for different teams.
  • Include some lectures about the platform, including useful tips and tricks, which would make the course go smoother.
  • Choosing a smaller area, so that the software runs easier on weaker laptops.
  • Working offline in a classroom setting, especially if the assignment is a group project.
  • Including real stakeholders in the project; students get excited if their proposal could potentially be implemented.
"Tygron really brought our project to life. It was very interesting to be able to directly see the consequences of our ideas in the program. With Tygron we were able to make very concrete scenarios and that gave our project a lot of added value. We, therefore, hope that the municipality can do something with our findings to make the Hoefkade a bit more beautiful and sustainable."

Annemiek de Looze & Veerle Cannemeijer – from the Hoefkade team

Contact

For more information about this course, you can contact us at:

You can also reach Max van Beek, a member of the working-group that used the Tygron platform for this course:

Course Lecturer: Benjamin Sprecher

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