The document outlines a project presentation focused on the choice of cellular automata (CA) in civil engineering, detailing the structure and content of slides ranging from background information, literature review, to results and conclusions. It emphasizes operational simplicity in generating complex forms through simple rules and highlights the importance of layout efficiency in the presentation. Key findings include predicted urban growth scenarios for the Kochi municipal region and the significance of implementing regulations to protect sensitive land forms.

1. PROJECT TITLE
Author, A.A. 1*, Author, A.B. and Author,
C.D.
Under the guidance of
Dr. ABC.
Department of Civil Engineering,
The National Institute of Engineering,
Mysore
*Presenting author
Minor Project Presentation (change if needed),
2023
CRC Conference Hall
August 9-11, NIE, Mysore

2. Choice of Cellular Automata (CA) – A SAMPLE SLIDE
Project Presentation, 2023 2
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
 Total slides should be within 12-16.
FIGURE 1
FIGURE 2

3. Background and Need (1-2 slides)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 3

4. Introduction (1-2 slides)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 4

5. Literature Review (2 slides)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 5

6. Research Gap/Identified Literature Gap and Objectives (1 slide)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 6

7. Scope of the Study (1 slide)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 7

8. Method Overview (1 slide – Provide flow chart here)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 8

9. Study Area Selection (1 slide)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 9

10. Result and Discussion (3-4 Slides)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 10

11. Conclusion (1 Slide)
 Operational simplicity by generating dynamics that can
reproduce traditional processes of changes (Hernandez
et al., 2007; Guidolin et al., 2016)
 Generate very complex forms by means of very simple
rules (White and Engelen, 1993; Wolfram, 1984)
 Key points to be highlighted in Red.
 References to be put in brackets.
 Figures and tables to be put to the right.
 Use slide layout efficiently. Do not leave blank spaces.
Project Presentation, 2023 11

12. Predicted Results and Conclusion
Acknowledgement
• Predicted urban growth, 2031  exponential (40% rise)
• Kochi municipal region, Kalamassery, Vazhakkala and
Varappuzha are the local bodies expected to
undergo maximum growth
• Relaxing the implementation of CRZ and CDP guidelines
 over expansion of built-ups
• Rapid growth observed in the reclaimed islands of
Puthuvype, with projects like LNG terminal and
Ship Repair Complex
• Eco-sensitive area with mangrove cover is extremely
vulnerable (if restrictions are relaxed)
• Land use pattern was predicted for two different scenarios: 1) with strict
implementation of CDP and CRZ 2) business as usual scenario without any restriction
for expansion.
• Predicted LU 2031 pattern for both scenarios established the significance of CDP and
CRZ regulations in protecting the sensitive land forms from further urban
penetration
Project Presentation, 2023 12

13. Selected References (1 Slide)
 REFERENCES SHOULD BE IN APA 6TH EDITION OR HARVARD FORMATTING.
 https://libguides.scu.edu.au/apa/books
 Example:
 Moghadam, S. T., Delmastro, C., Lombardi, P., & Corgnati, S. P. (2016). Towards a New Integrated Spatial
Decision Support System in Urban Context. Procedia - Social and Behavioral Sciences, 223, 974–981.
 Project Gigalopolis: Urban and Land Cover Modeling. Retrieved from URL:
www.ncgia.ucsb.edu/projects/gig/project_gig.htm
 Sudhira, H. S., Ramachandra, T. V., & Jagadish, K. S. (2004). Urban sprawl: metrics, dynamics and modelling
using GIS. Int. J. Appl. Earth Observ. Geoinform., 5, 29–39.
 Taubenbock, H., & Wiesner, M. (2015). The spatial network of megaregions - Types of connectivity between
cities based on settlement patterns derived from EO-data. Computers, Environment and Urban Systems, 54,
165–180.
Project Presentation, 2023 13

14. Project Presentation, 2023 14
THANK
YOU!