(remove: text between brackets to be removed)
- Participant name: (your name)
- Project Title: (Title of the problem you are looking and modeling)
A smart city is an urban area that uses different types of electronic data collection sensors to supply information which is used to manage assets and resources efficiently.
(remove: States your motivation clearly: why is it important / interesting to solve this problem?) (remove: Add real-world examples, if any) (remove: Put the problem into a historical context, from what does it originate? Are there already some proposed solutions?)
(remove: You should start by specifying a set of requirements. I specified a topic Smart Cities but what exactly does that mean- you should practice formulating your own set of requirements and an experiment. Define a hypothesis of a problem cities face and how a smart city would possibly help alleviate this issue. This helps you think about your problem communication and system objectives inputs, functions, and outputs - they should be clearly specified.)
(remove: add a high-level overview of your model, the part below should link to the model directory markdown files) (remove: Look at the Object Diagram for how to structure this part of Part 2 for each diagram. Only the Object diagram has the template, the rest are blank. )
- Object Diagram - provides the high level overview of components
- Class Diagram - provides details of (what are you providing details of)
- Behavior Diagram - provides details of (what are you providing details of)
- Agent / User case (if appropriate) - provides details of (what are you providing details of)
(remove: for part 3 add two to three sentences here and link the (your own name) file in the analysis folder - which describe how you would simulate this - type of simulation, rough details -inputs, outputs - how it will help you analyze your experimental hypothesis, or nullify your null hypothesis.)
Code template - Starting coding framework for the (insert your exact problem here.)
Here we provide an overview of the Portable Organic Trouble-free Self-watering System (POTS) Model and provide a source code template.