Learning Goal: I’m working on a networking project and need support to help me learn.
Please note that I have already done the assignment, I need you to edit: the coding of Arduino/Assembly + demo on the Output of the attached file. here are the instructions:
1. Take a look at the document I shared and edit it so it aligns with the requirements of the project ( make sure that all of the requirements are included and take off the parts that are bot required)
2. Creat the codes, run the program and take screenshots ( same as the one you did for mine)
3. Make sure that the one you did and the one I shared are not similar, because we are in the same class and we have the same professor..
4. I need to submit both projects in 7 hours from now
1) Write assembly /Arduino program (70%)
Description
A smart city is a technologically modern urban area that uses different types of electronic methods, voice activation methods and sensors to collect specific data. Information gained from that data is used to manage assets, resources and services efficiently. In 2021, Oman’s Muscat Municipality has signed an agreement with Signify International to implement Smart Street lighting project in the Omani capital. Muscat Municipality is using more than 20,000 connected street lights which are providing up to 85 percent energy saving and reducing maintenance costs
Signify International is using different types of sensors in controlling smart street lights. smart streetlights may require more technology, such as humidity sensors, proximity sensors, sound sensors and IR sensors for ON and OFF purpose. By using assembly/Arduino language, keeping in mind finite state concepts, you are required to simulate the functionalities of the Signify International unit to control street lights.
- Students are free to choose the implementation of sensors (humidity sensors, proximity sensors, sound sensors and IR sensors)
- Triggering conditions/events could be passed to microprocessor directly (pulses) or programmatically.
Marking scheme:
| Criteria |
Allocated marks |
| Read the inputs from sensors. |
25 marks |
| Based on the input, correctly take the appropriate action (warning, shutdown etc..). |
25 marks |
| Clarity, structure and comments of the code |
10 marks |
| Graphically presents the process |
|
2) A written report (30%)
Write a report that covers the following points based on task 1, the report should be no longer than 800 words.
Objectives of Task1: Assembly /Arduino program
- Technology used in Task 1 with alternative methods of implementation (Literature review)
- Design of the proposed Task 1
- Implementation on Task 1
- Pros and cons of Task 1 implementation
- Relevant areas of Applications of Task1
- Possible Further enhancement on Task 1
- Conclusion
UWE Harvard referencing must be used.
Marking scheme:
| Criteria |
Allocated mark |
| Objectives of Task1: Assembly/Arduino program |
3 marks |
| Technology used in Task 1 with alternative methods of implementation (Literature review) |
3 marks |
| Design of the proposed Task 1 |
4 marks |
| Implementation on Task 1 |
5 marks |
| Pros and cons of Task 1 implementation |
3 marks |
| Relevant areas of Applications of Task1 |
3 marks |
| Possible Further enhancement on Task 1 |
3 marks |
| Conclusion |
2 marks |
| UWE Harvard referencing must be used |
2 marks |
| Grammar, spelling and words count |
2 marks |
