S17: Smart collision alert system

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Code Quality
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- Software Block Diagrams
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  Schematic Quality
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Project Title

Sphero Droid

Abstract

Robots are revolutionizing almost every industry, primarily in the sectors where human safety is at risk. In hazardous working conditions such as in the mining industry, the lack of knowledge about the geographic nature and the environmental conditions of the mine hinder the rescue operations. Autonomous robots are being employed to improve the plight of mine workers and rescue operators. The robotic vehicle can explore the inaccessible and unworkable mines and disaster-affected areas and send valuable information to the teams to assist in search and rescue operations. But traditional robots could be rendered useless if they are overturned or in terrains having staircases and ledges. Also, there is a possibility of failure of the electrical and mechanical components exposed to the harsh environmental conditions. An autonomous spherical robot is a better option since its shape offers better robustness and rigidity. The spherical robot will enclose all the components within it and will not have any wheels or legs on its exterior. This feature enables it to operate in any hazardous conditions since there will be very less chance for the components to get damaged by the surrounding environment. The spherical design allows it to easily maneuver in different types of terrain, be it stairs or corners, and have no risk of being overturned. These advantages enable the robot for many applications such as exploration and mapping of access routes, surveillance and rescue operations in uncomfortable working conditions.

Objectives & Introduction

The objective of this project is to design an autonomous spherical robot with sensors, Global Positioning System (GPS) module, Bluetooth module and other control units interfaced to the microcontroller, which navigates its way to the destination avoiding obstacles. The temperature, pressure and the route followed by the robot can be logged on the SD card. These features enable the robot for many applications such as exploration and mapping of access routes, surveillance and rescue operations in uncomfortable working conditions.

Team Members & Responsibilities

Harshitha Bura

Naveen Kumar Bhuthakatanahalli Ramalingaiah

Shivam Chauhan

Sushma Nagaraj

Virginia Menezes

Schedule

Week#	Start Date	End Date	Task	Status
1	3/21	3/27	Requirement analysis and team discussion to order parts. Determine individual tasks and assigning work based on different modules in project	In Progress
2	3/28	4/3	Interface the GPS module with the SJOne board Interface individual sensor with SJOne board Interface motors with the SJOne board	In Progress
3	4/4	4/10	Design PCB and following up on team discussions to integrate the design Continue work on individual module (Sensors, motors, GPS) working with SJOne board	Plan
4	4/11	4/17	Integrate the different modules Build the sphere with bearings and enclose the components within it Work on wireless control and navigation	Plan
5	4/18	4/24	Test in different environments and fix bugs based on different issues	Plan
6	4/25	5/1	Testing and Debugging Work on Project Report on Wiki	Plan
7	5/2	5/8	Testing and Debugging Project Presentation and update Wiki	Plan
8	5/9	5/15	Complete Wiki Report and Final Demo	Plan

Parts List & Cost

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Design & Implementation

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Hardware Design

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Hardware Interface

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Software Design

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Implementation

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Testing & Technical Challenges

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My Issue #1

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Conclusion

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Project Video

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Project Source Code

Sourceforge Source Code Link

References

Acknowledgement

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References Used

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Appendix

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