S13: Smart Security

Grading Criteria

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Code Quality
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- Software Block Diagrams
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  Schematic Quality
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Smart Security

Safety often tends to wary people in various part of the world. Whether or not an individual is living in a neighborhood with high or low crime rates, security have always been a main concern. With the rising crime rates, even in area known to be safe, security companies have been trying to attract customer with their innovative features, but not so attractive pricing. Often the price could range anywhere starting at $1,400 for installation and from $23 a month ^[1]. Our project is to provide a solution for people who want a home security system, but not have to pay the huge installation cost and monthly fee.

Abstract

Smart Security is a system targeted for home security that continuously monitors movement, when armed. This system will alert the user wirelessly when it detects motion via text message and flash LEDs on the spot to try and scare off the intruder. The whole process can be control using a web based GUI for arming and disarming the system.

Objectives & Introduction

The Smart Security project communicates with the user using wireless connection to alert them of any movement within the proximity of the sensor. A PIR motion sensor is, connected to a LPC1758 microcontroller board, used as a detector to register any movement. A Wifly module, also attached to the LPC, maintain wireless connection to send and receive commands. The user is able to communicate with the board using a web based GUI, designed with Bootstrap, to arm and disarm the system as he/she please. When armed and motion is detected, the board will send commands to alert user using text messages. To prevent spam, users will receive periodic text messages versus one per motion detected.

Our objectives for the project:

Interface PIR Sensor with LPC1758 board and register readings
Use Wifly to communicate between the board and server
Send alerts in the form of email/text messages when movement is detected
Setup alarm in the form of flashing LEDs
Create an interactive user web interface that handles the control of the sensor
Setup connection between the board and server

Team Members & Responsibilities

Kevin Deng
- Interfacing PIR Motion Sensor with LPC1758 Microcontroller
- Design Web UI
Nelson Wong
- Interface Wifly module with LPC1758
- Wireless communication

Schedule

Week	Planned Tasks	Actual Tasks
1	Order parts (Wifly, PIR Motion Sensor, etc.) Download documentation for LPC 17xx Familiarize with LPC 17xx Create system block diagram	Completed Completed Completed Completed
2	Familiarize/Test the ordered parts Interface wifi module with board Write the web server	Completed Completed In-Progress
3	Test communication between board and server Send out text message from our board Design mobile UI
4	Assemble the full system Test system functionality Debug any error Project report
5	Finalize project Finalize project report

Parts List & Cost

Item	Type	Quantity	Cost	Link
LPC1758	MicroController	1	~$70	Purchased in CMPE127
PIR Motion Sensor	Infrared Sensor	1	$9.95	https://www.sparkfun.com/products/8630
RN-XV Wifly	Wi-fi Module	1	$34.95	https://www.sparkfun.com/products/10822
Paper Mache	Housing	1	$14.95	http://www.beverlys.com/alameda-store.html
Linksys WRT54G	Router	1	$39.99	http://www.amazon.com/Cisco-WRT54G-Cisco-Linksys-Wireless-G-Router/dp/B00007KDVI
5V Battery Pack	Power Supply	1	$5	Reused from old project
Wires, Resistors, Female Connectors, Standoff, Breadboard, etc.	Misc.	-	-	Various Sources

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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Wifi Connection Issues

Many wifi connection issues were encountered. To solve this problem, a dedicated task was created to re-connect to wifi if the connection was ever lost.

Conclusion

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Project Video

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Project Source Code

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References

Acknowledgement

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References Used

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Appendix

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