Difference between revisions of "S16: SmartDoorLock"

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=== Grading Criteria ===
 
<font color="green">
 
*  How well is Software & Hardware Design described?
 
*  How well can this report be used to reproduce this project?
 
*  Code Quality
 
*  Overall Report Quality:
 
**  Software Block Diagrams
 
**  Hardware Block Diagrams
 
**:  Schematic Quality
 
**  Quality of technical challenges and solutions adopted.
 
</font>
 
 
 
== '''SmartDoorLock''' ==
 
== '''SmartDoorLock''' ==
  
Line 23: Line 11:
 
* Reading temperature and displaying suggestions.
 
* Reading temperature and displaying suggestions.
  
 
+
== Team Members ==
=== Team Members ===
 
 
* Arpita Ramanath  
 
* Arpita Ramanath  
 
* Sravani Aitha
 
* Sravani Aitha
  
=== Responsibilties ===
+
== Responsibilties ==
 
* Circuit design for Electric door strike
 
* Circuit design for Electric door strike
 
* Establishing Bluetooth communication between SJone Board and Android app using Uart.
 
* Establishing Bluetooth communication between SJone Board and Android app using Uart.
Line 35: Line 22:
 
* Overall Circuit Integration and Testing.
 
* Overall Circuit Integration and Testing.
  
== Schedule ==
+
== Weekly Schedule ==
  
 
{| class="wikitable"
 
{| class="wikitable"
Line 100: Line 87:
 
* Testing and fixing issues.  
 
* Testing and fixing issues.  
 
* Complete Wiki Report
 
* Complete Wiki Report
| In progress
+
| Done
 
|-
 
|-
 
|}
 
|}
Line 168: Line 155:
 
* '''Temperature Sensor''': SJone board receives outside temperature using temperature sensor and passes it to the LCD to display.
 
* '''Temperature Sensor''': SJone board receives outside temperature using temperature sensor and passes it to the LCD to display.
 
* '''LCD''': To display outside temperature and suggestions to the person exiting the door.
 
* '''LCD''': To display outside temperature and suggestions to the person exiting the door.
 +
 +
=== Overall Algorithm ===
 +
* Create two binary semaphores, which are waiting on Lock or Unlock signals from either Bluetooth or Motion sensor.
 +
* As soon as Android app sends a open signal followed by correct password over Bluetooth, Give unlock semaphore.
 +
* If PIR senses motion, Give unlock semaphore.
 +
* If motion detected, wait until there is no motion and give Lock semaphore.
 +
* If lock message is received through Bluetooth or wait time elapses after open message from Android app, Give  Lock semaphore.
 +
* Take the semaphore as soon as it is given and lock or unlock the electric door strike accordingly.
 +
* In Parallel, keep updating LCD periodically with outside temperature and friendly suggestions.
  
 
=== Hardware Design ===
 
=== Hardware Design ===
  
== Electric Door Strike ==
+
==== Electric Door Strike ====
  
 
The door strike being used in this project is of the type "fail-secure". This means that when there is no power being supplied to the strike, it remains locked. When a DC power supply of 12V is given, the strike unlocks, which can be detected by the characteristic clicking sound it makes.
 
The door strike being used in this project is of the type "fail-secure". This means that when there is no power being supplied to the strike, it remains locked. When a DC power supply of 12V is given, the strike unlocks, which can be detected by the characteristic clicking sound it makes.
Line 179: Line 175:
 
The 3.3V supplied by our SJOne board is not sufficient for operation of the strike, which needs 12V. Hence, we designed a power supply circuit to supply the strike with 12V. The circuit consists of a 12V supply, a 15V to 12V voltage regulator and a couple of capacitors.
 
The 3.3V supplied by our SJOne board is not sufficient for operation of the strike, which needs 12V. Hence, we designed a power supply circuit to supply the strike with 12V. The circuit consists of a 12V supply, a 15V to 12V voltage regulator and a couple of capacitors.
  
 +
'''SJone Board - Electric Door Strike Interface'''
  
 +
In order to control electric strike operation using SJOne board, it is interfaced using NMOSFET as shown in the image. GPIO pin is used as input to NMOSFET, Electric Door strike unlocks when GPIO pin outputs high otherwise it gets locked.
  
// Put circuit diagram, diagram of voltage regulator here
+
[[File:CmpE244_S16_SmartDoorLock_SJone_NMOSFET_DoorStrike.png|450px|thumb|center|text-top|Fig 3. NMOSFET to control ElectricDoorStrike using SJone]]
  
== Bluetooth Module ==
+
==== Bluetooth Module ====
  
 
The bluetooth module we are using is the BTBee Pro Xbee Wireless Bluetooth Module from Adafruit. The pins of this module are perfectly compatible with the pins of the SJOne board such that it can be directly fixed on to the board (as shown in the diagram).
 
The bluetooth module we are using is the BTBee Pro Xbee Wireless Bluetooth Module from Adafruit. The pins of this module are perfectly compatible with the pins of the SJOne board such that it can be directly fixed on to the board (as shown in the diagram).
  
[[File:CmpE244_S16_SmartDoorLock_BTBee_Interface.png|550px|thumb|center|text-top|Fig 5.BTBee Pro Xbee Module interface]]
+
[[File:CmpE244_S16_SmartDoorLock_BTBee_Interface.png|550px|thumb|center|text-top|Fig 4.BTBee Pro Xbee Module interface]]
 +
 
  
// Put image of bluetooth on SJOne board here.
 
  
 
The bluetooth module is interfaced with SJOne using UART2. When a connection is established, it is possible to send and receive messages via bluetooth between the Android App and SJOne board. This section does not require any other hardware.
 
The bluetooth module is interfaced with SJOne using UART2. When a connection is established, it is possible to send and receive messages via bluetooth between the Android App and SJOne board. This section does not require any other hardware.
  
== PIR Motion Sensor Module ==
+
==== PIR Motion Sensor Module ====
  
 
The PIR Motion Sensor from Adafruit allows us to sense motion, usually used to detect whether a human has moved in or out of the sensor's range. The sensitivity of this particular sensor is upto 20 feet. It needs a DC power supply of 5V. The circuit we are using to supply 5V to the sensor is similar to the 12V power supply circuit that was designed for the electric door strike.
 
The PIR Motion Sensor from Adafruit allows us to sense motion, usually used to detect whether a human has moved in or out of the sensor's range. The sensitivity of this particular sensor is upto 20 feet. It needs a DC power supply of 5V. The circuit we are using to supply 5V to the sensor is similar to the 12V power supply circuit that was designed for the electric door strike.
 
The sensor is interfaced with the SJOne board. The output wire of the sensor is connected to a GPIO pin (made as input) on the SJOne board.  
 
The sensor is interfaced with the SJOne board. The output wire of the sensor is connected to a GPIO pin (made as input) on the SJOne board.  
  
[[File:CmpE244_S16_SmartDoorLock_PIR_motion_sensor.png|650px|thumb|center|text-top|Fig 4. PIR Motion Sesor]]
+
[[File:CmpE244_S16_SmartDoorLock_PIR_motion_sensor.png|650px|thumb|center|text-top|Fig 5. PIR Motion Sensor]]
  
 
When motion is detected, a logic "1" is sent via the output wire of the sensor to the board. When there is no motion detected, the SJOne board receives a logic "0".
 
When motion is detected, a logic "1" is sent via the output wire of the sensor to the board. When there is no motion detected, the SJOne board receives a logic "0".
  
== LCD Module ==
+
==== LCD Module ====
  
 
A 20x4 LCD(CM 204-1) module along with a LCD driver by SJValley Engineering is used in the project. The LCD is provided a 5V DC power supply from the same circuit that provides power supply to the motion sensor. The connections between the SJOne board and LCD module are as shown in the diagram below.
 
A 20x4 LCD(CM 204-1) module along with a LCD driver by SJValley Engineering is used in the project. The LCD is provided a 5V DC power supply from the same circuit that provides power supply to the motion sensor. The connections between the SJOne board and LCD module are as shown in the diagram below.
  
// Put LCD and SJOne board connection diagram here.
+
The LCD module is interfaced with the SJOne board using UART. We have to make sure to set the baud rate correctly before any communication.
  
The LCD module is interfaced with the SJOne board using UART. We have to make sure to set the baud rate correctly before any communication.
+
== System Operation ==
  
 
+
=== Overall system  ===  
== System Operation ==
+
* A connection between the bluetooth module and android app is established using UART2.
 +
* Motion sensor's output is connected to a GPIO input pin.
 +
* LCD interfaced and initialized using UART3.
 +
* Create Binary semaphore's which are waiting on Bluetooth signal and Motion sensor readings.
 +
* Give unlock semaphore to unlock electric on either  Bluetooth open or when Motion detected.
 +
* If Motion Detected, wait until there is no motion and Give semaphore to lock the door.
 +
* If Bluetooth sends lock signal or when time elapses, Give Semaphore to lock the signal.
 +
* Keep updating LCD with current outside temperature and friendly messages.
  
 
The basic operation of the system can be divided into 3 parts.
 
The basic operation of the system can be divided into 3 parts.
  
 
=== Door lock and unlock ===
 
=== Door lock and unlock ===
 +
 +
[[File:CmpE244_S16_bluetooth_communication.jpg|300px|thumb|right|text-top|Fig 6. Bluetooth communication between app and SJOne board]]
  
 
* A connection between the bluetooth module and android app is established using UART2.
 
* A connection between the bluetooth module and android app is established using UART2.
Line 227: Line 234:
 
* If a message "LOCK" is received by the bluetooth module, The SJOne board cuts off power supply to the strike using the switch.
 
* If a message "LOCK" is received by the bluetooth module, The SJOne board cuts off power supply to the strike using the switch.
 
* The door is locked.
 
* The door is locked.
 
+
[[File:CmpE244_S16_Electric_strike_flow.jpg|400px|thumb|center|text-top|Fig 7. Door Opening/Closing Flowchart]]
//Put strike-flow diagram here
 
  
 
=== Automatic door opening by motion sensing ===
 
=== Automatic door opening by motion sensing ===
Line 239: Line 245:
 
* The switch between the strike and power supply is opened.
 
* The switch between the strike and power supply is opened.
 
* The door closes.
 
* The door closes.
 
+
[[File:CmpE244_S16_motion_sensor_flow.jpg|400px|thumb|center|text-top|Fig 8. Motion Sensor Flowchart]]
//Put sensor-flow diagram here
 
  
 
=== Temperature display at the entrance ===
 
=== Temperature display at the entrance ===
 +
[[File:CmpE244_S16_Entrance_LCD.jpg|400px|thumb|right|text-top|Fig 9. Display on the LCD module]]
  
 
* SJOne board has temperature sensors embedded in it.
 
* SJOne board has temperature sensors embedded in it.
 
* The outside temperature values are sensed, and sent to a LCD module.
 
* The outside temperature values are sensed, and sent to a LCD module.
 
* The LCD module is interfaced to the SJOne board using UART.
 
* The LCD module is interfaced to the SJOne board using UART.
* The temperature values are displayed, along with appropriate and friendly suggestions to a person leaving the house!!  
+
* The temperature values are displayed, along with appropriate and friendly suggestions to a person leaving the house!!
 +
[[File:CmpE244_S16_LCD_flow.jpg|400px|thumb|center|text-top|Fig 10. LCD Flowchart]]
  
//Put lcd flow diagram here
+
== Software Design ==
  
== Software Design ==
+
[[File:CmpE244_S16_Bluetooth_code.png|450px|thumb|Right|text-top|Fig 11. Bluetooth Pseudo code ]]
  
 
=== Door Opening and closing ===
 
=== Door Opening and closing ===
Line 260: Line 267:
 
* Use Uart2.gets()and Uart2.putstr() to receive and transmit characters respectively.
 
* Use Uart2.gets()and Uart2.putstr() to receive and transmit characters respectively.
 
* Compare received string to "OPEN" or "LOCK".
 
* Compare received string to "OPEN" or "LOCK".
* If password received, compare received password string with saved password.
+
* If password received, compare received password string with saved password.  
 
* Make a GPIO pin on SJOne board as output.
 
* Make a GPIO pin on SJOne board as output.
 
* If "OPEN" is received, send 1 from GPIO pin to close the switch.
 
* If "OPEN" is received, send 1 from GPIO pin to close the switch.
 
* Else if "LOCK" is received, send 0 from GPIO pin to open the switch.
 
* Else if "LOCK" is received, send 0 from GPIO pin to open the switch.
 
//Put image of code snippet here
 
  
 
=== Automatic Door Opening by motion sensing ===
 
=== Automatic Door Opening by motion sensing ===
Line 275: Line 280:
 
* If pin reads "1", send "1" from the other GPIO pin to close the switch.
 
* If pin reads "1", send "1" from the other GPIO pin to close the switch.
 
* Else if pin reads "0", send "0" from the other GPIO pin to open the switch.
 
* Else if pin reads "0", send "0" from the other GPIO pin to open the switch.
 +
 +
[[File:CmpE244_S16_LCD_code_snippet.png|450px|thumb|Right|text-top|Fig 12. LCD Pseudo code ]]
  
 
=== Temperature Display on LCD ===
 
=== Temperature Display on LCD ===
  
==== Algorithm used ====
+
==== Algorithm used ====  
  
* Initilize LCD using lcd_init().
+
* Initilize LCD using lcd_init().  
 
* Set baud rate using uart_init().
 
* Set baud rate using uart_init().
 
* Get temperature sensor values.
 
* Get temperature sensor values.
 
* Display text on LCD using uart_putline().
 
* Display text on LCD using uart_putline().
  
//Image of code snippet
+
 
 +
 
 +
A binary semaphore was used to make sure that the door opens or locks(from the android app) only from one of the systems - either due to motion detected from the inside by the sensor, or by the command sent via bluetooth. Both the bluetooth task and the sensor task do a "semaphore give" when they want to lock/unlock the door, and the semaphore is taken by the "Lock"/"Unlock" task from wherever it comes first.
  
 
== Testing & Technical Challenges ==
 
== Testing & Technical Challenges ==
Line 299: Line 308:
  
 
== Conclusion ==
 
== Conclusion ==
Conclude your project here. You can recap your testing and problems. You should address the "so what" part here to indicate what you ultimately learnt from this project. How has this project increased your knowledge?
+
 
 +
This project was so much fun to work on. We also learnt a lot about interfacing sensors, LCD modules and bluetooth modules to embedded platforms. We faced our portion of challenges, and overcame them. Mainly, it sparked a greater interest in us about embedded development. Overall it was a great experience working on it.
  
 
=== Project Video ===
 
=== Project Video ===
Upload a video of your project and post the link here.
+
 
 +
https://youtu.be/2j8xuRz3gQw
  
 
=== Project Source Code ===
 
=== Project Source Code ===
*  [https://sourceforge.net/projects/sjsu/files/CmpE_S2016/ Sourceforge Source Code Link]
+
 
 +
https://gitlab.com/arpita.ramanath/SmartDoorLock
  
 
== References ==
 
== References ==
Line 317: Line 329:
 
* https://www.sparkfun.com/datasheets/Components/LM7805.pdf
 
* https://www.sparkfun.com/datasheets/Components/LM7805.pdf
 
* Electric door strike connections: https://www.youtube.com/watch?v=K9fCKt6-b7o
 
* Electric door strike connections: https://www.youtube.com/watch?v=K9fCKt6-b7o
 
=== Appendix ===
 
You can list the references you used.
 

Latest revision as of 19:28, 8 February 2017

SmartDoorLock

Abstract

The frustration when you forget or lose the keys to your door is a common experience. SmartDoorLock provides a mechanism to lock and unlock your door with just your mobile phone, using bluetooth communication. The door also opens automatically when it senses an object approaching from the inside. An additional feature in the project is that a display near the entrance informs you about the weather outside, and gives friendly suggestions accordingly.

Objectives & Introduction

  • Communication between Bluetooth Module and Android app
  • Locking and unlocking electric strike via Bluetooth with password protection.
  • Detecting motion using PIR motion sensor.
  • Automatic unlocking the door based on motion detection.
  • Reading temperature and displaying suggestions.

Team Members

  • Arpita Ramanath
  • Sravani Aitha

Responsibilties

  • Circuit design for Electric door strike
  • Establishing Bluetooth communication between SJone Board and Android app using Uart.
  • Building power circuits for PIR motion sensor, LCD and Electric door strike
  • Interfacing LCD module with SJone Board using Uart.
  • Overall Circuit Integration and Testing.

Weekly Schedule

Week# Date Task Status
1 4/26/2016
  • Deciding on the project topic, deciding on hardware requirements.
  • Planning schedule
Done
2 4/26/2016
  • Ordering the components.
  • Understanding basic working of components.
Done
3 5/03/2016
  • Interface PIR sensor with SJone Board.
  • Verify functionality of the sensor.
Done
4 5/06/2016
  • Interface LCD.
  • Gather data from temperature sensor and display messages accordingly.
Done
5 5/10/2016
  • Design circuit for Electric Door Strike.
  • Test Electric Door strike functionality.
Done
6 5/13/2016
  • Interface Bluetooth module with SJone board.
  • Interface Bluetooth module with Android app.
  • Verify communication between Bluetooth module and Android app.
Done
7 5/17/2016
  • Integrate all modules.
  • Test system functionality.
  • Update Wiki
Done
8 5/20/2016
  • Testing and fixing issues.
  • Complete Wiki Report
Done

Parts List & Cost

Parts Cost*

PIR Motion sensor

$13.87

Electric Door Strike

$24.22

LCD

$10.99

BTBee Pro Bluetooth Xbee wireless Module

$14.99

SJ-One Board

$80 x 2

Design & Implementation

System Schematic

Fig 1. System Schematic

SmartDoorLock system is designed in a way that the door can be locked and unlocked using an Android app. It also detects motion when someone approaches the door towards the exit. Moreover, an LCD module is fitted near the exit which displays the outside temperature and provides friendly suggestions to the person exiting the door. It has the following components integrated.

  • Electric Door Strike: To unlock the door when user sends unlock signal through blurtooth.
  • Bluetooth Module: To establish a connection from Android app to SJone Board
  • Android app: Application to communicate with the SJone board over Bluetooth.
  • PIR Motion sensor: Detects motion if any person is approaching the exit. Based on sensor readings, SJone board sends a signal to electric door strike to unlock the Door.
  • Temperature Sensor: SJone board receives outside temperature using temperature sensor and passes it to the LCD to display.
  • LCD: To display outside temperature and suggestions to the person exiting the door.

Overall Algorithm

  • Create two binary semaphores, which are waiting on Lock or Unlock signals from either Bluetooth or Motion sensor.
  • As soon as Android app sends a open signal followed by correct password over Bluetooth, Give unlock semaphore.
  • If PIR senses motion, Give unlock semaphore.
  • If motion detected, wait until there is no motion and give Lock semaphore.
  • If lock message is received through Bluetooth or wait time elapses after open message from Android app, Give Lock semaphore.
  • Take the semaphore as soon as it is given and lock or unlock the electric door strike accordingly.
  • In Parallel, keep updating LCD periodically with outside temperature and friendly suggestions.

Hardware Design

Electric Door Strike

The door strike being used in this project is of the type "fail-secure". This means that when there is no power being supplied to the strike, it remains locked. When a DC power supply of 12V is given, the strike unlocks, which can be detected by the characteristic clicking sound it makes.

Fig 2. Electric Door Strike Voltage_supply 12V

The 3.3V supplied by our SJOne board is not sufficient for operation of the strike, which needs 12V. Hence, we designed a power supply circuit to supply the strike with 12V. The circuit consists of a 12V supply, a 15V to 12V voltage regulator and a couple of capacitors.

SJone Board - Electric Door Strike Interface

In order to control electric strike operation using SJOne board, it is interfaced using NMOSFET as shown in the image. GPIO pin is used as input to NMOSFET, Electric Door strike unlocks when GPIO pin outputs high otherwise it gets locked.

Fig 3. NMOSFET to control ElectricDoorStrike using SJone

Bluetooth Module

The bluetooth module we are using is the BTBee Pro Xbee Wireless Bluetooth Module from Adafruit. The pins of this module are perfectly compatible with the pins of the SJOne board such that it can be directly fixed on to the board (as shown in the diagram).

Fig 4.BTBee Pro Xbee Module interface


The bluetooth module is interfaced with SJOne using UART2. When a connection is established, it is possible to send and receive messages via bluetooth between the Android App and SJOne board. This section does not require any other hardware.

PIR Motion Sensor Module

The PIR Motion Sensor from Adafruit allows us to sense motion, usually used to detect whether a human has moved in or out of the sensor's range. The sensitivity of this particular sensor is upto 20 feet. It needs a DC power supply of 5V. The circuit we are using to supply 5V to the sensor is similar to the 12V power supply circuit that was designed for the electric door strike. The sensor is interfaced with the SJOne board. The output wire of the sensor is connected to a GPIO pin (made as input) on the SJOne board.

Fig 5. PIR Motion Sensor

When motion is detected, a logic "1" is sent via the output wire of the sensor to the board. When there is no motion detected, the SJOne board receives a logic "0".

LCD Module

A 20x4 LCD(CM 204-1) module along with a LCD driver by SJValley Engineering is used in the project. The LCD is provided a 5V DC power supply from the same circuit that provides power supply to the motion sensor. The connections between the SJOne board and LCD module are as shown in the diagram below.

The LCD module is interfaced with the SJOne board using UART. We have to make sure to set the baud rate correctly before any communication.

System Operation

Overall system

  • A connection between the bluetooth module and android app is established using UART2.
  • Motion sensor's output is connected to a GPIO input pin.
  • LCD interfaced and initialized using UART3.
  • Create Binary semaphore's which are waiting on Bluetooth signal and Motion sensor readings.
  • Give unlock semaphore to unlock electric on either Bluetooth open or when Motion detected.
  • If Motion Detected, wait until there is no motion and Give semaphore to lock the door.
  • If Bluetooth sends lock signal or when time elapses, Give Semaphore to lock the signal.
  • Keep updating LCD with current outside temperature and friendly messages.

The basic operation of the system can be divided into 3 parts.

Door lock and unlock

Fig 6. Bluetooth communication between app and SJOne board
  • A connection between the bluetooth module and android app is established using UART2.
  • A message "LOCK" or "OPEN" is sent from the app to the bluetooth module.
  • If the bluetooth module receives a message "OPEN", it reverts to the app asking for a password.
  • Now a password is sent from the app to the bluetooth module.
  • The password is verified.
  • If the password is a match, the SJOne board closes a switch between the electric door strike and 12V power supply.
  • The door is unlocked.
  • If the password do not match, an error message is sent to the app.
  • If a message "LOCK" is received by the bluetooth module, The SJOne board cuts off power supply to the strike using the switch.
  • The door is locked.
Fig 7. Door Opening/Closing Flowchart

Automatic door opening by motion sensing

  • The PIR motion sensor is connected to the SJOne board, which in turn is connected to the strike via a switch.
  • When motion is detected on the inside of the door, the sensor send a logic "1" to the SJOne board.
  • The SJOne board closes the switch between the electric strike and power supply.
  • The door opens.
  • When the sensor stops detecting motion, it sends a logic "0" to the board.
  • The switch between the strike and power supply is opened.
  • The door closes.
Fig 8. Motion Sensor Flowchart

Temperature display at the entrance

Fig 9. Display on the LCD module
  • SJOne board has temperature sensors embedded in it.
  • The outside temperature values are sensed, and sent to a LCD module.
  • The LCD module is interfaced to the SJOne board using UART.
  • The temperature values are displayed, along with appropriate and friendly suggestions to a person leaving the house!!
Fig 10. LCD Flowchart

Software Design

Fig 11. Bluetooth Pseudo code

Door Opening and closing

Algorithm used

  • Initialize bluetooth using bt_int().
  • Use Uart2.gets()and Uart2.putstr() to receive and transmit characters respectively.
  • Compare received string to "OPEN" or "LOCK".
  • If password received, compare received password string with saved password.
  • Make a GPIO pin on SJOne board as output.
  • If "OPEN" is received, send 1 from GPIO pin to close the switch.
  • Else if "LOCK" is received, send 0 from GPIO pin to open the switch.

Automatic Door Opening by motion sensing

Algorithm used

  • Make a GPIO pin on SJOne board as input.
  • Receive sensor output values on that pin.
  • If pin reads "1", send "1" from the other GPIO pin to close the switch.
  • Else if pin reads "0", send "0" from the other GPIO pin to open the switch.
Fig 12. LCD Pseudo code

Temperature Display on LCD

Algorithm used

  • Initilize LCD using lcd_init().
  • Set baud rate using uart_init().
  • Get temperature sensor values.
  • Display text on LCD using uart_putline().


A binary semaphore was used to make sure that the door opens or locks(from the android app) only from one of the systems - either due to motion detected from the inside by the sensor, or by the command sent via bluetooth. Both the bluetooth task and the sensor task do a "semaphore give" when they want to lock/unlock the door, and the semaphore is taken by the "Lock"/"Unlock" task from wherever it comes first.

Testing & Technical Challenges

Issue #1

The electric door strike wasn't working. The piece was faulty, but it took us a while to realize that. Before figuring it out, a considerable amount of time was wasted under the impression that there was something wrong with our circuit.

Issue #2

The most basic circuit connection between any two hardware parts operating at two different voltage levels is a common ground. We forgot to connect a common ground between the SJOne board and the motion sensor and struggled for quite a bit before realizing it.

Issue #3

Insufficient amperage to the electric strike. Though the voltage we were supplying to the electric strike was 12V, it was not receiving enough current (200 mA) due to our incorrect selection of resistor values. As a result, the strike made a weak buzzing sound but didn't unlock.

Conclusion

This project was so much fun to work on. We also learnt a lot about interfacing sensors, LCD modules and bluetooth modules to embedded platforms. We faced our portion of challenges, and overcame them. Mainly, it sparked a greater interest in us about embedded development. Overall it was a great experience working on it.

Project Video

https://youtu.be/2j8xuRz3gQw

Project Source Code

https://gitlab.com/arpita.ramanath/SmartDoorLock

References

Acknowledgement

We would like to thank Professor Preet Kang for his constant guidance, support, encouragement and words of wisdom.

References Used