Difference between revisions of "S23: CAN CLAN"

Revision as of 02:21, 15 March 2023 (view source) 243 user1 (talk | contribs) (→‎Schedule) ← Older edit		Revision as of 05:52, 7 April 2023 (view source) 243 user1 (talk | contribs) Newer edit →
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−	*<font color = "green"> completed	+	*<font color = "green"> Completed
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	! scope="row"| 2		! scope="row"| 2
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−	*<font color = "green"> completed	+	*<font color = "green"> Completed
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	! scope="row"| 3		! scope="row"| 3
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	* Integrate Motor Controller to CAN bus with DBC, handling messages		* Integrate Motor Controller to CAN bus with DBC, handling messages
	* Integrate Driver Controller to CAN bus with DBC, handling messages		* Integrate Driver Controller to CAN bus with DBC, handling messages
−	* Connect Sensor, Motor, and Driver controller together on CAN bus and verify messages	+	* All parts received
−	* Connect all nodes together on the CAN bus, connect android app, verify messages across all nodes	+
−	* Design interface for Geological Controller, with unit tests
−	* Design basic android app connection and communication
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−	*<font color = "red"> Uncompleted	+	*<font color = "green"> Completed
	|-		|-
	! scope="row"| 4		! scope="row"| 4
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	| 03/28/2023		| 03/28/2023
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		+	* Design interface for GEO Controller, with unit tests
	* Integrate Geological Controller to CAN bus with DBC, handling messages		* Integrate Geological Controller to CAN bus with DBC, handling messages
−	* Integrate Android app with Bridge/Sensor controller, sending/receiving messages both ways	+	* Integrate Ultrasonic sensor with SJ2 to verify distance from obstacle is sensed
	* Integrate Motor and Steering with PWM control, figure out the working ranges		* Integrate Motor and Steering with PWM control, figure out the working ranges
−	* Integrate Bluetooth module to Bridge/Sensor controller, with UART logic	+	* Integrate GPS sensor with SJ2, get GPGGA strings over UART, parse current coordinates
−	* Connect Android app to Bridge/Sensor controller, send test message
−	* All parts received
	|		|
−	*<font color = "red"> Uncompleted	+	*<font color = "red"> Completed
	|-		|-
	! scope="row"| 5		! scope="row"| 5
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	| 04/04/2023		| 04/04/2023
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−	* Connect all nodes together on the CAN bus, connect android app, verify messages across all nodes	+	* Integrate Compass sensor with SJ2 board over I2C and get bearing values
−	* Mobile app can send coordinates to Bridge controller	+	* Connect all nodes together on the CAN bus, verify messages across all nodes
−	* Start RPM sensor logic implementation and add it to Motor controller	+	* Code the Haversine formula into GEO controller to get distance and heading based on current and destination coordinates
		+	* Write driver logic based on distance and heading from GEO and obstacle details from sensor nodes
		+	* Integrate GPS and Compass peripherals, writing the driver and unit tests
	* '''MILESTONE - All individual modules considered "Roughly Working" with hardware interfaced'''		* '''MILESTONE - All individual modules considered "Roughly Working" with hardware interfaced'''
	|		|
−	*<font color = "red"> Uncompleted	+	*<font color = "red"> Completed
	|-		|-
	! scope="row"| 6		! scope="row"| 6
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	| 04/11/2023		| 04/11/2023
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−	* Integrate GPS and Compass peripherals, writing the driver and unit tests	+
		+	* Finalise the DBC file for project
		+	* Create a detailed schedule for remaining tasks, dividing work into four milestones
		+	* Work on calibrating compass sensor to get accurate bearing readings
		+	* Start RPM sensor logic implementation and add it to Motor controller
		+	* Integrate Bluetooth module to Bridge/Sensor controller, with UART logic
	* Have Driver node process GPS position/heading/bearing messages and incorporate in the driver logic		* Have Driver node process GPS position/heading/bearing messages and incorporate in the driver logic
	* Complete RPM sensor and integrate with Motor controller for reliable PID control		* Complete RPM sensor and integrate with Motor controller for reliable PID control
−	* Bridge sends to mobile app car status / telemetry data
−	* Compile additional parts list and order them
	* '''MILESTONE - Basic car driving ability with basic obstacle avoidance'''		* '''MILESTONE - Basic car driving ability with basic obstacle avoidance'''
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	| 04/18/2022		| 04/18/2022
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		+	* Integrate Android app with Bridge/Sensor controller, sending/receiving messages both ways
		+	* Mobile app can send coordinates to Bridge controller* Connect Android app to Bridge/Sensor controller, send test message
	* Create a on-board battery power supply for all components		* Create a on-board battery power supply for all components
	* Complete the Compass I2C integration and read values from the peripheral		* Complete the Compass I2C integration and read values from the peripheral

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Revision as of 05:52, 7 April 2023

Project Title

<Team Name>

---

Abstract

<2-3 sentence abstract>

Introduction

The project was divided into N modules:

• Sensor ...
• Motor..
• ...
• Android

Team Members & Responsibilities

<Team Picture>

Gitlab Project Link - [1]

<Provide ECU names and members responsible> <One member may participate in more than one ECU>

• Sensor
  • Link to Gitlab user1
  • Link to Gitlab user2

• Motor
  • Link to Gitlab user1
  • Link to Gitlab user2

• Geographical
  • Link to Gitlab user1
  • Link to Gitlab user2

• Communication Bridge Controller & LCD
  • Link to Gitlab user1
  • Link to Gitlab user2

• Android Application
  • Link to Gitlab user1
  • Link to Gitlab user2

• Testing Team
  • Link to Gitlab user1
  • Link to Gitlab user2

---

Schedule

Week#	Start Date	End Date	Task	Status
1	03/01/2023	03/07/2023	Read previous projects, gather information and discuss among the group members. Discuss each team-member's preference and assign controller roles Create parts list for the RC car, discuss, and decide on each item	Completed
2	03/08/2023	03/14/2023	Order all parts from list and save tracking/price info	Completed
3	03/15/2023	03/21/2023	Design interface for Bridge and Sensor Controller, with unit tests Design interface for Motor Controller, with unit tests Design interface for Driver and LCD Controller, with unit tests Integrate Bridge/Sensor Controller to CAN bus with DBC, handling messages Integrate Motor Controller to CAN bus with DBC, handling messages Integrate Driver Controller to CAN bus with DBC, handling messages All parts received	Completed
4	03/22/2023	03/28/2023	Design interface for GEO Controller, with unit tests Integrate Geological Controller to CAN bus with DBC, handling messages Integrate Ultrasonic sensor with SJ2 to verify distance from obstacle is sensed Integrate Motor and Steering with PWM control, figure out the working ranges Integrate GPS sensor with SJ2, get GPGGA strings over UART, parse current coordinates	Completed
5	03/29/2023	04/04/2023	Integrate Compass sensor with SJ2 board over I2C and get bearing values Connect all nodes together on the CAN bus, verify messages across all nodes Code the Haversine formula into GEO controller to get distance and heading based on current and destination coordinates Write driver logic based on distance and heading from GEO and obstacle details from sensor nodes Integrate GPS and Compass peripherals, writing the driver and unit tests MILESTONE - All individual modules considered "Roughly Working" with hardware interfaced	Completed
6	04/05/2023	04/11/2023	Finalise the DBC file for project Create a detailed schedule for remaining tasks, dividing work into four milestones Work on calibrating compass sensor to get accurate bearing readings Start RPM sensor logic implementation and add it to Motor controller Integrate Bluetooth module to Bridge/Sensor controller, with UART logic Have Driver node process GPS position/heading/bearing messages and incorporate in the driver logic Complete RPM sensor and integrate with Motor controller for reliable PID control MILESTONE - Basic car driving ability with basic obstacle avoidance	Uncompleted
7	04/12/2022	04/18/2022	Integrate Android app with Bridge/Sensor controller, sending/receiving messages both ways Mobile app can send coordinates to Bridge controller* Connect Android app to Bridge/Sensor controller, send test message Create a on-board battery power supply for all components Complete the Compass I2C integration and read values from the peripheral Have PWM signals reliably controlling the motor speed, start working "backwards driving mode" Interface LED ring on the Driver controller and display heading direction MILESTONE - Integrated, reliably "heading" towards provided destination bearing, basic obstacle avoidance First Demo (Apr. 26)	Uncompleted
8	04/19/2023	04/25/2023	3D print sensor housings, mounting for the whole platform Design and solder the prototype board with all SJTwo boards Add data to display on the LCD screen Outdoor testing for longer range trips, and complete necessary enhancements MILESTONE - Integration part 2, perform obstacle avoidance and destination bearing Second Demo (May 3)	Uncompleted
9	04/26/2023	05/02/2023	Verify that the electrical and mechanical work is complete MILESTONE - Integration and outdoor testing, adding necessary software changes Third Demo (May 10)	Uncompleted
10	05/03/2023	05/09/2023	enable the Headlights to the car MILESTONE - Integration testing, deal with uneven terrain, reliable waypoints navigation and obstacle avoidance Fourth Demo (May 17)	Uncompleted
11	05/10/2023	05/16/2023	Full System Testing, any needed Hardware and software fixes and optimizing	Uncompleted
11	05/24/2023	05/24/2023	Final Project Demo Day	Uncompleted

---

Parts List & Cost

Item#	Part Description	Vendor	Qty	Cost
1		Redcat []	1	$
2	SN65HVD23 CAN Transceivers	Waveshare[2]	5	$
3	HRLV-EZ0 Ultrasonic Sensors	[]	3	$
4		[]	1	$17.50
5		[]	1	$59.50
6		[]	1	$33.18
7		[]	1	$5.99
9		[]	1	$7.00

---

Printed Circuit Board

<Picture and information, including links to your PCB>

---

CAN Communication

<Talk about your message IDs or communication strategy, such as periodic transmission, MIA management etc.>

Hardware Design

<Show your CAN bus hardware design>

DBC File

<Gitlab link to your DBC file> <You can optionally use an inline image>

---

Sensor ECU

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

Motor ECU

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

Geographical Controller

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

---

Communication Bridge Controller & LCD

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

Master Module

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

Mobile Application

<Picture and link to Gitlab>

Hardware Design

Software Design

<List the code modules that are being called periodically.>

Technical Challenges

< List of problems and their detailed resolutions>

---

---

Conclusion

<Organized summary of the project>

<What did you learn?>

Project Video

Project Source Code

Advise for Future Students

<Bullet points and discussion>

Acknowledgement

=== References ===