Difference between revisions of "S20: Nimble"

Revision as of 01:55, 26 April 2020

1 Nimble
2 Abstract
- 2.1 Introduction
3 Team Members & Responsibilities
4 Team Deliverables Schedule
5 Parts List & Cost
6 Printed Circuit Board
7 CAN Communication
- 7.1 Hardware Design
- 7.2 DBC File
8 Sensor ECU
9 Motor ECU
10 Geographical Controller
11 Communication Bridge Controller & LCD
12 Master Module
13 Mobile Application
14 Conclusion

Nimble

Abstract

<2-3 sentence abstract>

Introduction

The project was divided into N modules:

Sensor ...
Motor..
...
Android

Team Members & Responsibilities

Tanmay Chandavarkar LinkedIn Gitlab
- Sensor Module
- Master Module

Yuming Cheng [ LinkedIn] Gitlab
- GPS Module
- Master Module
- Motor Module

Ellis Makwana LinkedIn Gitlab
- Sensor Module
- Master Module

Naeem Mannan [ LinkedIn] Gitlab
- Master Module
- Mobile Application
- LCD display

Francesco Vescio [ LinkedIn] Gitlab
- Sensor Module
- Master Module

Lawrence Wan [ LinkedIn] Gitlab
- Master Module
- GPS Module
- Motor Controller

Team Deliverables Schedule

WEEK	START DATE	END DATE	TASK DETAILS	STATUS
1	Feb 2020	4 March 2020	Create and establish GitLab repository Establish slack channel and invite Preet Look through previous years projects and study it Distribute major roles among team members	Complete Complete Complete Complete
2	05 March 2020	12 March 2020	Create a Bill of Materials. Select and order an RC car. Make Repo on Gitlab for all modules - Follow Naming Convention. Making the Wiki schedule.	Complete Complete Complete Complete
3	13 March 2020	19 March 2020	Select Part Number for Sensors (Tanmay, Ellis ) Designing and deciding PCB tool(Lawrence ) Finalizing GPS module by doing some research (Yuming ) Finalize and order LCD (Francesco ) Finalize Motor and Order it (Lawrence , Yuming ) Environmental setup of mobile app (Naeem ) 3/17/2020 -> Project Lab - RC Car Infrastructure	Complete Complete Complete In Progress In Progress In Progress Complete
4	20 March 2020	26 March 2020	Understand DBC and implement the DBC file compatible with all the controllers. (Updating the DBC files from all nodes) Finish purchasing the Sensor (Tanmay) Establish communication across all the CAN controllers over CAN bus based on the DBC file. Verify the power-up interactions and configurations between Master and the other controllers. Establish a connection over Bluetooth and mobile app.(Naeem) 3/24/2020 -> Project Lab - GPS & Compass Node 3/24/2020 -> Anonymous Reviews	In Progress Complete In Progress In Progress Complete Complete Complete
5	27 March 2019	09 April 2019	3/24/2020 -> Finish deciding the Pins that will be used in each nodes. 3/30/2020 -> Completed the rough draft of block digram and Flow chart for each node logics. Establish a communication between Bluetooth devices.(Naeem) Interfacing of ultrasonic sensors to the SJTwo board and check for basic functionality. (Tanmay, Ellis) Interface of Servo & DC motor to the SJTwo board and check for basic functionality. (Yuming) Interface Compass module with SJTwo board using I2C serial bus. (Lawrence) Interface GPS module with SJTwo board. (Lawrence) Interface bluetooth module with SJtwo board using serial Communication. (Naeem) Configure bluetooth module name as Nimble using Communication Mode. (Naeem) Add a TextView for displaying the Bluetooth connection status in mobile App.(Naeem) Explore UI designing of LCD. (Francesco) 4/01/2020 -> Updated Overall DBC file. 4/01/2020 -> Update the wiki schedule. 4/04/2020 -> Completed the Circuit designs for the PCB. 4/04/2020 -> Finalized the components for PCB.	Complete In Progress In Progress In Progress In Progress In Progress In Progress In Progress In Progress In Progress In Progress Complete Complete In Progress In Progress
6	10 April 2020	16 April 2020	Implement basic obstacle avoidance algorithm based on sensor data and test the same. Continue testing motor driver via commands from CAN bus. Build in speed steps to reverse motor for reverse to work correctly. Mount all the sensors and test for any dead band and modify their positions for maximum coverage. Integrate the fusion of LIDAR and Ultrasound sensor to get overall feedback from all the directions. Develop algorithm to avoid obstacles and plan the car's further navigation path. Complete final prototype of the obstacle avoidance feature. Calibrate Compass Module. Develop code for Compass module communication over CAN. Test Run the Motors driven by wheel feedback and sensors, Basic obstacle avoidance. 4/16/2020 -> Update the wiki schedule.	Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet
7	17 April 2020	23 April 2020	Configure GPS device baud rate and interface it with SJOne board using UART. Send and receive current location, destination and checkpoint coordinates to and from App and Geo module via BRIDGE. Calibrate sensors readings and work on filtering algorithm with Master & Sensor Begin work on LCD to show vehicle live status(speed, fuel-status, obstacles, distance to destination etc.) in a GUI. Finish implementing speed control on motor (to make sure requested speed is met based on RPM read). Work on Car reversing using Motor Controllers. Integrate all modules with the Master to test the data flow. Validation & Verification of obstacle avoidance, steering logic with rear sensor inputs and reversing. Start incorporating GEO Controller information to Master module Steering logic. Decide, implement and test data exchange between Geo Controller and BRIDGE. Calculate and send simple bearing angle and destination status on CAN to figure out initial challenges. Add a Google Map for setting the car's destination. Send car location to app and check points received to Geo module. Verify the stringent requirement of Start-up Sync, Periodic heart-beat messages. 4/23/2020 -> Update the wiki schedule and the git repo.	Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet
8	24 April 2020	30 April 2020	Testing & Validation of the LCD UI and display run time vehicle status and looking forward for feedback from team if any. Improve & Validate Navigation logic with multiple checkpoints, bearing angle and destination information. Identify and mitigate GPS locking, Location Accuracy and Number of Satellite-In-View coming. Validate Accuracy of Compass Calibration with iPhone Compass. Determine and add DBC Changes and finalized. Implement the steering logic with bearing angle and status provided by GEO-Module. Consistently Communicate current car location to App, get check points from App and relay them to Geo module. Send additional vehicle status information from can bus to the App for display. Send the request to Google for getting the checkpoints(use the Google Maps Directions API). Field test and check for obvious issues in obstacle avoidance, navigation, maintaining speed (up/down hill). Provide feed backs to each team on identified short comings. Update Wiki with new details and information. DEMO: GPS driving	Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet
9	1 May 2020	7 May 2020	FIELD TESTING - CRITICAL WEEK Implement turning indicators, break lights and head light. Check for Corner cases for steering logic under various conditions and locations. Analyse field test results for GPS and CMPS and work on it if required. Test the accuracy of check-points from the Blue-tooth controller, location data from the Geo-controller sensor and Navigation Algorithm. Check overall robustness of the complete system. Establish complete connection on PCB Update wiki with details.	Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet
10	8 May 2020	21 May 2020	All hands on testing and final bug fixes. Check for tuning or calibration of modules if required. Complete end-to-end testing for various scenarios and conditions. Create the semester long project activity video and upload to YouTube. Update and finalize wiki.	Not Started Yet Not Started Yet Not Started Yet Not Started Yet Not Started Yet
11	22 May 2020		DEMO: Final Project SUBMISSION: Final Project Wiki	Not Started Yet Not Started Yet

Parts List & Cost

Item#	Part Desciption	Vendor	Qty	Cost
1	RC Car	Traxxas - Amazon [1]	1	$168.84
2	CAN Transceivers MCP2551-I/P	Robotshop [2]	6	$ 6.00 per unit including shipping fee
3	GPS	Amazon []	1	$ .00 per unit including shipping fee
4	Compass	Amazon []	1	$ .00 per unit including shipping fee
5	Ultrasonic sensors(LV-MaxSonar-EZ0)	SparkFun [3]	1	$ 29.95
6	Ultrasonic sensors (LV-MaxSonar-EZ1)	SparkFun [4]	2	$ 51.90
7	IR sensors (GP2Y0A21YK)	SparkFun [5]	1	$ 34.23 including shipping fee and tax

Printed Circuit Board

CAN Communication

Hardware Design

DBC File

Shown below is the DBC implementation for this project.

VERSION ""
NS_ :
    BA_
    BA_DEF_
    BA_DEF_DEF_
    BA_DEF_DEF_REL_
    BA_DEF_REL_
    BA_DEF_SGTYPE_
    BA_REL_
    BA_SGTYPE_
    BO_TX_BU_
    BU_BO_REL_
    BU_EV_REL_
    BU_SG_REL_
    CAT_
    CAT_DEF_
    CM_
    ENVVAR_DATA_
    EV_DATA_
    FILTER
    NS_DESC_
    SGTYPE_
    SGTYPE_VAL_
    SG_MUL_VAL_
    SIGTYPE_VALTYPE_
    SIG_GROUP_
    SIG_TYPE_REF_
    SIG_VALTYPE_
    VAL_
    VAL_TABLE_
BS_:
BU_: DBG DRIVER IO MOTOR SENSOR BRIDGE GPS COMPASS CMP

BO_ 150 MOTOR_CMD: 3 DRIVER
 SG_ MOTOR_CMD_STEERING : 0|8@1+ (1,-2) [-2|2] "" MOTOR 
 SG_ MOTOR_CMD_SPEED : 8|8@1+ (1,-25) [-25|25] "" MOTOR

BO_ 200 SENSOR_DATA: 8 SENSOR
 SG_ SENSOR_SONARS_left : 0|16@1+ (1,0) [0|0] "cms" DRIVER
 SG_ SENSOR_SONARS_mid : 16|16@1+ (1,0) [0|0] "cms" DRIVER
 SG_ SENSOR_SONARS_right : 32|16@1+ (1,0) [0|0] "cms" DRIVER
 SG_ SENSOR_IR_rear : 48|16@1+ (1,0) [0|0] "cms" DRIVER

BO_ 300 GPS_DESTINATION_INFO: 8 BRIDGE
 SG_ GPS_DESTINATION_LAT : 0|28@1+ (0.000001,-90.000000) [-90|90] "degrees" DRIVER,GPS,MOTOR
 SG_ GPS_DESTINATION_LONG : 28|29@1+ (0.000001,-180.000000) [-180|180] "degrees" DRIVER,GPS,MOTOR

BO_ 301 GPS_CURRENT_INFO: 8 GPS
 SG_ GPS_CURRENT_LAT : 0|28@1+ (0.000001,-90.000000) [-90|90] "degrees" DRIVER,BRIDGE,MOTOR
 SG_ GPS_CURRENT_LONG : 28|29@1+ (0.000001,-180.000000) [-180|180] "degrees" DRIVER,BRIDGE,MOTOR

BO_ 302 COMPASS: 6 GPS 
 SG_ CMP_DEST_BEARING : 0|16@1+ (0.1,0) [0|359.9] "degrees" DRIVER,BRIDGE,MOTOR
 SG_ CMP_CURRENT_HEADING : 16|16@1+ (0.1,0) [0|359.9] "degrees" DRIVER,BRIDGE,MOTOR
 SG_ CMP_DISTANCE : 32|16@1+ (0.01,0) [0|0] "meters" DRIVER,BRIDGE 
   
BO_ 100 DRIVER_HEARTBEAT: 1 DRIVER
 SG_ DRIVER_HEARTBEAT_cmd : 0|8@1+ (1,0) [0|0] "" SENSOR,MOTOR,GPS,BRIDGE

BO_ 101 SENSOR_HEARTBEAT: 1 SENSOR
 SG_ SENSOR_heartbeat : 0|1@1+ (1,0) [0|1] "" DRIVER
  
BO_ 102 MOTOR_HEARTBEAT: 1 MOTOR
 SG_ MOTOR_SENSOR_heartbeat : 0|1@1+ (1,0) [0|1] "" DRIVER
       
BO_ 103 GPS_HEARTBEAT: 1 GPS
 SG_ GPS_SENSOR_heartbeat : 0|1@1+ (1,0) [0|1] "" DRIVER
    
BO_ 104 BRIDGE_HEARTBEAT: 1 BRIDGE
 SG_ BRIDGE_SENSOR_heartbeat : 0|1@1+ (1,0) [0|1] "" DRIVER

BO_ 105 SENSOR_DEBUG: 1 SENSOR
 SG_ IO_DEBUG_CAN_init : 0|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_sensor_init : 1|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_sensor_data : 2|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_bus_off : 3|1@1+ (1,0) [0|0] "" DBG
 
BO_ 106 MOTOR_DEBUG: 3 MOTOR
 SG_ IO_DEBUG_CAN_init : 0|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_bus_off : 1|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_RPM_kph : 2|8@1+ (0.1,-25.6) [-25.6|25.5] "" DBG
 SG_ IO_DEBUG_Steering : 10|8@1+ (1,-2) [-2|2] "" DBG
 
BO_ 107 DRIVER_DEBUG: 1 DRIVER
 SG_ IO_DEBUG_CAN_init : 0|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_bus_off : 1|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_DRIVER : 3|1@1+ (1,0) [0|0] "" DBG

BO_ 108 GPS_DEBUG: 1 GPS
 SG_ IO_DEBUG_CAN_init : 0|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_bus_off : 2|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_GPS : 3|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_Compass : 5|1@1+ (1,0) [0|0] "" DBG

BO_ 109 BRIDGE_DEBUG: 1 BRIDGE
 SG_ IO_DEBUG_CAN_init : 0|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_bus_off : 2|1@1+ (1,0) [0|0] "" DBG
 SG_ IO_DEBUG_Bridge : 4|1@1+ (1,0) [0|0] "" DBG 

CM_ BU_ DRIVER "The driver controller driving the car";
CM_ BU_ MOTOR "The motor controller of the car";
CM_ BU_ SENSOR "The sensor controller of the car";
CM_ BU_ BRIDGE "The bridge controller of the car";
CM_ BU_ GPS    "The GPS controller of the car";
CM_ BO_ 100 "Sync message used to synchronize the controllers";
CM_ SG_ 100 DRIVER_HEARTBEAT_cmd "Heartbeat command from the driver";

BA_DEF_ "BusType" STRING ;
BA_DEF_ BO_ "GenMsgCycleTime" INT 0 0;
BA_DEF_ SG_ "FieldType" STRING ;
BA_DEF_DEF_ "BusType" "CAN";
BA_DEF_DEF_ "FieldType" "";
BA_DEF_DEF_ "GenMsgCycleTime" 0;

BA_ "GenMsgCycleTime" BO_ 100 1000;
BA_ "GenMsgCycleTime" BO_ 200 50;
BA_ "FieldType" SG_ 100 DRIVER_HEARTBEAT_cmd "DRIVER_HEARTBEAT_cmd";

VAL_ 100 DRIVER_HEARTBEAT_cmd 2 "DRIVER_HEARTBEAT_cmd_REBOOT" 1 "DRIVER_HEARTBEAT_cmd_SYNC" 0 "DRIVER_HEARTBEAT_cmd_NOOP" ;