This fork is only for Chrysler/Jeep vehicles and requires a Comma 3 or later device to run. Comma 2 users need to use this branch
Come join us on Discord!
- This is my experimental branch, so I'm not responsible for any damage this may cause.
- jvePilot still does not have direct control of the gas and brakes! Changing the ACC speed does not always result in the vehicle braking unless the difference in speed is large enough. If the speed difference is small, the vehicle just lets off the gas.
- ACC can't go slower that 20mph
- ACC doesn't do a good job at seeing things that are already stopped
I have a 2018 Grand Cherokee Trailhawk, so I'm only able to confirm features using this vehicle.
- 2017 Gas Chrysler Pacifica: Confirmed by @debugged-hosting
This is my personal OpenPilot fork that includes features that I feel make it a better driving experience for me and possibly others.
- Smother driving in traffic as jvePilot will do a better job at predicting traffic and adjust ACC speed accordingly
- ACC braking by setting the cruse speed lower that the target to help slow the vehicle sooner
- Slow for cars cutting in before ACC does
- Slow in a turn, so you don't have to change the set speed yourself (Speeds are configurable)
- Auto resume after ACC comes to a stop behind vehicle (Can be disabled)
- Auto follow feature to adjust the follow distance based on speed (Speeds are configurable)
- ACC Eco to limit the throttle when accelerating
- Syncs jvePilot display speed with the vehicle speedometer
- Use LKAS button in the dash to disable lane line driving and instead use the new KL driving model. Read about KL model here.
- Gas/brake indication using green/red colors on speed indicator
This fork combines the speed control logic of OpenPilot with the vehicles Adaptive Cruse Control (ACC). It does this by changing the ACC speed to match the value OpenPilot calculates as the desired speed. This brings some of OpenPilots longitudinal control to these vehicles. Including things like slowing while cornering and slowing when it detects cut-ins. It will also smooth the braking of ACC when driving in traffic.
On FCA vehicles, only the steering is controlled by jvePilot and speed is left up to the ACC of the vehicle. This fork takes control of the ACC speed setting and adjusts the ACC speed to match the speed jvePilot would be targeting if it actually was able to control the gas and brakes. It does this by simulating ACC+ and ACC- button presses on the steering wheel to change the ACC speed. It is limited as ACC only goes down to 20 mph, so it doesn't help as low speeds.
ACC will come to a stop behind vehicles, however, if stopped too long, it will either stay stopped until resume is pressed, or simply disengage ACC altogether.
For the case where ACC simply cancels, the driver has to press and hold the brake to keep the vehicle stopped.
Auto resume makes life easier by resuming ACC when the vehicle in front of you begin to move, or, you let off the brake after coming to a standstill.
While stopped, you can still disengage jvePilot by pressing the Cancel button.
Auto Follow is a way to automate the changing of the stock follow distance setting. It sets the follow distance to closer at slow speeds and increases it the faster you go. Setting the follow speed to one/two bars helps with keeping up with cars that take off when stopped or at slow speeds. The faster you go, the more distance you want, so you can have more confidence in ACC being able to stop in case it needs to.
The current enabled state of Auto Follow is as an icon above the ACC Eco button on the jvePilot display. Pressing Follow + or - will disable Auto Follow giving you full control to set the follow distance. To re-enable Auto Follow, hold either Follow + or - for half a second.
When enabled, jvePilot will limit how far ahead the ACC setting is above the current speed.
This prevents the vehicle from using an aggressive throttle to get up to speed saving on gas/battery.
The ACC Eco button is located in the lower right corner of the display.
Tapping the button cycles between off, level 1, and level 2 eco settings.
Level 2 provides the slowest acceleration and is selected when both leaves are green.
Level 1 should provide a balance is selected when only one leaf is green.
If you feel these settings are not right for you or your vehicle, see the ACC Eco setting to adjust them.
Much like your vehicles eco/sport modes, the current setting is persisted between drives.
When using this branch, you will be setting the max ACC speed on the jvePilot display instead of the one in the dashboard. jvePilot will then set the ACC setting in the dashboard to the targeted speed, but never exceeding the max speed set on the jvePilot display. A quick press of the ACC+ and ACC- buttons will change this speed by 5 mph on the jvePilot display, while a long deliberate press (about a 1/2 second press) changes it by 1 mph. DO NOT hold the ACC+ or ACC- buttons for longer that a 1 second. Either make quick or long deliberate presses only.
Do not look at the dashboard when setting your ACC max speed. Instead, only look at the one on the jvePilot display. The reason you need to look at jvePilot is because jvePilot will be changing the one in the dashboard. It will be adjusting it as needed, never raising it above the one set on the jvePilot display.
ONLY look at the MAX speed on jvePilot when setting the ACC speed instead of the dashboard!
The easiest way to install jvePilot is to factory reset your C3 and use this Custom Software URL: https://bit.ly/jvePilot-release
/jvePilot-release
- The latest release. Will contain the latest version I feel is ready for daily use. Custom Software URL: https://bit.ly/jvePilot-release
/jvePilot-beta
- Sometimes I have people wanting to beta test jvePilot's new features. Mostly stable, but still can be buggy. Custom Software URL: https://bit.ly/jvePilot-beta
/feature/*
- These branches are where I'm working on new features. These are never safe to run as they change all the time.
Customizing features and parameters can be done on the UI display.
Click the gear icon and then select jvePilot from the sidebar.
Clicking on the text of feature of will show more information about it and allow customization of the feature.
Note that some settings do require a vehicle restart, and some don't
The settings that don't require a restart may take upward of 5 seconds to take effect after changing them.
jvePilot will slow in curves so that you don't have to.
- Default: On
- Vehicle Restart Required: No
Use this to tune the speed in curves to you liking. Setting this to 1.2 will cause jvePilot to drive 20% faster in turns than if it was set to the default of 1.0
- Default: 1.0
- Units: Ratio
- Vehicle Restart Required: No
- Min/Max values (0.1, 2)
Adjusts how much the speed drops as the curve increases. Decrease this value to lessen the amount of drop off as the curve increases. Changing this value will likely require adjusting the Speed Ratio to compensate.
- Default: 2.0
- Vehicle Restart Required: No
- Min/Max values (1.0, 3.0)
Reverse the stock ACC +/- button's 1mph on short press and 5mph on long press. Turn off to return to stock style.
- Default: On
- Vehicle Restart Required: Yes
This feature allows jvePilot to auto resume from an ACC stop.
- Default: On
- Vehicle Restart Required: Yes
If you don't want auto follow enabled on every start, turn this off.
When your speed (in MPH) is below this setting, Auto Follow will set the follow setting to one bar.
When you reach this speed (in MPH), Auto Follow will set the follow setting to two bars.
- Default: 15
- Units: MPH
- Vehicle Restart Required: No
- Min/Max values (0, 300)
When your speed (in MPH) is below this setting, Auto Follow will set the follow setting to two bars. When you reach this speed (in MPH), Auto Follow will set the follow setting to three bars.
- Default: 30
- Units: MPH
- Vehicle Restart Required: No
- Min/Max values (0, 300)
When your speed (in MPH) is below this setting, Auto Follow will set the follow setting to three bars. When you reach this speed (in MPH), Auto Follow will set the follow setting to four bars.
- Default: 65
- Units: MPH
- Vehicle Restart Required: No
- Min/Max values (0, 300)
ACC Eco limits acceleration by keep the ACC cruise speed closer to your current speed.
These setting are how far ahead, in MPH, of your current speed ACC will be set.
The higher the number, the more aggressive ACC will be when accelerating.
Use this setting to adjust ACC Eco level 1 (one green leaf) for a balance of speed and eco-ness
- Default: 7
- Units: MPH
- Vehicle Restart Required: No
- Min/Max values 1, 100
Use this setting to adjust ACC Eco level 2 (two green leaves) for maximum eco-ness
- Default: 5
- Units: MPH
- Vehicle Restart Required: No
- Min/Max values 1, 100
When this is enabled, you will hear a chime when your vehicle drops to a certain speed and can no longer be steered.
- Default: On
- Vehicle Restart Required: No
Compensate for mounting your device off center in the windshield. If you mounted your device off center, use this setting to compensate. Use positive values if your device is to the left of center and negative if it's to the right.
- Default: 0
- Units: Meters
- Vehicle Restart Required: No
- Min/Max values -1, 1
These settings are for advanced users doing advanced things. Use SSH and opEdit to change these settings.
When disabled, jvePilot will no longer put a minimum on steer speed. Requires a mod like a hardware interceptor.
- Setting:
steer.checkMinimum
- Default: True
- Vehicle Restart Required: Yes
- Allowed values: False, True
- What is openpilot?
- Running in a car
- Running on PC
- Community and Contributing
- User Data and comma Account
- Safety and Testing
- Directory Structure
- Licensing
openpilot is an open source driver assistance system. Currently, openpilot performs the functions of Adaptive Cruise Control (ACC), Automated Lane Centering (ALC), Forward Collision Warning (FCW), and Lane Departure Warning (LDW) for a growing variety of supported car makes, models, and model years. In addition, while openpilot is engaged, a camera-based Driver Monitoring (DM) feature alerts distracted and asleep drivers. See more about the vehicle integration and limitations.
To use openpilot in a car, you need four things
- A supported device to run this software: a comma three.
- This software. The setup procedure of the comma three allows the user to enter a URL for custom software. The URL, openpilot.comma.ai will install the release version of openpilot. To install openpilot master, you can use installer.comma.ai/commaai/master, and replacing commaai with another GitHub username can install a fork.
- One of the 150+ supported cars. We support Honda, Toyota, Hyundai, Nissan, Kia, Chrysler, Lexus, Acura, Audi, VW, and more. If your car is not supported but has adaptive cruise control and lane-keeping assist, it's likely able to run openpilot.
- A car harness to connect to your car.
We have detailed instructions for how to mount the device in a car.
All of openpilot's services can run as normal on a PC, even without special hardware or a car. To develop or experiment with openpilot you can run openpilot on recorded or simulated data.
With openpilot's tools, you can plot logs, replay drives, and watch the full-res camera streams. See the tools README for more information.
You can also run openpilot in simulation with the CARLA simulator. This allows openpilot to drive around a virtual car on your Ubuntu machine. The whole setup should only take a few minutes but does require a decent GPU.
A PC running openpilot can also control your vehicle if it is connected to a webcam, a black panda, and a harness.
openpilot is developed by comma and by users like you. We welcome both pull requests and issues on GitHub. Bug fixes and new car ports are encouraged. Check out the contributing docs.
Documentation related to openpilot development can be found on docs.comma.ai. Information about running openpilot (e.g. FAQ, fingerprinting, troubleshooting, custom forks, community hardware) should go on the wiki.
You can add support for your car by following guides we have written for Brand and Model ports. Generally, a car with adaptive cruise control and lane keep assist is a good candidate. Join our Discord to discuss car ports: most car makes have a dedicated channel.
Want to get paid to work on openpilot? comma is hiring.
And follow us on Twitter.
By default, openpilot uploads the driving data to our servers. You can also access your data through comma connect. We use your data to train better models and improve openpilot for everyone.
openpilot is open source software: the user is free to disable data collection if they wish to do so.
openpilot logs the road-facing cameras, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs. The driver-facing camera is only logged if you explicitly opt-in in settings. The microphone is not recorded.
By using openpilot, you agree to our Privacy Policy. You understand that use of this software or its related services will generate certain types of user data, which may be logged and stored at the sole discretion of comma. By accepting this agreement, you grant an irrevocable, perpetual, worldwide right to comma for the use of this data.
- openpilot observes ISO26262 guidelines, see SAFETY.md for more details.
- openpilot has software-in-the-loop tests that run on every commit.
- The code enforcing the safety model lives in panda and is written in C, see code rigor for more details.
- panda has software-in-the-loop safety tests.
- Internally, we have a hardware-in-the-loop Jenkins test suite that builds and unit tests the various processes.
- panda has additional hardware-in-the-loop tests.
- We run the latest openpilot in a testing closet containing 10 comma devices continuously replaying routes.
.
├── cereal # The messaging spec and libs used for all logs
├── common # Library like functionality we've developed here
├── docs # Documentation
├── opendbc # Files showing how to interpret data from cars
├── panda # Code used to communicate on CAN
├── third_party # External libraries
├── pyextra # Extra python packages
└── system # Generic services
├── camerad # Driver to capture images from the camera sensors
├── clocksd # Broadcasts current time
├── hardware # Hardware abstraction classes
├── logcatd # systemd journal as a service
└── proclogd # Logs information from /proc
└── selfdrive # Code needed to drive the car
├── assets # Fonts, images, and sounds for UI
├── athena # Allows communication with the app
├── boardd # Daemon to talk to the board
├── car # Car specific code to read states and control actuators
├── controls # Planning and controls
├── debug # Tools to help you debug and do car ports
├── locationd # Precise localization and vehicle parameter estimation
├── loggerd # Logger and uploader of car data
├── manager # Deamon that starts/stops all other daemons as needed
├── modeld # Driving and monitoring model runners
├── monitoring # Daemon to determine driver attention
├── navd # Turn-by-turn navigation
├── sensord # IMU interface code
├── test # Unit tests, system tests, and a car simulator
└── ui # The UI
openpilot is released under the MIT license. Some parts of the software are released under other licenses as specified.
Any user of this software shall indemnify and hold harmless Comma.ai, Inc. and its directors, officers, employees, agents, stockholders, affiliates, subcontractors and customers from and against all allegations, claims, actions, suits, demands, damages, liabilities, obligations, losses, settlements, judgments, costs and expenses (including without limitation attorneys’ fees and costs) which arise out of, relate to or result from any use of this software by user.
THIS IS ALPHA QUALITY SOFTWARE FOR RESEARCH PURPOSES ONLY. THIS IS NOT A PRODUCT. YOU ARE RESPONSIBLE FOR COMPLYING WITH LOCAL LAWS AND REGULATIONS. NO WARRANTY EXPRESSED OR IMPLIED.