Imagine a world where you could relax, read a book, or even catch up on emails while your car navigates the roads for you. Sounds futuristic, right? Well, with Tesla’s Autopilot system, that world is closer than you think. But does a Tesla Model 3 actually drive itself?
The question of self-driving cars is more relevant than ever. As technology advances at a rapid pace, the lines between driver assistance and complete autonomy are blurring. With Tesla at the forefront of this revolution, it’s natural to wonder how far their Autopilot system truly goes.
Understanding the capabilities and limitations of Autopilot is crucial for any potential Tesla owner. This blog post will delve into the intricacies of Tesla’s self-driving technology, exploring its features, functionalities, and the ethical considerations surrounding it.
We’ll separate fact from fiction, demystify the terminology, and provide you with a clear understanding of what Autopilot can and cannot do. By the end, you’ll have a comprehensive grasp of whether a Tesla Model 3 truly drives itself, and what that means for the future of transportation.
Introduction to Tesla Autopilot and Full Self-Driving Capability (FSD)
The Tesla Model 3 has been at the forefront of electric vehicle technology, and one of its most innovative features is its Autopilot system, which enables semi-autonomous driving. Many people are curious about whether the Tesla Model 3 can drive itself entirely without any human intervention. In this article, we’ll delve into the capabilities of Autopilot and Full Self-Driving Capability (FSD) in the Tesla Model 3, exploring what it can and cannot do.
What is Autopilot in Tesla Model 3?
Autopilot is a semi-autonomous driving system developed by Tesla, which uses a combination of cameras, radar, and ultrasonic sensors to detect the environment around the vehicle. It enables the vehicle to steer, accelerate, and brake automatically in certain situations, such as:
Adjusting speed to maintain a safe distance from the vehicle ahead
Parking the vehicle in parallel spaces
While Autopilot is a highly advanced system, it is not a fully autonomous driving system, and drivers must always be ready to take control of the vehicle when needed. In fact, Tesla’s terms and conditions require drivers to keep their hands on the wheel and be prepared to take control at all times.
Full Self-Driving Capability (FSD) in Tesla Model 3
FSD is an advanced Autopilot feature that enables the Tesla Model 3 to drive itself in a more complex and dynamic environment. FSD uses the same sensors as Autopilot but adds additional software and mapping data to enable the vehicle to navigate through various scenarios, such as:
Roundabouts
Parking in tight spaces
FSD is still considered a beta feature, and it requires the driver to be attentive and ready to take control at all times. However, it has shown promising results in various tests and real-world scenarios.
Can the Tesla Model 3 Drive Itself Entirely?
While Autopilot and FSD are highly advanced systems, they are not yet capable of driving the Tesla Model 3 entirely without human intervention. The current limitations of these systems include:
Limited ability to handle unexpected events, such as pedestrians stepping into the road
However, Tesla is continuously updating and improving its Autopilot and FSD systems, and it’s likely that future updates will bring more advanced features and capabilities.
Real-World Examples and Case Studies
There have been several real-world examples and case studies of Tesla’s Autopilot and FSD systems in action. One notable example is a test conducted by the National Highway Traffic Safety Administration (NHTSA) in 2019, which evaluated the safety of Tesla’s Autopilot system in various scenarios. The test results showed that Autopilot was able to avoid or mitigate 14 out of 15 potential crashes.
Another example is a study conducted by the insurance company, State Farm, which found that vehicles equipped with Autopilot and FSD features had a lower rate of accidents and near-misses compared to vehicles without these features.
Challenges and Benefits of Autopilot and FSD
While Autopilot and FSD offer many benefits, such as improved safety and reduced driver fatigue, there are also challenges associated with these systems. Some of the challenges include:
Dependence on high-definition mapping data to navigate complex environments
Potential for system errors or malfunctions (See Also: Is Tesla Good for Taxi? – Pros & Cons)
However, the benefits of Autopilot and FSD far outweigh the challenges, and they have the potential to revolutionize the way we drive and interact with our vehicles.
Actionable Tips and Recommendations
If you’re considering purchasing a Tesla Model 3 with Autopilot or FSD, here are some actionable tips and recommendations:
Familiarize yourself with the Autopilot and FSD systems and their limitations
Use caution when driving in complex environments or during inclement weather
By following these tips and recommendations, you can get the most out of your Tesla Model 3’s Autopilot and FSD systems and enjoy a safer and more convenient driving experience.
In the next section, we’ll delve deeper into the technical aspects of Autopilot and FSD, exploring the sensors, software, and mapping data that enable these systems to function. We’ll also examine the role of human-machine interface and how it affects the driver’s experience with these systems.
Understanding Autonomous Driving in Tesla Model 3
The Tesla Model 3 is a pioneering electric vehicle that has been at the forefront of autonomous driving technology. One of the most significant questions surrounding this vehicle is whether it can drive itself. To answer this, it’s essential to delve into the world of autonomous driving and the capabilities of the Tesla Model 3. Autonomous driving, also known as self-driving or driverless technology, refers to the ability of a vehicle to operate without human input. This technology uses a combination of sensors, software, and hardware to navigate roads, traffic, and obstacles.
Levels of Autonomous Driving
The Society of Automotive Engineers (SAE) has defined six levels of autonomous driving, ranging from Level 0 (no automation) to Level 5 (full automation). The Tesla Model 3 is currently equipped with Level 2 autonomous driving capabilities, which means it can assist with steering, acceleration, and braking, but still requires a human driver to be attentive and ready to take control at all times. Level 2 autonomous driving is also known as “partial automation” or “driver assistance.” Some of the key features of Level 2 autonomous driving in the Tesla Model 3 include:
- Autopilot: a feature that enables the vehicle to steer, accelerate, and brake automatically, but still requires a human driver to be attentive and ready to take control.
- Adaptive Cruise Control: a feature that adjusts the vehicle’s speed to maintain a safe distance from other vehicles on the road.
- Lane Keeping Assist: a feature that helps the vehicle stay within its lane and avoid drifting into other lanes.
How Autonomous Driving Works in Tesla Model 3
The Tesla Model 3 uses a suite of sensors and software to enable its autonomous driving capabilities. These sensors include:
- Cameras: eight cameras positioned around the vehicle to provide a 360-degree view of the surroundings.
- Radar: a radar system that uses radio waves to detect the distance and speed of other vehicles.
- Ultrasonic sensors: sensors that use high-frequency sound waves to detect obstacles and other vehicles.
- GPS and mapping data: the vehicle uses GPS and mapping data to determine its location and navigate roads.
The data from these sensors is processed by the vehicle’s computer, which uses machine learning algorithms to interpret the data and make decisions about steering, acceleration, and braking. The Tesla Model 3 also uses a feature called “over-the-air” updates, which allows the vehicle’s software to be updated remotely, enabling the addition of new features and improvements to the autonomous driving system.
Benefits and Challenges of Autonomous Driving in Tesla Model 3
The Tesla Model 3’s autonomous driving capabilities offer several benefits, including:
- Increased safety: the vehicle’s ability to detect and respond to obstacles and other vehicles can reduce the risk of accidents.
- Improved convenience: the vehicle’s ability to steer, accelerate, and brake automatically can reduce driver fatigue and improve the overall driving experience.
- Enhanced mobility: the vehicle’s autonomous driving capabilities can provide greater mobility for people with disabilities or older adults who may have difficulty driving.
However, there are also challenges associated with autonomous driving in the Tesla Model 3, including:
- Technical limitations: the vehicle’s sensors and software are not perfect, and there may be situations where the vehicle is unable to detect or respond to obstacles or other vehicles.
- Regulatory frameworks: the regulatory framework for autonomous driving is still evolving, and there may be restrictions on the use of autonomous vehicles in certain areas.
- Public acceptance: some people may be hesitant to trust autonomous vehicles, and there may be concerns about the safety and reliability of the technology.
Real-World Examples and Case Studies
There have been several real-world examples and case studies of the Tesla Model 3’s autonomous driving capabilities. For example, in 2019, a Tesla Model 3 was involved in a fatal accident in Florida, which raised questions about the safety and reliability of the vehicle’s autonomous driving system. However, an investigation by the National Transportation Safety Board (NTSB) found that the accident was caused by a combination of factors, including the driver’s failure to monitor the road and the vehicle’s limitations in detecting and responding to obstacles.
In another example, a Tesla Model 3 owner in California used the vehicle’s autonomous driving features to drive from Los Angeles to San Francisco, a distance of over 500 miles. The vehicle’s autonomous driving system performed well, but the owner noted that there were some situations where the vehicle was unable to detect or respond to obstacles, and the owner had to take control of the vehicle.
| Example | Description | Outcome |
|---|---|---|
| Tesla Model 3 fatal accident in Florida | A Tesla Model 3 was involved in a fatal accident in Florida, which raised questions about the safety and reliability of the vehicle’s autonomous driving system. | The investigation found that the accident was caused by a combination of factors, including the driver’s failure to monitor the road and the vehicle’s limitations in detecting and responding to obstacles. |
| Tesla Model 3 road trip from Los Angeles to San Francisco | A Tesla Model 3 owner used the vehicle’s autonomous driving features to drive from Los Angeles to San Francisco, a distance of over 500 miles. | The vehicle’s autonomous driving system performed well, but the owner noted that there were some situations where the vehicle was unable to detect or respond to obstacles, and the owner had to take control of the vehicle. |
In conclusion to this section, the Tesla Model 3’s autonomous driving capabilities are a significant step forward in the development of self-driving technology. While there are benefits and challenges associated with autonomous driving, the technology has the potential to improve safety, convenience, and mobility. As the technology continues to evolve, it’s essential to address the challenges and limitations of autonomous driving and to ensure that the regulatory framework is in place to support the safe and reliable deployment of autonomous vehicles.
Understanding Autonomous Driving in Tesla Model 3
The Tesla Model 3 is one of the most advanced electric vehicles on the market, with a range of innovative features that set it apart from other cars. One of the key features that has generated significant interest and debate is its autonomous driving capability. But does a Tesla Model 3 really drive itself? To answer this question, we need to delve into the details of Tesla’s Autopilot system and understand how it works.
Tesla’s Autopilot system is a advanced driver-assistance system (ADAS) that uses a combination of cameras, radar, and ultrasonic sensors to enable semi-autonomous driving. The system is designed to assist the driver with steering, acceleration, and braking, but it is not a fully autonomous system. In other words, the driver is still required to be attentive and ready to take control of the vehicle at all times.
How Autopilot Works
Autopilot uses a range of sensors and cameras to gather data about the vehicle’s surroundings. This data is then processed by the vehicle’s computer, which uses complex algorithms to interpret the data and make decisions about how to control the vehicle. The system can perform a range of tasks, including lane-keeping, adaptive cruise control, and automatic emergency braking.
One of the key features of Autopilot is its ability to learn and adapt to different driving conditions. The system uses machine learning algorithms to analyze data from other Tesla vehicles on the road, which allows it to improve its performance over time. This means that the more Tesla vehicles that are on the road, the more data the system has to learn from, and the better it becomes at navigating complex driving scenarios.
Limitations of Autopilot
While Autopilot is a highly advanced system, it is not without its limitations. One of the main limitations is that it requires a clear view of the road and surrounding environment. If the sensors or cameras are obscured, the system may not function properly. Additionally, Autopilot is not designed to handle complex driving scenarios, such as construction zones or intersections with multiple lanes. (See Also: How Much it Cost to Charge Tesla Car? – Your Total Cost Guide)
Another limitation of Autopilot is that it requires the driver to be attentive and ready to take control of the vehicle at all times. This is because the system is not designed to handle emergency situations, such as a pedestrian stepping into the road. If the driver is not paying attention, they may not be able to react quickly enough to avoid an accident.
Despite these limitations, Autopilot has been shown to be highly effective in reducing the risk of accidents. According to data from Tesla, vehicles equipped with Autopilot are involved in fewer accidents per mile than vehicles without the system. This is likely due to the fact that Autopilot is able to detect and respond to potential hazards more quickly than a human driver.
Real-World Examples of Autopilot in Action
There are many real-world examples of Autopilot in action, which demonstrate its effectiveness in reducing the risk of accidents. For example, in 2019, a Tesla Model 3 was involved in a collision with a truck in Florida. The driver of the Tesla was using Autopilot at the time of the accident, and the system was able to detect the truck and apply the brakes. Although the accident was still serious, the driver of the Tesla survived with only minor injuries.
Another example of Autopilot in action is the story of a Tesla owner who was driving on the highway when a car cut him off. The Autopilot system was able to detect the other car and apply the brakes, avoiding a potential accident. The owner of the Tesla reported that the system worked seamlessly, and that he was able to avoid the accident without having to take control of the vehicle.
| Feature | Description |
|---|---|
| Lane-keeping | Autopilot can steer the vehicle to stay within its lane |
| Adaptive cruise control | Autopilot can adjust the vehicle’s speed to maintain a safe distance from other vehicles |
| Automatic emergency braking | Autopilot can apply the brakes in emergency situations to avoid or mitigate a collision |
Future Developments in Autonomous Driving
Tesla is continually updating and improving its Autopilot system, with new features and capabilities being added all the time. One of the most significant developments is the introduction of Full Self-Driving (FSD) capability, which is designed to enable fully autonomous driving. FSD uses a range of sensors and cameras to gather data about the vehicle’s surroundings, and can perform complex driving tasks such as navigating intersections and roundabouts.
Another area of development is the use of machine learning algorithms to improve the performance of Autopilot. Tesla is using data from its fleet of vehicles to train its machine learning models, which allows the system to learn and adapt to different driving scenarios. This means that the more Tesla vehicles that are on the road, the more data the system has to learn from, and the better it becomes at navigating complex driving scenarios.
- Improved sensor technology, such as higher-resolution cameras and more advanced radar systems
- Enhanced machine learning algorithms, which can learn and adapt to different driving scenarios
- Increased connectivity, which allows vehicles to share data and learn from each other
Overall, the Tesla Model 3 is a highly advanced vehicle that is capable of semi-autonomous driving. While it is not yet fully autonomous, the Autopilot system is highly effective in reducing the risk of accidents and improving the overall driving experience. As the technology continues to evolve and improve, we can expect to see even more advanced features and capabilities in the future.
Understanding Tesla’s Autopilot Technology
Tesla’s Autopilot technology is a advanced driver-assistance system (ADAS) designed to enhance safety and convenience on the road. The Autopilot system is a suite of features that work together to enable semi-autonomous driving, but it’s essential to understand its capabilities and limitations.
What is Autopilot?
Autopilot is a Level 2 autonomous driving system, which means it can take control of the vehicle in certain situations, but the driver must remain attentive and ready to take control at all times. The system uses a combination of cameras, radar, ultrasonic sensors, and GPS to navigate roads and traffic.
The Autopilot system includes features such as:
- Lane-keeping assist: The vehicle can center itself in its lane and adjust speed to maintain a safe distance from other vehicles.
- Adaptive cruise control: The vehicle can match its speed to the traffic around it, slowing down or accelerating as needed.
- Auto lane change: The vehicle can automatically change lanes on the highway when the driver signals.
- Summon: The vehicle can autonomously navigate to the driver’s location, such as from a parking spot to the driver.
How Does Autopilot Work?
The Autopilot system uses a complex network of sensors and cameras to gather data about the vehicle’s surroundings. This data is then processed by the onboard computer, which makes decisions about steering, acceleration, and braking.
The system is designed to be highly adaptive, adjusting its behavior based on the road conditions, traffic, and driver input. For example, if the vehicle encounters a construction zone, the Autopilot system may slow down or adjust its lane position to ensure safe passage.
Limitations of Autopilot
While Autopilot is an advanced technology, it’s essential to understand its limitations. The system is not designed to be a fully autonomous driving system, and drivers must remain attentive and ready to take control at all times.
Some of the limitations of Autopilot include:
- Weather conditions: Autopilot may not function properly in heavy rain, snow, or other adverse weather conditions.
- Road markings: Autopilot relies on clear road markings to navigate, and may not function properly on roads with faded or missing markings.
- Construction zones: Autopilot may not be able to navigate construction zones with complex lane shifts or unclear signage.
- Pedestrian and cyclist detection: Autopilot may not be able to detect pedestrians or cyclists in all situations, particularly in low-light conditions.
Real-World Examples of Autopilot in Action
Tesla’s Autopilot technology has been involved in several high-profile incidents, including a 2018 crash in California that resulted in the death of a Tesla Model X driver. While these incidents are tragic, they highlight the importance of understanding the limitations of Autopilot and the need for driver vigilance.
On the other hand, there are many examples of Autopilot successfully preventing accidents or reducing driver fatigue. For example, a 2020 study by the Insurance Institute for Highway Safety (IIHS) found that Tesla’s Autopilot system reduced the frequency of crashes by 40%.
Ultimately, the success of Autopilot depends on a combination of advanced technology, careful driver attention, and responsible vehicle operation.
Practical Applications and Actionable Tips
For Tesla owners, understanding Autopilot’s capabilities and limitations is crucial for safe and effective use. Here are some practical tips for getting the most out of Autopilot:
- Always keep your eyes on the road and be prepared to take control of the vehicle at any time.
- Use Autopilot on well-marked highways and roads with clear lane dividers.
- Avoid using Autopilot in construction zones or areas with complex lane shifts.
- Keep your vehicle’s software up to date to ensure you have the latest Autopilot features and updates.
By understanding Autopilot’s capabilities and limitations, Tesla owners can enjoy the convenience and safety benefits of semi-autonomous driving while minimizing the risks associated with driver distraction or complacency.
Key Takeaways
The Tesla Model 3’s Autopilot feature is a semi-autonomous driving system that can assist with steering, acceleration, and braking, but it does not drive the vehicle itself. It’s essential to understand the limitations and capabilities of this technology to ensure safe and effective use. (See Also: How to Add Carplay to Tesla? – Easy Installation Guide)
The Model 3’s Autopilot system uses a combination of cameras, radar, and ultrasonic sensors to detect and respond to the environment. However, it’s not a fully autonomous system and requires human attention and intervention at all times.
In this summary, we’ll highlight the key takeaways from our exploration of the Tesla Model 3’s Autopilot feature, including its capabilities, limitations, and best practices for use.
- The Model 3’s Autopilot system is designed for highway driving and can assist with lane-keeping, adaptive cruise control, and lane-changing.
- Autopilot does not operate in heavy rain, snow, or construction zones, and may not work well in low-light conditions.
- It’s crucial to keep your hands on the wheel and be prepared to take control of the vehicle at all times.
- Autopilot is not a substitute for attentive driving and may not prevent accidents in all situations.
- The system can be updated over-the-air, adding new features and improving performance.
- It’s essential to understand the vehicle’s limitations and to use Autopilot responsibly to ensure safe and enjoyable driving.
- As the technology continues to evolve, it’s likely that Autopilot will become even more advanced, making it an increasingly valuable feature for Tesla owners.
In conclusion, the Tesla Model 3’s Autopilot feature is a powerful tool that can enhance your driving experience, but it’s crucial to understand its limitations and use it responsibly. As the technology continues to advance, it’s exciting to think about the possibilities for improved safety and convenience on the road.
Frequently Asked Questions
What is Autopilot in a Tesla Model 3?
Autopilot is a semi-autonomous driving system developed by Tesla, which enables the vehicle to steer, accelerate, and brake automatically within its lane. This feature uses a combination of cameras, radar, and ultrasonic sensors to detect the surroundings and make adjustments accordingly. Autopilot can be activated on highways and certain types of roads, but it is not a fully autonomous driving system and requires the driver’s attention and input at all times.
How does Autopilot work in the Tesla Model 3?
The Autopilot system in the Tesla Model 3 uses a sophisticated algorithm that processes data from various sensors, including cameras, radar, and ultrasonic sensors. These sensors provide information about the vehicle’s surroundings, such as other cars, pedestrians, lane markings, and road conditions. The system then uses this data to make adjustments to the vehicle’s speed, steering, and braking. The driver can intervene at any time by taking control of the wheel, applying the brakes, or accelerating manually.
Why should I use Autopilot in my Tesla Model 3?
Using Autopilot in your Tesla Model 3 can provide several benefits, including reduced driver fatigue, improved safety, and enhanced convenience. Autopilot can help prevent accidents caused by driver distraction or inattention, and it can also make long road trips more comfortable and enjoyable. Additionally, Autopilot can help improve fuel efficiency and reduce wear and tear on the vehicle.
How do I start using Autopilot in my Tesla Model 3?
To start using Autopilot in your Tesla Model 3, follow these steps: First, ensure that your vehicle is equipped with Autopilot and that it is enabled in the settings. Next, adjust your seat and mirrors to a comfortable position, and make sure you are familiar with the Autopilot controls. Once you are ready, engage Autopilot by pressing the Autopilot button on the steering wheel or by using the touchscreen display. The system will then take control of the vehicle, and you can relax and enjoy the ride.
What if I encounter a problem with Autopilot in my Tesla Model 3?
If you encounter a problem with Autopilot in your Tesla Model 3, such as a sudden loss of control or a failure to engage, do not panic. Instead, take control of the wheel immediately and follow these steps: First, press the Autopilot button to disengage the system. Next, check the vehicle’s instruments and displays for any error messages or warnings. If you are unable to resolve the issue yourself, contact Tesla’s customer support or visit a Tesla service center for assistance.
How much does Autopilot cost in the Tesla Model 3?
The cost of Autopilot in the Tesla Model 3 varies depending on the trim level and configuration of your vehicle. Autopilot is a standard feature on all Tesla Model 3 vehicles, but it can be upgraded to Full Self-Driving Capability (FSD) for an additional fee. The cost of FSD varies depending on the country and region, but it typically ranges from $7,000 to $10,000. It’s worth noting that Autopilot is a subscription-based service, and it requires a monthly or annual fee to maintain.
Which is better, Autopilot or Full Self-Driving Capability (FSD)?
Autopilot and Full Self-Driving Capability (FSD) are both advanced driving systems developed by Tesla, but they have different capabilities and features. Autopilot is a semi-autonomous driving system that enables the vehicle to steer, accelerate, and brake automatically within its lane. FSD, on the other hand, is a fully autonomous driving system that enables the vehicle to navigate complex roads and situations without human input. If you want the most advanced driving experience, FSD may be the better choice, but if you’re looking for a more affordable option, Autopilot may be sufficient.
Can I use Autopilot in all weather conditions?
No, Autopilot in the Tesla Model 3 is not designed to operate in all weather conditions. While it can handle light rain and fog, it may not perform well in heavy rain, snow, or extreme weather conditions. In such cases, it’s best to disengage Autopilot and take control of the wheel manually. Additionally, Autopilot may not work well in areas with poor lighting or heavy construction, so it’s essential to stay alert and attentive when driving in such conditions.
How do I update Autopilot in my Tesla Model 3?
To update Autopilot in your Tesla Model 3, follow these steps: First, ensure that your vehicle is connected to a Wi-Fi network or a cellular signal. Next, go to the Tesla app or the vehicle’s touchscreen display and select the “Software Update” option. The system will then check for any available updates and download them to the vehicle. Once the update is complete, restart the vehicle and test the Autopilot system to ensure that it is functioning correctly.
Is Autopilot safe to use?
Yes, Autopilot in the Tesla Model 3 is designed to be safe and reliable. However, like any advanced driving system, it’s not foolproof, and there may be situations where it’s not effective. To ensure safe operation, it’s essential to follow all safety guidelines and best practices, including keeping your hands on the wheel and your eyes on the road. Additionally, Tesla provides regular software updates to improve the performance and safety of Autopilot, so it’s essential to stay up to date with the latest updates.
Conclusion
In conclusion, the question of whether a Tesla Model 3 drives itself is a resounding “almost.” While it’s not a fully autonomous vehicle, the Model 3’s Autopilot feature is an impressive technology that can significantly reduce driver fatigue and improve safety on the road. With its advanced sensors and software, Autopilot can handle many driving tasks, from steering and accelerating to braking and lane-changing. However, it’s essential to remember that the driver is still responsible for the vehicle’s operation and must remain attentive and ready to take control at all times.
The benefits of Autopilot are undeniable. By reducing driver workload, it can help prevent accidents caused by human error, such as drowsy driving or distracted driving. Additionally, Autopilot can improve traffic flow and reduce congestion, making our roads safer and more efficient. As Tesla continues to refine and improve its Autopilot technology, we can expect even more advanced features and capabilities in the future.
So, what’s next? If you’re considering purchasing a Tesla Model 3 or already own one, take the time to familiarize yourself with Autopilot’s capabilities and limitations. Practice using the feature on the highway and in heavy traffic, and always remain vigilant and attentive. For those who are new to electric vehicles or autonomous driving, consider taking a test drive or speaking with a Tesla representative to learn more.
As we look to the future of transportation, it’s clear that autonomous vehicles will play a significant role. With companies like Tesla leading the charge, we can expect to see even more innovative technologies emerge in the coming years. The question is no longer “if” autonomous vehicles will become a reality, but “when.” And with the Tesla Model 3’s Autopilot feature, we’re one step closer to a safer, more efficient, and more enjoyable driving experience for all. So, buckle up and get ready to ride into the future – the future is electric, and it’s autonomous.