Lifestyle
Why your Tesla can become the ultimate ‘Connected Car’
Techies have dreamed of the day when their cars would be as advanced as their personal computing and smartphone devices. Daily use of technology has shifted beyond being the norm to being a necessity. It’s evolved into a digital lifestyle that has extended into vehicular use.
With the launch of the Model S in 2012, Tesla set the benchmark for what the connected car could be. Besides being an amazing, all-electric vehicle with outstanding performance, utility, and good looks, it also incorporates internet technology into the vehicle, cabin and driving experience like never before. A Tesla Model S or Model X provides drivers with the ‘potential’ to carry their digital lifestyle into the vehicle.
Follow along in our upcoming series that will explore the evolving connected car industry and its future possibilities. We’ll cover topics such as how these next generation vehicles might incorporate our digital lifestyles, what the cyber security implications are, how our city’s infrastructure may evolve in response, and how autonomous vehicles will change our society.
So what is a Connected Car?
Because this is an evolving industry, there really isn’t a clear, universal definition for the “connected car.” Technological innovation is happening so quickly, there seems to be no limit on what it could be. Some automotive manufacturers are selling ‘connected cars’ that are simply connected to the internet on their own cellular connection. But internet enabled features are limited. While this may be technically accurate, a connected car needs to be more than just a WiFi hotspot.
At its most basic level, a connected car should have the following attributes:
- It must be connected to the internet at all times
- It must be able to function as a participant in our digital lifestyle similar to an internet of things (IoT) or smart home device
- It must allow the user to interact with their digital lifestyle in a functional and usable way
How automakers are trying to build the Connected Car
Connected car technology is currently being implemented using one of two emerging approaches. The first is simply to project smartphone apps onto a screen in the dashboard. This solution works by running the app on your smartphone but displaying the interface on your vehicle dashboard. The app cannot function without the smartphone and typically has limited or no access to vehicle information. While projected apps can work for things like text messaging and streaming audio apps, they don’t work without the presence of the smartphone and therefore limit the vehicle’s ability to be a full participant in the Internet of Things. Additionally, these apps are generally not designed well for use in a vehicle.
The second is to have embedded apps, or apps that run in the vehicle itself. This solution works by having apps installed or running in the vehicle, similar to tablet or smartphone apps. The advantage is that the apps run independently of a smartphone, can securely access vehicle data, and in special cases can even perform vehicle functions remotely such as closing the sunroof. These advantages mean that the vehicle has the potential to be a full participant in the Internet of Things. Additionally, these apps are designed specifically for in-vehicle use, with display and user interfaces (ie. buttons, colours, text size, etc.) optimized for in-car use.
A third approach worth considering is a hybrid of these two, where the in-vehicle experience can function independently from a smartphone, but can also incorporate data from and interact with a smartphone. This would allow functionality such as text messaging and email to work off the smartphone, while embedded apps could perform more advanced, vehicle specific and independent functionality. Another advantage of a hybrid solution is that it could maintain a unified interface experience that is appropriate to in-vehicle use and look like it was designed for the specific vehicle — as opposed to an iPad stapled to the dashboard.
“we think a Tesla is the coolest mobile device, ever! (almost)”
This leads us to why we think a Tesla is the coolest mobile device, ever! (almost)
My Tesla has the potential to do so much more
Because of its independent internet connectivity, the Tesla Model S and X offer opportunities to control the vehicle from other internet connected devices. Tesla offers a smartphone app that allows you to control some of the vehicle functions such as charging, air conditioning, and now even parking and summon (on vehicles with Autopilot). And Tesla vehicles receive regular software updates over the air, adding and improving functionality over time. In-vehicle software includes Internet radio, Google Maps (with navigation), and limited integration with your personal calendar that will display your next couple of appointments.
Still, there is much more that can be done with the technology. At least that’s how I felt when I took delivery of my Model S in 2012. At that time there was a lot of talk about in-vehicle apps becoming available, and there was even an app icon in the centre console interface. Unfortunately we are still waiting for Tesla to release an SDK. That being said, Tesla is pretty busy with their Gigafactory, Model 3, Autopilot, and generally steering the whole automotive industry toward electrification.
Although Tesla hasn’t released an SDK or third party app development, and new Tesla-developed apps have been limited, Tesla did include a Web browser as a key feature to their large centre console dash. And that web browser has opened up a host of possibilities for connected car features and interface development. It was the inspiration for my team at Evolved Vehicle Environments to create EVE for Tesla, a growing connected car platform that already incorporates many of the features you might expect in a connected car.
EVE for Tesla for the Model S, Model X
Finally, you can have access to your calendar, email, social media, news, and more in your car – provided that car is a Tesla! And with EVEConnect, a feature available to paid members, your Tesla has officially become a full participant in the Internet of Things. It can receive messages, trigger events, and even talk to your home. And with the recently released EVE for Tesla IFTTT channel, you can now connect your Tesla to over 300 products and services.
In our next post, we will explore the development of the Internet of Things, the connected home market, and connected car/connected home integration. If you have any questions you’d like us to address, please drop us a comment below.
-Jason Taylor
Elon Musk
The Boring Company just doubled its tunneling power in Nashville
The Boring Company’s Prufrock MB2 is commissioned and ready to mine beneath Nashville’s streets.
The Boring Company’s second tunnel boring machine, Prufrock MB2, is officially ready to dig in Nashville. The company confirmed the news on X, posting: “Prufrock-MB2 is ready to mine in Nashville! MB2 commissioning is complete, including the brief 11 rpm rotation shown here. Will MB2 catch up to MB1, who had quite the head start? And Prufrock-MB3 ships in August!”
MB2 arrives with meaningful improvements over its predecessor. Lessons learned from the launch and operation of MB1 have already been applied to MB2 to improve efficiency and prepare the machine for launch.
Traditional tunnel boring machines operate in a stop-and-go cycle, digging roughly five feet, halt, erect precast concrete segments to line the tunnel wall, then resume. That repeated interruption is one of the main reasons conventional tunneling is slow and expensive. Prufrock is designed to install the tunnel liner simultaneously with mining, eliminating the need to stop every five feet. The machine also skips the need for excavated launch pits. Prufrock arrives on a truck, tilts down, and launches into the ground within 24 hours. And when the tunnel is complete, it emerges from the ground and drives to its next launch site on a trailer, eliminating the need for expensive cranes or pit excavation. The machine is also fully electric and runs with zero people in the tunnel during normal operations, controlled remotely from a surface operations center.
Prufrock-MB2 is ready to mine in Nashville! MB2 commissioning is complete, including the brief 11 rpm rotation shown here.
Will MB2 catch up to MB1, who had quite the head start?
And Prufrock-MB3 ships in August! pic.twitter.com/TTrMql2aRg
— The Boring Company (@boringcompany) June 17, 2026
It won’t be long before we hear of another major update on The Boring Company’s Music City Loop project – a planned underground transit network beneath Nashville that would move passengers in electric vehicles through a series of tunnels at highway speeds, and bypassing surface traffic entirely. Nashville was selected in part because of its strong rock conditions that suits the Prufrock machines well, and relatively less regulatory hurdles.
Progress has been steady on multiple fronts. All 37 permits and approvals required ahead of tunneling have been obtained, out of 45 total. Key wins include a fully executed TDOT tunnel permit authorizing 25 miles of tunnel, unanimous airport authority approval for a Nashville International Airport station, and the city’s first residential station agreement serving downtown tower residents.
With MB1 already tunneling, MB2 now commissioned, and MB3 shipping in August, Nashville is becoming something of a live proving ground for scaled tunnel boring. The broader ambition is not limited to one city. The Boring Company’s stated goal is to make underground transportation a practical alternative to surface roads across major metro areas. Nashville is one of many cities, including a successful Las Vegas tunnel system, where that idea is being put to the test at real speed.
Investor's Corner
Tesla unfolded its first European “folding Supercharger”
Tesla’s folding Supercharger just arrived in Europe and it changes how fast charging expands.
Tesla’s Folding Unit Supercharger has officially landed in Europe, with the company teasing a new installation in its effort for a broader rollout targeting major motorway rest stops across the European continent in Q3 2026. The arrival marks a notable shift in how Tesla is thinking about network expansion, moving from hardware performance alone to engineering the logistics chain itself.
While Tesla did not reveal the exact location for the new folding Supercharger in Europe, the photo shared on X heavily suggests that this maybe somewhere in Norway. Historically, whenever Tesla rolls out an entirely new infrastructure architecture in Europe, whether it was the original Supercharger stalls years ago or these brand-new modular V4 “Folding Units”, Norway is almost always the designated launch pad because of its unmatched EV adoption rate and supportive infrastructure
The Folding Unit, introduced in March 2026, is a factory pre-assembled V4 charging station built on an industrial hinge system mounted to a heavy-duty concrete base. The entire assembly arrives on site ready to unfold and connect. Tesla confirmed the units feature telescopic light poles specifically designed for easy transportation and fast on-site deployment, a detail that signals how carefully the logistics chain has been engineered alongside the hardware itself. The design allows 33% more stalls per delivery truck, cuts installation time roughly in half, and reduces overall deployment costs by more than 20% compared to traditional installations.
Tesla’s newest “Folding V4 Superchargers” are key to its most aggressive expansion yet
Tesla also noted telescopic light poles which provide benefits over traditional Supercharger installations that require fixed-height poles that are awkward to ship, slow to position on site, and often require separate crews and equipment to erect before charging hardware can even be staged. By engineering poles that compress for transit and extend on arrival, Tesla has removed one of the quieter bottlenecks in the physical deployment process. Every hour saved on a light pole installation is an hour redirected toward getting stalls energized. At scale, across dozens of new sites per quarter, those hours add up to a meaningful acceleration in how quickly a location goes from approved permit to serving its first customer.
Each Folding Unit pairs a single V4 power cabinet with eight charging posts. The V4 cabinet delivers up to 500 kW per stall for passenger vehicles and up to 1.2 MW for the Tesla Semi, supporting twice the stalls per cabinet at three times the power density of its predecessor. Longer cables make every new station immediately usable by non-Tesla vehicles, a priority as Tesla continues opening its network to Ford, GM, Rivian, Hyundai, Stellantis, and others.
As Teslarati reported when the Folding Unit was first unveiled, Tesla’s Gigafactory New York produced its final V3 Supercharger cabinet in March 2026 after more than seven years and 15,000 units, completing a full pivot to V4 production. The European arrival of the folding design is the next chapter in that transition.
Faster and cheaper deployment means Tesla can justify building in markets and corridors that were previously too expensive to serve, filling the coverage gaps that have slowed EV adoption outside major urban centers.
First Folding Unit Superchargers in Europe 🇪🇺 https://t.co/KNfYWJukkL pic.twitter.com/YR1udIpH1i
— Tesla Charging (@TeslaCharging) June 10, 2026
Elon Musk
SpaceXAI just launched into your kitchen with their new app
SpaceXAI just powered its first consumer app and it predicts what you want to buy.
SpaceXAI just made its first move into consumer AI, and it involves your grocery cart. On June 3, 2026, Gopuff and SpaceXAI announced the launch of Go, a Grok-powered shopping assistant built directly into the Gopuff app that predicts what you need before you even start searching for it.
Gopuff is an instant delivery platform that operates more than 400 micro-fulfillment centers across the U.S., delivering everyday essentials, snacks, drinks, and household items in as little as 15 minutes. It is not a restaurant delivery app or a marketplace. It owns its inventory, controls its warehouses, and handles its own logistics, which means it has built one of the most detailed consumer behavior datasets in retail over its 13-year history.
Go combines SpaceXAI’s advanced reasoning, voice, and image generation models with Gopuff’s dataset of hundreds of millions of orders and real-time cultural signals from X to prepare a suggested cart the moment a customer opens the app. It learns each shopper’s habits and automatically builds a personalized cart based on time of day, location, order history, and real-time indicators. Returning customers can check out with a single tap.
Rather than searching for specific items, users can describe a situation like a game-day party or the desire for a healthy breakfast and Go will assemble a cart automatically. It can also predict when shoppers are running low on items like coffee or paper towels and have them packed and delivered in under 15 minutes. Grok voice integration lets users talk to the app in plain conversational language and check out completely hands-free.
Gopuff co-founder and co-CEO Yakir Gola said: “Today, we believe the greatest friction left in commerce is not delivery or instantaneous access to the essentials customers need. It’s the moment before: the thinking, the deciding, the remembering. We’re combining Gopuff’s demand intelligence with xAI’s frontier reasoning to create an everyday shopping experience that feels like a true extension of you.”
Why SpaceX just made a $60 billion bet on AI coding ahead of historic IPO
The timing carries context beyond the product launch. SpaceXAI was formed after SpaceX completed an all-stock merger with Elon Musk’s xAI earlier this year, folding one of the most advanced AI labs in the world into the same corporate structure as the company preparing what could be the largest IPO in history. SpaceXAI is dipping into consumer-focused AI just as it prepares for its public debut, and while Musk has openly discussed building an everything app, this launch uses Grok to power another company’s product rather than launching a standalone consumer platform. Every consumer-facing deployment of Grok ahead of the IPO roadshow adds tangible evidence that SpaceXAI is not just an infrastructure play but a direct competitor in the AI application layer where OpenAI and Google are already fighting for dominance.
Elon Musk just upped his Tesla stake further fueling SpaceX merger conversation
Tesla Full Self-Driving is getting a major parking upgrade, Elon Musk says
