Top 13 Global Automotive Trends, 2023

Stay ahead of the curve with insights into the top 13 global automotive trends for 2023. Discover the key factors driving innovation in the automotive sector.

1. Smart virtual sun visor with AI for cars

The Virtual Visor analyzes what the driver sees on its liquid crystal display using algorithms and a camera, and then darkens the area where sunlight is reflecting into the driver's eyes.

a virtual visor modeled after LCD televisions that use AI to shield a driver's eyes from the sun's glare, a key contributor to auto accidents.

The Virtual Visor analyzes what the driver sees on its liquid crystal display using algorithms and a camera before dimming the area where sunlight is shining into their eyes.

While obstructing the sun, the remaining portion of the display is clear, leaving the driver's field of view mostly unobscured.

Even if you were traveling directly towards the sun, you could still see.

2. SMART MOBILITY ECOSYSTEM

The definition of the smart mobility ecosystem encompasses a wide range of alternative modes of transportation, such as conventional gas and electric vehicles, bike and scooter share programs, autonomous vehicles, rail lines, and even augmented traffic realities where particular modes of transportation are given priority on the road at various times of the day.

Customers are switching from using public transportation to using their own autos, bicycles, and scooters, and from owning these things to subscribing. Users of mobility services would want to plan, book, and pay for all of their travel and transportation options using a single, integrated app rather than logging in and out of many sites to book a train, taxi, and e-scooter, for example, or a taxi, airline, and vehicle. This is entirely practical.

In order for that to happen, municipalities, local governments, tech companies, data aggregators, automotive OEMs, digital disruptors, mobility providers, service operators, platform builders, and other parties must collaborate, opening up their platforms and sharing data, while adhering to privacy, transparency, and regulations. These components must all be integrated and function profitably.

3. Digital cockpit

Automobiles today are not the basic analog gadgets that they formerly were. More in-vehicle technology is being developed by automakers as we move away from combustion engines. New automobiles frequently come equipped with internet access, traffic updates, digital radios, and sophisticated navigation systems. However, increasingly sophisticated technology is starting to make its way into our cars, including driving assistance systems, voice assistants, and specific entertainment applications (like Netflix and Spotify). This creates a difficulty.

The specific problem posed by this technological oversaturation for the auto industry is how to show all the data and material produced by new in-car technology. We are moving away from straightforward dashboard binnacles and infotainment systems and toward the digital cockpit thanks to subsequent solutions.

Automakers are hastily incorporating additional displays into their vehicles as a result of their awareness of the demands all this new technology is placing on in-vehicle infotainment systems. With greater display space available, interface designers will have more freedom to develop systems that provide drivers a full view of the vehicle's information, allow for customization, and are flexible enough to accommodate new apps.

The most noticeable modification is the replacement of the primary in-vehicle infotainment (IVI) console with a large touchscreen that now controls more than just the entertainment features of the car. Additionally, high-resolution displays that are expressly built to display more information than simply speed, engine RPM, temperature, and fuel levels are replacing instrument clusters and dials.

Additionally, head-up displays are increasingly available, and some cars even include front-passenger-specific screens in place of the wing mirrors.

future evolution

As a result, the infotainment system, navigation system, and binnacle displays no longer function as separate parts of the vehicle's cockpit. Current IVI systems smoothly combine all these features digitally over a number of screens, making it possible to display critical vehicle information anywhere and customize it dependent on the location.

4. Automatic Emergency Braking

Automatic emergency braking (AEB) is a safety feature that may detect when a collision is likely to happen and automatically apply the brakes to either slow down the vehicle before contact or stop it altogether to prevent a collision. Radar, cameras, or LiDAR are frequently used in this technology to spot dangerous conditions. The likelihood that the automated emergency braking system can stop the vehicle to avert a collision increases with the speed at which it is moving.

5. Mobile Apps and Digital Key

Your smartphone is always with you, even when it is not necessarily appropriate. Some automakers are now providing digital key technology through their smartphone applications due to the fact that it is constantly available. You do not need to carry the key fob around when using a digital key for a car since it utilizes your smartphone to start the engine and activate the door locks.

Digital key technology is offered by several automakers. BMW Digital Key, for instance, works with the Apple iPhone. Google Android smartphones are compatible with the Hyundai Digital Key. Additionally, both Apple and Android cellphones are compatible with Lincoln Phone as a Key.

Cars with digital keys are still uncommon. While BMW makes the technology accessible on practically every vehicle it sells, Lincoln provides it on its Aviator and Corsair SUVs. But you do not have to buy a high-end automobile to acquire digital key technology. Hyundai is making its version of the digital key more widely available, most notably to the updated 2021 Elantra, a tiny automobile targeted at a young, tech-savvy market.

6. Teen Driver

Nothing is more crucial than making sure your family is protected. To assist you teach your new driver even when you are not around, Chevrolet provides Teen Driver Technology, a built-in option. With the first and only in-vehicle report card in the market, it is simple to monitor your teen's driving progress. It also allows you to set a speed warning, a volume restriction, and other features.

The available industry-first Buckle to Drive feature, audio muting until front-seat occupants are fastened, and automatically activating available active safety technology are just a few of the safety features that Teen Driver delivers. Additionally, the in-vehicle report card provides information about your teen's driving, allowing you to spot any possible issues and provide your new driver driving instruction.

7. Exit Warning

When opening the car doors, visual and aural alarms that tell the driver when other cars or bicycles are coming from behind.

Assurance as you go. Exit warning warns the driver when other vehicles or bicycles are coming from behind while the car doors are opened. It employs visual and audio indicators. The driver can prevent situations where the door can be harmed or opened at the incorrect moment with the use of alerts.

8. Firmware Over the Air Update

What Are OTA Updates for Automotive?

OTA updates are wirelessly sent features and fixes for embedded devices.

For instance, there are a variety of ways to stream music from your phone to the audio in your car. A manufacturer, however, wants to include this capability in its infotainment system. The telematics control unit (TCU) of the car receives the code over the cloud, verifies it, and then downloads it.

Some automobiles perform this automatically, while others need owners to scan for updates. Software over-the-air (SOTA) and firmware-over-the-air (FOTA) upgrades may both fix software and firmware issues. SOTA updates are currently more frequent for automobiles than FOTA updates. Understanding the distinctions between software and firmware is useful if you are asking why.

Critical systems are often addressed by automotive FOTA upgrades. SOTA updates, on the other hand, are frequently used to correct non-safety concerns like latency problems that cause sluggish touch displays.

9. Velabit

California's AN JOSE The newest version of VelabitTM sensor has been unveiled by Velodyne Lidar, Inc. (Nasdaq: VLDR, VLDRW), which tackles the cost, safety, and design issues of autonomous systems while offering cutting-edge performance.

The Velabit fulfills the requests of Velodyne clients for an ultra-wide field of vision (FoV) and greater resolution thanks to Velodyne's ground-breaking patented micro-lidar array architecture (MLA).

According to Anand Gopalan, CEO of Velodyne Lidar, "Velodyne continues to innovate with our next-generation Velabit, a sensor that is small in size for sleek, stylish integration while delivering high-quality performance." "In less than a year, our committed engineering team strived to realize our clients' objectives, demonstrating our dedication to fulfilling market demands. And we want to change lives all throughout the world, not only to satisfy commercial desires. We think that this sensor will make lidar-based safety and autonomy more accessible across a wide range of businesses.

To extend battery life and vehicle range, this tiny, adaptable, and lightweight Velabit sensor has a low power consumption. The sensor's unique ability to be used in several sectors and for vital safety applications is made possible by its tiny size and inexpensive cost.

Velabit can close sensing gaps and assist automakers in achieving complete coverage around a vehicle. It was designed to be the best automotive-grade lidar solution for ADAS and autonomous cars.

The sensor allows comprehensive perception coverage for ADAS capabilities including Pedestrian Automatic Emergency Braking (PAEB), Cross-Traffic Detection, and Blind-Spot Monitoring. Furthermore, the broad vertical field of vision makes this a perfect technology for robots and near-field sensing applications.

10. Solar-Powered Cars

A solar vehicle for use on streets or racetracks is called a solar car. Electric cars known as solar vehicles run entirely or partially on sunlight using self-contained solar cells. In order to control and store the energy from the sun cells and via regenerative braking, solar cars often use a rechargeable battery. Some solar vehicles include plug-in capabilities that allow them to utilize additional power sources in addition to sunshine to charge their batteries.

Technology for solar automobiles usually comes from the aerospace, bicycling, alternative energy, and auto sectors. Solar cars are always built with energy efficiency in mind to get the most out of the sunlight's limited supply of energy. Most solar vehicles have been created with the intention of public roads.

11. Advanced Driver Assistance System

Any of a range of electronic technologies that help drivers with driving and parking tasks is known as an advanced driver-assistance system (ADAS). ADAS improve auto and road safety by providing a secure human-machine interaction. ADAS employs automated technology, like as cameras and sensors, to recognize surrounding impediments or driving faults and take appropriate action. Depending on the elements that are installed in the automobile, ADAS can enable varying degrees of autonomous driving.

Since human error causes the majority of traffic accidents, ADAS are designed to automate, adapt, and improve car technology for safety and better driving. ADAS have been shown to lower traffic deaths by reducing human error. By providing technologies that notify the driver to issues, putting in place protections, and taking control of the vehicle if required, safety features are intended to prevent collisions and crashes. Automated lighting, adaptive cruise control, collision avoidance assistance, traffic alerts and satellite navigation, warnings of potential obstacles, assistance with lane departure and lane centering, smartphone navigation, and other features are examples of adaptive features.

A 2021 study report from Canalys estimates that 33% of newly sold automobiles in the US, Europe, Japan, and China have ADAS characteristics. The company also forecast that by 2030, ADAS will be standard equipment in 50% of all vehicles on the road.

12. Extensive Exterior Cameras

Utilize live-view video and audio recording to keep an eye on driver behavior and vehicle activities.

cameras to keep an eye on the area surrounding and behind your car

Analysis, confirmation, and monitoring of conversation and other cabin noises are all made possible via in-cab audio.

suited for fleet managers, heavy machinery and industrial plants, emergency vehicles, and public transportation vehicles

Up to 180 days' worth of recordings are stored on remote hard disks with 500 GB to 1 TB of storage.

Select from buffering for emergency events, driving behavior events, and continuous recording.

Files can provide an evidence report including video, screenshots, the location, and relevant information.

Essential for third-party claims and insurance purposes.

13. Circular Economy

Electric cars could contribute to a sustainable transportation system and the reduction of greenhouse gas emissions. However, the complete life cycle of electric cars must be taken into account in order to prevent resource problems while attempting to meet the essential climate targets.

As governments across the world work to cut greenhouse gas emissions in accordance with the Paris Agreement and restrict other pollutants that have a detrimental impact on health, the future of mobility — and road transport in particular — is a topic of growing emphasis.

Sales of electric vehicles are on the rise, and are anticipated to continue to do so in the years to come as a result of the shift to more environmentally friendly transportation, which is necessary to achieve such reductions. Although producing electric cars requires a lot of resources, electrification of transportation is unquestionably vital. However, it is yet unknown if the required resources will be accessible, at least in the medium term, to fulfill this growing demand.

Learn about the style that is replacing electric vehicles by watching this video.

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