Porsche enthusiasts can now feast their eyes on the interior of the upcoming all-electric Macan, as the German automaker reveals the cabin in all its technological glory.
Amid a wave of technical details about the Macan EV’s platform and powertrain, Porsche has unveiled the interior, showcasing a screen-heavy layout. The electric Macan will feature up to three screens, along with an optional heads-up display infused with augmented reality. This heads-up display effectively turns the windshield into a fourth screen, projecting turn arrows and distances to vehicles in front, making it one of the largest heads-up displays currently available, spanning over 30 feet in front.
The driver’s cockpit is equipped with a non-optional 12.6-inch curved digital display, providing essential information. Meanwhile, the centre infotainment screen measures 10.9 inches and operates in full HD. An optional 10.9-inch screen for the passenger allows them to control various vehicle systems, including navigation features and video streaming, reducing distractions for the driver.
Porsche’s all-electric Macan boasts an Android-based system that can be updated through the Porsche App Centre. Users can access a variety of programs, including Spotify, YouTube, and WebEx. The system also features games, the Home Assistant smartphone app, and monthly map updates to keep the navigation system current. For those who prefer Android Auto or Apple CarPlay, the Macan supports these popular integration options.
The technological prowess of the Macan extends beyond entertainment, as it incorporates a dual motor layout pumping out around 600hp. The powertrain is supported by a lithium-ion battery pack of around 100 kWh. Noteworthy features include rear-wheel steering for improved maneuverability at low speeds and stability at higher speeds.
As the automotive world eagerly awaits the arrival of the all-electric Macan, Porsche continues to impress with cutting-edge technology and a sleek interior design that complements the high-performance electric platform.
While carmakers make a large part of a car, many of the systems and features usually come from companies that are specialists the area. These are areas such as instrument display panels, transmissions, audio equipment and of course, wheels and tyres. Their specialisation allows them to be more focussed on making advances that meet changing demands of the carmakers as well as customers.
HARMAN, a subsidiary of Samsung Electronics, is one such supplier to the auto industry. Although well known for audio electronics in its history of over 40 years, HARMAN now also offers its expertise to the automotive industry. More than 50 million vehicle on the road today are equipped with the company’s different brands of audio and connected car systems (Infinity, Mark Levinson, JBL, Bang & Olufsen being among them).
Design is an art form that goes back centuries, and it has been used for all kinds of things in our lives. In the auto industry, it is an important element at the start of a new model project where the first ideas are given form and then explored to become the shape of the vehicle. Designers have traditionally commenced the initial creative phase by creating pencil sketches on paper, reflecting a certain kind of vehicle.
Many initial sketches will be prepared and then evaluated and eventually, one or two promising ones will be identified. These will then be developed as scale models from clay, a process that can take anywhere between 4 weeks and 2 months. Afterwards, the scale model would then be scanned and milled in a full-size. However, this approach is not without its drawbacks as some lines might be altered in the process.
As in other car companies, Hyundai’s designers were required to work together with clay modellers to refine the final design of an upcoming model. However, lines and surfaces had to be marked out using tape. On top of this, the company’s engineers were unable to work simultaneously with the designers, as they could only receive data after scanning the model with a photogrammetry system. Both of these factors made the process very time-consuming and cost-intensive.
In recent years, the design approach at Hyundai has undergone something of a revolution. While sketching remains fundamental for the designers, they can also draw upon a range of advanced tools such as virtual reality (VR) and 3D gravity sketching. These tools create a streamlined digital process which speeds up vehicle development by stepping away from a traditional design approach.
The VR revolution
Today, Hyundai no longer produces scale clay models; instead, it utilizes technologically advanced tools that are more intuitive, such as 3D digital design software. These enable the company’s engineers to mill full-scale models using 3D data, which significantly speeds up the design process.
The software enables the designers to work in collaboration across multi-user and multi-location environments. They can create models and immersive environments in VR that look extremely close to the real thing. The difference between modern design and the traditional approach is stark, and can be compared to the revolution cars undertook before and after ABS appeared, as an example.
VR technology also opens up a host of new opportunities for the designers. For example, the gravity sketching tool enables designers to create more human-centric vehicle designs by working in 3D from the start. Designers swap their paper and pencils for a headset and controllers to become immersed in VR, imitating gestural interactions through motion tracking. By working in 3D, they can experiment with different proportions and build variations based on their ideas. Meanwhile, a 360-degree view of the vehicle allows them to sketch from any angle – in contrast to the traditional 2D process.
3D gravity sketching also enhances the collaboration between the exterior and interior designers. Through this technology, the two teams are able to work together simultaneously. While the exterior design team refines the digital model, the interior designers can work in parallel by virtually stepping inside the car to develop features or make quick adjustments.
Another advantage of this technology is the ability to test unlimited colour options and material applications, including fabrics and leather, ambient lighting and other types of materials. As well as saving time, this also reduces shipping and travelling costs. In addition, this approach is much more sustainable as significantly less waste is produced, resulting in a significant reduction of CO2 emissions.
The VR design evaluation system
Hyundai’s design journey in multi-user wireless VR spaces started in 2017. By 2019, Hyundai and Kia (which is part of the Hyundai Motor Group) had established an ambitious new VR design evaluation system which has now been fully implemented. The system demonstrates a heightened focus on enhancing vehicle development processes through the implementation of VR technology. It simulates many aspects relating to a model under development, including interior and exterior design elements, as well as lighting, colours and materials.
The advanced tools are used at the company’s R&D facilities in Korea, Germany and the USA, as well as design centres in Europe, India, China and Japan. They allow the designers to review a multitude of design concepts earlier in the developmental process, and in ways that were previously physically impossible. VR headsets allow team members from the Design and Engineering departments to enter into a virtual conference in real-time and simultaneously undertake vehicle design quality assessments and development verification processes, no matter where they are in the world.
Getting around the lockdowns
These changes were already underway before COVID-19 emerged and sent the world into lockdown in early 2020. According to Simon Loasby, Hyundai’s Head of Styling, the pandemic served as a catalyst for the carmaker’s global design workforce, accelerating the transition to digitalisation and agile working.
“When our studios across the world were keeping all the designers home, we were fortunate that we were already operating a very well-oiled machine in terms of remote virtual connection, where we could all connect across 3 different continents and 5 different locations into a virtual working space and walk around the cars,” he recalled.
This partly enabled the completion of the SEVEN concept car project (shown above) in time for the 2021 AutoMobility LA event. It is the first fully-digitally designed model of the group and benefited from this virtual process. “When we completed the digital design sign-off of the car, Luc Donckerwolke (Executive Vice President for Design and Chief Creative Officer of Hyundai Motor Group), SangYup Lee (Senior Vice President at HMC and Head of Hyundai Global Design Center) and I were all in completely different locations, while our European team were in the discussion, too. We were in the same virtual location looking at the model, and did a complete virtual sign-off of the whole car: both exterior and interior. Remarkably, I hadn’t seen the physical model at that point, which must be a world-first for a lead automotive designer!” said Loasby.
Loasby’s ‘James Bond suitcase’
To enable Loasby to connect from anywhere, he has a specially built portable device which he refers to as his ‘James Bond suitcase’. Shaped inconspicuously like a travel bag, it is equipped with a laptop, VR goggles, cables and handsets. He is able to take it anywhere and participate in virtual design reviews with colleagues from all around the world.
“I’m very fond the carry-on bag I call my ‘James Bond suitcase’, because it ensures I can connect to our virtual conferencing space and conduct design reviews from anywhere, at any time,” he revealed. “In fact, one of the craziest design reviews I did was at Incheon Airport [in Korea]. I was about to fly somewhere but I needed to check in on the progress of a development quickly. So I took the gear out, plugged it in and set up my virtual studio next to a Starbucks and conducted a review from the departure terminal!”
Technology with a sustainable future
VR technology is continuing to evolve and in the future, it will offer much higher levels of detail and operate at far quicker speeds. It is therefore set to play an increasingly prominent role for Hyundai’s designers and engineers. In addition, advances in AR and mixed reality will enable the company’s colleagues to interact with one another even more immersively.
However, one fundamental benefit that should not be overlooked is its positive environmental impact. A digital design process produces a much lower carbon footprint, as far fewer clay, paper and waste materials are used in the process. For the development of SEVEN concept, Hyundai produced just one clay model for verification at the end, rather than a multitude of scale clay models. By meeting in a virtual conference space, Hyundai’s designers are no longer required to frequently travel around the globe, expending thousands of air miles in the process.
Cruise, a company specialising in autonomous vehicle technology, and General Motors have entered a long-term strategic relationship with Microsoft to accelerate the commercialization of self-driving vehicles. The companies will bring together their software and hardware engineering skills, cloud computing capabilities, manufacturing know-how and partner ecosystem to transform transportation to create a safer, cleaner and more accessible world for everyone.
To unlock the potential of cloud computing for self-driving vehicles, Cruise will leverage Azure, Microsoft’s cloud and edge computing platform, to commercialize its unique autonomous vehicle solutions at scale. Microsoft, as Cruise’s preferred cloud provider, will also tap into Cruise’s deep industry expertise to enhance its customer-driven product innovation and serve transportation companies across the globe through continued investment in Azure.
Accelerating digitization initiatives
In addition, GM will work with Microsoft as its preferred public cloud provider to accelerate its digitization initiatives, including collaboration, storage, artificial intelligence and machine learning capabilities. GM will explore opportunities with Microsoft to streamline operations across digital supply chains, foster productivity and bring new mobility services to customers faster.
Cruise will also send its self-driving vehicles to Japan and start development for testing this year as part of Honda’s new mobility business. This is a collaborative venture with Cruise and GM on self-driving vehicles for its autonomous vehicle mobility service (MaaS) business in Japan,
Autonomous vehicle mobility service
In due course, Honda aims to launch its MaaS business using the Cruise Origin, a vehicle the three companies are jointly developing exclusively for autonomous vehicle mobility service businesses. Honda Mobility Solutions Co., Ltd., will be the operator of the business in Japan.
“This collaboration with Cruise will enable the creation of new value for mobility and people’s daily lives, which we strive for under Honda’s 2030 Vision of serving people worldwide with the joy of expanding their life’s potential. Through active collaboration with partners who share the same interests and aspirations, Honda will continue to accelerate the realization of our autonomous vehicle MaaS business in Japan,” said Takahiro Hachigo, President & Representative Director of Honda Motor.
“Cruise’s mission to provide safer, cleaner and more accessible transportation is not limited to the USA. These are major changes that are needed almost everywhere in the world, and this is a small, but symbolic step with Honda on our global journey,” added Dan Ammann, CEO of Cruise.
Cruise was established in 2013 and has fully integrated manufacturing resources at scale, building all-electric, zero-emission, self-driving vehicles, especially for dense urban settings.
If you are interested in the new BMW X5 xDrive45e M Sport – also referred to as ‘The Boss’ – you can now find out more about it with a web-based AR (Augmented Reality) experience. Available from today, this is a first for the BMW portfolio in Malaysia.
With digitalisation being at the strategic core of the BMW Group and now in the new normal, the company is now innovating to provide better experiences for customers. The AR experience by BMW Malaysia allows users to see, hear, and experience ‘The Boss’ in its full glory. As it is web-based, there is no need for a specific mobile application. Customers only need to visit a dedicated link that is accessible on any smartphone or tablet device with Android 9 or iOS 8 operating systems to start the AR experience. It is not accessible with desktop PC applications.
The AR experience presents a virtually realistic 3D model of the plug-in hybrid SUV. Users can tap on any place in any location seen via their display. They can also pinch to resize or zoom in to get a closer look, and slide in any direction for a comprehensive 360° view.
Tapping on hotspots of the vehicle allow users to learn more about the various features. Additionally, they can also swipe to see how the vehicle looks in the different exterior colours available such as Phytonic Blue, Black Sapphire, Mineral White and Artic Grey.
For more information on the X5 xDrive45e M Sport or other BMW models available in Malaysia, visit www.bmw.com.my or join the conversation via #JoyElectrified.
With concerns about the COVID-19 pandemic and many governments banning gatherings as well as calling for social distancing, launching a new car model in the usual public manner is no longer appropriate. Some companies have taken to using the internet to debut their new models and Lamborghini has revealed its new Huracan EVO Rear-Wheel Drive Spyder virtually as well.
Only for Apple devices
Using Augmented Reality (AR) for the first time on its official website, the company is bringing its latest V10 super sportscar directly to customers and fans worldwide. However, access seems confined only to those with an iPhone or iPad (iOS 11 and A9 processor or later).
With AR, simply tapping ‘See in AR’ brings views of the new open-top rear-wheel drive model to people’s driveways, gardens or even sitting rooms. The virtual experience enables the viewer to rotate and expand the size of the vehicle, up to a 1:1 scale, allowing close looks at both its exterior and interior details. Images of what is viewed can also be captured with a high level of photorealism.
“At a time of major business challenges, Lamborghini is innovating once again and exploring new methods of communication. New technologies have accelerated fast during this time of global emergency, and Lamborghini is pioneering exciting new possibilities. Lamborghini can now be in everyone’s home, thanks to Apple’s AR technology, which is available on hundreds of millions of AR-enabled devices around the world,” said Stefano Domenicali, Chairman & CEO of Automobili Lamborghini.
0 – 100 in 3.5 seconds
The new Huracan EVO variant provides drivers with open-air driving pleasures, lightweight engineering, rear-wheel drive and a specially tuned Performance Traction Control System (P-TCS). The V10 powerplant delivers the same 610 bhp/560 Nm as the coupe version, giving a claimed 0-100 km/h time of just 3.5 seconds and a top speed of 324 km/h.
The aluminium and thermoplastic resin body sits on a lightweight hybrid chassis of aluminium and carbonfibre, with a dry weight of 1,509 kgs and a weight-to-power ratio of 2.47 kg/bhp. Front/rear weight distribution of 40:60, with double wishbone suspension and overlapped quadrilaterals and passive shock absorbers provide optimized driver feedback.
Ventilated and cross-drilled steel brakes are fitted to 19-inch rims with specially-developed Pirelli P Zero tyres. Customers can also order their car with optional 20-inch rims and carbon ceramic brakes.
Similar aerodynamic qualities as coupe
Its design optimizes the integration and function of the extremely light soft top. Refined in the wind tunnel, the exterior lines ensure drag reduction and downforce matches that of the coupe without requiring additional aerodynamic features.
The specially tuned P-TCS traction control system is designed to consistently deliver torque and assuring traction in all conditions, even as the Spyder is ‘realigning’ after sharp cornering or drifting. Electronic intrusion, disliked by purist drivers, is minimized as the Huracan is specially engineered as an instinctive driver’s car with unfiltered physical feedback and maximum engagement.
“The Huracán EVO Rear-Wheel Drive Spyder doubles the driving fun, delivering raw driving pleasure with the opportunity to celebrate life outside. The driver is perfectly in touch with Lamborghini’s engineering heritage, experiencing the feedback and engagement from the set-up of a rear-wheel drive car where, while enjoying the sense of freedom and spirit of life that only open-top driving provides,” said Stefano Domenicali, Chairman & Chief Executive Officer of Automobili Lamborghini.
The first customers will take delivery of the new Huracan EVO RWD Spyder, priced in the UK from £151,100 (about RM810,700). For those who may take some time to save up to buy the car, you can still ‘enjoy’ it via the AR feature at the Lamborghini website. Other models will also have AR presentations in future.
If you’re a fan of Bentley vehicles, you would know the existence of the Bentley EXP 100 GT concept vehicle that they unveiled a few months back. In celebrations of the brand’s 100th birthday, the Bentley EXP 100 GT is essentially a present for themselves and by the looks of things, what a grand present to get. (more…)
Volkswagen has embraced the future and is looking at augmented reality to pursue the designs of its future models.The company is currently testing this methodology with the use of the Microsoft “HoloLens” augmented reality googles. Unlike Virtual reality ones, HoloLens blends virtual reality with the real world enabling better understanding of shapes and figures in real time. The technology is said to be beneficial to a number of fields and automakers like VW believe, that it will help them shorten the timeframe of their design work.
Hooked up to a mobile computer, Microsoft’s HoloLens can project virtual content onto a physical object through gesture control and voice commands. Ostermann, who heads one of VW’s Engineering Labs uses this technology to help create, mix and match colour schemes and remove any part of a vehicle in real time. he only needs to point his finger and HoloLens makes the changes. Demonstrating this tech with a R-Line Golf, Ostermann was able to change different aspects of the vehicle such as, use different wheels and modify the fenders, turning the vehicle into a very different variant of the original one.
Ostermann’s lab is one of six being operated by Volkswagen Group IT in Wolsburg, Berlin, Munich and San Fransciso. The latest has recently begun operating in Barcelona and together with the other locations, teams will collaborate on the digital future with research institutions and technology partners.
“At Volkswagen, we have been using augmented reality and virtual reality for some time, mainly to obtain a three-dimensional view,” says Ostermann. “We are now taking a major step forward at the Virtual Engineering Lab. We are transforming this technology into a tool for Technical Development. This will allow Volkswagen engineers to work on a virtual vehicle, to change its equipment as they wish and even to design new components virtually. They will be able to see the results of their work immediately.”
HoloLens doesn’t just project objects onto real ones, it also enables teams from different parts of the world to collaborate on the same project, making for a more efficient working environment as changes can be made in instant and be viewed by all members of the team.
The tech is said to still be in the testing phase but in the future, VW hope to be able to call up the entire brand portfolio and make changes no matter how extensive in order to build their best vehicles for the mass market.