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Mercedes-Benz and Google combine for ‘next-gen navigation experience’
Strategic tie-up very significant as auto industry flexes for more in-cabin services and software-defined experiences
Mercedes-Benz plans to build its own branded navigation using new in-car geospatial data and navigation capabilities from Google Maps Platform. It’s part of a new strategic tie-up between Mercedes-Benz and Google/Alphabet.
The two companies say the partnership enables Mercedes-Benz to create a driving experience that pairs the ‘trusted, reliable information from Google Maps with its own unique luxury brand and feel’.
The companies have also agreed to explore further collaboration using Google Cloud’s leading artificial intelligence (AI), data and open infrastructure solutions.
Mercedes-Benz will give customers access to initial new features like Place Details, provided by Google.
Mercedes says it will be the first automaker to build its own branded navigation experience based on new in-car data and navigation capabilities from Google Maps Platform.
This will give Mercedes access to Google’s geospatial offering, including detailed information about places, real-time and predictive traffic information, automatic rerouting, and more. By embedding these features into the upcoming Mercedes-Benz Operating System (MB.OS), Mercedes says customers will be able to enjoy a superior navigation experience, thanks to ‘easy usability and outstanding graphics on the car’s high-resolution screen’.
To help enrich the user experience further, the companies will bring the YouTube app into the Mercedes-Benz infotainment system. In addition, Mercedes-Benz will use Google Maps data to enable assisted driving features such as automatic speed adjustments before intersections, roundabouts or curves.
Ola Källenius, Chief Executive Officer, Mercedes-Benz, said: “We invite only the very best partners to enhance our operating system and to add to the Mercedes-Benz customer experience. Google has been a leader in maps and navigation for many years. With our strategic partnership, we are excited to create unique services and to elevate the level of convenience for our customers. It will be deeply integrated within our signature Mercedes-Benz user interface and fully connected to relevant vehicle functions like the state-of-charge.”
As a first step, Mercedes-Benz will give customers access to Place Details provided by Google, helping them find detailed information about more than 200 million businesses and places around the world, including business hours, photos, ratings, and reviews. Place Details will be available immediately in all vehicles with the latest generation of MBUX in applicable markets.
The companies agreed to explore further collaboration using Google Cloud’s leading artificial intelligence (AI), data and open infrastructure solutions. For example:
- AI: Mercedes-Benz intends to use Google Cloud’s AI and Machine Learning capabilities to create, train, and deploy new models at speed and enhance customer experiences.
- Data: Mercedes-Benz intends to use Google Cloud’s fast and efficient data processing platform to analyze fleet data.
- Open Infrastructure: Mercedes-Benz plans to use Google’s open infrastructure to securely innovate and scale from on-premises, to edge, to cloud, across Mercedes-Benz’s current technology landscape.
Sundar Pichai, Chief Executive Officer, Google and Alphabet, said: “Our partnership with Mercedes-Benz brings advanced technologies from Google Maps Platform, Cloud, and YouTube to help create new experiences for drivers. In addition to enabling Mercedes-Benz to design a customized navigation interface, we’ll provide our AI and data capabilities to accelerate their sustainability efforts, advance autonomous driving, and create an enhanced customer experience.”
The new Slovakia plant will be Volvo's third manufacturing plant in Europe.
The new Slovakia plant will be Volvo's third manufacturing plant in Europe.
Valmet starts production at German battery systems plant
Valmet Automotive has started the series production of battery systems in Kirchardt, the Finnish company’s first battery plant in Germany. The plant near Heilbronn manufactures high-voltage systems for electric vehicles and plug-in hybrids. The current first program for the Kirchardt plant is a small-series production of modules, packs and the battery management system (BMS) for the PHEV version of an exclusive sports car brand. Pre-series production for the first large volume order for another customer, a German OEM, is scheduled to start summer 2023.
Ford confirms new US EV battery plant
Claiming it is the first automaker to commit to build both nickel cobalt manganese (NCM) and lithium iron phosphate (LFP) batteries in the US, Ford will build a $3.5bn LFP battery plant in Marshall, Michigan. The new plant will be a wholly owned subsidiary and part of the automaker’s “$50bn-plus global push to lead the EV revolution”. Initial production is scheduled for 2026 with an initial 2,500 employees. Under a new agreement with Contemporary Amperex Technology (CATL), the plant will manufacture the battery cells using LFP battery cell knowledge and services provided by CATL, which has operated 13 plants in Europe and Asia.
GAC claims 'graphene-based' fast-charging battery breakthrough
Guangzhou Auto (GAC) Group says it has achieved a breakthrough in graphene-based fast-charging battery technology and that its vehicle model Aion V will be equipped with the new battery, which is to start production in September.
GAC says that in recent years, graphene, a new material with excellent electrical conductivity, has been the key to breakthroughs in battery technology.
Aion V, the first vehicle to be equipped with the new battery, underwent winter testing and is initially scheduled for mass production in September this year.
At the "2020 GAC Tech Day" held last July, GAC Group demonstrated its 3DG (three-dimensional graphene) production technology with independent intellectual property rights, solving the issue of high costs of graphene, it is claimed. It says the simple, stable, and efficient production method reduces costs to only one-tenth of the conventional method.
After achieving low-cost and large-scale production of graphene, GAC Group says it has also made major breakthroughs in the downstream application of its use. Among them, the electric vehicle industry is most interested in the graphene-based super-fast-charging battery. This graphene-based battery has a 6C fast charge capability, combined with a 600A high-power charger, can be recharged to 80% capacity in 8 minutes. GAC says the battery has also passed the most stringent safety test - Battery Shooting Test, possessing quality and reliability of the highest standard.
GAC says the graphene-based battery technology will significantly shorten charging time, as well as greatly extend battery life, solving the current "pain points" of pure electric vehicles.
VW 'Project Trinity' car to lift EV/AV strategy
Volkswagen says it is planning an electric car to be built in Wolfsburg from 2026 that will set new standards in terms of range, charging speed and digitization – and will be able to drive highly automated according to SAE Level 4.
The project for the car is named Trinity and stands for three crucial themes: (1) a newly developed electronics platform, (2) the simplification of the supply structure, and (3) fully networked and intelligent production at the main plant in Wolfsburg.
"Trinity is a sort of crystallization point for our 'Accelerate' strategy, a lighthouse project, our software dream car," says Ralf Brandstätter, CEO of the Volkswagen brand. VW says the newly developed vehicle architecture will set standards in terms of range, charging speed ("charging as fast as refuelling") and digitalization.
In addition, VW claims Trinity will make autonomous driving in the volume segment possible for many people. By the planned start of series production in 2026, VW says Trinity will already reach Level 2+ and be technically ready for Level 4. "We are using our economies of scale to make autonomous driving available to many people and to build a learning neural network. In this way, we are creating the conditions for the continuous exchange of data from our vehicle fleet – for example, on the traffic situation, on obstacles or on accidents," says Ralf Brandstätter.
VW claims that Trinity gives people time and saves them stress. After a long highway trip, for example, you arrive at your destination relaxed 'because you have been driven by a chauffeur to your vacation or to your home after work'.
"Trinity therefore becomes a kind of 'time machine' for our customers," says Ralf Brandstätter.
With the production of the series version, the Wolfsburg plant will become a showcase for an intelligent and fully networked production processes, VW says. "We will completely rethink the way we build cars and introduce revolutionary approaches. Digitalization, automation and lightweight construction play an important role here," says Ralf Brandstätter.
VW maintains that future vehicle models such as Trinity will be produced with considerably fewer variants, and the hardware will be largely standardized. The cars will then have virtually everything on board and customers will be able to activate desired functions "on demand" at any time via the digital ecosystem in the car. This will significantly reduce complexity in production, the company says.
By developing the automobile into a software-based product, Volkswagen says it is creating the conditions for new, data-based business models. Entry barriers to individual mobility are to be lowered while at the same time offering 'even more attractive usage packages'.
Volkswagen intends to generate additional revenue in the usage phase – for charging and energy services, for software-based functions that customers can book as needed, or for automated driving. "In the future, the individual configuration of the vehicle will no longer be determined by the hardware at the time of purchase. Instead, customers will be able to add functions on demand at any time via the digital ecosystem in the car," says Ralf Brandstätter.
VW says that all-electric vehicles are expected to exceed 70% of European and 50% of Chinese and US sales volumes by 2030.
Half Daimler suppliers commit to carbon neutral
Almost half of about 2,000 Daimler suppliers have signed an Ambition Letter of Intent and are committed to supplying only CO2 neutral parts, said Gunnar Guethenke, head of procurement and supplier quality for Mercedes-Benz Cars.
Under its 'Ambition 2039' plan, Mercedes-Benz wants to offer a CO2 neutral new car fleet in less than 20 years. The switch to electric mobility poses supply chain challenges because, compared to ICE vehicles, the production of an all-electric is twice as CO2 intensive, mainly because of the lithium-ion batteries. But, despite the higher energy demand for production, plug-in hybrids and electric vehicles offer a clear advantage in terms of CO2 emissions compared to conventional drives already today, since only when the entire life cycle of the vehicles is considered a realistic picture emerges: electric vehicles can make up for a large part of the initially higher CO2 emissions from the upstream value chain due to their emission-free driving.
R&D head Markus Schaefer said: "With the electric EQS luxury sedan, we have already achieved important milestones in close cooperation with our partners - for example by purchasing CO2 neutrally produced battery cells.
"When awarding contracts for our subsequent electric vehicle platform - Mercedes-Benz Modular Architecture (MMA) for compact and medium-sized cars - we are already applying CO2 as a key criterion."
The automaker said it was talking with all other suppliers to jointly develop strategies for CO2 reduction.
Climate-neutrality is incorporated into contractual terms, and the ambition letter is a key criterion for awarding contracts. From 2039 at the latest, only production materials which are completely CO2 neutral will be purchased and any supplier declining to sign the ambition letter will not be awarded new contracts.
Mercedes-Benz will additionally focus on materials and components that are particularly CO2 intensive in manufacturing and processing until 2039 - items such as battery cells, steel, and aluminium which account for about 80% of the CO2 emissions in the supply chain of a fully electric vehicle.
CATL (Contemporary Amperex Technology) and Farasis Energy have committed to supply battery cells that are produced using electricity from renewable sources such as hydropower, wind, and solar energy. This reduces the CO2 footprint of an entire battery by more than 30%. The rest of the supply chain will be included next.
The goal is to consistently reduce the use of primary raw materials for electric drives by 2030 and gradually increase the share of secondary and renewable materials in vehicles.
Mercedes-Benz plants, including the global battery production network, will produce on a CO2 neutral basis worldwide from 2022. This will make them role models for the supplier network. In line with plant procedure, suppliers are required to avoid and reduce emissions as a fundamental principle. Only then can compensation via high-value projects be considered. The areas of approach for climate-neutral production are diverse, and range from reducing consumption to purchasing energy from renewable energy sources.
The company aims to have plug-in hybrids or all-electric vehicles to make up more than 50% of its car sales by 2030. Other major goals include involvement in shaping the charging infrastructure and agreeing to specific CO2 measures with suppliers.
In brief
Mercedes-Benz to launch global branded high-power charging network
Mercedes-Benz has announced new plans to launch a global high-power charging network across North America, Europe, China and other key markets. It will begin to be built this year in the US and Canada, followed by other regions around the globe. The aim is to have the full network in place before the end of the decade, when Mercedes-Benz intends to go all-electric wherever market conditions allow.
VW Group confirms Canada battery gigafactory
Canada has been chosen as location for first overseas gigafactory of its battery company PowerCo SE. The gigafactory Canada decision follows the decision to establish a car plant in the US for the Scout brand. It is planned that the Canada gigafactory plant will produce sustainable unified cells with the start of production slated for 2027. The decision to expand the PowerCo cell production ramp-up from Europe to Canada is further proof of the ambitious growth strategy of the VW Group in North America, the company says.
Mazda revives rotary for range extender hybrid
Mazda has revived the rotary engine for its new MX-30 e-Skyactiv R-EV, a plug-in hybrid model that uses the engine as a range extender generator. The MX-30 launched in 2020 as Mazda’s first mass production battery electric vehicle, with a mild hybrid model joining the product line in some markets. The e-Skyactiv R-EV variant is a series plug-in hybrid with an 85km battery electric driving range sufficient for a wide range of everyday driving needs plus the ability to use a generator to enable long distance drives. The entire driving range is electric motor powered.
GM agrees US lithium supply investment deal
General Motors and Lithium Americas are to jointly invest to develop the Thacker Pass mine in Nevada, the largest known source of lithium in the US and the world’s third largest. GM plans to make a US$650m equity investment in Lithium Americas, the largest ever investment by an automaker to produce battery raw materials. Lithium Americas estimated the lithium extracted and processed from the project could support production of up to 1 million EVs per year.
Bentley breaks ground on new technical centre for BEVs
Volkswagen Group owned Bentley Motors has broken ground for the construction of a new ‘Launch Quality Centre and Engineering Technical Centre’. The new facility at Bentley’s headquarters in Crewe, England, is described as integral to the brand’s preparations for future battery electric vehicle (BEV) production. Bentley says it will ‘set a new benchmark in next generation, digital, flexible and high-value manufacturing operations’. As a first step, the new buildings will include a replica BEV assembly line as preparation for the introduction of Bentley’s first BEV in 2026.
Bentley has also announced the end for its 12-cylinder petrol engine from next year. The move to scrap the W12 engine – which has been fitted to Bentley models since 2003 – is part of the move towards electric vehicles at the luxury brand.
Valmet starts production at German battery systems plant
Valmet Automotive has started the series production of battery systems in Kirchardt, the Finnish company’s first battery plant in Germany. The plant near Heilbronn manufactures high-voltage systems for electric vehicles and plug-in hybrids. The current first program for the Kirchardt plant is a small-series production of modules, packs and the battery management system (BMS) for the PHEV version of an exclusive sports car brand. Pre-series production for the first large volume order for another customer, a German OEM, is scheduled to start summer 2023.
Ford confirms new US EV battery plant
Claiming it is the first automaker to commit to build both nickel cobalt manganese (NCM) and lithium iron phosphate (LFP) batteries in the US, Ford will build a $3.5bn LFP battery plant in Marshall, Michigan. The new plant will be a wholly owned subsidiary and part of the automaker’s “$50bn-plus global push to lead the EV revolution”. Initial production is scheduled for 2026 with an initial 2,500 employees. Under a new agreement with Contemporary Amperex Technology (CATL), the plant will manufacture the battery cells using LFP battery cell knowledge and services provided by CATL, which has operated 13 plants in Europe and Asia.