automotive
Auto Added by WPeMatico
Auto Added by WPeMatico
The Seattle-based startup Recurrent said today it has closed on $3.5 million in financing as it looks to become the Carfax for electric vehicle batteries.
The battery system is arguably the most important part of any electric vehicle and as the market for used electric vehicles expands, independent verification on battery life and range can help car buyers with their purchasing decision, the company said.
Investors include Wireframe Ventures, PSL Ventures, Vulcan Capital, Prelude Ventures, Powerhouse Ventures, Ascend.VC and the American Automobile Association’s (AAA) Washington chapter.
“Used car sales are at least double new car sales every year. With the third anniversary of Tesla’s Model 3 and the rapid introduction of new electric models across all vehicle makers, used EV sales are about to grow substantially,” Paul Straub, managing director of Wireframe Ventures, said in a statement. “The timing is right for a first mover with a strong data and technology advantage to bring confidence and transparency to these transactions.”
The company said it will use the money to invest in continued product development as it refines its third-party condition reports for used electric vehicle shoppers and battery analytics stats for current electric vehicle owners.
Recurrent collects its data from 2,500 volunteer electric vehicle drivers who currently use the Recurrent service for monthly battery reports on their own vehicles
“While there’s clearly a market-driven opportunity here, we’re particularly excited about the potential impact of the Biden administration’s policies on EV adoption,” Emily Kirsch, founder and managing partner of Powerhouse Ventures, said in a statement. “We’ve seen the huge impact that favorable policies are having in the EU and think there’s a lot of upside potential in a similar acceleration in the U.S.”
Powered by WPeMatico
Aurora Innovation, the autonomous vehicle startup backed by Sequoia Capital and Amazon, has reached an agreement with Uber to buy the ride-hailing firm’s self-driving unit in a complex deal that will value the combined company at $10 billion.
Aurora is not paying cash for Uber ATG, a company that was valued at $7.25 billion following a $1 billion investment last year from Toyota, DENSO and SoftBank’s Vision Fund. Instead, Uber is handing over its equity in ATG and investing $400 million into Aurora, which will give it a 26% stake in the combined company, according to a filing with the U.S. Securities and Exchange Commission. (As a refresher, Uber held an 86.2% stake (on a fully diluted basis) in Uber ATG, according to filings with the SEC. Uber ATG’s investors held a combined stake of 13.8% in the company.) Shareholders in Uber ATG will now become minority shareholders of Aurora. Notably, once the deal closes, Uber together with existing ATG investors and the ATG employees who continue their employment with Aurora are expected to collectively hold about 40% interest in Aurora on a fully diluted basis.
Uber CEO Dara Khosrowshahi will take a board seat in the newly expanded Aurora.
Aurora, which was founded in 2017, is focused on building the full self-driving stack, the underlying technology that will allow vehicles to navigate highways and city streets without a human driver behind the wheel. Aurora has attracted attention and investment from high-profile venture firms, management firms and corporations such as Greylock Partners, Sequoia Capital, Amazon and T. Rowe Price, in part because of its founders Sterling Anderson, Drew Bagnell and Chris Urmson, all of whom are veterans of the autonomous vehicle industry.
Urmson led the former Google self-driving project before it spun out to become the Alphabet business Waymo. Anderson is best known for leading the development and launch of the Tesla Model X and the automaker’s Autopilot program. Bagnell, an associate professor at Carnegie Mellon, helped launch Uber’s efforts in autonomy, ultimately heading the autonomy and perception team at the Advanced Technologies Center in Pittsburgh.
Aurora plans to bring autonomous trucks to market first. However, Urmson has maintained that the company is still pursuing other applications of its self-driving stack such as robotaxis. The deal with Uber ATG provides Aurora with talent and operational facilities. But it delivers on two other important areas: relationships with Uber ATG investors, specifically Toyota, as well as a partnership with Uber that will give it access to its vast ride-hailing platform.
“The way we want to build this company has been with this mindset of let’s build it to scale — let’s create an environment where people can do their best work,” Urmson said in an interview Monday. “And then let’s go look for great teams and bring them in. It’s one way to get a combination of talent and technology, and in this case, also relationships.”
The announcement, which confirms TechCrunch’s reporting in November, marks the beginning of what promises to be a huge undertaking to merge Uber ATG, a 1,200-person business unit with operations in Pittsburgh, San Francisco and Toronto with its smaller competitor.
It’s not clear if all Uber ATG employees will be folded into Aurora, which has 600-person workforce and operations in San Francisco Bay Area, Pittsburgh, Texas and Bozeman, Montana. At least one executive — Uber ATG CEO Eric Meyhofer — will not be joining the company.
Urmson emphasized that work to integrate the companies and their technology will begin without haste.
“One of the most fun things we’ll be doing over the next 60 days is bringing the two teams together,” Urmson said. “And then kind of dispassionately looking at what is the technology that accelerates our first product to market and then amplifying that — whether it’s from the existing Aurora team or to the new Aurora team — and pushing that forward, whether it’s ideas or code or bits of hardware together to accelerate our time to market.”
The company plans to assess the workforce and technology as quickly as possible, Urmson said.
For Uber, the deal marks one of the last expensive pursuits that it had yet to either spin or sell off as the company narrowed in on its core businesses of ride-hailing and delivery. In the past year, Uber has dumped shared micromobility unit Jump, sold a stake in its growing but still unprofitable logistics arm, Uber Freight and acquired Postmates. Uber is also reportedly in talks to sell off its autonomous air taxi business Uber Elevate.
Uber ATG was one of those businesses that promised financial benefits in the long term, but delivered lots of pain, controversy and upfront costs since almost the moment it was created.
In early 2015, Uber kicked off its pursuit of autonomous vehicles when it announced a strategic partnership with Carnegie Mellon University’s National Robotics Center. The agreement to work on developing driverless car technology resulted in Uber poaching dozens of NREC researchers and scientists. A year later, Uber acquired a self-driving truck startup called Otto, a startup founded by one of Google’s star engineers, Anthony Levandowski, along with three other Google veterans: Lior Ron, Claire Delaunay and Don Burnette.
Two months after the acquisition, Google made two arbitration demands against Levandowski and Ron. Uber wasn’t a party to either arbitration. While the arbitrations played out, Waymo separately filed a lawsuit against Uber in February 2017 for trade secret theft and patent infringement. Waymo alleged in the suit, which went to trial but ended in a settlement in 2018, that Levandowski stole trade secrets, which were then used by Uber.
With the trial over, Uber pressed on, but almost immediately was involved in another deadlier controversy when one of its autonomous test vehicles — which had a human safety driver behind the wheel — struck and killed a pedestrian in March 2018. The entire industry took pause and Uber halted all testing.
Uber spun out Uber ATG in spring 2019 after closing $1 billion in funding from Toyota, auto parts maker Denso and SoftBank’s Vision Fund. Even with the spin off, Uber still faced a costly enterprise. Uber reported in November that ATG and “other technologies” (which includes Uber Elevate) had a net loss of $303 million in the nine months that ended September 30, 2020. In its S-1 document, Uber said it incurred $457 million of research and development expenses for its ATG and “other Technology Programs” initiatives.
Despite the trail of problems that have plagued Uber ATG, Urmson insists that the company has the talent and some interesting technology that makes it a worthy asset.
“Some of the work they’ve been doing in designing their next-generation hardware for the vehicles is exciting and interesting,” he said. “On the software side, they have really cool stuff in prediction, and how they’ve combined prediction and the perception system together.”
Others close to the deal said Uber ATG has valuable and talented mid-level and low-level engineers, making the acquisition particularly appealing to Aurora.
This is not Aurora’s first acquisition, although it is certainly its largest and most complex. In 2019, Aurora acquired Blackmore, a Bozeman, Montana-based lidar company, and simulation startup 7D Labs. Aurora has touted its “no jerks” policy and its company culture, which is now about to absorb hundreds of new people.
Post-merger integrations can take months, even years, which can in turn slow down technological or operational progress. Urmson thinks differently.
“If anything, this accelerates our objectives,” he said.
Powered by WPeMatico
Residents of Shenzhen will see truly driverless cars on the road starting Thursday. AutoX, a four-year-old startup backed by Alibaba, MediaTek and Shanghai Motors, is deploying a fleet of 25 unmanned vehicles in downtown Shenzhen, marking the first time any autonomous driving car in China tests on public roads without safety drivers or remote operators.
The cars, meant as robotaxis, are not yet open to the public, an AutoX spokesperson told TechCrunch.
The milestone came just five months after AutoX landed a permit from California to start driverless tests, following in the footsteps of Waymo and Nuro.
It also indicates that China wants to bring its smart driving industry on par with the U.S. Cities from Shenzhen to Shanghai are competing to attract autonomous driving upstarts by clearing regulatory hurdles, touting subsidies and putting up 5G infrastructure.
As a result, each city ends up with its own poster child in the space: AutoX and Deeproute.ai in Shenzhen, Pony.ai and WeRide in Guangzhou, Momenta in Suzhou and Baidu’s Apollo fleet in Beijing, to name a few. The autonomous driving companies, in turn, work closely with traditional carmakers to make their vehicles smarter and more suitable for future transportation.
“We have obtained support from the local government. Shenzhen is making a lot of rapid progress on legislation for self-driving cars,” said the AutoX representative.
The decision to remove drivers from the front and operators from a remote center appears a bold move in one of China’s most populated cities. AutoX equips its vehicles with its proprietary vehicle control unit called XCU, which it claims has faster processing speed and more computational capability to handle the complex road scenarios in China’s cities.
“[The XCU] provides multiple layers of redundancy to handle this kind of situation,” said AutoX when asked how its vehicles will respond should the machines ever go rogue.
The company also stressed the experience it learned from “millions of miles” driven in China’s densest city centers through its 100 robotaxis in the past few years. Its rivals are also aggressively accumulating mileage to train their self-driving algorithms while banking sizable investments to fund R&D and pilot tests. AutoX itself, for instance, has raised more than $160 million to date.
Powered by WPeMatico
Scale AI, the four-year-old data labeling startup, has discovered that selling the picks and shovels needed to develop and apply artificial intelligence is big business.
The company, which created a visual data labeling platform that uses software and people to label image, text, voice and video data for companies building machine learning algorithms, has raised another $155 million. The funding round, led by Tiger Global, pushes Scale’s post-money valuation to more than $3.5 billion.
Importantly, Scale is now a “break even” business and is set up to continue to add employees and expand into new markets in a sustainable way, Scale’s CEO and co-founder Alexandr Wang told TechCrunch. Scale will use the funds to grow its workforce from 200 people to about 350 by the end of next year. (Those employee numbers don’t include the tens of thousands of contractors it uses to label data.) It’s also focused on new markets and adding products and platform capabilities.
Scale got its start by supplying autonomous vehicle companies with the labeled data needed to train machine learning models to develop and deploy robotaxis, self-driving trucks and automated bots used in warehouses and on-demand delivery. Legacy automakers such as General Motors and Toyota, chipmaker Nvidia and a slew of AV startups, including Nuro and Zoox, have used its platform.
More recently, Scale’s customers have spilled over into government, e-commerce, enterprise automation and robotics. Airbnb, OpenAI, DoorDash and Pinterest are some of its customers. That pace of expansion has accelerated in 2020, according to Wang.
“One thing that we saw, especially in the course of the past year, was that AI is going to be used for so many different things,” Wang said. “It’s like we’re just sort of really at the beginning of this and we want to be prepared for that as it happens.”
Part of that preparation means evolving beyond being just a data labeler. Earlier this year, the company quietly launched Nucleus, an AI development platform that Wang describes as the “Google Photos for machine learning data sets.” Nucleus provides customers a way to organize, curate and manage massive data sets, giving companies a means to test their models and measure performance among other tasks.
“Nucleus is the first product of our future, I would say,” Wang said. “We definitely see that the next biggest bottleneck for a lot of our customers is, ‘how are they going to have the suite of tools and suite of infrastructure that exists today for building out software?’ None of that exists for machine learning.”
The plan is to continue to build out Nucleus into a fully integrated platform that helps more companies be able to do AI, Wang said.
Scale made its first acquisition to support Nucleus with the purchase of a four-person startup called Helia. The team, which has expertise in real-time video and neural network training, will support Nucleus.
“The one thing that we were noticing across our whole customer base was that more and more customers, even beyond just the self-drive folks were wanting to do AI on real-time video. And so it was becoming this expertise that we knew just wasn’t going to go away.”
Powered by WPeMatico
Everyday thousands of trucks carry freight along U.S. highways, propelling the economy forward as consumer goods, electronics, cars and agriculture make their way to distribution centers, stores and eventually households. It’s inside these trucks — many of which sit half empty — where Flock Freight, a five-year-old startup out of San Diego, believes it can transform the industry.
Now, it has the funds to try and do it.
Flock Freight said Tuesday it has raised $113.5 million in a Series C round led by SoftBank Vision Fund 2. Existing investors SignalFire, GLP Capital Partners and Google Ventures also participated in the round, in addition to a new minority investment by strategic partner Volvo Group Venture Capital. Ervin Tu, managing partner at SoftBank Investment Advisers, will join Flock Freight’s board. The company, which has raised $184 million to date, has post-funding valuation of $500 million, according to a source familiar with the deal who confirmed an earlier report by Bloomberg.
A slew of startups have popped up in the past several years all aiming to use technology to transform trucking — the backbone of the U.S. economy that moves more than 70% of all U.S. freight — into a more efficient machine. Most have focused on building digital freight networks that connect truckers with shippers.
Flock Freight has focused instead on the shipments themselves. The company created a software platform that helps pool shipments into a single shared truckload to make carrying freight more efficient. Flock Freight says its software avoids the traditional hub-and-spoke system, which is dominated by trucks with less than a full load, known in the industry as LTL. Flock Freight says that by pooling onto one truck shipments that are going the same direction, freight-related carbon emissions can be reduced by 40%.
The funds will be used to hire more employees; it has 129 employees to date.
“Unlike the digital freight-matching category that uses technology to simply improve efficiency as workflow automation, Flock Freight uses technology to power a new shipping mode (shared truckload) that makes freight transportation more efficient. The impact of Flock Freight’s algorithms is that shippers no longer need to adhere to LTL constraints for freight that measures up to 44 linear feet; instead, they can classify it as ‘shared truckload,’ ” Oren Zaslansky, founder and CEO of Flock Freight said in a statement. “Shippers can use Flock Freight’s efficient shared truckload solution to accommodate high demand and increased urgency.”
Their pitch has been compelling enough to attract a diverse mix of venture firms and corporate investors such as Volvo and SoftBank.
“Flock Freight is improving supply chain efficiency for hundreds of thousands of shippers. Our investment is intended to accelerate the company’s ability to scale its business and capture a greater share of the market,” said Tu, managing partner at SoftBank Investment Advisers.
Powered by WPeMatico
The coronavirus pandemic is acting as a catalyst for urban transformation across Europe as city authorities grapple with how to manage urban mobility without risking citizens’ health or inviting gridlock by letting cars flood in.
Micromobility and local commerce are being seen as both short and long-term solutions for urban revival in a number of cases. We’ve run down key policy developments in four major cities, Paris, Barcelona, London and Milan, which — at varying speeds — are pushing to rethink and reclaim streets for feet and two wheels.
Every year, around 2,500 people die prematurely because of air pollution in Paris. Like most European cities, the number one cause of pollution is motorized traffic.
Due to consistent policy changes over the past two decades, pollution has been slowly decreasing. It’s a long and difficult process and each step provides a new set of challenges.
The city has only had two different mayors for the past twenty years — Bertrand Delanoë and Anne Hidalgo. That consistency combined with long terms as mayor has led to some divisive changes and long-term thinking.
Paris has a long and conflictual relationship with cars. Nearly 20 years ago, bus lanes were highly controversial because it reduced space dedicated to cars. Today, nobody is asking for the removal of those lanes.
That’s why it’s a bit ironic that the same thing is happening again and again. For instance, Paris Mayor Anne Hidalgo banned cars from the right bank of the Seine in 2016. Many political opponents and car enthusiasts criticized the decision. Earlier this year, none of the candidate in the municipal election mentioned the right bank of the Seine — it became a non-issue.
But the city’s policies aren’t just focused on banning cars. Paris has become a mobility lab for European cities with many public and private initiatives. If they work in Paris, chances are those initiatives will be reproduced elsewhere.
There are two reasons why Paris is an interesting city for mobility experiments. First, the Paris area is the 29th metropolitan area in the world by population density. Georges-Eugène Haussmann initiated some radical urbanization changes in the second half of the 19th century leading to the city’s modern layout — mostly seven-story buildings circled by the ring road.
As the limits of the city haven’t changed in over 100 years, it is still relatively small compared to other major cities. For instance, San Francisco, which is a small city by American standards, is still larger than Paris when it comes to area.
Second, Paris attracts a lot of tourists (in a normal year). In 2019, 38 million tourists came to Paris. These tourists tend to do normal touristy things — they move around the city all day long.
Paris Mayor Anne Hidalgo and a fleet of Vélib’ bikes. Image Credits: Loïc Venance / AFP / Getty Images
In addition to a dense public transportation network with subways, regional trains, buses and trams, other transportation methods have emerged. In 2005, the city of Lyon introduced Vélo’v, a publicly subsidized bike-sharing service based on a network of stations spread across the city.
Two years later, the city of Paris introduced a similar servie called Vélib’. It’s hard to overstate how big of an impact Vélib’ has had on transportation. Just a few years after its launch, Vélib’ had hundreds of thousands of subscribers generation over 100,000 rides per day.
Other cities in Europe and the U.S. have followed course and introduced their own bike-sharing service. But nobody has come close to reaching the success of Vélib’. Despite some growing pains, Vélib’ now has over 400,000 subscribers. On September 4th, 2020, the service handled 209,000 rides. There are around 15,000 bikes on the service, which means that each bike is used nearly 14 times per day.
The reason why Vélib’ is much more successful than Citi Bike in New York or Santander Cycles in London is that Vélib’ is much cheaper. A standard Vélib’ subscription with unlimited ride costs $3.70 per month (€3.10). In London, you pay nearly $10 per month (£90 per year). In New York, it costs $15 per month. Subscribing to Vélib’ is a no-brainer.
And this is all due to political will. Vélib’ is a subsidized service. But it’s hard to understand the financial impact of Vélib’ as there are fewer cars on the road, which means that it’s less expensive to maintain roads. Additionally, the impact on pollution and physical activity means that people tend to be healthier, which reduces the pressure on the public health system.
Bike-sharing services can’t work without public money as it fosters network density, which boosts usage. Once the network reaches a critical mass, it’s a never-ending virtuous circle of network expansion and new clients.
Image Credits: Romain Dillet / TechCrunch
Many startups have tried to enter the lucrative market with their own take on bike-sharing without docks. Gobee.bike, Obike, Ofo, Mobike and more recently Bolt have all deployed thousands of bikes in the streets of Paris. They’ve all shut down since then. Jump, which is now a Lime subsidiary, is the only remaining contender.
But bikes are just one transportation method among what people call ‘soft mobility’ in France. A French startup called Cityscoot has also been thriving with tens of thousands of rides per day. The company operating free-floating electric moped scooter service.
And then, there are scooters. At some point, there were just too many scooter startups — Bird, Bolt, Bolt by Usain Bolt, Circ, Dott, Hive, Jump, Lime, Tier, Voi, Ufo and Wind. They all had funny-sounding names and there were even two different companies with the same name (Bolt). And I’m probably forgetting a couple of companies.
Image Credits: Romain Dillet / TechCrunch
This shows once again that Paris is an attractive city for micromobility startups. There are many tourists and you can go from A to B quite easily.
The city of Paris had to regulate the market because scooters were taking over urban space. There are now three permits to operate shared electric scooters in Paris — Dott, Lime and Tier. They each operate a fleet of 5,000 scooters and there are now dedicated parking spots.
Up next, Paris Mayor Anne Hidalgo has some ambitious plans to accelerate the pace of changes. During her reelection campaign earlier this year, she laid out a clear multiyear plan with a key concept: the 15-minute city.
“The 15-minute city represents the possibility of a decentralized city. At its heart is the concept of mixing urban social functions to create a vibrant vicinity,” Carlos Moreno, a professor at University of Paris 1, told Bloomberg.
Essentially, Moreno believes that there shouldn’t be residential neighbourhoods, business districts and commercial areas. Each neighbourhood should be a tiny town on its own with workplaces, stores, movie theaters, health centers, schools, bakeries, etc.
In addition to reducing carbon emissions, the 15-minute concept has the potential of revitalizing neighbourhoods altogether. By prioritizing social functions, roads immediately become an afterthought.
The 15-minute city is a concept that sums up a lot of things in three words. Suddenly, there’s a clear political agenda with a strong brand for the next decade of urban planning.
If I paraphrase neoliberal ideology, many policies trickle down from the 15-minute city. Car ownership is relatively low in Paris — more than 60% of households don’t have a car. Even more striking, people going to work use their car extremely rarely — in 9.5% of cases.
There are two consequences. First, cars are no longer the priority. In 2024, you won’t be able to drive a diesel car in Paris. In 2030, gas-powered cars will be banned.
Some major roads are now primarily focused on ‘soft mobility’. Due to the coronavirus outbreak, the city of Paris took advantage of the lockdown to accelerate their mobility agenda with new bike lanes and repurposed roads. It feels like they’re copying the neoliberal shock doctrine, as explained by Naomi Klein. And yet, in that case, it feels like a reverse shock doctrine as the administration is focusing on green initiatives.
For instance, the Rue de Rivoli used to be a major road that connects the Champs-Elysées to Bastille. Now, one-third of the road is dedicated to buses and two-thirds are reserved for bikes and e-scooters.
Rue de Rivoli. Image Credits: Romain Dillet / TechCrunch
Second, the City of Paris wants to reclaim space. Cars in Paris remain parked 95% of the time. That’s why Paris is going to remove 50% of parking spots. Instead, the city of Paris wants to turn some streets into gardens. There are bigger plans for new parks as well in front of the city hall and between the Eiffel Tower and Trocadéro.
After decades of incremental changes, everything is lining up for a drastic transition. In Paris, change happens progressively, then suddenly.
Image Credits: Romain Dillet / TechCrunch
The Catalan capital — Spain’s second largest city — approved a new Urban Mobility Plan in 2013 with the aim of flipping street space in favor of pedestrians and away from prioritizing private vehicles. The city has the highest vehicle density in Europe and that’s a major problem.
City authorities report vehicle density at around 6,000 per square kilometer — highlighting the deleterious impact on air quality and public health. Per official stats, traffic pollution causes 3,500 premature deaths annually, 1,800 hospital admissions for cardiorespiratory problems, 5,100 cases of bronchitis in adults, 31,100 cases in children and 54,000 asthma attacks in children and adults.
The city’s solution to this public health crisis is an ambitious pedestrianization plan focused, in recent years, on creating ‘superilles’ — also known as ‘super islands’ or ‘superblocks’ — which switch the function of a number of streets from carrying cars to putting neighbourhood life first.
One of Barcelona’s early superblocks in the Poblenou district. Image Credits: Toni Hermoso Pulido / Flickr under a CC BY-SA 2.0 license
A handful of superblocks have been established over the years. Some, such as one in the Gracia barrio, is already so well established it’s all but invisible to the eye unless you stop to ask yourself how come there are so many pedestrians out and about and the cars that pass have to creep along behind them? Or why the edge of the pavement blends seamlessly into the road with no change of level.
But Barcelona is now planning a major expansion of the policy, championed by mayor Ada Colau, that will see it transform the dense, central Eixample district — creating masses more green (and low speed) urban space over the next ten years. They’re dubbing this the Barcelona superblock, given its central location and the larger scale vs what’s come before.
The superblocks model is naturally suited to micromobility — and building out the city’s network of bike lanes is a key part of the urban mobility plan.
Barcelona has had a red-liveried docked bike rental scheme — called Bicing — since 2007. Recently upgraded to include e-bikes alongside mechanical rides, the scheme isn’t yet as heavily used as its equivalent in Paris (and isn’t open to tourists as the subscription requires a local ID to obtain) but it is very popular with residents.
Per official data, Bicing had more than 127,000 subscribers as of September 2020 who racked up around 1.3 million journeys in the month.
In recent years e-scooter ownership has also mushroomed, with no specific legislation preventing private use on public roads, though rental companies have faced regulatory controls. Not that that’s prevented plenty of scooter startups — from Bird to Bolt to Wind — from scooter-bombing the city seeking to workaround restrictions.
A pair of Wind e-scooters parked in a Barcelona street in the barrio of Gracia where pedestrians and bikes already have priority over cars. Image Credits: Natasha Lomas / TechCrunch
As well as boosting biking and micromobility, the superblocks plan also aims to boost local commerce as streets flip from being ‘for cars’ to greener and more pleasant spaces where people are encouraged to meet, gather and do business.
In other traffic control policy measures, Barcelona began applying restrictions to vehicles based on their emissions at the start of this year — banning older petrol and diesel cars from entering during peak times. (The policy will apply to delivery transportation from next year.) While residents who own polluting vehicles have been encouraged to give up their cars in exchange for a free three-year public transit card (nudging people toward the existing metro, train and bus network).
With the superblocks transformation, there’s a historical architectural challenge that Barcelona’s urban planners are aiming to overcome.
The grid structure of the central Eixample district — conceived in 1856 by Catalan civil engineer, Illdefons Cerdà — aimed to extend the growing city in a healthy way by allowing for green space within every housing block.
However, the plan was implemented with a lack of regulation that allowed infill by developers and speculators over time, fuelled by rising land values and housing prices. That gobbled up gaps in the blocks intended as open public spaces. The result is a far denser city than Cerdà had planned. And one with streets that — so long as they remain packed with petrol and diesel vehicles — are noisy, polluted and unpleasant places to hang around in.
The Barcelona superblock is thus an attempt to right a historical wrong in the implementation of the city’s urban planning. Or “to modernize the Barcelona of the late nineteenth century and achieve better conditions for public health,” as city authorities put it.
It’s also a cautionary story about the need for proper regulation to accompany urban planning to ensure it serves the public interest — to protect residents’ health, quality of life and local commerce — guarding against deleterious external forces powered by private economic interests.
Around a third of Eixample’s 61 streets will be flipped to make way for a “green axes” of pedestrianized carriageway by 2030, under the Barcelona superblock plan. It will also create 21 new public squares at diagonal intersections.
The transformation of the zone will be slow, with city authorities wanting to make sure they bring residents along with them. But they have data to champion the plan — drawing on the success of a handful of existing superblocks, such as one in the Poblenou district — and can point to examples such as a third less NO2 pollution at one of the flipped interchanges and a similar increase in street level commercial activity.
The detail of the new street model has not yet been determined — the city is holding a design competition to choose that next year — but it’s set key parameters such as the need for 80% of the street to be shaded by trees/vegetation in summer, and at least 20% of its surface to be permeable rather than paved.
The city’s vision for the evolution of streets in the Barcelona superblock. Image Credits: Barcelona City Council
“It will be necessary to generate walking spaces, spaces that facilitate spontaneous children’s play and comfortable living spaces,” it writes in a press release [translated from Catalan]. “The design will have to allow for flexible spaces that can accommodate various occasional uses such as fairs, concerts and other acts. All with a feminist vision, prioritizing children and the elderly and promoting services and local trade.”
City authorities describe the aim as “a more sustainable model of public space, healthy and designed for people” — and one which “promotes social relations, which encourages local trade and focuses on the needs of children and seniors.”
They have also committed to maintain access to public transport throughout the superblocks.
Work on converting the first four streets is slated to begin in the first quarter of 2022: In Consell de Cent, Girona, Rocafort and Comte Borrell. City authorities have committed $44.8 million (€37.8 million) to these first transformations — though clearly a lot more public funding will be needed to deliver the full switch.
The coronavirus pandemic has acted as a small-scale opportunity for accelerating pedestrian-focused urban remodeling — enabling city authorities to expand Barcelona’s network of bike lanes during the relative quiet of lockdowns, and install some emergency pedestrian zones to expand outdoor space as an anti-COVID-19 measure.
Some street parking around the city has also been requisitioned and repurposed to make outdoor terrace space for cafés and bars during the pandemic.
But the need to reset an urban infrastructure that’s unhealthily monopolized by motorized traffic is an issue the city has been grappling with for decades — slowly chipping away at the problem with a variety of policies, such as those that allow for temporary road closures for local events and at weekends.
So, for many Barcelona residents, it’s not controversial to say that creating healthy, commercially active urban spaces means cars giving way to foot traffic. And the 2030 ‘Barcelona superblock’ looks like it will tip the balance for good.
That said, criticism of the project includes that it’s not radical enough — leaving a number of high-speed thoroughfares to keep on slicing right through the heart of the city. So Barcelona’s creep away from cars doesn’t yet look as radical as what’s being planned in Paris.
A Bird e-scooter parked next to a bike lane in Barcelona’s Poblenou district. Image Credits: Natasha Lomas / TechCrunch
The UK capital has operated congestion charging in central zones of the city since 2003 — charging motorists to drive into the area in a bid to reduce road use during the busiest times. The policy made London a major European pioneer in applying controls on urban car use.
However, a lack of public and political consensus on the issue has restricted policy development for long periods — and even led to a rolling back, at the end of 2010, when then London mayor, Boris Johnson, scrapped a portion of the zone known as the western extension.
London’s huge population and sprawling size — with commercial zones tending to be clustered and concentrated away from large swathes of residential housing (which are often segregated by income) — means the issue of how to get around can be a divisive one, for people and businesses. So, it’s not an obvious candidate for going ‘car free’.
Yet, at the same time, London is extremely well served with public transport (buses, subways, trams and trains) — meaning plenty of journeys can be made without owning or using a private vehicle. There has also been investment in expanding the city’s network of cycle lanes in recent decades. And since 2010 a pay-as-you-go docked bike rental scheme has been in operation — racking up more than 10 million trips in total as of 2017.
Though, again, car-clogged streets and a Northern European climate can put limits on people’s willingness to brave the elements on two wheels.
London’s docked bike hire scheme. Image Credits: Elliott Brown / Flickr under a CC BY-SA 2.0 license
Existing UK regulations have also held back the uptake of modern alternatives like e-scooters — though there are now moves to open up streets to this type of micromobility, with the city’s transport regulator preparing a trial for scooter rental companies.
While a lack of decisive political action to curb car use has undoubtedly contributed to decades of terrible air quality in London — with drastic impacts on public health (one study in 2015 suggested deaths from long term exposed to pollution could be as high as 9,500 annually) — rising awareness of the health risks associated with urban traffic has led city authorities to push policies that aim to deter the most polluting vehicles from driving through the congestion zone by applying a surcharge, which appears to have led to a decline in peak pollution levels.
London’s ‘ultra-low emission zone’ (Ulez) will be expanded to cover a larger area of the city next year. So, there’s been a centralized and somewhat sustained push to make urban car use cleaner and less harmful, even though there’s been an inconsistent approach to discouraging car use itself.
But, in a more radical recent development, the shock of the coronavirus has fuelled grassroots campaigns at a borough/neighbourhood level to bar through-traffic in residential neighbourhoods.
This is done by implementing so-called low traffic neighbourhoods (LTNs) which use a variety of interventions to limit traffic — such as strategically placed planters or bollards and/or timed road use restrictions to block rat runs.
Residents in a number of London boroughs who are sick of living alongside the noise and pollution generated by traffic have seized on the opportunity of COVID-19-related mobility restrictions to restrict access to roads in their immediate vicinity to through traffic.
Per Bloomberg, there were 114 plans for LTNs in the works in London as of late July.
There’s push and pull here too, with LTNs generating opposition, including complaints that rat-running cars are simply being displaced to other streets.
There are also important socioeconomic critiques that they disproportionately benefit wealthier areas at the expense of more deprived neighbourhoods.
Such opposition may in part reflect the relative rapidness of implementation since the pandemic — something a more participatory process and well-rounded monitoring and consultation might be able to avoid.
But for those lucky to be living in LTNs the gains look hard to ignore. “Now, instead of speeding cars, the streets carry street chalk, murals, flowers, and signs with children’s illustrations asking people to step out of their car and explore the neighborhood,” Bloomberg reports on the changed character of street life in one LTN.
A pedestrianized junction in Dulwich as part of emergency coronavirus measures to create more street space for people Image credits: Richard Baker / In Pictures / Getty Images
In May, London’s mayor, Sadiq Khan — who has pledged to make London carbon neutral by 2030 if he’s reelected next year — announced a ‘Streetspace’ plan: Pushing a range of policies aimed at “rapidly transforming London’s streets to accommodate a possible 10x increase in cycling and 5x increase in walking.”
The plan also explicitly encourages scooting alongside walking and cycling as an urban mobility priority in London.
Part of the motivation for the policy push has been trying to steer Londoners away from a mass regressive switch away from London’s public transport — and into cars — as lockdown restrictions ease yet the risk of COVID-19 infection lingers.
Khan’s Streetspace plan also voices support for LTNs. But, ultimately, the power to restrict London traffic rests with local councils (or central government) — leaving the mayor to “urge” government/borough councils to get on board with measures aimed at persuading Londoners to switch to “cleaner, more sustainable forms of transport”.
The lack of a central London authority with a policy plan for LTNs may limit how far or fast these through-traffic-free neighbourhoods can spread in the UK capital.
Nonetheless it’s an interesting development that shows how much appetite there is among Londoners to reclaim residential streets for neighbourhood life.
Planters block a road to through traffic as part of the London’s mayor’s Streetspace plan Image credits: Photo by Richard Baker / In Pictures / Getty Images
Italy’s industrial north was among the hardest hit regions in Europe during the first wave of the coronavirus pandemic. An extended lockdown was implemented — clearing cars off the streets of cities like Milan for months, as businesses got shuttered and residents were confined indoors — which in turn led to a noticeable improvement in air quality in a region infamous for pollution.
Since then, authorities in Milan have seized on the enforced break with a smog-filled ‘norm’ to push forward with an experimental citywide expansion of cycling lanes and pedestrianized zones — under a mobility plan called Strade Aperte (aka Open Streets) that’s aimed at adapting city infrastructure to find space for social distancing as urban life gets opened back up.
The Open Streets plan includes dropping the speed limit to 30kmph on a majority of Milan’s roads (replacing a 50kmph maximum), via signage and incorporating some structural elements for speed control; and adding 35km to its existing bike network before the end of the year.
The city launched its docked bike rental scheme, BikeMI, in 2008.
Milan is looking to boost cycling after lockdown by expanding its network of bike lanes Image credits: Emanuele Cremaschi / Getty Images
“As the Milan 2020 Adaptation Strategy foresees, the current health crisis can be an opportunity to decide to give more space to people and improve the environmental conditions in the city, increasing more sustainable, non-polluting, means of travel and redefining the use of streets and public spaces for commercial, recreational, cultural, and sport purposes, while respecting physical distance requirements,” city authorities write in a memo on the plan.
The overarching policy push is toward the same goal as Paris’ vision: Supporting what’s described as “the neighbourhood dimension” — aka making sure every citizen has access to almost all services within 15 minutes’ walk.
This is a strategic aim while residents are forced to live alongside the virus — and some of the measures are being couched as ‘temporary’.
But while the pandemic is acting as a catalyst/justification for rapid changes, city authorities were already looking for ways to repurpose urban infrastructure to deliver health benefits to citizens, environmental gains and boost local commerce by getting people out of cars and peddling/walking through the neighbourhood.
So, it’s hard to see where the impetus would come from to advocate a reversal back to noisier, more polluted, less playful streets.
In Milan, it’s the same story: The direction of urban travel is about rethinking streets as open public spaces for people and hyper-local micromobility, rather than letting cars colonize the commons and render its roads default highways elsewhere. Addio macchina.
Scooting on a Milan street Image credits: Mairo Cinquetti / NurPhoto / Getty Images
Powered by WPeMatico
Daimler’s trucks division has invested in lidar developer Luminar as part of a broader partnership to produce autonomous trucks capable of navigating highways without a human driver behind the wheel.
The deal, which comes just days after Daimler and Waymo announced plans to work together to build an autonomous version of the Freightliner Cascadia truck, is the latest action by the German manufacturer to move away from robotaxis and shared mobility and instead focus on how automated vehicle technology can be applied to freight.
The undisclosed investment by Daimler is in addition to the $170 million that Luminar raised as part of its merger with special purpose acquisition company Gores Metropoulos Inc. Luminar will become a publicly traded company through its merger with Gores, which is expected to close in late 2020.
Daimler is taking two tracks on its mission to commercialize autonomous trucks. The company has been working internally to develop a truck capable of Level 4 automation — an industry term that means the system can handle all aspects of driving without human intervention in certain conditions and environments such as highways. That work has accelerated since spring 2019 when Daimler took a majority stake in Torc Robotics, an autonomous trucking startup that had been working with Luminar the past two years. Lidar, the light detection and ranging radar that measures distance using laser light to generate a highly accurate 3D map of the world around the car, is considered a critical piece of hardware to deploy automated vehicle technology safely and at scale.
The plan is to integrate Torc’s self-driving system, along with Luminar’s sensors, into a Freightliner Cascadia truck as well as build out an operations and network center to run automated trucks. Daimler Trucks’ and Torc’s integrated self-driving product will be designed for on-highway hub-to-hub applications, especially for long-distance, monotonous transport between distribution centers, according to Daimler.
Meanwhile, Daimler Trucks is developing a customized Freightliner Cascadia truck chassis with redundant systems to allow Waymo to integrate its self-driving system. In this case, the software development stays in house at Waymo; Daimler is just concentrating on the chassis development.
This dual approach puts Daimler’s ambitions at center stage, which is to have series-production L4 trucks on highways globally. The deal also provides a clearer view of Luminar’s strategy of focusing on what its founder Austin Russell believes are the most likely and shortest paths to commercialized automated vehicles, and in turn, a profitable company.
“Our focus has really been always centered around highway autonomy use cases, which are specifically applicable to passenger vehicles as well as trucks,” Russell said in a recent interview, adding that the aim is to have a product that you can put into series production in a cost-effective capacity.
Luminar has already publicly announced one deal with an automaker to pursue the passenger vehicle use case. Volvo said in May it will start producing vehicles in 2022 that are equipped with lidar and a perception stack developed by Luminar that the automaker will use to deploy an automated driving system for highways. This deal with Daimler locks in the second use case.
“I absolutely do believe that autonomous trucking is an incredibly valuable business model that’s going to be larger than robotaxis and probably closer to being on par with consumer vehicles for the foreseeable future,” Russell said.
Powered by WPeMatico
Outrider, a startup aiming to bring its autonomous technology to the nerve center of the supply chain, has raised $65 million in funding just eight months after coming out of stealth. The Series B round was led by Koch Disruptive Technologies and brings its total funding raised to $118 million.
Other existing investors increased their investments, including NEA, 8VC and Prologis Ventures, according to the company. New investors included Henry Crown and Company and Evolv Ventures.
The company’s aim to automate distribution yards doesn’t get the same kind of attention as the more public-facing robotaxis that other companies are pursuing. But it could be as impactful and potentially lucrative to the company that pulls it off. Distribution yards are where goods make the transition from long-haul trucks to warehouses, and eventually the consumer. These hubs of economic activity rely on humans to make repetitive, manual tasks using diesel-powered yard trucks. There are some 400,000 distribution yards located in the United States, a number that provides an idea of the potential size of the opportunity.
The Golden, Colorado startup previously known as Azevtec developed a three-part system that includes an autonomous electric yard truck, software to manage the operations and site infrastructure. The total system automates the manual aspect of yard operations, including moving trailers around the yard as well as to and from loading docks. The system can also hitch and unhitch trailers, connect and disconnect trailer brake lines and monitor trailer locations.
Outrider touts the dual benefits of its electric and autonomous system. The company notes that its electric yard trucks are ideal for autonomy due to their reduced maintenance, lower operating costs and reliable clean power. Andrew Smith, the company’s founder and CEO, says disruptions caused by COVID-19 has highlighted the need for this kind of automated distribution yard technology.
Outrider, which now employs 110 employees, has completed “multiple” pilot programs, including one with Georgia-Pacific, and expanded its customer base since coming out of stealth in February.
Powered by WPeMatico
Geocoding startup what3words — which chunks the world into 3mx3m squares, giving each a unique three-word label to simplify location sharing — has nabbed another in-vehicle integration, via a partnership with Here Technologies.
The pair said today that OEMs using Here’s navigation platform can include what3words as an in-car nav feature directly through the Here Search API, instead of needing to integrate itself. Existing users of the platform will be able to be given access to what3word’s addressing tech via an update.
Here says its map data services can be found in 150 million vehicles worldwide at this point.
It’s by no means the first such integration for what3words, which has found cars to be a natural fit for its simplified, “rolls-off-the-tongue” addressing system. The 2013-founded startup inked a partnership with Ford last year, for example. It also counts Daimler as an investor.
Letting drivers speak or type three words to input a location into their car’s GPS system has clear benefits versus requiring they correctly specify a full address. What3words also pinpoints a more specific location than a typical postcode — and works for destinations that don’t have a street address (the start of a hiking trail or specific lay-by; a particular entrance for a campus, etc).
What3words further notes that its tech has been adopted by global car companies, logistics providers and mobility apps, including Mercedes-Benz, Tata Motors, DB Schenker, Hermes and Cabify.
In recent years the novel addressing system has also found favor with Airbnb as a way of simplifying location sharing for less traditional types of stays.
Commenting on its latest partnership in a statement, what3words CEO and co-founder Chris Sheldrick, said: “We are seeing increasing demand from automakers and mobility services. Now that we are embedded in Here, we can enable our address system simply and easily in both new and legacy vehicles.”
“Automotive OEMs and Tier 1 suppliers can now provide the what3words service to their customers through the Here Search API instead of having to integrate it themselves,” added Jørgen Behrens, SVP and chief product officer at Here Technologies in another supporting statement. “This will allow drivers to navigate easily in dense, urban environments with non-standard addressing schemes or seamlessly get to any location, be it a local pub or a trailhead.”
Powered by WPeMatico
“I have to choose my words carefully,” says Joe Castelino of Stevens Creek Volkswagen in San Jose, California, when asked about the management software on which most car dealerships rely for inventory information, marketing, customer relationships and more.
Castelino, the dealership’s service director, laughs as he says this. But the joke has apparently been on car dealers, most of whom have largely relied on a few frustratingly antiquated vendors for their dealer management systems over the years — along with many more sophisticated point solutions.
It’s the precise opportunity that former Tesla CIO, Jay Vijayan, concluded he was well-positioned to address while still in the employ of the electric vehicle giant.
As Vijayan tells it, he knew nothing about cars until joining Tesla in 2011, following a dozen years of working in product development at Oracle, then VMware. Yet he learned plenty over the subsequent four years. Specifically, he says he helped to build with Elon Musk a central analysis system inside Tesla, a kind of brain that could see all of the company’s internal systems, from what was happening in the supply chain to its factory systems to its retail platform.
Tesla had to build it itself, says Vijayan; after evaluating the existing software of third-company providers, the team “realized that none of them had anything close to what we needed to provide a frictionless modern consumer experience.”
It was around then that a lightbulb turned on. If Tesla could transform the experience for its own customers, maybe Vijayan could transform the buying and selling experience for the much bigger, broader automotive industry. Enter Tekion, a now four-year-old, San Carlos, California company that now employs 470 people and has come far enough along that just attracted $150 million in fresh funding led by the private equity investor Advent International.
With the Series C round — which also included checks from Index Ventures, Airbus Ventures, FM Capital and Exor, the holding company of Fiat-Chrysler and Ferrari — the company has now raised $185 million altogether. It’s also valued at north of $1 billion. (The automakers General Motors, BMW and the Nissan-Renault-Mitsubishi Alliance are also investors.)
Eric Wei, a managing director at Advent, says that over the last decade, his team had been eager to seize on what’s approaching a $10 billion market annually. Instead, they found themselves tracking incumbents Reynolds & Reynolds, CDKGlobal and Dealertrack, which is owned by Cox Automotive, and waiting for a better player to emerge.
Then Wei was connected to Tekion through Jon McNeill, a former Tesla president and an advisory partner to Advent.
Says Wei of seeing its tech compared with its more established rivals: “It was like comparing a flip phone to an iPhone.”
Perhaps unsurprisingly, McNeill, who worked at Tesla with Vijayan, also sings the company’s praises, noting that Tekion even bought a dealership in Gilroy, Calif., to use as a kind of lab while it was building its technology from scratch.
Such praise is nice, but more importantly, Tekion is attracting the attention of dealers. Though citing competitive reasons, Vijayan declined to share how many have bought its cloud software — which connects dealers with both manufacturers and car buyers and is powered by machine learning algorithms — he says it’s already being used across 28 states.
One of these dealerships is the national chain Serra Automotive, whose founder, Joseph Serra, is now an investor in Tekion.
Another is that Volkswagen dealership in San Jose, where Castelino — who doesn’t have a financial interest in Tekion — speaks enthusiastically about the time and expenses his team is saving because of Tekion’s platform.
For example, he says customers need only log-in now to flag a particular issue. After that, with the help of an RFID tag, Stevens Creek knows exactly when that customer pulls into the dealership and what kind of help they need, enabling people to greet him or her on arrival. Tekion can also make recommendations based on a car’s history. It might, for instance, suggest to a customer a brake fluid flush “without an advisor having to look through a customer’s history,” he says.
As important, he says, the dealership has been able to cut ties with a lot of other software vendors, while also making more productive use of its time. Says Castelino, “As soon as a [repair order] is live, it’s in a dispatcher’s hand and a technician can grab the car.”
It’s like that with every step, he insists. “You’re saving 15 minutes again and again, and suddenly, you have three hours where your intake can be higher.”
Interestingly, the steepest competition, should it come, might eventually be from Tesla itself.
In an earnings call earlier today, Musk told analysts that there are essentially a dozen startups housed inside of Tesla, including one centered on vehicle service. It’s the very business that Vijayan helped to create.
As for whether Musk might spin out any of these, he said Tesla currently has no plans to do so, suggesting it has enough on its plate for the time being.
Powered by WPeMatico