AUTOCRYPT, Author at AUTOCRYPT

28 November, 2020 . 5 mins read

The Rise of Autonomous Delivery Vehicles

Autonomous vehicles are growing in number, and many drivers dream of a future where they can simply be passengers on a commute, a road trip, or just a leisurely drive. Technology has been quickly developing, but what many may not be aware of is the quick, or possibly quicker, rate at which autonomous trucks are hitting the roads.

Let’s take a look at some of the trending topics when it comes to autonomous trucks.

Pandemic Trends

It’s no secret that many of us have been sheltering in place and locking down due to the novel coronavirus, COVID-19. While social distancing, many people have been buying household goods and ordering food online for delivery, and even buying groceries through apps like Instacart. The demand for stores to move to e-commerce has seen a surge, and while this may seem like good news for business owners who may be having a difficult time with drops in offline consumers, it can still have some drawbacks. In fact, the demand may be too high for companies and laborers to keep up.

In Korea, a major online-shopping hub, statistics showed that online shopping amounted to USD 10.6 billion in May 2013, a 13.1 percent increase from the previous year. Food delivery rose 77.6 percent, and F&B online purchases went up 33.1 percent. The steep increase has led to some traumatic instances, with 14 delivery workers losing their lives in 2020.

(Credit: Nuro)

Many companies, therefore, have moved to utilize autonomous deliveries, either with drones, carts or in some cases trucks. Companies have been gaining investor interest.

A great example is Nuro, a California-based autonomous delivery vehicle company, who have been delivering goods autonomously since 2018. Nuro has received the first and only federal exemption for AVs by the US Department of Transportation as well as the National Highway Traffic Safety Administration, and is currently operating in California, Texas and Arizona. The need for a socially distanced method of ecommerce does seem to be gaining traction.

Autonomous and Electric

Autonomous delivery vehicles like pods or trucks are a perfect use case for autonomous-driving technology, as often truck drivers have to go long distances. However, trucks have a much higher rate of carbon emissions because of the sheer size of vehicle and distance of driving. It’s estimated that heavy duty vehicles (HDV) are responsible for 30% of all transport emissions, despite the fact that they only make up roughly 5% of vehicles.

Therefore, it makes sense that the next stop would be to make them all electric, moving away from the traditional diesel-fueled trucks. Companies like Swedish startup Einride have jumped on the wagon, as they recently unveiled a new line of electric, driverless (with remote operator) freight trucks. The company expects to have them on the road in 2021, with emissions cut by up to 90% and fuel costs reduced by 70%.

The challenge for this new development of the electric ad autonomous vehicles will be range anxiety, as Battery Electric Vehicles (BEVs) often have a specific limit of driving range before needing to be charged. BEVs that are also HDVs often have mileage ranges of about 80-110 miles. This range may work for European nations, where distances are shorter and the number of charge points is greater. However, long-haul, cross-country drives within the United States may prove to be more of a feat. A more favorable starting point would be implementing city-wide delivery programs, where charging points are more densely available.

Security Concerns

Of course, when it comes to any new technology, we prioritize security. When looking at autonomous delivery vehicles, in theory they need to implement the same cybersecurity management systems and protocols with a lighter vehicle.

ECUs within the car as well as the network that they are connected to need security measures to be put in place, in order to secure communications and messages that are essential to the proper operation of the delivery vehicle.

Additionally, with trucks and larger HDVs, greater attention needs to be paid to sensors, as they have larger blind spots than lighter vehicles. With side-view assist and expanded LiDAR, trucks can reduce this risk. In 2010, the Insurance Institute for Highway Safety (IIHS) found that with side-view assist, up to 39,000 crashes could be prevented each year.

(Credit: DOT Share the Road Safely)

Conclusion

While autonomous driving technology has been progressing relatively quickly, it is nowhere near Level 5 Full Automation where it can be truly driverless. In fact, many autonomous delivery services still ensure that a driver and an engineer are always on standby to take over manually if the need arises.

But this is not to say we will not be seeing full autonomous trucks anytime soon. It is important to keep in mind that though passenger vehicles are featured in the headlines, smart mobility expands into many other types of transportation – along with cars, trucks and pods are also in development and are deploying out onto public roads. Autonomous trucks will likely be one of the first wide-scale use cases because of its benefits, but we have been seeing a surge in robotic carts that are able to truly make social distanced deliveries happen.

However, as always with new technology, securing them and their environments is a large component of large-scale adoption, if not the most important component. As regulations like WP.29 continue to change the automotive industry, it will be interesting to see how delivery services fit into the larger picture of automotive cybersecurity.

To learn more about AUTOCRYPT’s autonomous vehicle security solutions, check out our page here.

26 November, 2020 . 2 mins read

AUTOCRYPT Launches C-V2X Solution Demonstrating Interoperability with China C-SCMS Standards

SEOUL, KOREA — AUTOCRYPT Co., Ltd., a leading V2X security solutions provider, announced the launch of its new C-V2X solution, supporting Chinese Secure Credential Management System (C-SCMS) standards. AUTOCRYPT received verification tests for compatibility by the C-V2X working group at China Academy of Information and Communications Technology (CAICT), under the new International Mobile Telecommunications-2020 (IMT-2020(5G)) Standard for 5G networks, devices, and services.

China currently leads the world in usage of LTE communications and currently has the third best-selling automotive brand in the market. The nation has set itself on a progressive path in the automotive industry by standardizing the LTE-V2X communications system throughout the entire country, making it mandatory to implement LTE-based C-V2X technology rather than Dedicated Short-Range Communications, or DSRC, into C-ITS projects. China has promoted active deployment of the technology and has already begun C-V2X technology demonstrations in 30 regions. Wuxi, Tianjin and Changsha cities have been designated as the first main cities in the country to become C-V2X commercialization areas, undergoing major developments.

Last month, AUTOCRYPT’s solution was verified for interoperability by the China Industry Innovation Alliance for Intelligent and Connected Vehicles (CAICV), undergoing testing for “four-layers” interoperability between OEM, OBU terminal, V2X communication module, and PKI to comply with C-SCMS standards.

Overseas solutions providers often face challenges in entering market as China’s regulations for C-SCMS differ from existing standards. Unlike the existing SCMS structure, China’s SCMS (C-SCMS) standards utilize a Certificate Trust List (CTL) which configures trust relationships between several PKI (Multiple Root CA) systems. Additionally, C-SCMS allows the download of a security certificate without a registration certificate, further requiring stability measures to be implemented into the protocol.

AUTOCRYPT’s C-V2X security solution has met the challenge to demonstrate compliance, verifying the new solution’s C-SCMS technical standards, making AUTOCRYPT’s security solutions ready for implementation into the country’s Cooperative Intelligent Transport Systems (C-ITS) projects.

CEO and co-Founder Daniel ES Kim remarked, “When it comes to autonomous vehicles and their secure operation, it is essential to ensure compliance with the standards set by the governing parties.” He continued, “AUTOCRYPT currently leads the field in terms of C-ITS security projects, and with this interoperability verification, we are confident that our C-V2X based autonomous driving security solutions will continue to contribute to C-ITS deployment and development in China.”

24 November, 2020 . 6 mins read

Who Will Become the Next Tesla Challenger?

For the last two decades, the automotive industry has been focusing on disruptive technology and innovative productions. The advent of electric cars in early 2000 has provided more opportunities for new companies to challenge the industry – and Tesla has proven that it’s possible. While the existing manufacturing companies remained faithful to the internal combustion engine or by upgrading their models, Tesla has challenged the industry by producing its own all-electric car.

Run by Elon Musk, one of the world’s most powerful people, Tesla is now one of the top 10 most valuable American companies by market cap. Although the market paused for thought a few times, there’s no doubt that Tesla is becoming one of the most influential companies in the EV and autonomous driving industry.

According to Motor Trend, Tesla Model S beat Chevy, Toyota, and Cadillac for the ultimate car of the year honors in 2020 and according to Motor1.com tests, it has the lowest energy consumption of all BEVs. However, its cars are more expensive than traditional or hybrid cars (yes, the battery technology is very expensive!) and the company hasn’t been able to keep up with the high demands of production fueled by the green energy movement.

But it seems like Tesla isn’t the only startup disrupting the automotive industry after all. As hurdles are much lower than they’ve been in the past few decades, it’s been encouraging many electronics and IT giants to eye the EV industry with their innovative challenger electric cars. For instance, Sony has showcased their first Vision-S prototype, a full-fledged contempt car, in Las Vegas this January. Later on, Foxconn Technology Group and Fiat Chrysler Automobiles NV also discussed creating a JV to manufacture electric cars in China.

Lordstown Motors is developing a pickup truck called Endurance, intended for commercial fleets and it has been using some of the equipment that was used to make the Chevrolet Cruze. Lucid Motors’ CEO Peter Rawlinson was the Chief Engineer for Tesla before he left the company in 2012. Founded in 2007, their new car will have a range of more than 400 miles and be able to go from 0 to 60 miles per hour in under 2.5 seconds. Faraday Future is another LA-based startup that builds luxury sedans designed for autonomous driving. Canoo, another Californian startup, is planning to offer electric vehicles next year by subscription starting in LA and gradually expanding the service throughout the United States.

Then there are startups from China such as Byton, with a mid-size electric SUV that has a 48-inch horizontal screen running the entire width of the dashboard. NIO is based in Shanghai and is one of the few companies that are building and selling electric cars. Byton is another startup founded by a former BMW executive in China and this company is accelerating to begin volume production in Nanjing starting next year.

Another Chinese IT giant Huawei, on the other hand, is well known for its consumer electronics and information and communications technology (ICT) infrastructure, rather than electric car manufacturing, across the globe. But with the Chinese government and policy on its side, Huawei has started to scramble to march into the EV market. Since the Mobile World Congress 2018 event, Huawei launched its Intent-Driven Network (IDN) solution which helps evolve networks from SDNs towards autonomous driving networks. Moreover, they have also been developing autonomous driving networks in wireless network scenarios as well as aiming to simplify sites, architectures, along with protocols to build simplified networks.

Huawei has also been expanding its business and exploring autonomous driving networks and technologies with operators, proposing different levels of driving automation. They’re currently in the work of developing vehicles and infrastructure ends by rolling out products like the roadside unit, EI-based intelligent twins, and OceanConnect intelligent transportation platform. Although the company has announced that it won’t build cars but will just help automotive manufacturers like BYD to build better cars equipped with 5G that run on Huawei’s smart car system based on Harmony OS, the company’s investment in the automotive industry is still highly watched.

Almost Self-Driving Cars in 2020

Tesla stated that it will sell its self-driving computer chips and will be able to make its vehicles completely autonomous by the end of this year. Cadillac, Nissan, BMW, Mercedes-Benz, and Toyota are also making every effort to build fully autonomous cars. While the era of full self-driving cars hasn’t yet arrived, we should prioritize security technologies that make autonomous driving feasible without any external threats or interventions.

As experts predict there will be more than 125 million autonomous cars on the road by 2030, the actual concerns about autonomous driving-related to companies taking proper cybersecurity measures have been raised. Of course, protecting the vehicle itself is the utmost priority, but for now, companies are trying to build safer charging environments as the public has already seen attackers causing damage to electronic charging stations, which is the fundamental infrastructure needed to support EV operations.

AutoCrypt, Safeguarding the Fundamental Infrastructure

Many experts in the industry have been predicting the vehicles will become a rolling internet device, a smartphone on 4 wheels, which will become much more than just a means of transportation. Additionally, according to McKinsey, the automotive-related software market will double in value to USD 469 billion over the next 10 years. This means that your vehicle will not only become convenient, smart, and optimized but also a rolling data center, and securing the storage and data is the biggest legal challenge the EV manufacturers are currently facing.

Additionally, the current technology implemented at stations is mostly out-of-date open charge point protocol based on HTTPS which doesn’t encrypt data when safeguarding electric vehicle charging is the key to secure mobility. As driving an electric car is much more than just charging the battery, we need to make sure that our credentials and data are kept and exchanged safely through a reliable V2G security solution.

AutoCrypt PnC protects both the electric vehicle and its supply equipment (EVSE) during the Plug&Charge (PnC) process, which uses PKI technology. The solution verifies the identities of both the vehicle and the charger, ensuring safe exchange of information.

To learn more about AUTOCRYPT’s security solutions, click here.

20 November, 2020 . 3 mins read

AUTOCRYPT Named Automotive Cybersecurity Company of the Year in 2020 AutoTech Breakthrough Awards

AUTOCRYPT, a global leader in autonomous vehicle security solutions, announced today that the company has been named “Automotive Cybersecurity Company of the Year” in the inaugural AutoTech Breakthrough Awards program conducted by the Tech Breakthrough organization, a leading market intelligence and recognition platform for the most innovative technology companies in the world. The awards aim to recognize breakthrough technology companies, services, and products in the global automotive and transportation industry, one that is quickly growing amidst the developments of autonomous driving and 5G.

“AUTOCRYPT has committed to securing the future of autonomous driving and smart mobility. Our expertise in V2X security technology has allowed us to secure over 5000 kilometers of smart roads, gaining recognition from the automotive industry. It is, therefore, with great pleasure we accept this award from Tech Breakthrough in this inaugural program,” said Daniel ES Kim, CEO of AUTOCRYPT. “As technology develops, the risks involved increase and security should be nonnegotiable. We hope that as Automotive Cybersecurity Company of the Year we can continue to innovate and encourage the automotive industry in putting security first.”

This year’s inaugural program attracted more than 1,250 nominations from over 12 different countries throughout the world. “AUTOCRYPT is trusted by many of the major automotive and technology players in the global autonomous vehicle industry, helping drive the world towards a safe and secure future of autonomous mobility,” said Bryan Vaughn, Managing Director, AutoTech Breakthrough Awards. “We are proud to award AUTOCRYPT with one of our marquee awards in the AutoTech Breakthrough Awards program, the Automotive Cybersecurity Company of the Year designation, honoring the Company’s focus on innovation and the delivery of comprehensive solutions to protect the safety of drivers and pedestrians.”

Working with government and public institutions, the company has secured all smart roads in South Korea and is currently expanding business into China with its C-SCMS compliant technology. Offering decades of experience along with the most C-ITS security infrastructure in the world, AUTOCRYPT provides customizable solutions that leave no part of the autonomous vehicle ecosystem behind.

AUTOCRYPT is the leading player in transportation security technologies. Beginning in 2007 as an in-house venture at Penta Security Systems Inc., AUTOCRYPT spun off as a separate entity in 2019 as its presence expanded worldwide. Recognized by TU-Automotive as the Best Auto Cybersecurity Product/Solution of 2019, AUTOCRYPT continues to pave the way in transportation and mobility security through a multi-layered, holistic approach. Through security solutions for V2X/C-V2X, V2G (including PnC security), in-vehicle security, and Fleet Management, AUTOCRYPT ensures that security is prioritized before vehicles hit the road.

AutoTech Breakthrough, part of Tech Breakthrough, is a leading market intelligence and recognition platform for global technology innovation and leadership, honoring excellence in automotive technologies, services, companies and products. The AutoTech Breakthrough Awards program provides a forum for public recognition around the achievements of AutoTech companies and solutions in categories including Connected Car, Electric Vehicles, Engine Tech, Automotive CyberSecurity, Sensor Technology, Traffic Tech, Vehicle Telematics and more. For more information visit AutoTechBreakthrough.com

17 November, 2020 . 5 mins read

Autonomous Vehicles… and Ships?

It is no secret that the era of the autonomous vehicle is already here. With Tesla premiering the beta mode of their Full-Self Driving mode, and other manufacturers following suit with developments in autonomous technology, the number of connected and autonomous vehicles on the road will only continue to increase. However, that means that it is only a matter of time before the autonomous capabilities move on from the road to other methods of transportation. In fact, autonomous ships may not be very far behind from self-driving vehicles.

The International Maritime Organization (IMO) establishes the international standards when it comes to maritime traffic. The IMO defines ships that operate without human interaction as MASS, or Maritime Autonomous Surface Ships. They are also referred to as Unmanned Surface Vehicles (USVs), meaning that they are vehicles that travel on water, or smart ships, in the sense that they have capabilities to be able to travel on their own.

Although MASS or USV may be unfamiliar acronyms, autonomous ships and autonomous vehicles have more in common than you would think. Here are some commonalities between USVs and AVs.

Level / Degree Up

Just like a car has an autonomous driving level, decided by the SAE (see our blog post on different levels here), autonomous ships are also classified by levels of autonomy. However, the IMO officially defines the four levels (called “degrees”) from Degree one, where the system aids the seafarer’s decisions and navigation, all the way to Degree four where fully autonomous navigation occurs without seafarer or remote control.

Industry Consortiums

As a new(er) technology, autonomous vehicles have several organizations and projects that prioritize regulations and international standard compliance for testing, safety and continued development of the technology. It should therefore not come as a surprise that autonomous ships also have consortiums and researchers dedicated to continuing to define and develop the technologies. In 2016, a largely industry-led group called the Maritime Unmanned Navigation through Intelligence in Networks (MUNIN) published a detailed report which summarized three years of key findings regarding MASS.

Security First

As autonomous driving technology continues to advance and the deadline for WP.29 regulations approaches, a trending topic in the industry is security. For a car to drive autonomously on the road, it must connect in real-time to other vehicles, traffic lights, roadside units, and devices. If there is a vulnerability or a breach in this connectivity, true autonomous driving is not possible as it endangers the driver, passenger, and everyone around the vehicle. There is no reason why the same issue would not arise out at sea.

While there may not be a vessel right behind or next to a ship, sea vessels have other complex issues to figure out like weather conditions, route of nearby vessels, fuel capabilities, and load capacities to maintain. If there is a breach, there is the risk of danger to passengers, crew, as well as the sensitive products that may be in the middle of being transported. Hackers do not discriminate and will take a chance to infiltrate anything that seems of financial value or notoriety.

Why Autonomous Ships?

As the world becomes more interconnected, transport of goods will only increase. To optimize transport and minimize risk, it makes sense to develop autonomous ships – USVs can significantly reduce ship management costs as manpower and fuel account for over 80% of operational costs. Having unmanned autonomous vehicles will not only reduce costs but free up space. Minimizing amenities like food, water, and allowing additional cargo or fuel to be loaded will be groundbreaking.

Companies around the world have been taking notice. In 2018, Rolls-Royce and Finferries, a Finnish shipping company (state-owned), demonstrated the world’s first fully autonomous ferry in Turku, Finland. In South Korea, SK Telecom and Samsung developed an autonomous test ship. The 3.3-meter-long ship was equipped with 5G-based LiDAR, cloud-based IoT platform, as well as a real-time video monitoring solution. Korea’s government is also on board as the peninsula’s location is prime for maritime trade. The Ministry of Trade, Industry, and Energy as well as the Ministry of Maritime Affairs and Fisheries formed a working project for autonomous ships and is expected to invest over 160 billion won up to 2025.

However, as we have already seen with the rise of autonomous vehicles, another commonality is that new, trending technologies tend to become new and lucrative targets for hackers. Much like the WP.29 regulations by the UNECE, it may not be long before we begin to see similar regulations for other methods of transportation, and ship manufacturers and seafarers may need to begin preparation sooner rather than later. While technology continues to develop, roadmaps for regulatory reform and systems and standards for autonomous sailing personnel and cybersecurity.

It is essential to prioritize security from the beginning – that is one commonality of which we can be absolutely certain.

29 October, 2020 . 2 mins read

AUTOCRYPT Selected as Recipient of apmaIAC Global Cyber Achievement Award

SEOUL, South Korea: AUTOCRYPT Co., Ltd., a leading autonomous vehicle security solutions provider, was announced as the recipient of the Global Cyber Achievement Award by Canada’s Automotive Parts Manufacturers’ Association’s Institute for Automotive Cybersecurity, hereafter “apmaIAC.”

apmaiac award site winner autocrypt — Credit: apmaIAC awards homepage
“Daniel Eui-Seok Kim founded AUTOCRYPT in 2019 with the goal of securing not only the connected vehicles on the road in the present age, but also future autonomous vehicles and the technology that will enable smart mobility for society.”

As part of Cybersecurity Awareness Month, apmaIAC organized Canada’s first ever cybersecurity awards to enhance awareness of cybersecurity, specifically in the mobility sector, including supply chain and V2X technologies.The Cyber Mobility Awards honors achievements in the field of automotive cybersecurity, which enable the organization’s four pillars of Governance, Assets, Education, and Technology. AUTOCRYPT was selected as winner of the Global Cyber Achievement Award through its accomplishments in the automotive sector.

Regarding the award, CEO and co-Founder Daniel ES Kim remarked, “We are honored to be selected by apmaIAC for this award. We have always believed that securing the vehicle as well as the connections that surround the autonomous vehicle landscape is of utmost importance in the implementation of smart mobility architecture, and being acknowledged for this work is tremendous. We look forward to our partnerships for the future of Canada’s smart mobility and Intelligent Transport Systems (ITS) projects.”

AUTOCRYPT plans to open its North American subsidiary and consequently its first Canadian office in mid-2021. The location will focus on bringing more of its security-centric mobility offerings to North American OEMs and Tier-1 suppliers.