#V2X
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The automotive V2X market generated USD 633.8 million in 2023 and is projected to grow at a CAGR of 49.9% between 2024 and 2030, reaching USD 10,225.5 million by 2030. This significant growth is driven by the increasing demand for advanced vehicle safety technologies, rising environmental concerns, and long-term cost benefits. Additionally, the surge in demand for autonomous vehicles has prompted manufacturers to integrate sophisticated V2X systems into their designs. Government regulations focused on road infrastructure and vehicle safety also play a crucial role in driving market expansion.
#automotive V2X#V2X#Passenger Cars#Commercial Vehicles#Automated Driver Assistance#Intelligent Traffic
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#infrastructure#automotive#connectivity#Roads#V2X#vehicles#ElectronicsArticles#electronicsnews#technologynews
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#AI-mobilityplatform#connectedvehicles#Futurride#nonconnectedvehicles#NoTraffic#sustainablemobility#trafficcontrol#U.S.DepartmentofTransportation#UnitedStatesPatentandTrademarkOffice#USDOT#USPTO#V2X#V2Xcommunication#V2Xtechnology#vehicle-to-everything#VRUs#vulnerableroadusers
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Milton Keynes city council and partners secure £2m for self-driving shuttle services
Nearly £2m (US$2.5m) has been secured in grant funding by Milton Keynes city council and its partners to bring advanced self-driving shuttle services to the city’s downtown. The project – named StreetCAV (connected and autonomous vehicles) – will install the necessary infrastructure and connectivity services to bring autonomous shuttles that seat multiple passengers to the UK city. Robotic and drone-based services will also be integrated to ensure a high level of safety for users. The StreetCAV project consortium consists of Milton Keynes city council, Smart City Consultancy and several other partners. Each will provide their respective knowledge to trial the AVs before evaluating whether to roll out the technology to further UK locations. Continue reading Milton Keynes city council and partners secure £2m for self-driving shuttle services at ADAS & Autonomous Vehicle International.
https://www.autonomousvehicleinternational.com/news/mobility-solutions/milton-keynes-city-council-and-partners-secure-2m-for-self-driving-shuttle-services.html
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RSU Application Case Based on the Forlinx i.MX 8M Plus SoM
Roadside Unit (RSU) is a communication gateway deployed alongside roads and serves as an essential component of the V2X roadside system. Its function is to collect real-time information regarding traffic, road conditions, and vehicle flow. This information is then transmitted through communication networks to the V2X platform, enabling communication with on-board devices, traffic signals, electronic signs, and other terminals. RSUs facilitate vehicle-to-infrastructure communication, real-time interaction with traffic signals, intelligent computing, remote interaction, and provide support for autonomous driving and intelligent transportation.
This article will explore the enhancement of driving safety and efficiency through RSU technology driven by the NXP i.MX 8M Plus processor, as well as its application prospects in the field of smart transportation.
What are the uses of RSU (Roadside Unit)?
1. RSU can perform real-time detection of road conditions and optimize traffic flow. Based on the connected external sensors, RSU can collect data, conduct statistical analysis, and estimate relative traffic density of road conditions. By communicating with the On-Board Unit (OBU), RSU can provide applications such as speed guidance, speed limit warnings, congestion alerts, etc., to enhance traffic efficiency, reduce accident rates, and contribute to improving traffic conditions.
2. RSU plays a crucial role in aiding autonomous driving services. In current autonomous driving systems, road conditions are mainly perceived through radar and cameras. However, RSU becomes essential for providing non-line-of-sight road information, such as moving objects like vehicles and pedestrians behind obstacles, as well as real-time weather conditions and complex road situations ahead, including potholes, sharp turns, road flooding, and traffic accidents. RSU can provide accurate road condition information and weather updates to autonomous vehicles, greatly enhancing driving safety.
3. RSU can assist vehicles in achieving high-precision positioning and navigation. Traditional vehicle GNSS navigation systems can experience degraded satellite signals in urban canyons and similar areas due to high-rise building obstructions, which can affect the accuracy of positioning and navigation. RSU can help mitigate this issue by providing additional localization data and enhancing the positioning capabilities of vehicles in such challenging environments. RSU can serve as a differential positioning base station to provide high-precision positioning for passing vehicles and guide them in making informed decisions while driving.
The requirements for an RSU typically include the following:
1. Having powerful data processing capabilities
2. Having high-speed data uplink and downlink capabilities
3. Adapting to complex outdoor scenarios requirements
4. Having the ability to integrate multiple communication modules
5. Supporting remote device upgrades and management
6. Small size for easy installation
1. This solution is designed by Forlinx NXP using the high-performance i.MX 8M Plus processor, which not only features a powerful CPU but also a strong GPU.
2. The solution is equipped with a neural processing unit (NPU) with a maximum operating speed of up to 2.3 TOPS (Trillions of Operations Per Second), enhancing the edge computing capabilities of the RSU.
3. Industrial grade quality (-40℃ to +85℃) to meet the application of outdoor scenes.
4. The solution features ultra-thin board-to-board connectivity and a structural size of 62mm × 36mm, aiming to minimize the overall device dimensions while ensuring functional integrity.
5. The solution offers versatile interface capabilities, enabling integration with modules for C-V2X, 4G/5G communication, high-precision positioning, and various other functionalities. Additionally, it supports a wide range of peripheral expansion capabilities.
This solution offers outstanding performance, stable operation, and rich functional interfaces. Microwave communication with Onboard Units (OBUs), it enables functions such as vehicle-to-infrastructure cooperation, intelligent computation, and remote interaction. It provides assistance with autonomous driving and intelligent transportation.
Originally published at www.forlinx.net.
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Nissan Futures Showcases Innovations in Sustainable Mobility
Max-Out all-electric convertible makes physical debut at month-long event.
Max-Out all-electric convertible makes physical debut at month-long event.
Nissan Motor Co., Ltd. will hold Nissan Futures, an event showcasing how Nissan is shaping the future of sustainable mobility and innovative design, at its Global Headquarters Gallery from Feb. 4 to Mar. 1.
As part of the event launch, Nissan today unveiled a physical concept model of its Max-Out EV convertible. The…
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#nissan#nissan all electric convertible#nissan ambition#nissan futures#nissan max out#nissan mobility#nissan sustainable mobility#nissan technology#nissan v2x#v2x
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Telematics Revolution in Automotive Industry
Revolutionizing the way we drive and think about transportation, telematics in the #EV automotive industry is making waves. From real-time monitoring of vehicle performance to predictive maintenance and even remote diagnostics, telematics is helping to improve the overall driving experience. Discover more on how it is shaping the future of the EV industry.
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#ElectricVehicles#Innovations#Automotive#AutonomousVehicles#Security#GPS#V2X#Driving#Lidar#Logistics#IndoorMapping#Electricvehicles#Adas#Safety#India#ConnectedVehicles#ArtificialIntelligence#MachineLearning#UBI#RoadSafety#Transport#BMS
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In a mood to kiss some women, any volunteers?
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Future of Automotive V2X Market: Size, Share, and Key Trends through 2030
The Automotive Vehicle-to-Everything (V2X) Market is set to experience remarkable growth over the coming years, with its size projected to grow from USD 0.5 billion in 2023 to USD 9.5 billion by 2030, at a CAGR of 51.9%. This substantial expansion reflects a compound annual growth rate (CAGR) driven by the increasing adoption of V2X technology in connected and autonomous vehicles.
V2X…
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Revolutionizing Traffic Management with Emtrac’s C-V2X Signal Priority
What is C-V2X Signal Priority?
C-V2X Signal Priority is a cutting-edge technology that enables direct communication between vehicles and traffic signals using cellular networks. This innovative approach prioritizes certain vehicles, such as emergency responders and public transportation, by optimizing traffic signals to ensure these vehicles receive a green light as they approach intersections. Emtrac’s C-V2X solutions are designed to integrate seamlessly with existing traffic signal systems, revolutionizing the way urban traffic is managed.
Seamless Integration with Traffic Systems
Emtrac’s C-V2X Signal Priority leverages cellular networks to facilitate real-time communication between vehicles and traffic infrastructure. As a priority vehicle approaches an intersection, the system communicates with the traffic signal, ensuring that the light turns green to allow for uninterrupted passage. This reduces delays, improves traffic flow, and enhances the efficiency of transportation networks, particularly in congested urban areas.
Key Advantages for Urban Mobility
· Enhanced Traffic Efficiency: By prioritizing critical vehicles, C-V2X Signal Priority reduces congestion and improves overall traffic flow.
· Improved Public Safety: The system ensures that emergency vehicles can reach their destinations faster, reducing response times and potentially saving lives.
· Eco-Friendly Solution: By minimizing idling at red lights, the system contributes to reduced emissions, supporting cities’ environmental goals.
· Adaptable Technology: Emtrac’s C-V2X solutions are designed to be easily integrated with existing infrastructure, making it a cost-effective upgrade for municipalities.
Building the Future of Urban Mobilit
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Asia-Pacific Is Dominating Automotive V2X Industry
In 2023, the automotive V2X market yielded revenue of USD 633.8 million and is projected to experience a remarkable CAGR of 49.9% between 2024 and 2030, reaching a total of USD 10,225.5 million by 2030. This can be credited to the increasing need for enhanced technology concerning vehicle security, rising ecological anxieties, and cost aids.
Moreover, the need is growing for automatic cars,…
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Mobility solutions
AAVI learns how shared intelligent transportation has the potential to enrich communities and solve driver shortages, with autonomous bus and shuttle services in Europe and the US providing valuable lessons Surprisingly few people are aware that automated public transportation in the form of autonomous buses and shuttles is already a reality, with fleets of driverless vehicles in daily service in both the US and Europe. Adastec Corp is currently operating a full-size (22-seat), electric SAE Level 4-capable automated transit bus on a circular route around Michigan State University’s campus in East Lansing, Michigan. “We have been making 10 daily trips between an outer commuter lot and the auditorium building within the campus, carrying students and faculty for more than one year,” explains Dr Kerem Par, CTO and co-founder of Adastec Corp. Continue reading Mobility solutions at ADAS & Autonomous Vehicle International.
https://www.autonomousvehicleinternational.com/features/mobility-solutions-2.html
#AI & Sensor Fusion#Features#Mapping#Mobility solutions#Sensors#V2X#Anthony James#ADAS & Autonomous Vehicle International
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https://www.htfmarketintelligence.com/report/global-5g-v2x-market
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