U of R environmental economist says there is evidence carmakers can meet stricter emissions policy
University of Redlands
The automotive industry has become increasingly interested in the use of high-Ni (nickel) batteries for electric vehicles. However high-Ni cathodes, which make the batteries, are prone to reactivity and instability when exposed to humidity
A new kind of radar could make it possible for self-driving cars to navigate safely in bad weather. Electrical engineers at the University of California San Diego developed a clever way to improve the imaging capability of existing radar sensors so that they accurately predict the shape and size of objects in the scene. The system worked well when tested at night and in foggy conditions.
The Government released a call for evidence for the safe use of Automated Lane Keeping Systems (ALKS) in August this year ready for Spring 2021.
Newly funded projects will contribute to innovative, advanced electric vehicle charging.
Researchers at PNNL have increased the conductivity of composite copper wire by 5%. That small percentage can make a big difference in motor efficiency. The laboratory teamed with General Motors to test out the souped-up copper wire for use in vehicle motor components, as part of a cost-shared research project.
Smart cruise control, better human decisions. Michigan Tech engineers study how cars and trucks move cooperatively on the road, respond to each other’s environmental sensors and react as a group to lessen traffic jams and protect the humans inside.
Oak Ridge National Laboratory and Department of Energy officials dedicated the launch of two clean energy research initiatives that focus on the recycling and recovery of advanced manufacturing materials and on connected and autonomous vehicle technologies.
For years the coating industry has been working on energy and environmentally friendly improvements to the automotive painting process. Toward this end, researchers in Lawrence Berkeley National Laboratory's Computational Research Division are partnering with one of the world’s largest paint manufacturers through a new project that aims to couple advanced mathematics with HPC resources to model the paint drying process and guide the development of new energy-efficient coating systems for the auto industry.
Scientists at Oak Ridge National Laboratory used new techniques to create a composite that increases the electrical current capacity of copper wires, providing a new material that can be scaled for use in ultra-efficient, power-dense electric vehicle traction motors.
A next-generation battery that will power our electric devices longer and, potentially, make them more affordable and accessible. That's the focus of Koffi Pierre Yao's research which has earned a $1 million grant from the U.S. Department of Energy’s Advanced Vehicle Technologies Research program.
Everyone can suffer from motion sickness, and around one in three are known to be highly susceptible to motion sickness
Warwick Racing is a team of 30 dedicated members all working towards getting a single-seater electric race car designed, manufactured and tested in the space of a year.
A team led by University of Utah chemical engineering assistant professor Kerry E. Kelly has received a $1.2 million National Science Foundation grant to design and test the viability of a real-time air pollution monitoring system and display for idling parked cars. The display would work similarly to dynamic speed limit displays in neighborhoods that monitor motorists' speed. In this case, these new displays would give feedback to drivers if air pollution rises due to idling.
One of the biggest impediments to adoption of new technologies is trust in AI.
A new study found that teen drivers and drivers 65 years and older – two age groups at a higher risk of being involved in an automobile accident – are more likely to be driving vehicles that are less safe, putting them at even higher risk of injury. The findings underscore the need for these groups to prioritize driving the safest vehicle they can afford.
Warwick Acoustics Ltd, a spin-out company from the University of Warwick’s School of Engineering, is a manufacturer of next generation audio systems for the automotive sector and personal use, and thanks to a grant from Innovate UK, will support development of a lower cost version of its patented ElectroAcoustics Audio Panels for next generation vehicles.
What happens if an electric car burns in a road tunnel or an underground car park? In the Hagerbach test tunnel in Switzerland, Empa researchers and tunnel safety expert Lars Derek Mellert set fire to battery cells of electric cars, analyzed the distribution of soot and smoke gases and the chemical residues in the extinguishing water.
If 2020 proves a turning point from internal-combustion engines to electric vehicle models, EV expert and historian David Kirsch says scholars will likely look back and point to five specific factors.
Bakman continues to expand the market for THz technology - focusing on economical, reliable, rugged, application-specific THz sensors.
*Subtropical weather phenomenon likely to bring greater rainfall – and drought – by 2100 *A Q&A with scientist Bin Wang on how Berkeley Lab is helping cities prepare for a major shift in our transportation and grid sectors *Berkeley Lab founder, cyclotron inventor, and Nobel laureate Ernest Lawrence, honored with a Memorial Highway in his home state.
Horizon31, LLC, of Knoxville, Tenn., has exclusively licensed a novel communication system that allows users to reliably operate unmanned vehicles such as drones from anywhere in the world using only an internet connection.
University reports a new electrocatalyst that converts carbon dioxide and water into ethanol with very high energy efficiency, high selectivity for the desired final product and low cost.
A team of 25 students who formed Warwick Moto are designing, building and developing an electric superbike which was due to race this summer
Advanced fuels and new engine designs could reduce emissions and water use over the next 30 years, according for a new study led by Argonne scientists.
A new PNNL report says the western U.S. bulk power system can reliably support projected growth of up to 24 million electric vehicles through 2028, but challenges will arise as EV adoption grows beyond that threshold. This study is the most comprehensive of its kind, integrating multiple variables not evaluated before, such as growth in commercial delivery fleets and long-haul trucks, as well as large-scale and long-term EV charging scenarios and strategies.
Researchers at Berkeley Lab, in collaboration with Carnegie Mellon University, have developed a new battery material that could enable long-range electric vehicles that can drive for hundreds of miles on a single charge, and electric planes called eVTOLs for fast, environmentally friendly commutes.
The Detroit Institute of Ophthalmology, the research arm of the Henry Ford Health System Department of Ophthalmology, is accepting abstracts for The Eye, The Brain & The Auto 9th World Research Congress on Health and Modern Mobility: Autonomous Vehicles, Driver's Fitness to Function, and Naturalistic Driving Methods to be held Dec. 7-8, 2020. This will be a virtual event.
There’s a fairly large flaw in the way that programmers are currently addressing ethical concerns related to artificial intelligence and autonomous vehicles (AVs). Namely, existing approaches don’t account for the fact that people might try to use the AVs to do something bad.
As the government has announced proposals to ban the sale of petrol, diesel and hybrid cars by 2035 the race to electrify the motor industry is on, and motorbikes aren’t to be overlooked.
New smart parking software developed by Cornell University researchers, which matches drivers with parking garage spots based on travel time and other factors, could reduce congestion and emissions while saving drivers the time of circling to look for available spots.
In a study published in the June edition of IEEE Electron Device Letters, University at Buffalo electrical engineers describe how a gallium oxide transistor they created can handle more than 8,000 volts. The transistor could lead to smaller and more efficient electronic systems that control and convert electric power in electric cars, locomotives and airplanes. In turn, this could help improve how far these vehicles can travel.
Connected and automated vehicles use technology such as sensors, cameras and advanced control algorithms to adjust their operation to changing conditions with little or no input from drivers. A research group at the University of Delaware optimized vehicle dynamics and powertrain operation using connectivity and automation, while developing and testing a control framework that reduced travel time and energy use in a connected and automated vehicle.
Over 300 kilometres of West Midland’s roads are set to trial connected and autonomous vehicles, making UK roads safer and allowing for more predictable goods delivery and journey times.
Using exhaust gas measurements taken from the roadside, a team from the University of York and Empa was able to prove the "Dieselgate" scandal has led to positive results. The forced retrofitting of thousands of VW diesel engines saves the environment throughout Europe considerable amounts of Nitrogen oxide (NOx).
The ‘BRAINSTORM’ project involving researchers at WMG, University of Warwick has won gold at the JEC World 2020 Innovation Awards in the category ‘Railway Vehicles and Infrastructure’
The safety of Autonomous Vehicles will be tested by Dr Siddartha Khastgir, at WMG, the University of Warwick thanks to a UKRI Future Leaders Fellowship
A new supercapacitor based on manganese oxide could combine the storage capacity of batteries with the high power and fast charging of other supercapacitors, according to researchers at Penn State and two universities in China.
The COVID-19 pandemic has highlighted how manufacturing supply chains are critical to the process of delivering products and services essential to life. Whilst a series of ‘lifeboat’ projects are needed to protect manufacturing capability in the short term, Professor Janet Godsell, from WMG, University of Warwick says now is the time for UK manufacturing supply chains to pivot and build capability for the future.
Researchers at the Department of Energy’s Oak Ridge National Laboratory (ORNL) demonstrated a 20-kilowatt bi-directional wireless charging system installed on a UPS medium-duty, plug-in hybrid electric delivery truck. The project is the first of its kind to achieve power transfer at this rate across an 11-inch air gap, advancing the technology to a new class of larger vehicles with higher ground clearance.
A new autonomous guided vehicle (AGV) is being developed to transform the horticultural sector and tackle the labour shortage
“Scooter clutter” has been a concern amplified by media reports in urban areas where micromobility has entered the landscape, with large numbers of dockless scooters and shared e-bikes on city streets and sidewalks. But a recent study finds that motor vehicles are still the main offender by far when it comes to blocking access by other travelers.
A lithium-ion battery that is safe, has high power and can last for 1 million miles has been developed by a team in Penn State’s Battery and Energy Storage Technology (BEST) Center.
For the past eight years, Sandia National Laboratories manager Joel Wirth has been working afterhours in his home garage with his crew chief — his father, Jack Wirth, a retired electrical engineer from Sandia. Together, they’ve built one of the fastest 1927 Model T roadsters in the world.
With hybrid cars and plug-in hybrids, cold starts occur more frequently when the internal combustion engine stops and the electric motor pushes the car through town. How quickly can the catalytic converter be preheated so that it can still clean exhaust gases well? What would be the method of choice? A team of Empa researchers is investigating.