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Primeur weekly 2018-11-05

Exascale supercomputing

Cray introduces first exascale-class supercomputer ...

DOE to build next-generation supercomputer at Lawrence Berkeley National Laboratory ...

Crowd computing

FaceMe to use Tatau's distributed supercomputer ...

Quantum computing

Full steam ahead to the quantum web: Mainz University is involved in the European Flagship on Quantum Technologies programme ...

A quantum computer for Europe: Joining forces for new FET flagship project OpenSuperQ ...

Tianhe-2 supercomputer works out the criterion for quantum supremacy ...

A billion euro for quantum research - the Danish contribution ...

One step closer to complex quantum teleportation ...

Tests show integrated quantum chip operations possible ...

Researchers create scalable platform for on-chip quantum emitters ...

Berkeley computer theorists show path to verifying that quantum beats classical ...

Multi-functional quantum bits for future computers ...

Focus on Europe

PRACE to issue The Scientific Case for Computing in Europe 2018-2026 ...

PRACE Digest 2018 now available online ...

Open Edge and HPC Initiative to be launched at SC18 ...

Human brain supercomputer with 1 million processors switched on for first time ...

Middleware

AccelStor unveils the advanced flash data reduction technology for the era of data intensive workloads ...

Bright unveils plans to exhibit at SC18 in Dallas ...

Hardware

Cray reports third quarter 2018 financial results ...

Ohio Supercomputer Center installing new Pitzer Cluster built by Dell EMC ...

SDSC Chief Data Science Officer Ilkay Altintas named an HDSI Fellow ...

Applications

Esther Bron is the winner of the Young eScientist Award 2018 ...

University of Tokyo team becomes Gordon Bell Prize finalist after performing the most complex earthquake simulation to date ...

HPC & Artificial Intelligence: Addressing humanity's grand challenges at SC18 ...

Machine learning to help optimize traffic and reduce pollution ...

The Cloud

Red Hat refines hybrid Cloud innovation with latest version of the world's leading enterprise Linux platform ...

Cloud computing load balancing based on ant colony algorithms improves performance ...

VoiceBase extends deep learning neural network compute to Verne Global ...

HPE delivers first above-the-cloud supercomputing services for astronauts to advance space exploration ...

Machine learning to help optimize traffic and reduce pollution

Credit: iStock.com/timoph.28 Oct 2018 Berkeley - Applying artificial intelligence to self-driving cars to smooth traffic, reduce fuel consumption, and improve air quality predictions may sound like the stuff of science fiction, but researchers at the Department of Energy's Lawrence Berkeley National Laboratory have launched two research projects to do just that.

In collaboration with UC Berkeley, Berkeley Lab scientists are using deep reinforcement learning, a computational tool for training controllers, to make transportation more sustainable. One project uses deep reinforcement learning to train autonomous vehicles to drive in ways to simultaneously improve traffic flow and reduce energy consumption. A second uses deep learning algorithms to analyze satellite images combined with traffic information from cell phones and data already being collected by environmental sensors to improve air quality predictions.

"Thirty percent of energy use in the U.S. is to transport people and goods, and this energy consumption contributes to air pollution, including approximately half of all nitrogen oxide emissions, a precursor to particular matter and ozone - and black carbon (soot) emissions", stated Tom Kirchstetter, director of Berkeley Lab's Energy Analysis and Environmental Impacts Division, an adjunct professor at UC Berkeley, and a member of the research team.

"Applying machine learning technologies to transportation and the environment is a new frontier that could pay significant dividends - for energy as well as for human health."

The traffic-smoothing project, dubbed CIRCLES, or Congestion Impact Reduction via CAV-in-the-loop Lagrangian Energy Smoothing, is led by Berkeley Lab researcher Alexandre Bayen, who is also is a professor of electrical engineering and computer science at UC Berkeley and director of UC Berkeley's Institute of Transportation Studies. CIRCLES is based on a software framework called Flow, developed by Alexandre Bayen's team of students and post-doctoral researchers.

Flow is a first-of-its-kind software framework allowing researchers to discover and benchmark schemes for optimizing traffic. Using a state-of-the-art open-source microsimulator, Flow can simulate hundreds of thousands of vehicles - some driven by humans, others autonomous - driving in custom traffic scenarios.

"The potential for cities is enormous", stated Alexandre Bayen. "Experiments have shown that the energy savings with just a small percentage of vehicles on the road being autonomous can be huge. And we can improve it even further with our algorithms."

Flow was launched in 2017 and released to the public in September, and the benchmarks are being released this month. With funding from the Laboratory Directed Research and Development programme, Alexandre Bayen and his team will use Flow to design, test, and deploy the first connected and autonomous vehicle (CAV)-enabled system to actively reduce stop-and-go phantom traffic jams on freeways.

Some of the current research into using autonomous vehicles to smooth traffic was inspired by a simple experiment done by Japanese researchers 10 years ago in which about 20 human drivers were instructed to drive in a ring at 20 mph. At first everyone is proceeding smoothly, but within 30 seconds, the traffic waves start and cars come to a standstill.

"You have stop-and-go oscillation within less than a minute", Alexandre Bayen stated. "This experiment led to hundreds if not thousands of research papers to try to explain what is happening."

With 22 human drivers, spontaneous traffic shockwaves form within seconds.

A team of researchers led by Dan Work of Vanderbilt University repeated the same experiment last year but made one change: they added a single autonomous vehicle in the ring. As soon as the automation is turned on, the oscillations are immediately smoothed out.

Why? "The automation essentially understands to not accelerate and catch up with the previous person - which would amplify the instability - but rather to behave as a flow pacifier, essentially smoothing down by restraining traffic so that it doesn't amplify the instability", Alexandre Bayen stated.

One autonomous vehicle with a controller developed by Flow keeps traffic smooth.

Deep reinforcement learning has been used to train computers to play chess and to teach a robot how to run an obstacle course. It trains by "taking observations of the system, and then iteratively trying out a bunch of actions, seeing if they're good or bad, and then picking out which actions it should prioritize", stated Eugene Vinitsky, a graduate student working with Alexandre Bayen and one of Flow's developers.

In the case of traffic, Flow trains vehicles to check what the cars directly in front of and behind them are doing. "It tries out different things - it can accelerate, decelerate, or change lanes, for example", Eugene Vinitsky explained. "You give it a reward signal, like, was traffic stopped or flowing smoothly, and it tries to correlate what it was doing to the state of the traffic."

With the CIRCLES project, Alexandre Bayen and his team plan to first run simulations to confirm that significant energy savings result from using the algorithms in autonomous vehicles. Next they will run a field test of the algorithm with human drivers responding to real-time commands.

The pollution project, named DeepAir - Deep Learning and Satellite Imaginary to Estimate Air Quality Impact at Scale, is led by Berkeley Lab researcher Marta Gonzalez, who is also a professor in UC Berkeley's City & Regional Planning Department. In past research, she has used cell phone data to study how people move around cities and to recommend electric vehicle charging schemes to save energy and costs.

For this project, she will take advantage of the power of deep learning algorithms to analyze satellite images combined with traffic information from cell phones and data already being collected by environmental monitoring stations.

"The novelty here is that while the environmental models, which show the interaction of pollutants with weather - such as wind speed, pressure, precipitation, and temperature - have been developed for years, there's a missing piece", Marta Gonzalez stated. "In order to be reliable, those models need to have good inventories of what's entering the environment, such as emissions from vehicles and power plants."

"We bring novel data sources such as mobile phones, integrated with satellite images. In order to process and interpret all this information, we use machine learning models applied to computer vision. The integration of information technologies to better understand complex natural system interactions at large scale is the innovative piece of DeepAir."

The researchers anticipate that the resulting analysis will allow them to gain insights into the sources and distribution of pollutants, and ultimately allow for the design of more efficient and more timely interventions. For example, the Bay Area has "Spare the Air" days, in which traffic restrictions are voluntary, and other cities have schemes to restrict traffic or industry.

While the idea of using algorithms to control cars and traffic may sound incredible at the moment, Alexandre Bayen believes technology is headed in that direction. "I do believe that within 10 years the things we're coming up with here, like flow smoothing, will be standard practice, because there will be more automated vehicles on the road", he stated.

Source: Lawrence Berkeley National Laboratory

Back to Table of contents

Primeur weekly 2018-11-05

Exascale supercomputing

Cray introduces first exascale-class supercomputer ...

DOE to build next-generation supercomputer at Lawrence Berkeley National Laboratory ...

Crowd computing

FaceMe to use Tatau's distributed supercomputer ...

Quantum computing

Full steam ahead to the quantum web: Mainz University is involved in the European Flagship on Quantum Technologies programme ...

A quantum computer for Europe: Joining forces for new FET flagship project OpenSuperQ ...

Tianhe-2 supercomputer works out the criterion for quantum supremacy ...

A billion euro for quantum research - the Danish contribution ...

One step closer to complex quantum teleportation ...

Tests show integrated quantum chip operations possible ...

Researchers create scalable platform for on-chip quantum emitters ...

Berkeley computer theorists show path to verifying that quantum beats classical ...

Multi-functional quantum bits for future computers ...

Focus on Europe

PRACE to issue The Scientific Case for Computing in Europe 2018-2026 ...

PRACE Digest 2018 now available online ...

Open Edge and HPC Initiative to be launched at SC18 ...

Human brain supercomputer with 1 million processors switched on for first time ...

Middleware

AccelStor unveils the advanced flash data reduction technology for the era of data intensive workloads ...

Bright unveils plans to exhibit at SC18 in Dallas ...

Hardware

Cray reports third quarter 2018 financial results ...

Ohio Supercomputer Center installing new Pitzer Cluster built by Dell EMC ...

SDSC Chief Data Science Officer Ilkay Altintas named an HDSI Fellow ...

Applications

Esther Bron is the winner of the Young eScientist Award 2018 ...

University of Tokyo team becomes Gordon Bell Prize finalist after performing the most complex earthquake simulation to date ...

HPC & Artificial Intelligence: Addressing humanity's grand challenges at SC18 ...

Machine learning to help optimize traffic and reduce pollution ...

The Cloud

Red Hat refines hybrid Cloud innovation with latest version of the world's leading enterprise Linux platform ...

Cloud computing load balancing based on ant colony algorithms improves performance ...

VoiceBase extends deep learning neural network compute to Verne Global ...

HPE delivers first above-the-cloud supercomputing services for astronauts to advance space exploration ...