Researchers
have developed an augmented reality heads-up display that could improve road
safety by displaying potential hazards as high-resolution three-dimensional
holograms directly in a driver's field of vision in real time.
Current heads-up display systems are
limited to two-dimensional projections onto the windshield of a vehicle, but
researchers from the Universities of Cambridge, Oxford and University College
London (UCL) developed a system using 3D laser scanner and LiDAR data to create
a fully 3D representation of London streets.
The system they developed can
effectively "see" through objects to project holographic
representations of road obstacles that are hidden from the driver's field of
view, aligned with the real object in both size and distance. For example, a
road sign blocked from view by a large truck would appear as a 3D hologram so
that the driver knows exactly where the sign is and what information it
displays.
The 3D holographic projection technology
keeps the driver's focus on the road instead of the windshield, and could
improve road safety by projecting road obstacles and potential
hazards in real time from any angle. The results are reported in the journal Advanced Optical Materials.
Every day, around 16,000 people are
killed in traffic accidents caused by human error. Technology could be used to
reduce this number and improve road safety, in part by providing information to
drivers about potential hazards. Currently, this is mostly done using heads-up
displays, which can provide information such as current speed or driving
directions.
"The idea behind a heads-up
display is that it keeps the driver's eyes up, because even a fraction of a
second not looking at the road is enough time for a crash to happen," said
Jana Skirnewskaja from Cambridge's Department of Engineering, the study's first
author. "However, because these are two-dimensional images, projected onto
a small area of the [windshield], the driver can be looking at the image, and
not actually looking at the road ahead of them."
For several years, Skirnewskaja and
her colleagues have been working to develop alternatives to heads-up displays
(HUDs) that could improve road safety by providing more accurate information to
drivers while keeping their eyes on the road.
"We want to project
information anywhere in the driver's field of view, but in a way that isn't
overwhelming or distracting," said Skirnewskaja. "We don't want to
provide any information that isn't directly related to the driving task at hand."
The team developed an augmented reality holographic point cloud video projection system
to display objects aligned with real-life objects in size and distance within
the driver's field of view. The system combines data from a 3D holographic
setup with LiDAR (light detection and ranging) data. LiDAR uses a pulsed light
source to illuminate an object and the reflected light pulses are then measured
to calculate how far the object is from the light source.
The researchers tested the system
by scanning Malet Street on the UCL campus in central London. Information from
the LiDAR point cloud was transformed into layered 3D holograms, consisting of
as many as 400,000 data points. The concept of projecting a 360° obstacle
assessment for drivers stemmed from meticulous data processing, ensuring clear
visibility of each object's depth.
The researchers sped up the
scanning process so that the holograms were generated and projected in real
time. Importantly, the scans can provide dynamic information, since busy
streets change from one moment to the next.
"The data we collected can be shared and stored in the cloud, so that any drivers passing by would have access to it—it's like a more sophisticated version of the navigation apps we use every day to provide real-time traffic information," said Skirnewskaja. "This way, the system is dynamic and can adapt to changing conditions, as hazards or obstacles move on or off the street."
Credit:
Jana Skirnewskaja
While
more data
collection from
diverse locations enhances accuracy, the researchers say the unique
contribution of their study lies in enabling a 360° view by judiciously
choosing data points from single scans of specific objects, such as trucks or
buildings, enabling a comprehensive assessment of road hazards.
"We can scan up to 400,000 data
points for a single object, but obviously that is quite data-heavy and makes it
more challenging to scan, extract and project data about that object in real
time," said Skirnewskaja. "With as little as 100 data points, we can know what the object is and how big it is. We
need to get just enough information so that the driver knows what's around
them."
Earlier this year, Skirnewskaja and her
colleagues conducted a virtual demonstration with virtual reality headsets loaded with the LiDAR data of the system at the
Science Museum in London. User feedback from the sessions helped the
researchers improve the system to make the design more inclusive and
user-friendly. For example, they have fine-tuned the system to reduce eye
strain, and have accounted for visual impairments.
"We want a system that is
accessible and inclusive, so that end users are comfortable with it," said
Skirnewskaja. "If the system is a distraction, then it doesn't work. We
want something that is useful to drivers, and improves safety for all road
users, including pedestrians and cyclists."
The researchers are currently collaborating with Google to develop the technology so that it can be tested in real cars. They are hoping to carry out road tests, either on public or private roads, in 2024.
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