The New Age
The industry must be prepared for future pandemics
- By John Mears
- Feb 01, 2021
During the early days of the
COVID-19 pandemic, commercial
passenger air travel
in the United States dropped
by more than 90%. It may be some time
– even years – before updated air travel
processes as well as vaccine accessibility
shore up public confidence to the point
where enplanements return to the 5%
year-over-year growth exhibited before the
pandemic.
COVID-19 is far from the last pandemic
that the world will endure, and air travel
will continue to evolve as a result. The industry
must be prepared for a new age of
travel and responsive to the risk of future
pandemics. Thinking ahead – what preparations
are appropriate and possible?
Changes in
Air Travel Processes
All of the stakeholders in the air travel process
will need to work toward a common
vision with options for different situations
and airport configurations. To illustrate, we offer the following figure to show different
process and sensor options at each interaction
point of the passenger journey.
The figure illustrates some major
themes of this new age of air travel. There
is a renewed emphasis on touch-less interactions,
voice-actuated interactions with
automated electronic gate (eGate) activation
for checkpoint passage. Additional
self-service processing options feature active
and voluntary health-screening. Last
but not least, there are frictionless handoffs
between airports and airlines, with
care to safeguard a passenger’s privacy.
Touchless Interactions
One major theme in this emerging travel
landscape is more touch-less, or token-less,
travel. In this regard, we sometimes hear
phrases like “your face is your passport”
or “your face is your boarding pass.”
However, with travelers wearing masks,
facial recognition technology is less effective,
leading to accommodations such
as lowering masks for the brief period it
takes to do face verification against identity
documents, in the case of a new TSA
checkpoint application .
The increased use of face masks makes
iris technology more attractive as a touch-less
alternative, with the technology proven
to be stable and accurate over a number
of years of use in checkpoint services .
Touch-less fingerprint recognition sensors
(over which you just wave your hand)
are being evaluated with the challenge to
match their 3D fingerprint images against
existing national fingerprint databases .
We will also see more autonomous
screening operations and self-screening
operations, with more unattended or
lightly attended eGates. A case in point,
the Department of Homeland Security
Science and Technology Directorate and
the Transportation Security Administration
have issued solicitations for a concept
of “self-service checkpoint screening” .
Touch-less interactions are facilitated by
kiosk and eGate systems that use voice, gesture,
gaze detection or kiosk control from
your own smartphone via QR codesv for
commands and data entry. One such interaction
is at curbside check-in, where a
“smart kiosk” can also include unobtrusive
stand-off sensing and document reading
features that enhance safe passage.
Safety and Self-service
To regain traveler confidence, it may be
necessary for airports, transportation security
agencies, and/or airlines to provide
some health assurance or testing services .
Questions have arisen regarding issuing
QRC codes to healthy passengers. Should
scanning their “healthy” QRC certifications
be part of the criteria for passage
through eGates? If we do require health
certificates to travel, will the government
do this testing and issue the certificates, or
will private industry – perhaps the medical
testing labs themselves – do this work?
The idea of an electronic health record
seems attractive. It could replace the yellow
vaccination record hardcopy booklet
and shared as necessary to facilitate travel
around the world. Such an electronic record
could not only include vaccination
records, but also any tactical health certifications
such as COVID-19 status.
With respect to cleaning areas where
travelers pass or reside within planes,
there are a number of approaches. Leidos
makes automated bin returns with UV-C
sterilization in conjunction with antimicrobial
bin coatings. Some airlines are
also using UV-C lights or chemical foggers
to disinfect cabins between flights .
What about detecting elevated body
temperature for screening travelers with
COVID-19 symptoms? At least one airline
is requiring temperature checks prior
to boarding, using standard hand-held
thermometers. There are a number of established
approaches to stand-off thermal
sensing, and some emerging approaches.
The most well-known approach involves
arrays of micro-bolometers, like those of
FLIR . The Chinese have used IR cameras
in conjunction with visible light face
recognition. AI-assisted fever detection
has also been implemented in conjunction
with contact tracing of febrile (elevated
body temperature) individuals and those
who have come in close contact with them.
There are other emerging approaches, including a novel Australian
approach using MEMS DLP-like tech .
Not everyone with COVID-19 presents a fever, and not everyone
with a fever has COVID-19. This may be why (in one paper at
least) stand-off detection of elevated body temperature was less
than 50% effective in detecting COVID-19 .
To be sure, stand-off elevated body temperature detection is
NOT COVID-19 detection, but it can help in screening. For even
more assurance, other vital signs can be monitored , including
heart rate, respiration rate, and blood oxygenation levels – albeit
requiring a little more time to capture. Perhaps we will start seeing
vital sign detection integrated in frictionless walk-through
solutions - like metal detectors and millimeter wave imaging – at
security checkpoints.
At least one airport recently announced that they will perform
their own IR-based temperature screening AHEAD of the TSA
checkpoint. Draft legislation in the Senate would require TSA
to do temperature checks of travelers at all U.S. airports.XVI At
least one airline and one airport have introduced on-site rapid
COVID-19 tests for passengers. XVII XVIII Advancement in
testing now include a 45-minute PCT-based test for detection of
contagious infected people who may be asymptomatic.XIX
Frictionless Travel and Privacy
Whether we see a stronger push to seamless, contactless processing
of travelers is not only a technology question, but also a
policy, privacy, and business-case question, which varies by geography
and local travel ecosystem structures. The biggest impediment
to efficient, touch-less travel is the varying policies and
authorities within the travel ecosystem.
For instance, which entity will perform what functions, and
who is going to pay for each part of this seamless, touchless travel
solution is up for debate. Another impediment relates to privacy
concerns regarding commercial and government interests, the
touch-less process, stand-off biometrics and information sharing
between entities.
Another important privacy consideration is associated with vital
signs detection and health records. If, for example, stand-off
temperature sensing is included in the process, privacy is an important
consideration in the design. However, if temperature scanning
is only used to detect and alarm when a febrile person passes a
checkpoint, there may not be a privacy concern associated with the
addition of the IR body temperature sensor. Standard protocol
requires detected persons to proceed to a medical secondary, where
the appropriate tests and medical history interview can be conducted.
Absent any associated face recognition or network connection
to a back-end database, there may be no privacy concern, at least
for the checkpoint. Of course it is a different story at the medical
secondary point, where privacy and HIPAA restrictions will apply.
We are headed into a new age of air travel, where permanent
changes could impact the associated processes. We now have the
technology options and process flows available to make air travel
better than it was before the pandemic. Touch-less self-service and
seamless, frictionless passage are possible with the innovations
cited here, but only if we work together to make our travel experiences
safer and more secure for everyone.
This article originally appeared in the January / February 2021 issue of Security Today.