Public
Opinion Research Study on Examining the social acceptance of Advanced Air
Mobility (AAM) by the Canadian public
EXECUTIVE
SUMMARY
Prepared for Transport Canada
Supplier: Leger Marketing Inc.
Contract
Number: T8053-23-0132
Contract
Value: $71,873.65 (including HST)
Award Date: October 3, 2023
Delivery
Date: March 26, 2024
Registration Number: POR
060-23
For more information on this report,
please contact Transport Canada at TC.Publicopinion-Opinionpublique.TC@tc.gc.ca
Ce rapport est aussi disponible en français
This public opinion research report presents
the results of two studies conducted by Léger Marketing Inc. on behalf
of Transport Canada. The first study consisted in a
quantitative study consisting in a survey conducted with 2,717 respondents
between November 28 and December 12, 2023. The second study was qualitative
research with four online focus groups and was conducted with 32 Canadians
between January 30th
and 31st, 2024.
Cette publication est aussi disponible en français sous le titre Étude de recherche sur l'acceptation sociale de la mobilité aérienne avancée (MAA) au sein du public canadien.
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of this publication for personal and public non-commercial use. Users must
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Catalogue
Number:
T52-4/253-2024E-PDF
International
Standard Book Number (ISBN):
978-0-660-70816-4
Related publications (registration number: ROP 060-23):
·
T52-4/253-2024F-PDF
·
978-0-660-70818-8
© His majesty the King in Right
of Canada, as represented by the Minister of Transport, 2024
Executive Summary
Leger is pleased to present Transport Canada
with this report on findings from a quantitative and a qualitative survey
designed to examine Canadians' acceptance of advanced
air mobility (AAM) technologies. This report was prepared by Léger Marketing
Inc. who was contracted by Transport Canada (contract number T8053-23-0132 awarded October 3, 2023). This contract has a
value of $63,605.00 (excluding HST).
1.1 Background and Objectives
As the federal institution
responsible for regulating the safety and security of Canadian airspace and the
aircraft that fly in it, Transport Canada (TC) closely studies new technologies
to ensure a regulatory environment that keeps pace with innovation. AAM refers
to a set of emerging and disruptive airborne technologies to transport goods,
people, and services in new ways, such as autonomous drones, electric powered
vertical take-off and landing (eVTOL) aircraft, flying
air taxis, and more. In Canada, the deployment of AAM may offer social,
economic, and environmental benefits, including improved access to remote
communities, new business opportunities, and the potential for increased safety
and reduced greenhouse gas (GHG) emissions; however, low levels of social
acceptance by the Canadian public may limit the uptake of AAM in Canadian
society.
Previous public opinion research
conducted by the National Research Council of Canada (NRC) in July 2021 found
that most respondents believed they did not have a solid understanding of the
nature of AAM technologies and what their deployment in Canada could look like
in their communities, which caused them to feel generally neutral toward the
space. As such, the study suggested that the public needs more information
about AAM in order to develop opinions
on it, and that future research should reassess attitudes toward AAM once
people are more informed.
The general objective of the
research was to examine Canadians' acceptance of AAM technologies. The study
examined the extent to which current and future AAM technologies are accepted
by the general Canadian public in late-2023 to early-2024. The study also
identified the nature of barriers to social acceptance of AAM, and ways in
which social acceptance could be improved.
1.2 Quantitative Methodology
The quantitative
research consisted of online surveys, using Computer Aided Web Interviewing (CAWI) technology. Fieldwork for the survey was carried out from November 28 to December 12, 2023. A total of
2,717 Canadians aged 18 years old and older were interviewed.
A pre-test of 53
interviews was completed before launching data collection to validate the
programming of the questionnaire in both official languages.
Since an actual
probability sampling method was not used, the calculation of the margin of
error cannot be done for this project.
Leger adheres to the
most stringent guidelines for quantitative research. The survey instrument was
compliant with the Standards of Conduct of Government of Canada Public Opinion
Research.
Sample Distribution
The sample frame has been designed using a
regional stratification scheme designed to accurately reflect the geographic
distribution of Canada’s population, including the North (Yukon, Northwest
Territories, and Nunavut). For weighting purposes, and as they represent less
than 1% of the sample, respondents from Yukon, Northwest Territories, and
Nunavut have been paired with other regions. The following table describes the
regional quotas and the effective sample distribution achieved during the data
collection.
Table 1. Sample Regional Distribution
|
|
Proportion in the
Canadian population |
% sample (n= 2,717) |
Sample |
|
(2021 Census) |
|||
|
n= |
|
|
2,717 |
|
Atlantic |
7% |
7% |
200 |
|
Québec |
23% |
23% |
614 |
|
Ontario |
39% |
39% |
1,026 |
|
Prairies (Manitoba + Saskatchewan
and Nunavut) |
7% |
6% |
204 |
|
Alberta (and Northwest Territories) |
12% |
11% |
318 |
|
British Columbia (and Yukon) |
13% |
14% |
355 |
The population targeted in
this study was Canadian adults aged 18 and older. To meet the objectives of
this research, the sample also had to include sufficient representation from
the following key target groups:
· Indigenous People (First Nations, Inuit,
Métis);
·
People living in rural
areas.
Quotas Structure
As per the specific
target groups which need to be sufficiently represented to offer statistically
valid results, Leger proposed a structure with quotas for each specific target.
The following table
describes the quotas and the effective sample distribution achieved during the
data collection for each of those specific targets.
Table 2. Sample Size for Specific Target Groups
|
|
Proportion in the
Canadian population |
% Achieved sample |
Targeted Sample |
Achieved sample |
|
|
(2021 Census) |
|||||
|
n= |
|
|
2,700 |
2,717 |
|
|
INDIGENOUS STATUS |
Non-indigenous person |
95% |
96% |
2,550 |
2,562 |
|
Indigenous person |
5% |
4% |
150 |
155 |
|
|
|
|
|
|
|
|
|
PLACE OF RESIDENCE |
Urban |
82% |
79% |
2,214 |
2,166 |
|
Rural |
18% |
19% |
486 |
513 |
Note: Totals may differ slightly from 100% due to
non-response.
Leger weighted the results of this survey
by age, gender, region, presence of children in the household, and education
level, according to 2021 national census data from Statistics Canada. Results
were weighted to account for specific demographic profiles: Indigenous
individuals and those residing in rural or urban areas. This approach ensures
the accurate representation of respondents with these characteristics,
preventing their intentional overrepresentation in the sampling frame from
distorting the overall sample.
Leger meets the
strictest quantitative research guidelines. The questionnaire was prepared in
accordance with the Standards for the Conduct of Government of Canada Public
Opinion Research—Series D—Quantitative Research. Details on the methodology,
Leger’s quality control mechanisms,
1.3
Overview
of the Quantitative Findings
Awareness and Familiarity with AAM:
|
· |
Most respondents (77%) had never
heard about AAM before, while less than a quarter of Canadians (23%) had
heard about it before. |
|
· |
Awareness of AAM is higher among
respondents aged 18-34 years old (29%), those with a university diploma
(29%), those belonging to BIPOC (Black, Indigenous, People of colour)
communities (28%), men (28%), and people living in urban or suburban areas
(24%). |
|
· |
More than half of respondents
(52%) believe the development of AAM is good for Canada, and 9% think it is
bad. |
|
· |
More than half of respondents who
were aware of AAM (53%) said they are familiar with AAM, while 47% said they
are unfamiliar with the concept. |
|
· |
Two-thirds of respondents (67%)
are aware of at least one application of AAM, while 31% have never heard of
any of the applications presented. The applications most frequently mentioned
by respondents are search and rescue operations (39%), emergency medical
services (38%), and home deliveries (36%). |
Level of comfort with AAM
applications in urban areas:
|
· |
Most respondents are comfortable
with the following AAM applications in urban areas: search and rescue
operations (81% are comfortable), firefighting services (78%), emergency
medical services (78%), aerial surveying and inspections (70%), and logistic
and cargo transport (60%). |
|
· |
Other types of applications
receive a lower level of comfort, notably tourism and sightseeing (58%) and
home deliveries (53%). Air mobility in urban areas is the only application
falling below a 50% comfort level among respondents, with only 44% indicating
comfort. |
Level of comfort with AAM
applications in rural areas:
|
· |
When it comes to rural areas, most
respondents are comfortable with the following applications: search and
rescue operations (80% are comfortable), firefighting services (80%),
emergency medical services (79%), and aerial surveying (72%). |
|
· |
Other applications, notably
logistics and cargo transport (65%), tourism and sightseeing (62%), home
deliveries (61%), and air mobility (52%) receive a lower level of comfort.
Air mobility still ranks last; however, more respondents would be comfortable
with this application occurring in a rural setting than in an urban one. |
Likelihood of trying AAM technology
and feeling of safety:
|
· |
Fewer than half of the respondents
are likely to try any of the technologies surveyed. Drone delivery of
consumer goods is identified as the technology most respondents are likely to
try, with 45% indicating likelihood. |
|
· |
Similar levels of likelihood are
reported for air taxis with a pilot on board (41%) and autonomous delivery
drones without a pilot (38%). Only one in five respondents are likely to try
air taxis with a remote pilot (21%) or autonomous air taxis (20%). |
|
· |
As pedestrians, half of
respondents (52%) said they would feel safe if air taxis with a pilot on
board would fly above them, 41% think the same about delivery of goods by
drones with a remote pilot, 33% about autonomous delivery drones with no
pilot, 27% about air taxis with a remote pilot and 25% consider autonomous
air taxis to be safe. |
|
· |
One out of four respondents (26%)
would be comfortable living next to a vertiport. On the other hand, six out
of ten respondents (60%) would be uncomfortable living next to a vertiport. |
Perceptions of AAM:
|
· |
Most respondents (70%) agree that
AAM will improve access to services for people living in remote areas. Other
positive statement surveyed received a lower level of agreement. Around half
of respondents (47%) agree that AAM is the future of transportation and the
same proportion (47%) agree that AAM will contribute to the economic growth
of Canada. Forty-five percent (45%) of respondents agree that they trust the
Government of Canada to ensure that AAM technologies are safe, and forty-four
percent (44%) of respondents agree that AAM will have a positive impact on
the quality of life of Canadians. About the same proportion (43%) agree with
the idea that AAM will improve access to services in their region, and 40%
trust that AAM technologies will be safe. Around a third of respondents (38%)
agree that the advantages of AAM technologies outweigh their disadvantages,
and 31% agree that they are usually among the first to embrace new
technologies. |
|
· |
On the other hand, around half of respondents agree
with some negative statements about AAM. More than one respondent out of two
(52%) agree that AAM technologies will only benefit rich people, 47% agree
that AAM technologies are too risky. |
Attitude towards AAM:
|
· |
A majority of respondents (63%) have conditional support of AAM, indicating that
their support depends on specific circumstances, such as application,
operating environment, costs, benefits, risks, or aircraft characteristics. |
|
· |
A small proportion of respondents
(9%) oppose using AAM technology in all circumstances, and the same
proportion (9%) support using AAM technology in all circumstances. |
|
· |
Respondents who think the development of AAM is a bad thing for Canada
(29%) are more likely to be opposed to AAM in all circumstances. |
|
· |
Faster emergency response to disasters (60%), faster medical services
(53%), and better connectivity to remote areas (46%) are the top three
perceived benefits that respondents think AAM could bring. Only 4% of
respondents think that AAM technology can’t bring any benefits. |
|
· |
When thinking about adjectives to
describe AAM, more than half (58%) of respondents have positive feelings
towards AAM, notably curiosity (41%), optimism (24%), excitement (14%) and
confidence (8%). Half of the respondents (52%) have negative feelings
towards AAM notably, skepticism (36%), suspicion (22%), fear (13%), and alarm
(11%). |
Concerns with regards to AAM:
|
· |
Safety or crashing concerns (54%),
security threats (43%), and privacy concerns (37%) are the top concerns of
respondents with AAM. It is followed closely by affordability (32%), noise
pollution (28%), and impact on the environment (27%). Other concerns, such as
job losses (19%) and locations of landing spots (17%), were mentioned to a
lesser extent. A vast majority of respondents expressed concerns about
AAM. Only one out of ten respondents said they had no concerns (2%), didn't
know (7%), or preferred not to answer (1%). |
|
· |
After being exposed to information on AAM, the same
proportion (53%) think that the development of AAM is good for Canada, while
16% think that it is bad for Canada, and 30% don’t know. Compared to the
results before exposure to information on AAM, there is a noticeable 7-point
increase in respondents who believe that the development of AAM is bad for
Canada and an 8-point decrease among respondents who were unable to answer. |
Reasons behind opinions towards AAM:
|
· |
Among respondents expressing positive views on the advancement of AAM
in Canada, primary reasons for their positive stance include its potential as
the future of transport (18%), its capability to enhance access to remote
areas (15%), its expected improvement in emergency response times and
life-saving capabilities (14%), and its ability to increase transportation
efficiency (10%). |
|
· |
Conversely, individuals with
negative perceptions of AAM's development in Canada cite safety issues and
perceived risks as their principal concern (32%), followed by worries about
privacy (15%), job displacement (15%), and environmental impacts (14%). A smaller
fraction of respondents (under 10%) pointed out additional concerns, such as
the belief that AAM would predominantly benefit the affluent, noise
pollution, and potential for criminal uses. |
|
· |
A third of respondents (31%) have a low trust in the Government of
Canada to handle the implementation of AAM technology, meaning they gave a
score of one or two on a scale of 1 to 5. About the same proportion (34%)
have a high trust in the Government of Canada, meaning they gave a score of
four or five. A quarter of respondents gave a more neutral rating of three
out of five (27%). |
Information about AAM:
|
· |
Six respondents out of ten (60%) would be interested in being informed
on matters and issues related to AAM, while a third (33%) would not be
interested in being informed about AAM. |
|
· |
The primary sources of information that respondents
access when looking for information regarding AAM in Canada are social media
platforms (23%), followed by advertising campaigns on TV (15%) and radio
(13%). About a third of respondents (30%) don’t access any sources to get
information regarding AAM in Canada. |
|
· |
Respondents aged 18 to 34 years old are more likely to access sources
online like social media platforms (32%), online ads on specialty websites
(13%), collaboration with YouTubers or influencers (10%), or advertising on
specialized online retailers’ websites (10%). In contrast, respondents aged
55 or older are more likely to look for advertising campaigns on TV (18%). |
1.4 Qualitative Methodology
The qualitative portion of the study consisted
of four focus group sessions with French-speaking and English-speaking Canadians.
Conducting the groups online offered the opportunity to regroup people from all
the regions in Canada. All groups were conducted with individuals who have
positive, neutral (proponents) or negative (opponents) attitude towards
Advanced Air Mobility (AAM). To classify them into two groups, participants
were asked the following question:
|
In general, do you think that the
development of Advanced Air Mobility is good or bad for Canada? As a reminder, Advanced Air
Mobility is a broad operational concept that refers to a variety of new and
emerging ways to move people, goods and services by
air. It describes an emerging future state for the aviation ecosystem and is
often grouped into three categories: Urban Air Mobility, which refers to
carrying people or goods by air within cities, such as by “air taxi” or drone
delivery; Regional Air Mobility, which carries people and goods to rural and
remote communities; and Remotely Piloted Aircraft Systems, or drones. In the future, AAM could become an
important part of our transportation system. Eventually, it is expected that
some passenger aircraft will fly through remote piloting, or even
autonomously. |
Participants who answered
“Very good”, “Good”, or “I don’t know” were placed in groups 1 or 3 (If they
spoke English, they were part of group 1; if they spoke French, they were
placed in group 3). Those who answered “Bad” or “Very bad” were placed in
groups 2 or 4 (If they spoke English, they were part of group 2; if they spoke
French, they were placed in group 4).
Overall, two focus groups were conducted in
French and the remaining two were conducted in English. Observers from
Transport Canada attended the focus groups.
All groups were conducted with Canadians living
across Canada, and with a diverse mix of age, gender, household income,
education, place of residence (rural/urban) and province.
For each online discussion session,
ten participants were recruited by our professional recruiters. A total of 32
recruits participated in the online discussion sessions. All participants in
each discussion session received an honorarium of $125. All groups were
scheduled to be held on January 30th and 31st, 2024.
Groups were held in the following criterion on
the dates specified in Table 1.
Table 3. Detailed recruitment
|
GR |
Region |
Recruits |
Participants |
Target |
Language |
Date |
Time |
|
1 |
Canada |
10 |
7 |
Canadians with positive or
neutral attitude towards AAM |
English |
January 30 |
5pm EST |
|
2 |
Canada |
10 |
7 |
Canadians with negative attitude
towards AAM |
English |
January 30 |
7pm EST |
|
3 |
Canada |
10 |
10 |
Canadians with positive or
neutral attitude towards AAM* |
French |
January 31 |
5pm EST |
|
4 |
Canada |
10 |
8 |
Canadians with negative
attitude towards AAM* |
French |
January 31 |
7pm EST |
|
Total |
|
40 |
32 |
|
|
|
|
* Quebec residents may be overrepresented.
1.5
Overview
of the Qualitative Findings
Initial Perceptions of Advanced Air Mobility (AAM)
|
· |
Participants frequently associated
Advanced Air Mobility (AAM) with the application of drones for pioneering
services, including the delivery of packages and provision of food services. |
|
· |
There was a general sense of
optimism about how AAM could revolutionize transportation, emergency response,
and logistics, mostly in proponent groups; however, this optimism was
tempered by a strong call for careful integration of AAM technologies, mostly
in opponent groups, emphasizing the need to address potential challenges
related to weather adaptability, safety, and societal impact. |
|
· |
Concerns about AAM also centered
around regulatory, safety, and environmental issues, with skeptic
participants highlighting the importance of establishing clear guidelines and
ensuring the technology's reliability and non-harmful nature before widespread
adoption. |
Reaction After Definition of AAM
Once the AAM concept had been
defined, some participants showed interest, particularly in its potential
applications, while others maintained concerns about
implementation and regulation.
|
· |
Supporters believed AAM could
offer potential societal benefits, but they also emphasized the need for
transparency in safety, sustainability, and regulations. |
|
· |
Skeptics voiced concerns over safety,
privacy, and environmental impacts, urging a focus on current transportation
system improvements. |
|
· |
Discussions uncovered linguistic
disparities, where French-speaking participants highlighted social
implications, while English-speaking participants concentrated on practical
aspects, such as the logistics surrounding the deployment of AAM technology. |
Medical/Healthcare
Aviation
Medical/Healthcare
Aviation was recognized for its ability to save lives by enabling quicker
emergency responses and healthcare delivery to remote areas. Although there
were persistent questions regarding its cost-effectiveness and reliability, the
necessity of integrating this technology with traditional healthcare systems
was recognized. Furthermore, the safe incorporation of remotely controlled and
autonomous drones into healthcare logistics underscored the necessity for
strict regulations and oversight, particularly concerning safety and the
importance of human oversight.
Aerial
Firefighting
Participants saw aerial
firefighting technology, especially drones and autonomous systems, as
transformative for firefighting efforts, providing rapid responses and
accessing difficult areas. They valued the technology's potential to enhance
efficiency, safety, and real-time strategy development without risking human
lives. Despite this enthusiasm, concerns about operational reliability in
challenging conditions and the necessity for human expertise persisted.
Skepticism towards autonomous drones focused on decision-making capabilities in
unpredictable scenarios, emphasizing the need for advanced AI, thorough
testing, and a balance between technology and human judgment in firefighting
operations.
Drone
Delivery
Participants saw drone
delivery as a way to make sending and receiving
packages faster and more efficient, especially in areas hard to reach by
traditional means. They believed drones could save fuel and reduce pollution
compared to trucks and trains. However, concerns about privacy, safety, and the
noise from drones flying overhead were significant. Questions about how to
secure packages from theft or tampering, and how drones would navigate busy
urban skies, also arose. The transition to fully autonomous drone delivery
raised additional questions about the technology's readiness and the ability to
respond to unexpected challenges without human intervention.
Regional
Air Mobility
Regional Air Mobility
(RAM) enjoyed support for its potential to enhance rural connectivity through
quick, direct flights, using environmentally friendlier electric or hybrid
technologies; however, there were significant concerns about safety, infrastructure
development, and integration with existing transport systems. Economic
feasibility and potential social inequalities also prompted discussion. The
readiness of autonomous flight technology raised questions about safety and
public trust, with a strong preference for human pilots, underscoring concerns
about reliance on automation in transportation.
Urban
Passenger-Carrying Aviation
Urban Passenger-Carrying
Aviation was welcomed for its promise to improve city travel, offering quicker,
cleaner alternatives to ground transport. Enthusiasm covered reduced travel
times and the potential to ease road congestion with eco-friendly vehicles.
However, concerns about safety, infrastructure, and the implications of
autonomous systems tempered optimism. The balance of efficiency gains against
safety and infrastructure investment challenges remained a focal point of
discussion, highlighting the complexity of integrating new air mobility
solutions into urban environments.
Living
Near a Vertiport
Participants generally
expressed discomfort with the idea of living near a vertiport, citing noise,
privacy, and safety concerns. Those residing in urban centres
feared increased pollution and infrastructure costs, while rural residents
suggested locating vertiports away from homes. Despite some openness to the
idea, if properly regulated, the consensus leaned towards improving existing
transport systems rather than adding new ones. Concerns varied by location,
with a universal emphasis on minimizing impact on residential areas.
General
Feelings about AAM Technology
Participants generally
viewed AAM technology with optimism for its revolutionary potential in
transportation and services like medical services and firefighting. However,
significant concerns existed about safety, regulation, environmental, and
privacy impacts, especially without a pilot. To mitigate concerns, the
importance of safety mechanisms, rigorous training for remote operators,
advanced technology for error correction, and transparent communication about
AAM's dependability was emphasized.
Transport
Canada’s Communication
Participants suggested
that Transport Canada's communication about AAM should have detailed safety
protocols and environmental measures, emphasizing transparency and public
involvement in decision-making. They recommended using both digital and
traditional methods to inform and engage the public, ensuring accessibility and
inclusivity in discussions about AAM's benefits and regulations.
Final
Considerations
Initial interest in AAM
shifted to cautious optimism as participants learned more, questioning
infrastructure, regulation, and integration with existing systems. Skeptics
concerned about relevance and environmental impacts became more receptive to
AAM's benefits, like emergency services, swayed by safety and environmental
assurances.
1.6 Notes on Interpretation of the
Research Findings
The opinions and observations expressed in this
document do not reflect those of Transport Canada. This report was compiled by
Leger based on research conducted specifically for this project.
The results of the quantitative research use a
sample drawn from an internet panel, which is not probabilistic in nature. As a
result, the margin of error cannot be calculated for this survey and the
results cannot be described as statistically projectable to the target
population.
Qualitative research is designed to reveal a
rich range of participants’ opinions, perceptions and
interpretations. It does not and cannot measure what percentage of the target
population holds a given opinion or perception. Findings are qualitative in
nature and cannot be used quantitatively to estimate the numeric proportion or
number of individuals in the population who hold a particular opinion.
1.7 Political Neutrality Statement
and Contact Information
Leger certifies that the final deliverables
fully comply with the Government of Canada’s political neutrality requirements
outlined in the Policy on Communications and Federal Identity and the Directive
on the Management of Communications.
Specifically, the deliverables do not include
information on electoral voting intentions, political party preferences,
standings with the electorate, or ratings of the performance of a political
party or its leaders.
Signed by:
Christian Bourque
Executive Vice President and Associate
Leger
507 Place d’Armes, Suite 700
Montréal, Quebec
H2Y 2W8