Metropolitan
Wi-Fi Research Network at the Los Angeles State Historic Park
Vidyut
Samanta
vids@remap.ucla.edu
Chase
Laurelle Alexandria Knowles
chase@remap.ucla.edu
Jeff
Burke
jburke@remap.ucla.edu
Fabian
Wagmister
fabian@remap.ucla.edu
Deborah
Estrin
destrin@cs.ucla.edu
Center
for Research in Engineering, Media and Performance, UCLA, Los
Angeles, USA
Introduction
The
Center for Research in Engineering, Media and Performance (REMAP) at
the University of California at Los Angeles (UCLA), has collaborated
with the NSF Center for Embedded Networked Sensing (CENS) to deploy a
metropolitan scale Wi-Fi mesh network in the Los Angeles State
Historic Park near Downtown Los Angeles. We refer to this network as
Met-Wi. This will be an extension of the University’s network into
the communities around the park and will support research in
community based urban participatory sensing [1], [2], [3], [4]
through CENS and Cultural Civic Computing through REMAP.
Participatory
Sensing is a new area of research at UCLA and focuses on how people
can use their everyday mobile phones as sensors for data gathering on
personal, community, and urban scales. Our Met-Wi deployment provides
high-speed connectivity in certain areas for test devices, and a
platform on which we can test network services in support of user
participation in sensing.
REMAP
and CENS recognize the significant role that community-based data
collection can play in public health, urban planning and cultural
applications, as well as the amazing potential for participation
given the installed base of mobile phones. Cultural Civic Computing
[7] is a service-oriented urban computing model in which communities
power the processes of imagining, specifying, and designing
technology infrastructure for public places. In this model,
communities are involved in designing their infrastructure and the
services it provides. Our Met-Wi deployment allows us to test out
this approach.
Figure
1: Met-Wi topology.
We
are developing a web-based framework that will enable anyone with a
Wi-Fi enabled device such as a mobile phone to
describe
a “campaign” – i.e. a geographically and temporally
constrained series of systematic operations to gather a particular
type of data using a network of mobile devices (e.g., geotagged
audio level measurements, a common quality of life metric in urban
planning), and
recruit
participants interested in the campaign,
who
then engage in network-supported distributed data collection,
and
are able to analyze and publish the results online,
and
iterate to learn more.
We
are interested in the network architecture needed in such a scenario
to increase individuals’ credibility as data providers to the
community and encourage data sharing while protecting privacy.
Figure
2: Campaign Framework
The
Wi-Fi network will also have a location awareness component. Using
RF-Fingerprinting technology that is part of the Cisco equipment, we
will be able to geographically locate clients connected to the Wi-Fi
network, and geotag data provided by clients with this location.
Place-specific services are important to both of our application
domains.
Research
Experiments
will be performed in network support of community-based data
gathering and documentary, interface design for diverse cultures,
community mapping of geospatial data, and the creation of mobile and
location-based multimedia experiences in the Park that interweave Los
Angeles history with the local communities’ self-expressed cultures
and identities. These will seed larger-scale research projects with
the community that could have significant impact in many fields. The
next two sections describe some experiments and processes that REMAP
and CENS have already begun.
Urban
& Participatory Sensing
The
CENS urban sensing group is working on technologically-focused
experiments using the campaign framework described above. For
example, they are developing a sound level mapping campaign that aims
to decipher the amount of noise pollution in and around the Park
area. This campaign uses Wi-Fi enabled mobile phones to gather data
samples of an arbitrary length of time that are then uploaded to a
central server. The samples are processed to produce a sound pressure
level estimate in decibels that is associated with the
network-attested time and location where uploaded. This data will
then be used to create a sound map of Los Angeles that useful to
urban planners and developers. One application would be to use this
process as a metric for the quality of life in Los Angeles. More
generally, CENS is using the WiFi deployment to support a variety of
projects enabling people to understand and explore their activities
relative to communities and the urban environment, including projects
such as a “Personal Environmental Impact Report” based on
location trace information. In a related project, students are
exploring whether geo-tagged photographs can be analyzed to estimate
daily air pollution by using measures of visibility that can be
extracted from the image.
Cultural
Civic Computing
REMAP
is focused on Cultural Civic Computing – on how emerging
technologies can be re-envisioned by communities and researchers to
enable public exploration of creativity, cultural identity, and the
diverse histories of our cities and neighborhoods. Through
collaborative experimentation with local residents and direct
engagement with technology research programs, it aims to increase
participation in community investigation of the city, collective
remembering, self-representation, and imagining and defining the
future of the urban environment. For instance, community members
could use a variation of the sound mapping application above to
create experiential soundscapes of their neighborhoods in addition to
the level map. These explorations into Cultural Civic Computing are
developing simultaneously with advances in personal and community GIS
elsewhere, and we see great potential for interweaving them in the
future.
REMAP
has also developed prototype location-aware applications using the
Met-Wi network. For example, REMAP has developed an extensive
database of historic media about Los Angeles and the State Historic
Park. This “geotagged” content is delivered to visitors while
walking in the Park with Wi-Fi and location-enabled cell phones,
allowing a fascinating exploration of the area’s socio-historical
significance.
Sampling
of Stakeholders
CENS
and REMAP are collaborating with the California Department of Parks
and Recreation, local community organizations, and industry to
explore participatory sensing and Cultural Civic Computing in and
around the Los Angeles State Historic Park, using the network
deployment described above.
California
Department of Parks and Recreation
As
this technology research was developing, REMAP established a formal
partnership with California State Parks for the purpose of applying
new technology towards communal investigation of local history, as
well as issues of contemporary life, in the new Los Angeles State
Historic Park; the Park is a 32-acre site outside of Downtown Los
Angeles. Both California State Parks and UCLA are eager to work
together to explore how emerging technologies can be used to provide
new interpretive experiences in their parks - especially in this
unique urban setting.
Local
Communities
The
communities surrounding the Los Angeles State Historic Park
collaborated to save this location from industrial development.
During the lobbying process, a uniquely diverse neighborhood alliance
– encompassing Chinatown, Solano Canyon, and Lincoln Heights –
took root. These communities’ role in helping create the Park has
only added to the site’s relevance as a historical record of
Angeleno growth since the 1800s. In light of this sector’s
extensive involvement with the site, both State Parks and UCLA are
committed to a research process at the Park, which deeply involves
local communities.
Industry
REMAP
and CENS are collaborating with Cisco Systems [5] for the network
infrastructure and, thanks to Nokia’s provision of GSM and 802.11
mobile phones, are pursuing documentary and data collection for
community use [6].
REMAP
has also established unique, multidisciplinary partnerships with Walt
Disney Imagineering Research & Development and Schematic, a
leading interactive design firm. With Disney Imagineering R&D,
we are collaborating on a temporary large-scale experiential
installation located within the Park, which explores public
experience of community history and identity, and is supported by
connectivity from the Met-Wi deployment. Similarly, REMAP and CENS
are cooperating with Schematic to engineer mobile interface design,
which adequately supports community-based data gathering and
documentation.
Conclusion
A
metropolitan scale Wi-Fi mesh network is being deployed near Downtown
Los Angeles in a collaborative effort of The Center for Research in
Engineering, Media and Performance (REMAP) at UCLA, and the NSF
Center for Embedded Networked Sensing (CENS). This work will help
realize the potential a large-scale Wi-Fi deployment could offer a
multicultural society for communal documentation of its surrounding
environments. This will aid in the creation of healthy and livable
cities, as well as enable public exploration of creativity and
cultural identity, in conjunction with a greater appreciation of the
diverse histories of our cities and neighborhoods.
Acknowledgements
In
addition to support from Nokia, Cisco Systems, Walt Disney
Imagineering Research and Development, Schematic, and collaboration
with the California Dept. of Parks and Recreation, this material is
based upon work supported by the NSF under award CNS-0627084. Any
opinions, findings and conclusions or recommendations expressed in
this material are those of the author(s) and do not necessarily
reflect the views of the National Science Foundation.
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