DSE-2019-001-framework-F3 - Flipbook - Page 29
PLANNING AND DESIGN
CONNECTIVITY
DATA- D R I V E N P L A N N I N G
AND MODELING
“PIGGYBACKED” FIBER OPTIC
NETWORKS
Integrate data visualizations with 3-D
parametric models to facilitate citizen
participation in planning. Project impacts
on the environment, transportation, and
revenue to better evaluate alternatives prior to
construction.
Internet service providers use fiber optic lines,
or right-of-way provided by governments
or utility companies, to install both public
and private access simultaneously, limiting
disruptions. This allows smaller players into the
market; establishes baseline services for all
connected; eliminates the need for multiple line
installations; and presents cost savings for all.
M AC H I N E L E A R N I N G
PL ANNING MODELS
Machines receiving data use algorithms to find
outliers and analyze user behavior to draw
conclusions, which trigger a response. Either by
alert or automatically adjusting system settings,
machine learning improves the performance of
connected systems.
E L EC T R O N I C C I T I Z E N PA R T I C I PAT I O N
Digital citizen government interaction means
24/7 access to voting, online community
meetings, and other engagements.
SMALL CELLS AND DISTRIBUTED
A N T E N N A S YS T E M S
Cells and distributed antenna systems are
installed in large gathering areas like rail
stations, public plazas, and office campuses to
increase wireless access. Placed strategically,
these will improve coverage in both densely
populated- and underserved- areas while
presenting revenue opportunities.
S P EC T RU M S H A R I N G T EC H N O L O G I E S
Policy changes can permit technical innovation
for sharing bands of spectrum for everyday
use that are otherwise prohibited. Autonomous
vehicle collision avoidance technology should
also reside in the shared spectrum. Automatic
data collection for all connected systems allows
irregularities to be quickly identified.
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