Post on 15-Jul-2015
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SMART MOBILE OPERATION: OSU
TRANSPORTATION HUB (SMOOTH)
Automating the First and the Last Miles
Automating the First and Last Miles
First Mile/Last Mile Solutions
• On demand automated vehicles will move passengers the first mile to
the bus stop and the last mile from the bus stop (bottom picture).
• Scheduled or on demand vehicles will move passengers through a
closed loop within OSU campus (through roads and pedestrian areas,
top picture).
• The vehicles will:
– use automated driving technology;
– use V2V communication for convoy driving;
– be equipped with vulnerable road user protection technology
enabling them to function in pedestrian zones;
– communicate with smart LED lighting infrastructure to turn them
on along their route.
• SMOOTH will keep track of vehicles and guide them.
• Smartphone applications will be developed to schedule and track the
on-demand automated vehicles including the MyColumbus mobile app.
PARTNERS
Ohio State University - Center for Automotive Research
Battelle
CISCO
City of Columbus
General Electric (GE)
Mid-Ohio Regional Planning Commission (MORPC)
Team ARIBO Location: Columbus, Ohio
Global Cities Team Challenge
Human Geography Mapping for Enhanced Community ResilienceAnnapolis, Maryland
Virtual Business Emergency Operations Center
A resilient community requires the integration of human capital into resources and infrastructure.
2003 - Hurricane Isabelcaused $400M in damage to Maryland and Annapolis community
Situational
AwarenessOpen
Standards
G EO LO C ATED A LLERG EN SEN SI N G PLA TFO RM
G A SP
Four objectives:
1. Develop and deploy an array of Internet of Things remote airborne
particle sensors within Chattanooga to be used to provide real-time
streamed data on hourly particulate levels, both pollen- sized (10-40
micron) and smaller (<2.5 micron) particles.
2. Deploy an in-situ pollen air sampler in Chattanooga to identify specific
pollen types.
3. Merge locally streamed data with already-collected, satellite-based
NASA data to complement and enhance the newly-collected particulate
data and generate Chattanooga-focused particulate maps.
4. Develop web-based visual tools to provide real-time pollen and smaller
particle alerts to end users such as asthma patients, health institutions,
and businesses and other institutions affected by elevated pollen levels.
Connected, Intelligent Transit (Portland, OR)
PSU PORTAL“Big Data”Regional Transportation DataWarehouse
City of Portland Powell BoulevardAdaptive Traffic ControlBluetooth Data collectionFiber BackboneTransit Signal Priority (Signal)
TriMetMajor Bus CorridorTransit Signal Priority (Bus)
Other PartnersIntel, DEQ, PSU Air Quality Detection
ARIBO marries technology and operational context to demonstrate and experiment with autonomous vehicle systems in real-world, semi-controlled environments. It is a practical-to-tactical approach that will guide the U.S. application of, and investment in, robotic technologies and automated vehicle policy. ARIBO is the U.S. self-driving living laboratory…
ARIBO has grown from 3 automated vehicle pilots in Smart America Challenge to 9 for Global Cities Challenge. The routes are expanding to longer, mixed use and even public streets (Seattle, Tampa). We are also expanding the types of vehicles to include new mid-sized electric shuttles and full-size electric city buses. Our goal is 20 sites and at least 100 vehicles by 2017.
GLOBAL CITIES CHALLENGE 2015
University of California-Irvine, Massachusetts Institutes of Technology, IBM, Intel, AT&T, SigFox, Brivo Labs, Senseware,
N5 Sensors, the Telemedicine and Advanced Technology Research Center (TATRC), Responder, Del Ray
Analytics, biobright, EIC Data, IoT DC, Captiva, Earth Networks, Victory Housing and more to come
Proprietary platform conforming to
industry standard
Proprietary platform conforming to
industry standard
Proprietary platform conforming to
industry standard
Open platform conforming to
industry standard
Open and Interoperable Platform (The Internet of Things)
A diverse
ecosystem of
IoT products
make up a real
world test bed.
Many use
cases will be
demonstrated.
Identify
existing open
standards and
protocols that
will allow
varying
devices to
share their
data securely.
Applications built on IoT
Applications built on IoT
Applications built on IoT
Applications built on IoT
Public Sector
Apps built on
the IoT.
Phase Two
Diverse forms
of connectivity
Using beacon devices to determine a
dispatchable address to indoor wireless 911
callers.
AZERT L.L.C.
Indoor Emergency Response Locators
Project Partners
CyDECS: Cyber Defense Exercise for Critical Infrastructure SecurityTeam: Iowa State University, USC/ISI
Cyber Security Preparedness & Resiliency Training
Greenville aTaxi: Connecting People and Places
People call
aTaxi
Automated Taxi
moves people
around campus
– 1-4 People,
On-demand,
Driverless,
Direct
Green transportation = Economic Development, Clean Air, Education, Fun
Sustainable Water Management -CincinnatiSmart water asset system with intelligent sensors capable of collecting and processing data throughout the distribution system in real-time for rapid decision making
Smart Water Assets Project
• Reduce the risk for unusual operational situations (e.g. spills)
• Improve the management of water supply and demand
• Protect against environmental impacts (advanced warning of sewage overflows)
• Access to large data sets and information to: improve responses, increase operational optimization, reduced operations and maintenance costs, and improve regulatory compliance
DATA VISUALIZATION PLATFORM
MUNICIPAL GOVERNMENT DEPARTMENT
GHG STANDARDS NETWORK
SMART CITY PLATFORM PROVIDER
BUILDING ENERGY RETROFIT FINANCE
TRANSPORTATION EMISSIONS ANALYSIS
BUILDING ENERGY RETROFIT ANALYSIS
BUILDING ENERGY CHANGE MANAGEMENT
5D SMART
A 3D data visualization platform project mapping building energy usage and GHG emissions data to a 3D model of downtown San Francisco that will empower building owners with the
information and tools they need to make their buildings more energy efficient.
• The City of San Francisco expects to incur an estimated $62 billion in climate-related infrastructure damage by the middle of the 21st century.
• Buildings = 52% of the city's carbon emissions, major cause of climate change.
• 75% of the city's largest 2,000 commercial buildings fall within the boundaries of the San Francisco 2030 District.
• No comprehensive, granular data re: the specific energy efficiency opportunities and solutions.
MONITOR PROGRESSMANAGE CHANGE
MITIGATE RISK
Bringing Internet of Things Know-How to High School Students
Today’s students will be building the smart cities and communities of tomorrow.
The time to start learning is now.
Students build sensor
pods that measure data
in each school location.
Use low-cost open
hardware and software.
Students share real-
time data across the
country.
Students study the
data and identify
similarities and
differences.
Build and Learn
through workshops
and hackathons.
Why?
• Strengthen STEM education and interest
• Learn about open hardware and software
• Learn to program hardware and sensors
• Learn how to share and analyze data
• Consider ways to leverage high-speed
connectivity where available
Students, High Schools,
Educators and Volunteers+
Integrating an Aerial Base Station with a City’s Emergency Communication Grid
Schools
Citizens
Emergency
Operations
Center
Police / Fire
Civil Air Patrol
Utilities
Transportatio
n
Hospitals
Non-Profits
Mobile Command Post
Energy Storage based Adaptive Demand Response in Smart Commercial Buildings
Objective:
To develop and demonstrate how battery
electrical storage can be used synergistically in
conjunction with a commercial building’s other DR
capabilities.
Impacts:
• Reduce grid stress and rate payer cost
• Spur technology innovation
• Reduce environmental impacts
• Improve grid reliability
Domains/Sectors:
• Advanced battery technology
• Smart grid and smart building systems
• Building-based cyber physical systems and
relevant control algorithms
Our objective is to understand, manage and improve the daily operations of both hotels,
across all departments, through the creation of real time mobile communication
technology deployed as a cloud-based SaaS platform.
Mobile-First Communication and Service On Demand Infrastructure For Hospitality
ALICE and the Gansevoort Hotel Group are partnering to
systemize, automate, and unify their guest and staff
operations across 2 properties located over a mile apart in
New York City.
SENAS: A Smart City Educational Network for Autistic Students
Home
Autism
Virtual Learning
Environments
(VLEs)
• Autistic children can interact
with teachers and health care
therapists remotely over the
network
• Learning modules (VLEs) can
reside in the cloud and
simultaneously support a large
number of students
• Allows parents to participate in
learning activities
• Autistic children are more
comfortable in familiar settings
(home)
• Learning environments can be
accessed any time
• Children can use graphics and
haptic based interfaces
• Teacher, therapist or parent can
select a child’s VLE in real-time
based on his/her responses and
preferences
CITY OF STILLWATER
STILLWATER
PUBLIC
SCHOOLS
Haptic
interface
Haptic
device
LinkNYC by City BridgeFirst-of-its-kind communications network that will bring the fastest available municipal Wi-Fi to millions of New Yorkers and visitors
Source: www.link.nyc
New York City, Qualcomm Incorporated, Titan360, Control Group, COMARK Corporation, Antenna Design