Contactless Technologies for Smart Cities: Big Data, IoT ...
IoT Leads Opportunities for Smart Cities
Transcript of IoT Leads Opportunities for Smart Cities
IoT Leads Opportunities
for Smart Cities
Institute for Information Industry 24 August 2015
Dr. Emery Jou
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- Technologies & TestbedsT
Outline
IoT Application Trends
IoT Technology for Smart City
IoT Federated Testbed
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Internet of Things Market Trend
Gartner’s Prediction - Internet of things : 15 Billions or 1
Trillion things connected by 2020
IDC’s Prediction: 2020 28 Billions IoT Units
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Top7 Intelligent Communities of the Year
• Role models for the world's best practices in creating competitive local
economies and vibrant societies in today's hyper-competitive global economy,
which broadband communications is increasingly linking into a dynamic whole.
• In the "broadband economy," adaptability outweighs legacy, skills rather than
resources are the keys to the future, and innovation, not location, creates a
competitive advantage. Click on the links below to learn more about each
community.
2015 New Taipei 2014 Hsinchu 2013 Taichung Intelligent Community of the Year 2013 Taoyuan 2012 Taichung 2006 Taipei Intelligent Community of the Year 2004 Taipei
Top7 By Year (Taiwan)
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III IoT Technology for Smart City
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Multiple Smart City
solutions and methods
Sensor Network
& IoT Application
Platform
Data Analysis
Other Services
Event Processing
Sensing &
Control
Communi- cation
Network
Smart Transportation & Big Data Part of Smart City demonstration in Taipei. Worked with government sectors, municipal buses and private taxi fleet for data collection and big data analysis
AMI System Solid experiences in low-voltage & high-voltage AMI systems
Metal-Friendly RFID Overcame reading difficulties on metallic objects over conventional RFID
Energy Management on Cloud Collaborated with Powertech Industrial; Propagate to various retail & manufacturers
Wireless Broadband Enable video-based surveillance services via wireless network; Work with police patrol/ dispatch system
Low Cost Wireless Network Implemented in Port of Taipei; truck positioning & dispatching; wireless ZigBee network
GNSS Fast Cold Start A quality patent for challenges GPS technology currently is facing
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IoT Technologies & Solutions Assets
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Video
Equipment
Mobile
Basestation
Video server
Dispatch system
Mobile management system
20Mbps
20Mbps
160Km
120Km/hr
. . .
IOT System 1: BestLINK Broadband Network (2013 R&D 100 Award)
• Wireless solution transmits range can be up to 160km
• Suitable for mobile video based surveillance applications
• Self sustainable private wireless network solution
• Wireless network management platform
Features
Customers • K-Best Technology Inc
• Changhua County Police Department
Functions
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IOT System 2: Metal-Friendly RFID Technology (2012 R&D 100 Award)
• Metal-friendly
• Enhanced reading range of 15M
• 100% read rate through 30KM/hr
• Enhanced RFID technology
• Metal-friendly Technology for Metallic Objects
• Read metallic objects
Features RFID-mf
Customers
• Taiwan Water Corporation
• Taipower Corporation
• Container Transportation company
• Liquefied Petroleum Gas (LPG) company
Functions
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IOT System 3-1: AMI System (Developed the first AMI in Taiwan)
GUI for AMI control
High -voltage AMI deployment
Smart Meters
AMI system launch ceremony Smart AMI demo
Source:DigiTimes、CompoTech、TW、III
• High interoperability & scalability for AMI applications. • Heterogeneous sensor network support ZigBee and PLC • Deploy low-voltage AMI as an experimental program
(10,000 houses) • Form industry coalition
• Key AMI technologies with smart grid
• Developed the first high-voltage AMI in Taiwan
• Global hybrid sensor network technologies
Features
Functions
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IOT System 3-2: Cloud-Based EMS (2011 R&D 100 Award)
“Demand Response”
Customers
• Cloud based
• Real-time 24/7
• Easy to use
• Online reporting
Functions
• Convenient store : 7-11
• Optical company : AUO
• Hotel chains: Naluwan Hotel
• Construction company: Farglory
• Burkina Faso, Africa: solar energy generation monitoring and maintenance
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IOT System 3-3: Demand Response Platform (Asia's second company certified by OpenADR2.0)
Source: OpenADR Alliance
• Taiwan Power Company
• Central University
• Fujitsui (Japan)
• Quanta (US)
• OpenADR 2.0 Compliant
• Support Demand Response Platform
Collaboration Partners
Functions
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IOT System 4: Smart Container Dispatching System (2013 R&D 100 Award)
• Enhance competence & efficiency
– Reduce 30% vacant trucks
– Increase 50% operation efficiency
– Increase 10% revenue 1stt year, and 20% in 2nd year
• Truck Dispatch Management
• Advanced Wireless Sensor System
Features
Zigbee-based Positioning Reporting cards with e-paper and Zigbee
On-Truck Device Control Center
Customers
• Taipei Port Container Terminal Corp. • UFO Communication • ShinYi Soft Company
Functions
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IoT System 5: Sensor-Enabled Green Building (Save 12% electricity annually)
• Save 12% of electricity 1st year, triggering
ecosystem development of green building
• Enable energy management service for
smart building
• Form industry coalition
Integrated sensors E-windows
Information Control center
Solar panel
Solution Announcement Green City Forum in Stanford
Rain collection
• Sensor-Enabled Green Building
• Optimize the air conditioning
• ISO PMV comfortable model
Features
Functions
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COSMOS (FP7 Call18)
IERC (European Research Cluster on the Internet of Things)
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III IoT Federated Testbed
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Testbed of Breadth and Depth
National Central
University Campus
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Smart Community Cloud-Based Energy Management System 10,000 Nodes Projects (15 Sept 2012 till now)
Gateway
CO2 Sensor CO Sensor
Power Strip
iSocket Thermo Sensor
Location Taipei, Taiwan
Household 2,280
Appliance 11,400
Taipei MinSheng Community
Home GW
Appliance
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Smart Campus National Central University Campus
Campus Aggregated Meters Building Meters Building Sub Meters Residential Meters Curtailable Loads (DR) Solar Panel
Establishment 1962
Colleges &
Schools 7
Research
Centers 9
Students 12,000 20
Smart Building IoT-enabled Building Deployment
Field A: Ming sang E Rd. Taipei City Temperature, humanity, Occupancy, Lux, CO2
and power consumption monitoring
Monitoring Main HVAC system and AC air-side control
Lighting control (dimming)
Sunshield control
200+ sensing and control point
Field B: Chien Yi Rd. New Taipei City Temperature, humanity, Occupancy, Lux, CO2 and
power consumption monitoring
Lighting control (dimming)
50+ sensing and control point
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IoT Testbed
Federate independently individual IoT labs
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Testbed-As-A-Service (TaaS)
Federation empowers to run services (and tests) using
resources provided by autonomous networks
Technology Accelerators
– Allows synthetic polymorphism (diversity of technologies)
– Can create policy and security boundaries that are not
the same as physical boundaries
– Open Source network testbeds affordable to all
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IoT-LAB (France)
An IoT-LAB node and its gateway
WSN430 board
FIT – site of Strasbourg France
• 240 fixed nodes (3D grid with 10 lines, 8 columns and 3 levels
• 4 mobile nodes (placed on a train) 24
OneLab Federated Testbed
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https://iot.snsi.iii.org.tw/
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Taiwan 4G+ experimental network
http://www.communications.org.tw/en/events/item/8737-4gplus.html
• On August 6, the Ministry of Economic Affairs (MOEA) has established a 4G+ experimental network worth of NT$1 billion (US$31.6 million; US$1=NT$31.67) to help Taiwanese vendors reduce testing costs and shorten product time to market for mobile phones, chipsets, small cells and so on.
• Under the MOEA's sponsorship, the experimental network consists of three divisions separately operated by the government-sponsored , the Institute for Information Industry, and the government-run National .
• Ericsson, Nokia, Alcatel-Lucent, NEC and Rohde & Schwarz will provide testing equipment and Chunghwa Telecom and Far Eastern Telecommunications will provide service testing platforms for the network, MOEA said. The network will be used to undertake testing on 17 frequency bands across FDD LTE, TDD LTE and FDD+TDD LTE, by the end of 2015.
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Horison ICT-08-2017: 5G PPP Convergent Technologies
• Scope:
• b. Research and Innovation Actions – Cooperation in access convergence
• This activity takes advantage of the supporting 5G research and demonstration facilities offered by Taiwan towards collaborative 5G research with the EU, and aims at developing and demonstrating an integrated convergent access across different air interface technologies and the fronthaul/backhaul/core network. Test beds making use of facilities offered by Taiwanese partners are targeted. It demonstrates the capabilities of new spectrum access schemes, including for co-working with the network. A system demonstrator showing applications potential is thus favoured, e.g. for high speed moving vehicles.
• The Commission considers that proposals requesting a contribution from the EU of EUR 2.5 million would allow this area to be addressed appropriately. Nonetheless, this does not preclude submission and selection of proposals requesting other amounts.
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