The Role of IoT Platforms in Smart City Project2015/04/28 · The Role of IoT Platforms in Smart...
Transcript of The Role of IoT Platforms in Smart City Project2015/04/28 · The Role of IoT Platforms in Smart...
The Role of IoT Platforms in Smart City Project
Saverio Romeo
Principal Analyst – Beecham Research
M2M Forum - Milan - April 28th 2015
The Ubiquity of M2M
Transport, Utility and Security – M2M Key Sectors
• The number of cellular M2M connections in 2013 were concentrated into key applications that enable development of smart cities: transport (urban mobility applications such as smart parking, connected cars), utility (smart metering and energy data management), and security (public safety)
Note: Sectors in Europe in 2013.Source: Beecham Research
Research Approach
DATA
[+] Focusing on Sector needs – securely, but application specific view of the city
[-] Not Enabling Wide Interactions
DATA
The Internet of Things
From Applications to Spaces
DATA DATA
IoT Applications
INTERACTION
UNDERSTANDING
CONTROL
INSIGHT
& more
Smart City as a System of Systems
Smart Vehicles
Smart Buildings
Smart Transport Systems
Smart Hospitals
Smart Schools
Smart Offices
Smart Hospital as an IoT Space
Intelligent devices in different hospital activities. The intelligence of devices depends on services required such as data and data analytics needed.
Edge Devices and Connections
Source: Beecham Research
New Forms of Connecting Citizens to Smart Spaces Wearable Devices
The Multidisciplinary Nature of Smart City Project
• Need excellent communication infrastructure
• Sources of sufficient “big picture” funding
• Ownership & guardianship of the data
• Many of different disciplines must break out of their silos
• Need for smart regulation and sociological change
Source: Beecham Research
Holistic versus Problem Specific
• Two approaches currently dominating:
A) Large research biased projects
• Creating new IoT technologies to handle the complexity, scale and throughput
• Experimenting with many possible services
• Imagining the needs of the future
B) Practical, smaller scale applications of current technology
• Address the City needs of today
• Work within the limits of current IoT technology
The Need of Distributed Intelligence• Smart City Complexity / Scale / Throughput pressures due to
• IoT interactivity and Big Data interactions
• Smart City complexities and needs
• Pressures increased further by the move to Optimisation
• Recent research by Beecham: “... need for increasing intelligence at
the network edge as well as in the cloud, with direct device to device communication at the edge. Cloud processing will be just part of future solutions... market players see “IoT = Edge + Cloud”
• Distributed intelligence is essential
• Central processing is insufficient
• Can not depend only on cooperating edge nodes
• Choose a balance to match each Smart City application
Evolution of IoT Platforms
• Holistic and horizontal view of smart cities require platforms to support them. IoT platforms are evolving around concepts such as smart cities.
• Need to extend managed environment to the edge.
• Becoming connectivity agnostic and device agnostic expecting for robots (drones), driverless systems (not only cars), and organic devices for environmental monitoring.
Source: Beecham Research
Offering Services at the Edge
• Assessing potential role for MNOs to offer managed environment to the edge, i.e. including for non-cellular
• 5 enabling services considered:
• Authentication
• Billing and Charging
• Data Management
• Device Management
• Security
• 20+ interviews conducted. Assessment indicates that can extend managed environment and add value
• New business models to be considered
• Security and Data Management have highest added value potential
Proliferation of IoT Platforms
130+ IoT platforms aiming to be used in smart city projects.
Source: Beecham Research
IoT Platforms with a Smart City Focus
Urban OS focussing on holistic smart city projects (Almere, London City Airport, Suape) looking into cutting-edge devices such as organic devices and autonomous systems.
Data-centric distributed network approach to smart city projects. Working with system integratorsoffering a strong data management view.
In-house platformsThe case of Predix by GE. But, also cities are thinkingabout developing their own platforms (Greater LondonAuthority). There are two reasons for data: 1) Data ownership2) Specific city context
Smart City Platforms - Demonstrators
Source: Beecham Research
Smart City Projects – Diverse Approaches
Source: Beecham Research
The Complexity of the IoT – The Complexity of Smart Cities
Key technology challenges in the Internet of Things:
• Security
• Evolution of IoTPlatforms
• Role of Data Analytics
• Solution Interoperability
• Role of different type of connectivity
• Device power
Source: Beecham Research