understanding the internet of things protocols
TRANSCRIPT
Your systems. Working as one.
Understanding the Internet of Things Protocols
Presented By:
Stan Schneider, PhD.
Understanding the IoT Protocols
The Internet of Things
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
2014 Top Tech Trends
• 1) Internet of Things• The IoT promises to be the
most disruptive technological revolution since the advent of the World Wide Web.Projections indicate that up to 100 billion uniquely identifiable objects will be connected to the Internet by 2020, with enormous technical, socioeconomic, political, and even spiritual consequences.
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
What is the Internet of Things?
• Cisco “Internet of Everything”– …the latest wave of the Internet -- connecting
physical objects…to provide better safety, comfort, and efficiency
• IBM “Internet of Things”– …a completely new world-wide web, one comprised
of the messages that digitally empowered devices would send to one another. It is the same Internet, but not the same Web.
• GE “Industrial Internet”– …convergence of machine and intelligent data…to
create brilliant machines
• RTI “Your Systems. Working as One.”– …an entirely new utility. As profound as the cell
network, GPS, or the Internet itself. The Internet of Things and the Intelligent Systems it enables will fundamentally change our world.
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
The Future of Intelligent Machines
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
The OMG’s Industrial Internet Consortium
• OMG manages the IIC• Goal is to bring standards clarity to
the Industrial Internet• 5 large company founders, led by GE• RTI is an IIC launch member & on
OMG board
© 2014 Real-Time Innovations, Inc.
What Connects the Things?
IoT Standard Protocols
Understanding the IoT Protocols
IoT Protocol Taxonomy
• Access– Link sparse
endpoints– XMPP
• Process– Biz intelligence– Centralized/ESB– ~100ms– MQ/AMQP
• Collect– Collect data– Hub & spoke– ~10ms– MQTT/CoAP
• Control, distribute– DataBus– ~0.1 ms– DDS
© 2014 Real-Time Innovations, Inc.
Web Services and Business Apps
Devices and Intelligent Systems
Control: DDS
Access: XMPP, REST Collect:
MQTT, CoAP
Process: AMQP
Understanding the IoT Protocols
AMQP: Process Device Data
© 2014 Real-Time Innovations, Inc.
Advanced Message Queuing Protocol (AMQP)
Understanding the IoT Protocols
AMQP Queuing Model
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
XMPP: Access Device Data
© 2014 Real-Time Innovations, Inc.
Extensible Messaging and Presence Protocol (XMPP)
Understanding the IoT Protocols
MQTT: Collect Device Data
© 2014 Real-Time Innovations, Inc.
Message Queuing Telemetry Transport (MQTT)
Understanding the IoT Protocols© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
DDS: Distribute Device Data
© 2014 Real-Time Innovations, Inc.
Real-Time Analytics &
Control
Operator HMI
Sensors Actuators
Cloud Integration
Data Distribution Service (DDS)
Understanding the IoT Protocols
DDS: The Software DataBus
• Data centric– Like a database for
moving data
• Decouples modules– Like SOA
• Plug and play flexibility– Like a hardware bus
• Peer-to-peer performance
– Like streaming protocols
• Standards-based interoperability
– Like TCP/IP
© 2014 Real-Time Innovations, Inc.
Data-Centric Messaging Bus
Scalable, high performance, reliable infrastructure
DataBus™
Understanding the IoT Protocols
Many Others
© 2014 Real-Time Innovations, Inc.
What Do the Things Do?
Industrial Internet of Things Use Cases
Understanding the IoT Protocols
Smart Machines in the IIoT
• Defense
• Unmanned Vehicles
• Transportation
• Industrial
• Healthcare
• Energy
• Communications
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Critical Energy Infrastructure
• RTI middleware controls the 6.8 GW Grand Coulee Dam
– Largest power plant in North America
– Fastest-responding major power source on the Western Grid
– Requires 24x7 operation
• RTI met the challenges– Extreme availability– Wide area communications– Multi-level routing– High security– 300k data values
• RTI system live now
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Distributed Power Generation
• Siemens Wind Power fields farms of 500 turbines with 100m blades
• DDS enables fast control within turbines and distributed gust mitigation across the array
• RTI will also integrate with predictive maintenance and business diagnostics
• RTI melds real-time with IT
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Smart Grid Distribution and Control
• MicroGrids connect generation, load, and storage to optimize usage and eliminate traditional grid infrastructure
• Deploying at Toronto Hydro
• Connext™ DDS middleware seamlessly integrates apps, enforces security, merges NI LabVIEW
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Asset Tracking: Fit to Architecture
• The US Army Blue Force Tracker (JBC-P) must process 200,000+ tracks.
• Transactional design was:– 1.5m SLOC– 12,000 tracks– 11 servers w/88 cores
• The DDS design is:– 50k SLOC– 250,000 tracks– 80% of a single core– Fully redundant– Reliable multicast
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Mining: Harsh Environment
• Joy Mining is the world’s largest mining equipment manufacturer
• DDS connects the controller, operator GUI, and historian
• Reliable, fast connectivity enables control, debugging, and system health monitoring for continuous mining
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
EMS: Device Integration
• The largest EMS equipment provider will use DDS for their entire product line…for the next 20 years
• Provides emergency response equipment to 60% of the world’s emergency vehicles
• DDS middleware provides easy connectivity, performance, reliability, medical certification option
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
EMS: Cloud Integration
© 2014 Real-Time Innovations, Inc.
Connecting devices with hospitals to provide better treatment while en-route
4G/LTE
Understanding the IoT Protocols
Medical Imaging
• Coordination– ECG sync– Generator– Scanner– Power– Servo
• Burst image data acquisition
• Control & monitoring– Systems ready for scan– Status during scan
• Operator interface• Integration
– Many languages, OS, data models
– Data archiving
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Device Connection for Patient Safety
• Hospital error is the 6th leading cause of preventable death
• DocBox integrates devices to improve patient safety
• RTI Connext ties together devices, services, and displays in real time
© 2014 Real-Time Innovations, Inc.
“RTI Connext DDS met all our needs – whether
we’re handling 12 patients, or 200.”
-- DocBox Founder, Tracy Rausch
Understanding the IoT Protocols
Hospital: System of Systems Integration
• Hospital net challenge– 1000s of patients, >100k
devices
– Wired/wireless/ISM
– Moving patients
– 100% uptime, security
– Real-time waveforms
• DDS technology– Data centric addressing
– Smart data filtering
– Routed deployment
– Optimized updates
– Automated test harness
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Smart Cars
• The VW Driver Assistance and Integrated Safety system combines radars, laser range finders, and video to assist safe operation
• It helps avoid obstacles, detect lane departures, track eye activity, and safely negotiate bends
• Advanced safety systems must connect to existing hardware. RTI middleware bridges high speed networking to the CAN bus
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Distributed Test
• A modern car contains 100+ CPUs
• Audi uses hardware-in-the-loop simulation to feed realistic data to components in a lab for testing
• RTI middleware enables a modular test environment that scales to work with hundreds of devices
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Pilotless Airplanes
• RTI leads in defining a standard architectures for unmanned vehicles and avionics
• RTI chairs the architecture for UCS (ground stations) and is key at FACE (avionics)
• RTI is building a DO178C-level A safety-certified DDS
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Air Traffic Control: 24x7 Operation
DDS was selected for its extensive compliance with the Object Management Group (OMG) DDS standard; its high security rating; its wide support of tools and programming languages, and its reputation for performance, scalability, and 24/7 reliability
– Sid Koslow, Chief Technology Officer, NAV CANADA.
© 2014 Real-Time Innovations, Inc.
Air Traffic Control for Canada2nd largest ANSP in the world80 sites
How to Choose?
Picking an Architecture
Understanding the IoT Protocols
Types of Middleware
© 2014 Real-Time Innovations, Inc.
Point-to-Point Client/Server
Brokered
ESB
Daemon
Publish/Subscribe
Data-Centric
Publish/Subscribe (DCPS)
Data-Centric
DataBus
Queuing
Understanding the IoT Protocols
How to Choose?
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Identify Your Primary Challenge
© 2014 Real-Time Innovations, Inc.
Web Services and Business Apps
Devices and Intelligent Systems
Control: DDS
Access: XMPP, REST Collect:
MQTT, CoAP
Process: AMQP
Understanding the IoT Protocols
Choose MQTT If…
• Think of it as collection?
• Little device-device communications?
• Large number of devices?
• Very small devices?
• 3 or 4 => MQTT
© 2014 Real-Time Innovations, Inc.
Collect:MQTT, CoAP
Understanding the IoT Protocols
Choose AMQP If…
• Distributing work, not information?
• Just send A to B?
• Speed & CPU use not important?
• Can’t lose anything?
• 3 or 4 => AMQP
© 2014 Real-Time Innovations, Inc.
Process: AMQP
Understanding the IoT Protocols
Choose XMPP/REST If…
• Use the word “my”?
• Few connectivity points in large space?
• Speed & CPU use not important?
• “Always” connected?
• 3 or 4 => XMPP or REST
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Choose DDS If…
• Disaster if offline for 5 minutes?
• Measure performance in ms or us? Or scale >100+ applications? Or 10k+ data values?
• Code actively developed for >3 yrs?
• 2 or 3 => DDS
© 2014 Real-Time Innovations, Inc.
Control: DDS
Understanding the IoT Protocols
Unit DataBusUnit DataBus
Extend End-to-End
• Connect…– Fast– Seamless– QoS controlled– Secure– Data centric
• …80 Platforms…– Micro controllers– Certified systems– Embedded– Mobile– Desktop– Cloud
• …over 12 Transports– UDP or TCP– D/TLS (secure)– Wireless or wired– Shared memory– Backplane– Cloud virtual connect
© 2014 Real-Time Innovations, Inc.
IntelligentMachines
IntelligentSystems
IntelligentIndustrial Internet
Cloud DataBus
Site DataBus
IntelligentSystem of Systems
Unit DataBus
Sense Act
Think HMI
Machine DataBus
Think HMI
Machine DataBus
Sense Act
Think HMI
Machine DataBus
Understanding the IoT Protocols
Strive For: One Logical Dataspace…
DDS DataBus
Sensors Actuators
Analytics & Control
HMI/UIIT, Cloud & SoS
Connectivity
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
…Hiding Complex Network Topologies
ActuatorsSensors
Analytics, control
HMI
ActuatorsSensors
Analytics, control
HMI
ActuatorsSensors
Analytics, control
HMI
Analytics, control
HMI
Centralized analytics
Decentralized devices, streaming analytics and control
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
Integrate to Complete System
• Routing Technologies
– ESBs (Camel)
– Real-Time (DDS Routing Service)
© 2014 Real-Time Innovations, Inc.
MQTT
Web
FieldBusses
AMQPJMS
TCP
Routing Service
Pluggable Adapters
Transformation Engine
Database Historian
DDS Databus
DDS Databus
Understanding the IoT Protocols
Example Protocol Challenges in Power
© 2014 Real-Time Innovations, Inc.
Grid Control
Optimize BillingBalance Grid
CollectMeter Data Turn My
Lights Off
Manage Loading
Distributed Control
SCADA Control
Device ServiceREST CoAP
Understanding the IoT Protocols
Conclusions
• The IoT is Huge
– Many challenges!
– Many technologies, many protocols
• Design for Best Fit
– Determine your hardest problem
– Choose the primary protocol to solve it
• Build a coherent data space
– Extend your primary choice to its reasonable limits
– Route to integrate legacy & best-of-class technologies
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
The Future is Now
© 2014 Real-Time Innovations, Inc.
Understanding the IoT Protocols
About RTI
• Market Leader– Over 70% DDS mw market share1
– Largest embedded middleware vendor2
– 2013 Gartner Cool Vendor for technology and Open Community Source model
• Standards Leader– Active in 15 standards efforts– OMG Board of Directors– DDS authors, chair, wire spec, security, more
• Real-Time Pedigree– Founded by Stanford researchers– High-performance control, tools history
• Maturity Leader– ~700 designs; by far the most-used DDS– TRL 9
© 2014 Real-Time Innovations, Inc.
1Embedded Market Forecasters2VDC Analyst Report
Understanding the IoT Protocols
Critical Infrastructure Trusts RTI
• World’s largest Wind Power company• World’s largest Underground Mining Equipment company• World’s largest Navy (all surface ships)• World’s largest Automotive company• World’s largest Emergency Medical System company• World’s largest Medical Imaging provider• World’s 2nd largest Patient Monitoring manufacturer• World’s 2nd largest Air Traffic control system• World’s largest Broadcast Video Equipment manufacturer• World’s largest Launch Control System• World’s largest Telescope (under construction)• World’s 5th-largest Oil & Gas company• World’s 6th-largest power plant (largest in US)• All of world’s top ten defense companies
© 2014 Real-Time Innovations, Inc.
Over $1 trillion relies on RTI