how iot transforms the market for building automation in support of sustainability performances
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SOLID IN WIRELESS
SMART SUSTAINABLE BUILDINGS
NEED SMART PLATFORMS
IoT technology that transforms the market for
building automation
www.chess-wise.eu
CONTENT
IoT & the future of Smart Building Automation
Requirements for Smart Building Platforms
Smart Building Design Model
MyriaMesh Smart Building Platform
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ACT &CONTROL
SENSEANALYZE
Augmented
behavior Sensors
Augmented
intelligence
Network
Standards
AGGREGATECONNECT &
COMMUNICATE
MAGNITUDESCOPE / SCALE /FREQUENCY
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RISKSECURITY / RELIABILITY /ACCURACY
TIMELATENCY /TIMELINESS
SOURCE:DELOITTE
What makes up for an IoT Platform? Introducing the IoT value chain
■ Value drivers
■ Stages
■ Technologies
ACT & CONTROL
The mechanism to take decisions or actions on the
basis of the data. The software allows the user to
take better decisions and optimize yourperformance
based on a significant amount of data.
SENSE (Data mining)
Enable the sensors and actuators that make up
the IoT backbone for example, measure
movement, temperature, and ambient light level
CONNECT & COMMUNICATE
The network / protocol to gather data from the
sensors and the gateway to connect to the back
office. MyriaMesh automatically creates a mesh
network between all nodes – gathering data was
never so easy andcheap.
AGGREGATE
Storing the data received from the IoT gateway on
the backbone of a company’s IT infrastructure.
ANALYZE
Processing and analyzing the (large-scale)data
gathered from the IoT.
MyriaMesh covers 3 out of 5 steps
in the IoT valuechain
IoT business cases are found everywhere and hold great promise fora smarter & more sustainablefuture
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SMART HEALTHCARE
SMART ENERGY/ UTILITY
SMART AGRICULTURE
SMART HACCP/ QUALITY CONTROL
SMART RETAIL
SMART BUILDINGS»Smart lighting
»Smart HVAC
»Smart Security
»Smart Energy
OBJECTIVE > 90% ENERGY SAVINGS
Hold this thought: Buildings represent about 30% of global energy use and therefore, smart buildings are a key
part of the sustainable energy future. Smart LED lighting alone can save 80% of energy for lighting. The energy efficiency
potential. from smart HVAC and window coverings is even bigger. Integrated performance management of these systems can
optimize energy savings by 90%.
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IONCONTROLLERSFIELD LEVELCONTROLLERS
ROOM CONTROLS
THIRDPARTY SYSTEMS
VAV CONTROLLER
VAVBOX
ION TO BACNET ROUTER/GATEWAY AUTOMATION LEVEL CONTROLLERS
OPERATOR FIELD BUS: IONWORKS/BACNET/PROPRIETARY
TERMINAL
SENSORS ROOM CONTROLS
CHILLER SENSORS ACTUATORS FAN COILSANDVALVES
PLANTCONTROLS
MA
NA
GE
ME
NT
L
EV
EL
AU
TO
MA
TIO
N
LE
VE
LF
IEL
DL
EV
EL
WORKSTATION
ETHERNET/IP
THIRDPARTY INTEGRATOR
The Building Internet of Things (BIoT) gets cluttered at the platform level...
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» The market offers many single-purpose smart building
systems resulting in many different system layers
» Platform integration is too complex as long as IoT applications
operate on different system layers. Configuration is time-consuming
if devices each have their own IP address
» Non-secure IoT platforms with multiple system layers result in
costly,time-consuming installation, and high maintenance and operational costs - IoT business cases are held captive
...demonstrating the need for non-hierarchical full-mesh networks
» Mesh networks scale effortlessly as they can run many different smart
building applications (multi-pupose) within one network
» Platform integration is easy. Devices and applications can be deployed
locally and directly in the network or via a cloud-based back office: simply
address and assign devices a job and group and they are operational (no
need for IP addresses)
» Operation of multiple systems within one network results in simple
installation, simple maintenance and therefore low operational costs
enabling scalable and viable IoT business cases
... but the promise of IoT in Smart Buildings is held captive byplatform
integration challenges
Heterarchical organism with collective intelligence, implies simple integration and endless scalability
Complex hierarchical structure
WEB BROWSER SERVER WORKSTATION
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PLATFORMCONTROL
IoT platforms with a wireless mesh network eliminate the need for system
layers
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» Central control layer
Building AutomationSystems
» Single purpose system layersBuilding control systems
» Group/ Area controllers
Room controllers
» Multiple application
layers room 1
» Multiple application
layers room 2
» Multiple application
layers room 3
Example of a current building automation systemComplex + layered + rigid (simplified)
MyriaMesh creates a non-hierarchical mesh network
» No hierarchy = NO SYSTEM LAYERS» Integrated assetmanagement» Scales easily» Easy configuration
Optional: Gateway to cloud
■ LIGHT NODES ■ SMART BLIND NODES ■ HVAC NODES
SMART LIGHTING
SMART BLINDS
HVAC
ROOM 1 ROOM 2 ROOM 3
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What should you look for?The requirements for an BIoT platform (Building Internet of Things)
SECURITY Is the network secure by design?
2015 was “The Year of the Cyber Attack”. Cyber Security should be a concern
for any user or owner of connected devices. Adding network connectivity to
any “thing” can certainly provide great value but also brings with it potential
risks.
SCALABILITYHow scalable is it and is that scalable enough for the
business case of my green building? What determines
scalability?
Depending on your business case/ use case you would want to scale up simple
and easy - with as little reconfiguration, extra interfaces, gateways, routers as
possible.
RESILIENCEHow resilient is the network? Does it have self-organizing/
self healing qualities? Are there single point of failures?
(number of master/ slave relations in the network?)
The level of resilience impacts your down-time, maintenance costs, operational
costs and the end-user experience.
MOBILITYHow easy can moving assets and people be tracked and
traced? And with what accuracy?
Buildings are highly dynamic environments. Assets and people move
everywhere all the time. Can your IoT platform handle that (most can't -> IP
based)
ADDRESSABILITYHow many nodes (smart assets) can be addressed in 1
group? (e.g. Can lights can be a part of more than one
light scene)
The addressability impacts the scalability but also the simplicity of
commissioning and the flexible application of nodes to fit one or more
purposes.
INTEGRATED
COMMUNICATIONCan nodes also communicate with eachother? (Can sensors
and actuators exchange real time set-points and states? )
If nodes can both publish and subscribe to messages, the network becomes
highly agile (easy to commission/ flexible)
INDEPENDENCY
Does the network depend on the cloud/third party
providers? Or can it operate as an abstact, autonomous
network? How much control do you have over the
ownership of the data/ network?
The level of independency impacts the security and operational costs.
Depending on the infrastructure (back office in the cloud?) and the business
model of your solution provider you will have more or less control over your
data, the network and its costs.
RADIO FREQUENCY +
STRENGTHOn what frequency does the protocol operate? And at what
strength (mWatts)? What are the duty cycles?
It can get crowded at certain frequency. Can the protocol operate on other
frequencies, and what are the parameters that influence its reliability and its
distortion rate?
OVER-THE-AIR VERSION
UPDATES
How easy can devices be updated. In case of a system
update, would you need to update devices manualy? Or
does the network allow for OTA updates?
Depending on the amount of nodes and updates an OTA update feature can
have a huge impact on operational costs and down time. Imagine having to
manually update all devices?
What should you be asking? Why is this important?
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Smart Building Design Model
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Smart Building Design Model
1. User centric
2. Sensing the
environment that
interacts with the user-
(sensor layer)
3. Impact on building
(control layer)
4. Impact on performances
(economic layer)
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Single-Purpose Network Example 1
IN A SINGLE-PURPOSE
NETWORK
A temperature sensor
…sends data to control:
• HVAC system
…which impacts:
• Productivity
• Well being/Health
• Operational costs
1. User centric
2. Sensing the
environment that
interacts with the user-
(sensor layer)
3. Impact on building
(control layer)
4. Impact on performances
(economic layer)
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Multi-purpose Network Example 1
IN A MULTI-PURPOSE
NETWORK
A temperature sensor
…sends data to control:
• Climate Control System
• Health Monitor
• Smart Blinds
• Maintenance
…which impact:
• Productivity
• Well being/ Health
• Energy usage
• Operational costs
1. User centric
2. Sensing the
environment that
interacts with the user-
(sensor layer)
3. Impact on building
(control layer)
4. Impact on performances
(economic layer)
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1. Centraal: de gebruiker
2. Factoren die invloed
hebben op de gebruiker
(sensor layer)
3. Effect op de functie van
het gebouw (control
layer)
4. Effect op duurzaamheid
(economic layer)
Single-Purpose Network Example 2
IN A SINGLE-PURPOSE
NETWORK
A motion sensor
…sends data to control:
• Security system
…which impacts:
• Security levels
• Operational costs
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Multi-Purpose Network Example 2
IN A SINGLE-PURPOSE
NETWORK
A motion sensor
…sends data to control:
• Security system
• Cleaning planner
• Climate Control System
• Smart Blinds/ lights
• Workspace manager
…which impacts:
• Security levels
• Operatioal costs
• Rental costs
• Energy savings
1. User centric
2. Sensing the
environment that
interacts with the user-
(sensor layer)
3. Impact on building
(control layer)
4. Impact on performances
(economic layer)
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Current situation
• >100 network protocols (wired &
wireless) for Building Automation
• Scalability + integration is realized
through hubs, modems, interfaces
and what not
• Result = COMPLEX + RIGID SYSTEM
- Buildings can’t adapt to changing
environment or purpose
- High operational costs
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IDEAL SITUATION
What if:
• There is ONE network that operates
as an integrated platform for all
building systems
• No hubs, gateways, routers,
interfaces, modems are necessary to
scale
• There is no (re) cabling resulting in
an extremely flexible installation
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SOLID IN WIRELESS
All systems work together to optimizesustainability performance…
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MyriaMesh Story
The MyriaMesh protocol has been inspired
by nature itself.
Nature shows us beautiful examples of self-
organized systems of cells, all contributing
equally to an organism as a whole. Organic
systems grow in size and behavior, simply by
adding a cell which automatically becomes a
supporting part of the system. This intelligent
design makes an organism ultra-scalable,
resilient and robust and it has no single
point of failure.
This became the starting point for the
development of MyriaMesh, a full mesh
network in which all nodes are equal and
each node contributes to an ever more
powerful network. Like birds in a flock or fish
in shoals.
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MyriaMesh Technology
• MyriaMesh is a wireless connectivity protocol, developed by Chess Wise, that enables
+10.000 Things (assets, devices) to self-organize the best way to communicate with each
other.
• …enables simple integration and deployment of devices and applications
• …is a mesh network: heterarchical topology and ultra-scalable to over 10.000 nodes in
one network
• ….is ultra-resilient: self-organzing + self- healing
• …is secure by design
• …is radio agnostic (supports short + long range)
• …has low operational cost
• …delivers over-the-air version updates
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How do wireless IoT protocols meet the requirements forSmart Building platforms? – a benchmark
Proprietary protocols Open protocols
REQUIREMENTS SMART BUILDING PLATFORMSMYRI-
AMESHWIREPAS* ZIGBEE ZWAVE LORA 6LOWPAN WIFI
BLEMESH**
SECURITYstrong encryption and authentication (Aes CCM)
protects the network traffic from eavesdropping
and tampering. Each node has a unique id,
allowing it to obtain authenticated updates.Chess
wise uses Hardware security Modules (HsM), similar
to those used in the banking industry. This provides
optimal protection of all product keys, both public
and private, with a 128 bit AES encryption standard.
SCALABILITY
Contrary to iP based, hierarchical networks,
MyriaMesh is heterarchical and scalable to more
than 10,000 different devices, allowing one network
to control ‘everything’ for seamless platform
integration.
RESILIENCY
The network’s collective intelligence deploys and
restores (new) nodes automatically. in short:
MyriaMesh is self-organizing and self- healing and
has no single point of failure.
MOBILITYContrary to IP based connectivity platforms, MyriaMesh
allows for
mobility of naodes for example to support track & trace
applications.
?
ADDRESSABILITY
MyriaMesh can address 65k nodes in 1 group. All
nodes are equally able to reach peers, groups or all
nodes. One device can be a member of 8 groups
simultaneously.
PUBLISH &SUBSCRIBE
CONTROLLAYER
MyriaMesh’s universal network language enables
sensors and actuators to exchange real time set-
points and states (e.g turn light at 70% during
daylight-state) that allows for simple (re)configuration.
?
INDEPENDENCY
A MyiaMesh network can operate independently.
Its nodes have a collective intelligence that -
together- manage the network’s individual
applications. Connection to complementary cloud
(management) applications is simple but optional.
OVER-THE-AIRVERSION
UPDATES
MyriaMesh is radio agnostic. its protocol operates
on short range (smart building) as well as long
range frequencies (smart city/ outdoor).?
No legal liability or other responsibility is accepted by or on behalf of Chess-Wise for any errors, omissions, or statements on this
benchmark, or any sheets of this presentation. Please contact us if you have relevant input or remarks for updates. info@chess.nl
www.chess-wise.eu
OUR VISION is to create the leading IoT
platform for the sustainable built environment
and beyond.
OUR MISSION is that by 2020 we will have an
installed base of 2 million smart assets in 100+
buildings, reducing their energy usage with 70%.
What are your vision and mission and how can we help
each other?
www.chess-wise.eu
SOLID IN WIRELESS
Questions or remarks? Please contact us
www.chess-wise.eu
Or call +31655754567 - Wim Hogenhout
www.chess-wise.eu
SOLID IN WIRELESS
APPENDIX
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LEDSGOGREENER
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LIGHT-AS-A-SERVICE
Joint Venture between LGG and Chess Wise will offer customers Smart Lighting As A Service platform
Erasmus MC
SMART LIGHTING
Self-organizing and local operation without back office were key requirements. Has been installed. Now devices can easily be configured with an iPad.
Verosol
SMART BLINDS
Three projects with a total of >1,000 blind control units;
Luminext / Eneco
SMART CITY
Installed 20,000 street-lighting units to date (of 30,000 units sold);Luminext is active in NL, UK and D.
Dietal
SMART INDUSTRIAL PLANTS
Currently installing up to 15,000 in the near future for the Chemelot Industrial site. Next up is the opportunity to deploy 800,000 units at industrial plants globally over next 2-3 years.
Recent partnerships and projects
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BLE GATE-WAY
3G OR ETHERNET GATEWAY
MYRIAMESH LMS
Description: … … … ……
CLOUD BASEDSERVER
COMMISSIONING WITH MYRIAMESH IOS APP:REQUIREMENTS• BLE GATEWAY• APPLE IPAD
BLC
REMOTE SWITCH
MULTI SENSOR
MOTION & LIGHT
CONTROL
BLC
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BLC
AND /OR
230V
BLC product suite» MyriaMesh BLC (Building Light
Controller) 200 series
The BLC 200 series contains a series
of light controllers for LED’sand
lightbulbs enabling wireless control and
management of light fixtures.
» MyriaMesh BLC 2G/3G Gateway
The MyriaMesh BLC Gateway enables the
data transfer to a third party back office.
» MyriaMesh Bluetooth (BLE) Gateway
The Bluetooth Gateway enables
communication between the
MyriaMesh network and the MyriaMesh
Commissioning App for iPad.
» BLC Commissioning App for iPad
Commissioning of your MyriaMesh
Building Light Control network is made
easy with the Commissioning App for
iPad.
» Remote switch (release Q4 2016)
Light/dimming switch with long life
battery (15 years) Enables you to
switch(on/off) or stepless dim a group of
lighting fixtures that are equiped with a
dimmer.
» Multi-sensor (release Q4 2016)
Presence/Ambient light sensor +PIR
based motion detector and light
measurement.Enables you to control
(switch/dim) a group of lighting fixtures
based on presence of occupants or
illuminance.
MyriaMesh Building Light Control
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BLE GATE-WAY
Description: … … … ……
MYRIAMESH OLC GATEWAY2G/3G
MYRIAMESH LMS
CLOUD BASEDSERVER
COMMISSIONING WITH MYRIAMESH IOS APP:REQUIREMENTS• BLE GATEWAY• APPLE IPAD
230V
868MHZ
DALI1-10VOLC
OLC product suite
|25
» MyriaMesh OLC (Outdoor Light
Controller) 300 series
The OLC 300 series contains a series
of light controllers for LED’s and
lightbulbs enabling wireless control
and management of light fixtures.
» MyriaMesh OLC 2G/3G Gateway
The MyriaMesh OLC Gateway enables
the data transfer to a third party back
office.
» MyriaMesh Bluetooth (BLE) Gateway
The Bluetooth Gateway enables
communication between the
MyriaMesh network and the
MyriaMesh Commissioning App for
iPad.
» OLC Commissioning App for iPad
Commissioning of your MyriaMesh
Outdoor Light Control network is made
easy with the Commissioning App for
iPad.
MyriaMesh Outdoor Light Control
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