INTRODUCTION IoT ecosystems have become the mostly debated topics, - - PowerPoint PPT Presentation

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

for Factory & Industry for Shop & Retail for Hospitals & Healthcare for Offjces Your IoT System

for Cities & Municipalities

IoT ecosystems have become the mostly debated topics, as they serve a broad range of consumer, commercial and industrial applications. However, fjrstly we need to categorize each device and fjgure out whether it can be considered as a part of an IoT ecosystem. There are different ecosystems for cities, industry, shopping malls, educational facilities, offjces, healthcare facilities, ... Correctly deployed IoT ecosystems require a careful cloud-based service provider which can generate signifjcant operational and costs benefjts.

INTRODUCTION

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

INTRODUCTION

CitySys - system ready to help build a functioning ecosystem that reflects and supports the role of the partnership model and also supports the role of key market players in Smart Cities projects. CitySys is an open, collaborative and sustainable ecosystem built on ready solutions for smart self- government based on an accepted reference architecture, interoperability standards, and shared components. Connected street lighting can beautifully illuminate neighborhoods to make them more attractive and feel safer, while at the same time collect data from various devices – sensors, cameras, radars, ....

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

PREPARATION OF THE NECESSARY STARTING POINTS FOR THE SUCCESS OF IOT PROJECTS

PLATFORM – IOT ARCHITECTURE – BUSINESS DRIVE ARCHITECTURE – PLATFORM LAYER REFLECTING USER TYPES – CUSTOMIZABILITY – ONE PLATFORM MANY DIFFERENT CUSTOMERS /CONTENT – EXPANDABILITY – BUILD ONE USE EVERYWHERE – INTEROPERABILITY (INTERDISCIPLINARITY) – EDGE COMPUTING OFFERS SUPPORT BOTH LOW-LATENCY

1

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

REFERENCE TECHNICAL IOT ARCHITECTURE

Collaboration, Orchestration layer of interdisciplinary scenarios and data management

• integrated application data and service

management module

• comprehensive data management and

application services

• interdisciplinary scenarios over data and

services of third party systems

• catalog of data and application interfaces

6

API Gateway interface layer and data exchange

• support modules over load balancing

API (GW)

• gateway for application services and

data (GW API)

• identity & access mng module
• interface optimization
• interface access control
• manage and provide data interfaces

and application services

5

Business Cloud business application layer

• UI interfaces and applications
• analytics, machine learning

and artificial intelligence

• domain logic, behavior and processes
• managing and managing domain devices
• system services and user interfaces
• data management and extraction
• managing digital twin objects and services

domains

4

Technical (IoT) Cloud IoT data and device processing layer

• „Ad-hoc“ analysis module and rule system
• control the flow of data and commands
• data processing and storage
• management and management
• f physical devices
• control the flow of data and commands

in the system

• „Immediate“ analysts and responses
• data processing and storage („raw“)
• management of physical devices

3

Connectivity data transfer layer

• network management and equipment
• network server and its network server API
• Base Network Stations (BTS)
• management of network equipment

and communications

• receiving and sending messages

2

Edge layer of physical devices

• concentrators and gates
• local network of devices / concentrator
• sensors and actuators
• data collection and field management
• local device communication
• measurement of quantities and reaction

in space

1

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

PLATFORM LAYERS REFLECTING USER TYPES

BUSINESS-DRIVEN ARCHITECTURE designed for state administration to control in a defjned region/city/... e.g. region control room team responsible for

• perative control of the city and contract

performance designed for service operators to operate

• f a specifjc segment in a defjned

region/city/... e.g. organization responsible for Lighting in the city

Innovation, Flexibility, Professionalism, Collaboration, Credibility

Segment Modules

Platform Layers reflecting User Types business-drive architecture

Lighting

by OMS

Traffic

by OMS

...

by ...

Dashboards Security

by ...

Operation Dashboard

by OMS

...

by ...

designed for service operators to operate

• f a specific segment in a defined

region/city/... e.g. organization responsible for Lighting in the city of Moscow designed for state administration to control in a defined region/city/... e.g. region control room team responsible for

• perative control of the city and contract

performance

KPI

by OMS

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ONE PLATFORM MANY DIFFERENT CUSTOMERS/CONTENTS

Innovation, Flexibility, Professionalism, Collaboration, Credibility

One platform many different customers/content customizability

CUSTOMIZABILITY

Innovation, Flexibility, Professionalism, Collaboration, Credibility

One platform many different customers/content customizability

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

BUILD ONE USE EVERYWHERE

EXPANDABILITY Possibility of multiple applications of the module / integration for various deployments

• Partner integration
• By deploying the module from ecosystem

Innovation, Flexibility, Professionalism, Collaboration, Credibility

Build one use everywhere expandability

possibility of multiple use of the module / integration for various deployments

• partner integration
• by deploying the module from ecosystem

integration to Sensoneo (Nitra, Senica, ...)

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

INTERDISCIPLINARITY

The solution is able to control interactions between domain control subsystems to ensure data exchange and processing through the city. Subsystem interactions are privided by the organization of services and individual subsystems that automate multiple scenarios across different domains, e.g. charging + parking system + lighting + security.

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

– WHY VIA LIGHTING? – LIGHTING GRID AS COMMUNICATION BUS – LIGHTING CONTROL SYSTEM

SMART LIGHTING / LIGHTING AS AN INFRASTRUCTURE

2

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

SMART LIGHTING / LIGHTING AS AN INFRASTRUCTURE

WHY VIA LIGHTING? It is exciting time for lighting as never before. LED technology - the most signifjcant revolution in the lighting industry since the invention of the light bulb - is now trusted and widely deployed around the world. Connected lighting further advances digital lighting technology by bringing connected LED luminaries and smart sensors into the Internet of Things. Well-designed connected lighting systems supported by excellent IoT architecture of platforms routinely achieve energy savings of as much as 80 percent when compared with conventional lighting. CITYSYS is the system combining a Smart Lighting IoT solution with effective and immediately useable Smart City IoT

• infrastructure. The luminaire equipped with the IoT component creates an intelligent system.

CITYSYS is the only system in Europe which supports interoperability management with artifjcial intelligence, which has been

• ne of the main challenges of Smart Cities.

Lighting network is alway under power and you are able to connect all the other devices and solutions to public lighting pole, which is under 24/7 voltage (sensors, cameras,...). You can also control all devices remotely via CitySys, for example switch the luminaires digitally off.

Ideal Position

Lights are ideally distributed in spaces

Better Communication

Better conditions for the propagation

• f RF communication

Anti-vandalism

Luminaire installation height protects them from vandalism

Ideal location

Ideal location for installing cameras and sensors

No reconstruction

There is no need to build a new electricity grid, it is possible to use the power network of the lighting system

Lighting

Lights are found in all important parts of the city

Savings

Replacing them with LED luminaries brings savings and, in turn, the municipality

Distribution

They are evenly distributed (uniformity)

Saving Funds

For further city development

Power reserve

Utilization of the originally designed capacity of the electrical network even at a reduced consumption

Extended functionality

when using a scalable system with smart luminaries

Constant Power Supply

A constant power supply forms the basis for most sensors and devices in the Smart City

BOX BOX

230V

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

LIGHTING AS NETWORK AND INFRASTRUCTURE

UNIFORMLY located network in the city CONSTANT voltage available at 230V ECONOMICAL financing through energy saving SMART network by lighting replacement SUITABLE positioning at heights SIMPLE administration and maintenance

LIGHTING AS

• infrastructure for connectivity and edge computing
• core IoT platform for SmartCity modules

SMART CITIES solutions because via lighting:

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ASSET

...

ASSET ASSET ASSET ASSET ASSET

Business Applications & Other Systems Platform Interfaces (open source) Ethernet

Ethernet, Sigfox, LoRaWAN, etc.

Connectivity Edge Devices Smart Devices

CITYSYS IoT GATEWAY EDGE DEVICES ADAC

3rd PARTY DEVICES 3rd PARTY DEVICES

Sigfox OPC-UA MQTT LoRaWAN ZigBee

CENTRAL TOOLS PLATFORM SOLUTIONS 3rd PARTY APPLICATIONS IoT DEVICES DEVICES

3rd PARTY DEVICES

ARCHITECTURE

BIG DATA INTEGRATION RULE ENGINE IAM COMMON API IOT PLATFORM GRAPHICAL CLIENTS INTEGRATION - API INTERFACE

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

LIGHTING GRID AS COMMUNICATION BUS Lighting grid based on PLC, RF or CELLULAR communication is used as a communication bus for all connected IoT smart devices. Lighting grid will be like communication highway for smart devices.

CONTROL SYSTEM

RS232 RF COMMUNICATION PLC COMMUNICATION

RELAY SWITCH TRAFFIC SENSOR METEOSTATION CAMERA MOTION SENSOR

Third Party Server / System API API Data Analysis SE platform

(powered by ThingsBoard) IoT Master PLC IoT Master RF CELLULAR COMMUNICATION WITH NEMA CONNECTOR

MQTT Protocol ADAC Controller

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

POWER LINE COMMUNICATION Choose Power Line communication for control that is facilitated along the existing power supply infrastructure. This allows all communication to be done without the need for additional control lines or cabling, thus minimising reconstruction

• costs. The solution is ideal

especially for older installations with a limited number of phases. Special modems are located in both luminaires and distribution box.

N 230V PLC N L DA+ DA- N L N 230V PLC

VAR.A PLC MODUL INSIDE LUMINAIRE

MEASUREMENT STANDARD ELECTRIC GEAR ELECTRIC DISTRIBUTION BOX IOT MASTER PLC IOT NODE PLC DRIVER LED MODULE GSM SIREN DOOR SENSOR ADAC CONTROLLER NEMA CONNECTOR IOT NODE PLC IP DRIVER LED MODULE

VAR.C PLC MODUL OUTSIDE LUMINAIRE VAR.B PLC MODUL WITH NEMA CONNECTOR

CONTROL SYSTEM

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

RADIO FREQUENCY COMMUNICATION (RF) With RF communication all control commands between the central control unit and the luminaire are sent using radio

• frequency. This allows minimising

the cost of installation, plus lighting systems can be reconstructed without need for replacement or addition of wiring infrastructures, nor investment in control line cabling. It also means that no fees need to be paid for the transferred data, which further reduces operational costs.

N L

VAR.B RF MODULE WITH NEMA CONNECTOR VAR.A RF MODULE WITH ANTENNA

IOT MASTER RF NEMA CONNECTOR IOT NODE RF DRIVER DRIVER LED MODULE LED MODULE MEASUREMENT STANDARD ELECTRIC GEAR ELECTRIC DISTRIBUTION BOX GSM SIREN DOOR SENSOR ADAC CONTROLLER

CONTROL SYSTEM

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

WIRELESS COMMUNICATION CELLULAR IoT node with cellular technology uses existing infrastructure of mobile operators to transfer data (2G / NB-IoT). Therefore the lighting control is not dependent on components in the cabinet and you can connect individual lamps to the CitySys

• platform. Cellular solution is designed as

complementary to PLC and RF solutions for installations where it is not possible to make changes inside a cabinet or for light points that PLC / RF solution cannot cover.

CONTROL SYSTEM

N L

CELLULAR MODULE WITH NEMA CONNECTOR

DRIVER LED MODULE ADAC CONTROLLER ELECTRIC DISTRIBUTION BOX SIREN DOOR SENSOR NEMA CONNECTOR MEASUREMENT STANDARD ELECTRIC GEAR GSM

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

HARDWARE FOR SMART CITY

ADAC Controller IoT Master PLC / RF IoT Node PLC IP IoT Node PLC/RF/Cellular with NEMA Connector IoT Node PLC / RF Electric Distribution Box

CONTROL SYSTEM

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

CitySysDashboard – how to monitor your city comfortably

CITY OVERVIEW

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

RELAY SWITCH

LUMINAIRE PERIPHERAL DEVICES IoT Node obtains Relay output. You can assign switching profjle to the Relay in CitySys. You have possibility to: switching Christmas lights or switching refmector focused on statue or building facade. GOUPS OF LUMINAIRES You can organize Luminaires into the groups. This feature helps with orientation in the city insight. On the map you can select visualization of Models and fjnally you will see points in assigned color.

CONTROL SYSTEM

MONUMENTS HISTORICAL BUILDING PARKS AND GREEN SPACES FOUNTAINS BRIDGES

Lighting

CHRISTAMS LIGHTS

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

BASIC OVERVIEW OF THE SYSTEM

Basic overview (dashboard)

• f the status of each device

managed by the platform List of electric distribution boxes with current values. Possibility to fjlter and display details Information section with events and failures with a quick look at electricity consumption statistics. KPI of devices in the selected group of switchgears.

Screen Widgets a) The map contains displayed entities:

• EDBs (Electrical Distribution Box)
• Luminaires

b) List of EDB groups containing the columns:

• Group name
• Group colour
• Number of EDBs (text box)
• Number of luminaires (text box)

c) Notifjcation widget “News“ d) Notifjcation widget “Events“ e) Widget “Measurement“ containing the following measured quantities Functionality:

• Adding a virtual device
• Adding a EDB groups
• Maintenance of group - Modal

window with attributes for editing (Group name, Selection of EDB, Group colour)

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

INTERACTIVE MAP

Mapping of luminaires in the form of Groups, Models of Luminaires, Distribution boxes, Virtual Points and their statuses.

An interactive map preview is displayed at all viewing levels. User possibilities through map usage:

• Edit view

(move, zoom in and out of view),

• Switch map type - satellite,

situational,

• Choose which devices will be

displayed,

• Add Virtual Points to the system,
• Mark the devices to see their

details,

• Monitor device status,
• Create device groups

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

OK

Cabinets

NOK Virtual 19 87 43 OK

RVOec

NOK Virtual 35 52 52 OK

Charging Point

NOK Virtual 58 56 87 OK

Luminaires

NOK Virtual 69 14 33 OK

Container

NOK Virtual 72 77 47

WIDGETS

The application allows you to view more information about the city in a clear

• verview and on one screen.

Location: Position - Location of the Smart Field with local time indication (where it is located) Map: Location of Smart Pole Status: Operating Information Alarms: Error and Event Alerts Camera: Camera image from the position Weather: Current Weather information Sockets: Information about electrical

• r USB charging

Text W. Control W. Stauts W. Map W. Numerical W. Image W. Time W.

INDIVIDUALIZATION OF DATA

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

CITY ADMINISTRATION

Views:

• Automatic retrieval of all

luminaire information

• List of all installed luminaires,

their serial numbers, parameters and data

• Lumianire and mast designation

by QR code (easier identifjcation and search of list parameters)

• Targeted repair and maintenance
• ption due to the need for

replacement / repair of specifjc components DEPICTION OF ALL DEVICES AND LUMINAIRES IN THE CITY

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

OVERVIEW OF THE GROUPS OF ELECTRIC DISTRIBUTION BOXES (EDBs)

Screen Widgets List of EDBs containing columns in full screen view:

• Number of EDB
• Name of EDB
• Colour of EDB
• Number of luminaires according

to status

• Power mode
• Number of connected phases
• Number of connected lines
• Door sensor - Digital Input
• The main circuit breaker - Digital

Input

• Monitoring of output circuit breakers
• Recording of the last change

Functionality:

• A detail screen for current luminaire
• Deletion and treatment of luminaire
• Modal window with attributes

for editing

• Data recovery action (global),

refresh button

Overview of EDB Attributes Overview of Luminaires Overview of Electric distribution boxes Measurement Recording and history

Mapping of Electric Distribution Boxes in the form of Groups

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

DETAIL OF SPECIFIC LUMINAIRE

Overview of luminaire parameters Parameters for products are loaded automatically from Platform. Possibility to direct control of luminaire Manual dimming View of the luminaire position Preview of luminaire measurement

Screen Widgets a) Overview of luminaire attributes b) Measurement of the luminaire c) Map d) Notifjcation widget “Faults“ e) Notifjcation widget “Events“ Functionality:

• Manually data refresh
• changing value of the luminaire

Details:

• Error notifjcation to luminaire
• Measured parameters of luminaire
• History of luminaire measurement
• History of luminaire changes

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

DETAIL OF ELECTRIC DISTRIBUTION BOX

METERING - ADDRESS OF SPECIFIC BATTERY System functions:

• Possibility to measure el. parameters
• f 3 main lines (voltage, electric

current, current subscription, cos Fi)

• Possibility of total power monitoring
• Managing all the luminaires

according to a name list

• The possibility of knowing where

the luminaires is located

• The possibility to switch on and off

individual lines through their profjles

• 24 / 7 confjguration to support

Smart City concept and support the use of Lighting as infrastructure for Smart City

GSM ANTÉNA GSM ANTÉNA SIRÉNA MERANIE SPOTREBY EL.ENERGIE MERANIE SPOTREBY EL.ENERGIE ŠTANDARDNÉ ELEKTRICKÉ ZARIADENIA ŠTANDARDNÉ ELEKTRICKÉ ZARIADENIA SIRÉNA DVERNÝ KONTAKT DVERNÝ KONTAKT

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ELECTRIC DISTRIBUTION BOX GROUPS

IOT MASTER PLC IOT MASTER PLC IOT MASTER PLC IOT MASTER PLC ADAC CONTROLLER ADAC CONTROLLER ADAC CONTROLLER ADAC CONTROLLER

The system displays the EDB groups, making it easy to view lighting in all city areas. All lighting management can be controlled under one system. The system offers:

• The ability to read current

consumption of the whole city

• To work with online values
• To make simplifjed and easy

to navigate report of lighting electricity consumption

• Display of selected parameters

(eg total error of the luminaires, number of luminaires, number of EDBs and much more)

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

PROFILES

Screen Widgets a) Profjles of switching and Profjles of luminaires b) Profjle setting window c) Interactive dimming chart Functionality: ASTROHOURS – automatic calculation of the moving edge between switching on and off– sunset, sunrise

• Ability to adjust or change the

light profjle

• Assign profjles to the EDB group
• r to the luminaire
• Creating new profjles, editing,

using or deleting

Managing the switching profile database Switching profiles

• f power supply for luminaires

On the basis of the Astrohours (with shift of active border) Based on the Twilight Sensor (with a specific LUX value setting)

Managing the database

• f dimming profiles

Interactive setting

• f dimming steps

Creating exceptions e.g. step dimming during the year or during Christmas 100%

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

LUMINAIRE PROFILES ADJUSTMENT

Residential area profile Main street profil Sport or culturel event profile Profile of the Park Timeline The intensity level Change of Lighting Level Set an exception in profile

TWILIGHT The dimming profjle of the luminaires serves to adjust the level of illumination

• f the luminaire.

Main advantages:

• Ensuring the right amount
• f light at the right time
• Saving electricity
• Creating groups for

controlling multiple luminaires with different profjles (the main road may have a different profjle set on the main road than on a square

• r in a residential zone)
• Optimizing lighting in towns

and villages

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

SETTING ELECTRIC DISTRIBUTION BOX PROFILES

INDIVIDUAL EDB ADMISSION Each EDB, individual lines in the city may have their own profjle assigned. Profjle setting options:

• Astrophysical lock ( ie astronomical

exit and sunset for a specifjc EDB location that is determined by the exact GPS position)

• Twilight switching (exact

measurement of daylight intensity)

• EDB 24/7 operation, which allows

non-stop powering of luminaires and the use of a power network for connecting sensors, cameras and

• ther Smart technology
• Option to set exceptions

(Christmas, New Year, Service, etc.)

Profile Name Mark on Map Dimming Exception Setting the switching on and

• ff based on the twilight sensor

Daily Profile: 24 / 7 Setting an Exception Set Exceptions in the Profile (Service, Repair, EDB running etc.)

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

MANAGEMENT OF THE WHOLE LOCATIONS

Advantages of IoT luminaire:

• Possibility of integration and connectivity into
• ne system
• Measurement and data collection, information

available online

• Backup data to the cloud (remote repository)
• Analysis and processing of collected data
• Lighting control
• Effective management and maintenance
• The ability to connect other smart devices and sensors
• Availability of information about the luminaire (name, type)
• Exact position of the luminaire and view of the whole city

Benefits of the virtual point:

• Electronic luminary label (name, type, power)
• Accurate position of the light from the gps point of view
• Effjcient management and maintenance

Virtual Point IoT

VIRTUAL POINTS Several cities exchange old lighting for new ones continuously depending on available funds. The advantage

• f the system is the possibility of recording new points

simultaneously with those original. This feature provides cities with unifjed information about all luminaires and their observation on the map of the city.

100% 100% 50% 50% 50% 50% 100% 100% 100% 100% 20% 20% 50% 50% 0% 0%

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

LIGHTING MANAGEMENT SYSTEM SUPPORTED BY ARTIFICIAL INTELLIGENCE

Daylight Harvesting The lighting can be automatically adjusted according to the natural light’s intensity. Crowd based lighting The lighting can be automatically adjusted according to the number

• f people

/ vehicles in a area. Panic based lighting The lighting of the luminaires can be automatically adjusted in case

• f an incident around.

Parking based lighting The lighting can be automatically adjusted as per the parking occupancy

Lighting customizable to a specifjc parameter. The amount of data obtained from different sensors, their processing, evaluation, management and last but not least, problem solving requires complex skills not only for the individual but also for the whole group of people. For this reason, it is important to start thinking about the use

• f artifjcial intelligence that:
• Simplify analysis work
• Eliminates errors
• Quickly and correctly evaluate

the data obtained

• Will control lighting according

to the current situation

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

GUI MODULATION

CitySys uses widgets (mini applications) which give end user a possibility to freely customize their own graphic user interface (GUI). It`s easily done by drag & drop. Widgets bring a loT of simplicity for the user because one widgets can be used as one element in more screens while used by other users. This means that we can use it once and

• ther widgets are "mirage".

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

• Mobile App compatibility with OS Abdroid, iOS
• Modules: Installation, Diagnostic, Service
• Functionality for Lighting Instalationa, Diagnostic, Maintenance
• Easy to use for asset management companies, Intuitive control
• Easy smart devices location, instalation, self testing, monitoring (events and alarms), devices remote control

MOBILE APPLICATION

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

EVENTS – ALERTS – REPORTS

EVENTS For devices and groups of devices Record activity of all users with specifjc time - Check (Surveillance) Impact of user authorisation level ALARMS For devices and groups of devices Recording and archiving of issues and error messages Fault Troubleshooting Management: the

• ccurrence of a disorder, associating the

problem to a specifjc user, Duration of troubleshooting Duration of failure REPORTS Report maintenance- Measurement reports Daily, Weekly, Monthly Download the necessary parameters into the Report Send to email Possibility to download report in XLS format Impact of user authorisation level

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

THE BEST AND MOST RELIABLE WAY TO DRAMATICALLY INCREASE ENERGY EFFICIENCY IS BY DEPLOYING CONNECTED LED LIGHTING WITH SMART LIGHTING CONTROL AND IT COULD REACH 82-85% TODAY.

ENERGY MANAGEMENT

3

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

FEATURES Real Time Asset Analysis Energy Savings Calculations Smart Alarms Schedule Automation Energy KPIs Sub-metering Data Ingestion Setpoint Override

ENERGY MANAGEMENT

Today, in an effort to manage their energy spend, many companies are forced to deal with different controls from muliple vendors across many locations. This can present challenges to companies trying to develop an unifjed approach for smart energy management. CitySys unifjed controls and energy management app, is the answer – providing the tools to transform how cities and enterprises approach multi-site energy management, leveraging big data analytics built on CitySys Intelligent IoT Platform.

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ENERGY MANAGEMENT

Adds visibility into buildings and facilities where centralized energy systems are not economical Delivers 30-35 % reduction in lighting energy usage, emissions and environmental impact, in addition to the 40-45 % savings available with LED Consolidates management of heterogeneous facilities management and automation systems across various locations Improves asset utilization and reduces your overall energy spend with big data analytics

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ENERGY SAVING BY LIGHTING CONTROL

CITYSYS – The system combining a Smart Lighting Control IoT solution with effective and immediately useable Smart City IoT infrastructure – System with high-effjciency LED lighting, guarantees energy savings of up to 82-85% in some projects. To optimize electricity consumption you can use a number of scenarios of public lighting to help defjne the dynamics of linked lighting and to maximize savings in the city.

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ENERGY MANAGEMENT

through a holistic approach to various external systems

CitySys holistic approach to energy management consolidates multiple disparate systems into a single and easy to use software. It’s simple for energy professionals to deploy CitySys energy platform with new controls or integrate them with an existing management system. This allows facility managers, cities, enterprises, .... to oversee thousands of sites across a wide range of profjles from a cloud-based software platform

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ENERGY MANAGEMENT

CENTRAL DASHBOARD REAL-TIME OVERVIEW OF ALL SENSORS – WHAT’S HAPPENING RIGHT NOW

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ADD SENSORS AND CONTROLS - LED FIXTURES USING WIRELESS SENSORS AND CONTROLS WILL NOT ONLY ILLUMINATES SPACES, BUT ALSO BRING VALUABLE INSIGHTS

SENSORS, CAMERAS AND RADARS + OTHER DEVICES / CONTROL SYSTEMS

4

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

Dust, pollen, smog

2

Sensor bracket

Air Quality Weather Monitoring

SENSORS, CAMERAS AND RADARS + OTHER DEVICES / CONTROL SYSTEMS

ADD SENSORS AND CONTROLS - LED FIXTURES USING WIRELESS SENSORS AND CONTROLS WILL NOT ONLY ILLUMINATES SPACES, BUT ALSO BRING VALUABLE INSIGHTS

PARKING DETECTION Sensor Sensor Bracket for SmartPublicPole Lighting Control Sensor CO Alarm DALI Sensor Light and Movement Sensor Dust, Pollen, Smog and CO2 Sensors Camera Traffjc Sensor Meteostation Camera Camera Sensors and Consumption Meters Waste Sensors

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

SmartPublicPole – modern digital solution

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

...HELPS WITH CHALLENGES... SmartPublicPoles (SPP) helps you to integrate:

• EV charging unit to the system
• Security features (SOS button, cameras)
• Sensory units for environmental monitoring
• 5G routers
• Equipment for vehicle autonomy
• Electronic information panels
• Electronic advertising panels
• and to create space for other devices
• f the future

Necessary permanent power supply

• n public lighting poles!

SmartPublicPole – modern digital solution

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

– MAIN OBJECTIVES OF THE ECOSYSTEM – THE PARTNERSHIP MODEL SHOULD BE BASED ON THE FOLLOWING GOALS – CONDITIONS FOR INCORPORATING THE SOLUTION INTO THE PLATFORM ECOSYSTEM – APPLICATION STORE – COLLECTING, CLASSIFICATION AND PUBLISHING SMART CITY IOT SOLUTIONS

ECOSYSTEM, PRODUCTIVITY & REVENUE APPS

5

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

ECOSYSTEM, PRODUCTIVITY & REVENUE APPS

ENHANCED BY PARTNERSHIPS Since we operate on an open platform, the data we collect can be accessed by anyone who wants to partner with us. That means everyone from independent developers to companies can use our data to fuel their software applications. With our ever-expanding partner ecosystem, the possibilities are endless. Successful smart cities function like ecosystems, where many players deploy solutions and applications. MAIN OBJECTIVES OF THE ECOSYSTEM

• 1. To create a functioning ecosystem of smart city solutions by working together with key players in a smart city market based
• n mutually benefjcial partnerships and barrier-free levels of cooperation
• 2. Accelerate development and ensure long-term deployment of solutions with the help of an independent organization
• 3. Interoperability of solutions based on accepted standards, reference architecture and open source implementations.
• 4. Create and shape the emerging market for smart city data and services by providing expert assistance to cities and

municipalities in preparation; implementation and development of solutions at their place of operation through a network

• f local ecosystem partners

CONDITIONS FOR INCORPORATING THE SOLUTION INTO THE PLATFORM ECOSYSTEM

• Option1: An existing solution can be included in the platform catalog if it meets the standards implemented by the orange

components of the reference architecture (see: Compatible Solution Provider (CSV))

• Option2: Certifjed solution using a shared platform infrastructure solution is certifjed if it uses at least the red-marked Core

Context Information component platform Manager in your solution (see Certifjed Solution Provider (CSP)) THE PARTNERSHIP MODEL SHOULD BE BASED ON THE FOLLOWING GOALS:

• 1. low barrier entry and participation in the ecosystem
• 2. possibility to be a partner for existing solutions on the market (they do not have CitySys and do not support it)
• 3. As performance and engagement grow, partner benefjts increase
• 4. Supporting local market leaders with the option of creating an ecosystem under their control

(option to purchase platform, including license and source code)

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

SmartCityPole

ECOSYSTEM, PRODUCTIVITY & REVENUE APPS

SmartPublicPole

TRAFFIC AIR QUALITY PARKING ENERGY URBAN PLANNING WASTE SECURITY EV CHARGING

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

– CITYDASHBOARD – DIGITAL TWIN OF CITY – EASY OPERATIONS – ROBUST SECURITY – FLEXIBLE INTEGRATION – ACTIONABLE DATA – SECURE APIS – COLLABORATION, ORCHESTRATION – FULLY CERTIFIFED

YOUR SMART IOT SOLUTION COMES TO REAL LIFE

6

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

YOUR SMART IOT SOLUTION COMES TO REAL LIFE

The result? Intelligent environments that are as productive as effjcient. ONE CITYDASHBOARD One dashboard for all applications with a common user intarface and experiences across all software CityDashboard – Digital Twin of City CityDashboard – everything in one place is a basic premise and the reason for the existence

CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM

YOUR SMART IOT SOLUTION COMES TO REAL LIFE

EASY OPERATIONS Easy operations and maintinance through remote monitoring, action allerts, KPI´s, diagnostics, predicitive analyses and upgrades ROBUST SECURITY Integrates with your existing IT security policy and management system for robust security FLEXIBLE INTEGRATION Integrates and exchanges commands, events, and data with your enterprise software systems ACTIONABLE DATA Retrieves contextualized data from sensors and other IoT devices connected to the lighting system SECURE APIS Offers open, secure API´s plus a developer sandbox through API Gateway as Interface layer and data exchange Supporting modules over load balancing API COLLABORATION, ORCHESTRATION We prepare for you layer of interdisciplinary scenarios over data and services of third party systems Catalog of data and application interfaces FULLY CERTIFIFED Guaranteed to wrok with any luminaire, lamp, sensor, camera or radar under CitySys certifjcation programs