INTRODUCTION 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. for Cities & Municipalities for for Factory & Industry Shop & Retail for for Your IoT System Hospitals & Healthcare Offjces 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 1 – 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 CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
REFERENCE TECHNICAL IOT ARCHITECTURE • integrated application data and service Collaboration, Orchestration • interdisciplinary scenarios over data and 6 management module layer of interdisciplinary scenarios services of third party systems • comprehensive data management and • catalog of data and application interfaces and data management application services • support modules over load balancing • interface optimization 5 API (GW) API Gateway • interface access control • gateway for application services and interface layer and data exchange • manage and provide data interfaces data (GW API) and application services • identity & access mng module • UI interfaces and applications • system services and user interfaces • analytics, machine learning 4 Business Cloud • data management and extraction and artificial intelligence business application layer • managing digital twin objects and services • domain logic, behavior and processes domains • managing and managing domain devices • „Ad-hoc“ analysis module and rule system • control the flow of data and commands Technical (IoT) Cloud • control the flow of data and commands 3 in the system IoT data and device • data processing and storage • „Immediate“ analysts and responses • management and management • data processing and storage („raw“) processing layer • management of physical devices of physical devices 2 • network management and equipment • management of network equipment Connectivity • network server and its network server API and communications data transfer layer • Base Network Stations (BTS) • receiving and sending messages • data collection and field management • concentrators and gates 1 Edge • local device communication • local network of devices / concentrator layer of physical devices • measurement of quantities and reaction • sensors and actuators in space CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
PLATFORM LAYERS REFLECTING USER TYPES Platform Layers reflecting User Types BUSINESS-DRIVEN ARCHITECTURE business-drive architecture designed for state administration to control in a defined region/city/... designed for state administration to Dashboards Operation KPI ... control in a defjned region/city/... Dashboard e.g. region control room team responsible for by OMS by ... e.g. region control room team responsible for by OMS operative control of the city and contract operative control of the city and contract performance performance Segment Modules Lighting Security designed for service operators to operate designed for service operators to operate by OMS by ... of a specific segment in a defined of a specifjc segment in a defjned region/city/... region/city/... e.g. organization responsible for Lighting e.g. organization responsible for Lighting in in the city Traffic ... the city of Moscow by OMS by ... Innovation, Flexibility, Professionalism, Collaboration, Credibility CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
ONE PLATFORM MANY DIFFERENT CUSTOMERS/CONTENTS One platform many different customers/content One platform many different customers/content CUSTOMIZABILITY customizability customizability Innovation, Flexibility, Professionalism, Collaboration, Credibility Innovation, Flexibility, Professionalism, Collaboration, Credibility CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
Build one use everywhere BUILD ONE USE EVERYWHERE expandability EXPANDABILITY possibility of multiple use of the module / integration for various deployments Possibility of multiple applications of the module / integration for various deployments • Partner integration partner integration ● • By deploying the module from ecosystem by deploying the module from ecosystem ● integration to Sensoneo (Nitra, Senica, ...) Innovation, Flexibility, Professionalism, Collaboration, Credibility 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
SMART LIGHTING / LIGHTING AS AN INFRASTRUCTURE 2 – WHY VIA LIGHTING? – LIGHTING GRID AS COMMUNICATION BUS – LIGHTING CONTROL SYSTEM CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
SMART LIGHTING / LIGHTING AS AN INFRASTRUCTURE 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 one 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. WHY VIA LIGHTING? Lighting Distribution Savings Saving Funds Power reserve Extended functionality Lights are found in all They are evenly distributed Replacing them with LED luminaries brings For further city development Utilization of the originally designed when using a scalable system with important parts of the city (uniformity) savings and, in turn, the municipality capacity of the electrical network even smart luminaries at a reduced consumption Ideal Position Anti-vandalism Better Communication Ideal location No reconstruction Constant Power Supply Lights are ideally Luminaire installation Better conditions for the propagation Ideal location for installing There is no need to build a new electricity A constant power supply distributed in spaces height protects them of RF communication cameras and sensors grid, it is possible to use the power forms the basis for most sensors from vandalism network of the lighting system and devices in the Smart City CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
LIGHTING AS NETWORK AND INFRASTRUCTURE LIGHTING AS • infrastructure for connectivity and edge computing • core IoT platform for SmartCity modules SMART CITIES solutions because via lighting: UNIFORMLY located network in the city ECONOMICAL financing through energy saving BOX SMART network by lighting replacement 230V BOX CONSTANT voltage available at 230V SUITABLE positioning at heights SIMPLE administration and maintenance CONNECTING DIGITIZING CREATING OPEN COLLABORATIVE AND SUSTAINABLE ECOSYSTEM
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