digital cities challenge...source: (1) forbes (2014), (2) worldpopulationhistory.org (2016), (3)...
TRANSCRIPT
DIGITAL CITIES CHALLENGEVISION, AMBITION, STRATEGY
Raul Bordalo Junqueiro
Head Of Smart Cities and Business Development
Thessaloniki, Greece, 17 & 18 October 2018
WHO WE ARE
Historical milestones
Beginning of activity in the engineering & construction sector Entry into the renewable
energy sector, namely in the wind power energy
Entry into the environment & waters sector
Growth of the various business areas and consolidation of theinternationalization strategy
National leader in the water sector and entry into the telecommunications sector
Entry into the real estate sector
1986
2001
40’s
2005
2008
2011
WHO WE ARE
Historical milestones
Creation of a new business area - Ventures
dstgroup distinguishedas one of the best companies to work by “Exame” magazine
dst considered the best company in the sectorial ranking of the “500 Biggest & Best Companies” by “Exame” magazine
dstgroup and Minho University present the “Chairdst/IB-S in building the future: Automation andModularisation”, pioneeringinitiative to facilitate projectsassociated with the future ofthe sector.
building the future
2bpartner wins the "UP 2015 Awards" as "Investment Firm of the Year" recognizing dstgroup as an important player in venture capital sector
2012
2013
2015
2016
2017
WHO WE ARE
A building culture that builds culture
Vision
To build with art and ingenuity so we can be remembered in history as the "Renaissance“ entrepreneurs of the 21st century.
Mission
To build sustainable business projects that add value to the community.
> 25 countries
where dstgroup has commercial activity
> 70 companiesamong all business areas
> 1400 workersonly on companies majority-owned
WHO WE ARE
+ 860 employees+ 400 projects initiated in 2017
BUSINESS AREAS
National Literature prize, dst, 2017.
From 1995
Emerging dst, 2014. From 2009
Zet Gallery
Theatro Circo, Braga
dst live space at Braga, book fair 2017
300.000 €Invested in social responsability, in 2017
CULTURE AND SOCIAL RESPONSABILITY –GIVING BACK TO CITY
WHAT IS A DIGITAL CITY?Megacities are growing both in number and in relevance
Nota: colocar as fontes
Source: IDC; statista.com;Team analysis.
Number of Megacities. WorldOver 10 million people
20121975 2025E
Estimate◇ The top 600 urban centers generate 60% of global
GDP
◇ Cities use 60% - 80% of the world’s annual energy needs
◇ Lighting alone represents 19% of the world’s total electricity consumption
◇ Cisco estimates that cities that run on information can improve their energy efficiency by 30% within 20 years
◇ 1064 millions connected things within comercial building sector in digital cities
◇ The annual Smarter cities IT market opportunity is expected to be more than $34 Billion
29
21
3
WHAT IS A DIGITAL CITY?Megacities are growing both in number and in relevance
Nota: colocar as fontes
Determinants of the rapid development cities
Urbanization
◇ For the first time in history 50% of the population lives in urban centers (1)
Population growth
◇ Since 2000, world population grew 20% to a total of 7,4 Bn today(2)
Connected devices
◇ It is expected that in 2020 there will more than 34 Bn devices connected to the Internet (3)
Climate change
◇ The 14 warmest years ever been recorded in the last 21 years(4)
Source: (1) Forbes (2014), (2) WorldPopulationHistory.org (2016), (3) Business Insider Intelligence (2015), (4) ClimateCentre.org (2010), (5) Frost and Sullivan (2013); Team analysis.
Vision and objectives of digital cities
Citizenship andWellbeing
EconomicPerformance
Environment andSustainability
WHAT IS A DIGITAL CITY?
All in all several factors justify the development of smartcities business modeling
Source: Team analysis.
Health and safety
Digital city needs New tech possibilities
◇ Digital contents and mobility
◇ IoT and Data analytics
◇ High capacity networks (fixed and mobile i.e: 4G, 5G, LoRA).
◇ Virtualization and cloud services.
◇ Digital tools ( BIM; GIS ; 3D Printing ).
◇ Blockchain
◇ AI
Pressure on urban areas
Sustainability and energy efficiency
Citizenship, productivity, knowledge and entertainment
Mobility and convenience
◇ Increase of population in urban areas.
◇ Increase in energy consumption.
◇ Ageing population.
◇ Criminality and insecurity.
◇ Scarcity of natural resources
◇ Pressure on city infrastructures
Smart infrastructures andSmart Buildings
IoT and Digital Cities
Overview
◇ Cities share ambitions and problems: common solutions must be found to have an effective control of the urban space.
◇ The real time knowledge of the city dynamics requires IoT informationgathered from smart objects with communication capabilities.
◇ Digital Cities can use IoT information to build mesh services for differentdomains opening new markets.
New mind set for Urban Planning an Real State creates pressure and new challenges within a
Digital City ecosystem
◇ IoT transforms infrastructures from physical to digital and new business models must be created;
◇ The digitalization of city spaces, also pushes new business opportunities for city planners
But this comes withchallenges
CHALLENGES IN REAL ESTATE
◇ Digitalization makes the real estate and construction markets working on the same challenges and opportunities
◇ Ambient and Well being ( new standards for the physical environment )
◇ Co-Working and Smart Buildings ( IoT and tech enabled working spaces )
◇ Transforming Real Estate Operations on the Public sector
◇ Embrace the Fintechs and follow blockchain process
◇ Data Driven society is also build by a Data Driven Digital city
◇ New Business Opportunities for the Digital City –attract businesses, investors and people
CHALLENGES IN URBAN PLANNING
◇ The Urban Reabilitation Opportunity ( new policies for IoT, smart materials and sustainable housing –Funding available )
◇ The need for a Urban Planning Platform ( engage digital city planners with different stakeholders, from local to central government and departments and private entities – share data!
◇ Push digital tools for future public tendering ( BIM , 3D printing, Off-site assembling, GIS , data analytics)
◇ Understand the ICT companies tech offer for the digital city for a new holistic view of the Digital City
PRIVATE AND PUBLIC SECTOR ACTIONS
Public
◇ Build Public - Private partnerships early when planning Urban Development Strategies
◇ Bet on circular and sharing economy
◇ Create new regulatory and legal framework for the Digital Cities
Private
◇ Build a Public – Private partnership for the long road with a roadmap that withstands tough times
◇ Engage with citizens for digital city service design
◇ Develop sustainable and realistic projets
◇ Build mutual trust
◇ Embrace citizen engagement
◇ Leverage technology
WHAT IS dstgroup DOING ABOUT IT?
COMMUNICATION
PEOPLE
Engeneering &
Innovation
Building culture for smarter cities and
communities
WE CREATE A DIGITAL CITY PROJECT - MOSAIC
M4 DIGITAL SERVICESPARTICIPATORY BUDGETING
DISTANCE QUEUE
MUNICIPAL PORTAL
APP OF THE MUNICIPALITY
ASSOCIATIVISM PORTAL
M4 EDUCATIONSCHOOL INTEGRATED MANAGEMENT
M4 SECURITYCCTV
M4 SMART BUILDINGSURBAN UTILITY
M4 TOURISM / CULTURECITY GUIDE
M4 E-BUSINESSE-COMMERCE & MARKETPLACE
M4 STARTUPS & ENTREPREURSHIPMENTORING & COACHING
M4 i4.0EXPLOSIVE TRACKING
QUALITY CONTROL
M4 AGRICULTUREWISE FARMER
M4 URBAN INTELLIGENCENOC
MOSAIC DASHBOARD
INFRASTRUCTURE MANAGEMENT
SOLAR POTENTIAL
REAL STATE
PEOPLE COUNTING
VEHICLE COUNTING
WIFI-SCAN
M4 ENVIRONMENTAIR QUALITY
SOUND INTENSITY
UV RADIATION
M4 WASTEVOLUMETRIC SENSORS
ROUTING OPTIMIZATION
ECO-DRIVE
M4 MOBILITYSMART PARKING
BIKESHARING
CARSHARING
EV CHARGING POINTS
MOBILE CHARGING
M4 ENERGYEMPOWER
POWER TRACKER
POWER ADVISER
SMART STREET LIGHTNING
M4 WATERRIVER MONITOR
QUALITY OF SEA WATER
WATER TELEMETRY
SMART WATER SPRINKLES
COASTAL EROSION
PEOPLESUSTAINABILITY TERRITORY ART
M4 CULTUREPROGRAM CULTURE
TRANSFORM WITH ART
ASSESS AND VALUATE
PUSHING BIM AND NEW CONSTRUCTION MANUFACTURINGSHAIR DST-IBS/ Minho University , Bridging Industry 4.0 and Smart Buildings
◇ Advanced Materials
◇ Advanced Manufacturing Processes
◇ Integration of design, production and assembly
Main Research Lines
Action TopicsBUILDING INFORMATIONMODELLING
OFF-SITE COMPONENT BASED ASSEMBLY
3D PRINTING
◇ Additive Manufacturing Techniques (3D Printing)
◇ Adaptive and self-reactive systems (4D printing) and advanced materials for 3 and 4D printing, as well as to increase the efficiency of buildings
◇ Sensing and cyber-physical systems (IoT, sensors to equip multifunctional materials, power generation, etc.)
◇ BIM digital design and construction
◇ Energy efficiency of buildings
PUSHING BIM AND NEW CONSTRUCTION MANUFACTURINGBIM – BUILDING INFORMATION MODELING
◇ “If a picture is worth a thousand words, a model is worth more than a thousand pictures. "(Edward McCracken)
◇ BIM is a methodology for sharing information and communication between all stakeholders and during all phases of the life cycle of a construction that is based on a digital model, accessible by software which allows the virtual manipulation of the same construction.
◇ Buildings have always been part of the cities and territories and now digitized and sensitized, it becomes another infrastructure serving the territories and their citizens
Internal Objectives
QUANTITY ACCOUNTING
SIMULATION OPTIMIZATION
PUSHING BIM AND NEW CONSTRUCTION MANUFACTURING
BIM
Lyon airport
MAAT, Lisbon
Trinity, La defense, Paris
In operation and maintenance
◇ Improvements in the process of designing and delivering information to facilities maintenance companies;
◇ Better management of plant maintenance;
◇ Integration between the maintenance of the installations and the management systems;
◇ Best Cost and Control Planning;
◇ Buildings as-a-service..
Queen Mary University, London
PUSHING BIM AND URBAN PLANNING
BIM and urban planning
The BIM models assume a fundamental part of the digital city idea / platform, digitally materializing the existing buildings in a city. Given the aggregate information itself, it becomes useful for public entities for the following issues:
1. Submission of projects to the Municipality / Government
◇ Submission through the models, guaranteeing to the chambers / government, digital models of the projects;
◇ Execution of automatic licensing processes;
◇ Easy analysis of: structural solutions; architecture; calculation of IMI areas; type of building use;
◇ Public and private buildings with sensors that transmit information to BIM models
◇ Analysis of the occupation of spaces;
◇ Maintenance plans that guarantee the correct operation of the spaces without disturbing the users.
2. Sensing: Information Transmission
◇ Clearance of the number of houses inhabited and / or uninhabited, in need of works;
◇ Degree of acoustic and thermal quality.
◇ Analysis of CO2 production, insurance, taxes (eg IMI)
3. Statistics
SUSTAINABLE HOUSING
TTTOWER PROJECT
◇ Industrialized and multifunctional project of sustainable architecture;
◇ Modularity and urban evolution, Environmental integration and tourist mobility;
◇ Natural lighting and energy potential, through active and passive solar systems;
◇ Its physical and interior space dimension is optimized using the prevalence of a harmonious and integrated relationship with the external environment.
Concept
◇ Constructive approach to nature and its renewable resources;
◇ It creates new horizons in the application of sustainable solutions;
◇ Reduced constructive impact and reuse policy;
◇ Environmental and energy commitment;
◇ Solar systems and natural lighting;
◇ Optimization of construction processes;
◇ Align historical value and technological image.
Sustainability
SUSTAINABLE HOUSING
TTTOWER
◇ Et3 Energetic modular technology is a bioclimatic building system.
◇ Partnership dst, s.a. and University of Minho, combining research and business strategy.
◇ Innovative structural combination of wood-glass (energetic, functional and aesthetic).
◇ Innovative construction technologies, whether in new buildings or rehabilitation.
◇ The system materializes through a modular polyvalent panel, usable as slab or as resistant wall.
◇ Passive solar systems, active solar systems and bioclimatic functions.
Technology
DESIGNING A VEHICLE FOR URBAN MANAGEMENT
Urban Utility
The smartcities have a set of infrastructures, which with digitization and IoT have become the so-called digital smart grids, as today are the use cases, energy, mobility, water and environment. The mosaic sees the built as a living infrastructure of cities, plus a digital grid, capable of contributing to the intelligent management of cities.
_Smart buildings: Area of intervention that through different types of IoT devices in buildings, new materials, energy self-consumption systems and the use of new management tools and building register, intends to digitalize the building in a grid of urban building management with impact in the area of energy, environment and real estate.
_Urban utility: Audit and management of a set of services and grids of producers / consumers / energy suppliers in the city. Through a set of rules, protocols and analysis of different sources of information, this entity will present the best strategies based on supply and demand, for production, supply and energy consumption for smart city, making the city more efficient and always benefiting its citizens.
_ Production of photovoltaic energy;_Consumidor-producer;_Consumption desaggregation;_Energy efficiency;_New materials;_ Building Life Cycle Management (BIM: Building Information Modeling);_ Urban Rehabilitation and New Real Estate;_ Urban Planning Management.
_ Energy audit services;_ Storage management and energy production;_Definition of consumption strategies and energy supply;_ Optimization of energy contracts;_Diminution of the energetic invoice of the cities;_Energy economy;_Entity that allows the exploration of new smart solutions for the city.
Benefits smart building Benefits urban utility
Strategies
Municipality
FacilityManagers
Public Lightning
EVPower Suppliers
Waste
Water
OtherStakeholders
IOT/ Data Processing
URBAN PLANNING, REAL ESTATE AND FACILITY MANAGEMENT
URBAN UTILITY USE CASE ◇ Projects developed using the BIM methodology, allow to quantify more accurately the environmental cost that the building represents, derived from the constructive solutions adopted for its construction
◇ Automatic licensing processes: through the digital model of the project, it is possible to more quickly analyze if “it fits the area” in which it is intended to be built;
◇ From a high degree of maturity of point i), it will be possible to extract, from the global model of the city (a model constituted by the BIM models of the building and public and private infrastructure), instantaneously numerous information: material used in construction building typology: state of the building (period of renovation); building uses; equipment in the building;
◇ Assistance in the execution of municipal planning plans: through the digital model of the city, specific needs can be assessed for a given area (eg: in a high-density residential area, to promote commercial spaces to support residents or leisure areas to increase their comfort);
◇ The existence of buildings digital models , infrastructures and public equipment: allows to define plans of maintenance from which it is possible to obtain important optimizations of costs, as well as adequacy of the spaces and / or equipment to the needs of the citizens.
◇ Building life cycle and Building-as-a-service;
◇ As an example, in the city of Singapore, the licensing process already occurs through the submission of BIM models, making it practically automatic.
ENERGY DISTRIBUTION SUPPORT SYSTEM
Urban Utility Use case
◇ Obtaining the profile of energy consumption (estimated from a set of questions or through data of smart meters);
◇ Obtainment of estimated solar potential through LIDAR (or other) data or satellite image analysis;
◇ Obtainment of existing contracted capacity;
◇ Obtain the optimum design of a solar photovoltaic solution for each specific customer;
◇ Obtainment of Solar Charter for the Municipality;
◇ Integration of data of the API for the "Urban Utility" and possibility of management of infrastructure of distribution of energy by the Municipality.
◇ Estimated Solar Potencial
◇ Existing contracted capacity
◇ Consumption flows
◇ Consumption forecast
IOT OPEN NETWORKS AND DIGITAL CITY LAB
IoT Open Networks and Exploitation Models
◇ Implementing IoT networks for experimentation using LPWA – LoRA WAN
◇ Environmental GRID
◇ DATA from buildings ( energy efficiency, solar production, solar production potential, installed production , CO2, etc)
◇ OPEN DATA for startups
◇ Urban Utility as a vehicule for testing technological platforms, integration models, digital tools and digital services - Living Lab
◇ Urban Utility as a exploitation model tester for new business models coming from the Living Lab
THANK YOU
"Great stories are written with values in
the hearts of men"
Rua de Pitancinhos
Apartado 208 Palmeira
4711-911 Braga Portugal
t +351 253 610 007
f +351 253 307 249
dstsgps.com