Smart Buildings: A Foundation for Safe, Healthy & Resilient Cities
Supercluster	Buildings
Authors	Limor Schafman, Jiri Skopek, Yuri Gawdiak
Contact	Limor Schafman
Blueprint PDF	Smart Buildings: A Foundation for Safe, Healthy & Resilient Cities
Chapters	Smart Buildings for Smart Cities Introduction Communications

Objectives

The Smart Buildings Supercluster (SBSC) convenes public, private, and academic organizations to collaborate in the development and interrelationship of smart buildings within the smart city context. All SBSC group members and contributors to this Blueprint are volunteers, sharing their expertise in smart buildings, Internet of Things technologies and use cases, architecture, engineering, communications, building management systems, municipal systems management, mobility, data management and security, sustainability, optimal productivity and wellness approaches and technologies. We thank them for their contribution.

The SBSC Blueprint aims to inform smart city stakeholders (municipalities, developers, integrators, property owners, and managers) about the design of smart buildings within the broader framework of the smart city. This Blueprint is meant for municipalities of all sizes from small township to metropolis, each making use of the document in a way that best suits them. As such, the terms of “city” and “municipality” will be used interchangeably to support this intention. Further, the Blueprint describes the smart building ecosystem and explores how smart buildings can be deployed in support of smart city objectives to:

• Provide a sustainable, resilient, safe, robust and thriving community for its citizens, and public and private constituents;
• Accelerate the deployment of smart city, Internet of Things enabled, connected infrastructure;
• Infuse robust and adaptive features into the smart city infrastructure through integrated smart building designs;
• Provide a roadmap to sustainable advantage and ROI for communities that adopt this approach;
• Enable the development and deployment of broader municipal smart applications; and
• Support municipal and regional economic development and growth.

The Blueprint further explores smart buildings as the building blocks of smart cities, attracting corporations, vertical markets, job seekers and entrepreneurs, who will bring their business and their homes to a municipality, and contribute to a region’s success while enjoying happiness, health, wellness and local prosperity. [See ROI Chapter 2.]

Because this is a living document, the SBSC invites readers to return to this section to find updates. SBSC members are also available for discussion, brainstorming, collaboration on topics readers would like to see further explored.

Introduction

The built environment is where billions of people around the world live, work and play. On average people in the developed world spend eighty to ninety percent of their lives inside buildings. ^[1] The built environment also frames our lives. When we step outside — whether in a metropolis, an urban core, a suburb or a rural town — our spaces, including commercial areas and parks, are defined by the built environment.

As with many aspects of our lives, the built environment is becoming digitized — interpreted and managed using a language 0s and 1s through sensors that capture and analyze this data. Smart sensors capture both interior and exterior data on building energy performance, air quality, lighting and temperature, mobility, asset locations, and space usage, to name a few.

Along with increased digitization, building architectures are expanding their sphere of impact and scope through rethinking the construction model and moving toward reconfigurable components with deep embedding of Internet of Things capabilities. This impacts buildings both internally and externally by creating adaptive spaces that meet dynamic needs for all aspects of life - work, leisure and local and national emergencies. This new concept is called Space as a Service.^[2]

Defining the Smart Building

The data of digitization flows like lifeblood into systems, thereby enabling these systems, platforms and applications to interact and adapt with one another. In a smart building, this data flow can: support the optimized operations of a building; connect the desires of an occupant with building capabilities to provide a personalized, reconfigurable environment; optimize energy usage or enable energy to flow from one building to another through a microgrid system; provide visibility into occupant location, tracking; and other functions.

In addition, digitized data brings to life building information models (BIM) used in construction and “digital twins” (digitized reflections of real-world objects). Digital twins can now be applied to buildings. These high-fidelity building digital twin models present data collected from complex disparate systems which support a building. Two and three-dimensional interfaces and dashboards present the data to show system activity, enabling in-depth review of current status and predictive analysis. Digital twins allow for simulations and “what if” analyses to see optimal approaches for future operations and/or upgrades and augmentations. They are also increasingly being used during architectural design and development, construction, day-to-day operations and maintenance both for individual buildings and across property portfolios. Digital twins are also being used to design, develop and operationalize new city developments for buildings, parks and transportation and related infrastructure (E.g., India, Singapore).

Building as a Service/Space as a Service (Source TIA)

To maximize the opportunity smart building’s offer, it is important to set a foundation of understanding by defining what is a smart building. To that end, the smart building definition and model adopted by the SBSC as a guideline was developed by the Telecommunications Industry Associations (TIA’s) Smart Buildings Program. It defines a smart building as one which “interoperates and integrates systems, technologies and infrastructure to optimize building performance and occupant experience.” This creates the building which integrates and interoperates across fundamental building systems, communications infrastructure, power and energy infrastructure, through the use of data and autonomous, intelligent processing to provide any number of valued services to building owners, operators, occupants and visitors. Further, this smart, integrated system-of-systems built environment serves the needs of these stakeholders in real-time, providing the experience (contextualized data) when, where and how they want it. Now occupants and property owners can make informed decisions of what they want to do in and with that property. Through smart buildings systems and technologies, the property asset now becomes a platform that offers services – it enters the domain of Building as a Service, and Space as a Service #Figure: Building as a Service/Space as a Service.

Smart Buildings Integrating into a Smart City

Smart buildings are integral to the creation of smart cities. They are a fundamental building block of the municipal fabric. They are the connective tissue, linking a municipality and its citizenry by fostering human interaction and by supporting IoT rich environments.

The same conceptual model of the Building as a Service and Space as a Service fits the broader municipal environment of the city or town. Just as today’s architectural and interior design objectives are increasingly forging environments that support and care for the well-being and productivity of their occupants and operators within a building, so too are designers of municipalities and open spaces shifting to see city space as fitting the Space as a Service, or shall we say, the Municipality as a Space model. This shift in intellectual and architectural frameworks, opens new ways to care for a municipality’s citizens and businesses, and invites new economic development opportunities increasing the quality of life for all connected to that given space.

When a town or city begins to see an increase in the number of smart buildings, it has the opportunity to start integrating them into the larger municipal infrastructure of systems and services. This scalable, bottom-up approach results in a mesh network of resources not available before and the emergence of a holistic smart city.

The Smart City as a Mesh Network

A way to visualize a smart city is as a distributed, open mesh network of connected smart buildings. A biophilic analogy is the mycorrhizal network (<xr id="fig:MycorrhizalNetworks"/>) created by roots and fungi that connect individual trees and plants and support the transfer of water, carbon, nitrogen, and other nutrients and minerals among them in a mutually supportive way.

Mycorrhizal Network

Similarly, applying biomimicry and leveraging nature’s millions of years of design evolution, an integrated mesh network across buildings allows them individually and, on the city/community level, to generate and take advantage of combined infrastructure and meta behaviors #Figure: Mycorrhizal Network.

Biomimicry and Combined Underlying Infrastructure

These new capabilities enable synergistic efficiencies and enhanced resiliency of the city. Some of these capabilities include, but are not limited to:

• Communications Infrastructure: Expanded communications across the municipality, supporting equal access to all citizens and businesses
• Infrastructure Systems
  • Power Management: Optimizing local power generating & demand loading; microgrids
  • Public Safety: Advanced warning of various disruptions and events such as flooding, cyber-attacks, civil unrest and enabling autonomous preventative action
  • Water Management: Monitoring clean water delivery; protecting against bad actors
• Quality of Life and Civic Engagement: Reconfiguration of building facades and mobile structures to form customized local social spaces for a range of events from entertainment and leisure
• Mobility and Traffic Management: Optimizing ‘last-mile traffic’ flow, anticipating bottlenecks and supporting rerouting and time sequencing of arrivals and deliveries; supporting autonomous vehicles

Resilience and Municipality as a Service

At the time of this writing, the Covid19 Pandemic is in our midst on a global level. Other events taking place around the globe, including other natural and human-made situations, are challenging processes, resources, systems and infrastructure. Resilience is the watchword for humanity, for businesses and for the localities in which they reside.

Municipalities are faced with challenges of how to support businesses and people within their environs, ensure that they stay safe, secure, and have the resources to continue forward, rebuild and redefine their lives in a possibly new context. Given the digitized built environment and evolving adaptive design approaches described above, municipalities are challenged to evolve as well. Their challenge is to develop principals, policies, regulations and processes that give room for adjustable support and recovery to sustain municipal operations and those of local business under a myriad of conditions.

Citizens and businesses expect municipalities to offer not only a means to survive, but to support a continued thriving, economically and in wellness, even through ever-dynamic situations that affect the city-scape. The experience that people want in the built environment (which includes green space) is quickly evolving to include health, wellness, happiness, affordability, equity, access, caring, opportunity, productivity and more. To meet these expectations of services coupled with flexibility in a connected environment, municipalities are challenged to adopt the new model of Municipality as a Service.

Adopting the Municipality as a Service construct is best accomplished through a multi-phased approach which supports the general objectives of the municipality, and which is affordable. To begin the process priorities are recommended. The SBSC proposes the following:

• First: Stabilize and jumpstart economic processes in a quick, efficient manner (avoid adding financial burden which would dampen desired social and economic recoveries);
• Second: Provide safety, and security of all citizenry and property in an equitable process; and
• Third: Design and develop the smart built environment in a manner that supports flexible space, reconfiguration and adjustment to changing needs and resources^[3].

• Flexible and Adaptable – Space, function, system – Each needs to be designed to be as fluid and reconfigurable as possible to meet changing requirements and available resources (i.e., the anticipated increased shift to distributed workforce);
• Accessible – Supporting equal, unbiased access to all citizens;
• Safe and Secure – That all aspects of engagement with the municipality and in the built environment is safe and cyber-physically secure;
• Healthy, Well and Happy – Increasingly design of the built environment includes support of health and wellness of works and citizens. To this the Blueprint adds “happiness,” however that is interpreted^[4];
• Sustainability Concepts of Net zero/carbon neutral/etc. – Municipal systems be integrated with the built environment through meshed systems to enable achievement of municipal goals;
• Built for Green - laterials used, resource management, in support of the circular economy; and
• Healthful Construction – That all aspects of the construction process from worker health through construction processes and materials used, maximize health, sustainability and operational efficiency^[4].

It is important to note that policies and regulations may need to change or new ones implemented to both support and incentivize adoption of proprieties and principles a municipality ultimately adopts.

Structure of the Smart Buildings Blueprint

This Blueprint is designed to introduce municipalities and all who are involved in the design, development, build, transformation, and maintenance of a built environment to the issues and concepts surrounding smart cities at this time. The intention is for this material to assist in municipal and citizen leadership to make informed decisions to implement and realize these their vision for their city.

It is the further intention to share information about “smart” technologies, systems and processes and how to make use of them to create the most favorable living environment for a municipality’s citizens.

This Blueprint takes the mesh structure shown above as a framework to expand on the particular aspects through a series of chapters:

Chapter 1: When contemplating the Municipality as a Service concept, there is the overarching value query of whether and what is the Benefit, Value and Return on Investment (ROI) Considerations for creating this intermeshed ecosystem of the built environment. The Blueprint begins by addressing what purpose smart cities and smart buildings serve toward a municipality achieving its target city and civic outcomes, and why a smart city should consider the smart building as part of its infrastructure.

Chapter 2: Quality of Life in the built environment comprises of both Organizational and Individual Productivity and Wellness. Smart, Internet of Things (IoT) technologies can both support efficacies in productivity and the capturing of metric data to measure the impact of changes in environment, behavior and physical well-being. This section offers an in-depth review of current approaches to implementing organizational and wellness optimization.

Chapter 3: The means to realize the ROI on an individual building level and across a municipal mesh is through Next Generation Building Operations. This section defines what smart building operations means and how it is implemented in today’s digitized environment.

Chapter 4: Increased connectivity through IoT and sophisticated communications infrastructure broadens the cyber threat landscape. Cybersecurity is important on every level of the smart municipality and across all infrastructure in the built environment. This section offers concepts and approaches to maximizing protection and building resiliency into systems should a breach occur. In addition, a Cybersecurity and Privacy Risk Management Preparation Questionnaire and Handbook based on the NIST Cybersecurity Risk Management Framework is added as an Appendix to the Blueprint to assist and guide a review of cybersecurity and privacy policies and actions taken by property owners and managers.

Chapter 5: Communications is the connective tissue which enables “smart” to take place. Next generation communications technologies are evolving in terms of choices, capabilities, and sophistication. A municipality’s approach to communications infrastructure has implications for its resilience, growth, satisfaction of businesses and happiness of its citizenry. Public and privately owned buildings have an important role to play in communications infrastructure deployment. This section offers a comprehensive overview of communications network infrastructure available today.

Chapter 6: This chapter on Interfacing with City Services and Utilities expands on communications infrastructure as the Fourth Utility. It reflects on how smart buildings, as an integrated part of the fabric of the smart city, play a role in a number of specific situations which municipalities face. The specific areas of focus include smart city services, and energy management and services.

Chapter 7: The past several years has shown an explosion in new types of mobility and choices will only continue to grow as automation, new flight technologies, and edge compute capabilities become established. This section reviews how the built environment will be required to change in design to adapt and take best advantage of upcoming new mobility paradigms.

Appendix: Cybersecurity and Privacy Risk Management Preparation Questionnaire and Handbook

Next Step…Read on

This first publication of the Smart Buildings Blueprint, discusses each of these topics as introductions to philosophies, approaches, and developments in the smart, built environment. As this newly burgeoning segment of the real estate industry grows, and technology and its uses increase in sophistication, the Smart Buildings Blueprint will continue to evolve.Test

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