Smart Cities

Smart-City-in-a-BoxSmart cities use data and technology to create efficiencies, improve sustainability,
create economic development, and enhance quality of life factors for people living and
working in the city. It also means that the city has a smarter energy infrastructure.

(Source: https://en.m.wikipedia.org/wiki/Smart_city)

  • Emerging trends such as automation, machine learning and the internet of things
    (IoT) are driving smart city adoption.
  • Smart transit companies are able to coordinate services and fulfill riders' needs in real time, improving efficiency and rider satisfaction. Ride-sharing and bike-sharing are also common services in a smart city.
  • Energy conservation and efficiency are major focuses of smart cities. Using smart sensors, smart streetlights dim when there aren't cars or pedestrians on
    the roadways. Smart grid technology can be used to improve operations, maintenance and planning, and to supply power on demand and monitor energy
    outages.
  • Using sensors to measure water parameters and guarantee the quality of
    drinking water at the front end of the system, with proper wastewater removal
    and drainage at the back end.
  • Smart city technology is increasingly being used to improve public safety, from
    monitoring areas of high crime to improving emergency preparedness with sensors. For example, smart sensors can be critical components of an early warning system before droughts, floods, landslides or hurricanes.
  • Smart buildings are also often part of a smart city project. Legacy infrastructure can be retrofitted and new buildings constructed with sensors to not only provide real-time space management and ensure public safety, but also to monitor the structural health of buildings.
    Singapore Financial District skyline at dusk.
  • Smart technology will help cities sustain growth and improve efficiency for citizen
    welfare and government efficiency in urban areas in the years to come.
    Water meters and manhole covers are just a couple of the other city components
    monitored by smart sensors. Free and/or publicly available Wi-Fi is another perk smart cities often include.
  • San Diego installed 3,200 smart sensors in early 2017 to optimize traffic and parking
    and enhance public safety, environmental awareness and overall livability for its
    residents. Solar-to-electric charging stations are available to empower electric vehicle use, and connected cameras help monitor traffic and pinpoint crime.
  • Often considered the gold standard of smart cities, the city-state of Singapore uses
    sensors and IoT-enabled cameras to monitor the cleanliness of public spaces, crowd
    density and the movement of locally registered vehicles. Its smart technologies help
    companies and residents monitor energy use, waste production and water use in real time. Singapore is also testing autonomous vehicles, including full-size robotic buses, as well as an elderly monitoring system to ensure the health and well-being of its senior citizens.
  • In Dubai, United Arab Emirates, smart city technology is used for traffic routing, parking, infrastructure planning and transportation. The city also uses telemedicine and smart healthcare, as well as smart buildings, smart utilities, smart education and smart tourism.
    Smart City Barcelona Spain
  • The Barcelona, Spain, smart transportation system and smart bus systems are complemented by smart bus stops that provide free Wi-Fi, USB charging stations and bus schedule updates for riders. A bike-sharing program and smart parking app that includes online payment options are also available. The city also uses sensors to monitor temperature, pollution and noise, as well as monitor humidity and rain levels.

(Sources: https://internetofthingsagenda.techtarget.com/definition/smart-city and https://www.engadget.com/2016/11/03/singapore-smart-nation-smart-city/)

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


SHOULD I HIRE AN AIA ARCHITECT FOR MY BUILDING PROJECT?

Ask the Architect


by Frank Cunha III

What do Architects do? And how can they help me and my business?

Few people realize how complicated it is to build-that is until they find themselves lost in a maze of design options, building codes, zoning laws, contractors and so on. No two building projects are exactly alike, so there is no single clear-cut path to follow. Whether you’re about to expand your current facility, adapt an existing structure to a new use, or construct an entirely new building, your building project represents a major investment that will affect the productivity and efficiency of your organization for years. Smart decision-makers know that the way to maximize such an investment begins with consulting an architect. Architects are the only professionals who have the education, training, experience and vision to maximize your construction dollar and ease the entire design and construction process.

American Institute of Architects

The American Institute of Architects

Why an AIA Architect?

Look for the AIA initials after the name of any architect you consider for your project. AIA architects remain current with professional standards through continuing education and subscribe to a Code of Ethics and Professional Conduct that assure clients, the public, and colleagues of their dedication to high standards in professional practice.

Involving an AIA architect at the earliest stage in project planning can allow for a better opportunity to analyze your needs, develop effective solutions, and propose more ways to reduce costs from the beginning. With a broad understanding of design and construction, an AIA architect can help guide you through the entire process more smoothly.

How Can an AIA Architects Help Me?

  1. Clarify and define your building needs.
  2. Look ahead.
  3. Manage your project.
  4. Maximize your investment.
  5. See the big picture.
  6. Solve problems.
  7. The Architect can save you money.

“The Architect can make your life easier.”

3-D Modeling

3-D Modeling    Image: Design DCA

Why Are the Architect’s design services a wise investment for the money, not just an added cost to my project?

  1. A well-conceived project can be built more efficiently and economically.
  2. An energy efficient buildings can save you money on fuel bills down the road.
  3. The architect can work with your budget and help you select the appropriate materials and workmanship at a fair price.
  4. An architect can help you choose materials and finishes that are durable as well as beautiful, saving on frequent maintenance and replacement costs.
  5. Living or Working in a space that meets your needs and is well designed will make you ( and/or your family, tenants, employees, customers) happy.
  6. Great design sells.
  7. Finally, The Architect can make your life easier.

Important Links:

We would love to hear from you on what you think about this post.  We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,

Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
web: http://fc3arch.com
Licensed in NJ, NY, PA, DE, CT.


The Architect’s Role in Sustainable Design (and How to Use Technology & Innovation to Advance Our Green Agenda) #ilmaBlog #green #design #architecture

Background

In the design and construction field, there are two major categories of resources: renewable and non-renewable. As opposed to non-renewable resources, which are depleted with their constant use, renewable resources are not. If not managed properly Non-renewable resources might become non-existent when the rate at which they are used is much higher than the rate at which they are replaced. Renewable resources include water, geothermal energy and wind energy. Non-renewable resources include coal, natural gas and oil.  The demand for new construction is on the rise as the world’s population increases and the demand for newer, more efficient modern buildings also increase.

Architect’s Role

Because buildings account for so much energy to build and maintain, architects and designers have become very conscious about our role in minimizing our environmental footprint when we design buildings.  The American Institute of Architects, the largest organization of architects world-wide has a committee called the Committee on the Environment (COTE), which works to advance, disseminate, and advocate—to the profession, the building industry, the academy, and the public—design practices that integrate built and natural systems and enhance both the design quality and environmental performance of the built environment. COTE serves as the community and voice on behalf of AIA architects regarding sustainable design and building science and performance.

Bamboo

Renewable Resources

In green construction processes, there is an emphasis on the use of renewable resources. In many cases, this natural source becomes depleted much faster than it is able to replenish itself, therefore, it has become important that buildings make use of alternative water sources for heating, hot water and sewerage disposal throughout their life cycles, to reduce use and conserve water supplies.

Architects and designers specify rapidly renewable materials are those that regenerate more quickly than their level of demand. Our goal is to reduce the use and depletion of finite raw materials and long-cycle renewable materials by replacing them with rapidly renewable ones.  Some commonly specified rapidly renewable materials include cork, bamboo, cotton batt insulation, linoleum flooring, sunflower seed board panels, wheat-board cabinetry, wool carpeting, cork flooring, bio-based paints, geotextile fabrics such as coir and jute, soy-based insulation and form-release agent and straw bales. Some green building materials products are made of a merger of rapidly renewable materials and recycled content such as newsprint, cotton, soy-based materials, seed husks, etc.

Check out this ILMA article about “Materiality and Green Architecture: The Effect of Building Materials on Sustainability and Design” for more information on this topic.

Responsibility of Architects

Architects and designers who align with AIA’s COTE objectives, (1) recognize the value of their role in environmental leadership to advance the importance of sustainable design to the general public while incorporating sustainable design into their daily practice, (2) influence the direction of architectural education to place more emphasis on ecological literacy, sustainable design and building science, (3) communicate the AIA’s environmental and energy-related concerns to the public and private sectors and influence the decisions of the public, professionals, clients, and public officials on the impact of their environmental and energy-related decisions, (4) educate other architects on regulatory, performance, technical and building science issues and how those issues influence architecture, (5) educate the architectural profession on programming, designing, and managing building performance, (6) investigate and disseminate information regarding building performance best practices, criteria, measurement methods, planning tools, occupant-comfort, heat/air/moisture interfaces between the interior and exterior of buildings, (7) promote a more integrated practice in order to achieve environmentally and economically efficient buildings. One of the tools we will plan to promote to achieve this integration is Building Information Technology (BIM).

Smart-Building

The Role of Technology & Innovation – A Case Study (“The Edge”)

PLP Architecture and the Developer OVG Real Estate, built “The Edge” is a 430,556 SF (40,000m²) office building in the Zuidas business district in Amsterdam. It was designed for the global financial firm and main tenant, Deloitte. The project aimed to consolidate Deloitte’s employees from multiple buildings throughout the city into a single environment, and to create a ‘smart building’ to act as a catalyst for Deloitte’s transition into the digital age.

They key features of this building include the following innovations which address the environmental impact of building such a large edifice:

  • Each facade is uniquely detailed according to its orientation and purpose.
    • Load bearing walls to the south, east and west have smaller openings to provide thermal mass and shading, and solid openable panels for ventilation.
    • Louvers on the south facades are designed according to sun angles and provide additional shading for the office spaces, reducing solar heat gain.
    • Solar panels on the south facade provide enough sustainable electricity to power all smartphones, laptops and electric cars.
    • The North facades are highly transparent and use thicker glass to dampen noise from the motorway.
    • The Atrium façade is totally transparent, allowing views out over the dyke, and steady north light in.
  • The building’s Ethernet-powered LED lighting system is integrated with 30,000 sensors to continuously measure occupancy, movement, lighting levels, humidity and temperature, allowing it to automatically adjust energy use.
  • 65,000 SF of solar panels are located on the facades and roof, and remotely on the roofs of buildings of the University of Amsterdam – thereby making use of neighborhood level energy sourcing.
  • The atrium acts as a buffer between the workspace and the external environment. Excess ventilation air from the offices is used again to air condition the atrium space. The air is then ventilated back out through the top of the atrium where it passes through a heat exchanger to make use of any warmth.
  • Rain water is collected on the roof and used to flush toilets and irrigate the green terraces in the atrium and other garden areas surrounding the building.
  • Two thermal energy wells reach down to an aquifer, allowing thermal energy differentials to be stored deep underground.
  • In The Edge a new LED-lighting system has been co-developed with Philips. The Light over Ethernet (LoE) LED system is powered by Ethernet and 100% IP based. This makes the system (i.e. each luminaire individually) computer controllable, so that changes can be implemented quickly and easily without opening suspended ceilings. The luminaires are furthermore equipped with Philips’ ‘coded-light’ system allowing for a highly precise localization via smartphone down to 8 inches (20 cm) accuracy, much more precise than known WiFi or beacon systems.
  • Around 6,000 of these luminaires were placed in The Edge with every second luminaire being equipped with an additional multi-sensor to detect movement, light, infrared and temperature.
  • The Philips LoE LED system was used in all office spaces to reduce the energy requirement by around 50% compared to conventional TL-5 Lighting. Via the LoE system daily building use can be monitored. This data is fed to facility managers via the BMS allowing:
    • Remote insight into the presence of people in the building (anonymous). Heating, cooling, fresh air and lighting are fully IoT (Internet of Things) integrated and BMS controlled per 200 sqft based on occupancy – with zero occupancy there is next-to-zero energy use.
    • Predictions of occupancy at lunchtime based on real time historical data and traffic and weather information to avoid food-waste.
    • Unused rooms to be skipped for cleaning.
    • Managers to be alerted to lights that need replacing.
    • Notification of printers needing paper.
  • Every employee is connected to the building via an app on their smartphone. Using the app they can find parking spaces, free desks or other colleagues, report issues to the facilities team, or even navigate within the building.
  • Employees can customize the temperature and light levels anywhere they choose to work in the building via the mobile app. The app remembers how they like their coffee, and tracks their energy use so they’re aware of it.
  • The vast amount of data generated by the building’s digital systems and the mobile app on everything from energy use to working patterns, has huge potential for informing not only Deloitte’s own operations, but also our understanding of working environments as a whole. Discussions are currently ongoing regarding the future of this data and its use for research and knowledge transfer.
  • The green space that separates the building from the nearby motorway acts as an ecological corridor, allowing animals and insects cross the site safely.

Conclusion

Because buildings account for nearly 40 percent of global energy consumption, architects and designers have been working to impact the built environment in a positive way.  Although not every project can be as green as The Edge, by selecting materials that are renewable while reducing energy are two big contributions we can make to help ease the increasing demand for construction.

Technology can play a big part in our role to design more sustainable buildings through the use of building information modeling, energy management software, building management software, online sustainability calculators, energy modeling software, new lighting innovations, new techniques to capture and deliver energy and clean water while reducing waste, and mobile applications utilizing IoT.

Sources:

We would love to hear from you about what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends.

Feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,

FRANK CUNHA III
I Love My Architect – Facebook

 


Big Data in Architecture

Big-Data-02Big data is a term that describes the large volume of data – both structured and unstructured – that inundates a business on a day-to-day basis. But it’s not the amount of data that’s important. It’s what organizations do with the data that matters. Big data can be analyzed for insights that lead to better decisions and strategic business moves.

(Source: https://www.sas.com/en_us/insights/big-data/what-is-big-data.html)

In buildings, data might be generated by a very wide variety of sources, including:

  • Design and construction (for example building information modeling)
  • Post occupancy evaluation
  • Utilities, building services, meters, building management systems and so on
  • Infrastructure and transport systems
  • Enterprise systems such as purchasing systems, performance reporting, work
    scheduling and so on
  • Maintenance and replacement systems
  • Operational cost monitoring
  • Information and Communications Technology (ICT) systems and equipment

Data from these sources can be used to understand behavior, assess
performance, improve market competitiveness, allocate resources and so on.
Smart buildings focus on the use of these interconnected technologies to make
buildings more intelligent and responsive, ultimately improving their performance, and
might include technologies such as:

  • Automated systems
  • Intelligent building management systems
  • Energy efficiency measures
  • Wireless technologies
  • Digital infrastructures
  • Adaptive energy systems
  • Networked appliances
  • Data gathering devices
  • Information and communications networks
  • Assistive technologies
  • Remote monitoring
  • Fault diagnostics and prognostics

(Source:https://medium.com/studiotmd/designing-with-data-8fd73345afb8)

Big-Data-01{Repost} How Big Data is Transforming Architecture

The phenomenon presents huge opportunities for the built environment and the firms that design it.

Clients are demanding data from architects

Clients are starting to ask architects to deliver more than just drawing sets. They are eyeing the data-rich BIM models that firms use to document projects as a way to supply data for downstream applications, such as facilities management.

With BIM achieving some level of maturity within the industry, there is a growing expectation that architects will produce datasets, such as the COBie (Construction-Operations Building Information Exchange) spreadsheet, as part of their regular deliverables. The COBie spreadsheet is essentially a list of building assets—such as chairs and HVAC systems—that the owner can then use to manage the facility. Next year, the U.K. government will require architects working on any publicly funded project to produce COBie spreadsheets. For architects, this means that their data needs to be as rigorous as their drawings.

Clients are demanding data from buildings

Clients have also become interested in the data generated by the buildings. As previously mentioned, everything from thermostats to doors is being connected to the Internet so it can broadcast its use. At last year’s Venice Biennale, the exhibition’s director Rem Koolhaas, Hon. FAIA, predicted that “every architectural element is about to associate itself with data-driven technology.”

This data enables building owners to measure and improve their facilities’ performance quantitatively. Many are already doing this—albeit in a limited sense—with their HVAC systems. But what we are seeing from innovative building owners is the use of data to conduct a holistic assessment of their performance. The Walt Disney Co., for example, combines location tracking with sales data and other user-experience metrics to optimize the performance of its parks. As more owners come to rely on building data to improve the performance of their assets, architects need to ensure that their buildings can supply this critical data.

Data is changing the process as much as it is changes the output

The abundance of data may give rise to data warehouses and COBie spreadsheets, but the much more profound changes for architects will be procedural. For instance, using BIM to design and document a building has required a whole new set of business processes. The building might be visually similar to what would have been designed in the past, but everything behind the scenes, from contract wording to staff training, needs to be rethought.

(Source: http://www.architectmagazine.com/technology/how-big-data-is-transforming-architecture_o)

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Top 20: Technology & Innovation Ideas For Architects

Thank you for all the support and encouragement over the years.  Here are some of our favorite blog posts about technology and innovation related to the field of Architecture:

  1. High Performance Building Design
  2. 3-D Printing
  3. Connected Spaces
  4. Benefits of Using Digital Twins for Construction
  5. Digital Twins
  6. Drone Technology
  7. Artificial Intelligence
  8. Immersive Experience in Architecture
  9. Smart Cities
  10. Big Data in Architecture
  11. Creating High Performance Buildings through Integrative Design Process
  12. Forget Blueprints, Now You Can Print the Building
  13. The 7 Dimensions of Building Information Modeling
  14. Parametric Architecture and Generative Design System
  15. Architecture Robots
  16. Internet of Spaces
  17. Sustainable Design Elements to Consider While Designing a Project
  18. What is a High Performance School?
  19. What is BIM? Should Your Firm Upgrade? by @FrankCunhaIII
  20. Renewable Wave Power Energy

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


13 Examples of Green Architecture

The Morris & Gwendolyn Cafritz Foundation Environmental Center

The nickname for the Morris and Gwendolyn Cafritz Foundation Environmental Center is the Grass Building, and it perfectly captures its spirit. It’s a structure so thoughtfully designed it’s almost as energy-efficient and low impact as the greenery that surrounds it.

The Maryland building is part of an educational farm on the Potomac River Watershed that the Alice Ferguson Foundation used to teach people about the natural world. This new building—which became the 13th in the world to receive full Living Building Challenge certification in June 2017—is an educational facility designed to blur the lines between indoors and out, while still providing shelter as needed. “Part of the intent of the building is to be in the landscape and still have a bathroom to use,” says Scott Kelly, principal-in-charge at Re:Vision, a Philadelphia-based architecture and design studio.

Further Reading:
https://gbdmagazine.com/2017/grass-building
https://www.aia.org/showcases/92581-the-morris–gwendolyn-cafritz-foundation-env
https://living-future.org/lbc/case-studies/morris-gwendolyn-cafritz-foundation-environmental-center
http://hughloftingtimberframe.com/gallery/commercial/cafritz-foundation-environmental-center
http://www.cafritzfoundation.org/

Brock Environmental Center

Drawing thousands of students, the Brock Environmental Center is a regional hub for the Chesapeake Bay Foundation, in Virginia Beach, Virginia, supporting its education and wetlands restoration initiatives. A connection to nature defines the building’s siting, which provides sweeping views of the marsh and also anticipates sea-level rise and storm surges with its raised design. Parts were sourced from salvage: Its maple floors once belonged to a local gymnasium while school bleachers, complete with graffiti, were used for interior wood trim. The center was recognized for its positive footprint: It has composting toilets, captures and treats rainfall for use as drinking water, and produces 80 percent more energy than it uses, selling the excess to the grid.

Further Reading:
http://www.cbf.org/about-cbf/locations/virginia/facilities/brock-environmental-center
https://living-future.org/lbc/case-studies/the-chesapeake-bay-brock-environmental-center
https://www.visitvirginiabeach.com/listing/chesapeake-bay-foundations-brock-environmental-center/979
https://www.aia.org/showcases/76311-brock-environmental-center

Discovery Elementary School

Students have three distinct, age-appropriate playgrounds—with natural elements such as rocks and fallen trees—at Arlington, Virginia’s Discovery Elementary School. The name honors astronaut John Glenn, who returned to space on the Discovery shuttle and once lived in the neighborhood. Exploration is a theme at the school, whose interior focuses on forests, oceans, atmosphere, and the solar system. The largest zero-energy school in the country, it offers “hands-on learning around energy efficiency and generation,” jurors noted. The school maximizes natural light and provides views to the outside in all classrooms.

Further Reading:
https://www.aia.org/showcases/71481-discovery-elementary-school-
https://www.aiadc.com/sites/default/files/031%20-%20DiscoveryElementarySchool.pdf
https://www.google.com/search?q=Discovery+Elementary+School+AIA&tbm=isch&tbo=u&source=univ&sa=X&ved=0ahUKEwjS-pnHo6LcAhUMON8KHSlUDlYQsAQIdA&biw=1583&bih=1187

Bristol Community College

A laboratory is an energy-intensive enterprise, with specialized lighting and ventilation needs. That’s why jurors praised the airy health and science building at Bristol Community College, in Fall River, Massachusetts, for its net-zero energy achievement, “a difficult feat,” they noted, “in a cold climate like New England’s.” The move saves $103,000 in annual operating costs and allows the college, which offers a suite of courses in sustainability and energy, to practice what it teaches. Part of a holistic campus redesign, the new building’s location increases the density—and thus walkability—of campus for students.

Further Reading:
https://www.aia.org/showcases/71576-bristol-community-college-john-j-sbrega-heal
https://www.mass.gov/service-details/bristol-community-college-john-j-sbrega-health-and-science-building
http://www.architectmagazine.com/project-gallery/bristol-community-college-john-j-sbrega-health-and-science-building_o

Central Energy Facility

Orange and red pipes flaunt their role in “heat recovery” at Stanford University’s Central Energy Facility. The center for powering the California campus—more than a thousand buildings—the facility was transformed from an aging gas-fired plant to one fueled mostly by an off-site solar farm, fulfilling a goal of carbon neutrality and reducing energy use by a third. With large health care and research buildings, the campus needs as much heating as cooling; now a unique recovery system taps heat created in cooling processes to supply 93 percent of the heating and hot water required for campus buildings. The plant reduces Stanford emissions by 68 percent and potable water usage by 18 percent, potentially saving millions of dollars and one of the state’s scarce resources.

Further Reading:
https://www.aia.org/showcases/25976-stanford-university-central-energy-facility
https://sustainable.stanford.edu/new-system
https://www.archdaily.com/786168/stanford-university-central-energy-facility-zgf-architects
https://www.zgf.com/project/stanford-university-central-energy-facility

Ng Teng Fong General Hospital

Like other buildings in Singapore, Ng Teng Fong General Hospital incorporates parks, green roofs, and vertical plantings throughout its campus. But the city-state’s hospitals haven’t traditionally offered direct access to fresh air, light, and outdoor views. This hospital marks a dramatic change, optimizing each for patients. About 70 percent of the facility is naturally ventilated and cooled by fans, cross-ventilation, and exterior shading, saving on precious water resources. The building uses 38 percent less energy than a typical hospital in the area.

Further Reading:
https://www.aia.org/showcases/76821-ng-teng-fong-general-hospital–jurong-commun
http://www.hok.com/about/news/2017/07/25/ng_teng_fong_general_international_academy_for_design_and_health_awards
https://www.archdaily.com/869556/aia-selects-top-10-most-sustainable-projects-of-2017/58f7c23ce58eceac31000615-aia-selects-top-10-most-sustainable-projects-of-2017-photo
http://www.topicarchitecture.com/articles/154396-how-modern-hospitals-recognize-the-impact-o

Eden Hall Farm, Chatham University

After receiving the donation of 388-acre Eden Hall Farm, 20 miles north, Pittsburgh’s Chatham University created a satellite campus centered around a sustainable living experiment. The university views the landscape—an agricultural area adjacent to an urban center—as critical to supporting cities of the future. The original buildings are complemented by new facilities for 250 residential students (and eventually 1,200), including a dormitory, greenhouse, dining commons, and classrooms. Students get hands-on experience in renewable energy systems—the campus generates more than it uses—sustainable agriculture and aquaculture, waste treatment, and water management. Now home to the Falk School of Sustainability, the farm is producing the next generation of environmental stewards, who follow in the footsteps of alum Rachel Carson.

Further Reading:
https://www.aia.org/showcases/76481-chatham-university-eden-hall-campus
http://www.chatham.edu/news/index.php/2018/01/chatham-views/from-eden-hall-pioneer-to-farm-manager
https://www.archdaily.com/869556/aia-selects-top-10-most-sustainable-projects-of-2017
https://falk.chatham.edu/masterplan.cfm

Milken Institute School of Public Health, George Washington University

At George Washington University’s Milken Institute School of Public Health, located in the nation’s capital, design embodies well-being. Built around an atrium that admits light and air, the structure encourages physical activity with a staircase that spans its eight levels. A green roof reduces storm runoff; rainwater is collected and stored for plumbing, resulting in a 41 percent reduction in toilet fixtures’ water use. Limestone panels (left) were salvaged from the previous building on the site. Materials used throughout the building contain recycled content.

Further Reading:
https://www.aia.org/showcases/71306-milken-institute-school-of-public-health
https://publichealth.gwu.edu/content/milken-institute-school-public-health-wins-excellence-architecture-new-building-merit-award
http://designawards.architects.org/projects/honor-awards-for-design-excellence/milken-institute-school-of-public-health-george-washington-university/

National Oceanic and Atmospheric Administration’s Inouye Regional Center

Located at the heart of Pearl Harbor, on Oahu’s Ford Island, the National Oceanic and Atmospheric Administration’s Inouye Regional Center repurposed two airplane hangars—which narrowly escaped destruction in the 1941 attack—linking them with a new steel and glass building (right). The research and office facility for 800 employees was raised to guard it from rising sea levels. Given the size of the hangars, daylight illuminated only a small fraction of the space, so specially crafted lanterns reflect sunlight further into their interiors. Necessity required invention: Due to anti-terrorism regulations, no operable windows were allowed in the space. Through a passive downdraft system that taps prevailing sea breezes, the building is completely naturally ventilated. The adjacent waterfront was returned to a more natural state with native vegetation.

Further Reading:
https://www.aia.org/showcases/76911-noaa-daniel-k-inouye-regional-center
http://www.hpbmagazine.org/NOAA-Daniel-K-Inouye-Regional-Center-Honolulu-Hawaii/
http://www.architectmagazine.com/project-gallery/noaa-daniel-k-inouye-regional-center_o
http://www.hok.com/design/type/government/national-oceanic-and-atmospheric-administration-noaa/

R.W. Kern Center

Serving as the gateway to Hampshire College, in Amherst, Massachusetts, the multipurpose R.W. Kern Center holds classrooms, offices, a café, and gallery space—and is the place where prospective students are introduced to campus. The school converted what was once an oval driveway into a wildflower meadow, now encouraging a pedestrian approach (seen above). The center is self-sustaining, generating its own energy through a rooftop solar array, harvesting its water from rainfall, and processing its own waste. Its gray water treatment system is in a pilot program for the state, and may pave the way for others.

Further Reading:
https://www.aia.org/showcases/76921-rw-kern-center
https://architizer.com/projects/rw-kern-center
https://www.hampshire.edu/discover-hampshire/rw-kern-center

Manhattan 1/2/5 Garage & Salt Shed

Two buildings belonging to New York City’s sanitation department redefine municipal architecture. Resembling a grain of salt, the cubist form of the Spring Street Salt Shed holds 5,000 tons for clearing icy streets. The Manhattan 1/2/5 Garage (background), whose floors are color-coded for each of the three districts, is home to 150 vehicles, wash and repair facilities, and space for 250 workers. The garage is wrapped in 2,600 aluminum “fins,” shading devices that pivot with the sun’s rays, reducing heat gain and glare through the glazed walls while still allowing views to the outside. Municipal steam heats and cools the building, so no fuels are burned. A 1.5-acre green roof reduces heat-island effect and filters rainwater. A condensate by-product of the steam is also captured, and, along with the rainwater, used for toilets and the truck wash. Combined with low-flow fixtures, the process reduced water consumption by 77 percent.

Further Reading:
https://www.dattner.com/portfolio/manhattan-districts-125-garage/
https://www.ohny.org/site-programs/weekend/sites/dsny-manhattan-125-sanitation-garage-salt-shed
https://www.aia.org/showcases/76671-manhattan-districts-125-garage–spring-stree
http://www.architectmagazine.com/project-gallery/manhattan-districts-1-2-5-garage-spring-street-salt-shed_o
https://www.burns-group.com/project/manhattan-125-garage-and-spring-street-salt-shed/

Starbucks Hillsboro, Oregon

Starbucks has been a leader in the development and implementation of a scalable green building program for over a decade .Starbucks joined the U.S. Green Building Council® (USGBC) in 2001 and collaborated with them to develop the LEED® for Retail program, an effort to adapt LEED (Leadership in Energy and Environmental Design) to new construction and commercial interior strategies for retail businesses. In 2008,Starbucks challenged themselves to use LEED certification not just for flagship stores and larger buildings, but for all new, company-operated stores. Many people, even internally, were skeptical, especially with Starbucks growth across the globe. But by collaborating with USGBC and other like-minded organizations, we have been able to integrate green building design not only into new stores but also into our existing store portfolio. Starbucks has also succeeded in providing a practical certification option for retailers of all sizes.

Further Reading:
https://www.starbucks.com/responsibility/environment/leed-certified-stores

The Edge, Deloitte

The Edge, located in Amsterdam, is a model of sustainability.is billed as the world’s most sustainable office building and has the certification to prove it. But, it’s more than that. The place is, well, fun. And interesting. And inviting. So much so that professionals are actually applying for employment with Deloitte Netherlands because they want to work in the building. That it has become a recruiting tool is a satisfying side effect of a project designed to both redefine efficiency and change the way people work. “We wanted to ensure that our building not only had the right sustainability credentials, but was also a real innovative and inspiring place for our employees,” says Deloitte Netherlands CEO Peter Bommel.

Read the rest of this entry »


Benefits of Using Digital Twins for Construction

Technologies like augmented reality in construction are emerging to digitalize the construction industry, making it significantly more effective.

What if we could have instant access to all the information about a construction site, down to smallest details about every person, tool, and bolt? What if we could always be sure about the final measurements of a beam or that soil volumes in the cuts are close to those of the fills? What if we could always track how fast the supply of materials runs out, and re-order supplies automatically?

All this is achievable with a digital twin — a concept of having a real-time digital representation of a physical object.

The following are some real-time digital twins applications on construction sites.

3d-model

Automated Progress Monitoring

Progress monitoring verifies that the completed work is consistent with plans and specifications. A physical site observation is needed in order to verify the reported percentage of work done and determine the stage of the project.

By reconstructing an as-built state of a building or structure we can compare it with an as-planned execution in BIM and take corresponding actions to correct any deviations. This is usually done by reconstructing geometry of a building and registering it to the model coordinate systems, which is later compared to an as-planned model on a shape and object level.

Often data for progress monitoring is collected through the field personnel and can be hugely subjective. For example, the reported percentage of work done can be faster in the beginning and much slower close to the end of the project. People are often initially more optimistic about their progress and the time needed to finish the job.

Hence, having automated means of data collection and comparison means that the resulting model to as-designed BIM models is less liable to human error. Digital twins solve the common construction process problems.

As-Built vs As-Designed Models

With a real-time digital twins, it is possible to track changes in an as-built model — daily and hourly. Early detection of any discrepancies can lead to a detailed analysis of historical modeling data, which adds an additional layer of information for any further decision-making processes.

The project manager can then reconstruct the steps that led to the error and make changes in the future work schedule in order to prevent any similar mistakes from occurring. They can also detect under-performers and try to fix the cause of the problem earlier in the project or plan the necessary changes to the budget and timescale of the whole project.

Resource Planning and Logistics

According to the Construction Industry Institute, about 25% of productive time is wasted on unnecessary movement and handling of materials.

Digital twin technology provides automatic resource allocation monitoring and waste tracking, allowing for a predictive and lean approach to resource management. With digital twin technology companies would avoid over-allocation and dynamically predict resource requirements on construction sites, thus avoiding the need to move resources over long distances and improving time management.

Safety Monitoring

The construction industry is one of the most dangerous sectors in the world. According to the Bureau of Labor Statistics in the United States, more than four thousand construction workers died on-site between 2008 and 2012.

The real-time site reconstruction feature digital twins allows the industry’s companies to track people and hazardous places on a site, so as to prevent inappropriate behavior, usage of unsafe materials, and activity in hazardous zones. A company can develop a system of early notification, letting a construction manager know when a field worker is located in dangerous proximity to working equipment and sending a notification about nearby danger to a worker’s wearable device.

Microsoft recently shared a great vision of how AI combined with video cameras and mobile devices can be used to build an extensive safety net for the workplace.

Quality Assessment

Image-processing algorithms make it possible to check the condition of concrete through a video or photographic image. It is also possible to check for cracks on columns or any material displacement at a construction site. This would trigger additional inspections and thus help to detect possible problems early on.

See an example of how 2D images using 3D scene reconstruction can be used for concrete crack assessments.

Optimization of Equipment Usage

Equipment utilization is an important metric that construction firms always want to maximize. Unused machines should be released earlier to the pool so others can use them on other sites where they are needed. With advanced imaging and automatic tracking, it is possible to know how many times each piece of machinery has been used, at what part of the construction site, and on what type of the job.

Monitoring and Tracking of Workers

Some countries impose tough regulations on how to monitor people presence on a construction site. This includes having a digital record of all personnel and their location within the site, so that this information could be used by rescue teams in case of emergency. This monitoring is another digital twins application. Still, it is better to integrate digital twin-based monitoring with an automatic entry and exit registration system, to have a multi-modal data fused into a single analytics system.

Getting Data for Digital Twins

Some ways to gather data to be used for digital twins includes the following:

  1. Smartphone Cameras
  2. Time-Lapse Cameras
  3. Autonomous UAV and Robots
  4. Video Surveillance Cameras
  5. Head-mounted Cameras and Body Cameras

Image data processing algorithms for digital twins can be created with the following methods:

  1. 3D Reconstruction: Conventional Photogrammetry
  2. 3D Reconstruction: Structure from Motion
  3. Object Detection and Recognition
  4. Localization
  5. Object Tracking

(Source: https://www.intellectsoft.net/blog/advanced-imaging-algorithms-for-digital-twin-reconstruction)

From an Investor’s Viewpoint

On projects to date, this approach has proven to save time, reduce waste and increase efficiencies.

From a Standardization Proponent’s Viewpoint

Open, sharable information unlocks more efficient, transparent and collaborative ways of working throughout the entire life-cycle of buildings and infrastructure.

From a Solution Provider’s Viewpoint 

While the digital twin is needed initially for planning and construction, it’s also intended to provide the basis for building operations moving forward.

(Source: https://www.siemens.com/customer-magazine/en/home/buildings/three-perspectives-on-digital-twins.html)

The vision of “construction 4.0” refers to the 4th industrial revolution and is a fundamental challenge for the construction industry. In terms of automated production and level of digitalization, the construction industry is still significantly behind other industries. Nevertheless, the mega-trends like Big Data or the Internet of Things offer great opportunities for the future development of the construction sector. Prerequisite for the successful Construction 4.0 is the creation of a digital twin of a building. Building Information Modeling (BIM) with a consistent and structured data management is the key to generate such a digital building whose dynamic performance can be studied by building simulation tools for a variety of different boundary conditions.

Along the total life cycle from design to construction, operation and maintenance towards remodeling or demolition, the digital twin follows all modifications of the real building and dynamically readjusts itself in case of recorded performance differences.

Thus, for the whole life span of the real building, performance predictions generated with the virtual twin represent an accurate basis for well-informed decisions. This helps to develop cost-effective operation modes, e.g. by introducing new cyber-controlled HVAC systems. The digital twin may also analyze the building’s dynamic response to changes in occupation or energy supply; it also indicates the need for building maintenance or upgrades.

The digital twin follows all modifications of the real building and dynamically readjusts itself in case of recorded performance differences.

(Source: https://www.bau.fraunhofer.de/en/fieldsofresearch/smartbuilding/digital-twin.html)

Gartner-digital-twin-best-practices-to-tackle-challenges

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Artificial Intelligence

AI-01

Moving from the abstract to the actionable is always a challenge. When it comes to AI, it starts with data. Artificial intelligence is the application of data—data is what machines learn from—and in the AEC world there is no shortage of opportunities to obtain it. From billing analysis and construction-site safety to building products and performance, the data sets available to collect seem infinite. (Source: https://www.aia.org/articles/178511-embracing-artificial-intelligence-in-archit)

Danil Nagy, New York-based designer and researcher  says “AI can benefit all human endeavors by making us more efficient and allowing us to focus on those aspects of ourselves that make us most human – such as intuition and creativity.”

Computers have changed the way we design our buildings and understand their urban contexts, with tools such as parametric design altering the way we formulate design problems and arrive at new solutions. Now, Machine Learning gives the possibility of going beyond directed, top-down computation, allowing computers to learn patterns and gain new understanding directly from supplied data. Among the many opportunities given by this new paradigm, such a system can allow designers to gain a deeper understanding of the relationships between the physical reality of the city with our personal and emotional responses to it. The Data Mining the City cluster will explore these new opportunities by prototyping custom hardware to simultaneously gather both physical and personal data about the city, and then using Machine Learning algorithms to discover patterns and correlations between the physical realities of the city and our personal experiences of it.

Additional Resources:

https://www.smartgeometry.org/data-mining-the-city

http://futurearchitectureplatform.org/news/28/ai-architecture-intelligence

https://archpaper.com/2017/08/architecture-profession-automation-big-data

https://archpaper.com/2017/11/architects-adapt-coming-ai

https://archinect.com/features/article/149995618/the-architecture-of-artificial-intelligence

http://www.futurearchi.org/t/artificial-intelligence-ai-in-architecture-what-are-the-practical-applications/364

AI-02

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Our Exclusive ILMA Interview with @KimVierheilig

AECOM welcomed Kim Vierheilig, AIA, LEED AP BD+C as vice president and managing principal for our Design and Consulting Services New Jersey Buildings + Places practice in June of 2018. Kim brings 19 years of experience in the development and leadership of high-performing teams and has worked across the education, transit, hospitality and corporate commercial sectors. As managing principal for the New Jersey team, she will provide strategic oversight, management and direction for the region’s architecture; engineering; interiors; design + planning/ economics; strategy plus and asset advisory practices.

“In everything that we do, we create value,” says Kim. “Our focus is on design excellence and creating value by bringing the very best in interdisciplinary thinking to our clients and our communities. I’m thrilled to work with the talented team here at AECOM to develop effective, innovative and holistic solutions for our region’s most pressing challenges.”

Prior to joining AECOM, Kim most recently served as vice president for another firm where she managed the architectural, business development and marketing departments. Over the course of her career, she has partnered with clients across markets to deliver highly engaging environments. With clients such as Unilever, Four Seasons and Marriott Hotels and many K-12 and higher education institutions, she has built a portfolio of award-winning work and is widely recognized for her impact on the development industry. In 2017, Kim was named one of the Best 50 Women in Business by NJBIZ and received the Outstanding Woman Award from the Women Builder’s Council. She has also been recognized in the NJBIZ 40 Under 40 and honored with the 2016 Smart CEO Brava Award. From the New Jersey Institute of Technology, she holds a Master of Science in Management and a Bachelor of Architecture.

“Kim will lead [AECOM’s] teams in New Jersey to connect and creatively partner with our clients to develop the most impactful projects in the region,” says Tom Scerbo, vice president, Buildings + Places, New York metro regional lead. “Kim’s depth of experience leading teams to deliver complex, functional buildings and places affords our team strategic growth opportunities and brings tremendous value to our clients.”

 

ILMA INTERVIEW

When and why did you decide to become an Architect?    

Growing up an only child, I was always encouraged to participate in anything that was of interest. My weekends often involved household construction projects with my dad, which I enjoyed tremendously. At the age of ten, I decided I wanted to become an architect. Architecture was the natural choice of a profession that blended creativity and science.

What were some of the challenges of achieving your dream?     

As a woman in the architecture and engineering industry, where women make up only 15% of the job force, there were several challenges I faced to get to where I am today. In beginning of my career, I was the sole woman at the firm slotted as the office “receptionist,” where I answered phones and made coffee while designing and working on building projects. I was told I was not allowed to go into the field for construction site visits, even though my male counterparts were allowed, because I was “too much of a liability.” I realized that I could either complain about the situation or take what opportunities presented themselves and use these to better myself.  It wasn’t long until in addition to answering the phones, clients were calling to talk to me about projects, not just get transferred to a male colleague.  What I’ve learned is that in every bad situation there is something you can take from it to grow both personally and professionally.  Although eventually I left that firm, to find a company that more fully supported my development as an architect, there is no doubt my early work experiences made me a more passionate professional who wants to support the next generation of female architects.

How does your family support what you do?  

My family has always been extremely supportive of my career. As a partner of my firm, I often travel or attend evening receptions. I am fortunate enough to rely on my family’s support which has been a major factor in my success.

How do Architects measure success?    

I like to think I have a broader vision of what architects and engineers can bring to their communities through the design and construction industry. Almost all of the projects we work on have an impact on our communities; a successful project is one that fosters long-term relationships with the client and positively impacts the community.

What matters most to you in design?    

To me, designing a space that sparks creativity is most important. Using a holistic design approach, we focus on incorporating light, flexibility, choice, connection, complexity, and color into all of our designs.

What type of technology do you see in the design and construction industries?

Over the last few years, we’ve seen a significant shift in technology in the A/E/C industry. We are now incorporating virtual reality renderings and realistic walk-throughs of buildings or spaces, as well as, 3D printed models to allow our clients to better understand our design before construction begins.

How do you hope to inspire / mentor the next generation of Architects?   

I have been active in mentoring female architects on many different levels, from helping to fund architectural scholarships, to lobbying for change in the intern development process, assembling opportunities through design competitions to promote general learning, and serving as an individual mentor to numerous staff with her firm. I have partnered with various vendors and professional organizations to bring awareness about the challenges facing female architects. As such, I previously served as the American Institute of Architecture (AIA) Women in Architecture Chair for New Jersey to educate women on how to conduct business in a male-dominated industry by hosting seminars and providing networking opportunities with successful women speakers from various disciplines.

What advice would you give aspiring architects (K-12)? College students? Graduates?

I am an advocate and mentor for young women who wish to pursue a career in the Science, Technology, Engineering, and Math (STEM) fields. If I could give any advice to aspiring architects, I would say to break the barriers and follow your passion. This is a great industry with amazing potential.

Final Thoughts on How to Be Successful?

Continue to push forward every day by overcoming any hurdles that might face you and success will find you.

For more exclusive ILMA interviews click here.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Our Exclusive ILMA Interview with Reginald Thomas

New York, New Jersey Reginald L. Thomas, AIA has garnered over twenty years’ experience working with a diverse group of distinguished architectural/design firms in New York City.  Reginald L. Thomas Architect LLC specializes in historically based, high-end, residential projects. Recently, he has added commercial and institutional work to the firm’s diverse clientele. His work has been featured in several prestigious publications, notably The New York Times and Architectural Digest.

Web | Blog | Facebook | LinkedIn | Houzz

ILMA INTERVIEW

When and why did you decide to become an Architect? 

  • I’ve wanted to be an architect since I was 10 years old. During a weekend visit to the local art store to purchase paints, a how to book on architectural rendering caught my eye.   I remember thinking that the floor plans seemed magical.
  • We can thank Mike Brady, of the then popular Sitcom, the Brady Bunch, for that.  My first introduction to renderings and models came from watching the episodes after school and I was hooked.
  • Growing up in New York City, however, I visited the Museum of Natural History and MOMA regularly.  I was fascinated by the dioramas at the Museum of Natural History and the artwork at the MOMA and so at first, I dreamt of being an artist and being able to create this kind of beauty.

What were some of the challenges of achieving your dream?    

  • I grew up in the South Bronx, so the first challenge was of course, money.  I fretted about how I was going to pay for college or even how I was going to apply to college.  It was stressful to think that I would have to help my siblings after college and therefore not be able to realize my own dreams.

Any memorable clients or project highlights?   

  • I’ve had the pleasure of working with corporate giants, entertainment and sports celebrities as well as hard working people who are interested in living in beautiful spaces. All are special to me.  Each project has its own individual story However, I have had clients that allowed me to design and build every inch of their space including the furniture. That’s amazing in today’s climate.

How does your family support what you do?    

  • College was a priority in my household as both my parents attended college.  My dad for his Associates Degree and my mother for her Master’s in Education.  , Although I did not have money I had an abundance of support for what I wanted to accomplish and an expectation that I get there.

How do Architects measure success?   

  • I believe versatility is a skill we all value as designers. We build projects that are beautiful as well as functional. Being able to create an aesthetically pleasing space to satisfy each of my client’s specific   taste and at the same time ensuring that it functions is its own reward.

What matters most to you in design?

What do you hope to achieve over the next 2 years? 5 years?

  • To grow my business using all of the experience I’ve garnered over the last 30 years in multiple jurisdictions.
  • Like most artists, I also wish to push the barriers of my creativity while remaining true to the traditional and timeless nature of my designs.

Who is your favorite Architect? Why?    

  • Paul Rudolph for salesmanship, talent, and cultural navigation skills which were beyond belief
  • Frank Lloyd for his skill, as well as his ability to convince his clients to be daring and tenacious.
  • Julia Morgan for her dedication and ability when she was the only one, and her clients who recognized and rewarded her abilities.

Do you have a coach or mentor?

What is your favorite historic and modern (contemporary) project? Why?

  • The Great Pyramids of Giza. They are pure form, functional and beautiful.  It was once written by an early 19th century explorer who catalogued the proclivity for ornamentation throughout the known world that what we are able to see of Egyptian Architecture now is this architecture represents the last 2500 of this work in decline, what left of this 5000 year old architectural culture.
  • If that be the case, then how much more glorious the architectural vocabulary of this civilization must be. The elements of order including the concept of hyper style halls must be astounding. These are the elements that make an edifice “timeless.”
  • Notre Dame du Haut: The building teaches the intangibles of architecture as art. How does one use light as a design element?  Most people will never even notice how the intangible shapes made by light in their space let alone the effects on their psychological health.
  • The Mildred B Cooper Memorial Chapel: The boundaries that identify characteristics of nature and the difference from manmade structures are so blurred I this building that it is magical. I think in this design he did make his mentor proud. It is truly great work.

Where do you see the profession going over the next few decades? 

  • I think we are finally reaching the point where we are accepting the fact that we are part of a global community.  That means a true understanding, in real time, of the relationship and importance of urban design, architecture and interior design etc. to the human conditions.
  • Our use of technology will continue to grow at a rapid pace and architects will be required to leverage their expertise to benefit the world community especially in the areas of sustainability, and resilience.
  • I am most excited by the possibility of the profession as the lead, taking on the real-estate profession as developers

What type of technology do you see in the design and construction industries?

  • The digital drafting board and smart drafting solutions. The stylus is back, Instant 3d models and the expansion of BIM as a tool.
  • Wireless outlets
  • ASCII, GPS, LiDAR technology continue to advance. Assisting historic preservation giving a vision of what was formally unseen thereby assisting design and limiting errors.
  • 3d modeling, as a tool, will advance to the point that we will grow more independent of contractors and furniture designers

Who / what has been your greatest influence in design?  

  • The reading of a Pattern Language. The book continues to teach me to think in layers until I get to the optimum solution.
  • Jean Michele Frank: The comprehensive business model that he practiced was one to be envied and to be emulated.
  • My mentors Max Bond and Richard Dozier.
  • New York City designers that I’ve work for like Peter Marino and Juan Montoya

Which building or project type would you like to work on that you haven’t been part of yet?   

  • A Place of worship on an island site

How do you hope to inspire / mentor the next generation of Architects?   

  • I hope to inspire the next generation through visibility. African-American descent represents a very small part of the architectural demographics.
  • I hope to write treatise and guides thereby leaving a guide to others to build on.
  • My suggestion always is to be assiduous; to be relentless, recognizing that  this is a lifelong area of study, one that requires . “long distance runners.”

What advice would you give aspiring architects (K-12)? College students? Graduates?

  • The best advice for K-12 is to engage with architects when they come in to your schools on career days.  It is important as this stage to really get a clear understanding of what an architect does and the value of architects’ play in their daily lives.
  • College students: Provide information and honest dialogue on expectations after graduation; how to set reasonable and attainable goals, and lastly the many ways to measure success.
  • Financial guidance on how to plan for a secure retirement.
  • Explain what it means to own one’s own firm.

What does Architecture mean to you? 

  • Architecture is life.  It is the culmination of the aspirations of the human condition at different time periods.
  • Architecture means being conscious of the places and spaces we occupy as humans.  It’s being in the unique position of being able to effect change in the communities welive in a way that is unique to no other profession

What is your design process? 

  • Client interview: Do more listening than writing.
  • Who or what community am I designing for.
  • Identify client particulars not just in program but culturally. How does the client perceive and use space. What is the corporate or family dynamic?
  • Where am I being asked to design?
  • What are the constraints of the site or space?
  • How do I make it function perfectly and at the same time be beautiful?

If you could not be an Architect, what would you be?  

  • Apart from very early on when I wanted to be an artist I have never given thought to being anything else, however, if you were to ask my father, a surgeon would have been his preference.

What is your dream project?  

  • One that encompasses urban planning, landscape architecture, architecture as sculpture, interior design and furniture design; the complete package in the vernacular of the local culture.

What advice do you have for future Executive leaders?  

  • Seek out and work with like-minded people who share your vision and whom you can trust to honestly evaluate, and counsel you.  Also, do not be afraid to delegate or share responsibility giving you the time and space you need as the leader to imagine and create.

What are three key challenges you face as a leader in business today and one trend you see in your industry?    

  • The challenge of finding curious and willing junior staff who are willing to put in the long hours needed to really learn the ins and outs of the profession.
  • Loyalty
  • Finding staff that is willing to learn how to build, even, by drawing the components rather than by cutting and pasting.
  • My hope is that with the advances in Wacom Tablet technology we will have monitors as drafting boards and stylus as pencils causing the young architect to unconsciously pay more attention to what and how the building is being created.

What one thing must an executive leader be able to do to be successful in the next 3 years?

  • The executive leader must to be able to leverage the power of the internet and especially social media

What are some executive insights you have gained since you have been sitting in the executive leadership seat – or what is one surprise you have encountered as the world of business continues to morph as we speak?    

  • I have been surprised at how much television, social media and the internet have impacted the decisions we now make as leaders.

Final Thoughts on How to Be Successful?   

  • Improving and adapting are keys to longevity and to success.   Be relentless in your desire to grow and learn recognizing that learning is a lifelong pursuit.

For more exclusive ILMA interviews click here.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook


Our Exclusive ILMA Interview with Matthew B. Jarmel, AIA, MBA of @JarmelKizel

Mr. Jarmel is an Architect, Real Estate Developer, Renewable Energy Enthusiast, Entrepreneur and Owner of Jarmel Kizel Architects and Engineers Inc.

He received a Bachelors of Architecture from NJIT in 1990 and an MBA from Rutgers University in 1994. He can be found online at the following social media sites: LinkedIn, Facebook and Twitter.

About the Firm

Since the firm’s founding in 1975, Jarmel Kizel has worked its way from the inside out; originally concentrating on the interior design of corporate offices and since has grown into a full-service Architectural, Engineering, and Interior Design firm that provides a single point of accountability for all aspects of design services. The firm’s size and abilities enable it to handle a broad spectrum of projects while allowing the principals to put their seal on every one. With in-house Civil, Structural, Mechanical, Electrical, Plumbing and Fire Protection Engineering, clients can look to Jarmel Kizel to have all aspects of their projects designed and managed by one firm.

Today the firm provides a unique service platform that provides a single point of accountability for architectural and engineering services formatted to assist clients with managing their project’s design needs from site design and land entitlements to building design through construction oversight.

ILMA INTERVIEW

When and why did you decide to become an Architect?     

I knew when I was in Junior High School that I wanted to become an architect.  I grew up in the industry in that my father is a commercial interior designer, he actually founded our firm in 1975, and I was exposed to design and construction at a very early age.  My dad totally remodeled our home and he had my brother Richard, who is a civil engineer and partner in our firm, and myself helping and working with tools. 

What were some of the challenges of achieving your dream?  

The architectural and engineering industry can be very rewarding.  There is tremendous emotional fulfillment to see your ideas first take shape on paper and then through construction.  I take great pride driving by a building our firm has designed and saying we did that.  Despite the rewards the business of architecture can be very difficult.  Our industry is first hit by a recession, hardest hit and usually the last to recover.   One of the greatest challenges of working in the profession is learning how to batten down the hatches and weather the economic storms when they come. 

Any memorable clients or project highlights?  

I have many projects I am proud of many clients that I respect and that have become good friends and even partners over the years.  Some of the more notable projects I have worked on include designing the Bear Stearns Campus in Whippany, NJ.  This project was developed over years and ultimately included approximately 700,000 sf of office and data center space in five buildings, two of which we designed and the rest we designed major renovations to.  Unfortunately Bear Stearns does not exist anymore but the campus is still there.  We also were fortunate to design the first major redevelopment project in Plainfield, NJ where we designed four buildings for the Union County Improvement Authority that included a 100,000 sf office building, two retail buildings totaling 40,000 sf and a parking structure.   This project acted as a catalyst for new development in the city.   Over the last several years the firm has been very active in NYC designing many mixed use large scale projects, we have a 17 story building under construction in Queens right now.   One of my most memorable clients is The Learning Experience.   The Learning Experience is a national and soon to be international brand of child development centers.  We designed their first center 16 years ago and have since completed over 200 projects throughout the country for them.  Because of the volume of projects we have completed for them, about 70 in NJ alone, I gained tremendous experience in land entitlements and have become an expert in land entitlement strategy.

How does your family support what you do?    

The creative process can be very time consuming, running a business and being creative magnifies the time required to be an architect.  Some days I leave the house at 7 and if I have a hearing don’t get home until midnight.   Other times I am hopping on an airplane and away overnight.   My family is supportive in that they understand the taxing requirements of the job.   With that said everything I do is for my family.  So I make sure my wife and children get the attention they need from me and we plan as much quality time as possible.

How do Architects measure success?     

Some might say you measure the success of an architect by the quality and aesthetic of the buildings he or she designs, or by how much wealth and fame they have obtained.  To me a successful architect you have to be a strong leader, a strong communicator and be able to balance the aesthetic and technical issues of a building’s design all while understanding the functional and economical goals of your client.  The architect that can achieve this can become successful.  Ultimately success is measured by obtaining the respect of your peers, clients and even contractors in the industry.  

What matters most to you in design?      

Achieving my clients goals of function and budget while creating a building that is safe and attractive.   

What do you hope to achieve over the next 2 years? 5 years?  

Our firm has developed strong skills in real estate development which include land entitlements and real estate economics.   Many times we set the strategy for how to present a project to planning and zoning boards, explain the process to our clients and even their attorneys, advise on PILOT and other incentives, building valuation and assist in making introduction to equity investors and lenders.   These skills make us stand out from our competitors but not necessarily obtain higher fees.  Our goal for the next 2 to 5 years is to expand our Real Estate Advisory services to create additional revenue as a “Fee Developer” and on our own development account.

Who is your favorite Architect? Why?     

I respect the design styles of many current and historic architects.  I am a big fan of the Chicago School and of those architects Louis Sullivan is probably my favorite.  I like this style for the buildings of the time were the first commercial buildings and first to break away from using ancient detailing by employing and emphasizing technology in design.

Do you have a coach or mentor?

I do not have a specific coach or mentor but I like to bounce ideas off of my team, clients and friends.  

What is your favorite historic and modern (contemporary) project? Why?  

My favorite historic building is the Roman Pantheon.  It was built around 113 AD and has the largest unreinforced concrete dome ever made which has a giant hole in the center that allows the sun and the moon to shine in along with the rain.  It still stands 2000 years later.  The Romans were great builders, they invented concrete, experimented with reinforcing concrete with brass chains and even developed zoning rules and regulations.   As far as contemporary buildings there are so many that I love.   I lean towards high rise sky scrapers

Where do you see the profession going over the next few decades?

Although new technologies are implemented in the profession and we go through these stages where we preach design build vs a separation between design and construction professionals the industry has not changed much in my career.  I find it interesting that Ayn Rand’s “The Fountainhead” which was written in the 40’s and takes place in the 20’s and uses the architectural industry as a back story to promoting her political views speaks to many of the same type of players and issues in the industry today.  There are developers, contractors, politicians and architects.  There are residential, public and commercial buildings and she even tackles issues such as affordable housing.  All the same issues we deal with today.   I do not see major changes in the business of the profession.  Although I do see major technical influences which will affect the way we design and build buildings.  There is a robot that lays brick now.  I think as the world gets smaller through technology building codes and licensing laws will become more standardized.

What type of technology do you see in the design and construction industries?

The use of BIM is becoming the most prevalent tool used in the design of buildings.  It allows architects and engineers to work in 3 dimensions, quickly and efficiently to improve coordination and actually see the building take shape on the screen.  Despite my comment about the brick laying robot above most construction is still done with heavy machinery and by hand.  However, technology has taken over the management of projects from creating schedules, to tracking financing and creating a database of information.  

Who / what has been your greatest influence in design?      

This answer may seem odd to most architects but my great influence in design arrives from an understanding of real estate economics tied to a building’s function and economics.   When a student at NJIT I took an elective in real estate development.  It was taught by a gentleman who ran the development arm of a now defunct savings and loan so we will allow him to remain nameless.  However, he was very influential in that he said he hated architects and found them to be a necessary evil in the process because the law forced them on him to use.  Obviously, this got most of the students in the class upset but I wanted to know why he felt that way.  He thought that architects only cared about what the building looked like and had no understanding or really care for what it might cost to build, what’s its function was to be or how it generated revenue for its owners.  He introduced me to the business side of why clients build in the first place.  This motivated me to go on and obtain an MBA with a concentration in real estate development and urban land use after architectural school.  I feel that the business education in conjunction with my architectural education make me a stronger architect and have been the most influential on my design.

Which building or project type would you like to work on that you haven’t been part of yet?     

I have been fortunate to work on almost any type of commercial project.  I would like to be exposed to more hospitality projects.

How do you hope to inspire / mentor the next generation of Architects?   

I hope to mentor the next generation of architects in a way that they can understand the business goals of the client and why they are building so that they can better respond to the client’s needs I also want to mentor them to be strong leaders and great communicators.

What advice would you give aspiring architects (K-12)? College students? Graduates?

I would advise them to not only pursue their dream of designing buildings but to learn about the profession as a whole, to learn about the process of becoming an architect and career choices in the industry.  When I was in school no one told me how to become a licensed architect I had to figure it out on my own.

What does Architecture mean to you?     

It is my profession, it is my life!

What is your design process?     

First understand the client’s program goals and budget, then study the site and zoning constraints, roll up my sleeves and dive in.

If you could not be an Architect, what would you be?     

A civil engineer and or real estate developer.

What is your dream project?     

A really tall building in a major city that becomes a landmark for years to come.  If I can be a partner in its ownership even better.

What advice do you have for a future Executive leader?     

Respect and care about the people you are leading, be kind but stern.

What are three key challenges you face as a leader in business today and one trend you see in your industry?     

All challenges revolve around people.  First finding qualified people, there is a tremendous shortage of qualified architects and engineers, second finding people that can see the big picture first before the crawl into the details and finally finding people that can communicate effectively.   As far as trends see my answer to where I see the industry going above

What one thing must an executive leader be able to do to be successful in the next 3 years?      

I am optimistic that we are at the beginning of a sustainable economic growth period.  This will provide many of us with significant projects to choose from and an even more challenging labor shortage.  An executive leader will need to be able to recruit talent and keep them motivated to stay.

What are some executive insights you have gained since you have been sitting in the executive leadership seat – or what is one surprise you have encountered as the world of business continues to morph as we speak?     

I do not know if I am any smarter today at 50 then I was when I got out of school in my early 20’s what I have gained is life experience.  The most important lesson is that people will surprise you. Some will impress you, some will disappoint you, some will be loyal and others not.  I have seen some crazy things happen some good and some bad.   Just when I think I have seen everything someone surprises me. 

Final Thoughts on How to Be Successful?      

Learn your trade, be good at and then learn to be a good communication and leader and business person.

For more exclusive ILMA interviews click here.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook

Gift Ideas from ILMA


Architecture Design and Industry Forecasts for 2018

Author: Taylor Young (December 2017)

Trends in the architecture and design industries can be used as predictors for the future, helping to create forecasts for what homeowners may be looking for in the years to come. Many industry influencers predict several new trends for 2018, including open floor plans, sustainable design, and Smart home features. Including any of these and the following trends into your work in 2018 is sure to have a big impact on client satisfaction.

Modified Wood

Eco-friendly design and sustainability have topped most home and business owner lists for the last several years, and forecasts for 2018 predict more of the same. This includes using materials, such as modified wood that are durable, low maintenance, and that have a very minimal impact on the environment.

Modified wood is created using a bio-based liquid on softwoods, rendering them harder and more durable than many popular hardwoods. Because softwoods are faster growing, they create a more sustainable product. And because the resulting material is so low maintenance, it doesn’t require a lot of upkeep, which makes it very attractive to busy homeowners who want style, but without the added maintenance costs.

Engineered Wood

For interiors, engineered hardwood, like that made by Nydree, is proving to be exceptionally popular as well. Engineered hardwoods have a thin, hardwood veneer over several layers of material, each facing a different direction. This layering produces a very stable floor that doesn’t react to moisture or humidity the way that solid hardwood floors do, so the material can be installed below grade, in bathrooms, or in other areas that don’t typically see hardwood.

Nydree takes the process a step further, infusing their floors with acrylic. The result is a beautiful, long lasting floor that doesn’t use as much hardwood as competitors, providing a better, more eco-friendly product that requires less maintenance and care. This meets the needs of two trends at once – the desire for sustainability in building materials, and the low maintenance care that most people want in their homes and offices.

Hardwood Plywood

Sustainability in design extends to all areas of the industry, right down to the hardwood used to build cabinets, panels, and furniture. Hardwood plywood, like Columbia Forest Products’ PureBond, contains no added urea-formaldehyde, and meets LEED standards

PureBond is a moisture resistant plywood that can be used anywhere a hardwood veneer is required. As homeowners become more conscious of what goes into their homes, by building with a better quality plywood, you can not only get better results, you can also meet consumer demands at every level.

Handmade Furniture

From a design standpoint, many features that homeowners are looking for include things like open floor plans, and furniture that can have multiple uses and purposes, particularly in smaller spaces. However, there is also an emphasis on quality. Homeowners want pieces for their homes which have history, interest, and depth that goes beyond the way that they look.

This may be why there is a trend toward handmade furniture pieces, such as Amish living room furniture. With classic lines and details, Amish furniture fits into many different styles of décor, including some modern designs. The furniture lines are clean, with little ornate or decorative detailing, which makes them an ideal fit for many homes, particularly in busy households where low maintenance and durability are preferred.

Oversized Tile

Along with open floor plans, comes the need for a single flooring that can extend from one end of the home to another without interruption. Hardwood is a popular choice for many homes, but in modern and contemporary style settings, there is also a trend toward tile, particularly oversized porcelain tiles in a variety of textures.

Oversized tiles that are larger than 18-inches have fewer grout joints to deal with, which makes less of a grid on the floor. This in turn creates a clean, open appearance that works well with the trend toward open floor plans. Porcelain tile in particular is easy to care for and durable – it doesn’t require special cleaners or sealing and is unlikely to chip or crack. It also comes in a wide range of styles and finishes, including those that mimic the look of metal, glass, and even fabric, so it’s possible to find a tile that will complement any style or design.

Look to the Future with Today’s Trends

Trends help point the way toward what’s going to be popular or sought after in the coming years. That’s why so many industry influencers are careful to broadcast what they see as the next big thing. If you’re looking for ways to increase client satisfaction in the coming year, consider incorporating any of these forecast materials or designs into your work in 2018. Look for sustainable, durable, and low maintenance style and materials to help capture industry ideals today and tomorrow.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments – and – if you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
FRANK CUNHA III
I Love My Architect – Facebook

 


Green Glass at Corning Museum

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The New York City practice Thomas Phifer and Partners have unveiled their design for the new 100,000 square foot North Wing expansion at the Corning Museum of Glass in Corning, New York. The state of the art, “energy smart” building will provide the ideal interior environment for preserving the Museum’s unparalleled collection of glass art through natural lighting, an intelligent building envelope and sophisticated temperature and air quality controls. The $64 million North Wing is scheduled for completion in 2014.

Included in the expansion will be a 26,000 square feet of gallery space. This is the largest space anywhere dedicated to the presentation of contemporary art in glass.

Environmentally Sustainable Design Elements:

  • Insulated double glazed windows with high performance, low-E coating to reduce heat gain
  • Daytime illumination provided by natural light
  • Daylight harvesting system
  • Carbon dioxide monitors control volume of outside air intake
  • Enthalpy wheel recovers heat from building exhaust
  • VAV controls track occupancy and system performance to reduce energy consumption
  • Water economizer uses cooling towers instead of chillers to produce cooling in winter for pumps
  • Multiple valves on cooling coils reduce energy required for dehumidification
  • Commissioning of building systems maximizes equipment efficiency
  • Facility personnel training improves long-term maintenance and operation
  • Design of storm water retention reduces run-off and erosion
  • Site lighting is designed to meet Dark Sky standards

Click here to read more about this exciting project!

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We would love to hear from you on what you think about this post.  We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
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Sustainable Cities

written by Cathe Reams

The challenges presented by sustainable urban development are immense. Today, more than half of the world’s population already lives in cities and the numbers are rising. Cities are responsible for around 75 percent of all energy used, 60 percent of all water consumed and 80 percent of all greenhouse gases produced worldwide. To face the multitude of challenges arising from urbanization and demographic change, cities are looking at ways to improve the efficiency of their infrastructures. With the right technology cities can become more environmentally friendly, increase the quality of life for their residents, and cut costs all at the same time.

For a real-world look at how our solutions can be implemented today, please download “Smarter Neighborhoods, Smarter City”. This report contains detailed recommendations on how to help America’s largest urban area – the City of New York – plan for more sustainable growth.

Sustainable development & urban infrastructure

Cities continue to grow as more and more people move into urban areas and with this shift towards urbanization, cities are experiencing an increasing strain on their current infrastructure systems. Roadways, power grids, telecommunications lines and public transportation are all systems which rely on a strong infrastructure to handle demand. Optimizing these infrastructural networks is an immense task which requires public and private cooperation.

Power generation and distribution

To meet the growing demand for power, an intelligent and flexible grid infrastructure, is essential. An overloaded power grid can cause the kind of blackout which swept through New York City and much of the Northeast corridor in the US in 2003. Blackouts like these can be prevented with a modern, reliable, environmentally friendly, and affordable energy grid system which works to match the supply and demand balance of our energy systems.

Siemens offers components and solutions for the entire energy conversion chain. This starts with power generation in highly efficient combined gas and steam turbines, solar power plants and wind turbines. The electrical power generated there can be transported to cities with little loss via high-voltage direct current lines which help maintain and efficient transmission on energy through the country.

Sustainable transportation

How do we get from point A to point B in the most efficient manner possible? How do we get people out of gridlock and on the move again? For starters, intelligent traffic control systems contribute to helping traffic flow. They reduce fuel consumption, air pollution, and noise by allowing cars to stop less frequently. Additionally, particularly in cities where space is limited, public transportation systems become increasingly important network for connecting people. Trains in particular are an environmentally friendly alternative to cars and airlines. The Siemens Velaro is a good example. This fourth generation high-speed train consumes only 0.14 gallons of fuel per seat per 100 miles.

Sustainable healthcare infrastructure

In healthcare, too, a shift in thinking about the use of energy and raw materials has set in. Both ecological and economical requirements must be considered when faced with the challenge of creating sustainable infrastructure solutions. Siemens helps hospitals to pave the way for the future – with green hospitals. With its modular Green+ Hospitals concept, Siemens is firmly gearing its healthcare portfolio towards environmental care and sustainability.
The most decisive factor for protecting the environment and minimizing costs in hospitals is power consumption. Energy costs can be reduced through energy optimization, building automation, and the use of energy-saving equipment. A smooth and safe workflow with structured clinical pathways, short examination times, and the comprehensive use of IT is also key to the economic efficiency of a hospital. And with more comfort and gentle treatment for patients, Green+ Hospitals can attain greater competitive appeal and also ensure a better quality of life. 

Read the rest of the article by clicking here.

What’s a green city to you, how is your city green, how can it be more sustainable?
Include the hashtags #GreenCity and #AIANJ & share your thoughts on Twitter.


My Architecture Manifesto: “Architecture Shall Live On” by @FrankCunhaIII

I was honored to be asked to write a “Dear Destin” letter in the memory of my friend and teacher, Stephen Perrella (RIP).  For a son (Destin) to know and understand his father through his legacy and the remnants of what was left behind is challenging but without memories we cannot be human.  Without Architecture one cannot truly appreciate life.  Great Architecture is all around us.  It is important for us to celebrate it each and every day.  It is important for all of us to reflect and teach the young ones around us what it means to be alive.  To inhabit a great space is to love and to live.  To me, great Architecture is a gift to be cherished.

February 22, 2011

Dear Destin,

Your father Stephen Perrella is a special person who was gifted in many ways. To me he was a teacher, a friend, and a colleague. Most of all he was a theorist. He formulated, devised, calculated. He manipulated, transformed, and sculpted space. He was a weaver of space.

Before I begin I have to say that your birth changed Stephen for the better. You filled a void in his soul that no one else could. You enriched his soul and thirst for life. He lived each day for you. After you were born, Stephen was at peace with himself and transformed his pursuit from theory to the built.

Architecture design left un-built is not really Architecture, but merely a lot of ideas. You must build in order for something to be considered Architecture.

Architecture is the marriage of art and science of designing and erecting buildings and other physical structures. Architecture is a style and method of design and construction of buildings and other physical structures for human use.

Although more than a decade has past since I took his class I still hold his 4 principals of Architecture/Theory/Design close to me. Not a day goes by when I do not think about what he taught me.

Sign Structure Context Program

These four simple words are the devices that I use every time I design “space.” Although the meaning of these words evolves with the passing of time, these canons have passed the test of time.

The general (abbreviated) definitions are as follows:

Sign

In true Venturian spirit (1), our first lesson in Stephen’s studio was to examine signs along the roadway. The “image,” “face,” “aesthetic,” “look” of something created is the “Sign,” a modern day façade.

Like Filippo Brunelleschi before him, Stephen was interested in spatial theory. The Florentine Architect and Engineer Brunelleschi was the first to carry out a series of optical experiments that led to a mathematical theory of perspective.

When I design, and I think of Signage, I think of what one will see. How the Architectural object will be seen and remembered. It is important to consider this since Architecture is often considered an object someone looks at from the outside.

Structure

After that examination was complete, Stephen asked us to look at how the signage was structured.The structure itself becomes integral to the design of space and what I remember most was Stephen’s passion for the great philosophers like Gilles Deleuze and Felix Guattari (2). In particular I remember reading “The Fold: Leibniz and the Baroque,” but Stephen got me so excited that I bought every philosophy book I could get my hands on.

Context

As important as what something look likes or how it stands is to know how it is placed in it’s surrounding. This became the third study in Stephen’s studio.

I remember looking at information and flow of information from a theoretical standpoint and my view of what context could be. In today’s world, context changes (telecommunications for example). We studied Bernard Tschumi’s “Architecture and Disjunction” and learned about how program, context, image could be interchanged so that the design would be altered. For example, take an existing cathedral and adapt it as a parking garage. To think of Architecture as an object and then transform it’s context changes how the object is perceived, which leads me to Stephen’s final principle.

Program

By the chronological placement of this final study I have to assume that your father believed in “Function FOLLOWS Form” (3) although I can be wrong. At the time of teaching this class Stephen was not only “competing” with himself but with other Architects like Reiser and Umemoto. As you may know by now Stephen coined the term, “Hypersurface,” which was an archetype or typology of architectural production.

Once you put these four parts together to develop a system a unique theoretical work of Architecture can be created.

The system that is created to produce the design changes each time and the result is always different. This is a fantastic attribute in a world that longs for uniqueness and creativity. I have not fully realized everything that I want to realize in my young career yet, but I know that armed with the education your father gave me I can use these principals to produce wonderful Architecture.

I hope this brief recap is only the beginning and we can share more ideas on Stephen’s life one day soon.

Truly Yours,

Frank Cunha III, AIA, NCARB

References:

(1) Venturi, Robert, Denise Scott Brown, and Steven Izenour. Learning from Las Vegas: The Forgotten Symbolism of Architectural Form. Cambridge, MA: MIT Press, 1977

(1) Gilles Deleuze (18 January 1925 – 4 November 1995) was a French philosopher who, from the early 1960s until his death, wrote influentially on philosophy, literature, film, and fine art. His most popular works were the two volumes of Capitalism and Schizophrenia: Anti-Oedipus (1972) and A Thousand Plateaus (1980), both co- written with Félix Guattari. His metaphysical treatise Difference and Repetition (1968) is considered by scholars to be his magnum opus.

(3) “Form follows function” is a principle associated with modern Architecture and industrial design in the 20th century. The principle is that the shape of a building or object should be primarily based upon its intended function or purpose.

Some images of my third year studio project with Stephen (Spring of 1996 at NJIT SOA):

Las Vegas Hotel of the Future – Floor Plan

The shape of the movement of the Architectural form is informed by the mountains surrounding Las Vegas, NV.

Las Vegas Hotel of the Future – Information is Gathered

The human Body and the Folds were examined for this project.

Las Vegas Hotel of the Future – Information Flows

The elegance of the ballerina versus the vulgarity of the LV Strippers was analyzed.
Perhaps the Show Girl fits someplace in the middle?

Las Vegas Hotel of the Future – Information is Disseminated

If Twitter, Facebook, and Linked In existed, this project would emulate the feeling
of “plugging” into something greater than oneself.  The Architectural space produced by
“the object” is informed by moving/experiencing the city following the rhythm of its context.

Las Vegas Hotel of the Future – The Show Girls & Strippers Inform

Can Show Girls and Strippers inform great Arhcitecture and spaces? Sure why not?
Architecture can be sexy and smart.

Information Flows thru the Strip Like a Cyclone or Tornado like an Information Hurricane carving space.

I guess there was a collective consciousness arising about social awareness and a social
consciousness because the idea here was that the occupants of the city of the future would all
contribute to the overall Architectural object.  The building itself was comprised of the people who
inhabited it (kinda like those smart vechicles that plug in and chain up on the road to create
super-trains that create hierarchical domination over the less efficient vehicles on the road).

Las Vegas Hotel of the Future – The occupants and the space are one.

Does the Architecture inhabit the occupant or vice-versa?

Nomadic Space / Nomadic Occupants

The whole idea is that Architecture is NOT static.  It moves with the flow of energy/information
and engulfs the occupants within it as it speeds through the city, plugging in from one space to another.

There is an “Information Exchange” throughout City

The result of the “carving” of space is that imprints are left on the existing hotels on the Strip.
The “old” Architecture is informed by the “new” spinning object (a bit like Zaha and Libeskind).

The bright lights, neon lights, gambling games, billboard signs and the
natural landscape of the mountains surrounding the Strip all inform the Architecture of the
City and inform the shape of the Hotel of the Future.
The sculpture that is created carves space and changes the landscape of the City.
The hotel of the future exchanges information by moving throughout the Strip.The cyclone / tonado / hurricane that is “the process” of creating the design can
cease to exist and what is left over becomes the Architecture of the City.
The Architecture is informed by the form that is created.  The Architecture exposes its structure.
Occupants “plug” into the Architecture by communicating with others.  (Back then there was no
social media (Aghhh), but in a sense that is what I had in mind when I developed this project.)