Warning: Only you can make a difference – Global smog recorded at all time high by Mauna Loa Observatory #Environment #ThinkGreen #Eco #ilmaBlog

At the Mauna Loa Observatory in Hawaii, carbon dioxide levels were recorded at 415 parts per million last week. That is the highest level recorded there since it began such analyses in 1958. It’s also 100 parts per million higher than any point in the roughly 800,000 years for which scientists have data on global CO2. In other words, “levels of carbon dioxide in the atmosphere are now nearly 40 percent higher than ever in human history.” [Popular Science]

Governments of the world need to triple their current efforts to reduce greenhouse-gas emissions in order to prevent global warming of more than 2 °C by 2030, the United Nations Environment Programme (UNEP) said in its annual “emissions gap” report (Nov 27, 2018).

Drawdown Emissions – Big Ideas

Some “big think” solutions for CO2 gas emissions reduction can be found at the Drawdown website. These recommendations have been identified and ranked using an objective scientific method. Many of these ideas require engineering and scientific solutions, therefore, we offer the following as methods that you can get started today in doing your part towards reducing the emissions of C02.

Ten Ways to Reduce Greenhouse Gases – Start Small

Burning fossil fuels such as natural gas, coal, oil and gasoline raises the level of carbon dioxide in the atmosphere, and carbon dioxide is a major contributor to the greenhouse effect and global warming. You can help to reduce the demand for fossil fuels, which in turn reduces global warming, by using energy more wisely. 

The following is a list of 10 steps YOU can take to reduce greenhouse gas emissions:

  1. Reduce, Reuse, Recycle
  2. Use Less Heat and Air Conditioning
  3. Replace Your Light Bulbs
  4. Drive Less and Drive Smart
  5. Buy Energy-Efficient Products
  6. Use Less Hot Water
  7. Use the “Off” Switch
  8. Plant a Tree          
  9. Get a Report Card from Your Utility Company
  10. Encourage Others to Conserve

These 10 steps found at this website will take you a long way toward reducing your energy use and saving you money. Less energy use means less dependence on the fossil fuels that create greenhouse gases and contribute to global warming.

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. 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


New Project by @FC3Architect is Almost 100% Completed (Teaneck, NJ) #BeforeAndAfter #CustomResidential #Home

One of the things we enjoy doing is: Helping People Make Their Dreams Come True!!! Here is another example of a successful transformation we helped imagine for the homeowners.

One of our projects is nearly completed. We more than doubled the size of the existing residence by creating a dynamic link that opens up the garden into the home with a connecting link. This “knuckle” becomes a link from the old home (which serves as the existing den and existing kitchen on the lower level) to the new home which includes a new dining area and family room. Upstairs, the addition boasts a master suite allowing us to increase the size of the existing bedrooms. Click here to read the original post about this project.

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. And feel free to contact us if you would like to discuss ideas for your next project!

To see more projects by FC3 Architecture + Design, please click here.

Sincerely,

FRANK CUNHA III
I Love My Architect – Facebook


21 Improvements in Technology Architects Can Expect by 2030 #Innovation #Technology #ilmaBlog

  1. 90% of the population will have unlimited and free data storage.
  2. The first robotic pharmacist will arrive in the US.
  3. 1 trillion sensors will be connected to the internet.
  4. 10% of the world’s population will be wearing clothes connected to the internet.
  5. The first 3D printed car will be in production.
  6. The first implantable mobile phone will become commercially available.
  7. It is likely we will see more widespread adoption of implantable technologies emerge.
  8. The first government to replace its census with big-data technologies.
  9. 10% of reading glasses will be connected to the internet.
  10. 80% of people on earth will have a digital presence online.
  11. A government will collect taxes for the first time via blockchain. 10% of global gross domestic product will be stored using blockchain technology.
  12. 90% of the global population will have a supercomputer in their pocket.
  13. Access to the Internet will become a basic right.
  14. The first transplant of a 3D printed liver will occur.
  15. More than 50% of Internet traffic to homes will be from appliances and device.
  16. 5% of consumer products will be 3D printed.
  17. 30% of corporate audits will be performed by artificial intelligence.
  18. AI will increasingly replace a range of jobs performed by people today, including white collar jobs.
  19. Globally, more trips will be made using car sharing programs than privately owned cars. Driverless cars will account for 10% of all cars in the US.
  20. The first AI machine will join a corporate board of directors.
  21. The first city with more than 50,000 people and no traffic lights will come into existence.

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. 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


Architect’s Follow Up on the Cathedral of Notre-Dame de Paris and Creating Safer Work Environments #UnderConstruction #Safety #Design #Architecture #LessonsLearned #SafetyFirst #Design #Build #Architect #ilmaBlog

Follow Up on the Cathedral of Notre-Dame de Paris and Creating Safer Work Environments

A few weeks ago on April 15th, 2019, a fire destroyed the roof and wooden spire of the Notre-Dame de Paris.

One of the most famous timber frame fires started just after midnight on the 2nd September 1666 in Pudding Lane. After burning for three days it destroyed nearly 90 percent of the inhabitants of London’s homes.

Getty Images

Possible Causes For Blaze

Although officials say that the investigation could last several weeks and nothing can be ruled out at this time, there is much suspicion that the blaze may have been started by a short-circuit near the spire.

The short circuit may have been possibly caused by electrified bells, or negligence by construction workers carrying out the ongoing renovations, a theory fueled by the discovery of cigarette butts.

Typical Sources of Ignition

Not related to the fire, but for a matter of reference, sources of ignition during construction may generally include: (1) Hot works – cutting, grinding, soldering, hot pitching; (2) Faulty electrical equipment – damaged sockets and equipment, service strikes, temporary supplies and halogen lighting; (3) Arson – works in high crime rate areas, protests and objections to the scheme, disgruntled employees or contractors; (4) Reactive chemicals; (5) Fire Loading; (6) Fire Spread – The Offsite Risks; (7) and Constrained sites.   It will be interesting to see what the investigators are able to uncover in the following weeks.

André Finot, the cathedral’s spokesman, pointed out traces of damage. “Everywhere the stone is eroded, and the more the wind blows, the more all of these little pieces keep falling,” he said. (Photo Credit: Dmitry Kostyukov for The New York Times)

Ongoing Renovations

Fallen stones on the cathedral’s roof. Experts say that the building has reached a tipping point and that routine maintenance is no longer enough to prevent rain, wind and pollution from causing lasting damage. (Photo Credit: Dmitry Kostyukov for The New York Times)
Masonry that has broken away or that was taken down as a precautionary measure has been piled up on a small lawn at the back of the cathedral. (Photo Credit: Dmitry Kostyukov for The New York Times)

According to the New York Times, the biggest renovation at the cathedral took place between 1844 and 1864 when the spire and the flying buttresses were rebuilt.  The most recent overhaul, however, was meant to be understated. “The idea isn’t to replace every single stone. I don’t want to give this cathedral a face-lift,” said Philippe Villeneuve, the chief architect behind the project.  The renovations, which are estimated to cost $150 million euro ($169 million) were still ongoing when the cathedral caught fire.  Most likely something to do with the renovations of the cathedral led to its temporary demise.

Design Input

The event, which occurred during holy week sparked an intense national debate on how the 856-year-old cathedral should be rebuilt.  The French public will get a say on how the fire-ravaged Notre Dame cathedral will be rebuilt, officials say. 

FYI: In a separate blog post, ILMA plans to do a write up on the current designs that are being suggested by Architects and designers around the world.

Construction Workers – Risk Management

As a matter of course, this heartbreaking occurrence give us pause to consider the threats that can occur during construction.  Some risks to workers that need to be managed during construction and renovations include the following: (1) Working at Height; (2) Slips, Trips and Falls; (3) Moving Objects; (4) Noise; (5) Manual Handling; (6) Vibrations; (7) Collapses; (8) Asbestos; (9) Electricity; (9) Respiratory diseases. (Sources: Top 10 construction health and safety risks) and OSHA’s Top Four Construction Hazards); From the perspective of keeping the building safe during renovations and/or construction and saving lives, the following should be considered:

Building Safety – Risk Management

  1. Installation of sprinkler systems and fire detection systems early on in construction
  2. Availability of standpipes
  3. Commissioning the sprinkler system
  4. Access to fire extinguishers
  5. Make sure your fire detection and warning systems work
  6. Maintaining means of egress; Building compartmentation and protected fire routes in as the building is constructed
  7. Protect emergency escape routes
  8. Secure the site against arson
  9. Protect temporary buildings and accommodation
  10. Store equipment safely
  11. Design out hot works
  12. Keep the site tidy
  13. Keep project site and equipment safe
  14. No smoking
  15. Increase security for the site – CCTV, Full height hoarding, signage
  16. Engagement of local fire departments – to assess water pressure and accessibility
  17. Proper fire risk assessment that considers fire loading and fire separation distances

Learning From the Tragedy of the Cathedral of Notre-Dame de Paris

As timber is becoming increasingly more popular in high rises it is important to consider the past when managing the risks of projects utilizing wood framing.  Although there are many studies and test on modern day timber/wood designs, it is still important to consider the risks that are present on any jobsite.  Spending the money to do construction the right way will help reduce the inherent risks with construction – both to safeguard people as well as the buildings that we cherish.

For more information on my take on what happened at Notre Dame, please consider checking out the original articles: Personal Reflection on the Tragedy of April 15, 2019 at Notre Dame Cathedral in Paris and What Makes Notre Dame Cathedral So Important as a Work of Architecture?.

Additional Reading:

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. 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


#FollowTheFrog: Small Actions Can Make A Big Impact #ilmaBlog Subscribe Today

Some comic relief mixed with a great message at the end. Enjoy!

Frank


Bring Your Children to Work Day at @MontclairStateU #ArchWeek19 #CitizenArchitect #BlueprintForBetter #ilmaBlog #Architecture #UniversityArchitect

Brief Announcement
On April 25th, Frank Cunha III & Michael Chiappa participated in a Bring Your Children to Work Day at MSU where we were able to teach the children about architecture, planning, design and construction. We showed them the old ways, the current ways and the future ways that architects envision projects and help build the world around us.

About Bring Your Children to Work Day
National Take Our Daughters and Sons to Work Day is recognized on the fourth Thursday in April each year. This annual event is an educational program in the United States and Canada where parents take their children to work with them for one day.

Presentation
The following is the slideshow we presented to the children:

About the Event
This year some of the parents decided to focus on STEM and what it means to be an Architect….a profession that is both creative and artistic, yet methodical and scientific. We explored what it means to be an Architect and other STEM fields and how anyone, regardless of gender, race, religion or ethnicity can aspire to do great things. Architecture is just one of many pathways where we can lead through change and technology. We looked at old blue prints, 3-D modeling, 3-D printing, building materials, using our original 1908 building (College Hall) for context in describing the process and all of the wonderful people that it takes to conceive of a project — We looked at interior design and site design as part of the overall architectural design of a campus. We emphasized, that although not all the children will decide to become architects, it is important to understand what architects do and how to understand how we think and how/what we do. We all need to learn from each other and work as a team to get things done. It was exciting to see the children work with the campus hand on when we had them work on an interactive puzzle of the campus. One of the students said: ” The campus is like a small city.” It was really fulfilling to see that she understood that the university is like a small city. It felt great to make an impact and promote architecture to young children.

Coincidentally, Architecture Week is held every April as part of the American Institute of Architects (AIA) nationwide celebration of our built environment, so that made the day even more special to me.

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. 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


New Campus Center at Springfield Technical Community College #UniversityArchitect #Rehabilitation #Community #College #Architecture #Transformation #ilmaBlog

All Photos: Chuck Choi

Combining historic preservation, adaptive reuse, and contemporary architecture, Springfield Technical Community College’s new Campus Center repurposes a 764-foot-long by 55-foot-wide warehouse building originally constructed between 1846 and 1864.

A major aspect of the Springfield, Massachusetts, University’s Campus Center is The Ira H. Rubenzahl Student Learning Commons. The Campus Center and Student Learning Commons consolidate academic services and student life activities under one roof. Corten steel canopies along the building’s facade distinguish new entrances into each hub.

Click Here to read the rest of the story.

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. 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


The More You Serve the More You Earn

Friends, I have been thinking more and more how I can add value to the people I serve. I have also been trying to figure out how to scale up what I am currently doing (that which I love), so that I can impact more lives and serve more people. When I came across this Dave Ramsey video I had to share it with my audience. I hope it gives you a different perspective on how we measure our wealth and well-being.

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. 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


What Will Higher Education Look Like 5, 10 or 20 Years From Now? Some Ways Colleges Can Reinvent Themselves #iLMA #eMBA #Innovation #Technology #Planning #Design #HigherEducation #HigherEd2030 #University #Architect

Introduction

Change is a natural and expected part of running a successful organization. Whether big or small, strategic pivots need to be carefully planned and well-timed. But, how do you know when your organization is ready to evolve to its next phase? Anyone that listens, watches, or reads the news knows about the rising cost of higher education and the increasing debt that education is putting on students and alumni and their families.

At a time when education is most important to keep up with increasing technological changes, institutions need to pivot or face imminent doom in an ever increasing competitive environment. Competition can come from startups or external factors in the higher education market therefore it is increasingly necessary for institutions of higher learning to take a different approach to their business operations.

This post will focus on:

  • Current Trends
  • Demographic Shifts
  • Future of Higher Education (and impacts on University Facilities & Management)
    • Changing Assumptions
    • Implications for the Physical Campus
    • Changing Trajectory
    • More Trends in Higher Education (Towards 2030)
  • Driving Technologies
  • External Forces

Current Trends

  • Online education[i] has become an increasingly accepted option, especially when “stackable” into degrees.
  • Competency-based education lowers costs and reduces completion time for students.
  • Income Share Agreements[ii] help students reduce the risk associated with student loans.
  • Online Program Manager organizations benefit both universities and nontraditional, working-adult students.
  • Enterprise training companies are filling the skills gap by working directly with employers.
  • Pathway programs facilitate increasing transnational education[iii], which serves as an additional revenue stream for universities.

Demographic Shifts

According to data from the National Clearinghouse and the Department of Education[iv]:

  • The Average Age of a College/University Student Hovers Around Twenty-Seven (Though That Is Decreasing as The Economy Heats Up)
  • 38% of Students Who Enrolled In 2011 Transferred Credits Between Different Institutions At Least Once Within Six Years.
  • 38% of Students Are Enrolled Part-Time.
  • 64% of Students Are Working Either Full-Time or Part-Time.
  • 28% of Students Have Children of Their Own or Care For Dependent Family Members.
  • 32% of Students Are from Low-Income Families.
  • The Secondary Education Experience Has an Increasingly High Variation, Resulting In Students Whose Preparation For College-Level Work Varies Greatly.

Future of Higher Education (and impacts on University Facilities & Management)

The future of higher education depends on innovation. 

University leaders who would risk dual transformation are required to exercise full commitment to multiple, potentially conflicting visions of the future. They undoubtedly confront skepticism, resistance, and inertia, which may sway them from pursuing overdue reforms.[v]

Change is upon us.

“All universities are very much struggling to answer the question of: What does [digitization[vi]] mean, and as technology rapidly changes, how can we leverage it?” . . . . Colleges afraid of asking that question do so at their own peril.”[vii]

James Soto Antony, the director of the higher-education program at Harvard’s graduate school of education.

Changing Assumptions

Until recently the need for a physical campus was based on several assumptions:

  • Physical Class Time Was Required
  • Meaningful Exchanges Occurred Face to Face
  • The Value of an Institution Was Tied to a Specific Geography
  • Books Were on Paper
  • An Undergraduate Degree Required Eight Semesters
  • Research Required Specialized Locations
  • Interactions Among Students and Faculty Were Synchronous

Implications for the Physical Campus

  • Learning – Course by course, pedagogy is being rethought to exploit the flexibility and placelessness of digital formats while maximizing the value of class time.
  • Libraries – Libraries are finding the need to provide more usable space for students and faculty.  Whether engaged in study, research or course projects, the campus community continues to migrate back to the library.
  • Offices – While the rest of North America has moved to mobile devices and shared workspaces, academic organizations tend to be locked into the private, fixed office arrangement of an earlier era – little changed from a time without web browsers and cell phones. 
  • Digital Visible – From an institutional perspective, many of the implications of digital transformation are difficult to see, lost in a thicket of business issues presenting themselves with increasing urgency. 

Changing Trajectory

University presidents and provosts are always faced with the choice of staying the course or modifying the trajectory of their institutions.  Due to failing business models, rapidly evolving digital competition and declining public support, the stakes are rising.  All should be asking how they should think about the campus built for the 21st century.[viii]  J. Michael Haggans[ix] makes the following recommendations:

  • Build no net additional square feet
  • Upgrade the best; get rid of the rest
  • Manage space and time; rethink capacity
  • Right-size the whole
  • Take sustainable action
  • Make campus matter

More Trends in Higher Education (Towards 2030)

  • The Rise of The Mega-University[x]
  • ; Public Private Partnerships (P3’s) Procurement Procedures Will Become More Prevalent
  • More Colleges Will Adopt Test-Optional Admissions
  • Social Mobility Will Matter More in College Rankings
  • Urban Colleges Will Expand[xi] — But Carefully
  • Financial Crunches Will Force More Colleges to Merge
  • The Traditional Textbook Will Be Hard to Find; Free and Open Textbooks
  • More Unbundling and Micro-Credentials
  • Continued Focus on Accelerating Mobile Apps
  • Re-Imagining Physical Campus Space in Response to New Teaching Delivery Methods
  • Transforming the Campus into A Strategic Asset with Technology
  • Education Facilities Become Environmental Innovators
  • Ethics and Inclusion: Designing for The AI Future We Want to Live In
  • Visibility (Transparency) And Connectedness
  • Sustainability from Multiple Perspectives
  • Better Customer Experiences with The Digital Supply Chain
  • Individualized Learning Design, Personalized Adaptive Learning
  • Stackable Learning Accreditation
  • Increased Personalization: More Competency-Based Education They’ll Allow Students to Master A Skill or Competency at Their Own Pace.
  • Adaptation to Workplace Needs They’ll Adapt Coursework to Meet Employer Needs for Workforce Expertise
  • Greater Affordability and Accessibility They’ll Position Educational Programs to Support Greater Availability.
  • More Hybrid Degrees[xii]
  • More Certificates and Badges, For Example: Micro-Certificates, Offer Shorter, More Compact Programs to Provide Needed Knowledge and Skills Fast[xiii]
  • Increased Sustainable Facilities – Environmental Issues Will Become Even More Important Due to Regulations and Social Awareness; Reduced Energy Costs, Water Conservation, Less Waste
  • Health & Wellness – Physical, Spiritual and Metal Wellbeing
  • Diversity and Inclusion Will Increase
  • Rise of The Micro-Campus[xiv] And Shared Campuses[xv]
  • E-Advising to Help Students Graduate
  • Evidence-Based Pedagogy
  • The Decline of The Lone-Eagle Teaching Approach (More Collaboration)
  • Optimized Class Time (70% Online, 30% Face to Face)
  • Easier Educational Transitions
  • Fewer Large Lecture Classes
  • Increased Competency-Based and Prior-Learning Credits (Credit for Moocs or From “Real World” Experience)[xvi]
  • Data-Driven Instruction
  • Aggressive Pursuit of New Revenue
  • Online and Low-Residency Degrees at Flagships
  • Deliberate Innovation, Lifetime Education[xvii]
  • The Architecture of The Residential Campus Will Evolve to Support the Future.
  • Spaces Will Be Upgraded to Try to Keep Up with Changes That Would Build In Heavy Online Usage.
  • Spaces Will Be Transformed and Likely Resemble Large Centralized, Integrated Laboratory Type Spaces. 
  • Living-Learning Spaces in Combination Will Grow, But On Some Campuses, Perhaps Not In The Traditional Way That We Have Thought About Living-Learning To Date.

Driving Technologies:

  • Emerging Technologies – Such as Augmented Reality, Virtual Reality, And Artificial Intelligence – Will Eventually Shape What the Physical Campus Of The Future Will Look Like, But Not Replace It.[xviii]
  • Mobile Digital Transformation[xix]
  • Smart Buildings and Smart Cities[xx]
  • Internet of Things
  • Artificial Intelligence (AI), Including Natural Language Processing
  • Automation (Maintenance and Transportation Vehicles, Instructors, What Else?)
  • Virtual Experience Labs, Including: Augmented Reality, Virtual Reality Learning, And Robotic Telepresence 
  • More Technology Instruction and Curricula Will Feature Digital Tools and Media Even More Prominently
  • New Frontiers For E-Learning, For Example, Blurred Modalities (Expect Online and Traditional Face-To-Face Learning to Merge)[xxi]
  • Blending the Traditional; The Internet Will Play Bigger Role in Learning
  • Big Data: Colleges Will Hone Data Use to Improve Outcomes

External Forces:

  • [xxii]: Corporate Learning Is A Freshly Lucrative Market
  • Students and Families Will Focus More on College Return On Investment, Affordability And Student Loan Debt
  • [xxiii]
  • Greater Accountability; Schools will be more accountable to students and graduates
  • Labor Market Shifts and the Rise of Automation
  • Economic Shifts and Moves Toward Emerging Markets
  • Growing Disconnect Between Employer Demands and College Experience 
  • The Growth in Urbanization and A Shift Toward Cities 
  • Restricted Immigration Policies and Student Mobility
  • Lack of Supply but Growth in Demand
  • The Rise in Non-Traditional Students 
  • Dwindling Budgets for Institutions[xxiv]
  • Complex Thinking Required Will Seek to Be Vehicles of Societal Transformation, Preparing Students to Solve Complex Global Issues

Sources & References:


[i] Online education is a flexible instructional delivery system that encompasses any kind of learning that takes place via the Internet. The quantity of distance learning and online degrees in most disciplines is large and increasing rapidly.

[ii] An Income Share Agreement (or ISA) is a financial structure in which an individual or organization provides something of value (often a fixed amount of money) to a recipient who, in exchange, agrees to pay back a percentage of their income for a fixed number of years.

[iii] Transnational education (TNE) is education delivered in a country other than the country in which the awarding institution is based, i.e., students based in country Y studying for a degree from a university in country Z.

[iv] Article accessed on April 16, 2019: https://er.educause.edu/articles/2019/3/changing-demographics-and-digital-transformation

[v]Article accessed on April 16, 2019: https://ssir.org/articles/entry/design_thinking_for_higher_education

[vi] Digitization is the process of changing from analog to digital form.

[vii] Article accessed on April 16, 2019:  https://qz.com/1070119/the-future-of-the-university-is-in-the-air-and-in-the-cloud

[viii] Article accessed on April 16, 2019: http://c21u.gatech.edu/blog/future-campus-digital-world

[ix] Michael Haggans is a Visiting Scholar in the College of Design at the University of Minnesota and Visiting Professor in the Center for 21st Century Universities at Georgia Institute of Technology.  He is a licensed architect with a Masters of Architecture from the State University of New York at Buffalo.  He has led architectural practices serving campuses in the US and Canada, and was University Architect for the University of Missouri System and University of Arizona.

[x] Article accessed on April 16, 2019:  https://www.chronicle.com/interactives/Trend19-MegaU-Main

[xi] Article accessed on April 16, 2019:  https://www.lincolninst.edu/sites/default/files/pubfiles/1285_wiewel_final.pdf

[xii] Article accessed on April 16, 2019: https://www.fastcompany.com/3046299/this-is-the-future-of-college

[xiii] Article accessed on April 16, 2019: https://www.govtech.com/education/higher-ed/Why-Micro-Credentials-Universities.html

[xiv] Article accessed on April 16, 2019: https://global.arizona.edu/micro-campus

[xv] Article accessed on April 16, 2019: https://evolllution.com/revenue-streams/global_learning/a-new-global-model-the-micro-campus

[xvi] Article accessed on April 16, 2019:  https://www.chronicle.com/article/The-Future-Is-Now-15/140479

[xvii] Article accessed on April 16, 2019:  https://evolllution.com/revenue-streams/market_opportunities/looking-to-2040-anticipating-the-future-of-higher-education

[xviii] Article accessed on April 16, 2019: https://www.eypae.com/publication/2017/future-college-campus

[xix] Article accessed on April 16, 2019: https://edtechmagazine.com/higher/article/2019/02/digital-transformation-quest-rethink-campus-operations

[xx] Article accessed on April 16, 2019: https://ilovemyarchitect.com/?s=smart+buildings

[xxi] Article accessed on April 16, 2019: https://www.theatlantic.com/education/archive/2018/04/college-online-degree-blended-learning/557642

[xxii] Article accessed on April 16, 2019: https://qz.com/1191619/amazon-is-becoming-its-own-university

[xxiii] Article accessed on April 16, 2019: https://www.fastcompany.com/3029109/5-bold-predictions-for-the-future-of-higher-education

[xxiv] Article accessed on April 16, 2019: https://www.acenet.edu/the-presidency/columns-and-features/Pages/state-funding-a-race-to-the-bottom.aspx

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. 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


Augmented Reality Enables Children to Learn in the Real World #ilmaBlog #Education #VR #Technology #Classroom #MyUniversityArchitect #Architect

MBDs (Mobile broadband devices, or smartphones) allow students to access and collect additional information and clues. Students use EcoMOBILE activities developed with an augmented reality application, to navigate between “hotspots,” view information, answer questions, and observe virtual media overlaid on the physical pond.

Students can capture pictures, video, or voice recordings and take these back to the classroom to help make sense of school lessons. Through augmented reality we provide students with visualizations that would not otherwise be apparent in the natural environment (for example, virtual x-ray vision so that they can “see” a virtual carbon atom as it moves through the processes of photosynthesis and respiration).

These augmented reality experiences allow students to conceptualize and discuss processes and complex relationships that are otherwise difficult to describe or visualize.

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. 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


“What Is Your Life’s Blueprint?” 3 Lessons by Martin Luther King, Jr. #ilmaBlog #Leadership

Rarely seen footage of Martin Luther King, Jr., speaking to students at Barratt Junior High School in Philadelphia on October 26, 1967, where he delivered his speech “What Is Your Life’s Blueprint?” Video used by permission of The School District of Philadelphia. All rights reserved. Speech reprinted in A Time to Break Silence: The Essential Works of Martin Luther King, Jr., for Students, part of the King Legacy Series, published by Beacon Press. This is the first time the speech has been published in its entirety

The lessons I learned from watching this video are:

1. You must have a deep belief in your own dignity, self worth and your own “some-bodiness.”

2. You must have principle determination to achieve excellence in your various fields of endeavor – be the best at what you are.

3. You must have a commitment to eternal principals of beauty, love and justice.

Simply put,

“If a man is called to be a street sweeper, he should sweep streets even as a Michaelangelo painted, or Beethoven composed music or Shakespeare wrote poetry. He should sweep streets so well that all the hosts of heaven and earth will pause to say, ‘Here lived a great street sweeper who did his job well.”

― Martin Luther King Jr.

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. 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


Art Everyone Should Know – Selfies By Vincent van Gogh #ILMA #Art

Before Instagram there was Vincent van Gogh who painted over 30 selfportraits between the years 1886 and 1889. His collection of selfportraits places him among the most prolific self-portraitists of all time. Van Gogh used portraitpainting as a method of introspection, a method to make money and a method of developing his skills as an artist.

Vincent van Gogh (30 March 1853 – 29 July 1890) was a Dutch Post-Impressionist painter who is among the most famous and influential figures in the history of Western art. In just over a decade he created about 2,100 artworks, including around 860 oil paintings, most of them in the last two years of his life. They include landscapes, still lifes, portraits and self-portraits, and are characterised by bold colours and dramatic, impulsive and expressive brushwork that contributed to the foundations of modern art. During his lifetime, he was not commercially successful and his suicide at 37 followed years of mental illness and poverty.

Here are some examples of his selfies:

If any of these are “fakes” please let me know.

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


The Architect’s Role in Sustainable Design (and How to Use Technology and Innovation to Advance Building Performance) #ilmaBlog #green #design #architecture #greenbuildings

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


Protected: Jersey City, City Hall Project – Phase 1

This content is password protected. To view it please enter your password below:


12 Fun Facts About the US Capital

Ever wonder….

  1. Is there any symbolic significance to the numbers of columns and steps in various locations in the Capitol?
  2. How many women are represented in the National Statuary Hall Collection?
  3. How many statues are there in the National Statuary Hall Collection?
  4. Where and what is the Capitol Rotunda?
  5. Why does the Statue of Freedom face east, away from the Mall?
  6. What is the name of the statue on top of the dome?
  7. How much did it cost to build the Capitol?
  8. What are the dimensions of the Capitol Building?
  9. What material is the U.S. Capitol made of?
  10. When did the Congress first meet in the Capitol Building?
  11. When was the U.S. Capitol built? And Who designed the U.S. Capitol?
  12. What is the function of the U.S. Capitol?

Check out the answers by visiting: Architect of the Capital

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. 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