Drywall Installation & Masonry Installation…. by Robots

A while back ILMABlog did a series on Technology in Architecture & Construction.

More recently we just discovered the latest technology coming from Japan.  Researchers at Japan’s Advanced Industrial Science and Technology Institute have built HRP-5P, a humanoid bot prototype, reported Engadget.

The bot combines environmental detection, object recognition and careful movement planning to install drywall independently, including hoisting boards and fastening them with screwdrivers. To make up for its lack of movement compared to a human, HRP-5P has numerous joints that flex to degrees people are unable to. It also can correct for slips and is capable of fields of view beyond that of a human worker’s.

The team hopes to collaborate with private companies that will treat the bot as a development platform and lead to further breakthroughs. The robot is meant to tackle the “manual shortages” Japan is facing, AIST also posits, and will allow the limited pool of human workers to focus on lighter, less dangerous work.​


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(Sources: https://www.constructiondive.com/news/japanese-researchers-create-humanoid-bot-that-installs-drywall-independentl/538678 & https://www.engadget.com/2018/10/01/aist-humanoid-robot-installs-drywall)


SAM100 is a bricklaying robot for onsite masonry construction. Designed to work with the mason, assisting with the repetitive and strenuous task of lifting and placing each brick. The mason will continue to own the site setup and final wall quality but will improve efficiency through the operation of SAM.

(Source: https://www.construction-robotics.com/sam100/)

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


History, Revolution‬, Artificial Intelligence and the Future of Architecture Featuring ‪@DuoDickinson‬ via @EntreArchitect [Updated]

This post was revised to include a weblink to a subsequent follow up podcast which was equally brilliant.A few weeks ago I heard a great podcast on EntreArchitect about Artificial Intelligence and the Future of Architecture.
Find Duo online at DuoDickinson.com and check out his blog Saved by Design or follow him on Facebook and Twitter.

FREE DOWNLOAD AUDIO – Part 1

FREE DOWNLOAD AUDIO – Part 2

(Source: https://entrearchitect.com/podcast/artificial-intelligence-and-the-future-of-architecture and https://entrearchitect.com/podcast/history-revolution-future-architecture/)

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


Artificial Intelligence

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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

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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


Library of the Future – For Colleges & Universities

If the classroom is the heart of higher education, the library is its soul.

Brief History of College Libraries

Typically, undergraduate libraries were not often discussed during the first part of the 20th century — It was thought that the basic library collections were able to meet the needs of all users, undergraduates, graduate students and faculty.

As a result of the rapid increase in the student population after World War II, undergraduate service became an issue for library and university administrators. With the growth of a complex research-oriented library and university system, undergraduate students were often bewildered. Huge card catalogs, closed book stacks and extensive reference materials overwhelmed new students and many did not seek assistance.

Harvard’s Lamont Library was the first large university’s effort to open an undergraduate library. Many other universities followed suit, such as Michigan, Texas and South Carolina. Some established full-scale libraries while others provided separate reading rooms aimed at undergraduates. One characteristic of these projects was that the books were housed in open stacks. Through design and layout undergraduate libraries and reading rooms tried to convey an informal and accessible air.

(Source: https://www.library.wisc.edu/college/about-college/history-of-college-library/)

Robert W Woodruff Library, Atlanta University Center

Robert W. Woodruff Library- Atlanta University Center

“Libraries need to break out…. We need to rethink our whole attitude about the relationship between students and space, furniture, and information, and redefine what a library should be.”

–Lee Van Orsdel Dean of University Libraries, Grand Valley State University

Library of the Future - Gensler-TrendsIn a digital world, libraries are “ripe for reinvention,” says Derek Jones, Principal in Perkins+Will’s Raleigh, N.C., office. Colleges are trimming the space their libraries allocate for books and storage and are forming consortiums to share resources. Digitization is facilitating just‑in‑time delivery of information and materials, although, as Jones points out, “when you have a million items and no budget, digitizing can be a formidable task.”

Library of the Future - EvolutionSteelcase WorkSpace Futures researchers and designers have developed key design principles for planning 21st century libraries. Like the classroom design principles, they’re based on primary user-centered research. The library design principles reflect the changed nature of a library in higher education today:

  • Design library spaces that support social learning
  • Support the librarian’s evolving role
  • Optimize the performance of informal spaces
  • Plan for adjacencies
  • Provide for individual comfort, concentration, and security
  • Provide spaces that improve awareness of, and access to, library resources

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These top 10 highlights capture the big picture themes of organizational change that need to take place to develop a Library of the Future for institutions of higher education:

Libraries remain the gatekeepers to rich tapestries of information and knowledge. As the volume of web resources increases, libraries are charged with finding new ways to organize and disseminate research to make it easier to discover, digest, and track.

Incorporating new media and technologies in strategic planning is essential. Libraries must keep pace with evolving formats for storing and publishing data, scholarly records, and publications in order to match larger societal consumption trends favoring video, visualizations, virtual reality, and more.

In the face of financial constraints, open access is a potential solution. Open resources and publishing models can combat the rising costs of paid journal subscriptions and expand research accessibility. Although this idea is not new, current approaches and implementations have not yet achieved peak efficacy.

Libraries must balance their roles as places for both independent study and collaboration. Flexibility of physical spaces is becoming paramount for libraries to serve as campus hubs that nurture cross-disciplinary work and maker activities — without eschewing their reputations as refuges for quiet reflection.

Catering to patrons effectively requires user centric design and a focus on accessibility. Adopting universal design principles and establishing programs that continuously collect data on patron needs will make libraries the ultimate destination for learning support and productivity.

Spreading digital fluency is a core responsibility. Libraries are well-positioned to lead efforts that develop patrons’ digital citizenship, ensuring mastery of responsible and creative technology use, including online identity, communication etiquette, and rights and responsibilities.

Libraries must actively defend their fundamental values. In times of economic and political unrest, libraries will be challenged to uphold information privacy and intellectual freedom while advocating against policies that undermine public interests and net neutrality.

Advancing innovative services and operations requires a reimagining of organizational structures. Rigid hierarchies are no longer effective. To meet patrons’ needs, libraries must draw from different functional areas and expertise, adopting agile, matrix like paradigms.

Enabled by digital scholarship technologies, the research landscape is evolving. GIS data, data visualization, and big data are expanding how information is collected and shared. These tools are helping libraries preserve and mine their collections while illuminating collaborative opportunities.

Artificial intelligence and the Internet of Things are poised to amplify the utility and reach of library services. These emerging technologies can personalize the library experience for patrons, connecting them more efficiently to resources that best align with their goals.

(Sources: http://uwmltc.org/wp-content/uploads/2014/05/360_Issue60-1-small.pdf and https://www.steelcase.com/research)

Library of the Future_Page_1We 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


Architecture Robots

Environmental Robots

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Robots are increasingly being utilized in everyday life to monitor and improve our environments. For example, Researchers from theNational University of Singapore have created a bevy of robotic swans that are designed to monitor the quality of freshwater lakes and reservoirs – such as levels of dissolved oxygen or chlorophyll – while blending in with the natural environment. The robotic birds, fitted with a number of sensors, autonomously swim across the water’s surface using underbody propellers.

(Source: https://www.dezeen.com/tag/robots/)

Robots in Construction

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At ETH Zurich, Gramazio & Kohler, an architectural partnership that is especially
known for its contribution to digital fabrication and robotic construction, taught at class
using a robot arm to lay bricks. This is the course as they describe it:

“If the basic manufacturing conditions of architecture shift from manual work to digital
fabrication, what design potential is there for one of the oldest and most widespread
architectural elements — the brick? Students investigated this question in a four-week
workshop, designing brick walls to be fabricated by an industrial robot. Unlike a mason,
the robot has the ability to position each individual brick in a different way without optical reference or measurement, i.e. without extra effort. To exploit this potential, the students developed algorithmic design tools that informed the bricks of their spatial disposition according to procedural logics. Positioning this way it was possible to draft a brick wall in which each of over 400 bricks took up a specific position and rotation in space. The students defined not the geometry of the wall, but the constructive logic according to which the material was organized in a particular temporal order, and which thus produced an architectonic form.”

Though robot arms are currently the most prevalent form of robotics in architecture,
architects and designers have begun to employ other, and sometimes more radical,
robotic strategies for design. Gramazio & Kohler, in collaboration with Raffaello
d’Andrea recently put together an exhibition titled ‘Flight Assembled Architecture’ for
which small quad-rotor helicopter bots assembled a 6m-tall and 3.5m wide tower out of
1500 polystyrene foam blocks in Orléans, France.

(Source:https://www.archdaily.com/336849/5-robots-revolutionizing-architectures-future)

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Walmart filed five more patents for farming processes

The patent was one of six filed by Walmart, including several focused on automating agricultural processes. The supermarket chain also plans to use drones for spraying pesticides and monitoring crop conditions.

However artificial pollination has the bigger potential to significantly affect the company’s business.

According to research by Greenpeace, pollination by bees contributes $265 billion to the global economy. So, with the world’s bee population now in major decline, robotic alternatives could prove necessary to meet the global demand for food production.

Walmart isn’t the first to have invested in artificial-pollination technology. Brisbane-based artist Michael Candy recently unveiled his design for a device featuring 3D-printed robotic flowers, while a research lab in Japan recently became the first to successfully achieve pollination using a drone.

(Source: https://www.dezeen.com/2018/03/20/walmart-patent-autonomous-robot-bees-pollinating-drones/)

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