ARCHIMEDE INSTITUTE


STAFF AND CONSULTANTS (Click on name to eMail that person)

  • Jim Poirier, B.Sc.-B.Arch- Industrial Designer- Architect and Director of the Institute-(English-French)
  • Robert Bianchi, B.A., B.Arch. (English-French-Italian)
  • Marcello DelRio, Arch. - Architect (English- Spanish-Portuguese)
  • Nicole Beaudry, M.B.A. -Public Relations- (English-French-Spanish)
  • Jimmy Gauthier, P.Ing. - Structural Engineer - (English-French)
  • Luc Piché, M.B.A. - Scs.Pol, Financial Analyst (Paris FR)-(English-French-Japanese)
  • Jacques Caouette, B.Sc. Industrial Designer -Technologist - (French-English)
  • Ruben Mendez Paz, Construction Technologist - (Spanish-English)
  • Eric Triesman, Attorney - (Recently passed away)
  • Allen Huston,Construction Technologist - (English-Spanish)
  • Javier Guerrero, Construction Technologist - (English-Spanish)

We are actively recruiting associate construction professionals. Please drop us a line here mentioning your related experience. Other skills in sociology, logistics, international Affairs, refugee affairs highly wished for. Weather scientists and experts to join soon.

ARCHITECTS

Because of their unique position between scientists/engineers and social workers/artists, architects are sometimes the best guarantors of the successful preventive construction as well as the secure rebuilding effort after a disaster. Because they take into account human behavior and local culture, they are well equipped to anticipate the use given to their building programs. Before the Indonesian tsunami, good architects had made upper floor balconies accessible from the street, thereby saving many lives when the high waves rolled in. In some cases, these resort stairs were accepted by the resort owners only after a fight, yet they saved many lives.
More and more architects working with our Director Jacques Poirier. Most have had direct experience with construction under extreme conditions. Architect Robert Bianchi (Montréal) was involved with arctic construction, Marcello DelRio (Mexico) did the same within the tropical hurricane context. Others including Poirier himself worked with Habitat for Humanity and have had African and Asiatic experience like him.

MATHEMATICS

Out of fear or malice, mathematicians have been banned from construction sites ever since one was decapitated by a Pharaoh to avoid the future duplication of a most successful pyramid. Masons and carpenters loathe mathematics, and it certainly shows: almost every building material measures either 2x4x8(studs), 8x8x16(cinder blocks), 4x8 feet(sheatings of all kinds).
One could conclude that the multiplication x2 is the only intellectuality tolerated on a building site. As a result, everything built ends up rectangular. The average house has 16,000 ninety degree angles collecting dust.
Now if any of these otherwise fine tradesmen knew by heart the square root of three , they could actually build hexagonal floor plans and stop creating wasteful corners ! More to the point, they could actually graduate to rhombic maths where super strong space saving shapes could replace fragile orthogonal structures. When not perfectly built, these can skew, warp, twist and also get buffeted by strong winds. There are no large cubic structures in nature. Having a third horizontal axis as with hexagonal grid does wonders for earthquake and wind resistance. And to think! the bees have had that figured out hundreds of millions years ago*.


Note: Sure, you can approximate an hexagon by first scribing a circle and cutting down its perimeter at six intervals. But nothing accurate can occur unless you use a little trigonometry, the Tangent of 60 degrees, or...at the very least remember 1.732051, the square root of 3, a number that represents the ratio of the side of the hexagon to its narrowest width. If you visited the rest of this site, it will become obvious to you that from now on every child should remember 1.732051, the same number of digits as your average phone number. We can do it!

HURRICANE PROOF CONSTRUCTION

With over 1000 houses in several countries, some for almost 30 years, we were bound to have weathered a few hurricanes. The Caribbean beach resorts were successively exposed to Hugo, Frederic, David and a host of other hurricanes with no damage whatsoever. One occupant weathered Hugo from his living room bay window and commented humoristically: "Inside, it's quiet and still while outside, it's a raging inferno. I felt I was sitting safely inside an ambulance looking out"

On September 5, 1995, as the worst storm to ever hit Sint Maarten (Dutch Antilles), hurricane Luis had wind
s of 185 mph gusting to over 200 mph (~340km). This category 5 hurricane had the bad idea to just sit on Guana Bay Beach for 12 straight hours, a horrible rarity causing $2B in damage. Over 80% of houses we damaged and the island closed down to tourism for a long time. Around our 40 condos, concrete swimming pools were floated away, all plants lost all leaves and then limbs, massive concrete block houses were thrown down, concrete sidewalks and bulkwalls were exploded by the boiling sea. Yet as an upcoming video to be seen here will show, we had a $2500 damage per house average, mostly acrylics for the upstairs balcony railings and a few outside AC units torn off. Out of 400, we lost one window. This did NOT happen by chance...and I was there in person, witnessing the entire event from unit #26. For the next two weeks, I scoured the island to find out WHAT BREAKS and WHAT RESISTS during a hurricane. This is my unofficial Post Graduate Study Program. Conclusion: You need to know that you never know enough, but you also need to share what you know better with all those around you. That is the leitmotiv of the ARCHIMEDE INSTITUTE

TENTS AND WIND - A SERIOUS PROBLEM

It is our most sincere desire that the million of Haitians living in tents during the upcoming storm season do not suffer the inequities of other refugess (shown in picture, Jordanian refugees after a wind storm).

FOUNDING CORPORATE SPONSORS


PrintSF is a first printing resource available on the 50,000 client base Salesforce.com
It's CEO and originator is a forty years old whiz who already made a fortune by reinventing how real estate is sold in California.  Mark Cira was he young executive behind the real estate software that allows for 'paperless transactions' was a hit in Southern California. Now active in another venture with similar 'paperless' goals for the corporate printing, he nevertheless took the time to become a pilot an owner, founding SkyDiego two years ago. A generous man whose altruistic streak knows no borders, Mark was instrumental in advising as well as coming up with a founding donation of $2000.


After more than ten years in the custom stair building business Stairframe Systems Inc. started steel framing staircases in 1999 with custom designed 16 gauge welded steel stringers for builders across North America.
Today, under the new management and ownership of Von Arx Tool & Die Inc, Stairframe (91245365 Québec) Inc. manufactures and distributes a small yet highly versatile inventory of modular welded steel stair stringers of predetermined riser heights, the combinations of which when mix and matching the stringers leading to and from a landing (framed by the builder) create different combinations for any floor-to floor height. 21 SKUs in all, designed to make the distributors’ and the stair builders’ job simpler and better.
The generous CEO Claude Ranger has revolutionized the modular staircase concept. His products have a definite future in some of our two-story concepts; their labor-saving and price advantage, plus the security they provide when we work with untrained crews.
Since we are dedicated at providing safe earthquake resisitive 2-story houses, his concepts will fit perfectly.
This major quality tent manufacturers already serves the refugee tent market very well. As a donor for our institute he will be first to profit from our new geometrical designs, more easily clusterable tents with no guy wires to trip little kids. We intend to develop the prototypes with their research branch.

TSUTSU

Most tsunamis have a 'run up' of no more than 1.5 m. Building our shelter on stilts takes care of those easily, especially if the columnar supports dont have permanent walls or other obstacles attached to them. Stairs and other light artifacts can be swept away with no strain of the building itself, although we recommend at least one self buttressing set of concrete stairs to allow beach uccupants to climb up to safety. The entire shelter is surrounded by a circular set of steel railing both to allow endangered people to hang on and climb aboard, and for protection of the building itself against floating debris. There are six entry points all around the structure to allow admission of these people, with 3 doors and 6 windows.
As with the Archimede beach resorts,
these structures are much appreciated since they do no block the views nor the access to the beach. Instead they provide shade and interesting paths to the beach itself.
Although the statistical approach is still very imperfect, the probabilities for a bigger tsunami are very real, one for instance that could generate a few run-ups of over 3 meters. In such a case, the shelter is still quite valid since the pressures expected on the shell are well handled by properties that have been known for almost thirty years. The behavior of the steel connectors and panels is entirely predictable in a symetrical arrangement of dodecahedral modules.
Also known is the fact that the 100-year tsunami could have a run-up of over 3 meters, one that would pressure the structure to the point of endangering its columns and their connection to ground or building. In such an occurence, a powerful upsurge on those connectors would allow the entire building to float up thanks to sliding cylinders inserted into a sleeve cast into the concrete columns. Since the building itself has know flotation properties we can safely calculate that a crowd of 200 people can ride up the bigger waves with the building, the latter ajusting to the surge to a height of 3.5 to 4 meters.
In the highly unlikely tsunamis that could heave the building beyond the reach if it's cylinders, The shelter would simply detach itself and float inland harmlessly, giving it a chance to pick-up more people in danger. Since the outflow of a tsunami of that size is loaded with debris, the building would need to resist these pressure. The circular 'bumper7handrail' system will help deflect these problematic floating objects.
On the other hand, since the building is truly unsinkable because of the rigid foam in its panels, a worse case scenario would involve perforation of the shell, floating out at sea and a panicking crowd that would collect all on one side, tilting the structure dramatically. This is why additional flotation is provided in the form of plastic drums set under the floor, creating a counter force to the asymetrical loading of the floor. This is also the reason why a second floor is helpful as in such a case water would harmlessly flood part of the ground floor. Nervous occupants could safely go upstairs or even on the roof, awaiting help. It is know that again in the worse case scenario the building would never be far at sea, would be essentially undamaged and could be craned to its former site after inspection of the column system. If high capacity cranes ( 2 x 25-ton+ cap. each) were not available, again the worse case scenario would involve essentially unbolting 60 panels and re-attaching them by hand over the columns, essentially tightening 60 high capacity bolts with box wrenches. Of course in a case like this all the joints would have to be re-sprayed with urethane foam, an operation costing $2000 that can be carried out in one day. It would seem that there would be a lot of grateful volunteers for a job like this, repairing 'mama' after she took care of 200 people!

CONTACTS

Membership:
To reach us, send email to Jacques at jacquesbpoirier@gmail.com

Press:
Contact Nikki at beaudrynicole@yahoo.com

Jobs applicants: 
Contact Sid at: bajacq@gmail.com


Skype: 
Contact Jacques through Skype: jimpoir


THE INSTITUTE'S MISSION

Our mission is to use our diverse pool of experience to improve the design, the production and thus the availability of:
  • Cyclone shelters for hurricane prone areas.
  • Refugee and medical shelters for harsh environments.
  • Temporary housing serving vastly diverse clienteles.
  • Low-cost social-housing in difficult physical or social environments.
  • Rebuilding programs for disaster zones, flooded areas, tsunami, earthquake and hurricane victim zones. These programs include everything from low-cost social housing to high-end beach resorts.
  • Mobile or temporary housing units for health, security and logistic workers.
  • Fully equiped headquarters for NGOs and emergency management groups.
  • Individual housing for special needs in special contexts (More later).
Our aim is to help alleviate the worldwide shortages of these special construction projects. Our basic aim is to use all our skills and experience to make these more economical to produce while infinitely more reliable. To do all of this on a fast-track procurement , design, testing, manufacturing and delivery schedule is our ultimate goal. Ours is a non-profit organization and all of our past and future development ideas are and will be of public domain. To that end our patents will be licensed free of charge to all developing or disaster afflicted nations.

  • We will always choose the most expedient and economical methods for our clients to reach their goals, forming their construction professionals, training their building crews, teaching their industrialist to produce our solutions locally.
  • To that end, after a design is accepted, we create a few prototypes for testing purposes, but also to give the representatives of the client a chance to learn the methods hands-on, living with us for a few weeks until he feels ready to duplicate our tooling and methods in his own country.
  • When the budget allows, our own multi-skill and multilingual building crews will travel to the client's country to build prototypes while training local construction workers with our techniques.
Our most sincere wish is to see a tenfold increase of the number of available cyclone shelters worldwide before 2012. This is entirely possible if we do it together. As a side benefit, the technology will seep through regular construction worldwide, helping produce a 10,000-fold increase in houses that ARE protected against hurricanes (or typhoons or cylcones). This could actually reduce the number of shelters required for an enlarging population. Before 2020? That's as good a target as any, don't you agree?

Jacques B. Poirier, Director
The Archimede Institute
Cantamar MX

THE PROBLEMS WITH EXISTING REFUGEE TENTS

Azerbajan Tent Villages
















Pakistani Earthquake of 2005










Iraqui-Jordan Refugees

Collapsed tents, taken down by the U.N. refugee agency because of high winds and the dust storms , line an empty refugee camp on a cold, wind-swept plain near the far eastern Jordanian town of Al-Ruweishid, 50 kilometers (30 miles) from the Jordanian-Iraqi border Wednesday, March 26, 2003. This refugee camp is ready to receive thousands of fleeing Iraqis because of the US-led strike against Saddam Hussein 's regime, but so far, there isn't a single one. (AP Photo/Lefteris Pitarakis)
Typical Refugee Tent Catalog

GOOGLE MAP- For A Satellite View of Some of our Projects