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9 résultats trouvés

  1. Avant de regarder le vidéo... lequel d'une intersection à 4 arrêts ou d'un rond point permet de faire circuler le plus d'autos durant le même lapse de temps? http://www.youtube.com/watch?v=OvoFjirrgYA
  2. Localisation: René Lévesque (intersection Amherst et Wolfe) Étage: 6 Nombre d'appartement: Prometteur: Groupe Cartierville Clientèle: Référence: La Presse 14 nov 2009 Pas de photo disponible
  3. Une tour d'habitation serait dans le colimateur à Place Charles Lemoyne à Longueuil ( Métro Longueuil) sur une terrain avoisinant le 1001 de Serigny, intersection du boul. La Fayette Il s'agirait de 216 unités.
  4. Localisation: 1210 Saint-Antoine (intersection rue Moncalm) Étage: 4 Nombre d'appartement: 59 Prometteur: Samcon Clientèle: (construction aurait déjà commencé) Référence: La Presse 14 novembre 2009
  5. Immeubles Wilfrid Poulin a l'intention de construire une nouvelle tour à Bureaux à Brossard, sur le Boul. Taschereau à l'intersection de l'A-10. Cet Immeuble aura 5 étages et sera certifié L.E.E.D.(Leadership in Energy Efficiency and Design) Il sera situé à une intersection stratégique(juste en face du Terminus d'autobus Panama) et devrait être prêt pour accueuillir des locataires vers la fin de 2009.
  6. Anyone who's sat at a red light for minutes on end in the middle of the night when there's no cross traffic can cheer on science for proving what we already knew: lights that adapt to the flow of traffic, instead of dictating the flow of traffic, can improve the flow of traffic. A team of researchers discovered that if you let lights locally decide how to time their signals based on how much traffic they're dealing with, and then communicate that with nearby lights, you get closer to the "green wave" of lights that keeps thing moving smoothly. The issue with the centralized, top-down system of control is that it is geared to address an average traffic situation that rarely occurs as planned. The variations in rush hour traffic mean that lights are trying to apply one solution to a vast number of situations. In their trial in Dresden, Germany the team found that traffic congestion was eased by nine percent, pedestrian congestion by 36 percent, and bus and tram traffic by 56 percent. With rush hours spreading in time and distance, the proof and implementation of this can't come soon enough. Blog: http://www.autoblog.com/2010/09/23/study-traffic-lights-should-respond-to-cars-not-other-way-arou/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed:+weblogsinc/autoblog+(Autoblog) To tame traffic, go with the flow Lights should respond to cars, a study concludes, not the other way around By Rachel Ehrenberg Web edition : Friday, September 17th, 2010 Traffic lights that act locally can improve traffic globally, new research suggests. By minimizing congestion, the approach could save money, reduce emissions and perhaps even quash the road rage of frustrated drivers. The new approach makes traffic lights go with the flow, rather than enslaving drivers to the tyranny of timed signals. By measuring vehicle inflow and outflow through each intersection as it occurs and coordinating lights with only their nearest neighbors, a systemwide smoothness emerges, scientists report in a September Santa Fe Institute working paper. “It’s very interesting — the approach is adaptive and the system can react,” says mechanical engineer Gábor Orosz of the University of Michigan in Ann Arbor. “That’s how it should be — that’s how we can get the most out of our current system.” An ultimate goal in traffic regulation is “the green wave,” the bam, bam, bam of greens that allows platoons of vehicles to move smoothly through intersection after intersection. When that happens, no drivers have to wait very long and sections of road don’t become so filled with cars that there’s no room for entering vehicles when the light does go green. To achieve this rare bliss, traffic lights usually are controlled from the top down, operating on an “optimal” cycle that maximizes the flow of traffic expected for particular times of day, such as rush hour. But even for a typical time on a typical day, there’s so much variability in the number of cars at each light and the direction each car takes leaving an intersection that roads can fill up. Combine this condition with overzealous drivers, and intersections easily become gridlocked. Equally frustrating is the opposite extreme, where a driver sits at a red light for minutes even though there’s no car in sight to take advantage of the intersecting green. “It is actually not optimal control, because that average situation never occurs,” says complex-systems scientist Dirk Helbing of the Swiss Federal Institute of Technology Zurich, a coauthor of the new study. “Because of the large variability in the number of cars behind each red light, it means that although we have an optimal scheme, it’s optimal for a situation that does not occur.” Helbing and his colleague Stefan Lämmer from the Dresden University of Technology in Germany decided to scrap the top-down approach and start at the bottom. They noted that when crowds of people are trying to move through a narrow space, such as through a door connecting two hallways, there’s a natural oscillation: A mass of people from one side will move through the door while the other people wait, then suddenly the flow switches direction. “It looks like maybe there’s a traffic light, but there’s not. It’s actually the buildup of pressure on the side where people have to wait that eventually turns the flow direction,” says Helbing. “We thought we could maybe apply the same principle to intersections, that is, the traffic flow controls the traffic light rather than the other way around.” Their arrangement puts two sensors at each intersection: One measures incoming flow and one measures outgoing flow. Lights are coordinated with every neighboring light, such that one light alerts the next, “Hey, heavy load coming through.” That short-term anticipation gives lights at the next intersection enough time to prepare for the incoming platoon of vehicles, says Helbing. The whole point is to avoid stopping an incoming platoon. “It works surprisingly well,” he says. Gaps between platoons are opportunities to serve flows in other directions, and this local coordination naturally spreads throughout the system. “It’s a paradoxical effect that occurs in complex systems,” says Helbing. “Surprisingly, delay processes can improve the system altogether. It is a slower-is-faster effect. You can increase the throughput — speed up the whole system — if you delay single processes within the system at the right time, for the right amount of time.” The researchers ran a simulation of their approach in the city center of Dresden. The area has 13 traffic light–controlled intersections, 68 pedestrian crossings, a train station that serves more than 13,000 passengers on an average day and seven bus and tram lines that cross the network every 10 minutes in opposite directions. The flexible self-control approach reduced time stuck waiting in traffic by 56 percent for trams and buses, 9 percent for cars and trucks, and 36 percent for pedestrians crossing intersections. Dresden is now close to implementing the new system, says Helbing, and Zurich is also considering the approach. Traffic jams aren’t just infuriating, they cost time and money, says Orosz. Estimates suggest that in one year, the U.S. driving population spends a cumulative 500,000 years in traffic at a cost of about $100 billion. And the roads are just going to get more congested. The optimal way of dealing with such congestion is to take an approach like Helbing’s and combine it with technologies that deal with driver behavior, Orosz says. Car sensors that detect the distance between your bumper and the car in front of you can prevent a sweep of brake-slamming that can tie up traffic, for example. “In general these algorithms improve traffic, but maybe not as much as they do on paper because we are still human,” he says. “It is still humans driving the cars.” http://www.sciencenews.org/view/generic/id/63481/title/To_tame_traffic,_go_with_the_flow
  7. Qu'est ce que vous pensez de cette petite reconfiguration que j'ai patenté? C'est une intersection à 5 rues qui m'agace.. non seulement c'est 5 rues, mais c'est à côté d'un park, il y a beaucoup de cyclists qui passent par là, etc. Je verais un rond point à cet endroit. Avantages: 1. Piste cyclable à côté du parc pour accomoder les nombreux cyclistes 2. Intégration de la piste cyclable au rond point 3. Meilleure circulation automobile 4. Plus facile et sécuritaire traverser pour un piéton ou cycliste 5. Ca évite les "clusterfuck" quand 5 chars arrivent de chaque coin.. pire encore quand un autobus passe par là! 6. Stationnement pour le Tennis juste à côté Puisque Longueuil est en campagne électorale, j'ai envis de partager mon idée avec le conseiller de mon district... OursNoir, toi qui connait plus que moi dans ce domaine, qu'est ce que t'en pense?
  8. en tombant sur cette image: je n'ai pu m'empecher de penser a l'intersection st-hubert / mont-royal. je la croise presque tout les jours a pied et malgre plusieurs modifications au fil du temps, je trouve qu'elle reste particulierement dangereuse. si jamais on decide de 'duluthiser' l'avenue, en la rendant semi pietoniere, pensez vous que ca serait une solution viable pour controller le flot de voitures a cette intersection, qui pourrait aussi servir de delimitation a un sens-unique sur mont-royal (plutot que st-denis), ou est-ce que ca creeait un casse-tete incroyable aux automobilites qui voudraient continuer vers l'est (marie-anne etant vers l'ouest). une addition serait p-e d'inverser le sens des rues resther & st-hubert (au nord de mont-royal jusqu'a laurier), ca rendrait p-e la circulation plus fluide ?.... ????????
  9. (Courtesy of CTV News) Guess its time to buy an APC for this city. I'll have to worry about some person using an RPG or road-side bomb now.
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