Robotics

Field finalised for DARPA Grand Challenge

Field finalised for DARPA Grand Challenge
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The Palos Verdes High School Acura-based Doom Buggy didn't qualify.
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The Palos Verdes High School Acura-based Doom Buggy didn't qualify.
Team Ensco’s Dexter desert racer has a system architecture uses six high speed computers for obstacle detection with path planning and two real-time computers for vehicle control and guidance.
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Team Ensco’s Dexter desert racer has a system architecture uses six high speed computers for obstacle detection with path planning and two real-time computers for vehicle control and guidance.
The Indiana Robot Racing Team is based its entry on a 1996 Ford Explorer. The team DNFed this time around.
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The Indiana Robot Racing Team is based its entry on a 1996 Ford Explorer. The team DNFed this time around.
Indy Robot Racing’s 2005 Jeep Rubicon uses a combination of LIDAR and RADAR sensors, structural light detectors, mounted road-following cameras and a drive-by-wire system.
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Indy Robot Racing’s 2005 Jeep Rubicon uses a combination of LIDAR and RADAR sensors, structural light detectors, mounted road-following cameras and a drive-by-wire system.
Indy Robot Racing’s 2005 Jeep Rubicon uses a combination of LIDAR and RADAR sensors, structural light detectors, mounted road-following cameras and a drive-by-wire system.
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Indy Robot Racing’s 2005 Jeep Rubicon uses a combination of LIDAR and RADAR sensors, structural light detectors, mounted road-following cameras and a drive-by-wire system.
Team Cajunbot's MAX amphibious six-wheeled ATV has a sensor suite comprising two scanning laser systems, three Doppler radars, sonar, C-Nay differential GPS and an Oxford inertial navigation sensor.
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Team Cajunbot's MAX amphibious six-wheeled ATV has a sensor suite comprising two scanning laser systems, three Doppler radars, sonar, C-Nay differential GPS and an Oxford inertial navigation sensor.
Team Red Too is based on a 1999 H1 HUMMER. It incorporates an electronic CANbus, a 6.5-liter turbo diesel engine, traction control and loc
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Team Red Too is based on a 1999 H1 HUMMER. It incorporates an electronic CANbus, a 6.5-liter turbo diesel engine, traction control and loc
Normally the venue for a vastly different form of motorsport played out with a driver and very high speeds - garage allocation for the teams.
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Normally the venue for a vastly different form of motorsport played out with a driver and very high speeds - garage allocation for the teams.
Intelligent Vehicle Safety Technologies is built on a Ford F250 and was one of the better-performed vehicles finishing the course and clearing 47 of the 50 gates and all four obstacles on its sec
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Intelligent Vehicle Safety Technologies is built on a Ford F250 and was one of the better-performed vehicles finishing the course and clearing 47 of the 50 gates and all four obstacles on its sec
Team AION had high hopes for its 1994 Jeep Cherokee-based autonomous vehcile but did not make it to the staring grid of the main event
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Team AION had high hopes for its 1994 Jeep Cherokee-based autonomous vehcile but did not make it to the staring grid of the main event
It was not a good week for the Indiana Robot Racing Team - DNQ
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It was not a good week for the Indiana Robot Racing Team - DNQ
Autonomous Vehicle Systems' Hummer did not qualify for the main event
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Autonomous Vehicle Systems' Hummer did not qualify for the main event
Team Ensco was one of the teams that looked unlikely to qualify early in the week but came with a rush at the end to make the final cut!
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Team Ensco was one of the teams that looked unlikely to qualify early in the week but came with a rush at the end to make the final cut!
Team Ensco's Dexter does its thing and clears another gate
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Team Ensco's Dexter does its thing and clears another gate
Another qualifier for the main event, Team CIMAR
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Another qualifier for the main event, Team CIMAR
Virginia Tech Rocky
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Virginia Tech Rocky
Team DAD's Toyota Tundra-based vehicle
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Team DAD's Toyota Tundra-based vehicle
Team Dad's "eyes"
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Team Dad's "eyes"
Even the number plate is congruent
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Even the number plate is congruent
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Team Red Too's 1999 Hummer was regarded as one of the front-runners
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Team Red Too's 1999 Hummer was regarded as one of the front-runners
Team Red Too had a mascot for good luck
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Team Red Too had a mascot for good luck
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Team Red Too's eyes
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Team Red Too's eyes
Stanford is one of the outright contenders
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Stanford is one of the outright contenders
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October 6, 2005 The DARPA Grand Challenge National Qualification Event (NQE)Is finished and 23 robotic vehicles have been selected to compete in the Grand Challenge final event this coming Saturday, October 8, in the Mojave Desert near Primm, Nevada. The finalists will traverse a rugged desert course that features lakebeds, narrow desert roads, tight turns, tunnels, gateways and treacherous mountain passes. The actual course will not be revealed to teams until two hours before the event begins at approximately 6:30 a.m.(PDT). The team whose vehicle traverses the entire course the fastest in under ten hours will win US $2 million. Dan Christian attended the NQE and filed this report. Dan will also be reporting for Gizmag from what promises to be one of the most significant automotive races in history.

The chosen finalists, in alphabetical order, are:

    Axion Racing (Westlake Village, Calif.), Team Cajunbot (Lafayette, La.), Team CalTech (Pasadena, Calif.), CIMAR (Gainesville, Fla.), Team Cornell (Ithaca, N.Y.), Team DAD (Morgan Hill, Calif.), Desert Buckeyes (Ohio State University, Columbus),Team ENSCO (Springfield, Va.), The Golem Group/UCLA (Los Angeles), The Gray Team (Metairie, La.), Insight Ra cing (Cary, N.C.), Intelligent Vehicle Safety Systems I (Littleton, Colo.), Mitre Meteorites (McLean, Va.), MonsterMoto (Cedar Park, Tex.), Mojavaton (Grand Junction, Colo.),Princeton University (Princeton, N.J.), Red Team (Carnegie-Mellon University, Pittsburgh), Red Team Too (Carnegie-Mellon), SciAutonics/Auburn Engineering, (Thousand Oaks, Calif.), Stanford Racing Team (Palo Alto, Calif.), Team Terra Max (Oshkosh, Wis.), Virginia Tech Team Rocky (Blacksburg, Va.), Virginia Tech Grand Challenge Team.

The finalists were selected at the conclusion of an intense eight-day semifinal known as theNational Qualification Event (NQE), held at the California Speedway at Fontana, Calif., from September 28 through today. Forty-three robots of many shapes and sizes took turns pursuing a series of 2.2-to-2.7-mile courses designed to resemble desert conditions. The semifinalists had been chosen from among 195 original applicants; over the past several months, DARPA narrowed the field to the 43 semifinalists through a series of qualifying activities, including in-person site visits by DARPA officials to assess the capabilities of the various robots.
The DARPA Grand Challenge is an off road race like no other. There is only one vehicle category and it includes SUVs, trucks, military vehicles, ATVs, custom built racers, an 8 ton truck, and a motorcycle. The first vehicle to drive up to 175 miles in under 10 hours gets two million US dollars. The race isn't really about size or power, but it's about intelligence. There are no drivers for these vehicles. Not on-board, not back in some control room, none. They have to autonomously handle paved roads, dirt roads, (open) gates, stream crossings, switch backs, and under passes. All they get is a list of GPS "way points", speed limits, and how far they can safely stray from the given positions.

Now before we start, you have to understand why DARPA wants vehicles driving themselves across the desert. DARPA has posted the US$2 million prize and run the competition twice now and the motivation is quite simple. DARPA wants to be able to ship supplies to the front lines without risking soldier's lives. If a robot truck hits a landmine, you just order another one. No one would be hurt, so it's not a big deal. Trucks can be repaired to as good as new – people can’t.

But in order to achieve DARPA’s objectives, this robot vehicle has to be smart about its job. There may be obstacles blocking the path, or the positions may not be in the middle of the road. The robot has to "see" the obstacles and road. Then it has to find a safe way to the next way point without hitting anything or going out of bounds. Fifteen robots attempted the race last year, but none of them got further than 7.5 miles and most of them didn’t get out of sight of the starting chute.

There are 43 robots competing in the National Qualification Event (NQE) for the chance to compete in the real race. Only the top 20 teams will start the Grant Challenge Event (GCE). Each robot will be followed by a DARPA-driven chase truck that can tell the robot to stop, go, or completely shut down. This is for safety purposes only. They will only stop the robot to avoid congestion, and only shut it down to keep it from hurting something off the race course. The robot has to avoid hurting itself if it wants to finish the race.

As of Saturday, 13 teams had finished the second round NQE course, four teams followed the course perfectly, and five teams had times of under 10 minutes.

Carnegie-Mellon University (CMU) has two robots in the competition: Sandstorm (#19) and H1lander (#25). Sandstorm is a highly modified military Hummer and went the farthest in the 2004 race. H1lander is a new commercial H1 Hummer (see the pictures, it isn't quite "new" anymore). Both vehicles have already done excellent runs with excellent times. CMU's robots are the ones to beat.

Stanford's "Roadrunner" (#3) is the strongest challenger so far. They are the only other team to have two perfect runs and excellent times. They didn't compete last year, but they seem to have made up for lost time.

Desert Tortoise (#15) from Intelligent Vehicle Safety Tech has shown some fast runs, but has been having trouble handling parts of the course and some obstacles.

Some robots are still being tuned up. DEXTER (#28) from Team ENSCO and Golem 2 (#18) from The Golem Group didn't finish the first qualification corse, but had a good runs on the second one.

There are another 37 robots that I don't have the time to elaborate about in this report. Each one has a different approach to solving the intelligence, speed, and durability demands of the race. DARPA set out to inspire the next generation of engineers and scientists. They succeeded in capturing the hearts, minds, time, and wallets of hundreds of people. Off road robot racing has indeed proven to be a "Grand Challenge".

Tune in next week for the race results. See the Grand Challenge web site for the details of the race, including links to all the teams.

Dan Christian

Full disclosure: I also work for Google, which is one of the CMU team sponsors. I used to work for Red team leader "Red" Whittaker. I went to school at CMU and Stanford. I might be a tad biased, but that won't change who crosses the finish line first....

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