Voor sommige sportliefhebbers kwam afgelopen weekend het koude winterweer exact op tijd. Te denken valt daarbij aan de deelnemers aan de Hel van het Noorden, de jaarlijkse roeiwedstrijd over zes kilometer op het Groningse Eemskanaal.
Het is (achteraf) immers altijd goed snoeven op de verschrikkelijke ontberingen die zijn doorstaan. De voorspelde sneeuw en hagelbuien bleven weliswaar uit, maar de dag begon wel met temperaturen onder nul. ‘Bevroren roeren en hobbelen over het ijs in de slidings was voor de meeste roeiers een nieuwe ervaring en sommigen hadden het ook moeilijk met de koude lucht in de luchtwegen’, meldt de site nlroei. De enige Delftse podiumplaats werd veroverd door Arnoud Greidanus. In de lichte herenskiff werkte de Proteus-roeier zich van de vijfde plaats op naar de derde in een eindtijd van 23,26.57. Dat was ruim dertien seconden achter winnaar Joris Pijs van het Groningse Gyas. Greidanus is net als onder anderen Pijs een van de gegadigden voor de nationale lichte dubbeltwee. WK-gangers verschenen er overigens bijna niet op het Groningse water.
Ook veel schaatsliefhebbers juichten de ingetreden vorst van harte toe. Wie hierdoor aangemoedigd last heeft van oplopende schaatskoorts krijgt maandag 6 december de kans om aan een proeftraining mee te doen van studentenschaatsvereniging ELS. De echte bikkels kunnen vanuit Delft meefietsen naar De Uithof in Den Haag, en weer terug natuurlijk.
Binnenshuis had men uiteraard weinig last van het winterweer. Dat gold bijvoorbeeld voor de gecombineerde handbalploeg van burgerclub EDH en studentenvereniging Torius. In sporthal Kerkpolder werd DES’72 met 29-14 van het veld geveegd. “Het ging gewoon lekker”, lichtte gelegenheidscoach Jimmy Kimman de hoge uitslag nuchter toe. “De bal kwam steeds goed aan en ging er dan in, waardoor DES steeds gefrustreerder ging spelen.” EDH/Torius staat na zes speelronden derde in de tweede klasse.
In de zaalkorfbalcompetitie kregen de TU-studenten van Paal Centraal er zaterdag in Hoogvliet flink van langs bij Nikantes (18-7). “Vooral in de tweede helft was de tegenstander een stuk scherper dan wij”, verklaarde woordvoerder Bert Leeuwis de oorwassing. Het was de eerste nederlaag, na een eerdere remise en zege. “Komende zaterdag spelen we thuis tegen ESDO 1. Die ploeg heeft zijn twee eerste wedstrijden gewonnen met één en twee punten verschil, alle kansen dus om de twee punten te pakken.”
In de korfbalsport zijn ze al lang zo ver, maar in de voetbalwereld schrijdt de vrouwenemancipatie nog immer voort. Dankzij een initiatief van onder meer Martin Neeleman, coach van het hoogste damesteam van Ariston’80, komt er na jaren voor het eerst een damesversie van het toernooi om de Stad Delft Bokaal. Op 21 mei zullen op het sportcentrum behalve Ariston’80 ook de vrouwen van Taurus (‘Taura’), Delfia, Full Speed, SEP en Vitesse Delft strijden om het officieuze kampioenschap van Delft.
At the 3ME faculty, home to the university’s mechanical engineers, the Delft Biorobotics Laboratory (DBL) developed its first biped walking robot, named ‘Stappo’, in 1995. Over subsequent years, DBL researchers developed many other prototype robots, including ‘Bob’, ‘Mike’ and ‘Max’, which are now all proudly displayed at the laboratory.
These robots evolved from basic research in ‘Passive dynamic walking machines’, which are machines that can walk down slight slopes
without using motors or electronic controls; instead, they’re propelled by gravitational force exerted on their robotic limbs. As DBL’s research advanced, however, more sophisticated robots were built, with motors and electronic controls aiding their walking motions. ‘Leo’, the latest addition to DBL’s ‘robot family’, can stand up by itself if it falls down. The ultimate aim of all this biologically-inspired robot design research is to develop human-like walking machines that can walk as naturally as human beings.
Touring the Delft Biorobotics Laboratory, one is suddenly confronted by a hanging, headless robot with bunches of wires running through its body. “That robot is named TUlip and is being developed by the Dutch Robotics team”, says Sebastiaan Kiemel, a second-year MSc bio-mechanical design student and the team manager of Dutch Robotics. Dutch Robotics is an initiative by TU Delft, TU Eindhoven, UTwente and Philips to create teen-sized humanoid robots. The robots, called teen-sized because of their height (100 to 120cm), serve two purposes: primarily as part of ongoing university research to make robots walk as naturally as humans, and as prototypes capable of participating in the annual RoboCup competitions, in which robots attempt to play soccer.
The RoboCup Federation is an international research and education initiative that uses a universal challenge – in this case, robots playing soccer – to foster artificial intelligence and robotics research, in which a wide range of technologies can be studied and integrated. The first RoboCup soccer competition was held in July 1997, in Nagoya, Japan. Although the RoboCup Federation chose to use robots playing soccer as its central pursuit, the robotic innovations resulting from this high-level robotics research will ultimately be applied to socially important problems and industries. In other words, it’s not about the game per se, but soccer does have many aspects that next generation technologies need to embrace, such as teamwork, real-time perception and decision-making, and high-level motion control.
Nevertheless, RoboCup’s official goal is: “By 2050, a team of fully autonomous humanoid robot soccer players will win a soccer game, complying with the official FIFA rules, against the winner of the most recent World Cup of Human Soccer.”
Bottleneck
RoboCup has five different categories of competition, each with different goals: Simulation League, SmallSize Robot League, MiddleSize Robot League, Humanoid League, and Standard Platform League. Humanoid League in turn has three different robot classifications: KidSize (30-60cm height), TeenSize (100-120cm) and AdultSize (130cm and taller).
Robots with human-like bodies and human-like sensing compete in the Humanoid League. “Dutch Robotics is a student project and we strive to do it with students”, Kiemel says. Dutch Robotics’ first milestone was to build TeenSize humanoid robots that competed in RoboCup Soccer 2008, in Suzhou, China, where the team’s robot, named ‘Flame’, unfortunately lost in the quarterfinals to ‘NimbRo’, a robot developed by the University of Bonn (Germany). Last summer, Dutch Robotics competed in Graz, Austria, with a new robot, named ‘TUlip’, which performed better but also lost in the quarterfinals to ‘CIT brains’, a robot developed by the Chiba Institute of Technology (Japan).
“This year we’re further developing these robots and will try to win the TeenSize Humanoid League competition in Singapore”, Kiemel says. Each year the RoboCup Federation changes the rules to make the game more like a real soccer game, with the teams facing more complex design requirements that require building more advanced robots. For example, the TeenSize Humanoid League initially featured a penalty kick competition for teams whose platforms focused explicitly on dynamic walking. In 2008, the penalty kick competition was replaced by a more challenging ‘Dribble and Kick’ competition. Kiemel: “And now, in 2010, for the first time the TeenSize soccer competition will feature teams of two autonomous robots competing against each other.”
Dutch Robotics team members typically devote about six to ten hour per week to the project, Kiemel says, and the team’s main goal at the moment is to qualify for RoboCup’s screening round, held later this month. “To qualify our robot needs to be able to stand up, locate and walk to the ball, and kick the ball”, Kiemel explains. “This is a 3TU project, so each university is now focused on getting the best from their respective fields of expertise. TU Delft mainly focuses on the mechanics and software, while TU Eindhoven handles the control and UTwente helps with simulations.”
The Dutch Robotics team however is still looking for software developers to help frame software architecture and guide others currently involved in the project. The team does have some sponsors, including Sogeti, which will write the software for the vision control, but would like more. “So we’re also looking for volunteers who can help market TUlip and bring in more sponsors”, Kiemel adds.
Kiemel notes that a strength of the Dutch Robotics team is the professors involved in the project, as well as the PhD students who provide good background support. Kiemel: “On the technical side, we’re focusing a lot more on smart mechanics, rather than heavily relying on process and control, which is a major advantage of our design. The design becomes more stable, reliable and energy efficient if the robot can walk similar to humans.”
Although robotics is rapidly progressing, it is 2010 and robots can just about kick a soccer ball. Is beating a human soccer team by 2050 really achievable? “Of course it’s hard to make predictions about this, but if we look to the past we see that certain developments can suddenly advance very quickly”, Kiemel says. “But one crucial thing that must happen is to create a reliable and robust walking gait. Many robots can walk, but the robustness of a robot dealing with unknown situations, like, for example, recovering from a shove, is a real bottleneck.”
Although Kiemel admits that actually beating a human soccer team by 2050 seems unlikely, he cheerfully concludes that “if a team of eleven humanoid robots at least compete against a human soccer team by 2050, that would be quite an impressive achievement in itself.”
Students interested in joining the Delft Robotics team should contact Sebastiaan Kiemel at info@dutchrobotics.net
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