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From Intelligent Materials and Systems Lab

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  • ...lt research problems, like how to process sensor information, how a moving robot can localize itself, how to build a map of the environment under these circ ...itself but only as far as they help to complete the mission. Therefore the robot should chose a decision making strategy that will gain only knowledge that
    3 KB (381 words) - 14:16, 12 February 2007
  • ...with fin propulsion for shallow water applications. Biomimetic underwater robot design permits creating devices that are efficent, quiet, create little or ...re not appropriate for these environements. Also, the fish-like biomimetic robot with many control surfaces would be capable of good maneuverability and sta
    1 KB (194 words) - 15:08, 3 April 2007

Page text matches

  • ...lt research problems, like how to process sensor information, how a moving robot can localize itself, how to build a map of the environment under these circ ...itself but only as far as they help to complete the mission. Therefore the robot should chose a decision making strategy that will gain only knowledge that
    3 KB (381 words) - 14:16, 12 February 2007
  • ...icro-robot based on polymeric actuators|Vision-based control of soft micro-robot based on polymeric actuators]] === Vision-based control of soft micro-robot based on polymeric actuators ===
    1 KB (203 words) - 18:27, 26 October 2020
  • '''The beginner guide for Panda robot can be accessed from here: https://github.com/ut-ims-robotics/tutorials/wik
    175 bytes (20 words) - 10:07, 14 February 2018
  • ...with fin propulsion for shallow water applications. Biomimetic underwater robot design permits creating devices that are efficent, quiet, create little or ...re not appropriate for these environements. Also, the fish-like biomimetic robot with many control surfaces would be capable of good maneuverability and sta
    1 KB (194 words) - 15:08, 3 April 2007
  • The mechanics of the robot are fixed and I've tested the various electronic components (3 servos, DC m Started programming the robot arm, reading topics on 'Inverse kinematics' and how this is done in industr
    2 KB (300 words) - 12:02, 18 November 2014
  • ...lied to robotic problems for a wide set of applications ranging from human-robot collaboration, robotic manipulation to autonomous driving. Human-Robot Collaboration.
    943 bytes (123 words) - 14:36, 9 November 2020
  • ...l information about the project could be read from [[Biomimetic Underwater Robot|the official page]].
    372 bytes (54 words) - 00:31, 17 February 2007
  • Panna robot liikuma püstiasendist stabiilsesse pea peal seisu. Füüsiline robot:
    2 KB (303 words) - 18:53, 24 April 2011
  • ...bout different projects that are available. Agreed to work on the circular robot that uses centre of mass displacement for motion. Objective is to enable th
    498 bytes (79 words) - 12:41, 30 November 2014
  • ==Application of a collaborative robot for precision bonding on a production line in a manual workplace==
    1 KB (187 words) - 18:34, 12 January 2024
  • ...bject's position relative to robot's position. This is necessary to make a robot understand, where the objects are relative to his position. More generally == Changing plane rotation while robot is walking ==
    5 KB (831 words) - 20:37, 31 May 2013
  • * Thermal imaging of robot's action * An insect-inspored walking robot with artificial muscles
    3 KB (367 words) - 09:38, 14 August 2019
  • Robots are developed for improving the quality of our lives. Human-Robot Collaboration encompasses developing usable robots that make our everyday l ...ve open online course (MOOC) about robotics in Estonia (https://sisu.ut.ee/robot).
    6 KB (741 words) - 10:27, 29 December 2022
  • * Thermal imaging of robot's action * An insect-inspored walking robot with artificial muscles
    3 KB (411 words) - 09:32, 14 August 2019
  • |'''20'''||Kristian||Aldebaran Nao humanoid robot behaviour in 5-vs-5 soccer game |'''3'''||Toomas|| [http://lmts.epfl.ch/rupert Rupert the rolling robot]
    3 KB (474 words) - 10:13, 24 April 2014
  • ...the movements of IPMC actuators can be coordinated. Our ray-like swimming robot with 16 IPMC muscles (8 muscles on both pectoral fins) is to our knowledge
    4 KB (657 words) - 06:36, 25 August 2007
  • ...kahjustada või tekitada kukkumisohu. Allpool toodud näiteprogrammis ootab robot puudutust enne kui programmi põhiosa täidetakse. ...utades sonareid, et tuvastada ettetulevaid takistusi kui neid esineb püüab robot neid vältida muutes suunda. Kui tagumist pea puutesensorit puudutada jää
    4 KB (598 words) - 16:48, 5 February 2011
  • {{Alumnus|Allaje|Kristo Allaje|robotics, human-robot interaction|<br/>[http://hdl.handle.net/10062/60294 Thesis], 2018.}}
    2 KB (290 words) - 03:10, 31 August 2021
  • .../www.tartupostimees.ee/339049/robot-hakkab-inimeste-asemel-reklaami-tegema Robot hakkab inimeste asemel reklaami tegema, Tartu Postimees, 09.11.2010] ...ee/news/uudised/maailma-parim-robot-on-inimene.d?id=51069500 Maailma parim robot on inimene, Ärileht, 28.12.2006]
    6 KB (743 words) - 14:18, 4 October 2016
  • {{TeamMember|Gryogor|Igor Rybalskii|PhD student (human-robot collaboration and augmented reality)}} {{TeamMember|not-yet|Agnes Luhtaru|PhD student (multimodal human-robot interaction)}}
    4 KB (517 words) - 10:34, 7 March 2024

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