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    Heikkilä, S.S. & Halme, A. Indirect Human-Robot Task Communication Using Affordances

    [Abstract] [BibTeX]

    		 2011 Proc. of the 20th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN)  inproceedings URL 
    Abstract: One problem in current human-robot task communication is the laborious need to define action and target object parameters for each task request. This paper's solution to the problem is to enable indirect task communication by mimicking the human cognitive ability to understand affordances, i.e. action possibilities in the environment with respect to different actors. This enables humans to communicate tasks using only the task-related action or target object names, and thus avoid the need to remember explicit task request utterances. The proposed task communication is integrated as a subsystem into an existing service robot, and its functionality is evaluated through a set of user experiments in an astronaut-robot task communication context. Affordance-based indirect task communication is shown to successfully reduce the workload experienced by the human and to decrease task communication times, while also being the preferred way to communicate tasks.
    BibTeX: 
    @inproceedings{Heikkila_Indirect_2011,
  author = {Seppo S. Heikkilä and Aarne Halme},
  title = {Indirect Human-Robot Task Communication Using Affordances},
  booktitle = {Proc. of the 20th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN)},
  year = {2011},
  url = {http://vapahtaja.com/papers/Heikkila_Indirect_2011.pdf}
}
    Heikkilä, S.S. Human Inspired Indirect Task Communication for Astronaut-Robot Cooperation

    [BibTeX]

    		 2011 Proc. of the 4th workshop on generic intelligent machines  inproceedings  
    BibTeX: 
    @inproceedings{Heikkila_Human_2011,
  author = {Seppo S. Heikkilä},
  title = {Human Inspired Indirect Task Communication for Astronaut-Robot Cooperation},
  booktitle = {Proc. of the 4th workshop on generic intelligent machines},
  publisher = {Tampere University of Technology},
  year = {2011}
}
    Zebenay, M. & Heikkilä, S.S. Manipulator Control for Physical Astronaut-Robot Interaction

    [Abstract] [BibTeX]

    		 2010 Proc. of the 10th International Symposium on Artificial Intelligence, Robotics and Automation in Space (i-SAIRAS)  inproceedings URL 
    Abstract: The future of astronaut-robot cooperation applications is highly dependent on the capability to perform safe and efficient physical interaction using the robot’s manipulators. WorkPartner, Aalto University’s mobile service robot, did not have any control algorithm that would enable safe human-robot physical interaction applications. This paper addresses this problems by developing compliance control capabilities for the WorkPartner manipulators. The developed compliance control is based on an admittance control algorithm that is modified to incorporate different operation modes. The control algorithm is implemented on the WorkPartner simulator as well as on the real WorkPartner robot manipulators. The selected modes of operation are ”follow movement”, ”hold position”, and ”adapt movement”. The test results show that the implemented control algorithmis capable of providing all the three examined manipulator behavior modes.
    BibTeX: 
    @inproceedings{Zebenay_Manipulator_2010,
  author = {Melak Zebenay and Seppo S. Heikkilä},
  title = {Manipulator Control for Physical Astronaut-Robot Interaction},
  booktitle = {Proc. of the 10th International Symposium on Artificial Intelligence, Robotics and Automation in Space (i-SAIRAS)},
  year = {2010},
  url = {http://mielipiteet.fi/publications/Zebenay_Manipulator_2010.pdf}
}
    Heikkilä, S.S., Halme, A. & Schiele, A. Human-Human Inspired Task and Object Definition for Astronaut-Robot Cooperation

    [Abstract] [BibTeX]

    		 2010 Proc. of the 10th International Symposium on Artificial Intelligence, Robotics and Automation in Space (i-SAIRAS)  inproceedings URL 
    Abstract: This paper presents a comparison of three different speech based task communication methods using a simulated astronaut-robot geological exploration mission as a

    test case. The conventional task communication method, in which the astronaut needs to communicate both the action and target, is compared against communication methods where object affordances, i.e. object action possibilities, are used to complete the task definition. The idea of this object affordances based approach is to transfer the cognitive object-action association process from the astronaut to the robot. The user test campaign described in this paper, performed with a fully autonomous centauroid robot, shows that the use of only the action name or action target name in the task communication can be successfully used to lower the workload of the test persons. The robot’s capability to understand object-action associations introduces also a viable mechanism to add error tolerance to the communication as the astronaut has always alternative ways to make the required tasks communicated.
    BibTeX: 
    @inproceedings{Heikkila_Human-Human_2010,
  author = {Seppo S. Heikkilä and Aarne Halme and Andre Schiele},
  title = {Human-Human Inspired Task and Object Definition for Astronaut-Robot Cooperation},
  booktitle = {Proc. of the 10th International Symposium on Artificial Intelligence, Robotics and Automation in Space (i-SAIRAS)},
  year = {2010},
  url = {http://mielipiteet.fi/publications/Heikkila_Human-Human_2010.pdf}
}
    Heikkilä, S.S. Implementing Human-Robot Interaction Applications with GIMnet/MaCI

    [Abstract] [BibTeX]

    		 2010 Proc. of the GIMnet  inproceedings URL 
    Abstract: This paper presents how GIMnet/MaCI framework can be applied for human-robot interaction research. The example describes how WorkPartner service robot task communication application was implemented with GIMnet/MaCI by connecting together speech recognition, speech synthesis, manipulator control, and platform mobility MaCI modules. The implemented system was used as such both with simulated and real WorkPartner robot, demonstrating the GIMnet/MaCI flexibility to control different robots with one implemented software. The paper shows in a concrete implementation level detail how it is to implement HRI application with GIMnet/MaCI framework and further use it in a HRI research.
    BibTeX: 
    @inproceedings{Heikkila_Implementing_2010,
  author = {Seppo S. Heikkilä},
  title = {Implementing Human-Robot Interaction Applications with GIMnet/MaCI},
  booktitle = {Proc. of the GIMnet},
  year = {2010},
  url = {http://mielipiteet.fi/publications/Heikkila_Implementing_2010.pdf}
}
    Heikkilä, S.S. The Role of Natural Interaction in Astronaut-Robot Cooperation

    [Abstract] [BibTeX]

    		 2010 Proc. of the 61st International Astronautical Congress (IAC)  inproceedings URL 
    Abstract: This paper reviews five different methods to enable natural astronaut-robot interaction in future planetary exploration missions. Natural astronaut-robot interaction is used here to refer to interaction that is inspired by human-human interaction. All the reviewed methods are presented in the form that they could be directly implemented as external user interface modules to provide additional flexibility to the astronaut-robot communication. These natural communication methods mainly provide only additional value to the astronaut-robot cooperation because they do not replace any existing communication methods but instead introduce new ones that astronauts are already accustomed to use in their daily lives on Earth.
    BibTeX: 
    @inproceedings{Heikkila_Role_2010,
  author = {Seppo S. Heikkilä},
  title = {The Role of Natural Interaction in Astronaut-Robot Cooperation},
  booktitle = {Proc. of the 61st International Astronautical Congress (IAC)},
  year = {2010},
  url = {http://mielipiteet.fi/publications/Heikkila_Role_2010.pdf}
}
    Heikkilä, S.S. SpacePartner - Robotic Astronaut Assistant

    [BibTeX]

    		 2009 Proc. of the 2nd workshop on generic intelligent machines  inproceedings  
    BibTeX: 
    @inproceedings{Heikkila_SpacePartner_2009,
  author = {Seppo S. Heikkilä},
  title = {SpacePartner - Robotic Astronaut Assistant},
  booktitle = {Proc. of the 2nd workshop on generic intelligent machines},
  publisher = {Tampere University of Technology},
  year = {2009}
}
    Heikkilä, S.S., Didot, F. & Halme, A. Centaur-type service robot technology assessment for astronaut assistant development

    [Abstract] [BibTeX]

    		 2008 Proc. of the 10th ESA Workshop on Advanced Space Technologies for Robotics and Automation (ASTRA)  inproceedings URL 
    Abstract: This paper describes the assessment of the most relevant astronaut assistant activities on the surfaces of the Moon and Mars and, furthermore, the robotic technology development requirements to implement these activities with a centaur-like outdoor service robot, called the WorkPartner. The activity assessment is done by extracting five common mission scenarios from the most recent ESA and NASA documents that address the manned exploration of the surfaces of the Moon and Mars, and then further breaking down these missions hierarchically into tasks and actions. The broken-down missions are used to define the robotic astronaut assistant capability requirements to perform the required activities. The identified capability development requirements can be broadly divided into three areas of development: shared situation awareness, task coordination, and robot action control architectures. Finally, the capability requirements and current capabilities of the WorkPartner robot are compared in order to determine the development efforts required to make the WorkPartner robot a useful astronaut assistant.
    BibTeX: 
    @inproceedings{Heikkila_CentaurType_2008,
  author = {Seppo S. Heikkilä and Frederic Didot and Aarne Halme},
  title = {Centaur-type service robot technology assessment for astronaut assistant development},
  booktitle = {Proc. of the 10th ESA Workshop on Advanced Space Technologies for Robotics and Automation (ASTRA)},
  year = {2008},
  url = {http://robotics.estec.esa.int/ASTRA/Astra2008/S02/02_03_Heikkila.pdf}
}
    Heiskanen, P., Heikkilä, S.S. & Halme, A. Development of a dynamic mobile robot simulator for astronaut assistance

    [Abstract] [BibTeX]

    		 2008 Proc. of the 10th ESA Workshop on Advanced Space Technologies for Robotics and Automation (ASTRA)  inproceedings URL 
    Abstract: The need for robotic assistance has been identified to be essential in space exploration missions. This work is targeted for a centauroid robot, called WorkPartner, which is currently being developed to work interactively with astronauts. This paper describes SimPartner, a dynamic robot simulator of the WorkPartner robot by using ODE (Open Dynamics Engine) software. The software incorporates an accurate model of the robot, including part lengths, masses, joints, actuators and sensors. The model can be used in real time to estimate forces and torques that would be difficult to measure from the actual robot, develop robot control code and to predict robot behavior e.g. in tele-operated tasks. The contribution of this paper is to show that it is possible to create a verifiable real-time dynamic mobile robot simulator for a centaur-like mobile service robot. This is achieved by comparing the simulation data with measurements from the actual WorkPartner robot
    BibTeX: 
    @inproceedings{Heiskanen_Development_2008,
  author = {Paavo Heiskanen and Seppo S. Heikkilä and Aarne Halme},
  title = {Development of a dynamic mobile robot simulator for astronaut assistance},
  booktitle = {Proc. of the 10th ESA Workshop on Advanced Space Technologies for Robotics and Automation (ASTRA)},
  year = {2008},
  url = {http://robotics.estec.esa.int/ASTRA/Astra2008/S09/09_02_Heiskanen.pdf}
}
    Iqbal, J., Heikkilä, S.S. & Halme, A. Tether Tracking and Control of ROSA Robotic Rover

    [Abstract] [BibTeX]

    		 2008 Proc. of the 10th International Conference on Control, Automation, Robotics and Vision (ICARCV)  inproceedings URL 
    Abstract: Mars is currently the centre of interest for space exploration. Tremendous efforts are still in progress to find clues of existence of life on Mars. Rovers are major sources of information of Mars. This paper focuses on a robotic roving vehicle RObot for Scientific Applications (ROSA) having its initiative of European Space Agency (ESA). ROSA being a tethered rover makes possible to reduce the weight/size of rover because power is delivered through tether. Additionally, tether provides communication lines between the lander and the rover. Tethered robots require complex control system. This paper presents a specialized tracking system for rover's 40 m tether. The proposed system is capable of tether tracking within resolution of ±6 cm. The same strategy can also be used in other tethered robots for rescue, security, underwater, mines hunting and cleaning petroleum tanks after minor modifications.
    BibTeX: 
    @inproceedings{Iqbal_Tether_2008,
  author = {Jamshed Iqbal and Seppo S. Heikkilä and Aarne Halme},
  title = {Tether Tracking and Control of ROSA Robotic Rover},
  booktitle = {Proc. of the 10th International Conference on Control, Automation, Robotics and Vision (ICARCV)},
  year = {2008},
  url = {http://vapahtaja.com/papers/Iqbal_Tether_2008.pdf}
}
    Heikkilä, S.S. WorkPartner/SpacePartner - Next generation learning service robot

    [BibTeX]

    		 2006 Proc. of the 4th International Kemurdjian Workshop on planetary rovers, space robotics and Earth-based robots  inproceedings  
    BibTeX: 
    @inproceedings{Heikkila_WorkPartner_2006,
  author = {Seppo S. Heikkilä},
  title = {WorkPartner/SpacePartner - Next generation learning service robot},
  booktitle = {Proc. of the 4th International Kemurdjian Workshop on planetary rovers, space robotics and Earth-based robots},
  year = {2006}
}
    Saarinen, J. & Heikkilä, S.S. Laser Based Personal Navigation System

    [Abstract] [BibTeX]

    		 2005 Proc. of the 6th IEEE International Symposium on Computational Intelligence in Robotics and Automation (CIRA)  inproceedings URL 
    Abstract: This paper presents a human localization system for beaconless indoor positioning. The system is based on traditional dead-reckoning sensors including a compass, a gyro, and accelerometers. Due to the difficult kinematics of a human, there are no ready solutions for the dead reckoning. This problem is solved by using a self-made stride length measurement unit and laser scan matching. The dead reckoning always has unbounded error and thus a map based localization algorithm is needed. The map is based on CAD-model and the localization is done using Monte Carlo localization. As a result the human being is localized indoorswith bounded error. The system is used for incorporating the human into telematic system of cooperating robotic and human entities. The functionality of the integrated system is verified with tests in the European Union IST-project called PeLoTe.
    BibTeX: 
    @inproceedings{Saarinen_Laser_2005,
  author = {Jari Saarinen and Seppo S. Heikkilä},
  title = {Laser Based Personal Navigation System},
  booktitle = {Proc. of the 6th IEEE International Symposium on Computational Intelligence in Robotics and Automation (CIRA)},
  year = {2005},
  url = {http://ieeexplore.ieee.org/iel5/10413/33075/01554296.pdf}
}
    Saarinen, J., Heikkilä, S.S., Elomaa, M., Suomela, J. & Halme, A. Rescue Personnel Localization System

    [Abstract] [BibTeX]

    		 2005 Proc. of the IEEE International Workshop on Safety, Security, and Rescue Robotics (SSRR)  inproceedings URL 
    Abstract: Despite of rapid development in search and rescue robotics, the role of the human being is still very important both in the mission control and in the rescue field. However, robots can support humans in various ways. Combining humans and robots into a telematic system opens new possibilities in the rescue area. This paper explains a possible solution to add humans into a telematic system including robots and telematic mission management. The main requirement for the human cooperation with a rescue telematicsystem is the accurate localization of the human being. The localization system is based on traditional robotic deadreckoning sensors like compass, gyro, and accelerometers. Due to the difficult kinematics of a human, there are neither ready nor fully functional solutions for the odometry. This problem is solved by using a self-made stride length measurement unit and laser odometry. The functionality of the integrated system is verified with tests in the European union IST-project called PeLoTe.
    BibTeX: 
    @inproceedings{Saarinen_Rescue_2005,
  author = {Jari Saarinen and Seppo S. Heikkilä and Mikko Elomaa and Jussi Suomela and Aarne Halme},
  title = {Rescue Personnel Localization System},
  booktitle = {Proc. of the IEEE International Workshop on Safety, Security, and Rescue Robotics (SSRR)},
  year = {2005},
  url = {http://ieeexplore.ieee.org/iel5/10042/32217/01501247.pdf}
}
    Näränen, J., Kaasalainen, S., Peltoniemi, J., Heikkilä, S.S., Granvik, M. & Saarinen, V. Laboratory photometry of planetary regolith analogs. II. Surface roughness and extremes of packing density

    [Abstract] [BibTeX]

    		 2004 Astronomy and Astrophysics Journal
    Vol. 426(3), pp. 1103-1109     		 article URL 
    Abstract: Laboratory phase curves of planetary regolith analog materials are presented. A study is made of the effect of compaction of the material on its backscattering properties. Further study is also made of the contribution of material surface roughness on its light scattering. First photometric light backscattering measurements in a microgravity environment are introduced as well as some improvements of the laboratory experiment techniques. The measurements show a strong increase in both reflectance and opposition effect amplitude under compaction. Also a broadening of the opposition effect width is observed. These results are in contrast with some of the previous studies on the subject. The surface roughness of a sample is found to be an important factor in measurements of samples with the same packing density. This should be taken into account in further studies.
    BibTeX: 
    @article{Naranen_Laboratory_2004,
  author = {Jyri Näränen and Sanna Kaasalainen and Jouni Peltoniemi and Seppo S. Heikkilä and Mikael Granvik and Ville Saarinen},
  title = {Laboratory photometry of planetary regolith analogs. II. Surface roughness and extremes of packing density},
  journal = {Astronomy and Astrophysics Journal},
  year = {2004},
  volume = {426},
  number = {3},
  pages = {1103-1109},
  url = {http://www.aanda.org/articles/aa/pdf/2004/42/aa0556-04.pdf}
}
    Heikkilä, S.S., nen, J.N., Granvik, M. & Saarinen, V. Light Backscattering Measurements of Small Particles in Microgravity

    [Abstract] [BibTeX]

    		 2004 Proc. of the 55th International Astronautical Congress (IAC)  inproceedings URL 
    Abstract: Feasibility of photometric measurements in microgravity environment is studied and established. A novel phase angle goniometer is designed and used to get experimental data of the backscattering properties of dusty lunar regolith analog material in microgravity near the zero phase angle, i.e. in opposition. The measurements show a strong increase in both reflectance and opposition effect amplitude under compaction. Also a broadening of the opposition effect width is observed. Important experience about shaking the sample using springs is also obtained.
    BibTeX: 
    @inproceedings{Heikkila_Light_2004,
  author = {Seppo S. Heikkilä and Jyri Närä nen and Mikael Granvik and Ville Saarinen},
  title = {Light Backscattering Measurements of Small Particles in Microgravity},
  booktitle = {Proc. of the 55th International Astronautical Congress (IAC)},
  year = {2004},
  url = {http://vapahtaja.com/parabolic/stuff/assignment.pdf}
}
    Saarinen, J., Suomela, J., Heikkilä, S.S., Elomaa, M. & Halme, A. Personal Navigation System

    [Abstract] [BibTeX]

    		 2004 Proc. of the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)  inproceedings URL 
    Abstract: This paper presents a human dead-reckoning system for beaconless indoor positioning. The system is based on traditional dead-reckoning sensors like compass, gyro, and accelerometers. Due to the difficult kinematics of a human, there are no ready solutions for the odometry. This problem is solved by using a self-made stride length measurement unit and laser odometry. All the sensors are integrated to a complete system including sensor fusion. The functionality of the integrated system is verified with tests in an office environment. Finally the test results are analyzed.
    BibTeX: 
    @inproceedings{Saarinen_Personal_2004,
  author = {Jari Saarinen and Jussi Suomela and Seppo S. Heikkilä and Mikko Elomaa and Aarne Halme},
  title = {Personal Navigation System},
  booktitle = {Proc. of the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)},
  year = {2004},
  url = {http://ieeexplore.ieee.org/iel5/9577/30275/01389354.pdf}
}
    Luojus, K., Hallikainen, M., Pulliainen, J., Heikkilä, S.S. & Engdahl, M. Topography Corrected SAR Image Processing for ENVISAT ASAR Data

    [BibTeX]

    		 2002 Proc. of the URSI/IEEE XXVII Convention on Radio Science (URSI), pp. 36-38  inproceedings  
    BibTeX: 
    @inproceedings{Luojus_Topography_2002,
  author = {Kari Luojus and Martti Hallikainen and Jouni Pulliainen and Seppo Heikkilä and Markus Engdahl},
  title = {Topography Corrected SAR Image Processing for ENVISAT ASAR Data},
  booktitle = {Proc. of the URSI/IEEE XXVII Convention on Radio Science (URSI)},
  year = {2002},
  pages = {36-38}
}

    Created by JabRef on 23/06/2011.

    MASTER'S THESIS

    [1] Heikkilä S., Development of Laser Based Localisation Methods for 
    Personal Navigation System - PeNa, Master's thesis, Helsinki
    University of Technology, March, 2005, Espoo, Finland.

@MASTERSTHESIS{Heikkila05,
  author = {Seppo Heikkilä},
  title = {Development of Laser Based Localisation Methods for Personal Navigation
	System - PeNa},
  school = {Helsinki University of Technology},
  year = {2005},
  address = {Otaniementie 17, 02150 Espoo, FINLAND},
  month = {March},
  keywords = {human indoor localisation, laser scan matching, SLAM},
  abstract = {This master's thesis presents a stand-alone system for human indoor localisation,
named Personal Navigation system (PeNa).        The PeNa system operates using
dead reckoning and map based localisation algorithms.       The dead reckoning
is calculated using stride length measurements and Kalman ltered heading
information, which are further enhanced using laser scan matching. A map based
localisation algorithm is introduced to provide localisation against absolute
reference frame.
Three laser scan based angle correction algorithms are presented: a histogram
correlation with sequential lines, a histogram correlation with segmented lines,
and a line intersection based algorithm.      Also an evidence grid correlation
based location correction algorithm and a virtual scan based map localisation
algorithm are presented. Furthermore, a simple Simultaneous Localisation and
Mapping (SLAM) algorithm, based on incremental map building, is presented.
The PeNa was developed as part of the Building Presence through Localisation
for Hybrid Telematic Systems (PeLoTe) project funded by the IST programme
of the European Community. The PeLoTe project is shortly introduced in the
beginning of this master's thesis.}
}
    Download document: Heikkila05.pdf