Yuuichi Someya scite author profile

Philosophical dialogue is an effective way to deepen one’s thoughts, but it is not easy to practice it because humans have emotions. We proposed the use of a robot in practicing philosophical dialogue and experimentally investigated how philosophical dialogue with a robot differs from philosophical dialogue with a human. The results of the experiment showed that (1) participants talking to a human spend more time answering than those talking to a robot, (2) the increase in the time participants spend answering comes from the increase in the time participants spend speaking and is not influenced by reaction latency and pause time so much, (3) the reason for the increase in the time spent speaking is that some participants who talked to a human were likely to choose their words so as not to make the interlocutor uncomfortable and rephrased their thoughts so that they were easier for the interlocutor to understand, and some participants who talked to a robot might have thought that the robot would not be concerned even if they give a brief answer, and finally (4) it seems there is no significant difference in the depth of thought between participants talking to a human and participants talking to a robot. These results suggest the effectiveness of using robots for philosophical dialogue, in particular for people who feel nervous about talking to others.

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PLANET: an open mobile object system for open network

Kato

Matsubara

Someya

et al.

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Implementing an applet system without fixing virtual‐machine designs

Itabashi

Matsubara

Moriyama

et al. 2003

Systems & Computers in Japan

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An applet is program code which is downloaded dynamically from a server on the World Wide Web and which can be executed while maintaining security on the client side. The majority of applet systems at present, as represented by the Java Applet, implement the applets using virtual machine code which is independent of computer architecture. This is advantageous in terms of installation and use in different machine environments. Because virtual machine code is associated with execution by an interpreter or conversion to native code, the design of the virtual machine code greatly impacts performance during execution. Normally, however, representation of virtual machine code is fixed for each applet system and cannot be altered. The authors focused on the independence of virtual machine code and implementing an applet execution environment which is independent of the design of virtual machine code by making the Just‐In‐Time (JIT) compiler which converts virtual machine code to native code mobile. In this approach, native code conversion modules which are appropriate for the virtual machine code being used in the applet description are downloaded dynamically. In addition, this applet execution environment provides monitoring functions during applet execution so that a native code applet generated from any virtual machine code can be executed safely. The applet execution monitoring mechanism allows for the programming of system control policies for users, and allows for flexible applet execution control for various levels of monitoring. In this paper, the authors describe an implementation using their newly designed virtual machine code representation in both the SPARC and Intel x86 architecture environments, as well as experiments using this implementation. © 2003 Wiley Periodicals, Inc. Syst Comp Jpn, 34(2): 32–42, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/scj.10013

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Yuuichi Someya

An approach to mobile software robots for the WWW

Comparison of Philosophical Dialogue with a Robot and with a Human

PLANET: an open mobile object system for open network

Implementing an applet system without fixing virtual‐machine designs

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