연구동향 분석

지능형 서비스 로봇을 위한 명세 기반 서비스 개발방법 = A Specification-Based Service Development for Intelligent Service Robots

최병기 2020년

논문상세정보
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' 지능형 서비스 로봇을 위한 명세 기반 서비스 개발방법 = A Specification-Based Service Development for Intelligent Service Robots' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 런타임 적용체계
  • 로봇 서비스
  • 서비스 패키지
  • 지능형 로봇
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
31 0

0.0%

' 지능형 서비스 로봇을 위한 명세 기반 서비스 개발방법 = A Specification-Based Service Development for Intelligent Service Robots' 의 참고문헌

  • 지능형 서비스 로봇을 위 한 모델 기반 IoT연계 및 추상화 인터페이스 : Virtual Device
    이재호 이종욱 이현규 최병기 한국컴 퓨터종합학술대회 논문집, 제46권, 제1호, 331-333쪽 [2019]
  • 지능형 로봇의 Task Management지원을 위한 Task Reasoner요구사항 분석
    유인식 이재호 조한얼 최병기 한국컴퓨터종 합학술대회 논문집, 제45권, 제1호, 929-931쪽 [2018]
  • 지능형 로봇 제어를 위한 시스템 통합 방 법론
    곽별샘 이재호 정보과학회지, 제24권, 제3호, 정보과학회, 25-34쪽 [2006]
  • 지능형 로봇 연계를 위한 온톨로 지 기반 가상 IoT 장치 인터페이스
    이재호 이종욱 최병기 한국컴퓨터종합학술대회 논문집, 제 45권, 제1호, 932-934쪽 [2018]
  • 모바일 기기를 통한 지능 형 로봇의 인간-로봇 상호작용
    곽별샘 박춘성 이재호 최병기 한국컴퓨터종합학술대회 논문집, 제37 권, 제1호(B), 43-46쪽 [2010]
  • 로봇의 지능체계와 미들웨어 연동 을 위한 인터페이스 구현
    박춘성 이재호 최병기 한국컴퓨터종합학술대회 논문집, 제45권, 제1 호, 935-937쪽 [2018]
  • 다중 도메인 서비스를 위한 정책 주도 메타-플래닝 기반 범용적 작업관리
    유인식 이재호 최병기 정보처리학회논문지 소프트웨 어 및 데이터 공학, 제8권, 제12호, 정보처리학회, 499-506쪽 [2019]
  • “지능형 서비스 로봇을 위 한 모델 기반 클라우드 서비스 인터페이스”
    박성기 이재호 이종욱 최병기 정보처리학회논문지 소프트 웨어 및 데이터 공학, 제9권, 제1호, 정보처리학회, 1-10쪽 [2020]
  • ``Cyber-Physical System Intelligence Knowledge-Based Mobile Robot Autonomy in an Industrial Scenario ''
  • ``Controlling Logistics Robots with the Action-based Language YAGI ''
    Part 1 ( pp . 525-537 ) [2016]
  • ``Continual planning and acting in dynamic multiagent environments ''
    19 . 297-331 [2009]
  • ``Continual Planning in Golog ''
    [2016]
  • ``CRAM — ACognitive Robot Abstract Machine for everyday manipulation in human environments
    pp . 1012-1017
  • ``CLIPS : A powerful development and delivery expert system tool ''
    17 ( 1–4 ) [1989]
  • [대구/경북] 대구 초등학교 영어선생님은 로봇?
    동아일보 [2010]
  • [93] ROS Wiki, "http://wiki.ros.org/"
  • [92] ROS Index, "https://index.ros.org/“
  • [91] ROS, "https://www.ros.org/“
  • [90] Robot Intelligence Technology Laboratory, KAIST, " http://rit.kaist.ac.kr/home“
  • [89] NPM, "https://www.npmjs.com/“
  • [88] Node.js, "https://nodejs.org/“
  • [86] mk ultraCompatibility mod, "https://www.curseforge.com/ minecraft/mc-mods/mk-ultra-compatibility",CurseForge
  • [85] Minecraft, "https://www.minecraft.net/"
  • [84] Make(software), "https://en.wikipedia.org/wiki/Make_(software)", Wikipedia
  • [83] List of vieo games derived from mods, " https://en.wikipedia.org/wiki/List_of_video_games_derived_from_mod s", Wikipedia
  • [82] KnowRob, "http://KnowRob.org/KnowRob“
  • [81] Fawkes, "https://www.fawkesrobotics.org/“
  • [80] Factorio Mod Structure, "https://wiki.factorio.com/Tutorial:Mod_structure“
  • [79] Factorio on steam, "https://store.steampowered.com/app/427520/Factorio/“
  • [78] Factorio, "https://factorio.com/“
  • [77] Foundation for Intelligent Physical Agents, "http://www.fipa.org/“
  • [76] ForgeDocs, "https://mcforge.readthedocs.io/en/1.14.x/"
  • [75] Data Lifecycle, "https://lua-api.factorio.com/latest/Data-Lifecycle.html"
  • [74] CurseForge Minecraft Mods, "https://www.curseforge.com/minecraft/modpacks“
  • [73] Apache Maven Project, "https://maven.apache.org/“
  • [72] Android, https://developer.android.com/
  • [71] Aldebaran Robotics, "http://www.aldebaran-robotics.com/“
  • [70] 인간기능 생활지원 지능지식 로봇개발 사업, "http://irobotics.re.kr/“
  • [69] 2018, "World Robotics Service Robots 2018", International Federation of Robotics
  • [68] 2015, "Best-selling indie open-world videogame", Guinness World Record
  • [51] Roach Jackalb, Feb. 26. 2020, "The bestselling games of all time", Digital Trends
  • [44] Niemueller Tim, 2009b, "Developing A Behavior Engine for the Fawkes Robot-Control Software and its Adaptation to the Humanoid Platform Nao", RWTH Aachen University, Knowledge-Based Systems Group, Master's Thesis
  • [34] Lee Jaeho, Kwak Byulsaim, 2006, "A Task Management Architecture for Control of Intelligent Robots", PRIMA 2006, LNAI 4088, pp. 59–70
  • [24] Gierse Gesche, et. al, 2016, "Interruptible Task Execution with Resumption in Golog", Proc. ECAI 2016 - 22nd European Conference on Artificial Intelligence, 29 August-2 September 2016, The Hague, The Netherlands - Including Prestigious Applications of Artificial Intelligence (PAIS 2016), pp. 1265-1273
  • [22] Ferrein A., et. al, 2013, "Lessons Learnt from Developing the Embodied AI Platform Caesar for Domestic Service Robotics", Designing Intelligent Robots: Reintegrating AI II, Papers from the 2013 AAAI Spring Symposium, Palo Alto, California, USA, March 25-27, 2013.
  • [21] Ferrein A., 2010, "golog.lua: Towards a Non-Prolog Implementation of Golog for Embedded Systems", Proc. Embedded Reasoning, Papers from the 2010 AAAI Spring Symposium, Technical Report SS-10-04, Stanford, California, USA, March 22-24, 2010
  • [13] Beetz Michael, et. al, 2012, "Cram–a cognitive robot abstract machine", In 5th International conference on cognitive systems (CogSys 2012), p. 9
  • YAGI An Easy and Light-Weighted Action-Programming Language for Education and Research in Artificial Intelligence and Robotics ''
    [2015]
  • WhatCanCognitive architectures do for robotics ? , Biologically InspiredCognitive Architecture
    2 , 88-99 . [2012]
  • Validation of a fivefactor model of personality across instruments and observers
    vol . 52 , pp . 81–90
  • Understanding and Executing Instructions for Everyday Manipulation Tasks from the World Wide Web.
    [2010]
  • Transformational planning for everyday activity
    pp . 248–255 [2007]
  • Towards Automated Models of Activities of Daily Life
    vol . 22
  • The SHERPA project smart collaboration between humans and ground-aerial robots for improving rescuing activities in alpine environments ''
    pp . 1-4 [2012]
  • The RoboEarth Language Representing and Exchanging Knowledge about Actions , Objects , and Environments ''
    pp . 1284-1289 [2012]
  • Teaching scientificConcepts using a virtual world – Minecraft ''
    Vol . 58 , Num . 3 [2012]
  • Robot learning language — integrating programming and learning forCognitive systems
    vol . 57 , no . 9 , pp . 943–954 [2009]
  • RoboEarth Semantic Mapping : ACloud Enabled Knowledge-Based Approach '' ,
    VOL . 12 , NO . 2 [2015]
  • RoboEarth A World Wide Web for Robots ''
    18 . 69 – 82 [2011]
  • Representations for robot knowledge in the KnowRob framework ''
    Vol . 247 , pp 151-169 [2015]
  • ROSCommunity Metrics Report 2019 ''
    ROS [2019]
  • ROS : an open-source Robot Operating System .
    3 [2009]
  • Particle swarm optimization-based central pattern generator for robotic fish locomotion
    pp . 152–157 [2011]
  • Ontology-based multi-layered robot knowledge framework ( OMRKF ) for robot intelligence
    pp . 429-436 [2007]
  • Ontology-Based Knowledge model for Human-Robot Interactive Services '' ,
    pp . 2029–2038 [2020]
  • Minecraft as an Experimental World for AI in Robotics ''
    [2015]
  • Microsoft to buy Minecraft maker Mojang for 2.5 billion ''
    Reuters [2014]
  • MOE, 2014, “Manual for Developing a Basic Plan for Total Maximum Daily Loads”, Ministry of Environment.
  • Logic-based robotControl in highly dynamic domains ''
    56 ( 11 ) , pp . 980–991 [2008]
  • Learning through game modding ''
    Vol . 4 , Issue 1 [2005]
  • Knowledge-Based Instrumentation andControl forCompetitive Industry-Inspired Robotic Domains ''
    Vol . 30 , Issue 3 , pp . 289-299
  • KnowRob : A knowledge processing infrastructure forCognition-enabled robots ''
    Vol 32 , Issue 5 [2013]
  • Know Rob 2.0 — A 2nd Generation Knowledge Processing Framework forCognition-Enabled Robotic Agents
    pp . 512-519 . [2018]
  • KNOWROB — Knowledge Processing for Autonomous Personal Robots ''
    pp . 4261-4266 [2009]
  • JAM , A BDI-theoretic Mobile Agent
    [1999]
  • Intelligence Technology for Robots That Think ''
    vol . 8 , no . 3 , pp . 70-84 [2013]
  • Integration of Representation Into Goal-Driven Behavior-Based Robots ''
    Vol . 8 , No . 3 [1992]
  • ISR : An Intelligent Service Robot ''
    [1999]
  • GOLOG : A Logic Programming Language for Dynamic Domains ''
    Vol . 31 , No . 1 , pp . 59–84 . [1997]
  • Fuzzy integral-based composite facial expression generation for a robotic head
    pp . 917–923 [2011]
  • Fuzzy Integral-based GazeControl Architecture Incorporated with Modified-univector Field-Based Navigation for Humanoid Robots , ''
    vol . 42 , no . 1 , pp . 125-139 [2012]
  • Facial ActionCoding System : A Technique for the Measurement of Facial Movement
    [1978]
  • Evolutionary personalized robotic doll : GomDoll
    pp . 3024–3029 [2008]
  • Evolutionary multiobjective footstep planning for humanoid robots
    vol . 41 , no . 4 , pp . 520–532 [2011]
  • Evolutionary generative process for an artificial creature ’ s personality
    vol . 39 , no . 3 , pp.331–342 [2009]
  • Design Principles of theComponent-Based Robot Software Framework Fawkes ''
    [2010]
  • Applying package management to Mod Installation '' , Appalachian State Univercity
    [2017]
  • An approach to multi-modal human–machine interaction for intelligent service robots ''
    44 . 83-96 [2003]
  • Agile Specification-Driven Development , XP 2004 : extreme programming and agile processes in software engineering
    pp 104-112 [2004]
  • A framework for an interactive robot-based tutoring system and its application to ball-passing training
    pp . 573–578 [2010]
  • A Reactive Plan Language
    [1991]
  • A Lua-based Behavior Engine forControlling the Humanoid Robot Nao ''
    [2009]
  • 3D Model Selection from an Internet Database for Robotic Vision
    [2009]