World Model for Testing Urban Search and Rescue (USAR) Robots using Petri Nets

被引:0
|
作者
Andrews, Anneliese [1 ]
Abdelgawad, Mahmoud [1 ]
Gario, Ahmed [1 ]
机构
[1] Univ Denver, Dept Comp Sci, Denver, CO 80208 USA
来源
PROCEEDINGS OF THE 4TH INTERNATIONAL CONFERENCE ON MODEL-DRIVEN ENGINEERING AND SOFTWARE DEVELOPMENT (MODELSWARD 2016) | 2016年
基金
美国国家科学基金会;
关键词
Model-based Testing; Behavioral Models; Petri Nets; USAR Robots;
D O I
暂无
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
This paper describes a model-based test generation approach for testing Urban Search and Rescue (USAR) robots interacting with their environment (i.e., world). Unlike other approaches that assume a static world with attributes and values, we present and test a dynamic world. We use Petri Nets to illustrate a world model that describes behaviors of environmental entities (i.e., actors). The Abstract World Behavioral Test Cases (AWBTCs) are generated by covering the active world model using graph coverage criteria. We also select test-data by input-space partitioning to transform the generated AWBTCs into executable test cases. Reachability of the active world model and efficiency of coverage criteria are also discussed.
引用
收藏
页码:663 / 670
页数:8
相关论文
共 50 条
  • [1] An Inclusive Model for the Urban Search and Rescue Teams (USAR)
    Lee, Amaly Fong
    Saenz, Adan Vega
    [J]. JOURNAL OF DISASTER RESEARCH, 2022, 17 (07) : 1192 - 1198
  • [2] The Use of Role Play to Simulate a Tethered Swarm of Robots for Urban Search and Rescue (USAR)
    Albin-Clark, Adrian
    Kumar, T. R. Vishnu Arun
    [J]. ITICSE '08: PROCEEDINGS OF THE 13TH ANNUAL CONFERENCE ON INNOVATION AND TECHNOLOGY IN COMPUTER SCIENCE EDUCATION, 2008, : 335 - 335
  • [3] World Model for Testing Autonomous Systems Using Petri Nets
    Andrews, Anneliese
    Abdelgawad, Mahmoud
    Gario, Ahmed
    [J]. 2016 IEEE 17TH INTERNATIONAL SYMPOSIUM ON HIGH ASSURANCE SYSTEMS ENGINEERING (HASE), 2016, : 65 - 69
  • [4] Factors that affect rescue time in urban search and rescue (USAR) operations
    Statheropoulos, M.
    Agapiou, A.
    Pallis, G. C.
    Mikedi, K.
    Karma, S.
    Vamvakari, J.
    Dandoulaki, M.
    Andritsos, F.
    Thomas, C. L. Paul
    [J]. NATURAL HAZARDS, 2015, 75 (01) : 57 - 69
  • [5] Factors that affect rescue time in urban search and rescue (USAR) operations
    M. Statheropoulos
    A. Agapiou
    G. C. Pallis
    K. Mikedi
    S. Karma
    J. Vamvakari
    M. Dandoulaki
    F. Andritsos
    C. L. Paul Thomas
    [J]. Natural Hazards, 2015, 75 : 57 - 69
  • [6] SELECTIVE VISUAL ATTENTION FOR URBAN SEARCH AND RESCUE (USAR) SYSTEMS
    Abdullah, R.
    Hamila, R.
    Vernon, D.
    [J]. MOBILE ROBOTICS-SOLUTIONS AND CHALLENGES, 2010, : 381 - 388
  • [7] Where to go first: prioritization of damaged areas for allocation of Urban Search and Rescue (USAR) operations (PI-USAR model)
    Hassanzadeh, Reza
    Nedovic-Budic, Zorica
    [J]. GEOMATICS NATURAL HAZARDS & RISK, 2016, 7 (04) : 1337 - 1366
  • [8] Urban search and rescue (USAR) simulation in earthquake environments using queuing theory: estimating the appropriate number of rescue teams
    Hooshangi, Navid
    Gharakhanlou, Navid Mahdizadeh
    Ghaffari-Razin, Seyyed Reza
    [J]. INTERNATIONAL JOURNAL OF DISASTER RESILIENCE IN THE BUILT ENVIRONMENT, 2024, 15 (01) : 1 - 18
  • [9] Modular Snake Robot with Mapping and Navigation Urban Search and Rescue (USAR) Robot
    Chavan, Pramod
    Murugan, M.
    Unnikkannan, Vikas E. V.
    Singh, Abhinavkumar
    Phadatare, Pallavi
    [J]. 1ST INTERNATIONAL CONFERENCE ON COMPUTING COMMUNICATION CONTROL AND AUTOMATION ICCUBEA 2015, 2015, : 537 - 541
  • [10] Tactical mobile robots for urban search and rescue
    Blitch, J
    Sidki, N
    Durkin, T
    [J]. UNMANNED GROUND VEHICLE TECHNOLOGY II, 2000, 4024 : 201 - 211
12345