CITED WORKS

Referenced in publications covered by other indexes

  • Citing :
    Chen, Dejun et al. (2018-2019)
    Research on Ship Collision Avoidance Method Based on Track Prediction - Asia-Pacific Conference on Intelligent Medical (APCIM)
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, Agnieszka (2018-2019)
    Research on algorithms for autonomous navigation of ships - WMU JOURNAL OF MARITIME AFFAIRS
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Li, Shijie et al. (2018-2019)
    Distributed coordination for collision avoidance of multiple ships considering ship maneuverability - OCEAN ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Fang, Zhixiang et al. (2018-2019)
    Automatic Identification System-Based Approach for Assessing the Near-Miss Collision Risk Dynamics of Ships in Ports - IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Inan, Timur et al. (2018-2019)
    Particle swarm optimization-based collision avoidance - TURKISH JOURNAL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Tu, Enmei et al. (2017-2018)
    Exploiting AIS Data for Intelligent Maritime Navigation: A Comprehensive Survey From Data to Methodology - IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Vozar, Steve et al. (2017-2018)
    Development and analysis of an operator steering model for teleoperated mobile robots under constant and variable latencies - ROBOTICA
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Zhang, Darui et al (2017-2018)
    Adaptive Transmission Shift Strategy Based on Online Characterization of Driver Aggressiveness - SAE INTERNATIONAL JOURNAL OF COMMERCIAL VEHICLES
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Tu, Enmei et al. (2017-2018)
    Exploiting AIS Data for Intelligent Maritime Navigation: A Comprehensive Survey From Data to Methodology - IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Fiskin, R. et al. (2017-2018)
    A RESEARCH ON TECHNIQUES, MODELS AND METHODS PROPOSED FOR SHIP COLLISION AVOIDANCE PATH PLANNING PROBLEM - INTERNATIONAL JOURNAL OF MARITIME ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, Agnieszka (2017-2018)
    A new potential field inspired path planning algorithm for ships - 23rd International Conference on Methods and Models in Automation and Robotics (MMAR)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Chen, Dejun et al. (2017-2018)
    Research on Ship Collision Avoidance Method Based on Track Prediction - Asia-Pacific Conference on Intelligent Medical (APCIM) / 7th International Conference on Transportation and Traffic Engineering (ICTTE)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Szlapczynski, Rafal et al. (2017-2018)
    Review of ship safety domains: Models and applications - OCEAN ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Park, Jeonghong et al. (2016-2017)
    Probabilistic quantification of ship collision risk considering trajectory uncertainties - 10th IFAC Conference on Control Applications in Marine Systems (CAMS)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Borkowski, Piotr et al. (2016-2017)
    The Ship Movement Trajectory Prediction Algorithm Using Navigational Data Fusion - SENSORS
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Ertogan, Melek et al. (2016-2017)
    Optimal trim control of a high-speed craft by trim tabs/interceptors Part I: Pitch and surge coupled dynamic modelling using sea trial data - OCEAN ENGINEERING
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Du, Haoran et al. (2016-2017)
    An Algorithm for Vessel's Missing Trajectory Restoration Based on Polynomial Interpolation - 4th International Conference on Transportation Information and Safety (ICTIS)
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Piao, Wenhua et al. (2016-2017)
    Development of a protocol to optimize electric power consumption and life cycle environmental impacts for operation of wastewater treatment plant - ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Wu Man; Lv Zhiyong (2016-2017)
    The Information Fusion Based on AIS And Video Data - 5th International Conference on Computer Science and Network Technology (ICCSNT)
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Kang et al. (2016-2017)
    Long-Term Ship Speed Prediction for Intelligent Traffic Signaling - IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
    Cited :
    Prediction of position and course of a vessel using artificial neural networks by utilizing GPS/Radar data - 3RD INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN SPACE TECHNOLOGIES
  • Citing :
    Chen, S. J. et al. (2016-2017)
    Machine assisted manual torch operation: system design, response modeling, and speed control - JOURNAL OF INTELLIGENT MANUFACTURING
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Hisham, Amirah et al. (2016-2017)
    Racer: A Simulated Environment Driving Simulator to Investigate Human Driving Skill - 17th Asia Simulation Conference (AsiaSim)
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Park, Jeonghong et al. (2016-2017)
    Predictive Evaluation of Ship Collision Risk Using the Concept of Probability Flow - IEEE JOURNAL OF OCEANIC ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Borkowski, Piotr (2016-2017)
    The Ship Movement Trajectory Prediction Algorithm Using Navigational Data Fusion - SENSORS
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, A. et al. (2016-2017)
    Multi-criteria ACO-based Algorithm for Ship's Trajectory Planning - TRANSNAV-INTERNATIONAL JOURNAL ON MARINE NAVIGATION AND SAFETY OF SEA TRANSPORTATION
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lopez-Santander et al. (2016-2017)
    An Ordinal Model of Risk Based on Mariner's Judgement - JOURNAL OF NAVIGATION
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, Agnieszka et al. (2016-2017)
    Multi-criteria Trajectory Base Path Planning Algorithm for a Moving Object in a Dynamic Environment - IEEE International Conference on INnovations in Intelligent SysTems and Applications (INISTA)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Teng, Teck-Hou et al. (2016-2017)
    Coordinating Vessel Traffic to Improve Safety and Efficiency - 16th International Conference on Autonomous Agents and Multiagent Systems (AAMAS)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Teng, Teck-Hou et al. (2016-2017)
    A Multi-Agent System for Coordinating Vessel Traffic - 16th International Conference on Autonomous Agents and Multiagent Systems (AAMAS)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Szlapczynski, Rafal et al. (2016-2017)
    An analysis of domain-based ship collision risk parameters - OCEAN ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Wang, Xiao-ye et al. (2016-2017)
    An Intelligent collision avoidance algorithm research - 9th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics (CISP-BMEI)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, Agnieszka (2015-2016)
    Method of considering the dynamics of a ship in the process of determining a safe trajectory using an algorithm based on Ant Colony Optimization - 21ST INTERNATIONAL CONFERENCE ON METHODS AND MODELS IN AUTOMATION AND ROBOTICS (MMAR)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Lazarowska, Agnieszka (2015-2016)
    A trajectory base method for ship's safe path planning - 20th International Conference on Knowledge - Based and Intelligent Information and Engineering Systems (KES)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Nam, Byeong-Wook et al. (2015-2016)
    A Study on the Estimation Method of Risk Based Area for Jetty Safety Monitoring - SUSTAINABILITY
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Zissis, Dimitrios et al. (2015-2016)
    Real-time vessel behavior prediction - EVOLVING SYSTEMS
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Zissis, Dimitrios et al. (2015-2016)
    A cloud based architecture capable of perceiving and predicting multiple vessel behaviour - APPLIED SOFT COMPUTING
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Qu, Ting et al. (2015-2016)
    A stochastic model predictive control approach for modelling human driver steering control - INTERNATIONAL JOURNAL OF VEHICLE DESIGN
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Ma, Feng et al. (2015-2016)
    A novel marine radar targets extraction approach based on sequential images and Bayesian Network - OCEAN ENGINEERING
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Xu Wen et al. (2015-2016)
    Ship Automatic Collision Avoidance by Altering Course Based on Ship Dynamic domain - IEEE Trustcom BigDataSE ISPA
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Wei, Zhaokun et al. (2014-2015)
    Decision-Making in Ship Collision Avoidance based on Cat-Swarm Biological Algorithm - International Conference on Computational Science and Engineering (ICCSE)
    Cited :
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
  • Citing :
    Tong Xiaopeng et al. (2014-2015)
    essel Trajectory Prediction in Curving Channel of Inland River - 3rd International Conference on Transportation Information Safety
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Simsir, Ugur et al. (2014-2015)
    Decision support system for collision avoidance of vessels - APPLIED SOFT COMPUTING
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Huang, Ning et al (2014-2015)
    Machine Assisted Manual Torch Operation in Gas Tungsten Arc Welding Process - IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM)
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Zhang, WeiJie (2013-2014)
    Modeling of human welder behavior in gas tungsten arc welding of stainless steel tubes - WELDING IN THE WORLD
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Liu, Y. K et al. (2013-2014)
    A tutorial on learning human welder's behavior: Sensing, modeling, and control - JOURNAL OF MANUFACTURING PROCESSES
    Cited :
    Intelligent modeling of human driver: A survey - IEEE INTELLIGENT VEHICLES SYMPOSIUM
  • Citing :
    Kim, H. S et al. (2011-2012)
    Evaluation of model-based control strategy based on generated setpoint schedules for NH4-N removal in a pilot-scale A(2)/O process - CHEMICAL ENGINEERING JOURNAL
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING
  • Citing :
    Han, Hong-Gui , Qiao, Jun-Fei , (2010-2011)
    Adaptive dissolved oxygen control based on dynamic structure neural network - APPLIED SOFT COMPUTING
    Cited :
    Prediction of manually controlled vessels' position and course navigating in narrow waterways using Artificial Neural Networks - APPLIED SOFT COMPUTING