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Rafal Cupek
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2020 – today
- 2025
- [j10]Jia-Hao Syu, Marcin Fojcik, Rafal Cupek, Jerry Chun-Wei Lin:
HTTPS: Heterogeneous Transfer learning for spliT Prediction System evaluated on healthcare data. Inf. Fusion 113: 102617 (2025) - 2024
- [c56]Pi-Wei Chen
, Jerry Chun-Wei Lin
RECALL: Towards Generalized Representations in Unsupervised Federated Learning Under Non-IID Conditions. ACIIDS (1) 2024: 253-263 - [c55]Jia-Hao Syu
TripleS: A Subsidy-Supported Storage for Electricity with Self-financing Management System. PAKDD (5) 2024: 244-255 - [c54]Karol Marszalek, Adam Domanski, Rafal Cupek, Jerry Chun-Wei Lin
A Queueing System to Jobs Scheduling Problem in AGVs. PDP 2024: 199-206 - [c53]Olena Pavliuk, Myroslav Mishchuk, Mykola Medykovskyy, Rafal Cupek:
A Two-Stage Feature Selection Method for Neural Network Predictive Models for AGV. SMARTINDUSTRY 2024: 122-137 - 2023
- [j9]Jia-Hao Syu
Energy grid management system with anomaly detection and Q-learning decision modules. Comput. Electr. Eng. 107: 108639 (2023) - [j8]Jacek Stój
Industrial Shared Wireless Communication Systems - Use Case of Autonomous Guided Vehicles with Collaborative Robot. Sensors 23(1): 158 (2023) - [c52]Karol Marszalek, Adam Domanski, Rafal Cupek, Marek Drewniak:
Testing Quality of Service of communication system for AGV fleet with Software-Defined Network. IEEE Big Data 2023: 5078-5086 - [c51]Mykola O. Medykovskyy, Rafal Cupek, Olena Pavliuk
An approach towards AGV battery cell voltage prediction using DL and data pre-processing. CSIT 2023: 1-4 - [c50]Jaroslaw Flak, Tomasz Skowron, Rafal Cupek, Marcin Fojcik, Dariusz Caban, Adam Domanski:
ZigBee Network for AGV Communication in Industrial Environments. DSAA 2023: 1-9 - [c49]Naveen Sharma, Rafal Cupek:
Real-Time Control and Optimization of Internal Logistics Systems with Collaborative Robots. KES 2023: 248-258 - [c48]Olav Sande, Marcin Fojcik, Marcin Hernes, Rafal Cupek, Marek Drewniak:
Implementation of OPC UA Communication Traffic Control for Analog Values in an Automation Device with Embedded OPC UA Servers. KES 2023: 2322-2332 - [c47]Jia-Hao Syu
HTPS: Heterogeneous Transferring Prediction System for Healthcare Datasets. PDP 2023: 200-205 - [i1]Jia-Hao Syu, Jerry Chun-Wei Lin
HTPS: Heterogeneous Transferring Prediction System for Healthcare Datasets. CoRR abs/2305.01252 (2023) - 2022
- [j7]Jacek Stój
FPGA based Industrial Ethernet Network Analyser for Real-time Systems Providing Openness for Industry 4.0. Enterp. Inf. Syst. 16(10-11): 1711-1731 (2022) - [j6]Tomasz Steclik
Automatic grouping of production data in Industry 4.0: The use case of internal logistics systems based on Automated Guided Vehicles. J. Comput. Sci. 62: 101693 (2022) - [c46]Rafal Cupek, Jerry Chun-Wei Lin
Automated Guided Vehicles Challenges for Artificial Intelligence. IEEE Big Data 2022: 6281-6289 - [c45]Katarzyna Filus, Lukasz Sobczak, Joanna Domanska, Adam Domanski, Rafal Cupek:
Real-time testing of vision-based systems for AGVs with ArUco markers. IEEE Big Data 2022: 6290-6298 - [c44]Tomasz Steclik
Stream data clustering for engineering applications a use case of autonomous guided vehicles. IEEE Big Data 2022: 6347-6356 - [c43]Mühenad Bilal
Damage Detection of Coated Milling Tools Using Images Captured by Cylindrical Shaped Enclosure Measurement Setup. ICCCI (CCIS Volume) 2022: 264-272 - [c42]Anne-Lena Kampen, Rafal Cupek, Marcin Fojcik, Marek Drewniak, Knut Øvsthus:
Case Study of AGV in Industry 4.0 Environments - An Evaluation of Wireless Communication Protocols. SMC 2022: 2049-2055 - [c41]Mühenad Bilal
High Resolution Mask R-CNN-based Damage Detection on Titanium Nitride Coated Milling Tools for Condition Monitoring by using a New Illumination Technique. VISIGRAPP (5: VISAPP) 2022: 305-314 - 2021
- [c40]Rafal Cupek
Data Preprocessing, Aggregation and Clustering for Agile Manufacturing Based on Automated Guided Vehicles. ICCS (4) 2021: 458-470 - [c39]Adam Ziebinski
Challenges Associated with Sensors and Data Fusion for AGV-Driven Smart Manufacturing. ICCS (4) 2021: 595-608 - [c38]Leonid Koval, Daniel Pfaller, Mühenad Bilal
An Analysis of Convolutional Neural Network Models for Classifying Machine Tools. ICCCI (CCIS Volume) 2021: 461-473 - [c37]Anna-Lena Kampen, Marcin Fojcik
Low-Level Wireless and Sensor Networks for Industry 4.0 Communication - Presentation. ICCCI (CCIS Volume) 2021: 474-484 - [c36]Rafal Cupek
Ontology-Based Approaches for Communication with Autonomous Guided Vehicles for Industry 4.0. ICCCI (CCIS Volume) 2021: 485-497 - [c35]Anna-Lena Kampen, Marcin Fojcik
The requirements for using wireless networks with AGV communication in an industry environment. WiMob 2021: 212-218 - 2020
- [c34]Rafal Cupek
Autonomous Guided Vehicles for Smart Industries - The State-of-the-Art and Research Challenges. ICCS (5) 2020: 330-343
2010 – 2019
- 2019
- [j5]Rafal Cupek
"Digital Twins" for Highly Customized Electronic Devices - Case Study on a Rework Operation. IEEE Access 7: 164127-164143 (2019) - [j4]Rafal Cupek
Knowledge integration via the fusion of the data models used in automotive production systems. Enterp. Inf. Syst. 13(7-8): 1094-1119 (2019) - [c33]Adam Ziebinski
Soft Real-Time Systems for Low-Cost Unmanned Ground Vehicle. ICCCI (2) 2019: 196-206 - [c32]Adam Ziebinski
The Cycle Time Determination for a Soft Real-Time System. ICCCI (2) 2019: 207-217 - [c31]Rafal Cupek
An OPC UA Machine Learning Server for Automated Guided Vehicle. ICCCI (2) 2019: 218-228 - [c30]Marcin Fojcik
Quality of Service in Real-Time OPC UA Applications. ICCCI (2) 2019: 239-248 - [c29]Rafal Cupek
Information Models for a New Generation of Manufacturing Systems - a Case Study of Automated Guided Vehicle. SMC 2019: 858-864 - 2018
- [j3]Rafal Cupek
Determination of the machine energy consumption profiles in the mass-customised manufacturing. Int. J. Comput. Integr. Manuf. 31(6): 537-561 (2018) - [c28]Rafal Cupek
Improving KPI Based Performance Analysis in Discrete, Multi-variant Production. ACIIDS (2) 2018: 661-673 - [c27]Rafal Cupek
Estimation of the Number of Energy Consumption Profiles in the Case of Discreet Multi-variant Production. ACIIDS (2) 2018: 674-684 - [c26]Rafal Cupek
Application of Decision Trees for Quality Management Support. ICCCI (2) 2018: 67-78 - 2017
- [c25]Rafal Cupek
An Ontology Model for Communicating with an Autonomous Mobile Platform. BDAS 2017: 480-493 - [c24]Adam Ziebinski
Obstacle Avoidance by a Mobile Platform Using an Ultrasound Sensor. ICCCI (2) 2017: 238-248 - [c23]Rafal Cupek
Application of OPC UA Protocol for the Internet of Vehicles. ICCCI (2) 2017: 272-281 - [c22]Rafal Cupek
Feasibility Study of the Application of OPC UA Protocol for the Vehicle-to-Vehicle Communication. ICCCI (2) 2017: 282-291 - [c21]Rafal Cupek
Data Mining Techniques for Energy Efficiency Analysis of Discrete Production Lines. ICCCI (2) 2017: 292-301 - [c20]Rafal Cupek
An OPC UA server as a gateway that shares CAN network data and engineering knowledge. ICIT 2017: 1424-1429 - 2016
- [j2]Rafal Cupek
Agent-based manufacturing execution systems for short-series production scheduling. Comput. Ind. 82: 245-258 (2016) - [c19]Adam Ziebinski
A Survey of ADAS Technologies for the Future Perspective of Sensor Fusion. ICCCI (2) 2016: 135-146 - [c18]Konrad Wojciechowski, Bogdan Smolka
A Machine-Learning Approach to the Automated Assessment of Joint Synovitis Activity. ICCCI (2) 2016: 440-450 - 2015
- [c17]Rafal Cupek
Agent Based Quality Management in Lean Manufacturing. ICCCI (1) 2015: 89-100 - [c16]Rafal Cupek
OData for service-oriented business applications: Comparative analysis of communication technologies for flexible Service-Oriented IT architectures. ICIT 2015: 1538-1543 - 2014
- [c15]Rafal Cupek
Online energy efficiency assessment in serial production - statistical and data mining approaches. ISIE 2014: 189-194 - 2013
- [j1]Rafal Cupek
Fpga Based OPC UA Embedded Industrial Data Server Implementation. J. Circuits Syst. Comput. 22(8) (2013) - [c14]Rafal Cupek
Bandwidth Optimization Method for Non-critical Data Transmission in Real-Time Communication Systems. CN 2013: 189-199 - [c13]Rafal Cupek
End-point device compressed air consumption analysis by reverse engineering algorithm. IECON 2013: 7519-7524 - [c12]Artur Frankiewicz, Rafal Cupek
Smart passive infrared sensor - Hardware platform. IECON 2013: 7543-7547 - 2011
- [c11]Michal Bochenek, Marcin Fojcik
OPC Historical Data Access - OPC Foundation Toolkit Improvement Suggestions. CN 2011: 338-347 - [c10]Kamil Folkert, Marcin Fojcik
Efficiency of OPC UA Communication in Java-Based Implementations. CN 2011: 348-357 - [c9]Rafal Cupek
Field Level Industrial Ethernet Network Data Analysis. CN 2011: 358-366 - [c8]Aldona Maka, Rafal Cupek
OPC UA Object Oriented Model for Public Transportation System. EMS 2011: 311-316 - [c7]Aldona Maka, Rafal Cupek
Agent-based Modeling for Warehouse Logistics Systems. UKSim 2011: 151-155 - 2010
- [c6]Rafal Cupek
FPGA Based "Intelligent Tap" Device for Real-Time Ethernet Network Monitoring. CN 2010: 58-66 - [c5]Olav Sande, Marcin Fojcik
OPC UA Based Solutions for Integrated Operations. CN 2010: 76-83 - [c4]Rafal Cupek
OPC UA for vertical communication in logistic informatics systems. ETFA 2010: 1-4
2000 – 2009
- 2009
- [c3]Rafal Cupek
Object Oriented Vertical Communication in Distributed Industrial Systems. CN 2009: 72-78 - [c2]Rafal Cupek
PROFINET I/O Network Analyzer. CN 2009: 242-251 - [c1]Rafal Cupek
Passive PROFIET I/O OPC DA Server. ETFA 2009: 1-5
Coauthor Index
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last updated on 2024-10-07 21:22 CEST by the dblp team
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