Marketplace - SMART4ALL

Publications

  1. K. Piniarski, P. Pawłowski, and A. Dąbrowski, "Tuning of Classifiers to Speed-Up Detection of Pedestrians in Infrared Images," Sensors, vol. 20, no. 16, p. 4363, 2020. doi: 10.3390/s20164363.
  2. P. Pawłowski, K. Piniarski, and A. Dąbrowski, "Highly Efficient Lossless Coding for High Dynamic Range Red, Clear, Clear, Clear Image Sensors," Sensors, vol. 21, no. 2, p. 653, 2021. doi: 10.3390/s21020653.
  3. K. Podbucki, J. Suder, T. Marciniak, and A. Dąbrowski, "Electronic measuring matrix for testing airport lamps," Journal of Measurement, 2023.
  4. J. Suder, K. Podbucki, T. Marciniak, and A. Dąbrowski, "Spectrum sensors for detecting type of airport lamps in a light photometry system," Journal of Light Photometry, 2023.
  5. M. A. Scrugli, B. Blažica, L. Raffo, and P. Meloni, "A Microcontroller-Based Platform for Cognitive Tracking of Sensorimotor Training," IEEE Access, vol. 11, pp. 3294097, 2023. doi: 10.1109/access.2023.3294097.
  6. A. Allik, K. Pilt, M. Viigimäe, I. Fridolin, and G. Jervan, "A Novel Physical Fatigue Assessment Method Utilizing Heart Rate Variability and Pulse Arrival Time towards Personalized Feedback with Wearable Sensors," Sensors, vol. 22, no. 4, p. 1680, 2022. doi: 10.3390/s22041680.
  7. I. Shabani, T. Biba, and B. Çiço, "Design of a Cattle-Health-Monitoring System Using Microservices and IoT Devices," Computers, vol. 11, no. 5, p. 79, 2022. doi: 10.3390/computers11050079.
  8. E. Faliagka, V. Skarmintzos, C. Panagiotou, V. Syrimpeis, C. P. Antonopoulos, and N. Voros, "Leveraging Edge Computing ML Model Implementation and IoT Paradigm Towards Reliable Postoperative Rehabilitation Monitoring," Electronics, vol. 12, no. 16, p. 3375, 2023. doi: 10.3390/electronics12163375.
  9. Z. Ul Abideen, R. Wang, T. D. Perez, G.-J. Schrijen, and S. Pagliarini, "Impact of Orientation on the Bias of SRAM-Based PUFs," IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 2023.
  10. J. Suder, K. Podbucki, T. Marciniak, and A. Dąbrowski, "Low Complexity Lane Detection Methods for Light Photometry System," Electronics, vol. 10, no. 14, p. 1665, 2021. doi: 10.3390/electronics10141665.
  11. L. Krstanović, B. Popović, M. Janev, and B. Brkljač, "Bootstrapped SSL CycleGAN for Asymmetric Domain Transfer," Applied Sciences, vol. 12, no. 7, p. 3411, 2022. doi: 10.3390/app12073411.
  12. M. Radosavljević, B. Brkljač, P. Lugonja, V. Crnojević, Ž. Trpovski, Z. Xiong, and D. Vukobratović, "Lossy Compression of Multispectral Satellite Images with Application to Crop Thematic Mapping: A HEVC Comparative Study," Remote Sensing, vol. 12, no. 10, p. 1590, 2020. doi: 10.3390/rs12101590.
  13. M. Mihaljević, M. Todorović, and M. Knežević, "An Evaluation of Power Consumption Gain and Security of Flexible Green Pool Mining in Public Blockchain Systems," Symmetry, vol. 15, no. 4, p. 924, 2023. doi: 10.3390/sym15040924.
  14. P. Góral, P. Pawłowski, K. Piniarski, and A. Dąbrowski, "Multi-agent vision system for supporting autonomous orchard spraying," Electronics, vol. 13, no. 3, p. 494, 2022. doi: 10.3390/electronics13030494.
  15. K. Podbucki, T. Marciniak, and J. Suder, "Laboratory Assessment of In-Pavement Airport Lamp’s Luminous Intensity Distribution," Applied Sciences, vol. 13, no. 24, p. 13242, 2023. doi: 10.3390/app132413242.
  16. J. Suder and T. Marciniak, "Foreign Object Debris detection system using GoogleNet," Journal of Computer Vision, 2023.
  17. J. Balcerek, P. Pawłowski, and B. Trzciński, "System wizyjny do automatycznego rozpoznawania zwierząt na podstawie obrazów z wideorejestratorów samochodowych," Przegląd Elektrotechniczny, 2023. doi: http://pe.org.pl/abstract_pl.php?nid=13970.
  18. J. Balcerek, P. Pawłowski, G. Blajer, J. Filipkiewicz, and K. Koćwin, "Automatyczne rozpoznawanie pojazdów uprzywilejowanych," Journal of Intelligent Systems, 2023.
  19. M. Janeda, P. Pawłowski, and M. Ślachciński, "A Novel Biological, Environmental, and Food Micro-Amount Slurry Samples Injection Technique for Simultaneous Quantification of Metals Using a Microwave Induced Plasma Optical Emission Spectrometry," Journal of Analytical Chemistry, 2023. doi: http://dx.doi.org/10.1134/S1061934823120079.
  20. P. Góral, K. Piniarski, P. Pawłowski, and A. Dąbrowski, "Multi-Agent Vision System for Supporting Autonomous Orchard Spraying," Electronics, vol. 13, no. 3, p. 494, 2022. doi: http://dx.doi.org/10.3390/electronics13030494.
  21. K. Podbucki, J. Suder, T. Marciniak, W. Mańczak, and A. Dąbrowski, "Microprocessor based photometric light intensity sensor for airport lamps quality testing," Journal of Photometric Light, 2023.
  22. P. Góral, P. Pawłowski, and A. Dąbrowski, "Modułowy system wizyjny do autonomicznych inspekcji i oprysków sadowniczych," Journal of Agricultural Vision Systems, 2023.
  23. J. Suder, "Possibilities of processing video sequences in embedded systems," Embedded Systems Journal, 2023.
  24. K. Podbucki, "Possibilities and limitations of environment monitoring with usage of LiDAR scanner," Journal of Environmental Monitoring, 2023.
  25. J. Balcerek, A. Konieczka, P. Pawłowski, C. Dankowski, M. Firlej, and P. Fulara, "Automatyczne rozpoznawanie parametrów kół pojazdu," Journal of Vehicle Parameters, 2023.
  26. T. Marciniak, K. Podbucki, and J. Suder, "Application of the Nucleo STM32 module in teaching microprocessor techniques in automatic control," Journal of Automatic Control, 2023.
  27. J. Suder, "Parameters evaluation of cameras in embedded systems," Embedded Systems Journal, 2023.
  1. R. Stojanović, A. Škraba, and B. Lutovac, "A Headset Like Wearable Device to Track COVID-19 Symptoms," in Proc. IEEE MECO, 2020, pp. 4211. doi: 10.1109/meco49872.2020.9134211.
  2. A. Spournias, C. Antonopoulos, G. Keramidas, N. Voros, and R. Stojanović, "Enhancing Visual Recognition for Door Status Identification in AAL Robots via Machine Learning," in Proc. IEEE MECO, 2020, pp. 4108. doi: 10.1109/meco49872.2020.9134108.
  3. R. Stojanovic and A. Škraba, "Simplified open HW/SW pulse oximetry interface for purpose of COVID-19 symptoms detection and monitoring," in Proc. IEEE MECO, 2021, pp. 9460178. doi: 10.1109/meco52532.2021.9460178.
  4. O. M. Machidon, A. Krašovec, A. L. Machidon, V. Pejović, D. Latini, S. T. Sasidharan, and F. Del Frate, "AgriAdapt: Towards Resource-Efficient UAV Weed Detection using Adaptable Deep Learning," in Proc. IEEE Conference, 2022.
  5. A. Spournias, E. Faliagka, C. P. Antonopoulos, G. Keramidas, and N. S. Voros, "Social Distance Monitoring using AI techniques in AAL environments," in Proc. IEEE Conference, 2022.
  6. K. Podbucki and T. Marciniak, "Aspects of autonomous drive control using NVIDIA Jetson Nano microcomputer," in Proc. IEEE Conference, 2022, pp. F89. doi: 10.15439/2022f89.
  7. A. Wiesner and T. Kovacshazy, "Portable, PTP-based Clock Synchronization Implementation for Microcontroller-based Systems and its Performance Evaluation," in Proc. IEEE Conference, 2022.
  8. J. Lech and R. Stojanovic, "Proceedings of the 2nd Summer School on Cyber-Physical Systems and Internet-of-Things Vol. II, 2021," in Proc. IEEE Summer School, 2021, pp. 5086365. doi: 10.5281/zenodo.5086365.
  9. N. S. Voros, "SMART4ALL – Technological Challenges and Funding Opportunities in the Areas of Balkans and Eastern Europe," in Proc. IEEE MECO, 2020, pp. 4065. doi: 10.1109/meco49872.2020.9134065.
  10. A. S. Voros, C. Panagiotou, S. Zogas, G. Keramidas, C. P. Antonopoulos, M. Hubner, and N. S. Voros, "The SMART4ALL High Performance Computing Infrastructure: Sharing high-end hardware resources via cloud-based microservices," in Proc. IEEE FPL, 2021, pp. 76. doi: 10.1109/fpl53798.2021.00076.
  11. T. Kovacshazy and G. Fekete, "Application Experiment with the Standard Linux Services for Asymmetric Multiprocessing on Heterogeneous System on a Chips," in Proc. IEEE Conference, 2022.
  12. A. Spournias, P. Bountas, E. Faliagka, D. Kontargiris, C. P. Antonopoulos, G. Keramidas, and N. S. Voros, "Smart health monitoring using AI techniques in AAL environments," in Proc. IEEE Conference, 2022.
  13. E. Faliagka, C. Panagiotou, C. Antonopoulos, G. Keramidas, and N. Voros, "A Novel Marketplace Perspective Promoting Customized Low Energy Computing and IoT: The SMART4ALL Approach," in Proc. IEEE ISVLSI, 2022, pp. 80. doi: 10.1109/ISVLSI54635.2022.00080.
  14. K. Antonopoulos, D. Ringas, E. Christopoulou, G. Keramidas, C. Antonopoulos, and N. Voros, "A Network Simulator as a Service for Demanding Performance Evaluation of Wireless and IoT Scenarios," in Proc. IEEE MeditCom, 2022, pp. 8767. doi: 10.1109/MeditCom55741.2022.9928767.
  15. E. Faliagka, A. Spournias, C. Antonopoulos, and N. Voros, "From Embedded to AI-powered Cyberphysical Systems and Beyond," in Proc. IEEE MIXDES, 2023, pp. 3211. doi: 10.23919/MIXDES58562.2023.10203211.
  16. P. Mousouliotis, T. Leppänen, P. Jääskeläinen, N. Petrellis, P. Christakos, G. Keramidas, C. Antonopoulos, and N. Voros, "On the OpenCL Support for Streaming Fixed-Function Accelerators on Embedded SoC FPGAs," in Proc. Springer Embedded Systems Conference, 2022, pp. 42921-7_4. doi: 10.1007/978-3-031-42921-7_4.
  17. T. Kovácsházy and Z. Fodor, "Linuxptp Servo Optimization for Network Adapters with High-Precision Oscillators," in Proc. IEEE Conference, 2022.
  18. T. Kovácsházy, "Holdover Improvements to the linuxptp Servo for Network Adapters with High-Precision Oscillators," in Proc. IEEE ISPCS, 2023, pp. 10296941. doi: 10.1109/ISPCS59528.2023.10296941.
  19. N. Petrellis, G. Keramidas, C. Antonopoulos, and N. Voros, "Fish Shape Alignment Based on Deformable Shape Tracking Suite of Tools," in Proc. IEEE Conference, 2022.
  20. L. Shkurti, M. Selimi, and A. Besimi, "FederatedMesh: Collaborative Federated Learning for Medical Data Sharing in Mesh Networks," in Proc. IEEE Conference, 2022.
  21. T. Schütte, K. Koch, V. Dworak, and C. Weltzien, "LiDAR Assisted Semi-automatic Mapping and Path Planning Approach for Autonomous Mobile Robots in Vineyards and Orchards," in Proc. IEEE Conference, 2022.
  22. J. Suder, K. Podbucki, and T. Marciniak, "Power Requirements Evaluation of Embedded Devices for Real-Time Video Line Detection," in Proc. IEEE Conference, 2023, pp. 6677. doi: 10.3390/en16186677.
  23. P. Pawłowski, R. Długosz, M. Radkowski, M. Wątły, and A. Dąbrowski, "Analog Programmable Switched Capacitor FIR Filter Based on Rotator Architecture Implemented in CMOS Technology," in Proc. IEEE SPA, 2023, pp. 74431. doi: 10.23919/SPA59660.2023.10274431.
  24. J. Suder and T. Marciniak, "Fast Prototyping of In-Pavement Airport Navigation Lamp Prism Classification," in Proc. IEEE SPA, 2023, pp. 74434. doi: 10.23919/SPA59660.2023.10274434.
  25. K. Podbucki, J. Suder, T. Marciniak, and A. Dąbrowski, "Influence of power supply on airport navigation lamps photometric test accuracy," in Proc. IEEE SPA, 2023, pp. 74440. doi: 10.23919/SPA59660.2023.10274440.
  26. J. Balcerek and P. Pawłowski, "How to combine issues related to autonomous vehicles – a proposal with a literature review," in Proc. IEEE SPA, 2023, pp. 74452. doi: 10.23919/SPA59660.2023.10274452.
  27. J. Suder, K. Podbucki, T. Marciniak, and A. Dąbrowski, "Intelligent vision system for quality classification of airport lamps prisms," in Proc. IEEE SPA, 2022, pp. 27908. doi: 10.23919/SPA53010.2022.9927908.
  28. P. Góral, P. Pawłowski, and A. Dąbrowski, "Precise 3D vision based measurements of gear wheels," in Proc. IEEE SPA, 2022, pp. 28022. doi: 10.23919/SPA53010.2022.9928022.
  1. J. Suder, K. Podbucki, and T. Marciniak, Chromaticity measurement of airport navigation lighting using integrated colour sensor, 2023. doi: 10.24425/opelre.2023.147040.
  2. L. Jóźwiak, R. Stojanovic, and C. Antonopoulos, Proceedings of the 4th Summer School on Cyber-Physical Systems and Internet-of-Things, Vol. IV, 2023, 2023. doi: 10.5281/zenodo.8113313.
  1. R. Stojanovic, "Cheap Mechanical Respirator for Emergency -How to Make It for Purposes of COVID-19," ResearchGate, 2020. doi: 10.13140/rg.2.2.30583.98721.
  2. R. Stojanovic, "Jeftini prenosivi mehanički respirator – kako ga napraviti? Low-cost portable mechanical respirator – how to make it?" ResearchGate, 2020. doi: 10.13140/rg.2.2.32710.63040.
  3. N. Voros, M. Huebner, C. Antonopoulos, and G. Keramidas, "SMART4ALL IS A FOUR-YEAR INNOVATION ACTION PROMOTING MARKETPLACE-AS-A-SERVICE IN SOUTH EAST EUROPE," EU Project Report, 2023.
SMART4ALL has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 872614
SMART4ALL is a four-year Innovation Action project funded under Horizon 2020 framework under call DT-ICT-01-2019: Smart Anything Everywhere – Area 2: Customized low energy computing powering CPS and the IoT.
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