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Publication search results
found 70 matches
- 2024
- Weizhi Zhong, Xin Wang, Xiang Liu, Zhipeng Lin, Farman Ali:
Joint optimization of UAV communication connectivity and obstacle avoidance in urban environments using a double-map approach. EURASIP J. Adv. Signal Process. 2024(1): 35 (2024) - Seppe Van Brandt, Kamil Yavuz Kapusuz, Joryan Sennesael, Sam Lemey, Patrick Van Torre, Jo Verhaevert, Tanja van Hecke, Hendrik Rogier:
Reliability Analysis and Optimization of a Reconfigurable Matching Network for Communication and Sensing Antennas in Dynamic Environments through Gaussian Process Regression. Sensors 24(9): 2689 (2024) - Rui Zhou, Wenqiang Pu, Licheng Zhao, Ming-Yi You, Qingjiang Shi, Sergios Theodoridis:
A Matrix-Factorization-Error-Ratio Approach to Cooperative Sensing in Non-Ideal Communication Environment. IEEE Trans. Signal Process. 72: 3851-3864 (2024) - Zhen-ji Zhu:
Indoor evaluation algorithm for ecological environment design materials based on cloud data processing and wireless communication. Wirel. Networks 30(1): 37-50 (2024) - Chisa Ito, Atsuko Takefusa, Hidemoto Nakada, Masato Oguchi:
Communication Performance Evaluation Using Compression Processing for IoT Systems in Mobile Environments. COMPSAC 2024: 2369-2374 - 2023
- Yu Qian:
Signal Processing and Channel Modelling for 5G Millimeter-Wave Communication Environment. J. Comput. Inf. Technol. 31(3): 137-150 (2023) - 2022
- Frank Nordemann:
Modeling and execution of resilient business processes in unreliable communication environments. University of Osnabrück, Germany, 2022, pp. 1-245 - Li Gong, Xiu-Bo Chen, Gang Xu, Yan Chang, Yi-Xian Yang:
Multi-party controlled cyclic hybrid quantum communication protocol in noisy environment. Quantum Inf. Process. 21(11): 375 (2022) - Nataly Zhukova, Alexey Nikolayevich Subbotin:
Communication Protocol Between Embedded Computers and Fog Computing Environment for Image Processing. MECO 2022: 1-6 - Luís Pedro, Carlos Santos:
Communication-Driven Digital Learning Environments: 10 years of Research and Development of the Campus Platform. Intelligent Techniques in the Educational Process (1) 2022: 341-359 - 2021
- Zhuo Sun, Jingjing Li, Jinpo Fan:
Convolutional Neural Filtering for Intelligent Communications Signal Processing in Harsh Environments. IEEE Access 9: 8212-8219 (2021) - Gerd Hübscher, Verena Geist, Dagmar Auer, Nicole Hübscher, Josef Küng:
Representation and presentation of knowledge and processes - an integrated approach for a dynamic communication-intensive environment. Int. J. Web Inf. Syst. 17(6): 669-697 (2021) - Xin Tong, Zhaoyang Zhang, Jue Wang, Chongwen Huang, Mérouane Debbah:
Joint Multi-User Communication and Sensing Exploiting Both Signal and Environment Sparsity. IEEE J. Sel. Top. Signal Process. 15(6): 1409-1422 (2021) - Fangzhou Wang, Hongbin Li:
Power Allocation for Coexisting Multicarrier Radar and Communication Systems in Cluttered Environments. IEEE Trans. Signal Process. 69: 1603-1613 (2021) - Yixuan Du:
Interpersonal Meaning Analysis of Foreign Literature Communication and Modality Based on Language Processing Theory under Computer Network Technology Environment. CIPAE 2021: 1573-1576 - 2020
- Soontorn Sirapaisan, Ning Zhang, Qian He:
Communication Pattern Based Data Authentication (CPDA) Designed for Big Data Processing in a Multiple Public Cloud Environment. IEEE Access 8: 107716-107748 (2020) - Pawel Ladosz, Hyondong Oh, Gan Zheng, Wen-Hua Chen:
Gaussian Process Based Channel Prediction for Communication-Relay UAV in Urban Environments. IEEE Trans. Aerosp. Electron. Syst. 56(1): 313-325 (2020) - Emanuele Grossi, Marco Lops, Luca Venturino:
Joint Design of Surveillance Radar and MIMO Communication in Cluttered Environments. IEEE Trans. Signal Process. 68: 1544-1557 (2020) - Frank Nordemann, Ralf Tönjes, Elke Pulvermüller, Heiko Tapken:
A Graph-based Approach for Process Robustness in Unreliable Communication Environments. ENASE 2020: 97-107 - Frank Nordemann, Ralf Tönjes, Elke Pulvermüller:
Resilient BPMN: Robust Process Modeling in Unreliable Communication Environments. MODELSWARD 2020: 181-192 - 2019
- Pawel Ladosz, Jongyun Kim, Hyondong Oh, Wen-Hua Chen:
Experimental Validation of Gaussian Process-Based Air-to-Ground Communication Quality Prediction in Urban Environments. Sensors 19(14): 3221 (2019) - 2018
- Sumin Jeong, Suk Chan Kim:
Low-complexity time synchronisation for 3-dimensional underwater communications environment using estimated instantaneous node velocity. Digit. Signal Process. 78: 316-321 (2018) - Kshitij Tiwari, Sungmoon Jeong, Nak Young Chong:
Point-Wise Fusion of Distributed Gaussian Process Experts (FuDGE) Using a Fully Decentralized Robot Team Operating in Communication-Devoid Environment. IEEE Trans. Robotics 34(3): 820-828 (2018) - Kyoo-Sung Noh:
Model of Knowledge-Based Process Management System Using Big Data in the Wireless Communication Environment. Wirel. Pers. Commun. 98(4): 3147-3162 (2018) - Supun Kamburugamuve, Pulasthi Wickramasinghe, Kannan Govindarajan, Ahmet Uyar, Gurhan Gunduz, Vibhatha Abeykoon, Geoffrey C. Fox:
Twister: Net - Communication Library for Big Data Processing in HPC and Cloud Environments. IEEE CLOUD 2018: 383-391 - 2017
- Mahnoor Khan, Munam Ali Shah:
Inter-process communication, MPI and MPICH in microkernel environment: A comparative analysis. ICAC 2017: 1-7 - 2016
- Vishal Sharma, Kishore Thapliyal, Anirban Pathak, Subhashish Banerjee:
A comparative study of protocols for secure quantum communication under noisy environment: single-qubit-based protocols versus entangled-state-based protocols. Quantum Inf. Process. 15(11): 4681-4710 (2016) - Tomoya Enokido, Makoto Takizawa:
An Energy-Efficient Load Balancing Algorithm for Virtual Machine Environments to Perform Communication Type Application Processes. AINA 2016: 392-399 - 2015
- Katerina Pandremmenou, Nikolaos Tziortziotis, Seethal Paluri, W. Zhang, Konstantinos Blekas, Lisimachos P. Kondi, Swarun Kumar:
Quality optimization of H.264/AVC video transmission over noisy environments using a sparse regression framework. Visual Information Processing and Communication 2015: 94100D - 2013
- Mingyu Lim, Yunjin Lee:
A Simulation Model of Object Movement for Evaluating the Communication Load in Networked Virtual Environments. J. Inf. Process. Syst. 9(3): 489-498 (2013)
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