Unterschiede
Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
Beide Seiten der vorigen Revision Vorhergehende Überarbeitung | Nächste ÜberarbeitungBeide Seiten der Revision | ||
arbeiten:latencycsgo [27.04.2021 20:43] – [Data-Entry] David Halbhuber | arbeiten:latencycsgo [26.05.2021 09:19] – David Halbhuber | ||
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* Predictive techniques estimate the occurring events in the game from the locally available state [4, 5]. | * Predictive techniques estimate the occurring events in the game from the locally available state [4, 5]. | ||
- | The goal of this work is to build a predictive technique for CS:GO using artificial neural networks (ANN). ANNs have been successfully used in computer vision tasks, such as pattern recognition in images [6]. One problem | + | The goal of this work is to build a predictive technique for CS:GO using artificial neural networks (ANN). ANNs have been successfully used in computer vision tasks, such as pattern recognition in images [8], to predict avatar movement in VR [7] or reduce perceived input latency on touch devices [4]. However, one problem |
This work aims to build and evaluate a predictive system to decrease perceived latency for CS: | This work aims to build and evaluate a predictive system to decrease perceived latency for CS: | ||
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[3] Claypool, M., & Claypool, K. (2010, February). Latency can kill: precision and deadline in online games. In Proceedings of the first annual ACM SIGMM conference on Multimedia systems (pp. 215-222). | [3] Claypool, M., & Claypool, K. (2010, February). Latency can kill: precision and deadline in online games. In Proceedings of the first annual ACM SIGMM conference on Multimedia systems (pp. 215-222). | ||
- | [4] Savery, C., & Graham, T. N. (2013). Timelines: simplifying the programming | + | [4] Niels Henze, Markus Funk, and Alireza Sahami Shirazi. 2016. Software-reduced touchscreen latency. In Proceedings |
- | [5] Sabet, S. S., Schmidt, S., Zadtootaghaj, | + | [5] Savery, C., & Graham, T. N. (2013). Timelines: simplifying the programming of lag compensation |
- | [6] Albawi, S., Mohammed, T. A., & Al-Zawi, S. (2017, August). Understanding | + | [6] Sabet, S. S., Schmidt, S., Zadtootaghaj, |
- | [7] Cai, E., Juan, D. C., Stamoulis, D., & Marculescu, D. (2019). Learning-based Power and Runtime Modeling for Convolutional Neural Networks. | + | [7] Valentin Schwind, David Halbhuber, Jakob Fehle, Jonathan Sasse, Andreas Pfaffelhuber, |
+ | |||
+ | [8] Albawi, S., Mohammed, T. A., & Al-Zawi, S. (2017, August). Understanding of a convolutional neural network. In 2017 International Conference on Engineering and Technology (ICET) (pp. 1-6). Ieee. | ||
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+ | [9] Cai, E., Juan, D. C., Stamoulis, D., & Marculescu, D. (2019). Learning-based Power and Runtime Modeling for Convolutional Neural Networks. | ||