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22 results on '"Kallus, Zsófia"'

1. Hybrid Quantum-Classical Reinforcement Learning in Latent Observation Spaces

Author

Nagy, Dániel T. R., Czabán, Csaba, Bakó, Bence, Hága, Péter, Kallus, Zsófia, and Zimborás, Zoltán

Subjects
Quantum Physics
Abstract

Recent progress in quantum machine learning has sparked interest in using quantum methods to tackle classical control problems via quantum reinforcement learning. However, the classical reinforcement learning environments often scale to high dimensional problem spaces, which represents a challenge for the limited and costly resources available for quantum agent implementations. We propose to solve this dimensionality challenge by a classical autoencoder and a quantum agent together, where a compressed representation of observations is jointly learned in a hybrid training loop. The latent representation of such an autoencoder will serve as a tailored observation space best suited for both the control problem and the QPU architecture, aligning with the agent's requirements. A series of numerical experiments are designed for a performance analysis of the latent-space learning method. Results are presented for different control problems and for both photonic (continuous-variable) and qubit-based agents, to show how the QNN learning process is improved by the joint training., Comment: 20 pages, 7 figures

Published
2024

2. Quantum-Classical Autoencoder Architectures for End-to-End Radio Communication

Author

Tabi, Zsolt I., Bakó, Bence, Nagy, Dániel T. R., Vaderna, Péter, Kallus, Zsófia, Hága, Péter, and Zimborás, Zoltán

Subjects
Quantum Physics
Abstract

This paper presents a comprehensive study on the possible hybrid quantum-classical autoencoder architectures for end-to-end radio communication against noisy channel conditions using standard encoded radio signals. The hybrid scenarios include single-sided, i.e., quantum encoder (transmitter) or quantum decoder (receiver), as well as fully quantum channel autoencoder (transmitter-receiver) systems. We provide detailed formulas for each scenario and validate our model through an extensive set of simulations. Our results demonstrate model robustness and adaptability. Supporting experiments are conducted utilizing 4-QAM and 16-QAM schemes and we expect that the model is adaptable to more general encoding schemes. We explore model performance against both additive white Gaussian noise and Rayleigh fading models. Our findings highlight the importance of designing efficient quantum neural network architectures for meeting application performance constraints -- including data re-uploading methods, encoding schemes, and core layer structures. By offering a general framework, this work paves the way for further exploration and development of quantum machine learning applications in radio communication., Comment: 12 pages, 6 figures

Published
2024

3. Problem-informed Graphical Quantum Generative Learning

Author

Bakó, Bence, Nagy, Dániel T. R., Hága, Péter, Kallus, Zsófia, and Zimborás, Zoltán

Subjects
Quantum Physics
Abstract

Leveraging the intrinsic probabilistic nature of quantum systems, generative quantum machine learning (QML) offers the potential to outperform classical learning models. Current generative QML algorithms mostly rely on general-purpose models that, while being very expressive, face several training challenges. A potential way to address these setbacks involves constructing problem-informed models capable of more efficient training on structured problems. In particular, probabilistic graphical models provide a flexible framework for representing structure in generative learning problems and can thus be exploited to incorporate inductive bias in QML algorithms. In this work, we propose a problem-informed quantum circuit Born machine Ansatz for learning the joint probability distribution of random variables, with independence relations efficiently represented by a Markov network (MN). We further demonstrate the applicability of the MN framework in constructing generative learning benchmarks and compare our model's performance to previous designs, showing it outperforms problem-agnostic circuits. Based on a preliminary analysis of trainability, we narrow down the class of MNs to those exhibiting favorable trainability properties. Finally, we discuss the potential of our model to offer quantum advantage in the context of generative learning., Comment: 11+5 pages, 10 figures

Published
2024

4. Hybrid Quantum-Classical Autoencoders for End-to-End Radio Communication

Author

Tabi, Zsolt, Bakó, Bence, Nagy, Dániel T. R., Vaderna, Péter, Kallus, Zsófia, Hága, Péter, and Zimborás, Zoltán

Subjects
Quantum Physics, Electrical Engineering and Systems Science - Signal Processing
Abstract

Quantum neural networks are emerging as potential candidates to leverage noisy quantum processing units for applications. Here we introduce hybrid quantum-classical autoencoders for end-to-end radio communication. In the physical layer of classical wireless systems, we study the performance of simulated architectures for standard encoded radio signals over a noisy channel. We implement a hybrid model, where a quantum decoder in the receiver works with a classical encoder in the transmitter part. Besides learning a latent space representation of the input symbols with good robustness against signal degradation, a generalized data re-uploading scheme for the qubit-based circuits allows to meet inference-time constraints of the application., Comment: 6 pages, 8 figures

Published
2023
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5. Photonic Quantum Policy Learning in OpenAI Gym

Author

Nagy, Dániel, Tabi, Zsolt, Hága, Péter, Kallus, Zsófia, and Zimborás, Zoltán

Subjects
Quantum Physics, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In recent years, near-term noisy intermediate scale quantum (NISQ) computing devices have become available. One of the most promising application areas to leverage such NISQ quantum computer prototypes is quantum machine learning. While quantum neural networks are widely studied for supervised learning, quantum reinforcement learning is still just an emerging field of this area. To solve a classical continuous control problem, we use a continuous-variable quantum machine learning approach. We introduce proximal policy optimization for photonic variational quantum agents and also study the effect of the data re-uploading. We present performance assessment via empirical study using Strawberry Fields, a photonic simulator Fock backend and a hybrid training framework connected to an OpenAI Gym environment and TensorFlow. For the restricted CartPole problem, the two variations of the photonic policy learning achieve comparable performance levels and a faster convergence than the baseline classical neural network of same number of trainable parameters., Comment: 7 pages

Published
2021

6. Quantum Optimization for the Graph Coloring Problem with Space-Efficient Embedding

Author

Tabi, Zsolt, El-Safty, Kareem H., Kallus, Zsófia, Hága, Péter, Kozsik, Tamás, Glos, Adam, and Zimborás, Zoltán

Subjects
Quantum Physics
Abstract

Current quantum computing devices have different strengths and weaknesses depending on their architectures. This means that flexible approaches to circuit design are necessary. We address this task by introducing a novel space-efficient quantum optimization algorithm for the graph coloring problem. Our circuits are deeper than the ones of the standard approach. However, the number of required qubits is exponentially reduced in the number of colors. We present extensive numerical simulations demonstrating the performance of our approach. Furthermore, to explore currently available alternatives, we perform a study of random graph coloring on a quantum annealer to test the limiting factors of that approach, too., Comment: 7 pages

Published
2020
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7. Video Pandemics: Worldwide Viral Spreading of Psy's Gangnam Style Video

Author

Kallus, Zsofia, Kondor, Daniel, Steger, Jozsef, Csabai, Istvan, Bokanyi, Eszter, and Vattay, Gabor

Subjects
Computer Science - Social and Information Networks
Abstract

Viral videos can reach global penetration traveling through international channels of communication similarly to real diseases starting from a well-localized source. In past centuries, disease fronts propagated in a concentric spatial fashion from the the source of the outbreak via the short range human contact network. The emergence of long-distance air-travel changed these ancient patterns. However, recently, Brockmann and Helbing have shown that concentric propagation waves can be reinstated if propagation time and distance is measured in the flight-time and travel volume weighted underlying air-travel network. Here, we adopt this method for the analysis of viral meme propagation in Twitter messages, and define a similar weighted network distance in the communication network connecting countries and states of the World. We recover a wave-like behavior on average and assess the randomizing effect of non-locality of spreading. We show that similar result can be recovered from Google Trends data as well., Comment: 10 pages

Published
2017
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8. Regional properties of global communication as reflected in aggregated Twitter data

Author

Kallus, Zsofia, Barankai, Norbert, Kondor, Daniel, Dobos, Laszlo, Hanyecz, Tamas, Szule, Janos, Steger, Jozsef, Sebok, Tamas, Vattay, Gabor, and Csabai, Istvan

Subjects
Physics - Physics and Society, Computer Science - Social and Information Networks
Abstract

Twitter is a popular public conversation platform with world-wide audience and diverse forms of connections between users. In this paper we introduce the concept of aggregated regional Twitter networks in order to characterize communication between geopolitical regions. We present the study of a follower and a mention graph created from an extensive data set collected during the second half of the year of $2012$. With a k-shell decomposition the global core-periphery structure is revealed and by means of a modified Regional-SIR model we also consider basic information spreading properties., Comment: 13 pages, 12 figures

Published
2013

9. Using Robust PCA to estimate regional characteristics of language use from geo-tagged Twitter messages

Author

Kondor, Dániel, Csabai, István, Dobos, László, Szüle, János, Barankai, Norbert, Hanyecz, Tamás, Sebők, Tamás, Kallus, Zsófia, and Vattay, Gábor

Subjects
Computer Science - Computation and Language
Abstract

Principal component analysis (PCA) and related techniques have been successfully employed in natural language processing. Text mining applications in the age of the online social media (OSM) face new challenges due to properties specific to these use cases (e.g. spelling issues specific to texts posted by users, the presence of spammers and bots, service announcements, etc.). In this paper, we employ a Robust PCA technique to separate typical outliers and highly localized topics from the low-dimensional structure present in language use in online social networks. Our focus is on identifying geospatial features among the messages posted by the users of the Twitter microblogging service. Using a dataset which consists of over 200 million geolocated tweets collected over the course of a year, we investigate whether the information present in word usage frequencies can be used to identify regional features of language use and topics of interest. Using the PCA pursuit method, we are able to identify important low-dimensional features, which constitute smoothly varying functions of the geographic location.

Published
2013

10. A multi-terabyte relational database for geo-tagged social network data

Author

Dobos, László, Szüle, János, Bodnár, Tamás, Hanyecz, Tamás, Sebők, Tamás, Kondor, Dániel, Kallus, Zsófia, Stéger, József, Csabai, István, and Vattay, Gábor

Subjects
Computer Science - Databases
Abstract

Despite their relatively low sampling factor, the freely available, randomly sampled status streams of Twitter are very useful sources of geographically embedded social network data. To statistically analyze the information Twitter provides via these streams, we have collected a year's worth of data and built a multi-terabyte relational database from it. The database is designed for fast data loading and to support a wide range of studies focusing on the statistics and geographic features of social networks, as well as on the linguistic analysis of tweets. In this paper we present the method of data collection, the database design, the data loading procedure and special treatment of geo-tagged and multi-lingual data. We also provide some SQL recipes for computing network statistics.

Published
2013

11. Non-Markovian Toy Quantum Chain

Author

Bodor, András, Diósi, Lajos, Kallus, Zsófia, and Konrad, Thomas

Subjects
Quantum Physics
Abstract

We propose a simple structure for stationary non-Markovian quantum chains in the framework of collisional dynamics of open quantum systems. To this end, we modify the microscopic Markovian system--reservoir model, consider multiple collisions with each of the molecules with an overlap between the collisional time intervals. We show how the equivalent Markovian quantum chain can be constructed with the addition of satellite quantum memory to the system. We distinguish quantum from classical non-Markovianity. Moreover, we define the counts of non-Markovianity by the required number of satellite qubits and bits, respectively. As the particular measure of quantum non-Markovianity the discord of the satellite w.r.t. the system is suggested. Simplest qubit realizations are discussed, and the significance for real system--environment dynamics is also pointed out., Comment: 10 pages, 10 figures

Published
2013
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12. Network Measurement Virtual Observatory: An Integrated Database Environment for Internet Research and Experimentation

Author

Sebők, Tamás, Kallus, Zsófia, Laki, Sándor, Mátray, Péter, Stéger, József, Szüle, János, Dobos, László, Csabai, István, Vattay, Gábor, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Coulson, Geoff, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Jia, Xiaohua, Series editor, Zomaya, Albert, Series editor, Leung, Victor C.M., editor, Chen, Min, editor, Wan, Jiafu, editor, and Zhang, Yin, editor

Published
2014
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17. Supplementary Material including additional figures and tables which provide more detailed results and further description of data collection and processing from Prediction limits of mobile phone activity modelling

Author

Kondor, Dániel, Grauwin, Sebastian, Kallus, Zsófia, Gódor, István, Sobolevsky, Stanislav, and Ratti, Carlo

Abstract

Thanks to their widespread usage, mobile devices have become one of the main sensors of human behaviour and digital traces left behind can be used as a proxy to study urban environments. Exploring the nature of the spatio-temporal patterns of mobile phone activity could thus be a crucial step towards understanding the full spectrum of human activities. Using 10 months of mobile phone records from Greater London resolved in both space and time, we investigate the regularity of human telecommunication activity on urban scales. We evaluate several options for decomposing activity timelines into typical and residual patterns, accounting for the strong periodic and seasonal components. We carry out our analysis on various spatial scales, showing that regularity increases as we look at aggregated activity in larger spatial units with more activity in them. We examine the statistical properties of the residuals and show that it can be explained by noise and specific outliers. Also, we look at sources of deviations from the general trends, which we find to be explainable based on knowledge of the city structure and places of attractions. We show examples how some of the outliers can be related to external factors such as specific social events

Published
2017
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18. Collective sensing of evolving urban structures: From activity-based to content-aware social monitoring

Author

Bokányi, Eszter, Kallus, Zsófia, and Gódor, István

Abstract

Cities are constantly evolving complex systems. Detection methods of land use distribution have to keep pace with their rapidly changing landscapes. While traditional analysis relies on surveys and census data typically refreshed at most yearly, the widespread use of mobile devices allows cell phone activity measurements to be used as sensors for the functional clustering of urban districts. These activity-based proprietary measurements are recently complemented by publicly available geosocial network records that even enable content-aware analysis. As a bridge between separate methods, in this work we analyze the relation of conversation content and functional spatial clusters of cities using a double dataset approach. We look at the differentiating power of the content of local conversations in activity-driven land use detection based on mobile phone records. In addition to intra-city analysis of three metropolises, we present a comparative study of London, New York City, and Los Angeles sharing the common language of English, but having very different cultural backgrounds. We show that the share of words with a similar temporal pattern to that of local mobile activities is different across cities, as well as between functional clusters. We find that the conversational content can effectively differentiate both functional clusters of a single city, and similar locations of the same function across many cities, like business areas that otherwise have a common temporal heartbeat. Moreover, we identify words related to activity types as the most important features emerging from the content-based, data-driven classification.

Published
2021
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22. COMPLEX GEOGRAPHY OF THE INTERNET NETWORK.

Author

Kallus, Zsófia, Hága, Péter, Mátray, Péter, Vattay, Gábor, and Laki, Sándor

Subjects
*INTERNET protocol address, *COMPLEXITY (Philosophy), *COMPUTER networks, *DISTRIBUTION (Probability theory), *EXPONENTS, *INTERNET, *MATHEMATICAL mappings, *EMBEDDINGS (Mathematics)
Abstract

The geographic layout of the physical Internet inherently determines important network properties. In this paper, we analyze the spatial properties of the Internet topology. In particular, the distribution of the lengths of Internet links is presented -- which was possible through spatial embedding of a representative set of IP addresses by applying a novel IP geolocalization service, called Spotter. The dataset is a result of a geographically dispersed topological discovery campaign. After showing the spatial likelihood of Internet nodes we present two approaches to describe the length distribution of the links. The resulting characterization reveals that the distribution can be separated into three characteristic distance ranges which can be mapped to the regional, transcontinental and intercontinental connections. These regimes follow a power-law function with different exponents. [ABSTRACT FROM AUTHOR]

Published
2011
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