Your search keyword '"Medvedev, Alexey"' showing total 18 results

1. Context Query Simulation for Smart Carparking Scenarios in the Melbourne CDB

Author

Weerasinghe, Shakthi, Zaslavsky, Arkaday, Hassani, Alireza, Loke, Seng W., Medvedev, Alexey, Abken, Amin, Weerasinghe, Shakthi, Zaslavsky, Arkaday, Hassani, Alireza, Loke, Seng W., Medvedev, Alexey, and Abken, Amin

Abstract

The rapid growth in Internet of Things (IoT) has ushered in the way for better context-awareness enabling more smarter applications. Although for the growth in the number of IoT devices, Context Management Platforms (CMPs) that integrate different domains of IoT to produce context information lacks scalability to cater to a high volume of context queries. Research in scalability and adaptation in CMPs are of significant importance due to this reason. However, there is limited methods to benchmarks and validate research in this area due to the lack of sizable sets of context queries that could simulate real-world situations, scenarios, and scenes. Commercially collected context query logs are not publicly accessible and deploying IoT devices, and context consumers in the real-world at scale is expensive and consumes a significant effort and time. Therefore, there is a need to develop a method to reliably generate and simulate context query loads that resembles real-world scenarios to test CMPs for scale. In this paper, we propose a context query simulator for the context-aware smart car parking scenario in Melbourne Central Business District in Australia. We present the process of generating context queries using multiple real-world datasets and publicly accessible reports, followed by the context query execution process. The context query generator matches the popularity of places with the different profiles of commuters, preferences, and traffic variations to produce a dataset of context query templates containing 898,050 records. The simulator is executable over a seven-day profile which far exceeds the simulation time of any IoT system simulator. The context query generation process is also generic and context query language independent.

Published

2023

2. Requirements, Limitations and Recommendations for Enabling End-to-End Quality of Context-Awareness in IoT Middleware

Author

Jagarlamudi, KS, Zaslavsky, Arkady, Loke, Seng, Hassani, Ali, Medvedev, Alexey, Jagarlamudi, KS, Zaslavsky, Arkady, Loke, Seng, Hassani, Ali, and Medvedev, Alexey

Abstract

Satisfying a context consumer’s quality of context (QoC) requirements is important to context management platforms (CMPs) in order to have credibility. QoC indicates the contextual information’s quality metrics (e.g., accuracy, timeliness, completeness). The outcomes of these metrics depend on the functional and quality characteristics associated with all actors (context consumers (or) context-aware applications, CMPs, and context providers (or) IoT-data providers) in context-aware IoT environments. This survey identifies and studies such characteristics and highlights the limitations in actors’ current functionalities and QoC modelling approaches to obtain adequate QoC and improve context consumers’ quality of experience (QoE). We propose a novel concept system based on our critical analysis; this system addresses the functional limitations in existing QoC modelling approaches. Moreover, we highlight those QoC metrics affected by quality of service (QoS) metrics in CMPs. These recommendations provide CMP developers with a reference system they could incorporate, functionalities and QoS metrics to maintain in order to deliver an adequate QoC.

Published

2022

3. From Traditional Adaptive Data Caching to Adaptive Context Caching: A Survey

Author

Weerasinghe, Shakthi, Zaslavsky, Arkady, Loke, Seng W., Hassani, Alireza, Abken, Amin, Medvedev, Alexey, Weerasinghe, Shakthi, Zaslavsky, Arkady, Loke, Seng W., Hassani, Alireza, Abken, Amin, and Medvedev, Alexey

Abstract

Context information is in demand more than ever with the rapid increase in the number of context-aware Internet of Things applications developed worldwide. Research in context and context-awareness is being conducted to broaden its applicability in light of many practical and technical challenges. One of the challenges is improving performance when responding to a large number of context queries. Context Management Platforms that infer and deliver context to applications measure this problem using Quality of Service (QoS) parameters. Although caching is a proven way to improve QoS, transiency of context and features such as variability and heterogeneity of context queries pose an additional real-time cost management problem. This paper presents a critical survey of the state-of-the-art in adaptive data caching with the objective of developing a body of knowledge in cost- and performance-efficient adaptive caching strategies. We comprehensively survey a large number of research publications and evaluate, compare, and contrast different techniques, policies, approaches, and schemes in adaptive caching. Our critical analysis is motivated by the focus on adaptively caching context as a core research problem. A formal definition for adaptive context caching is then proposed, followed by identified features and requirements of a well-designed, objective optimal adaptive context caching strategy., Comment: This is a preprint of an article submitted to the Journal of Systems of Software

Published

2022

4. Modelling railway delay propagation as diffusion-like spreading

Author

Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, Tupikina, Liubov, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, and Tupikina, Liubov

Abstract

Railway systems form an important means of transport across the world. However, congestions or disruptions may significantly decrease these systems' efficiencies, making predicting and understanding the resulting train delays a priority for railway organisations. Delays are studied in a wide variety of models, which usually simulate trains as discrete agents carrying delays. In contrast, in this paper, we define a novel model for studying delays, where they spread across the railway network via a diffusion-like process. This type of modelling has various advantages such as quick computation and ease of applying various statistical tools like spectral methods, but it also comes with limitations related to the directional and discrete nature of delays and the trains carrying them. We apply the model to the Belgian railways and study its performance in simulating the delay propagation in severely disrupted railway situations. In particular, we discuss the role of spatial aggregation by proposing to cluster the Belgian railway system into sets of stations and adapt the model accordingly. We find that such aggregation significantly increases the model's performance. For some particular situations, a non-trivial optimal level of spatial resolution is found on which the model performs best. Our results show the potential of this type of delay modelling to understand large-scale properties of railway systems.

Published

2021

5. Modelling railway delay propagation as diffusion-like spreading

Author

Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, Tupikina, Liubov, Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, and Tupikina, Liubov

Published

2021

6. Towards Measurable Efficient and Effective Metrics for Quality and Cost of Context

Author

Jagarlamudi, Kanaka Sai, Zaslavsky, Arkady, Loke, Seng, Hassani, Ali, Medvedev, Alexey, Jagarlamudi, Kanaka Sai, Zaslavsky, Arkady, Loke, Seng, Hassani, Ali, and Medvedev, Alexey

Published

2021

7. Modelling railway delay propagation as diffusion-like spreading

Author

Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, Tupikina, Liubov, Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, and Tupikina, Liubov

Published

2021

8. Modelling railway delay propagation as diffusion-like spreading

Author

Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, Tupikina, Liubov, Sub Simulation of Complex Systems, Sub Physical Oceanography, Simulation of Complex Systems, Dekker, Mark M., Medvedev, Alexey N., Rombouts, Jan, Siudem, Grzegorz, and Tupikina, Liubov

Published

2021

9. XAMG: A library for solving linear systems with multiple right-hand side vectors

Author

Krasnopolsky, Boris, Medvedev, Alexey, Krasnopolsky, Boris, and Medvedev, Alexey

Abstract

This paper presents the XAMG library for solving large sparse systems of linear algebraic equations with multiple right-hand side vectors. The library specializes but is not limited to the solution of linear systems obtained from the discretization of elliptic differential equations. A corresponding set of numerical methods includes Krylov subspace, algebraic multigrid, Jacobi, Gauss-Seidel, and Chebyshev iterative methods. The parallelization is implemented with MPI+POSIX shared memory hybrid programming model, which introduces a three-level hierarchical decomposition using the corresponding per-level synchronization and communication primitives. The code contains a number of optimizations, including the multilevel data segmentation, compression of indices, mixed-precision floating-point calculations, vector status flags, and others. The XAMG library uses the program code of the well-known hypre library to construct the multigrid matrix hierarchy. The XAMG's own implementation for the solve phase of the iterative methods provides up to a twofold speedup compared to hypre for the tests performed. Additionally, XAMG provides extended functionality to solve systems with multiple right-hand side vectors.

Published

2021

10. Modelling structure and predicting dynamics of discussion threads in online boards

Author

UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, Medvedev, Alexey, Delvenne, Jean-Charles, Lambiotte, Renaud, UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, Medvedev, Alexey, Delvenne, Jean-Charles, and Lambiotte, Renaud

Abstract

Internet boards are platforms for online discussion about a variety of topics. On these boards, individuals may start a new thread on a specific matter or leave comments in an existing discussion. The resulting collective process leads to the formation of ‘discussion trees’, where nodes represent a post and comments, and an edge represents a ‘reply-to’ relation. The structure of discussion trees has been analysed in previous works, but mainly from a static perspective. In this article, we focus on the structural and dynamical properties of discussion trees by modelling their formation as a self-exciting Hawkes process with a branching structure. We first study a Reddit data set of all posts and comments submitted between 2008 and 2014 to show that the structure of the trees resemble those produced by a Galton–Watson process with a special root offspring distribution. The dynamical aspect of the model is then used to predict future commenting activity and the final size of a discussion tree. We compare the efficiency of our approach with previous works and show its superiority for the prediction of discussion dynamics. In particular, we find that the Reddit discussion trees, being fundamentally broader than for example the Twitter cascades and developing with a qualitatively different dynamics, require appropriate models. The tree structure and the dynamics are influenced mainly by the age of the discussion, rather than by the number of acquired comments. The post and the comments are further commented by different processes, which is a key ingredient in modelling of discussions.

Published

2019

11. The Anatomy of Reddit: An Overview of Academic Research

Author

UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, UCL - SSH/LIDAM/CORE - Center for operations research and econometrics, Medvedev, Alexey, Lambiotte, Renaud, Delvenne, Jean-Charles, UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, UCL - SSH/LIDAM/CORE - Center for operations research and econometrics, Medvedev, Alexey, Lambiotte, Renaud, and Delvenne, Jean-Charles

Abstract

Online forums provide rich environments where users may post questions and comments about different topics. Understanding how people behave in online forums may shed light on the fundamental mechanisms by which collective thinking emerges in a group of individuals, but it has also important practical applications, for instance, to improve user experience, increase engagement or automatically identify bullying. Importantly, the datasets generated by the activity of the users are often openly available for researchers, in contrast to other sources of data in computational social science. In this survey, we map the main research directions that arose in recent years and focus primarily on the most popular platform, Reddit. We distinguish and categorize research depending on their focus on the posts or on the users and point to different types of methodologies to extract information from the structure and dynamics of the system. We emphasize the diversity and richness of the research in terms of questions and methods and suggest future avenues of research.

Published

2019

12. Context definition and query language: conceptual specification, implementation, and evaluation

Author

Hassani, Alireza, Medvedev, Alexey, Delir Haghighi, Pari, Ling, Sea, Zaslavsky, Arkady, Prakash Jayaraman, Prem, Hassani, Alireza, Medvedev, Alexey, Delir Haghighi, Pari, Ling, Sea, Zaslavsky, Arkady, and Prakash Jayaraman, Prem

Published

2019

13. Simplex2Vec embeddings for community detection in simplicial complexes

Author

Billings, Jacob Charles Wright, Hu, Mirko, Lerda, Giulia, Medvedev, Alexey N., Mottes, Francesco, Onicas, Adrian, Santoro, Andrea, Petri, Giovanni, Billings, Jacob Charles Wright, Hu, Mirko, Lerda, Giulia, Medvedev, Alexey N., Mottes, Francesco, Onicas, Adrian, Santoro, Andrea, and Petri, Giovanni

Abstract

Topological representations are rapidly becoming a popular way to capture and encode higher-order interactions in complex systems. They have found applications in disciplines as different as cancer genomics, brain function, and computational social science, in representing both descriptive features of data and inference models. While intense research has focused on the connectivity and homological features of topological representations, surprisingly scarce attention has been given to the investigation of the community structures of simplicial complexes. To this end, we adopt recent advances in symbolic embeddings to compute and visualize the community structures of simplicial complexes. We first investigate the stability properties of embedding obtained for synthetic simplicial complexes to the presence of higher order interactions. We then focus on complexes arising from social and brain functional data and show how higher order interactions can be leveraged to improve clustering detection and assess the effect of higher order interaction on individual nodes. We conclude delineating limitations and directions for extension of this work.

Published

2019

14. The anatomy of Reddit: An overview of academic research

Author

Medvedev, Alexey N., Lambiotte, Renaud, Delvenne, Jean-Charles, Medvedev, Alexey N., Lambiotte, Renaud, and Delvenne, Jean-Charles

Abstract

Online forums provide rich environments where users may post questions and comments about different topics. Understanding how people behave in online forums may shed light on the fundamental mechanisms by which collective thinking emerges in a group of individuals, but it has also important practical applications, for instance to improve user experience, increase engagement or automatically identify bullying. Importantly, the datasets generated by the activity of the users are often openly available for researchers, in contrast to other sources of data in computational social science. In this survey, we map the main research directions that arose in recent years and focus primarily on the most popular platform, Reddit. We distinguish and categorise research depending on their focus on the posts or on the users, and point to different types of methodologies to extract information from the structure and dynamics of the system. We emphasize the diversity and richness of the research in terms of questions and methods, and suggest future avenues of research., Comment: 21 pages, 7 figures, 2 tables

Published

2018

15. Identifying exogenous and endogenous activity in social media

Author

Fujita, Kazuki, Medvedev, Alexey, Koyama, Shinsuke, Lambiotte, Renaud, Shinomoto, Shigeru, Fujita, Kazuki, Medvedev, Alexey, Koyama, Shinsuke, Lambiotte, Renaud, and Shinomoto, Shigeru

Abstract

The occurrence of new events in a system is typically driven by external causes and by previous events taking place inside the system. This is a general statement, applying to a range of situations including, more recently, to the activity of users in Online social networks (OSNs). Here we develop a method for extracting from a series of posting times the relative contributions of exogenous, e.g. news media, and endogenous, e.g. information cascade. The method is based on the fitting of a generalized linear model (GLM) equipped with a self-excitation mechanism. We test the method with synthetic data generated by a nonlinear Hawkes process, and apply it to a real time series of tweets with a given hashtag. In the empirical dataset, the estimated contributions of exogenous and endogenous volumes are close to the amounts of original tweets and retweets respectively. We conclude by discussing the possible applications of the method, for instance in online marketing., Comment: 5 figures

Published

2018

16. Modelling structure and predicting dynamics of discussion threads in online boards

Author

Medvedev, Alexey N., Delvenne, Jean-Charles, Lambiotte, Renaud, Medvedev, Alexey N., Delvenne, Jean-Charles, and Lambiotte, Renaud

Abstract

Internet boards are platforms for online discussions about a variety of topics. On these boards, individuals may start a new thread on a specific matter, or leave comments in an existing discussion. The resulting collective process leads to the formation of `discussion trees', where nodes represent a post and comments, and an edge represents a `reply-to' relation. The structure of discussion trees has been analysed in previous works, but only from a static perspective. In this paper, we focus on their structural and dynamical properties by modelling their formation as a self-exciting Hawkes process. We first study a Reddit dataset to show that the structure of the trees resemble those produced by a Galton-Watson process with a special root offspring distribution. The dynamical aspect of the model is then used to predict future commenting activity and the final size of a discussion tree. We compare the efficiency of our approach with previous works and show its superiority for the prediction of the dynamics of discussions., Comment: 16 pages (2 pages appendix incl.), 10 figures (8 in main text + 2 in appendix)

Published

2018

17. Speeding up non-Markovian First Passage Percolation with a few extra edges

Author

Medvedev, Alexey, Pete, Gábor, Medvedev, Alexey, and Pete, Gábor

Abstract

One model of real-life spreading processes is First Passage Percolation (also called SI model) on random graphs. Social interactions often follow bursty patterns, which are usually modelled with i.i.d.~heavy-tailed passage times on edges. On the other hand, random graphs are often locally tree-like, and spreading on trees with leaves might be very slow, because of bottleneck edges with huge passage times. Here we consider the SI model with passage times following a power law distribution $\mathbb{P}(\xi>t)\sim t^{-\alpha}$, with infinite mean. For any finite connected graph $G$ with a root $s$, we find the largest number of vertices $\kappa(G,s)$ that are infected in finite expected time, and prove that for every $k \leq \kappa(G,s)$, the expected time to infect $k$ vertices is at most $O(k^{1/\alpha})$. Then, we show that adding a single edge from $s$ to a random vertex in a random tree $\mathcal{T}$ typically increases $\kappa(\mathcal{T},s)$ from a bounded variable to a fraction of the size of $\mathcal{T}$, thus severely accelerating the process. We examine this acceleration effect on some natural models of random graphs: critical Galton-Watson trees conditioned to be large, uniform spanning trees of the complete graph, and on the largest cluster of near-critical Erd\H{o}s-R\'enyi graphs. In particular, at the upper end of the critical window, the process is already much faster than exactly at criticality., Comment: 35 pages, 4 figures

Published

2017

18. Empirical study of the role of the topology in spreading on communication networks

Author

Medvedev, Alexey N., Kertesz, Janos, Medvedev, Alexey N., and Kertesz, Janos

Abstract

Topological aspects, like community structure, and temporal activity patterns, like burstiness, have been shown to severly influence the speed of spreading in temporal networks. We study the influence of the topology on the susceptible-infected (SI) spreading on time stamped communication networks, as obtained from a dataset of mobile phone records. We consider city level networks with intra- and inter-city connections. The networks using only intra-city links are usually sparse, where the spreading depends mainly on the average degree. The inter-city links serve as bridges in spreading, speeding up considerably the process. We demonstrate the effect also on model simulations., Comment: Keywords: complex networks; temporal networks; spreading phenomena; SI model; bursty time series; non-Markovian processes; mobile phone data

Published

2016