4. generációs mobil rendszerek kutatása = Research on 4-th Generation Mobile Systems

A 3G mobil rendszerek szabványosítása a végéhez közeledik, legalábbis a meghatározó képességek tekintetében. Ezért létfontosságú azon technikák, eljárások vizsgálata, melyek a következő, 4G rendszerekben meghatározó szerepet töltenek majd be. Több ilyen kutatási irányvonal is létezik, ezek közül projektünkben a fontosabbakra koncentráltunk. A következőben felsoroljuk a kutatott területeket, és röviden összegezzük az elért eredményeket. Szórt spektrumú rendszerek Kifejlesztettünk egy új, rádiós interfészen alkalmazható hívásengedélyezési eljárást. Szimulációs vizsgálatokkal támasztottuk alá a megoldás hatékonyságát. A projektben kutatóként résztvevő Jeney Gábor sikeresen megvédte Ph.D. disszertációját neurális hálózatokra épülő többfelhasználós detekciós technikák témában. Az elért eredmények Imre Sándor MTA doktori disszertációjába is beépültek. IP alkalmazása mobil rendszerekben Továbbfejlesztettük, teszteltük és általánosítottuk a projekt keretében megalkotott új, gyűrű alapú topológiára épülő, a jelenleginél nagyobb megbízhatóságú IP alapú hozzáférési koncepciót. A témakörben Szalay Máté Ph.D. disszertációja már a nyilvános védésig jutott. Kvantum-informatikai módszerek alkalmazása 3G/4G detekcióra Új, kvantum-informatikai elvekre épülő többfelhasználós detekciós eljárást dolgoztunk ki. Ehhez új kvantum alapú algoritmusokat is kifejlesztettünk. Az eredményeket nemzetközi folyóiratok mellett egy saját könyvben is publikáltuk. | The project consists of three main research directions. Spread spectrum systems: we developed a new call admission control method for 3G air interfaces. Project member Gabor Jeney obtained the Ph.D. degree and project leader Sandor Imre submitted his DSc theses from this area. Application of IP in mobile systems: A ring-based reliable IP mobility mobile access concept and corresponding protocols have been developed. Project member Máté Szalay submitted his Ph.D. theses from this field. Quantum computing based solutions in 3G/4G detection: Quantum computing based multiuser detection algorithm was developed. Based on the results on this field a book was published at Wiley entitled: 'Quantum Computing and Communications - an engineering approach'

Quantum Optimization of Resource Distribution Management for Multi-Task, Multi-Subtasks

This paper proposes a new optimization strategy for resource distribution management based on a quantum algorithm, as a way to reduce the computational complexity in finding the optimum deployment scenario, taking into consideration the required conditions and constraints of the resource distribution system. We show that the quantum method computes the results in minimum time and outperforms on the other classical algorithms in terms of computational complexity

Quantum Genetic Algorithm for Highly Constrained Optimization Problems

Quantum computing appears as an alternative solution for solving computationally intractable problems. This paper presents a new constrained quantum genetic algorithm designed specifically for identifying the extreme value of a highly constrained optimization problem, where the search space size _database is massive and unsorted_ cannot be handled by the currently available classical or quantum processor, called the highly constrained quantum genetic algorithm (HCQGA). To validate the efficiency of the suggested quantum method, maximizing the energy efficiency with respect to the target user bit rate of an uplink multi-cell massive multiple-input and multiple- output (MIMO) system is considered as an application. Simulation results demonstrate that the proposed HCQGA converges rapidly to the optimum solution compared with its classical benchmark

Security and Privacy for Modern Wireless Communication Systems

The aim of this reprint focuses on the latest protocol research, software/hardware development and implementation, and system architecture design in addressing emerging security and privacy issues for modern wireless communication networks. Relevant topics include, but are not limited to, the following: deep-learning-based security and privacy design; covert communications; information-theoretical foundations for advanced security and privacy techniques; lightweight cryptography for power constrained networks; physical layer key generation; prototypes and testbeds for security and privacy solutions; encryption and decryption algorithm for low-latency constrained networks; security protocols for modern wireless communication networks; network intrusion detection; physical layer design with security consideration; anonymity in data transmission; vulnerabilities in security and privacy in modern wireless communication networks; challenges of security and privacy in node–edge–cloud computation; security and privacy design for low-power wide-area IoT networks; security and privacy design for vehicle networks; security and privacy design for underwater communications networks

Disentangling tangle: A statistical analysis on the in(efficiency) of IOTA

Trabajo Fin de Grado. Curso Académico 2020-2021. Grado en Economía y Finanza

Eleventh International Conference on the Bearing Capacity of Roads, Railways and Airfields

Innovations in Road, Railway and Airfield Bearing Capacity – Volume 2 comprises the second part of contributions to the 11th International Conference on Bearing Capacity of Roads, Railways and Airfields (2022). In anticipation of the event, it unveils state-of-the-art information and research on the latest policies, traffic loading measurements, in-situ measurements and condition surveys, functional testing, deflection measurement evaluation, structural performance prediction for pavements and tracks, new construction and rehabilitation design systems, frost affected areas, drainage and environmental effects, reinforcement, traditional and recycled materials, full scale testing and on case histories of road, railways and airfields. This edited work is intended for a global audience of road, railway and airfield engineers, researchers and consultants, as well as building and maintenance companies looking to further upgrade their practices in the field

Classification design : understanding the decisions between theory and consequence

Classification systems are systems of terms and term relationships intended to sort and gather like concepts and documents. These systems are ubiquitous as the substrate of our interactions with library collections, retail websites, and bureaucracies. Through their design and impact, classification systems share with other technologies an unavoidable though often ignored relationship to politics, power, and authority (Fleischmann & Wallace, 2007). Despite concern among scholars that classification systems embody values and bias, there is little work examining how these qualities are built into a classification system. Specifically, we do not adequately understand classification construction, in which classification designers make decisions by applying classification theory to the specific context of a project (Park, 2008). If systems embody values— particularly values that might either cause harm (Berman, 1971) or provide an additional means of communicating the creator’s position (Feinberg, 2007)— we must understand how and when the system takes on these qualities. This dissertation bridges critical classification theory with design-oriented classification theory. Where critical classification theory is concerned with the outcomes of classification system design, design-oriented classification theory is concerned with the correct processes by which to build a classification system. To connect the consequences of classification system design to designers’ methods and intentions, I use the research lens of infrastructure studies, particularly infrastructural inversion (Star & Ruhleder, 1996) or making visible the work behind infrastructures such as classification systems. Accordingly, my research focuses on designers’ decisions and rethinks our assumptions regarding the factors that classification designers consider in making their design decisions. I adopted an ethnographic approach to the study of classification design that would make visible design decisions and designers’ consideration of factors. Using this approach, I studied the daily design work of volunteer classification designers who maintain a curated folksonomy. Using the grounded theory method (Strauss & Corbin, 1998), I analyzed the designers’ decisions. My analysis identified the implications of the designers’ convergences and divergences from established classification methods for the character of the system and for the connection between classification theory and classification methods. I show how the factors—and the prioritization of factors—that these designers considered in making their decisions were consistent with the values and needs of the community. Therefore, I argue that classification designers have an important role in creating the values or bias of a classification system. In particular, designers’ divergence from universal guidelines and designers’ choices among sources of evidence represent opportunities to align a classification system to its community. I recommend that classification research focus on such instances of divergence and choice to understand the connection between classification design and the values of classification systems. The Introduction motivates the problem space around values in classification systems and outlines my approach in focusing on classification design. The Literature Review outlines the dominant theories in classification scholarship according to three elements of classification design: what decisions designers make, what information designers use in their decisions, and what skills designers apply to their decisions. In the Methods chapter, I introduce the site of my ethnographic research (The Fanwork Repository), detail my ethnographic methods, summarize the types of data I collected, and describe my grounded analysis. Three findings chapters examine one type of complex decision each: Names, Works, and Guidelines, respectively. In the fourth findings chapter, Synthesis, I define 10 factors designers considered across these complex design decisions. I then discuss how the factors figured into complex design decisions, how the factors overlapped and conflicted in design decisions, and how designers understood their role in making complex design decisions. In the Discussion chapter I connect the findings from the site of my ethnography to classification scholarship. In the Conclusion, I consider the contribution of examining classification systems as infrastructure, highlight the differences in accounts of classification design decisions made visible through classification theory and infrastructure studies approaches, and present suggestions for future research in classification design and the study of classification systems as infrastructure.Informatio