Your search keyword '"Araniti, Giuseppe"' showing total 5 results

1. When D2D communication improves group oriented services in beyond 4G networks

Author

Militano, Leonardo, Condoluci, Massimo, Araniti, Giuseppe, Molinaro, Antonella, and Iera, Antonio

Published

2015

2. Efficient Management of Multicast Traffic in Directional mmWave Networks.

Author

Chukhno, Nadezhda, Chukhno, Olga, Pizzi, Sara, Molinaro, Antonella, Iera, Antonio, and Araniti, Giuseppe

Subjects

MULTICASTING (Computer networks), DATA transmission systems, RADIO resource management, MILLIMETER waves, STREAMING video & television, ENERGY consumption, INTERNET of things

Abstract

Multicasting is becoming more and more important in the Internet of Things (IoT) and wearable applications (e.g., high definition video streaming, virtual reality gaming, public safety, among others) that require high bandwidth efficiency and low energy consumption. In this regard, millimeter wave (mmWave) communications can play a crucial role to efficiently disseminate large volumes of data as well as to enhance the throughput gain in fifth-generation (5G) and beyond networks. There are, however, challenges to face in view of providing multicast services with high data rates under the conditions of short propagation range caused by high path loss at mmWave frequencies. Indeed, the strong directionality required at extremely high frequency bands excludes the possibility of serving all multicast users via a single transmission. Therefore, multicasting in directional systems consists of a sequence of beamformed transmissions to serve all multicast group members, subgroup by subgroup. This paper focuses on multicast data transmission optimization in terms of throughput and, hence, of the energy efficiency of resource-constrained devices such as wearables, running their resource-hungry applications. In particular, we provide a means to perform the beam switching and propose a radio resource management (RRM) policy that can determine the number and width of the beams required to deliver the multicast content to all interested users. Achieved simulation results show that the proposed RRM policy significantly improves network throughput with respect to benchmark approaches. It also achieves a high gain in energy efficiency over unicast and multicast with fixed predefined beams. [ABSTRACT FROM AUTHOR]

Published

2021

3. Broadcasting Services Over 5G NR Enabled Multi-Beam Non-Terrestrial Networks.

Author

Rinaldi, Federica, Maattanen, Helka-Liina, Torsner, Johan, Pizzi, Sara, Andreev, Sergey, Iera, Antonio, Koucheryavy, Yevgeni, and Araniti, Giuseppe

Subjects

RADIO resource management, DIGITAL video broadcasting, 5G networks, BROADCASTING industry

Abstract

The era of the fifth-generation (5G) New Radio (NR) technology has just begun, and its promises to substantially improve the system performance have turned into reality. The 5G NR enabled Non-Terrestrial Network (NTN) is almost upon us and will represent an effective solution to provide services anytime, anywhere, and over wider coverage areas. In this context, high throughput satellite systems with advanced multi-beam transmissions have gained significant attention owing to their ability to boost the system capacity through beam frequency re-use, increased user data rates, and system spectral efficiency. In this paper, we propose a novel radio resource management scheme, named Single-Frequency Multi-Beam Transmission (SF-MBT), for efficient delivery of the enhanced Mobile Broadband (eMBB) services over the 5G NR multi-beam NTN systems. The main thinking is to group beams into the dedicated Beam Areas, wherein a certain content flow is delivered via simultaneous multi-beam transmissions over the same radio resources without causing inter-beam interference. A simulation campaign is conducted under different scenarios to assess the effectiveness of the proposed SF-MBT algorithm as compared to the current schemes based on frequency reuse. System-wide performance is evaluated in terms of the aggregate data rate, mean throughput, and system spectral efficiency. [ABSTRACT FROM AUTHOR]

Published

2021

4. Multimedia Content Delivery for Emerging 5G-Satellite Networks.

Author

Araniti, Giuseppe, Bisio, Igor, De Sanctis, Mauro, Orsino, Antonino, and Cosmas, John

Subjects

*CONTENT delivery networks, *MULTICASTING (Computer networks), *MULTIMEDIA systems, *5G networks, *RADIO resource management

Abstract

Multimedia content delivery over satellite systems is considered as a promising service in emerging 5G networks. The aim of this paper is to design a novel radio resource management algorithm for efficiently managing multicast multimedia content transmission over satellite network. The proposed approach performs the spectrum management on a per-group basis, by splitting multicast terminals into different subgroups according to the experienced channel qualities. We demonstrate that subgrouping policy defined by the authors as multicast subgrouping-maximum satisfaction index (MS-MSI), based on a new metric (i.e., MSI), overcomes the weakness of the previous techniques proposed in the literature and provides the best tradeoff between user throughput and fairness. As a further result, we demonstrate that MS-MSI is robust to the long propagation delay of satellite links. An extensive simulation campaign has been conducted by considering several satellite environments. [ABSTRACT FROM PUBLISHER]

Published

2016

5. Radio Resource Management for Group-Oriented Services in LTE-A.

Author

Militano, Leonardo, Niyato, Dusit, Condoluci, Massimo, Araniti, Giuseppe, Iera, Antonio, and Bisci, Giovanni Molica

Subjects

RADIO resource management, TELECOMMUNICATION, LONG-Term Evolution (Telecommunications), MULTICASTING (Computer networks), WIRELESS communications

Abstract

The objective of this paper is to design radio resource management policies for supporting the effective delivery of multicast service in Long-Term Evolution Advanced (LTE-A) systems. Specifically, we propose multicast subgrouping-based solutions to maximize the system efficiency in terms of throughput under the constraints that 1) all user equipment devices are served and that 2) fairness among the activated multicast subgroups is guaranteed to avoid users' dissatisfaction. These results are obtained by modeling the multicast subgroup formation problem through a bargaining game. Moreover, an algorithm, which achieves the optimal fairness–efficiency tradeoff, is proposed to support the system in selecting the most appropriate solution in terms of 1) subgroups activated over each system carrier and 2) resource allocated to them. [ABSTRACT FROM PUBLISHER]

Published

2015