597 research outputs found
Poster: TrueNets, a Topology Generator for Realistic Network Analysis
The availability of realistic topology generators is a key component in the study of network performance. This work describes a new approach for realistic generation of topologies, named TrueNets, that uses open data provided by public administrations and crowd-sensing efforts for populated areas, maps, altitude of land and buildings; TrueNets estimates link performance with classical propagation models and produces annotated topologies of networks that can actually exist in the selected areas, thus providing not only an abstract tool for performance evaluation, but also a design tool for planning. We use TrueNets to model distributed mesh networks and we show that the generated topologies differ substantially from state-of-the-art synthetic generators
WIP: Analysis of feasible topologies for backhaul mesh networks
Mesh backhauls are getting attention for 5G networks, but not only. A backhaul mesh is attractive due to its multiple potential paths that grants redundancy and robustness. The real topology and its properties, however, is heavily influenced by the characteristics of the place where it is deployed, a fact that is rarely taken into account by scientific literature, mainly due to the lack of detailed topographic data. This WIP analyzes the impact of true topography on small backhaul meshes in nine different locations in Italy. Initial results stress how true data influence results and can help designing better networks and better services
Analysis of an unmitigated 2-inch cold leg LOCA transient with ASTEC and MELCOR codes
The analyses of postulated severe accident sequences play a key role for the
international nuclear technical scientific community for the study of the effect of possible actions
to prevent significant core degradation and mitigate source term release. To simulate the
complexity of phenomena involved in a severe accident, computational tools, known as severe
accident codes, have been developed in the last decades. In the framework of NUGENIA TA-2
ASCOM project, the analysis of an unmitigated 2-inch cold leg LOCA transient, occurring in a
generic western three-loops PWR-900 MWe, has been carried out with the aim to give some
insights on the modelling capabilities of these tools and to characterize the differences in the
calculations results. The ASTEC V2.2b code (study carried out with ASTEC V2, IRSN all rights
reserved, [2021]), and MELCOR 2.2 code have been used in this code-to-code benchmark
exercise. In the postulated transient, the unavailability of all active injection coolant systems has
been considered and only the injection of accumulators has been assumed as accident mitigation
strategy
Classical Lie symmetries and reductions of a nonisospectral Lax pair
The classical Lie method is applied to a nonisospectral problem associated
with a system of partial differential equations in 2+1 dimensions (Maccari A,
J. Math. Phys. 39, (1998), 6547-6551). Identification of the classical Lie
symmetries provides a set of reductions that give rise to different nontrivial
spectral problems in 1+1 dimensions. The form in which the spectral parameter
of the 1+1 Lax pair is introduced is carefully described.Comment: 11 pages (v2: A typo corrected in the authors' names
Toward Open Integrated Access and Backhaul with O-RAN
Millimeter wave (mmWave) communications has been recently standardized for use in the fifth generation (5G) of cellular networks, fulfilling the promise of multi-gigabit mobile throughput of current and future mobile radio network generations. In this context, the network densification required to overcome the difficult mmWave propagation will result in increased deployment costs. Integrated Access and Backhaul (IAB) has been proposed as an effective mean of reducing densification costs by deploying a wireless mesh network of base stations, where backhaul and access transmissions share the same radio technology. However, IAB requires sophisticated control mechanisms to operate efficiently and address the increased complexity. The Open Radio Access Network (RAN) paradigm represents the ideal enabler of RAN intelligent control, but its current specifications are not compatible with IAB. In this work, we discuss the challenges of integrating IAB into the Open RAN ecosystem, detailing the required architectural extensions that will enable dynamic control of 5G IAB networks. We implement the proposed integrated architecture into the first publiclyavailable Open-RAN-enabled experimental framework, which allows prototyping and testing Open-RAN-based solutions over end-to-end 5G IAB networks. Finally, we validate the framework with both ideal and realistic deployment scenarios exploiting the large-scale testing capabilities of publicly available experimental platforms
The Role of Meningioma-1 (Mn1) Gene as Marker for Prognosis and Minimal Residual Disease Monitoring in Acute Myeloid Leukemia: A Concise Review
Molecular markers are necessary for prognostic stratification and monitoring of Minimal
Residual Disease (MRD) in Acute Myeloid Leukemia (AML) [1,2]. Cytogenetic aberrations have
long been recognized as the most important prognostic variable in AML, and are still the major
determinant for post-remission therapy [3]. Unfortunately, only 50-60% of AML patients present
an abnormal karyotype at diagnosis, while the remaining cases display a Normal Karyotype (NK).
NK AML patients are generally included in an âintermediate riskâ prognostic group, that is however
characterized by a heterogeneous clinical course. To stratify prognosis of NK AML patients,
numerous studies have led, in the last decade, to the introduction of different molecular markers
such as FLT3, NPM1, BAALC and CEBPA [4-7]. Still, their use to monitor disease, either defining
remission status and detecting relapse as early as possible, is still somehow controversial, due to
fluctuations during disease course, low incidence rates in AML and sensitivity of the technologies
detecting the single marker [8-10]. These limitations have, to date, precluded a timely and precise
quantification of disease in NK AML patients, thus preventing from a complete individualization
of post-remission therapy and early treatment in case of impending relapse. In other words, in
NK AML it has not been reached the precision achieved in BCR/ABL-positive chronic myeloid
leukemia and PML/RAR alpha mutated acute promyelocytic leukemia
Modulation of micrornome by human cytomegalovirus and human herpesvirus 6 infection in human dermal fibroblasts: Possible significance in the induction of fibrosis in systemic sclerosis
Human cytomegalovirus (HCMV) and Human herpesvirus 6 (HHVâ6) have been report-edly suggested as triggers of the onset and/or progression of systemic sclerosis (SSc), a severe autoimmune disorder characterized by multiâorgan fibrosis. The etiology and pathogenesis of SSc are still largely unknown but virological and immunological observations support a role for these beta-herpesviruses, and we recently observed a direct impact of HCMV and HHVâ6 infection on the expression of cell factors associated with fibrosis at the cell level. Since miRNA expression has been found profoundly deregulated at the tissue level, here we aimed to investigate the impact on cell microRNome (miRNome) of HCMV and HHVâ6 infection in in vitro infected primary human dermal fibroblasts, which represent one of the main SSc target cells. The analysis, performed by Taq-man arrays detecting and quantifying 754 microRNAs (miRNAs), showed that both herpesviruses significantly modulated miRNA expression in infected cells, with evident early and late effects and deep modulation (>10 fold) of >40 miRNAs at each time post infection, including those previously recognized for their key function in fibrosis. The correlation between these in vitro results with in vivo observations is strongly suggestive of a role of HCMV and/or HHVâ6 in the multistep patho-genesis of fibrosis in SSc and in the induction of fibrosisâsignaling pathways finally leading to tissue fibrosis. The identification of specific miRNAs may open the way to their use as biomarkers for SSc diagnosis, assessment of disease progression and possible antifibrotic therapies
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