9,587 research outputs found
Ran ci ke zhuan quan yi ce
No full text原著者科南達利 ; 譯述者林紓, 魏易.Translation of: Uncle Bernac.Colophon title.yuan zhu zhe Kenan Dali ; yi shu zhe Lin Shu, Wei Yi
Yi-ran/Omnetpp: Receiver-driven congestion control for InfiniBand Simulator
No full textSimulator for InfiniBand congestion control, receiver-driven congestion control
sj-docx-1-sgo-10.1177_21582440231154486 – Supplemental material for Corporate Reputation and Users’ Behavioral Intentions: Is Reputation the Master Key That Moves Consumers?
No full textSupplemental material, sj-docx-1-sgo-10.1177_21582440231154486 for Corporate Reputation and Users’ Behavioral Intentions: Is Reputation the Master Key That Moves Consumers? by Mo Ran Yi in SAGE Open</p
Yi Xiao Lab
No full textProfessor Xiao’s research interests lie in the areas of biosensors and biomaterials and their applications in solving a broad range of problems in vitro and in vivo. The goals of her research are directed towards employing new biomaterials, nanomaterials and new platforms to design ultra-sensitive sensors for specific in vitro or in vivo sensing in complex sample at the point-of-care. Pingping Liang (Haixiang Yu, Bhargav Guntupalli, Yi Xiao) “A Paper-Based Device for Rapid Visualization of NADH Based on Dissolution of Gold Nanoparticles” Haixiang Yu (Zongwen Wang, Yi Xiao) ) “A Cooperative-Binding Split Aptamer Assay for Rapid, Specific and Ultra-Sensitive Fluorescence Detection of Cocaine in Saliva” Daniel Roncancio (Haixiang Yu, Xiaowen Xu, Shuo Wu, Ran Liu, Joshua Debord, Xinhui Lou, Yi Xiao) “A Label-Free Aptamer-Fluorophore Assembly for Highly Sensitive and Specific Detection of Cocaine” Juan Canoura (Zongwen Wang, Haixiang Xu, Brian Ng, Daniel Ronancio, Yi Xiao) “Utilizing Nuclease Screening of Ligand-Aptamer Complexes to Enhance Specificity of an Aptamer-Based Cocaine Assay” Bhargav Guntupalli (Bhargav Guntupalli) “Ambient Filtration Method to Rapidly Prepare Highly Conductive, Paper-Based Porous Gold Films for Electrochemical Biosensing
Enhancing Open RAN Digital Twin Through Power Consumption Measurement
Full text linkThe increasing demand for high-speed, ultra-reliable and low-latency communications in 5G and beyond networks has led to a significant increase in power consumption, particularly within the Radio Access Network (RAN). This growing energy demand raises operational and sustainability challenges for mobile network operators, requiring novel solutions to enhance energy efficiency while maintaining Quality of Service (QoS). 5G networks are evolving towards disaggregated, programmable, and intelligent architectures, with Open Radio Access Network (O-RAN) spearheaded by the O-RAN Alliance, enabling greater flexibility, interoperability, and cost-effectiveness. However, this disaggregated approach introduces new complexities, especially in terms of power consumption across different network components, including Open Radio Units (RUs), Open Distributed Units (DUs) and Open Central Units (CUs). Understanding the power efficiency of different O-RAN functional splits is crucial for optimising energy consumption and network sustainability. In this paper, we present a comprehensive measurement study of power consumption in RUs, DUs and CUs under varying network loads, specifically analysing the impact of Physical resource block (PRB) utilisation in Split 8 and Split 7.2b. The measurements were conducted on both software-defined radio (SDR)-based RUs and commercial indoor and outdoor RU, as well as their corresponding DU and CU. By evaluating real-world hardware deployments under different operational conditions, this study provides empirical insights into the power efficiency of various O-RAN configurations. The results highlight that power consumption does not scale significantly with network load, suggesting that a large portion of energy consumption remains constant regardless of traffic demand
sj-docx-1-ijlew-10.1177_15347346211050769 - Supplemental material for Efficacy and Safety of Pentoxifylline for Venous Leg Ulcers: An Updated Meta-Analysis
No full textSupplemental material, sj-docx-1-ijlew-10.1177_15347346211050769 for Efficacy and Safety of Pentoxifylline for Venous Leg Ulcers: An Updated Meta-Analysis by Shi-Yi Sun, Yan Li, Yun-Yi Gao and Xing-Wu Ran in The International Journal of Lower Extremity Wounds</p
FIGURES 13–16 in New Records of the Genus Jessopocoris Carvalho, 1981 (Hemiptera: Miridae: Bryocorinae), with Descriptions of Two New Species Found in China
No full textFIGURES 13–16. Male genitalia of Jessopocoris yunnananus sp. nov.: 13–15. Left paramere in different views; 16. AedeagusPublished as part of Mu, Yi-Ran & Liu, Guo-Qing, 2012, New Records of the Genus Jessopocoris Carvalho, 1981 (Hemiptera: Miridae: Bryocorinae), with Descriptions of Two New Species Found in China, pp. 47-54 in Zootaxa 3573 on page 53, DOI: 10.5281/zenodo.28301
The Most Parsimonious Reconciliation Problem in the Presence of Incomplete Lineage Sorting and Hybridization Is NP-Hard
Full text linkThe maximum parsimony phylogenetic reconciliation problem seeks to explain incongruity between a gene phylogeny and a species phylogeny with respect to a set of evolutionary events. While the reconciliation problem is well-studied for species and gene trees subject to events such as duplication, transfer, loss, and deep coalescence, recent work has examined species phylogenies that incorporate hybridization and are thus represented by networks rather than trees. In this paper, we show that the problem of computing a maximum parsimony reconciliation for a gene tree and species network is NP-hard even when only considering deep coalescence. This result suggests that future work on maximum parsimony reconciliation for species networks should explore approximation algorithms and heuristics
A comparative environmental life cycle assessment of rice straw-based bioenergy projects in China
No full textBioenergy is a promising solution for greenhouse gas (GHG) emissions mitigation. However, the emissions resulting from the different production stages must be quantified and evaluated. The life cycle assessment (LCA) method was used to compare and quantify the environmental burdens of three rice straw (RS) utilization scenarios for producing biogas, briquette fuel, and syngas. To our knowledge, this is the first study that applies the LCA approach to assess these three bioenergy scenarios in a single study where the main goal was to determine the most sustainable option. A total of 10 mid-point impact categories were investigated. The results indicated that the three scenarios achieved net positive energy and net negative GHG balances. The briquette fuel scenarios had the highest net energy balance (11,115 MJ/tonne dry RS), while the syngas scenario had the highest net GHG (-2,315 kg CO2-eq./tonne dry RS). Moreover, the syngas scenario was the most beneficial to the environment, achieving negative results in 9 out of the 10 impact categories; the largest was marine ecotoxicity (-853,897 kg 1,4-DB-eq./tonne dry RS). The biogas scenario achieved emission savings in 3 out of the 10 categories. Although the briquette fuel scenario had no negative values in the 10 categories, its overall contribution to environmental burdens was relatively low. Overall, the order of the three scenarios in terms of the most sustainable option is syngas > briquette fuel > biogas
Erratum to “KIAA1549-BRAF Expression Establishes a Permissive Tumor Microenvironment Through NFκB-Mediated CCL2 Production
No full textThe order of authors in the above-referenced article should have read as follows: Ran Chen *, Chanel Keoni †, Christopher A. Waker ‡, Robert M. Lober †, ‡, §, Yi-Hsien Chen ¶, David H. Gutmann *. The publisher would like to apologize for any inconvenience caused
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