1,150 research outputs found

    Planning broadband infrastructure - a reference model

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    Manned Orbital Transfer Vehicle (MOTV). Volume 4: Supporting analysis

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    Generic missions were defined to enable potential users to determine the parameters for suggested user projects. Mission modes were identified for providing operation, interfaces, performance, and cost data for studying payloads. Safety requirements for emergencies during various phases of the mission are considered with emphasis on radiation hazards

    Doctor of Philosophy

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    dissertationThe next generation mobile network (i.e., 5G network) is expected to host emerging use cases that have a wide range of requirements; from Internet of Things (IoT) devices that prefer low-overhead and scalable network to remote machine operation or remote healthcare services that require reliable end-to-end communications. Improving scalability and reliability is among the most important challenges of designing the next generation mobile architecture. The current (4G) mobile core network heavily relies on hardware-based proprietary components. The core networks are expensive and therefore are available in limited locations in the country. This leads to a high end-to-end latency due to the long latency between base stations and the mobile core, and limitations in having innovations and an evolvable network. Moreover, at the protocol level the current mobile network architecture was designed for a limited number of smart-phones streaming a large amount of high quality traffic but not a massive number of low-capability devices sending small and sporadic traffic. This results in high-overhead control and data planes in the mobile core network that are not suitable for a massive number of future Internet-of-Things (IoT) devices. In terms of reliability, network operators already deployed multiple monitoring sys- tems to detect service disruptions and fix problems when they occur. However, detecting all service disruptions is challenging. First, there is a complex relationship between the network status and user-perceived service experience. Second, service disruptions could happen because of reasons that are beyond the network itself. With technology advancements in Software-defined Network (SDN) and Network Func- tion Virtualization (NFV), the next generation mobile network is expected to be NFV-based and deployed on NFV platforms. However, in contrast to telecom-grade hardware with built-in redundancy, commodity off-the-shell (COTS) hardware in NFV platforms often can't be comparable in term of reliability. Availability of Telecom-grade mobile core network hardwares is typically 99.999% (i.e., "five-9s" availability) while most NFV platforms only guarantee "three-9s" availability - orders of magnitude less reliable. Therefore, an NFV-based mobile core network needs extra mechanisms to guarantee its availability. This Ph.D. dissertation focuses on using SDN/NFV, data analytics and distributed system techniques to enhance scalability and reliability of the next generation mobile core network. The dissertation makes the following contributions. First, it presents SMORE, a practical offloading architecture that reduces end-to-end latency and enables new functionalities in mobile networks. It then presents SIMECA, a light-weight and scalable mobile core network designed for a massive number of future IoT devices. Second, it presents ABSENCE, a passive service monitoring system using customer usage and data analytics to detect silent failures in an operational mobile network. Lastly, it presents ECHO, a distributed mobile core network architecture to improve availability of NFV-based mobile core network in public clouds

    Report of the working group on fisheries acoustics science and technology (WGFAST)

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    The Working Group on Fisheries Acoustics Science and Technology (WGFAST) met at the Food and Agricultural Organisation of the United Nations in Rome, Italy, from 19–22 April 2005. David A. Demer, USA, was Chair, Alex De Robertis, USA, was Rapporteur and Jessica D. Lipsky, USA, was the Recorder. There were 83 participants from 16 countries. a ) The first topic was “Measuring underwater radiated noise from survey vessels and its effects on fish”. Quiet vessels have distinct advantages over conventional vessels. It has been shown that herring did not respond to a vessel which com-plies with the ICES Cooperative Research Report No. 209 specification for radi-ated noise. Reductions in high frequency vessel noise have also increased acous-tic detection ranges for fish and zooplankton. However, it is clear that some spe-cies, under some circumstances, avoid even quiet survey vessels. Thus, a variety of stimuli produced by vessels such as light and particle motion, as well as radi-ated noise, may cause fish to react to a survey vessel. Noise reduced vessels pro-vide new opportunities to investigate these stimuli. WGFAST recommends that research in this area should proceed swiftly and focus on: i) determining which species of fish react to conventional and quiet survey vessels and under what cir-cumstances; ii) the stimuli for their behaviours; and iii) the design requirements for vessels surveying these species in sensitive situations. Additionally, for cases in which fish avoidance is inescapable, survey biases should be estimated. Devel-opment of economical and portable noise measurement systems is also encour-aged. b ) The second topic was “Technologies for remote species identification (low-frequency, Doppler, multi-frequency, broad bandwidth, data integration, optical sensors)”. Species identification can be one of the major sources of uncertainty in acoustic surveys of fish and zooplankton abundance, and it is vital to multi-species and ecosystem studies. Substantial progress was reported on a variety of methods for remote species identification. Such methods enable more automated and objective data processing, reduced uncertainty in acoustic estimates of fish biomass, economical ecosystem investigations and studies of predator-prey inter-actions, and may also facilitate a reduction of by-catch during commercial fishing operations. It was noted that further progress towards species identification will likely require a combination of acoustic and other measurements. Because net sampling is typically used to identify acoustic scatterers, gear selectivity can add substantial uncertainty to acoustic surveys. Thus, the WGFAST encourages re-search on random and systematic error in net sampling, and development of new methods for verifying acoustic scatterers. Particularly promising are underwater stereo video instrumentation and analysis methods. c ) The third topic was “Alternative technologies (small-craft, buoys, ROV, AUV, gliders, fishing vessels, multi-beam sonar, acoustic cameras), with special atten-tion to shallow water and near boundary assessments (coastal, riverine, demersal and epipelagic species, and bottom typing)”. Measurement platforms other than research vessels are being used to economically make measurements on ecologi-cally important temporal and spatial scales. For example, acoustic instruments are being deployed on buoys, landers, autonomous underwater vehicles, remotely op-erated vehicles, and fishing vessels. Expanded use of these platforms is impera-tive for successful ecosystem-based fisheries management. Progress was also re-ported on development of multi-beam sonars, and analyses of their data for bio-mass estimation. Finally, productive collaborations between commercial manu-facturers and the scientific community were reported and encouraged. d ) The fourth topic was “Target strength (modelling and measurements)”. There is a growing body of evidence indicating that a first-order approximation of TS ver-sus log-length is generally insufficient to accurately and precisely estimate fish TS. It was shown that factors such as fish orientation (tilt, roll, and yaw), age-dependent changes in morphology, and region-dependent relations between fish mass, length, and swimbladder volumes can eclipse the effect of fish length on their TS. Exemplifying this point was another study showing a bimodal TS distri-bution from herring characterized with a unimodal length distribution. e ) WGFAST recommends that it next meets at CSIRO in Hobart, Tasmania, on 27, 28, 29, and 30 March, 2006 to examine works in the following research areas: i) Fish behaviour in response to noise and other vessel related stimuli; ii) Survey techniques for epi-benthic, epi-pelagic and shallow water species; iii) Acoustical species ID techniques for multi-species assessments, ecosystem studies, by-catch reduction, and objective and automated data processing; iv) Instrumentation, survey design, and data analysis techniques for studying aquatic ecosystems, with special attention to the estimation and use of meas-urement uncertainty in statistical analyses of multi-variate time series, and techniques for integrating multi-disciplinary data to elucidate functional rela-tionships; and v) Target strength (modelling and measurements). f ) WGFAST recommends that SGASC and SGTSEB both be extended for another year, retaining their current Chairs, to complete their respective CRRs; and SGAFV and SGASC also meet in Hobart on 25–26 March, and 31 March-2 April, respectively. g ) WGFAST recommends research on: 1) noise and other vessel related stimuli for fish behaviour; 2) video and still camera instrumentation and data processing; and 3) instrumentation and methods for remote species identification. These topics should be considered for one or more new Study Group at the 2006 meeting. h ) WGFAST and WGFTFB jointly recommend that a Task Force be formed, lead by David Somerton, USA, to: evaluate the state-of-the-art in optical imaging and analysis technologies and define the ICES community’s requirements for addi-tional optical technology. i ) WGFAST recommends a review of the ecosystem-based fisheries management strategies developed and employed over the past two decades by international communities such as CCAMLR. Accordingly, one or more keynote speakers from CCAMLR and or CSIRO will be invited to the 2006 WGFAST meeting. j ) WGFAST recommends that the ICES sponsored “2008 Symposium on Fisheries Acoustics and Technology for Aquatic Ecosystem Investigations,” is held from in June 2008 at Grieg Hall, Bergen, Norway. k ) WGFAST Recommends the following theme sessions for the 2006 Annual Sci-ence Conference: i) Joint FTC-RMC Theme Session on “Quantifying, summariz-ing and integrating total uncertainty in fisheries resource surveys.” Co-Conveners: David Demer, U.S.A.; and Stephen Smith, Canada; ii) Joint FTC/LRC Theme Session on “Spatio-temporal characteristics of fish populations and their environmental forcing functions as components of ecosystem-based as-sessments.” Co-Conveners: François Gerlotto (France), and someone from LRC; and iii) Joint FTC/LRC Theme Session on “Technologies for monitoring fishing activities and observing catch.” Co-Conveners: Bill Karp, USA, and Kjell Nedre-aas, Norway
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