368,000 research outputs found

    Design considerations for high-power VHF radar transceivers (keynote paper)

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    A review and analysis of conference papers addressing the design of high power VHF radar tranceivers is presented. Specific design topics include: (1) distributed versus single transmitters; (2) coded pulses and decoder design; (3) large transmitter design considerations; and (4) T/R switch design. The topics in the discussion on future directions include the following: (1) enhanced receiver performance; (2) transmitter systems for unattended operation; (3) limitations of the current T/R switch designs; (4) data processing (is eight bits enough); and (5) new frequencies (200 MHz and/or 400 MHz)

    On-line real-time service allocation and scheduling for distributed data centers

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    Abstract-With the prosperity of Cluster Computing, Cloud Computing, Grid Computing, and other distributed high performance computing systems, Internet service requests become more and more diverse. The large variety of services plus different Quality of Service (QoS) considerations make it challenging to design effective allocate and scheduling algorithms to satisfy the overall service requirements, especially for distributed systems. In addition, energy consumption issue attracts more and more concerns. In this paper, we study a new energy efficient, profit and penalty aware allocation and scheduling approach for distributed data centers in a multi-electricity-market environment. Our approach efficiently manages computing resources to minimize the processing and transferring energy dollar cost in an electricity price varying environment. Our extensive experimental results show the new approach can significantly cut down the energy consumption dollar cost and achieve higher system's retained profit

    Event-driven Principles and Complex Event Processing for Self-adaptive Network Analysis and Surveillance Systems

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    Event-driven approaches and Complex Event Processing (CEP) have the potential to aid in tackling the complex requirements and challenges of monitoring contemporary computer networks. The applicability of such methods, however, depends on, e.g., architectural considerations, data processing performance, or usability. In this thesis, we study the applicability of event-driven principles and CEP for analyzing and surveying computer networks and present ways for improving the applicability of these paradigms. The main contributions that are presented and discussed in this thesis are: an analysis of important properties of network analysis and surveillance, the introduction of a corresponding Event-driven Architecture (EDA) for addressing these requirements, the empirical evaluation of the proposed EDA using a prototype implementation, the development of cooperative and self-adaptive methods for addressing performance and usability issues, and the development of techniques for improving the integration of components implemented in different languages in event-driven systems. Assuring and maintaining the proper operation of computer networks is as crucial as assuring the proper operation of the Information Technology (IT) systems they connect. However, collecting and analyzing information about computer networks, which is required for assuring their proper operation, is increasingly challenging because of, e.g., the growing logical and spatial extent of computer networks, accelerated changes in computer network structures and network traffic, or near real-time requirements. Furthermore, a wide variety of methods for network analysis and surveillance exists and for acquiring comprehensive information at optimal resource requirements these various methods have to be combined with a converging approach. Based on the results of an analysis of important properties and requirements for network analysis and surveillance, we propose an approach which leverages event-driven paradigms such as EDA and CEP for addressing the complex mix of requirements in this field and for enabling convergence of the various existing methods. We evaluate our proposed approach with a case study and performance benchmarks using a prototype. Our results show that our approach is a good fit for addressing the complex mix of requirements and that it is feasible from a performance perspective. In contrast to other related recent research, which is limited to specific use cases, we propose a generic and versatile event-driven approach for universal network analysis and surveillance. Moreover, we present techniques for further improving network analysis and surveillance. While our general approach already constitutes an important improvement, we also propose and investigate further innovations. Based on the evaluation of our approach, we consider distributed operation, usability, performance in distributed deployments and of sensors, integration of data sources, and the interoperation of implementations in different programming languages in event-driven systems as most important aspects for further improvement. For improving the operation, usability, and performance in distributed contexts, we develop an approach for cooperative and self-adaptive data acquisition using the example of packet capturing. In order to research ways for advancing the operation of sensors and integration of data sources, we use the example of packet capturing with the Java Virtual Machine (JVM), for which we develop and analyze various improvements at various abstraction levels such as data extraction via a Domain Specific Language (DSL) or self-adaptive adjustments based on performance constraints. Even though packet capturing with the JVM was already employed in other research, these studies only consider the overall systems such that neither the specific implications of JVM-based packet capturing nor methods for improving the performance in this scenario were discussed in detail yet. Furthermore, we analyze the impact of programming language barriers in event-driven systems and present a batch-based approach for increasing the data exchange throughput. In conclusion, we improve the state-of-the-art of network analysis and surveillance. Our work aims on taking the next step towards holistic network analysis and surveillance by addressing distribution, convergence, usability, and performance aspects. We demonstrate the benefits and evaluate the applicability of event-driven data processing paradigms and show how self-adaptivity and cooperation can further improve the capabilities

    Reconfigurable mobile communications: compelling needs and technologies to support reconfigurable terminals

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    Distributed generation on rural electricity networks - a lines company perspective : a thesis presented in partial fulfillment of the requirements for the degree of Master of Engineering in Energy Management at Massey University

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    CD held with Reference copyA number of electricity assets used in rural New Zealand yield a very low return on investment. According to the provisions of the Electricity Act 1992, after 01 April 2013, lines companies may terminate supply to any customer to whom they cannot provide electricity lines services profitably. This research was undertaken to assist the policy makers, lines companies, rural investors on the viability of distributed generation in a rural setting from the point of view of the lines company and the investor as well as to provide recommendations to the problem areas. A dynamic distributed generation model was developed to simulate critical distributed generation scenarios relevant to New Zealand, such as diverse metering arrangements, time dependent electricity prices, peak shaving by load control, peak lopping by dispatchable distributed generation and state subsides, which are not addressed in commercial software. Data required to run the model was collected from a small rural North Island sheep and beef farming community situated at the end of a 26km long radial distribution feeder. Additional operational data were also collected from the community on distributed resources such as solar hot water systems. A number of optimum distributed generation combinations involving a range of technologies under different metering arrangements and price signals were identified for the small and the medium investor. The effect of influencing factors, such as state initiatives and technological growth, on the investor and the lines companies were discussed. Recommendations for future implementation in order to integrate distributed generation on to rural networks were also given. Several key research areas were identified and discussed including low cost micro hydro, wind resource assessment, diversification of the use of the induction generators, voltage flicker and dynamic distributed generation techno-economic forecasting tools

    Digital implementation of the cellular sensor-computers

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    Two different kinds of cellular sensor-processor architectures are used nowadays in various applications. The first is the traditional sensor-processor architecture, where the sensor and the processor arrays are mapped into each other. The second is the foveal architecture, in which a small active fovea is navigating in a large sensor array. This second architecture is introduced and compared here. Both of these architectures can be implemented with analog and digital processor arrays. The efficiency of the different implementation types, depending on the used CMOS technology, is analyzed. It turned out, that the finer the technology is, the better to use digital implementation rather than analog

    [Subject benchmark statement]: computing

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