Global ETD Search

1	DATA COMMUNICATIONS OVER AIRCRAFT POWER LINES Tian, Hai, Trojak, Tom, Jones, Charles 10 1900 (has links) ITC/USA 2005 Conference Proceedings / The Forty-First Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2005 / Riviera Hotel & Convention Center, Las Vegas, Nevada / This paper introduces a study of the feasibility and initial hardware design for transmitting data over aircraft power lines. The intent of this design is to significantly reduce the wiring in the aircraft instrumentation system. The potential usages of this technology include Common Airborne Instrumentation System (CAIS) or clock distribution. Aircraft power lines channel characteristics are presented and Orthogonal Frequency Division Multiplexing (OFDM) is introduced as an attractive modulation scheme for high-speed power line transmission. A design of a full-duplex transceiver with accurate frequency planning is then discussed. A general discussion of what communications protocols are appropriate for this technology is also provided. Flight Test Instrumentation Airborne Instrumentation High-Speed Data Transmissions Power Line Communications OFDM Full Duplex FDD
2	A HIGH SPEED REAL TIME SPACE QUALIFIED TIME DIVISION MULTIPLEXED DATA FORMATTER Schwartz, Paul D., Hersman, Christopher B. 10 1900 (has links) International Telemetering Conference Proceedings / October 17-20, 1994 / Town & Country Hotel and Conference Center, San Diego, California / A system to generate a contiguous high speed time division multiplexed (TDM) spacecraft downlink data stream has been developed. The 25 MBPS downlink data stream contains high rate real time imager data, intermediate rate subsystem processor data, and low rate spacecraft housekeeping data. Imager data is transferred directly into the appropriate TDM downlink data window using control signals and clocks generated in the central data formatter and distributed to the data sources. Cable and electronics delays inherent in this process can amount to several clock periods, while the uncertainty and variations in those delays (e.g. temperature effects) can exceed the clock period. Unique (patent pending) electronic circuitry has been included in the data formatter to sense the total data gathering delay for each high speed data source and use the results to control series programmable delay elements to equalize the delays from all sources and permit the formation of a contiguous output data stream. Space Qualified Data Formatter Propagation Delay Compensation High Speed Data Formatter Telemetry Processor
3	PACKETIZED TELEMETRY INCREASES FEEDBACK SYSTEM RESPONSE TIME IN A HIGH ENERGY PHYSICS APPLICATION Woolridge, Daniel “Shane” 10 1900 (has links) International Telemetering Conference Proceedings / October 25-28, 1999 / Riviera Hotel and Convention Center, Las Vegas, Nevada / A digital feedback system used to monitor and control a high energy electron beam’s orbit and stability in a VUV and X-ray storage ring will realize a 10 fold increase in the feedback system response time using packetized (IRIG 107-98) telemetry. The improvement in feedback time will provide a significant improvement in the level of orbit stability. This paper discusses the advantages of using a packetizing standard and high speed data acquisition as a cost effective way to support the scientific community in their real time processing needs. Synchrotron Packetized Telemetry Real Time Processing Digital Feedback System High Speed Data Acquisition
4	The Implications for DAU Design in a Networked Data Acquisition System Cranley, Nikki 10 1900 (has links) ITC/USA 2011 Conference Proceedings / The Forty-Seventh Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2011 / Bally's Las Vegas, Las Vegas, Nevada / The higher bandwidth capacities available with the adoption of Ethernet technology for networked FTI data acquisition systems enable more data to be acquired by the Data Acquisition Unit (DAU) from high-speed data busses, with higher channel densities, faster sampling rates, and sample resolution. Ethernet offers increased flexibility, interoperability, and simplicity in terms of the FTI system topology. However, the adoption of Ethernet has numerous implications for the design and operation of the DAU in terms of supporting network protocols for synchronization, configuration, and the transmission of the acquired data. This paper explores these issues and discusses the merits of adopting Ethernet. Network Data Acquisition Unit Analog Avionics Bus High-speed data bus
5	Design of One-Time Implantable SCS System SOC and Inter-chip Capacitance Coupling Circuit Tseng, Shao-Bin 15 August 2011 (has links) The thesis is composed of two topics: A SOC design for one-time implantable spinal cord stimulation system ¡]SCS¡^, and the design of an inter-chip capacitance coupling circuit. In the first topic, the SOC design using wireless power and data transmission techniques for the SCS system is presented in this work. The proposed SOC can control 4 electrodes to generate different patterns of stimulation waves. It has multiple modes to drive whole the SCS system. Notably, the SOC contains a novel ASK demodulator which converts the ASK signals into digital signals reliably. The SOC is implemented using a typical 0.18-£gm 1P6M CMOS process. The chip area is only 1.71 * 1.41 mm2. Besides, the volume of the implantable SCS pulse generator utilizing this SOC is less than 24 cm3, and the power consumption is only 59.4 mW. In the second topic, a high-speed inter-chip capacitance coupling circuit is presented. Digital signals between two chips can be transceived through capacitive coupling of the proposed circuit. Notably, the transceivers are designed below the capacitors to attain the area reduction. It is an advanced application for high-speed wafer testing and 3D IC communication. A prototype chip is presented to achieve 2 Gbps on silicon using a typical 0.18 £gm 1P6M CMOS process. The chip area is 1045 ¡Ñ 894 £gm2. Besides, it only costs 21.47 mW in terms of power consumption. This capacitive coupling technique for high-speed digital circuit has great potential in the coming future. bidirectional communication capacitive coupling multiple modes SCS high-speed data transceiver ASK demodulator
6	Testování vysokorychlostního nástroje pro překlad IP adres / Testing of high-speed tool for network address translation Vrána, Roman January 2016 (has links) This master thesis presents a topic of testing network address translation. It describes basic principles of network address translation and general methods for testing network devices. These methods are then applied on NAT devices. Thesis then introduces a design of a framework for performing functional tests. The designed framework is then implemented as a part of the thesis and used to test a newly developed high-speed NAT application.
7	Nonlinear Estimation and Control with Application to Upstream Processes Asgharzadeh Shishavan, Reza 01 March 2015 (has links) Subsea development and production of hydrocarbons is challenging due to remote andharsh conditions. Recent technology development with high speed communication to subsea anddownhole equipment has created a new opportunity to both monitor and control abnormal or undesirableevents with a proactive and preventative approach rather than a reactive approach. Twospecific technology developments are high speed, long-distance fiber optic sensing for productionand completion systems and wired pipe for drilling communications. Both of these communicationsystems offer unprecedented high speed and accurate sensing of equipment and processes that aresusceptible to uncontrolled well situations, leaks, issues with flow assurance, structural integrity,and platform stability, as well as other critical monitoring and control issues. The scope of thisdissertation is to design monitoring and control systems with new theoretical developments andpractical applications. For estimators, a novel `1-norm method is proposed that is less sensitiveto data with outliers, noise, and drift in recovering the true value of unmeasured parameters. Forcontrollers, a similar `1-norm strategy is used to design optimal control strategies that utilize a comprehensivedesign with multivariate control and nonlinear dynamic optimization. A framework forsolving large scale dynamic optimization problems with differential and algebraic equations is detailedfor estimation and control. A first area of application is in fiber optic sensing and automationfor subsea equipment. A post-installable fiber optic clamp is used to transmit structural informationfor a tension leg platform. A proposed controller automatically performs ballast operationsthat both stabilize the floating structure and minimize fatigue damage to the tendons that hold thestructure in place. A second area of application is with managed pressure drilling with movinghorizon estimation and nonlinear model predictive control. The purpose of this application is tomaximize rate of drilling penetration, maintain pressure in the borehole, respond to unexpected gasinflux, detect cuttings loading and pack-off, and better manage abnormal events with the drillingprocess through automation. The benefit of high speed data accessibility is quantified as well asthe potential benefit from a combined control strategy versus separate controllers. high speed data managed pressure drilling nonlinear model predictive control online estimation and control subsea flow assurance subsea structural monitoring Chemical Engineering
8	Adaptive optical interconnects: The ADDAPT project Henker, Ronny, Pliva, Jan, Khafaji, Mahdi, Ellinger, Frank, Toifl, Thomas, Offrein, Bert, Cevrero, Alessandro, Oezkaya, Ilter, Seifried, Marc, Ledentsov, Nikolay, Kropp, Joerg-R., Shchukin, Vitaly, Zoldak, Martin, Halmo, Leos, Turkiewicz, Jaroslaw, Meredith, Wyn, Eddie, Iain, Georgiades, Michael, Charalambides, Savvas, Duis, Jeroen, van Leeuwen, Pieter 05 August 2019 (has links) Existing optical networks are driven by dynamic user and application demands but operate statically at their maximum performance. Thus, optical links do not offer much adaptability and are not very energy-effcient. In this paper a novel approach of implementing performance and power adaptivity from system down to optical device, electrical circuit and transistor level is proposed. Depending on the actual data load, the number of activated link paths and individual device parameters like bandwidth, clock rate, modulation format and gain are adapted to enable lowering the components supply power. This enables exible energy-efficient optical transmission links which pave the way for massive reductions of CO2 emission and operating costs in data center and high performance computing applications. Within the FP7 research project Adaptive Data and Power Aware Transceivers for Optical Communications (ADDAPT) dynamic high-speed energy-efficent transceiver subsystems are developed for short-range optical interconnects taking up new adaptive technologies and methods. The research of eight partners from industry, research and education spanning seven European countries includes the investigation of several adaptive control types and algorithms, the development of a full transceiver system, the design and fabrication of optical components and integrated circuits as well as the development of high-speed, low-loss packaging solutions. This paper describes and discusses the idea of ADDAPT and provides an overview about the latest research results in this field. info:eu-repo/classification/ddc/620 ddc:620
9	An Analysis of Wireless High-speed Data Services for Cellular CDMA Systems Chan, Kwong Hang Kevin January 2002 (has links) The interest in the development of wireless high-speed data services is in response to the strong market demand for high-speed wireless Internet access. Current standards aim at delivering a peak data rate greater than 2Mbps on the forward link. Since data services and voice services are fundamentally different, new concepts were introduced in the design of the forward data channel. In addition, methods of evaluating the performance of a cellular CDMA system have to be revisited. This thesis proposes a method which can be used to find the forward link peak and average data rates, throughput and coverage of a cellular CDMA system which is capable of delivering high-speed wireless data. A summary of changes in design philosophy and recent advances in technologies which enable high-speed wireless data delivery are presented. The proposed method takes into account major aspects commonly found in the forward data channel and applies the generalized Shannon capacity formula for multi-element antenna (MEA) systems. The analysis focuses on the physical layer and is flexible enough to be adapted to various propagation environments, antenna configurations, multicode allocations, user distributions and cell site configurations. Sample numerical results for various multicode allocations are shown using a system model with two-tier interfering cells with one transmit antenna and two receive antennas operating under a frequency selective slow fading channel with propagation environment described by the Recommendation ITU-R M. 1225 indoor office, outdoor to indoor and pedestrian and vehicular test environments. Different transmit / receive antenna configurations and multicode allocations and their impact on the average data rate is also explored. Electrical & Computer Engineering wireless high-speed data CDMA 1xEV cdma2000 capacity throughput coverage peak data rate average data rate MEA MIMO MISO SIMO Shannon capacity transmit diversity receive diversity multicode multirate
10	An Analysis of Wireless High-speed Data Services for Cellular CDMA Systems Chan, Kwong Hang Kevin January 2002 (has links) The interest in the development of wireless high-speed data services is in response to the strong market demand for high-speed wireless Internet access. Current standards aim at delivering a peak data rate greater than 2Mbps on the forward link. Since data services and voice services are fundamentally different, new concepts were introduced in the design of the forward data channel. In addition, methods of evaluating the performance of a cellular CDMA system have to be revisited. This thesis proposes a method which can be used to find the forward link peak and average data rates, throughput and coverage of a cellular CDMA system which is capable of delivering high-speed wireless data. A summary of changes in design philosophy and recent advances in technologies which enable high-speed wireless data delivery are presented. The proposed method takes into account major aspects commonly found in the forward data channel and applies the generalized Shannon capacity formula for multi-element antenna (MEA) systems. The analysis focuses on the physical layer and is flexible enough to be adapted to various propagation environments, antenna configurations, multicode allocations, user distributions and cell site configurations. Sample numerical results for various multicode allocations are shown using a system model with two-tier interfering cells with one transmit antenna and two receive antennas operating under a frequency selective slow fading channel with propagation environment described by the Recommendation ITU-R M. 1225 indoor office, outdoor to indoor and pedestrian and vehicular test environments. Different transmit / receive antenna configurations and multicode allocations and their impact on the average data rate is also explored. Electrical & Computer Engineering wireless high-speed data CDMA 1xEV cdma2000 capacity throughput coverage peak data rate average data rate MEA MIMO MISO SIMO Shannon capacity transmit diversity receive diversity multicode multirate

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