3,530 research outputs found

    Voice Compression and Communications: Principles and Applications for Fixes and Wireless Channels

    No full text
    Up-to-date, expert coverage of topics in wireless voice communications Voice communication is the most important facet of mobile radio service. Even when the predicted surge of wireless data and Internet services becomes a reality, voice will remain the most natural means of human communication. Voice Compression and Communications details issues in wireless voice communications and treats compression, channel coding, and wireless transmission as a joint subject. Part I covers background material, whereas Part II provides detailed information on both proprietary and standardized analysis-by-synthesis codecs, including the speech codecs of virtually all existing wireline-based and wireless systems. Parts III and IV discuss mainly research-based wideband, audio, as well as very low-rate schemes likely to find their way into future standards. Voice Compression and Communications describes fundamental concepts in a non-mathematical way early in the book for those with only a background knowledge of signal processing and communications. More advanced readers will find detailed discussions of theoretical principles, future concepts, and solutions to various specific wireless voice communications problems

    Frosh-Soph Hop, February 6, 1937

    No full text
    The Frosh-Soph Hop of Gettysburg College took place on February 6, 1937 in Eddie Plank Memorial Gymnasium with dancing from 8-12pm. Music was provided by Dick Stabile and his orchestra. The committee included T. Norley (Chairman), J.P. Echternach, N.R. Little, E. Allen, and D. Boland

    Radio resource allocation in relay based OFDMA cellular networks

    No full text
    PhDAdding relay stations (RS) between the base station (BS) and the mobile stations (MS) in a cellular system can extend network coverage, overcome multi-path fading and increase the capacity of the system. This thesis considers the radio resource allocation scheme in relay based cellular networks to ensure high-speed and reliable communication. The goal of this research is to investigate user fairness, system throughput and power consumption in wireless relay networks through considering how best to manage the radio resource. This thesis proposes a two-hop proportional fairness (THPF) scheduling scheme fair allocation, which is considered both in the first time subslot between direct link users and relay stations, and the second time subslot among relay link users. A load based relay selection algorithm is also proposed for a fair resource allocation. The transmission mode (direct transmission mode or relay transmission mode) of each user will be adjusted based on the load of the transmission node. Power allocation is very important for resource efficiency and system performance improvement and this thesis proposes a two-hop power allocation algorithm for energy efficiency, which adjusts the transmission power of the BS and RSs to make the data rate on the two hop links of one RS match each other. The power allocation problem of multiple cells with inter-cell interference is studied. A new multi-cell power allocation scheme is proposed from non-cooperative game theory; this coordinates the inter-cell interference and operates in a distributed manner. The utility function can be designed for throughput improvement and user fairness respectively. Finally, the proposed algorithms in this thesis are combined, and the system performance is evaluated. The joint radio resource allocation algorithm can achieve a very good tradeoff between throughput and user fairness, and also can significantly improve energy efficiency

    1973-10-25 Morehead State Concert and Lecture Series J.P. Donleavy

    No full text
    Renowned author J.P. Donleavy speaks on the plight of an author and the methods to write, recorded on October 25, 1973

    Entrainment and detrainment rates from the piv measurements at the top of laboratory analogs of stratocumulus and cumulus clouds

    No full text
    We analyze mixing at the top of laboratory analogs of convective clouds: stratocumulus and cumulus to investigate entrainment of environmental air into the cloud. We retrieve two components of air velocity using Particle Image Velocimetry technique. Suitable image processing allows to determine cloud–clear air interface. Using velocity differences between cloudy and clear sides of the interface we calculate entrainment / detrainment rates

    Vortex Dynamics in The Transitional and Turbulent Wake of 6:1 Prolate Spheroid at 45-deg incidence angle

    No full text
    The incompressible flow past a 6:1 prolate spheroid with an inclination angle of 45o at Re = 3,000 has been studied by means of direct numerical simulations (DNS). The Reynolds number is based on the inflow velocity and minor-axis length. The preliminary results presented here are focused mainly on vortex dynamics and vortical structures in the wake. The wake behind this configuration starts almost symmetric but is soon strongly deflected and bent as it evolves to the intermediate wake. A pair of unequal-strength vortices dominates the intermediate wake, of which one exhibits the shape of a long vortex tube while the other rapidly breaks down into turbulent-like vortical structures

    Experimental characterisation of large scale structures in a high Reynolds number turbulent boundary layer

    No full text
    A very large field of view (4δ x 1δ) with a good spatial resolution owing to the use of four 2k x 2k pixel cameras was conducted in a flat plate boundary layer at two Reynolds numbers (Reθ ≈7,500 and 20,000). Comparing the flow statistics with previously obtained hot-wire data under similar flow conditions show good agreement. The goal of this experiment is to detect and characterise the large scale motions which develop in the log region of a high Reynolds number turbulent boundary layer

    Letter from J.P. Bradley to Mr. [William] S. Martin The Dominguez Estate Company, June 28, 1940

    No full text
    Regarding attached payment by Mr. K.L. Schaap settling his account

    PoRAP : an energy aware protocol for cyclic monitoring WSNs

    No full text
    This work starts from the proposition that it is beneficial to conserve communication energy in Wireless Sensor Networks (WSNs). For WSNs there is an added incentive for energy-efficient communication. The power supply of a sensor is often finite and small. Replenishing the power may be impractical and is likely to be costly. Wireless Sensor Networks are an important area of research. Data about the physical environment may be collected from hostile or friendly environments. Data is then transmitted to a destination without the need for communication cables. There are power and resource constraints upon WSNs, in addition WSN networks are often application specific. Different applications will often have different requirements. Further, WSNs are a shared medium system. The features of the MAC (Medium Access Control) protocol together with the application behaviour shape the communication states of the node. As each of these states have different power requirements the MAC protocol impacts upon the operation and power consumption efficiency. This work focuses on the development of an energy conservation protocol for WSNs where direct communication between sources and a base station is feasible. Whilst the multi-hop approach has been regarded as the underlying communication paradigm in WSNs, there are some scenarios where direct communication is applicable and a significant amount of communication energy can be saved. The Power & Reliability Aware Protocol has been developed. Its main objectives are to provide efficient data communication by means of energy conservation without sacrificing required reliability. This has been achieved by using direct communication, adaptive power adaptation and intelligent scheduling. The results of simulations illustrate the significance of communication energy and adaptive transmission. The relationship between Received Signal Strength Indicator (RSSI) and Packet Reception Rate (PRR) metrics is established and used to identify when power adaptation is required. The experimental results demonstrate an optimal region where lower power can be used without further reduction in the PRR. Communication delays depend upon the packet size whilst two-way propagation delay is very small. Accurate scheduling is achieved through monitoring the clock drift. A set of experiments were carried out to study benefits of direct vs. multi-hop communication. Significant transmitting current can be conserved if the direct communication is used. PoRAP is compared to Sensor-MAC (S-MAC), Berkeley-MAC (B-MAC) and Carrier Sense Multiple Access (CSMA). Parameter settings used in the Great Duck Island (GDI) a production habitat monitoring WSNs were applied. PoRAP consumes the least amount of energy

    Optical fibre sensors, past, present and future - a personal view

    No full text
    The field of optical fibre sensors has been an attractive area of research, ever since the mid 1980s, at a time when optical fibre communications technology had already started to find commercial success. The area was of great academic interest because of the wide variety of direct and indirect interactions with these new optical waveguides, both physical and chemical, which were seen to be possible. Much of the early research, mostly by academics who had previously worked in fibre communications, was highly speculative, and initially found very little commercial application. Even then, however, many confidently believed it to have great future potential. The difficulty at that time was that most existing electrical sensors were relatively cheap, and of course this technology was far more mature, whereas the fibre sensor area lacked many of the simple building blocks necessary for simple, reliable and cost-effective production. Many of the early sensors therefore, quite naturally struggled to find a competitive position. Since then, the many years of research has resulted in an increasing variety of available low-cost optical fibre components becoming available and the research on the sensor technology has lead to many truly useful sensors for what are still niche areas, but ones having real commercial potential. As a result, prospects for wider application are becoming better each year. The paper will start in a tutorial manner, by discussing and classifying the types of optical fibre sensors, discuss the care that has to be taken in their design, and will include a few case studies of some of the very early sensors. It will then go on to describe where several types of sensors have found successful application in the last decade. Finally, the author will discuss the areas where he believes they are likely to find increasing commercial success in future. Please note that the paper will present a personal view of the area, by a research scientist/engineer who has worked in the optical fibre sensors field since 1986, initially as an industrial researcher and later returning as an academic, and who is now active as a freelance consultant in the area
    corecore