1,302 research outputs found

    Efficient Storage Management over Cloud Using Data Compression without Losing Searching Capacity

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    Nowadays due to social media, people may communicate with each other, share their thoughts and moments of life in form of texts, images or videos.  We are uploading our private data in terms of photos, videos, and documents on internet websites like Facebook, Whatsapp, Google+ and Youtube etc. In short today world is surrounded with large volume of data in different form. This put a requirement for effective management of these billions of terabytes of electronic data generally called BIG DATA. Handling large data sets is a major challenge for data centers. The only solution for this problem is to add as many hard disk as required. But if the data is kept in unformatted the requirement of hard disk will be very high. Cloud technology in today is becoming popular but efficient storage management for large volume of data on cloud still there is a big question. Many frameworks are available to address this problem. Hadoop is one of them. Hadoop provides an efficient way to store and retrieve large volume of data. But Hadoop is efficient only if the file containing data is large enough. Basically Hadoop uses a big hard disk block to store data. And this makes it inefficient in the area where volume to data is large but individual file is small. To satisfy both challenges to store large volume of data in less space. And to store small unit of file without wasting the space. We require to store data not is usual form but in compressed form so that we can keep the block size small. But if we do so it added one more dimension of problem. Searching the content in a compressed file is very in-efficient. Therefore we require an efficient algorithm which compress the file without disturbing the search capacity of the data center. Here we will provide the way how we can solve these challenges. Keywords:Cloud, Big DATA, Hadoop, Data Compression, MapReduc

    Application of Homotopy Analysis Method for Solving various types of Problems of Ordinary Differential Equations

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    In this paper, various types of linear, non-linear, homogeneous, non homogeneous problems of ordinary differential equations discussed. Also shown that homotopy analysis method applied successfully for solving non homogeneous and non linear equations

    Effect of supervised exercise on physical function and balance in patients with intermittent claudication

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    Background The aim of the study was to identify whether a standard supervised exercise programme (SEP) for patients with intermittent claudication improved specific measures of functional performance including balance. Methods A prospective observational study was performed at a single tertiary vascular centre. Patients with symptomatic intermittent claudication (Rutherford grades 1–3) were recruited to the study. Participants were assessed at baseline (before SEP) and 3, 6 and 12 months afterwards for markers of lower-limb ischaemia (treadmill walking distance and ankle : brachial pressure index), physical function (6-min walk, Timed Up and Go test, and Short Physical Performance Battery (SPPB) score), balance impairment using computerized dynamic posturography with the Sensory Organization Test (SOT), and quality of life (VascuQoL and Short Form 36). Results Fifty-one participants underwent SEP, which significantly improved initial treadmill walking distance (P = 0·001). Enrolment in a SEP also resulted in improvements in physical function as determined by 6-min maximum walking distance (P = 0·006), SPPB score (P < 0·001), and some domains of both generic (bodily pain, P = 0·025) and disease-specific (social domain, P = 0·039) quality of life. Significant improvements were also noted in balance, as determined by the SOT (P < 0·001). Conclusion Supervised exercise improves both physical function and balance impairment

    RaÄŤunanje vrpÄŤaste strukture nelokalnim pseudopotencijalima

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    Energy bands of Rb and Cs have been calculated for the first time using average or effective pseudopotentials obtained from non-local ones. It is shown that the results so obtained compare well to those obtained with full non-local calculations.NaÄŤinili smo prve raÄŤune energijskih vrpci Rb i Cs primjenom prosjeÄŤnog ili efektivnog pseudopotencijala koji smo izveli iz nelokalnih pseudopotencijala. Pokazuje se dobra suglasnost ishoda tih raÄŤuna i raÄŤuna primjenom potpunih nelokalnih pseudopotencijala

    Laproscopic intravesical vesicovaginal fistula repair after removal of an old vaginal drain tube-a rare case

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    The management of vesicovaginal fistula is difficult and challenging We are presenting a rare case of a 24-year-old unmarried girl with history of vaginoplasty and multiple surgeries done in the past, with a vaginal drain tube kept for 12 years and a Vesicovaginal fistula at the bladder trigone. Patient was successfully treated with a laproscopic Intravesical vesicovaginal Fistula repair. As advances in understanding the etiology of VVF have been made, the laproscopic approach has become the gold standard. Laparoscopy allows an excellent view, good exposure of pelvic structures, provides direct access to the fistula and for repair of complex VVF that may not be amenable to vaginal repair

    Measurements of sub-nT dynamic magnetic field shielding with soft iron and mu-metal for use in linear colliders

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    There is an increasing need to shield beams and accelerator elements from stray magnetic fields. The application of magnetic shielding in linear colliders is discussed. The shielding performance of soft iron and mu-metal is measured for magnetic fields of varying amplitude and frequency. Special attention is given to characterise the shielding performance for very small-amplitude magnetic fields

    Measurements and modelling of stray magnetic fields and the simulation of their impact on the Compact Linear Collider at 380 GeV

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    The Compact Linear Collider (CLIC) targets a nanometre beam size at the collision point. Realising this beam size requires the generation and transport of ultra-low emittance beams. Dynamic imperfections can deflect the colliding beams, leading to a collision with a relative offset. They can also degrade the emittance of each beam. Both of these effects can significantly impact the luminosity of CLIC. In this paper, we examine a newly considered dynamic imperfection: stray magnetic fields. Measurements of stray magnetic fields in the Large Hadron Collider tunnel are presented and used to develop a statistical model that can be used to realistically generate stray magnetic fields in simulations. The model is used in integrated simulations of CLIC at 380GeV including mitigation systems for stray magnetic fields to evaluate their impact on luminosity
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