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200 00$a48-Volt Developments /$fedited by Kevin Jost
210  1$aWarrendale, Pa. (400 Commonwealth Dr., Wallendale PA USA) :$cSociety of Automotive Engineers,$d2016.
210  2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2015]
215   $a1 online resource (127 pages) $cillustrations
225 1 $aSociety of Automotive Engineers. Electronic publications.
311   $a0-7680-8192-0 
320   $aIncludes bibliographical references.
327   $aIntroduction -- Chapter 1. Fuel consumption and emissions effects in passenger car diesel engines through the use of a belt starter generator -- Chapter 2. Requirements and protection within a 48V automotive wiring system -- Chapter 3. Mixed voltages and aluminum conductors: assessing new electrical technologies -- Chapter 4. Hybrid cars setting new challenges for optimized power semiconductors -- Chapter 5. Specification and design of a switched reluctance 48V belt integrated starter generator (B-ISG) for mild hybrid passenger car applications -- Chapter 6. Optimizing lithium-ion batteries; tailoring electrodes for microhybrid vehicle applications -- Chapter 7. Application of 48 Volt for mild hybrid vehicles and high power loads -- Chapter 8. Advantages for a 48 volt belt starter generator in an ultra-light vehicle powertrain.
330   $aDevelopment of higher-voltage electrical systems in vehicles has been slowly progressing over the past few decades. However, tightening vehicle efficiency and emissions regulations and increasing demand for onboard electrical power means that higher voltages, in the form of supplemental 48 V subsystems, may soon be nearing production as the most cost-effective way to meet regulations. The displacement of high-wattage loads to more efficient 48 V networks is expected to be the next step in the development of a new generation of mild hybrid vehicles. 
410  0$aSociety of Automotive Engineers. Electronic publications.
606   $aAutomobiles$xElectric equipment
606   $aAutomobiles$xElectric generators
606   $aHybrid electric vehicles$xElectric generators
615  0$aAutomobiles$xElectric equipment.
615  0$aAutomobiles$xElectric generators.
615  0$aHybrid electric vehicles$xElectric generators.
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260   $aBerlin ; New York :$bW. de Gruyter,$c1987-1988
300   $a2 v. ;$c28 cm.
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200 00$aAdaptive motion compensation in radiotherapy /$fedited by Martin J. Murphy
210  1$aBoca Raton, Fla. :$cCRC Press,$d2012.
215   $a1 online resource (163 p.)
225 1 $aImaging in medical diagnosis and therapy
300   $aA Taylor & Francis book.
311   $a1-4398-2193-3 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Contents; Series Preface; Preface; About the Editor; List of Contributors; Introduction; 1. Real-Time Tumor Localization; 2. Theoretical Aspects of Target Detection and Tracking; 3. Respiratory Gating; 4. The CyberKnife® Image-Guided Radiosurgery System; 5. Fundamentals of Tracking with a Linac Multileaf Collimator; 6. Couch-Based Target Alignment; 7. Robotic LINAC Tracking Based on Correlation and Prediction; 8. Treatment Planning for Motion Adaptation in Radiation Therapy; 9. Treatment Planning for Motion Management via DMLC Tracking
327   $a10. Real-Time Motion Adaptation in Tomotherapy® Using a Binary MLC11. Combination of a LINAC with 1.5 T MRI for Real-Time Image Guided Radiotherapy; 12. The ViewRayTM System; 13. Fault Detection in Image-Based Tracking
330   $aPreface External-beam radiotherapy has long been vexed by the simple fact that patients can (and do) move during the delivery of radiation. The most elegant and forward-looking solution to this reality is to actively adapt the radiation delivery process to the patient's natural movements. Recent advances in imaging and beam delivery technologies have now made this solution a practical reality. The purpose of this book is to present to researchers and clinical practitioners in radiation therapy an overview of the current and prospective state of the art in motion-adaptive radiation therapy. It presents technical reviews of each of the contributing elements of a motion-adaptive system (including target detection and tracking, beam adaptation, and patient realignment), discusses treatment planning issues that arise when the patient and internal target are mobile, describes several integrated motion-adaptive systems that are in clinical use or at advanced stages of development, and concludes with a review of the system control functions that must be an essential part of any therapy device that operates in a near-autonomous manner with limited human interaction. From these chapters, the reader will hopefully gain not only an understanding of the technical aspects and capabilities of motion adaptation but also practical clinical insights into planning and carrying out various types of motion-adaptive radiotherapy treatment--Provided by publisher.
410  0$aImaging in medical diagnosis and therapy.
606   $aImage-guided radiation therapy
606   $aRadiotherapy$xData processing
615  0$aImage-guided radiation therapy.
615  0$aRadiotherapy$xData processing.
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