Effective use of microcomputers can greatly aid professional city planners and managers in the exacting duties they perform. Microcomputers are a low-cost, high-powered means of mechanizing both routine and sophisticated analytical operations. This text demonstrates how to incorporate microcomputer technology in a range of city planning problems and situations. The authors link a variety of methods and applications to concrete examples and exercises. Their hands-on approach is designed specifically for professional planners and managers in both the public and private sectors. It covers everything from inserting a floppy disk into the processing unit to producing typed copy of results from predictive modeling and forecasting future trends.

The study begins with a basic introduction to the technical jargon associated with PCs and an explanation of the Input-Process-Output cycles. A series of chapters follow, explaining specific software packages and their functions and operations. Specific applications using spreadsheets, graphics, and database management schemes are extremely useful. Further chapters introduce graphics and database systems. The book's learn-by-example format will prove extremely useful to time-pressed practitioners and students in city planning and management, as well as students preparing to enter the field.

There is no field of medicine in which advances in therapy have been so closely linked to a better understanding of molecular medicine than in the area of hematologic malignancies. For example, recent insights into the understanding of Epstein-Barr virus have led to new treatment options for patients with posttransplant lymphoproliferative disorders, as discussed in the chapter by Dr. Richard Ambinder et al. Similarly, Drs. Slack and Gallagher discuss the explosion of recent information regarding the molecular pathogenesis of acute promyelocytic leukemia. This particular morphologic subtype of acute my- eloid leukemia warrants separate discussion because of our increased under- standing of the pathogenesis of leukemia, as well as the dramatic advances in outcome that have occurred with differentiation therapy provided by the vitamin A derivative aW-trans retinoic acid, as discussed in the chapter by Drs. Frankel and Powell. New approaches in the therapy of diffuse aggressive lymphomas in relationship to prognostic factors are discussed by Drs. Koc and Schenkein. Novel approaches to cutaneous T-cell lymphomas are discussed by Drs. Foss and Kuzel. Drs. Fonseca and Greipp discuss prognostic factors in myeloma, which are potentially important since they may serve to identify patients who may benefit from aggressive therapy such as bone marrow trans- plantation, which is discussed in the chapter by Dr. David Vesole. State-of-the-art reviews are provided in the chapters on AIDS-related non- Hodgkin's lymphoma by Drs. Volm and Von Roenn, adult acute lympho- blastic leukemia by Drs.

Introduction to Modeling and Simulation with MATLAB and Python is intended for students and professionals in science, social science, and engineering that wish to learn the principles of computer modeling, as well as basic programming skills. The book content focuses on meeting a set of basic modeling and simulation competencies that were developed as part of several National Science Foundation grants. Even though computer science students are much more expert programmers, they are not often given the opportunity to see how those skills are being applied to solve complex science and engineering problems and may also not be aware of the libraries used by scientists to create those models. The book interleaves chapters on modeling concepts and related exercises with programming concepts and exercises. The authors start with an introduction to modeling and its importance to current practices in the sciences and engineering. They introduce each of the programming environments and the syntax used to represent variables and compute mathematical equations and functions. As students gain more programming expertise, the authors return to modeling concepts, providing starting code for a variety of exercises where students add additional code to solve the problem and provide an analysis of the outcomes. In this way, the book builds both modeling and programming expertise with a "just-in-time" approach so that by the end of the book, students can take on relatively simple modeling example on their own. Each chapter is supplemented with references to additional reading, tutorials, and exercises that guide students to additional help and allows them to practice both their programming and analytical modeling skills. In addition, each of the programming related chapters is divided into two parts - one for MATLAB and one for Python. In these chapters, the authors also refer to additional online tutorials that students can use if they are having difficulty with any of the topics. The book culminates with a set of final project exercise suggestions that incorporate both the modeling and programming skills provided in the rest of the volume. Those projects could be undertaken by individuals or small groups of students. The companion website at http://www.intromodeling.com provides updates to instructions when there are substantial changes in software versions, as well as electronic copies of exercises and the related code. The website also offers a space where people can suggest additional projects they are willing to share as well as comments on the existing projects and exercises throughout the book. Solutions and lecture notes will also be available for qualifying instructors.

There is no field of medicine in which advances in therapy have been so closely linked to a better understanding of molecular medicine than in the area of hematologic malignancies. For example, recent insights into the understanding of Epstein-Barr virus have led to new treatment options for patients with posttransplant lymphoproliferative disorders, as discussed in the chapter by Dr. Richard Ambinder et al. Similarly, Drs. Slack and Gallagher discuss the explosion of recent information regarding the molecular pathogenesis of acute promyelocytic leukemia. This particular morphologic subtype of acute my- eloid leukemia warrants separate discussion because of our increased under- standing of the pathogenesis of leukemia, as well as the dramatic advances in outcome that have occurred with differentiation therapy provided by the vitamin A derivative aW-trans retinoic acid, as discussed in the chapter by Drs. Frankel and Powell. New approaches in the therapy of diffuse aggressive lymphomas in relationship to prognostic factors are discussed by Drs. Koc and Schenkein. Novel approaches to cutaneous T-cell lymphomas are discussed by Drs. Foss and Kuzel. Drs. Fonseca and Greipp discuss prognostic factors in myeloma, which are potentially important since they may serve to identify patients who may benefit from aggressive therapy such as bone marrow trans- plantation, which is discussed in the chapter by Dr. David Vesole. State-of-the-art reviews are provided in the chapters on AIDS-related non- Hodgkin's lymphoma by Drs. Volm and Von Roenn, adult acute lympho- blastic leukemia by Drs.

The purpose behind Computer Models in Environmental Planning is to provide a practical and applied guide to the use of these models in environmental planning and environmental impact analysis. Models concerning water quality, air quality, stormwater runoff, land capabil ity evaluationfland information systems, and hazardous waste dis posal are reviewed and critiqued. I have tried to emphasize the practical problems with data, computer capabilities, and other analyt ical questions that must be faced by the practitioner attempting to use these models. Thus, I do not delve too deeply into the theoretical underpinnings of the models, referring the reader instead to specialized references in this area. For each environmental area, I review the major models and methods, comparing their assumptions, ease of use, and other characteristics. Practical examples illustrate the benefits and problems of using each model. Computer models are increasingly being used by planning and engineering professionals for locating and planning public works, and industrial, commercial, and residential projects, while evaluating their environmental impacts. The requirements of the National Environ mental Policy Act and related state laws as well as separate state and federal laws concerning air and water quality, stormwater runoff, land use, and hazardous waste disposal have made the use of these methods mandatory in many circumstances. Yet, explanations of both the benefits and problems associated with supposedly easy-to-use com puter versions of these models and methods remain, at best, difficult to retrieve and, at worst, incomplete."

Introduction to Modeling and Simulation with MATLAB and Python is intended for students and professionals in science, social science, and engineering that wish to learn the principles of computer modeling, as well as basic programming skills. The book content focuses on meeting a set of basic modeling and simulation competencies that were developed as part of several National Science Foundation grants. Even though computer science students are much more expert programmers, they are not often given the opportunity to see how those skills are being applied to solve complex science and engineering problems and may also not be aware of the libraries used by scientists to create those models. The book interleaves chapters on modeling concepts and related exercises with programming concepts and exercises. The authors start with an introduction to modeling and its importance to current practices in the sciences and engineering. They introduce each of the programming environments and the syntax used to represent variables and compute mathematical equations and functions. As students gain more programming expertise, the authors return to modeling concepts, providing starting code for a variety of exercises where students add additional code to solve the problem and provide an analysis of the outcomes. In this way, the book builds both modeling and programming expertise with a "just-in-time" approach so that by the end of the book, students can take on relatively simple modeling example on their own. Each chapter is supplemented with references to additional reading, tutorials, and exercises that guide students to additional help and allows them to practice both their programming and analytical modeling skills. In addition, each of the programming related chapters is divided into two parts - one for MATLAB and one for Python. In these chapters, the authors also refer to additional online tutorials that students can use if they are having difficulty with any of the topics. The book culminates with a set of final project exercise suggestions that incorporate both the modeling and programming skills provided in the rest of the volume. Those projects could be undertaken by individuals or small groups of students. The companion website at http://www.intromodeling.com provides updates to instructions when there are substantial changes in software versions, as well as electronic copies of exercises and the related code. The website also offers a space where people can suggest additional projects they are willing to share as well as comments on the existing projects and exercises throughout the book. Solutions and lecture notes will also be available for qualifying instructors.

All unsuccessful revolutions are the same, but each successful one is different in its own distinctive way. The reason why revolutions occur is that new forces attain increasing significance and classic institutions are incapable of accomodating these forces. Such has been the pattern of events in the English, American and French revolutions. These successful revolutions produced a new dynamic and new perspectives. One English revolutionary put this succinctly: "Let us be doing, but let us be united in doing." This book sets out what is a revolution in. the perspectives of diagnostic imaging of the kidney and urinary tract. Forces which have brought about this revolution are the advent of reliable techniques in radioisotope studies, ultrasonics and computerized tomographic (CT) scanning. This last modality carries with it specific problems for routine paediatric work and its role in the study of kidney and urinary tract problems is discrete and circumscribed. However, in conjunction with classic radiology, each of these techniques yields information of a different type and so a synthesis of data accrues.

Kessinger Publishing is the place to find hundreds of thousands of rare and hard-to-find books with something of interest for everyone!

This is a new release of the original 1947 edition.

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This scarce antiquarian book is a facsimile reprint of the original. Due to its age, it may contain imperfections such as marks, notations, marginalia and flawed pages. Because we believe this work is culturally important, we have made it available as part of our commitment for protecting, preserving, and promoting the world's literature in affordable, high quality, modern editions that are true to the original work.

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The AMAZING COLOSSAL WORLDS OF MR. B.I.G.... the autobiography of BERT I. GORDON, producer, director, writer of films that transferred visions to the silver screens across America and the world of giant monsters, big kids, huge bugs, tiny puppet people, fantasy worlds, ghosts, pirates, and more.

According to the Alzheimer's Association, one in ten persons over sixty-five and nearly half of those over eighty-five have Alzheimer's disease. Today, 4 million Americans have Alzheimer's disease. In a national survey, 19 million Americans said they have a family member with the ailment, and 37 million said they knew someone who had it. But when Rosette Teitel found herself in the role of caregiver to her ailing husband, she could find no books that answered her practical needs: How do you give a 170-pound man a shower? How do you pick him up when he falls? What should you anticipate as the disease progresses? What support networks are available? When is it time to consider a nursing home and how do you find one?

While many Alzheimer's disease books focus on the disease and the patient, Teitel draws on her own experience -- as well as that of a clinical psychologist, a coordinator of an Alzheimer's program at a community center, members of the Alzheimer's Foundation, a research psychologist, an elder-law attorney, and a neurologist -- to tackle subjects rarely dealt with in other self-help books. Teitel covers topics such as managing the expenses of long-term care through Medicaid, estate planning, and preparing for the patient's death and the loss of someone whose daily survival has been at the center of one's existence. The chapters deal with background information on diagnosis, treatment, and the progression of the disease; the physical and emotional changes and resources involved with the day-to-day caregiving; support networks; nursing homes; finances; death of the patient; grief, mourning, and life after the patient's death; and interviews with children caring for parents withAlzheimer's disease. In addition, Teitel provides a helpful list of frequently asked questions, scheduling and memory aids, and websites where readers can find resources.