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Psychopathy is a very important concept for those working in the
field of criminal justice - investigators, prosecutors, and those
who have to evaluate, manage and treat offenders. In Psychopathy:
Theory, Research and Implications for Society, detailed,
empirically based contributions by the world's leading researchers
describe the relevance of the construct to practical and policy
issues, examining its relevance to such topics as treatment, risk
management and recidivism. The use of the concept in a range of
populations is discussed, including juveniles, children, and the
mentally disordered, as well as across cultures. The major strength
of the volume is that the validity of the psychopathy construct is
enhanced by the extensive empirical support: contributors explore
topics including the genetic, biological, affective, interpersonal
and information processing models that underpin the disorder.
Audience: All those dealing with offenders - psychologists,
psychiatrists, lawyers, judges, prison administrators and those who
formulate policy in the criminal justice system.
Defines the notion of an activity model learned from sensor data
and presents key algorithms that form the core of the field
Activity Learning: Discovering, Recognizing and Predicting Human
Behavior from Sensor Data provides an in-depth look at
computational approaches to activity learning from sensor data.
Each chapter is constructed to provide practical, step-by-step
information on how to analyze and process sensor data. The book
discusses techniques for activity learning that include the
following: * Discovering activity patterns that emerge from
behavior-based sensor data * Recognizing occurrences of predefined
or discovered activities in real time * Predicting the occurrences
of activities The techniques covered can be applied to numerous
fields, including security, telecommunications, healthcare, smart
grids, and home automation. An online companion site enables
readers to experiment with the techniques described in the book,
and to adapt or enhance the techniques for their own use. With an
emphasis on computational approaches, Activity Learning:
Discovering, Recognizing, and Predicting Human Behavior from Sensor
Data provides graduate students and researchers with an algorithmic
perspective to activity learning.
Psychopathy is a very important concept for those working in the
field of criminal justice - investigators, prosecutors, and those
who have to evaluate, manage and treat offenders. In Psychopathy:
Theory, Research and Implications for Society, detailed,
empirically based contributions by the world's leading researchers
describe the relevance of the construct to practical and policy
issues, examining its relevance to such topics as treatment, risk
management and recidivism. The use of the concept in a range of
populations is discussed, including juveniles, children, and the
mentally disordered, as well as across cultures. The major strength
of the volume is that the validity of the psychopathy construct is
enhanced by the extensive empirical support: contributors explore
topics including the genetic, biological, affective, interpersonal
and information processing models that underpin the disorder.
Audience: All those dealing with offenders - psychologists,
psychiatrists, lawyers, judges, prison administrators and those who
formulate policy in the criminal justice system.
This text takes a focused and comprehensive look at mining data
represented as a graph, with the latest findings and applications
in both theory and practice provided. Even if you have minimal
background in analyzing graph data, with this book you'll be able
to represent data as graphs, extract patterns and concepts from the
data, and apply the methodologies presented in the text to real
datasets.
There is a misprint with the link to the accompanying Web page
for this book. For those readers who would like to experiment with
the techniques found in this book or test their own ideas on graph
data, the Web page for the book should be http:
//www.eecs.wsu.edu/MGD.
This third edition of the popular Cellular Pathology textbook
provides a thorough coverage of all the key areas of histological
and cytological techniques. It is written for students studying
courses in biomedical sciences, healthcare science or other
subjects allied to medicine. The book provides essential
information on those techniques that have particular relevance to
both the diagnosis of disease and also for research in pathology.
This 3rd edition has been thoroughly updated and extended to:
include changes in established practice accommodate newly emerging
techniques such as in molecular diagnostics provide an introduction
to the latest immunological methods, microscopy techniques, image
analysis systems and approaches in liquid-based cytology show all
images in full colour. Additionally, the general principles of
pathology are given a more rigorous treatment and the approach to
good laboratory practice has been expanded. This edition continues
to feature learning objectives, revision notes, recommended further
reading and self-evaluation questions, all of which really help the
student to understand the subject. The book further benefits from
an increased number of photographs that illustrate typical results
and techniques - all in full colour. Cellular Pathology 3e reflects
the current requirements of cellular pathology teaching and
practice and provides essential reading for any course that relates
to cellular pathology, histology and histopathology.
The Making of the Modern Law: Legal Treatises, 1800-1926 includes
over 20,000 analytical, theoretical and practical works on American
and British Law. It includes the writings of major legal theorists,
including Sir Edward Coke, Sir William Blackstone, James Fitzjames
Stephen, Frederic William Maitland, John Marshall, Joseph Story,
Oliver Wendell Holmes, Jr. and Roscoe Pound, among others. Legal
Treatises includes casebooks, local practice manuals, form books,
works for lay readers, pamphlets, letters, speeches and other works
of the most influential writers of their time. It is of great value
to researchers of domestic and international law, government and
politics, legal history, business and economics, criminology and
much more.++++The below data was compiled from various
identification fields in the bibliographic record of this title.
This data is provided as an additional tool in helping to insure
edition identification: ++++Harvard Law School
Libraryocm21087053Denver Colo.]: W.F. Robinson Printing Co, 1897.
442 p.: ill., ports.; 24 cm.
This textbook is an introduction to the design and writing of
computer programs. It leads the reader through all the stages of
program construction from the original specifications through to
the final program. The formal verification of intermediate versions
of the program is studied in considerable detail. The authors show
how, given the formal specification of a program, data structure
and program structure diagrams are drawn and then converted into a
procedural program in a program design language (PDL). They
demonstrate the conversion of PDL into a variety of real
programming languages including Pascal, FORTRAN, COBOL, and
Assembler. The book also includes chapters on abstract data types,
analysing existing programs, and a small case study. First-year
undergraduates in computer science and graduates taking courses in
computing will find this a comprehensive introduction to program
construction.
Computing is an exact science and the systematic study of any
aspect necessarily involves the use of mathematical models.
Moreover, the rate at which the subject is evolving demands a
facility for developing new mathematical systems to keep pace with
new computing systems and this requires an appreciation of how
mathematics works. An understanding of the underlying mathematical
structure facilitates the construction of suitable computer
programs to perform computations. Assuming no specific knowledge of
mathematics, the authors describe all the basic concepts required
and progress from sets (rather than numbers) through a variety of
algebraic structures that permit the precise description,
specification and subsequent analysis of many problems in
computing. The material included provides the essential
mathematical foundations for core topics of computer science and
extends into the areas of language theory, abstract machine theory
and computer geometry. Computer Mathematics will be of interest to
undergraduate students of computer science and mathematics,
post-graduate computing 'conversion' course students and computer
professionals who need an introduction to the mathematics that
underpins computer science theory.
This textbook is an introduction to the design and writing of
computer programs. It leads the reader through all the stages of
program construction from the original specifications through to
the final program. The formal verification of intermediate versions
of the program is studied in considerable detail. The authors show
how, given the formal specification of a program, data structure
and program structure diagrams are drawn and then converted into a
procedural program in a program design language (PDL). They
demonstrate the conversion of PDL into a variety of real
programming languages including Pascal, FORTRAN, COBOL, and
Assembler. The book also includes chapters on abstract data types,
analysing existing programs, and a small case study. First-year
undergraduates in computer science and graduates taking courses in
computing will find this a comprehensive introduction to program
construction.
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