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This brief presents a comprehensive introduction to feature coding,
which serves as a key module for the typical object recognition
pipeline. The text offers a rich blend of theory and practice while
reflects the recent developments on feature coding, covering the
following five aspects: (1) Review the state-of-the-art, analyzing
the motivations and mathematical representations of various feature
coding methods; (2) Explore how various feature coding algorithms
evolve along years; (3) Summarize the main characteristics of
typical feature coding algorithms and categorize them accordingly;
(4) Discuss the applications of feature coding in different visual
tasks, analyze the influence of some key factors in feature coding
with intensive experimental studies; (5) Provide the suggestions of
how to apply different feature coding methods and forecast the
potential directions for future work on the topic. It is suitable
for students, researchers, practitioners interested in object
recognition.
Microcavity Semiconductor Lasers Explore this thorough overview of
integrable microcavity semiconductor lasers and their applications
from two leading voices in the field Attracting a great deal of
attention over the last decades for their promising applications in
photonic integration and optical interconnects, microcavity
semiconductor lasers continue to develop via advances in
fundamental physics, theoretical analysis, and numerical
simulations. In a new work that will be of interest to researchers
and practitioners alike, Microcavity Semiconductor Lasers:
Principles, Design, and Applications delivers an
application-oriented and highly relevant exploration of the theory,
fabrication, and applications of these practical devices. The book
focuses on unidirectional emission microcavity lasers for photonic
integrated circuits, including polygonal microresonators,
microdisk, and microring lasers. After an introductory overview of
optical microcavities for microlasers and detailed information of
the lasers themselves, including mode structure control and
characteristics, and lasing properties, the distinguished authors
discuss fabrication and applications of different microcavity
lasers. Prospects for future research and potential new
applications round out the book. Readers will also benefit from the
inclusion of: A thorough introduction to multilayer optical
waveguides, the FDTD Method, and Pade Approximation, and deformed,
chaos, and unidirectional emission microdisk lasers An exploration
of mode analysis for triangle and square microresonators similar as
FP Cavity Practical discussions of mode analysis and control for
deformed square microlasers An examination of hexagonal microcavity
lasers and polygonal microcavities, along with vertical radiation
loss for 3D microcavities Perfect for laser specialists,
semiconductor physicists, and solid-state physicists, Microcavity
Semiconductor Lasers: Principles, Design, and Applications will
also earn a place in the libraries of materials scientists and
professionals working in the semiconductor and optical industries
seeking a one-stop reference for integrable microcavity
semiconductor lasers.
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