dlib是什么?

dlib C++ Libraryicon-default.png?t=N7T8http://dlib.net/

dlib是什么?

Dlib is a modern C++ toolkit containing machine learning algorithms and tools for creating complex software in C++ to solve real world problems. It is used in both industry and academia in a wide range of domains including robotics, embedded devices, mobile phones, and large high performance computing environments. Dlib's open source licensing allows you to use it in any application, free of charge.

Dlib是一个现代C++工具包,包含机器学习算法和工具,用于在C++中创建复杂的软件来解决现实世界中的问题。它在工业和学术界广泛应用,包括机器人、嵌入式设备、移动电话和大型高性能计算环境。Dlib的开源许可允许您在任何应用程序中免费使用它。

Major Features(主要特征)

  • Documentation(文档)
    • Unlike a lot of open source projects, this one provides complete and precise documentation for every class and function. There are also debugging modes that check the documented preconditions for functions. When this is enabled it will catch the vast majority of bugs caused by calling functions incorrectly or using objects in an incorrect manner.
    • Lots of example programs are provided
    • I consider the documentation to be the most important part of the library. So if you find anything that isn't documented, isn't clear, or has out of date documentation, tell me and I will fix it.
  • High Quality Portable Code(高质量可移植代码)
    • Good unit test coverage. The ratio of unit test lines of code to library lines of code is about 1 to 4.
    • The library is tested regularly on MS Windows, Linux, and Mac OS X systems. However, it should work on any POSIX system and has been used on Solaris, HPUX, and the BSDs.
    • No other packages are required to use the library. Only APIs that are provided by an out of the box OS are needed.
    • There is no installation or configure step needed before you can use the library. See the How to compile page for details.
    • All operating system specific code is isolated inside the OS abstraction layers which are kept as small as possible. The rest of the library is either layered on top of the OS abstraction layers or is pure ISO standard C++.
  • Machine Learning Algorithms(机器学习算法)
    • Deep Learning
    • Conventional SMO based Support Vector Machines for classification and regression
    • Reduced-rank methods for large-scale classification and regression
    • Relevance vector machines for classification and regression
    • General purpose multiclass classification tools
    • A Multiclass SVM
    • A tool for solving the optimization problem associated with structural support vector machines.
    • Structural SVM tools for sequence labeling
    • Structural SVM tools for solving assignment problems
    • Structural SVM tools for object detection in images as well as more powerful (but slower) deep learning tools for object detection.
    • Structural SVM tools for labeling nodes in graphs
    • A large-scale SVM-Rank implementation
    • An online kernel RLS regression algorithm
    • An online SVM classification algorithm
    • Semidefinite Metric Learning
    • An online kernelized centroid estimator/novelty detector and offline support vector one-class classification
    • Clustering algorithms: linear or kernel k-means, Chinese Whispers, and Newman clustering.
    • Radial Basis Function Networks
    • Multi layer perceptrons
  • Numerical Algorithms(数值算法)
    • A fast matrix object implemented using the expression templates technique and capable of using BLAS and LAPACK libraries when available.
    • Numerous linear algebra and mathematical operations are defined for the matrix object such as the singular value decomposition, transpose, trig functions, etc.
    • General purpose unconstrained non-linear optimization algorithms using the conjugate gradient, BFGS, and L-BFGS techniques
    • Levenberg-Marquardt for solving non-linear least squares problems
    • Box-constrained derivative-free optimization via the BOBYQA algorithm
    • An implementation of the Optimized Cutting Plane Algorithm
    • Several quadratic program solvers
    • Combinatorial optimization tools for solving optimal assignment and min cut/max flow problems as well as the CKY algorithm for finding the most probable parse tree
    • A big integer object
    • A random number object
  • Graphical Model Inference Algorithms(图形模型推理算法)
    • Join tree algorithm for exact inference in a Bayesian network.
    • Gibbs sampler markov chain monte carlo algorithm for approximate inference in a Bayesian network.
    • Routines for performing MAP inference in chain-structured, Potts, or general factor graphs.
  • Image Processing(图像处理)
    • Routines for reading and writing common image formats.
    • Automatic color space conversion between various pixel types
    • Common image operations such as edge finding and morphological operations
    • Implementations of the SURF, HOG, and FHOG feature extraction algorithms.
    • Tools for detecting objects in images including frontal face detection and object pose estimation.
    • High quality face recognition
  • Threading(线程)
    • The library provides a portable and simple threading API
    • A message passing pipe for inter-thread and inter-process communication
    • A timer object capable of generating events that are regularly spaced in time
    • Threaded objects
    • Threaded functions
    • Parallel for loops
    • A thread_pool with support for futures
  • Networking(网络)
    • The library provides a portable and simple TCP sockets API
    • An object to help you make TCP based servers
    • iostream and streambuf objects that enables TCP sockets to interoperate with the C++ iostreams library
    • A simple HTTP server object you can use to embed a web server into your applications
    • A message passing pipe for inter-thread and inter-process communication
    • A tool used to implement algorithms using the Bulk Synchronous Parallel (BSP) computing model
  • Graphical User Interfaces(GUI接口)
    • The library provides a portable and simple core GUI API
    • Implemented on top of the core GUI API are numerous widgets
    • Unlike many other GUI toolkits, the entire dlib GUI toolkit is threadsafe
  • Data Compression and Integrity Algorithms(数据压缩和完整性算法)
    • A CRC 32 object
    • MD5 functions
    • Various abstracted objects representing parts of data compression algorithms. Many forms of the PPM algorithm are included.
  • Testing(测试)
    • A thread safe logger object styled after the popular Java logger log4j
    • A modular unit testing framework
    • Various assert macros useful for testing preconditions
  • General Utilities(通用应用程序)
    • A type-safe object to convert between big and little endian byte orderings
    • A command line parser with the ability to parse and validate command lines with various types of arguments and options
    • An XML parser
    • An object that can perform base64 conversions
    • Many container classes
    • Serialization support
    • Many memory manager objects that implement different memory pooling strategies
    • A tool that lets you easily call C++ from MATLAB

 

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