The aim of this article is to show an efficient algorithm of signal processing which will allow one to have a competent system of sound fingerprinting and signal recognition. I'll try to come with some explanations of the article's algorithm, and also speak about how it can be implemented using the C# programming language. Additionally, I'll try to cover topics of digital signal processing that are used in the algorithm, thus you'll be able to get a clearer image of the entire system. And as a proof of concept, I'll show you how to develop a simple WPF MVVM application.
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// Sound Fingerprinting framework
// git://github.com/AddictedCS/soundfingerprinting.git
// Code license: CPOL v.1.02
// ciumac.sergiu@gmail.com
using System;
using System.ComponentModel;
namespace Soundfingerprinting.DuplicatesDetector.Services
{
/// <summary>
/// Interface to be implemented by views
/// </summary>
/// <remarks>
/// The binding between the views and view-models will be performed by a
/// mediator IWindowService which will take care of the abstraction
/// </remarks>
public interface IGenericViewWindow
{
bool? DialogResult { get; set; }
object DataContext { get; set; }
event EventHandler Closed;
event CancelEventHandler Closing;
void Show();
void Close();
}
}
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Interested in computer science, math, research, and everything that relates to innovation. Fan of agnostic programming, don't mind developing under any platform/framework if it explores interesting topics. In search of a better programming paradigm.