Amazing Grace: How Sweet the Sound of Synthesised Bagpipes

Alberta Academic Review Pub Date : 2019-09-18 DOI:10.29173/aar65

Hannah Pfeil, Abram Hindle, Hazel Campbell

{"title":"Amazing Grace: How Sweet the Sound of Synthesised Bagpipes","authors":"Hannah Pfeil, Abram Hindle, Hazel Campbell","doi":"10.29173/aar65","DOIUrl":null,"url":null,"abstract":"A bagpipe is a type of wind instrument that contains a melody pipe, which has an enclosed reed called the chanter and other drone pipes. The chanter is the part of the bagpipe that supplies the note, and the air that the pipes are fed is provided by the bag, which is inflated by a blowpipe and driven by the player’s arm. The goal of this project was to create a bagpipe using a program called Supercollider. Supercollider is used for audio synthesis. While creating this artificial bagpipe (here on referred to as a ‘synth’), it was broken down into four components: the chanter, the base drone, the first tenor drone and the second tenor drone. The chanter has the frequency of the note, the base drone’s frequency will be half that of the chanter and the frequency of the tenor drone will be half that of the base drone. This is because of the length of the pipes in relation to each other. In order to create the synth, a sine oscillator was used, and then put through a resonance filter, and then a reverb filter. This was done in order to mimic the echo that sound has when it is forced through a tube, or enclosed space. All four pipes were added together to create the synth. In order to play a song, the synth was put into a pattern so Supercollider could receive an array of notes, which serve as the frequency of the chanter, and then play the song automatically. The notes for Amazing Grace were transcribed into midi-notes and beat durations and these arrays were fed into the pattern to create the song. The synthetic version of Amazing Grace, in terms of frequency and loudness, was then graphed and compared to the graph of a recording of Amazing Grace played on a real bagpipe. There are differences between the two sound files, the most significant being that the real bagpipe has much more variation in terms of loudness. The synthesized bagpipe had a more gradual and subdued noise level, where the natural bagpipe was much more randomized. Taking the comparisons into consideration, Supercollider can be used to create an approximation of a bagpipe, but under scrutiny, the artificial version currently falls short. \n ","PeriodicalId":239812,"journal":{"name":"Alberta Academic Review","volume":"30 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2019-09-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Alberta Academic Review","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.29173/aar65","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

A bagpipe is a type of wind instrument that contains a melody pipe, which has an enclosed reed called the chanter and other drone pipes. The chanter is the part of the bagpipe that supplies the note, and the air that the pipes are fed is provided by the bag, which is inflated by a blowpipe and driven by the player’s arm. The goal of this project was to create a bagpipe using a program called Supercollider. Supercollider is used for audio synthesis. While creating this artificial bagpipe (here on referred to as a ‘synth’), it was broken down into four components: the chanter, the base drone, the first tenor drone and the second tenor drone. The chanter has the frequency of the note, the base drone’s frequency will be half that of the chanter and the frequency of the tenor drone will be half that of the base drone. This is because of the length of the pipes in relation to each other. In order to create the synth, a sine oscillator was used, and then put through a resonance filter, and then a reverb filter. This was done in order to mimic the echo that sound has when it is forced through a tube, or enclosed space. All four pipes were added together to create the synth. In order to play a song, the synth was put into a pattern so Supercollider could receive an array of notes, which serve as the frequency of the chanter, and then play the song automatically. The notes for Amazing Grace were transcribed into midi-notes and beat durations and these arrays were fed into the pattern to create the song. The synthetic version of Amazing Grace, in terms of frequency and loudness, was then graphed and compared to the graph of a recording of Amazing Grace played on a real bagpipe. There are differences between the two sound files, the most significant being that the real bagpipe has much more variation in terms of loudness. The synthesized bagpipe had a more gradual and subdued noise level, where the natural bagpipe was much more randomized. Taking the comparisons into consideration, Supercollider can be used to create an approximation of a bagpipe, but under scrutiny, the artificial version currently falls short.

查看原文本刊更多论文

奇异恩典:合成风笛的声音多么甜美

风笛是一种管乐器，它包括一个旋律管，它有一个封闭的簧片，叫做吟唱管和其他低音管。唱筒是风笛中提供音符的部分，风笛所需要的空气由吹管提供，吹管由吹管充气，由演奏者的手臂驱动。这个项目的目标是用一个叫做超级对撞机的程序创造一个风笛。Supercollider用于音频合成。而创建这个人造风笛(这里被称为“合成器”)，它被分解成四个组成部分:吟唱，基地无人机，第一男高音无人机和第二男高音无人机。吟唱的频率是音符的频率，低音部的频率是吟唱部的一半男高音部的频率是低音部的一半。这是由于管道的长度相互之间的关系。为了创建合成器，使用了正弦振荡器，然后通过共振滤波器，然后混响滤波器。这样做是为了模仿声音被迫通过管道或封闭空间时产生的回声。将所有四个管道添加在一起以创建synth。为了播放歌曲，synth被设置成一个模式，这样Supercollider就可以接收一系列音符，这些音符作为圣歌的频率，然后自动播放歌曲。《奇异恩典》的音符被转录成中音和节拍持续时间，这些序列被输入到歌曲的模式中。合成版本的奇异恩典，在频率和响度方面，然后被绘制成图表，并与用真正的风笛演奏的奇异恩典录音的图表进行比较。两种声音文件之间存在差异，最重要的是真正的风笛在响度方面有更多的变化。合成风笛的噪音水平更平缓、更柔和，而天然风笛的噪音水平则更加随机。考虑到这些比较，超级对撞机可以用来创造一个近似的风笛，但经过仔细审查，人工版本目前还不够。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Alberta Academic Review

自引率

0.00%

发文量