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http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25076
標題: | 蛙類聲紋與音量辨識分析其於人工溼地棲息條件 Analysis of Sound Signal and Intensity of Frogs to Recognize Their Habitat in Artificial Wetlands |
作者: | Cheng-Yu Hsu 徐承佑 |
指導教授: | 張文亮 |
關鍵字: | 蛙聲辨識,類,神,經網路,梅爾倒頻譜,兩,棲類,噪音計,棲地因子,生物廊,道, sound recognition,neural networks,mfcc,amphibian,sound-level meter,habitat requirements,corridor, |
出版年 : | 2007 |
學位: | 碩士 |
摘要: | 近年來隨著人口的成長及經濟發展,自然生態環境已受到極大破壞。在都市已經很難得聽見青蛙的鳴聲,除了讚嘆蛙鳴的美妙,我們希望能更進一步的了解牠們,環顧四周,不見青蛙的蹤跡,又無法光憑青蛙叫聲來認識這麼多種類的青蛙,因此希望發展出一套簡易又快速的程式,能自動判別青蛙的種類。
在本篇研究中我們使用現有人類語音處理技術中的能量法與梅爾倒頻譜分析法,及類神經網路理論來分類,使用的策略是取音量值超過背景音量的門檻值則視為蛙鳴的一音節,取其12維mfcc的平均值、12維mfcc的變異數、12維mfcc中最大最小值發生的音框,共48維,辨識結果有70%的正確率。 近年來兩棲動物數量急劇下降,其所面臨的生態危機,已給人類帶來不可忽視之警訊;近來為推動以生態工法達成水質淨化,有效改善與維持水庫水體,防止水庫優養化現象,陸續於翡翠水庫集水區建立生態工法淨化設施,坪林渡南橋溼地為其中之一,且其環境為北勢溪與坡地之交界地帶,是該處附近最適合青蛙繁殖活動的地點之一。 陸水共生之生物大部分生態系統行為多在水岸邊發生,而台灣目前尚缺乏相關設計規範可供參考,本研究於坪林渡南橋人工溼地共設立40點,先測試噪音計調查之可行性,之後分別調查各點重要的棲地因子及青蛙的數量與出現種數,使用多變量分析探討各變項之間的相關性。 結果顯示噪音計調查可用於小雨蛙,且青蛙數量與坡度成負相關,坡度設計建議值<40度,且池塘大小、植物多樣性、植物密度與出現蛙種數呈正相關,池塘面積建議大於500平方公尺,大安水簑衣密度建議為0.4-0.6株數/公分,可作為人工溼地青蛙廊道設計之參考。 In recent years, along with the population growth and the economical development, the natural ecological environment received enormous suffering, threatening the survival of frogs. In metropolis' hustle, people can hardly hear the simple frogs’ song anymore. While acclaiming its pure wonderfulness, we wish to understand them better. However, as we look around without any trace of frogs, and the frog's sound difference too much for the human ears to tell one kind from another, we hopes to develops a set of simple, quick computer formulas that can automatically recognize which types of frog by the sound it made. This study was combined with energy method, MFCC feature method, and neural networks to recognize the species of frogs. If the volume was over the set threshold, it was defined as one syllable. We extracted the first twelve MFCC features from every syllable, then analyzed its mean, variation, and the position which the max and min values appeared. Eventually, forty-eight dimensions was input to train and test. The result shows the accuracy was up to 70%. Declines in amphibian populations have been noted all over the world and perceived as one of the most critical threats to global biodiversity. Wetland managers need more information concerning amphibian habitat requirements. There is a new artificial wetland between the Bai-Shi River and local community. It is the best buffer zone for amphibian production activity there。 Most ecosystems of amphibian animals took place on the lake banks, yet there was less related design solutions offered in Taiwan. This research selected 40 sample sites in Du-Nan Wetland. We test the feasibility for measuring frog abundance by sound-level meter first, and then study the relationship between some important habitat variables and frogs by factor analysis. The result shows that sound-level meter can be used for measuring the abundance of Microhyla ornata Dumeril. Also, the amounts of frog and the bank slope are negatively relative. Bank slope is designed to be less than 40 recommending degrees. The pond size, plant diversity and plant density are positively relative to the species richness. The pond size is recommended to be larger than 500 square meters. The density of Hydrophila pogonocalyx Hayata is recommended to be 0.4-0.6 per stem/cm. Thos can be reference for designing frog corridor. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25076 |
全文授權: | 未授權 |
顯示於系所單位: | 生物環境系統工程學系 |
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