南安普敦大学PhD position in The Sound of Metamaterials – Auralisation Techniques for Acoustic Metamaterials申请条件要求-申请方
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南安普敦大学
PhD直招介绍
About the Project
The aim of this project is to develop virtual models to simulate and assess how humans perceive sound altered by acoustic metamaterials in different applications, such as noise treatments or in musical instruments, and develop an interactive web app that demonstrates the sound of acoustic metamaterials to the general public.
The emergence of acoustic metamaterials opened up a wide range of novel ways to control sound, from extremely thin low-frequency sound absorbers to acoustic invisibility cloaks. The performance assessment of current metamaterials-based technologies is exclusively focused on objective metrics, such as absorption coefficients or sound pressure levels. What is missing in the current research landscape is a different view that looks at the human perception of how sound is altered by acoustic metamaterials and if this can be exploited to make noise sound more pleasant, without necessarily improving objective metrics.
You will create virtual models that can auralise the sound of acoustic metamaterials in different applications, such as noise treatments or in musical instruments. A key property of the models should be the ability to change the properties of the acoustic metamaterial treatments, such as their tuning or the type of metamaterial, to be able to study the sound-changing effects of the metamaterials.
To validate the virtual auralisation models, you will use the world-class acoustic testing facilities at the Institute of Sound and Vibration Research( https://www.southampton.ac.uk/about/faculties-schools-departments/school-of-engineering/institute-of-sound-and-vibration-research ). The virtual models will be used in listening tests to measure the effect of metamaterials on the subjective perception of sounds by humans and contrast this to the established objective measures. The novel techniques developed in this project can be used to let the general public listen to the effect of acoustic metamaterials on these sounds through an interactive web app.
You will have the opportunity to participate in a wide range of training activities during your PhD, ranging from technical taught modules, such as world-class modules on sound and vibration, to personal development training. You will also be supported to attend national and international conferences to present your research results to a wide audience of experts.
Co-supervisors:
Dr Giacomo Squicciarini ( https://www.southampton.ac.uk/people/5x8vmt/doctor-giacomo-squicciarini )
Dr Sjoerd van Ophem ( https://www.southampton.ac.uk/people/65mgp2/doctor-sjoerd-van-ophem )
南安普敦大学 PhD position in The Sound of Metamaterials – Auralisation Techniques for Acoustic Metamaterials项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
We offer a range of funding opportunities for both UK and international students. Horizon Europe fee waivers( https://www.southampton.ac.uk/doctoral-college/eu-fee-waivers.page ) automatically cover the difference between overseas and UK fees for qualifying students.
Competition-based Presidential Bursaries( https://www.southampton.ac.uk/doctoral-college/presidential-bursaries.page ) from the University cover the difference between overseas and UK fees for top-ranked applicants.
Competition-based studentships offered by our schools typically cover UK-level tuition fees and a stipend for living costs (minimum of £19,237 in 2024-25) for top-ranked applicants.
Funding will be awarded on a rolling basis, so apply early for the best opportunity to be considered.
南安普敦大学Phd申请条件和要求都有哪些?PhD position in The Sound of Metamaterials – Auralisation Techniques for Acoustic Metamaterials项目是不是全奖?有没有奖学金?下面我们一起看一下南安普敦大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
You must have a UK 2:1 honours degree, or its international equivalent( https://www.southampton.ac.uk/uni-life/international/your-country.page ), with a background in:
acoustical engineering
structural dynamics
physics
or related areas.
Skills and experience in numerical modelling and acoustic metamaterials will be beneficial.
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