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Explore IndustryFundamentals of sound quality
Fundamentals of sound quality
Sound quality is an important aspect of product design and development. Join this webinar to learn how the human hearing system influences the way we perceive audio quality.
Sound quality acts as a brand differentiator and can strongly affect the consumers’ predilections preference towards one or the other product. Take the example of a car: while it should be durable and efficient, the sounds it makes often influence the buying decision. The same is true for a wide range of products, mainly in the consumer goods industry.
The challenge with sound quality analysis is that perceived sound quality is strongly related to the human hearing mechanism. The mechanism of the human auditory system differs from one of the most common acoustic test equipment, the microphone. A microphone can measure the sound pressure levels (SPL), but will not consider the subjective preference of a human brain. Acoustic engineers need to apply a process that addresses these aspects to improve their product’s sound design.
Understanding how the human hearing works is the first step towards implementing a sound quality evaluation process. A typical audio quality evaluation process starts with binaural acoustic measurements. The collected data is analyzed using objective and subjective evaluation techniques. It will help you design a strong, successful product with compelling acoustic signature.
You will learn:
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Sound quality is an important aspect of product design and development. Join this webinar to learn how the human hearing system influences the way we perceive audio quality.
Sound quality acts as a brand differentiator and can strongly affect the consumers’ predilections preference towards one or the other product. Take the example of a car: while it should be durable and efficient, the sounds it makes often influence the buying decision. The same is true for a wide range of products, mainly in the consumer goods industry.
The challenge with sound quality analysis is that perceived sound quality is strongly related to the human hearing mechanism. The mechanism of the human auditory system differs from one of the most common acoustic test equipment, the microphone. A microphone can measure the sound pressure levels (SPL), but will not consider the subjective preference of a human brain. Acoustic engineers need to apply a process that addresses these aspects to improve their product’s sound design.
Understanding how the human hearing works is the first step towards implementing a sound quality evaluation process. A typical audio quality evaluation process starts with binaural acoustic measurements. The collected data is analyzed using objective and subjective evaluation techniques. It will help you design a strong, successful product with compelling acoustic signature.
You will learn: