An audiometer is a machine used by ENT (ear, nose and throat) clinics and audiology centers to measure hearing loss. Audiometers are typically part of the equipment used during an audiometry test. There are both software and hardware-based audiometers available in the market.
Audiometers built as a physical device emit audio tones at varying intensities. During the hearing loss evaluation test, the machine's output is fed to headphones and heard in each ear separately by the subject. A feedback button that can be pressed enables the subject to acknowledge each tone as they hear it.
The device can be a standalone machine or hooked up to a computer that controls the output and records all the feedback. These machines are made using different kinds of technologies, depending on the intended usage. Some are portable, others handhelds, and still others may be full-fledged systems that are meant to be used in one place. All of them are either bone-conduction or air-conduction audiometers.
Software-based audiometers produce the same tones, and subjects respond in exactly the same way. The main difference is that the software has a stored database of sounds. The tones are simply piped into the headphone through the system's sound card.
Hardware audiometers used by professional audiology centers, hospitals and research centers are more expensive, but also highly accurate and more reliable. These machines must be calibrated regularly to ensure that the intensity of the tone heard by subjects accurately reflects the level shown on the device display. Calibration also ensures standardized testing and consistent results no matter where the machine is used.
Audiometry software may be used as an alternative to a whole new machine. It will be cheaper and can be used by anyone at home and without assistance. However, calibration of the software is much more difficult and accuracy harder to obtain. People can still use it for regular testing, and only seek expert medical opinion if they discover any hearing loss.
Regardless of whether it is software or hardware, the aim here is to determine at what point the subject fails to hear the tone. Physicians use this device as a useful aid for diagnosing hearing problems and treating them. The suggested course of action may vary, but usually includes a thorough cleaning of the ears to remove obstructions, followed by ear drops and maybe even a hearing aid and/or surgery if the problem is more serious.
Industrial audiometric testing also needs the same audiometers, and the process followed is about the same as described above. However, subjects are not required to go the clinic or audiology center. Rather, a mobile lab packed with all the equipment and technicians is dispatched to the industrial facility to evaluate how workers are being affected by the onsite noise.
The results are not only used to evaluate hearing loss, but also to decide whether the facility needs to implement noise muffling mechanisms. Such regular on-site checkups may also be required in group health plans in order to protect workers from any further loss in their hearing ability. An audiometer used in such applications must be extremely accurate, calibrated to within fractions of a decibel.
Audiometers built as a physical device emit audio tones at varying intensities. During the hearing loss evaluation test, the machine's output is fed to headphones and heard in each ear separately by the subject. A feedback button that can be pressed enables the subject to acknowledge each tone as they hear it.
The device can be a standalone machine or hooked up to a computer that controls the output and records all the feedback. These machines are made using different kinds of technologies, depending on the intended usage. Some are portable, others handhelds, and still others may be full-fledged systems that are meant to be used in one place. All of them are either bone-conduction or air-conduction audiometers.
Software-based audiometers produce the same tones, and subjects respond in exactly the same way. The main difference is that the software has a stored database of sounds. The tones are simply piped into the headphone through the system's sound card.
Hardware audiometers used by professional audiology centers, hospitals and research centers are more expensive, but also highly accurate and more reliable. These machines must be calibrated regularly to ensure that the intensity of the tone heard by subjects accurately reflects the level shown on the device display. Calibration also ensures standardized testing and consistent results no matter where the machine is used.
Audiometry software may be used as an alternative to a whole new machine. It will be cheaper and can be used by anyone at home and without assistance. However, calibration of the software is much more difficult and accuracy harder to obtain. People can still use it for regular testing, and only seek expert medical opinion if they discover any hearing loss.
Regardless of whether it is software or hardware, the aim here is to determine at what point the subject fails to hear the tone. Physicians use this device as a useful aid for diagnosing hearing problems and treating them. The suggested course of action may vary, but usually includes a thorough cleaning of the ears to remove obstructions, followed by ear drops and maybe even a hearing aid and/or surgery if the problem is more serious.
Industrial audiometric testing also needs the same audiometers, and the process followed is about the same as described above. However, subjects are not required to go the clinic or audiology center. Rather, a mobile lab packed with all the equipment and technicians is dispatched to the industrial facility to evaluate how workers are being affected by the onsite noise.
The results are not only used to evaluate hearing loss, but also to decide whether the facility needs to implement noise muffling mechanisms. Such regular on-site checkups may also be required in group health plans in order to protect workers from any further loss in their hearing ability. An audiometer used in such applications must be extremely accurate, calibrated to within fractions of a decibel.
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