02609nam 2200385 450 99628078420331620171016075856.01-5044-2436-0(CKB)3710000000997946(WaSeSS)IndRDA00078797(NjHacI)993710000000997946(EXLCZ)99371000000099794620171016d2016 || |engur|||||||||||txtrdacontentcrdamediacrrdacarrierIEEE standard for translating head and torso simulator measurements from eardrum to other acoustic reference pointsNew York :IEEE,2016.1 online resource (35 pages)The data and rationale for translating head and torso simulator measurements from eardrum to other acoustic reference points such as free field and diffuse field are provided in this standard. Scope: This standard provides the data, techniques, and rationale for translating head and torso simulator measurements from the eardrum to other acoustic reference points, such as the free field and the diffuse field. It applies primarily to measurements of devices that contact the ear, such as headsets and handsets. It can also be used for devices that do not contact the ear, such as speakerphones and wearable devices. It is applicable to communication and multimedia audio devices over the frequency range of 20 Hz to 20 kHz Purpose: Common acoustic reference points are needed for comparing electroacoustic performance of handsets, headsets, speakerphones and other kinds of communication devices. It is also needed for comparing communication devices with other devices such as loudspeakers, multimedia terminals and consumer audio equipment. The free field and diffuse field are appropriate reference points because the results relate closely to what we hear. For measurements on communication devices, the free field or diffuse field are more widely applicable reference points than the legacy ear reference point (ERP).Electro-acousticsDigital computer simulationStandardsElectronic data processingStandardsElectro-acoustics.Digital computer simulationStandards.Electronic data processingStandards.621.380412WaSeSSWaSeSSDOCUMENT996280784203316IEEE standard for translating head and torso simulator measurements from eardrum to other acoustic reference points2579956UNISA