انا احب الترجمهABSTRACTModern convo

I love ABSTRACT translationModern convolution technologies offer possibilities to overcomeprinciple shortcomings of loudspeaker stereophony by exploitingthe Wave Field Synthesis (WFS) concept for rendering virtualspatial characteristics of sound events. Based on the Huygensprinciple loudspeaker arrays reproduce a synthetic sound fieldaround the listener, whereby the dry audio signal is combinedwith measured or modelled information about the room and thesource's position to enable the accurate reproduction of thesource within its acoustical environment. However, theoreticaland practical constraints of WFS systems limit the renderingaccurateness and the perceived spatial audio quality to a certaindegree, dependent on characteristic features and technicalparameters of the sound field synthesis. Nevertheless recentdevelopments have already shown that a number of applicationscould be possible in the near future. An attractive example is thesynthesis of WFS and stereophony offering enhanced freedom insound design as well as improved quality and more flexibility inpractical playback situations for multichannel sound mixes.Furthermore, a novel application called "Binaural Sky" combineswave field synthesis and binaural techniques. Focused sourcesare rendered close at listener's ears by means of headtracking anda WFS-array above the listener, forming a virtual headphone. Asa result, binaural (e.g. BRS) reproduction can be enjoyed withoutwearing a headphone and without any loudspeakers in thelistener's field of vision.

I love translation ABSTRACT
Style: Modern Convolution Technologies Offer Possibilities To Overcome
Principle Of shortcomings Loudspeaker Stereophony By Exploiting
The Wave Field Synthesis (WFS) Concept For Rendering Virtual
Spatial Characteristics Of Sound Events. On The Huygens Based
Principle Loudspeaker Arrays Reproduce A Synthetic Sound Field
Around The Listener, The Dry Whereby Audio Signal Is Combined
With Measured Or Modelled Information About The Room And The
Source's Position To Enable The Accurate Reproduction Of The
Source Within Its Acoustical Environment. However, Theoretical
And Practical Constraints Of WFS Systems Limit The Rendering
Accurateness And The Perceived Spatial Audio Quality To A Certain
Degree, Dependent On Characteristic Features And Technical
Parameters Of The Sound Field Synthesis. Recent Nevertheless
Developments Already Have Shown That A Number Of Applications
Could Be Possible In The Near Future. An Attractive Example Is The
Synthesis Of WFS And Stereophony Offering Enhanced Freedom In
Sound Design As Well As Improved Quality And More Flexibility In
Practical Playback Situations For Multichannel Sound Mixes.
Furthermore, A Novel Application Called "Binaural Sky" Combines
Wave Field Synthesis And Binaural Techniques . Sources Focused
Are Rendered Close At Listener's Ears By Means Of Headtracking And
A WFS-Array Above The Listener, Forming A Virtual Headphone. As
A Result, Binaural (Eg BRS) Reproduction Can Be Enjoyed Without
Wearing A Headphone And Without Any Loudspeakers In The
Listener's Field Of Vision.

I like to do ABSTRACT
Modern convolution technologies offer possibilities to overcome
Principle shortcomings of loudspeaker stereophony by exploiting
the Wave Field Synthesis (WFS) concept for rendering virtual
spatial characteristics of sound events. Based on the Huygens
principle loudspeaker arrays reproduce a synthetic sound field
around the listenerDependent on characteristic features and technical
parameters of the sound field synthesis. Nevertheless recent
developments have already shown that a number of applications
could be possible in the near future. An attractive example is the
synthesis of WFS and stereophony offering enhanced freedom in
sound design as well as improved quality and more flexibility in
Whereby the dry audio signal is combined
with measured or modelled information about the room and the
source s position to enable the accurate reproduction of the
source within its acoustical environment. However, theoretical
and practical constraints of WFS systems limit the rendering
accurateness and the perceived spatial audio quality to a certain
degreeDependent on characteristic features and technical
parameters of the sound field synthesis. Nevertheless recent
developments have already shown that a number of applications
could be possible in the near future. An attractive example is the
synthesis of WFS and stereophony offering enhanced freedom in
sound design as well as improved quality and more flexibility in
Wearing a headphone and without any loudspeakers in the
listener 's field of vision.