![soundhack spectral gate soundhack spectral gate](http://227rsi2stdr53e3wto2skssd7xe-wpengine.netdna-ssl.com/wp-content/uploads/2012/04/spectral-gate1.jpg)
SOUNDHACK SPECTRAL GATE WINDOWS
Alternatively, one could think of different integration windows of the left and right auditory system, which then may result in an asymmetric sampling and processing of acoustic signals. This functional asymmetry is reflected by a higher temporal resolution in the left auditory cortex and higher spectral resolution in the right homologue. It is now widely accepted that there exists both a functional, as well as structural, asymmetry within the primary and secondary auditory system. Therefore, current research on the functional asymmetry of speech and music perception focuses, in particular, on temporal lobe structures such as Heschl's Gyrus, planum temporale (PT), superior temporal gyrus (STG), and superior temporal sulcus (STS). Recent reviews and meta‐analyses also take into account results from functional imaging studies and point towards a more bilateral processing of acoustic speech signals. However, these early accounts of functional asymmetry, which were based on clinical observations, have been challenged. There is broad consensus in the field of neuroscience that speech processes are predominantly lateralized to the left hemisphere, dating back to the ground breaking work of Broca and Wernicke. In addition, the present findings support the notion that the left mid STS area is more sensitive to speech signals compared to the right homologue. This gives further experimental evidence for the assumption of a posterior‐anterior processing stream in the left temporal lobe. Such a differential and selective response was not seen in other brain areas and not when the sound “morphed” into a music stimulus.
![soundhack spectral gate soundhack spectral gate](https://f4.bcbits.com/img/0014499990_10.jpg)
This area could be further subdivided into a more posterior area, which showed a linear response to the manipulation of speech sounds, and an anteriorly adjacent area which showed the strongest interaction between the speech and music sound manipulations. This effect was especially pronounced within the middle region of the left superior temporal sulcus (mid‐STS). The results demonstrated that the left temporal lobe was predominantly sensitive to gradual manipulation of the speech sounds while the right temporal lobe responded to all sounds and manipulations. The stimuli were presented in an event‐related design and the evoked brain responses were measured using fMRI. White noise was gradually transformed into either speech or music sounds using a “sound morphing” procedure. This study seeks to explore whether there are variations in the lateralization of response to verbal and nonverbal sounds by varying spectral complexity of those sounds. Our readers have come to expect excellence from our products, and they can count on us to maintain a commitment to producing rigorous and innovative information products in whatever forms the future of publishing may bring.Contrary to the classical view, recent neuroimaging studies claim that phonological processing, as part of auditory speech perception, is subserved by both the left and right temporal lobes and not the left temporal lobe alone. Through our commitment to new products-whether digital journals or entirely new forms of communication-we have continued to look for the most efficient and effective means to serve our readership. Since the late 1960s, we have experimented with generation after generation of electronic publishing tools. The Press's enthusiasm for innovation is reflected in our continuing exploration of this frontier. We were among the first university presses to offer titles electronically and we continue to adopt technologies that allow us to better support the scholarly mission and disseminate our content widely. Among the largest university presses in the world, The MIT Press publishes over 200 new books each year along with 30 journals in the arts and humanities, economics, international affairs, history, political science, science and technology along with other disciplines.