FASTFORWORD SUPPORT
The Fast ForWord science
The Fast ForWord product provides a language and literacy intervention that uses the principles of neuroplasticity—the ability of the brain to rewire and improve—to target the root cause of slow academic progress in struggling students and English language learners. The software was developed by neuroscientists to quickly improve reading skills while concurrently developing memory, attention, processing and sequencing—the cognitive skills required to read and learn effectively.
The Fast ForWord Foundations and Elements components include a patented speech processing technology that enhances the speech sounds at early exercise levels, progressing to natural speech sounds at higher exercise levels. This technology includes two separate but equally important speech modification stages: duration extensions (slowing down the speech) and selective intensity increases (enhancing the intensity of the rapid transitional elements in the speech). Together, these technologies provide the auditory nervous system with an enhanced speech signal that allows the student to more effectively differentiate the rapid transitions in spoken language.
Duration extensions (slowing down the speech)
In this stage, the software employs a patented processing algorithm to slow the rate of the entire speech signal while still maintaining the speech signal's natural quality. For example, a word (such as bat) that may typically last 1.0 seconds in natural speech could last as long as 1.5 seconds after this processing is applied. By lengthening the duration of the speech, the fast speech elements (such as stop consonants) are further apart from the steady speech elements (such as vowels), which provides the auditory nervous system with more time to respond to the fast speech sounds.
Selective intensity increases (amplifying sounds in the speech)
In this stage, our patented software process identifies the fast transitional elements within the speech (such as the /b/ sound in the word bat) and then selectively amplifies those elements. By applying these selective intensity increases, the more rapid transitional phonemes in the speech are emphasized, allowing the auditory nervous system to respond more vigorously to the fast speech sounds.