As far as I reentered the subject of radio transmission, which was a part of hobbying in youth by playing with portable radio tranceivers, I found that my intent is to present this hobbying activities led me to the invention, which is a sufficient advance in vocoding and data transfer. Compositor TC-SRRT2048 can achieve both. First I presented my approach and now its a time to talk about the QoS of Compositor network.
The maximum data rate of TC-SRRT2048 is a symmetric stream of 543.129 Mbps at transmission rate of 11050 baud, which is sufficient enough for most critical vocoding projects. It makes difficult to compare Compositor network to other networks, which achieve the same properties with a much higher clock rate of MHz transmission. Imagine the possibilities of Compositor network at the FM broadcasting speeds as it will equal to 4.3 petabits per second for TC-SRRT2048 model. Then imagine a current state of mobile technologies for a while and you will see a need in the network synchronisation and encryption device such as Compositor TC-SRRT2048, which is also artificially control resynthesis parameters of the supplied signal and subjectively selecting a band at which most of the audio transmitted information resides.
The second part of experiment I committed is to achieve an advancement noone on Earth ever achieved. Compositor TC-SRRT2048 algorithm was used to transmit techno music signal with space-time folding oversampling of x138 times, which equals to 11050Hz Transmission Rate. I experienced no more Time Collisions, but the Binary wideband Signal was returned to me instead of submited techno music material. The Signal was like a Binary code with dips of silence and peaks. It reminds me the metallic sound of dropping a stone into the garage. The Signal slightly dimed the channel output so I wondered how smart the algorithm work is. I just appoint you that I live in Russia and hope this achievement will lead to peace on our planet Earth.
Now, I was able to speed up the discretisation algorithm of Compositor T-SR-x development up to 11050 Hz, which is sufficient to transmit 5525 Hz signal bandwidth according to Kotelnikov theorem. Thus enabling me to transfer the voice with buffer rate of 2048 samples. This achievement is fundamental breakthrough in sampling of signals should start the epoch of exponential discretisation. But it is only the first part of experiment. For a better bandwidth I should use the bigger buffer of 4096 samples. This in fact according to Compositor – the bottom up approach paper enables me to transfer the signal with internal audio card clock discretisation of up to 192 KHz. This clock in clock theory is for making the time adjustments to main clock which is quantized and uses FFT for signal representation, while exponential discretisator of Compositor T-SR-x can function on Transmission Rate of up to 22050 Hz without interruption sufficient enough to transfer even complex sounds over the Time Collision interval.
The breakthrough in fact is that I transmit the signal not only without wires, but the Transmission Rate higher than space-time folding barrier enables transferring signals painlessly without time and space paradigm. Speaking simple, no more the physical wave propagation limits the barriers of telecommunication.
In a strive for unification of two new Compositor software developments, which are Compositor AI-RT1024 and Compositor T-SR-x I found a solution to bringing time-space folding into a Time Collision interval. As you recall by a previous post a Time Collision is a granulated time-stretching effect occuring on a stochastic multiplier changes and lasting until new multiplier value will be received. The development is merging two this software solutions together into one new program, which I called Compositor TC-SRRT-x. TC stands for Time Collisions, SR is signal rate and RT is real time. So the final product is both real time and signal rate altogether. This is achieved by parallel performance of signal rate and real time windows achieving the solution for faster data transfer and real time performance for vocoding, operation movement needs. The parameters are mostly unified and relied upon one multiplier spiral, which is also a measure for subsequent parameters enabling a measurement grid for new century developments.
The preview of program window looks like following:
The software development is based on lower level code language GenExpr, which spans from JavaSript and C++. The final product aimed to be hardware, yet for this purpose faster mobile processors still need to be implemented.