At VINNO,the first high level technology that was endowed with a soul was the RF Metadata Radio Frequency Platform.
Before the creation of RF technology all traditional color imaging technology needed a “signal preprocessing and regulation” segment which lessened the accuracy and quantity (count) of ultrasound echo signal data. There was no way to avoid the loss of potential diagnostic information in the images that were output.
VINNO’s R&D engineers paid great attention to this widespread phenomenon among ultrasound equipment at the time. Plans were continuously scrapped and started anew, scrapped once more and started again during research. Charles, VINNO’s Product Director, remembers that: “We made six or seven modifications to the optical hardware . There were tens of thousand of software iterations.”
In the end, a large amount of painstaking effort finally led to a breakthrough. In 2013, the research and development of VINNO’s pioneer RF Metadata Radio Frequency Platform succeeded, and achieved the complete transmission of radio frequency data information. The platform was able to clearly mirror things as large as tissues and organs in the body and as small as fingerprints and superficial micro blood vessels. It was a great help for ultrasound doctors in diagnosing the tiny foci of infections.
Even blood flow in the fingertips can be clearly seen. There is plenty of blood visible, and there are no data overflows.
Mainstream manufacturers who had long since become accustomed to the distorted data of the ultrasound industry rushed in one after another the first time they noticed the vitality of metadata, and stirring up a tidal wave of R&D in RF. As the originator of the technology, VINNO chose to make RF metadata openly available to offer more possibilities for clinical scientific research. Beijing 301 Hospital, Jiangsu Provincial Hospital of Traditional Chinese Medicine, and Nanjing General Hospital conducted relevant scientific research, and produced multiple SCI papers.
Some people say that data is lifeless. However, we think that all objects have life. The problem lies in how you awaken them. Going from a reading speed of 1 frame in 8 seconds to 4000 frames per second, VINNO achieved an increase in speed by a factor 32000. The story behind this is a scorching hot battle fought at close quarters.
When someone puts a lot of effort into something, that thing will be endowed with the spirit of its creator.
So, when you come and touch VINNO’s ultrasound equipment, every detail feels as if a mild, delicate, and indescribable life is in motion.
That’s the exterior that the Italian designer spent three years carving
That’s the code that the engineers have been taming for seven years
That’s the work flow that was made from the opinion of over a thousand doctos
That’s the innovative spirit that has infused life into our work countless times
Over the past seven years the RF Metadata Radio Frequency Platform has gone through 13000 iterations, and now it is time to bring out a master stroke.
The “femtometer” platform effectively lessens an ultrasound doctor’s manual manipulation, improves work efficiency, and integrates cutting edge technology. It brings convenience to new applications for ultrasound contrast and cavitation treatment. Its arrival signifies VINNO’s overall technological upgrade.
The salpingography technology supported under the“femtometer” platform
From RF technology to the “femtometer” platform, creating value for customers has been VINNO’s continuing pursuit. Ultrasound doctors are becoming “imaging supermen” alongside the development of the technology, yet behind every superhero is a magical doctor. A new generation of ultrasound will be awakened with a scorching hot spirit. We’re ready. Are you?
The RF Metadata Radio Frequency Platform
The world’s first RF metadata platform technology solved the information loss problem that occurred during preprocessing and signal demodulation (mid-processing) in conventional ultrasound. It acquires over 40 times the quantity of data of traditional ultrasound platforms, and achieves the complete transmission of radio frequency data. Images are clearer. Resolution is higher. It has an edge when it comes to the display of tiny tissue structures and early stage diseases, and improves the accuracy rate of diagnoses.
The “Femtometer” Platform
The “femtometer” platform along with the breakthrough, high precision, and high speed imaging technology independently researched and developed by VINNO employs multi-frequency pulse code transmission and continuously adjustable frequencies to achieve high efficiency energy conversion, greatly improve axial resolution and detail contrast, and achieve uniformity in far-field images. The platform integrates high end elements, providing unlimited possibilities for ever more burgeoning clinical applications.
