Tag Archive for: GBT

GBT Completed Prototype Design of its Long-Range Radio Mobile System

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SAN DIEGO, April 08, 2021 (GLOBE NEWSWIRE) — GBT Technologies Inc. ( OTC PINK: GTCH ) (“GBT” or the “Company”), completed its prototype design of its long range radio mobile system. The prototype mobile unit will be a high-performance radio transceiver system that is designed for data and voice applications. It is expected to enable data and voice communication for long range applications targeting telemedicine support for the Company’s qTerm vital device including audio.

The design of the prototype mobile unit includes a transceiver targeted for systems to operate under licensed/unlicensed radio frequency bands, enabling ultra-long-range applications. The unit is designed to communicate in the HF (High Frequencies) frequencies bands to establish connection with a base unit transceiver through repeater unit(s) to reach ultra-long range. High clarity, signal reliability and security is expected to be achieved through the implementation of advanced circuitry within the system’s components. The design includes embedded software to manage the data and audio communication including data transfer to a backend server to process data. The design also provided for the mobile unit’s design, size and interface, taking into consideration performance and mobility. The operation of the mobile unit is expected to be done via an LCD touch screen providing user’s friendly interface and ease of use. Upon getting team’s FCC certification, an extensive mobile unit’s testing will start. GBT plans to test the entire system within a large city limits and national ranges.

“We are glad to announce that we completed the design of our prototype long range radio mobile unit. The prototype mobile unit is a key component since it is targeted to be portable aiming to bring modern life services around the globe. The design contemplates an acceptable physical size to be carried coupled with a high-power energy source and long range capability. As the system is targeted to work with the qTerm vital device, the design contemplates users being able to send vital information…

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GBT Continues Research on AI Detection System Other OTC:GTCH

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SAN DIEGO, Jan. 07, 2021 (GLOBE NEWSWIRE) — GBT Technologies Inc. (OTC PINK: GTCH) (“GBT”, or the “Company”), announced that its joint venture, GBT Tokenize Corp. (“GBT/Tokenize”), is continuing with its research associated with an AI system to detect and open clogs within arteries based on its proprietary radio technology, which has an internal code name of “Hermes”.

The research is evaluating a system targeted for arterial clogs cleaning, such as a coronary artery, peripheral artery, or any other body vascular organ. The researching is focusing on the use of an intravenous mini-probe unit that could travel within the artery, searching to find clogs including complete blockages (Total Occlusions). Upon detecting a clog, GBT/Tokenize will evaluate whether the system will have the capability to remove it and clear the blood vessel for efficient blood flow. This blockage may cause a condition called atherosclerosis (when a substance called plaque builds up in the walls of the arteries) and can eventually block the artery, causing vascular disease, heart attack or stroke. The research is evaluating whether the unit can use AI based and radio frequency imaging system to “see” within arteries. We are now researching the development of a low frequency radio system to scan within arteries, producing 3D visuals, shown on a computer screen, and used for intravenous navigation.

GBT/Tokenize is evaluating developing a system that will have the capability to be manually remote controlled by physicians or to autonomously operated inside blood vessels. It is intended that an advanced SOC (System on Chip) microchip with an embedded software will control the unit’s operations. The goal is to research the inclusion of a wireless communication capability to produce a computerized 3D imaging for the operating physician. We are evaluating initial setup of the system for inserted into a human body, for example through a large leg artery, and autonomously or manually travel further to other parts of the body. Using a variety of micro-sensors, we are researching the viability of a system that will search and remove clogs without damaging the vessel’s tissue. The device is…

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