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A method for constructing a network in a living body and releasing periodic signals through the network

A biological network and release cycle technology, applied in medical science, special data processing applications, instruments, etc., can solve problems such as interference and release of false signals and unreliability

Active Publication Date: 2016-05-11
杨明亮
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When a signal is released by a single component, there is unreliability, such as when the component fails, it will stop releasing the signal, or if it is disturbed to release an error signal, the releasing signal will stop during repair or replacement

Method used

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specific Embodiment 1

[0018] A response subunit has the following characteristics: 1) There is a refractory period after its excitation (or response), and after the refractory period, it can be randomly excited and has the ability to respond after being stimulated; 2) When these same response subunits Form a network, and the excitement signal can spread quickly on the network (that is, the time it takes for the signal to propagate on the network is negligible compared to the duration of the excitement). The network will release control signals, and as the number of response units included in the network increases, the release signal frequency will approach N / T, where N is a positive integer, and T is the shortest response time of a single response unit (mainly determined by the refractory period) . According to the present invention, two types of signal release networks can be designed: (1) composed of subunits with refractory periods, which will obtain a network that amplifies and releases periodi...

specific Embodiment 2

[0019] According to the specific content of the present invention, using the voltage-gated calcium channel on the cell membrane to construct a biological network and release periodic signals, the specific method is as follows:

[0020] (1) Construct a subunit with a refractory period. There are voltage-gated calcium ion channels on the smooth muscle cell membrane, and there is a refractory period when the ion channel is open. It is a natural subunit with a refractory period and can be used to construct a biological network;

[0021] (2) Build a biological network, the distribution of blood vessels is similar to the branch structure, and the smooth muscle cells that make up the blood vessel wall are connected to each other, forming a biological network;

[0022] (3) The voltage-gated calcium ion channel resonates synchronously, so that the voltage-gated calcium ion channel on the membrane of a single vascular smooth muscle cell, the key to synchronous resonance is to determine i...

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Abstract

The invention relates to a method for building a network in an organism and a method for periodic signal release through the network. The basic unit of the network is composed of a plurality of subunits. The method for the periodic signal release comprises the following steps: (1) firstly, selecting the subunits, wherein the subunits need to satisfy excitability, responsiveness and refractory period of existence; (2) building the subunits which are selected from the step (1) into the network; and (3) conducting signal drive of the built network, selecting signal frequency and releasing a periodic signal. The method for building the network in the organism and the method for the periodic signal release through the network have the advantages that by means of the selection of the subunits to build the network, automatic, stable and reliable signal release can be achieved, and performances of reliability, adjustability and anti-interference are provided.

Description

technical field [0001] The invention relates to a method for constructing a network in a living body and releasing periodic signals through the network. Background technique [0002] The periodic motion of the material world is widely used for timing, or to construct periodic signal release devices, and these signal release devices usually use a single device that performs periodic motion to release signals. In organisms, biological signals are jointly released by a group of cells, which is highly reliable and adjustable. When a signal is released by a single component, there is unreliability, such as when the component fails, it will stop releasing the signal, or if it is disturbed to release an error signal, the releasing signal will stop during repair or replacement. This is not allowed in the living body, such as maintaining the beating of the heart, and there must be sufficient backup. In living organisms, the ideal situation is that multiple signal releasing units fo...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B90/00A61B5/0488G06F19/00
Inventor 杨明亮李建军
Owner 杨明亮
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