Full visual acquisition system for organism in body cavity

Abstract

The invention discloses an organism intracavity global texture acquiring system which belongs to the field of medical patient internal examination and comprises a wireless digital camera device for acquiring and processing images in an organism, wherein the outer part of the wireless digital camera device is closed by a full transparent shell which is made of biological compatible material and is shaped as a sphere; the core part of the inner part of the wireless digital camera device is covered by a flexible PCB to be made into a single geometric solid, and a plurality of cameras are placed on the outer surface of the geometric solid and used for acquiring the images in a full texture way. The invention can realize the full texture image data acquisition in such a way that the cameras are uniformly placed on the outer surface of the core part of the inner part of the wireless digital camera device, and is easy to enter into the organism because the shape is a sphere.

Description

technical field [0001] The present invention relates to the field of in-vivo examination of medical patients, and in particular relates to the image acquisition of full-view in vivo, static zero-power consumption technology of camera device, data transmission and processing and other technologies. Background technique [0002] In order to non-invasively examine the body cavity organs in animals or humans, especially the digestive tract body cavity; a wireless endoscopic capsule diagnostic system is currently used. Among them, the wireless capsule part is swallowed by the subject from the mouth, and traverses the gastrointestinal organs such as the gastrointestinal tract through the gastrointestinal peristalsis in the body, and at the same time collects relevant data in the digestive tract to complete the entire diagnostic process. [0003] Existing known wireless capsules place a miniature camera and LED light source at one or both ends of the wireless capsule for its illumi...

AI Technical Summary

Problems solved by technology

Although they have adopted different methods of expanding their field of view (including methods such as mechanical rotation); but these inventions cannot achieve full-view image acquisition; in addition, mechanical methods are expensive in terms of power consumption and implementation complexity, and will also Increase the size of the capsule in the body cavity

[0005] In addition, there is a common problem of static power consumption in the existing endoscope system, that is, the system is still in the state of normal power consumption or micro power consumption in the non-working state. For this reason, the patent numbers are CN01807801. In the technologies provided by inventions such as CN200510020338.4, a control switch (such as a steel reed pipe) is adopted, but this switch requires each capsule to carry a magnetically strong enough magnet, which increases the overall volume of the capsule; and shock resistance and reliability Poor, it will cause a large amount of power loss during transportation and storage, which directly affects the use time and actual effect of the capsule in the body

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