A method and system for directly presenting images dynamically

A direct and dynamic technology, applied in the use of sound waves/ultrasonic waves/infrasonic waves to analyze solids, sensors, diagnosis, etc., can solve problems such as dynamic real-time without calculation and data processing

Active Publication Date: 2017-01-25
ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, in view of the problem that the imaging process of the existing detection and imaging technology requires computer calculation and processing, and it is impossible to directly obtain dynamic real-time detection without calculation and data processing, the present invention provides a dynamic real-time non-computational direct detection based on generalized quantum theory. imaging technology

Method used

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  • A method and system for directly presenting images dynamically
  • A method and system for directly presenting images dynamically
  • A method and system for directly presenting images dynamically

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0151] Example 1: Ultrasonic field and colored ultrasonic microbubble induction dynamic real-time direct presentation of color images

[0152] Taking the sensing environment ultrasonic field and the ultrasonic microbubbles induced by it as an example, the method of using the sensing environmental field (IEF) to directly control the dynamics of the ultrasonic microbubbles to directly present color images in real time is described in detail below.

[0153] The detailed steps are as follows (such as Figure 7 shown):

[0154] 1) Generating the sensing environment ultrasonic field: Based on the RGB pixel scalar value of the image, the sensing environment ultrasonic field is generated passively. According to the RGB pixel scalar value of the image to be displayed, ultrasonic generators of three different frequencies (1M, 7M, 12M) emit ultrasonic waves of three frequencies to form three kinds of induced environmental ultrasonic fields, and the three induced environmental ultrasonic...

Embodiment 2

[0190] Embodiment 2: Generating the induction environment field (IEF) in an active way, and dynamically presenting the image of the detection object directly

[0191] In order to realize the dynamic and direct presentation of the image of the detection object that reflects the ultrasonic wave, for example, in medical imaging, ultrasonic reflective substances can be injected into the blood vessels, and the ultrasonic reflective substances can be dynamically tracked and imaged. As long as the ultrasonic reflective substances are wrapped outside the drug, it can It is very good at detecting the targeting of drugs, and because blood vessels are all over the body and the substances in them have strong fluidity, it is suitable to use the active method to generate the induction environment field (IEF), and dynamically and directly present the image of the detection object.

[0192] Taking the active way to generate the induced environmental ultrasonic field as an example, the method i...

Embodiment 3

[0218] Embodiment 3: Generating the induction environment field (IEF) in a semi-active manner, and dynamically presenting the image of the detection object directly

[0219] In order to be able to detect detection objects that shield or absorb sensing substances, and dynamically present images directly, such as in the field of medical fitness, due to the imaging of different tissues and organs in the living body to light, fat distribution, muscle distribution and other substances in the living body, it is possible to use The operator can directly see these distributions, which is suitable for generating the Inductive Environmental Field (IEF) in a semi-active way, and directly presents the image of the detection object dynamically.

[0220] Taking the semi-active way to generate the induced environmental ultrasonic field as an example, the method is described, and the specific implementation steps are as follows:

[0221] 1) Generation of induction environmental ultrasonic fie...

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Abstract

The invention discloses a three-dimensional space imaging interaction method and a three-dimensional space imaging interaction based on ultrasonic wave. The three-dimensional space imaging interaction method is different from an existing holographic imaging technology. The method comprises the following steps: firstly establishing the three-dimensional coordinates of a space to generate a target three-dimensional space, and emitting ultrasound microbubbles capable of sensing with an ultrasonic wave field; then, forming the ultrasonic wave field in the target three-dimensional space through the ultrasonic wave, generating a potential well position in the target three-dimensional space, controlling the ultrasound microbubbles to move in the target three-dimensional space and to be stabilized at the position, simultaneously coloring the ultrasound microbubbles by adjusting laser, and thus forming a three-dimensional image in the target three-dimensional space. Furthermore, the three-dimensional images are converted into 3D pictures and the 3D pictures are shown for a user by continuously repeating the steps. Through the 3D pictures shown for the user in the method and the system, the user can be interactive with the 3D pictures, so that the user can feel the real touch of the 3D pictures in the interaction process, and the original structures of the three-dimensional images can also be maintained.

Description

technical field [0001] The invention belongs to the field of quantum mechanics application and detection imaging, and in particular relates to a method and a system for dynamically and directly presenting images. Background technique [0002] Every advancement in detection and imaging technology is accompanied by a further expansion and deepening of human vision. Detection and imaging technology starts from X-ray imaging technology, has experienced the improvement of CT imaging technology, and has developed to the most advanced nuclear magnetic resonance imaging technology (MRI). However, the existing detection and imaging technologies all require processors to calculate and reconstruct sensor data. Even MRI needs to process the received nuclear magnetic resonance signal, and it needs a long calculation and processing process to get the detection image, which cannot realize the dynamic real-time detection and imaging. However, in the biological world, chameleons can change...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B8/00A61B5/05A61B5/00G01N29/06
CPCA61B5/0033A61B5/055A61B8/00A61B8/466A61B8/481G01N29/06G01N29/0609
Inventor 孟濬陈啸刘琼张燃傅幼萍
Owner ZHEJIANG UNIV
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