KR20190063327A - Open platform system for optical medical devices with variable wavelength and waveform and control method thereof - Google Patents

Abstract

The present invention relates to an open platform system capable of varying a wavelength and a waveform for an optical medical device, capable of easily varying the waveform in an existing device. According to the present invention, the open platform system capable of varying a wavelength and a waveform for an optical medical device comprises: an open platform unit varying a light source; a control unit controlling the open platform unit; and a display unit outputting a result in accordance with the control unit. Moreover, the present invention relates to a method for controlling the open platform system, which comprises the steps of: varying the light source; controlling the open platform unit; and outputting the result.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an open platform system for an optic medical apparatus and a control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an open platform system and a control method thereof, and more particularly, to an open platform system for optical medical equipment and a control method thereof, in which wavelength and waveform can be varied.

The fields in which optically based technologies are applied to medical devices are very broadly formed in the tertiary medical industry, which is represented by convergence with each field of prevention, diagnosis and treatment. In the world of optical-based medical industry, OCT (optical coherence tomography), which has been attracting attention as a next-generation imaging device, is still in its infancy. Its importance is highly appreciated.

Optical medical devices include three-dimensional real-time imaging system combined with transmission type imaging system such as OCT and fluorescence image, surgical treatment using laser / LED (Light Emitting Diode), surgical treatment device applied to ophthalmology, dermatology, 1 to 3 are photographs showing an example of various types of conventional optical medical apparatuses. Referring to FIGS. 1 to 3, the optical medical apparatuses shown in FIGS. You can see the figure. In addition, there are a photodynamic system for performing treatment through light irradiation and a device or system for aesthetic treatment using light, and related prior arts include Patent No. 10-0804425 Regulating devices and methods).

Further, recently, there has been a great increase in the demand for optical technology-based advanced medical devices such as PET-CT (Positron Emission Tomography-Computer Tomography) for advanced medical services, The next generation of medical devices are being studied and developed.

These optical medical devices differ in wavelength, pulse, amplitude and the like depending on the field of use thereof. For example, the atopic treatment device uses 380nm, continuous pulse, OCT uses 1,300nm, and 100kHz pulse. The neonatal jaundice treatment device uses 330nm, continuous pulse, and pain reliever uses 830nm and discrete pulse. FIG. 4 is a view for explaining the position occupied by the optical medical instrument on the spectrum chart. As shown in FIG. 4, it can be seen that the spectral positions occupied by the field of use of the optical medical instrument are different.

As described above, although optical medical devices have different values of variables used for their respective fields of use, the types of variables are common, and the fact that the types of the variables are common is different from the optical medical device and other medical devices . By utilizing these differences, if the commonly applied wavelengths, pulses, and amplitudes are modularized and made open platform so that they can be freely applied during the development process, the development cost of optical medical devices can be drastically reduced, As described above, there is a need to develop an open platform device technology for optical medical devices.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods, and it is an open platform system which includes an open platform unit for varying a light source, a control unit for controlling an open platform unit, An open platform portion for varying the light source may be modularized and adapted to be applied to one or more optical medical devices, i. E. By allowing the open platform portion to be coupled to various input and output portions, The open platform system for optical medical devices which can change the wavelength and waveform, and the control method thereof, which enables development of various medical devices in a short time, For that purpose The.

The first open platform part of the open platform part includes the optical cavity resonator for varying the wavelength so that various wavelengths can be used. The first open platform part includes various types of optical transmission parts, Provided is an open platform system for an optical medical device and its control method capable of changing wavelength and waveform so that one optical medical device device can be utilized as a broad spectrum based optical medical device device, For other purposes.

The second open platform portion of the open platform portion includes an optical output modulator for varying the waveform so that various waveforms can be used. The second open platform portion is connected to the first open platform portion, In addition, the second open platform unit can be directly connected to the conventional spectrum generator, so that it is possible to easily change the waveform of the existing device, and the wavelength and the waveform can be changed It is another object to provide an open platform system for optical medical devices and a control method thereof.

According to an aspect of the present invention, there is provided an open platform system for an optical medical device, the wavelength and the waveform being variable,

As an open platform system,

An open platform for varying the light source;

A control unit for controlling the open platform unit; And

And a display unit for outputting a result according to the control unit,

Wherein the open platform portion is modularized and is applicable to one or more optical medical devices.

Preferably, the open platform portion includes:

The wavelength, and the waveform.

Preferably, the open platform portion includes:

A first open platform portion, and a second open platform portion.

More preferably,

The first open platform portion may include an optical parametric resonator.

More preferably,

The optical parametric resonator can vary the wavelength of light.

More preferably,

The optical parametric resonator may further include an optical signal filtering unit for filtering the optical signal.

More preferably,

The first open platform part may be connected to an optical transmitter for transmitting light and a light receiver for receiving light.

More preferably,

The second open platform portion may include an optical output modulator.

More preferably,

The optical output modulator may vary the waveform of the wavelength.

More preferably,

The second open platform part may be connected to the first open platform part.

According to another aspect of the present invention, there is provided a method for controlling an open platform system for an optical medical device, the method comprising the steps of:

A control method for an open platform system,

(1) varying the light source in the open platform portion;

(2) the control unit controlling the open platform unit of the step (1); And

(3) the display unit outputs the result according to the control unit of the step (2)

Wherein the open platform portion is modularized and is applicable to one or more optical medical devices.

Preferably, the open platform portion includes:

The wavelength, and the waveform.

Preferably, the open platform portion includes:

A first open platform portion, and a second open platform portion.

More preferably,

The first open platform portion may include an optical parametric resonator.

More preferably,

The optical parametric resonator can vary the wavelength of light.

More preferably,

The optical parametric resonator may further include an optical signal filtering unit for filtering the optical signal.

More preferably,

The first open platform part may be connected to an optical transmitter for transmitting light and a light receiver for receiving light.

More preferably,

The second open platform portion may include an optical output modulator.

More preferably,

The optical output modulator may vary the waveform of the wavelength.

More preferably,

The second open platform part may be connected to the first open platform part.

According to the open platform system and the control method therefor, the open platform system for changing the light source, the control unit for controlling the open platform unit, and the control unit for controlling the optical platform, An open platform unit for varying a light source is modularized and adapted to be applied to one or more optical medical instruments, that is, an open platform unit can be coupled to various input units and output units, It can be applied to the development of spectral-based optical medical devices, which can drastically reduce the development cost of optical medical devices and enable development of various medical devices in a short time.

In addition, according to the present invention, the first open platform portion of the open platform portion includes the optical parametric resonator for varying the wavelength, so that various wavelengths can be utilized. The first open platform portion includes various types of optical transmitter, By configuring it to be freely connectable, one optical medical device can be utilized as a broad spectrum based optical medical device.

In addition, according to the present invention, the second open platform portion of the open platform portion includes the optical output modulator for varying the waveform, thereby making it possible to use various waveforms, and the second open platform portion is connected to the first open platform portion, And the waveform can be varied. In addition, the second open platform unit can be directly connected to the conventional spectrum generator, so that the waveform can be easily changed even in an existing apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a photograph showing an example of a conventional optical medical apparatus of various types; FIG.
2 is a photograph showing another example of a conventional optical medical device of various types.
3 is a photograph showing another example of a conventional optical medical device of various types.
4 is a view for explaining the position occupied by an optical medical instrument on a spectrum chart;
5 illustrates an overall configuration of an open platform system for optical medical devices in which the wavelength and waveform can be varied according to an embodiment of the present invention;
FIG. 6 is a view showing the configuration of each open platform part in an open platform system for optical medical devices in which wavelengths and waveforms can be varied according to an embodiment of the present invention; FIG.
FIG. 7 is a view showing a configuration of a first open platform part in an open platform system for optical medical devices in which wavelengths and waveforms can be varied according to an embodiment of the present invention; FIG.
8 is a diagram illustrating an open platform system for an optical medical device in which the wavelength and waveform can be varied according to an embodiment of the present invention;
9 is a view for explaining how an open platform system for an optical medical instrument, in which wavelengths and waveforms can be varied, is used in an actual optical medical instrument according to an embodiment of the present invention;
10 is a flow chart of a method of controlling an open platform system for an optical medical device in which the wavelength and waveform can be varied according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which may be readily understood by those skilled in the art. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

5 is a diagram showing an overall configuration of an open platform system for an optical medical device in which wavelengths and waveforms can be varied according to an embodiment of the present invention. 5, an open platform system 10 for an optics apparatus in which a wavelength and a waveform can be varied according to an embodiment of the present invention is an open platform system, which includes an open platform unit 100 for varying a light source, A control unit 200 for controlling the open platform unit 100 and a display unit 300 for outputting a result according to the control unit 200. The open platform unit 100 is modularized and is connected to one or more optical medical devices It is a feature of the construction that it is applicable.

The open platform unit 100 serves to vary the light source, and can change at least one of the wavelength and the waveform. 6 is a diagram showing the configuration of each of the open platform portions in an open platform system for optical medical devices in which the wavelength and the waveform can be changed according to an embodiment of the present invention. The portion 100 may include a first open platform portion 110, and a second open platform portion 120. More specifically, the first open platform unit 110 may include an optical cavity resonator 112 for varying the wavelength of light, and the second open platform unit 120 may include an optical output modulator 122 ).

FIG. 7 is a view showing a configuration of a first open platform part in an open platform system for an optical medical instrument in which the wavelength and the waveform can be changed according to an embodiment of the present invention. Referring to FIG. 7, It is confirmed that the first open platform unit 110 further includes not only the optical cavity resonator 112 for changing the wavelength of light but also the optical transmitter 114 for transmitting light and the optical receiver 116 for receiving light . The first open platform unit 110 is connected to an optical transmitter 114 for transmitting light and a light receiver 116 for receiving light and is capable of transmitting and receiving light. The first open platform part 110 of the open platform system 10 for an optical medical device in which the waveform can be varied can be freely connected to the optical transmission part 114 and the light reception part 116 of various types, Of optical medical devices to be used as a broad spectrum based optical medical device.

FIG. 8 is a view for explaining an open platform system for an optical medical instrument in which wavelengths and waveforms can be varied according to an embodiment of the present invention. 8, an open platform system 10 for an optical medical instrument in which the wavelength and the waveform can be changed includes a first open platform part 110 for transmitting and receiving light and changing a wavelength of light, The configuration of the second open platform part 120 connected to the platform part 110 to vary the waveform of the light can be confirmed. It is also possible to identify the control unit 200 connected to the first open platform unit 110 and the second open platform unit 120 to control the open platform unit 100 and to perform signal and image processing from the control unit 200 And a display unit 300 for receiving and outputting information. The optical cavity resonator 112 of the first open platform unit 110 may further include an optical signal filtering unit 118 for filtering the optical signal.

The control unit 200 may be a central control computer and controls the open platform unit 100. Specifically, each of the first open platform unit 110, the second open platform unit 110, And adjusts the variable degree of the light source 120 to control the output light. The display unit 300 outputs a result according to the control unit 200 controlling the open platform unit 100. The display unit 300 includes a first open platform unit 110, And can output the light.

FIG. 9 is a view for explaining how an open platform system for an optical medical instrument, in which wavelengths and waveforms can be varied, is used in an actual optical medical instrument according to an embodiment of the present invention. 9, a first open platform part 110 including a second open platform part 120 including an optical output modulator 122 for varying the waveform and a light-median resonator 112 for varying wavelength, ) Are connected to each other. The open platform system 10 for an optical medical instrument in which the wavelength and the waveform can be changed according to the present invention can change both the wavelength and the waveform or can change either the wavelength or the waveform by using it. According to another embodiment, by configuring the second open platform part 120 to be directly connected to the existing spectrum generator device, it is possible to easily change the waveform of the existing device.

10 is a flowchart illustrating a method of controlling an open platform system for an optical medical device in which wavelengths and waveforms can be varied according to an embodiment of the present invention. 10, a control method of an open platform system 10 for an optical medical device, in which a wavelength and a waveform can be varied according to an embodiment of the present invention, The control unit 200 controls the open platform unit 100 of the step S100 in operation S200. The control unit 200 controls the display unit 300 (S300) of outputting a result according to the control unit 200 of step S200, wherein the open platform unit 100 is modularized so as to be applicable to one or more optical medical devices .

Details related to the respective steps have been described in detail with respect to the open platform system 10 for an optical medical instrument in which the wavelength and the waveform can be changed according to an embodiment of the present invention, and a detailed description thereof will be omitted .

As described above, according to the open platform system and its control method for an optical medical apparatus, in which the wavelength and waveform proposed in the present invention can be varied, an open platform system, which controls an open platform unit and an open platform unit, And a display unit for outputting a result according to the control unit, wherein the open platform unit for modifying the light source is modularized and configured to be applicable to one or more optical medical devices, that is, to connect the open platform unit to various input and output units And it can be applied to the development of various spectral-based optical medical devices. Thus, it is possible to dramatically reduce the development cost of optical medical devices and to develop various medical devices in a short time. In addition, the first open platform portion of the open platform portion includes the optical cavity resonator for varying the wavelength, so that various wavelengths can be used. The first open platform portion can be freely connected to the optical transmitter portion and the optical receiver portion in various forms. Thereby making it possible to utilize one optical medical instrument device as a wide spectrum-based optical medical instrument device. In addition, the second open platform portion of the open platform portion includes various optical waveguide modulators for varying the waveform, and the second open platform portion is connected to the first open platform portion, thereby changing both the wavelength and the waveform. And the second open platform unit can be directly connected to the conventional spectrum generator, so that it is possible to easily change the waveform of an existing apparatus.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

10: An open platform system for an optical medical instrument in which the wavelength and the waveform can be varied according to an embodiment of the present invention
100: open platform part
110: first open platform part
112: optical parametric resonator
114: Optical transmitter
116:
118: Optical signal filtering unit
120: second open platform part
122: optical output modulator
200:
300:

Claims (20)

As an open platform system,
An open platform for varying the light source;
A control unit for controlling the open platform unit; And
And a display unit for outputting a result according to the control unit,
Wherein the open platform portion is modular and is applicable to one or more optical medical devices.
The portable terminal according to claim 1,
Wherein the wavelength and the waveform are variable, wherein at least one of the wavelength, the wavelength, and the waveform is varied.
The portable terminal according to claim 1,
A first open platform portion, and a second open platform portion, wherein the wavelength and waveform can be varied.
The method of claim 3,
Wherein the first open platform portion comprises an optical parametric resonator, wherein the wavelength and waveform can be varied.
5. The method of claim 4,
Wherein the optical parametric resonator is adapted to vary the wavelength of light, wherein the wavelength and waveform can be varied.
5. The method of claim 4,
Wherein the optical parametric resonator further comprises an optical signal filtering unit for filtering the optical signal, wherein the wavelength and the waveform can be varied.
The method of claim 3,
Wherein the first open platform part is connected to a light transmitting part for transmitting light and a light receiving part for receiving light, wherein the wavelength and the waveform can be varied.
The method of claim 3,
And wherein the second open platform portion comprises an optical output modulator, wherein the wavelength and waveform can be varied.
9. The method of claim 8,
Wherein the optical output modulator varies the waveform of the wavelength. ≪ Desc / Clms Page number 20 >
The method of claim 3,
And the second open platform part is connected to the first open platform part, wherein the wavelength and the waveform can be varied.
A control method for an open platform system,
(1) varying the light source in the open platform portion;
(2) the control unit controlling the open platform unit of the step (1); And
(3) the display unit outputs the result according to the control unit of the step (2)
Wherein the open platform portion is modular and is applicable to one or more optical medical devices.
[12] The system of claim 11,
Wherein the wavelength and the waveform can be varied, characterized in that at least one of the wavelength, the wavelength, and the waveform is varied.
[12] The system of claim 11,
A first open platform part, and a second open platform part, wherein the wavelength and the waveform can be varied.
14. The method of claim 13,
Characterized in that the first open platform part comprises a light parametric resonator, wherein the wavelength and waveform can be varied.
15. The method of claim 14,
Wherein the optical parametric resonator varies the wavelength of the light, wherein the wavelength and the waveform can be varied.
15. The method of claim 14,
Wherein the optical parametric resonator further comprises an optical signal filtering unit for filtering the optical signal, wherein the wavelength and the waveform can be varied.
14. The method of claim 13,
Wherein the first open platform is connected to an optical transmitter for transmitting light and a light receiver for receiving light, wherein the wavelength and the waveform can be varied.
14. The method of claim 13,
Wherein the second open platform portion comprises an optical power modulator, wherein the wavelength and waveform can be varied.
19. The method of claim 18,
Wherein the optical power modulator varies the waveform of the wavelength, wherein the wavelength and the waveform can be varied.
14. The method of claim 13,
Wherein the second open platform part is connected to the first open platform part, wherein the wavelength and the waveform can be varied.

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