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Publication numberCN102178510 A
Publication typeApplication
Application numberCN 201110074203
Publication date14 Sep 2011
Filing date25 Mar 2011
Priority date25 Mar 2011
Publication number201110074203.1, CN 102178510 A, CN 102178510A, CN 201110074203, CN-A-102178510, CN102178510 A, CN102178510A, CN201110074203, CN201110074203.1
Inventors刘静, 金超
Applicant清华大学
Export CitationBiBTeX, EndNote, RefMan
External Links: SIPO, Espacenet
Mobile phone infrared imaging system
CN 102178510 A
Abstract
The invention relates to a mobile phone infrared imaging system. An infrared imaging device is in wireless connection or wired connection with a mobile phone having an infrared imaging processing module; and the mobile phone is in wireless connection with a wireless remote communication module matched with the mobile phone to form the mobile phone infrared imaging system. The mobile phone infrared imaging system has low price and can realize functions finished by the past camera devices and the conventional large-scale infrared diagnosis equipment. The mobile phone infrared imaging system is established on the basis of the conventional electronic circuit integration and mobile phone module development technique, so the mobile phone infrared imaging system has the characteristics of convenience of carrying and flexibility in using. The mobile phone infrared imaging system has the advantage of wide application. The mobile phone infrared imaging system can be applied to individuals and families to perform vital sign monitoring in daily life, can monitor family environments, and can still perform vital sign monitoring at night and in dark environments.
Claims(9)  translated from Chinese
1. 一种手机红外成像系统,包括红外成像器(1),其特征在于:该红外成像器(1)同内含红外成像处理模块(10)的手机(9)无线连接或有线连接,而手机(9)同与其适配的无线远程通讯模块(11)无线连接。 A phone infrared imaging system comprising an infrared imager (1), characterized in that: the infrared imaging device (1) with the inclusion of infrared imaging processing module (10) phone (9) wireless connections or wired, and Mobile Phone (9) with its adaptation of wireless remote communications module (11) wireless connection.
2.根据权利要求1所述的手机红外成像系统,其特征在于:所述的红外成像器(1)包括框架式折叠支架(16),框架式折叠支架(16)顶部内表面连接自反馈式机械臂单元(15) 的一端,而自反馈式机械臂单元(1的另一端与红外成像模块(101)相连接,红外成像模块(101)的有线口或无线口分别以无线连接或有线连接的方式和手机(9)相连接。 The phone infrared imaging system according to claim 1, characterized in that: said infrared imaging device (1) comprises a frame folding bracket (16), (16) the top of the inner surface of the frame from folding bracket feedback One end of the robot arm unit (15), while the other end self-feedback arm unit (1 is connected with infrared imaging module (101), infrared imaging module (101) mouth wired or wireless ports are connected to a wireless or wired connection ways and phones (9) is connected.
3.根据权利要求2所述的手机红外成像系统,其特征在于:所述的自反馈式机械臂单元(1采用连接有万向节的机械臂组成。 Phone according to claim 2, wherein the infrared imaging system, characterized by: self-feedback arm unit according to (1 connected using gimbal arm components.
4.根据权利要求2所述的手机红外成像系统,其特征在于:所述的红外成像模块(101) 包括红外成像镜头及传感器模块O)、红外成像数据采集模块(3)、红外成像数据存储模块G)、红外成像控制模块(5)、通讯模块(6)、位置控制模块(7)以及手机控制模块(8)。 4. The phone infrared imaging system of claim 2, wherein: said infrared imaging module (101) comprises an infrared imaging camera and sensor module O), infrared imaging data acquisition module (3), infrared imaging data storage Module G), infrared imaging control module (5), the communication module (6), position control module (7) and mobile control module (8).
5.根据权利要求3所述的手机红外成像系统,其特征在于:所述的红外成像镜头及传感器模块(采用非制冷型焦平面阵列FPA,而其红外成像镜头的透镜采用半导体红外镜头。 5. The phone infrared imaging system of claim 3, wherein: said infrared imaging camera and sensor module ( uncooled focal plane array FPA, while the infrared imaging camera lens semiconductor infrared lens.
6.根据权利要求3所述的手机红外成像系统,其特征在于:所述的红外成像镜头及传感器模块(采用点阵或者线阵传感器及透镜一体装置。 Phone according to claim 3, wherein the infrared imaging system, characterized in that: said infrared imaging camera and sensor module ( dot matrix or line sensor and lens integrated devices.
7.根据权利要求3所述的手机红外成像系统,其特征在于:所述的成像控制模块(5) 内设置和对应的红外成像镜头及传感器模块O)中的传感器相适配的传感器扫描控制子模块(10和执行鲁棒性的红外图像数据插值算法的图像调整子模块(103)。 Mobile infrared imaging system according to claim 3, characterized in that: the imaging control module (5) and a corresponding set of infrared imaging lenses and the sensor module O) a sensor adapted to control the scanning of the sensor sub-module (10 and execute robust infrared image data interpolation algorithm for image adjustment sub-module (103).
8.根据权利要求1或者权利要求2所述的手机红外成像系统,其特征在于:所述的手机(9)与红外成像器(1)的有线连接方式采用USB连线。 According to claim 1 or claim 2, wherein the mobile phone infrared imaging system, characterized in that: the mobile phone (9) and an infrared imager (1) wired connection using a USB cable.
9.根据权利要求2所述的手机红外成像系统,其特征在于:所述的手机(9)与红外成像器(1)的无线连接方式为蓝牙、Wi-Fi或者Zigbee连接。 Phone according to claim 2, wherein the infrared imaging system, wherein: the mobile phone (9) and an infrared imager (1) of the wireless connection to Bluetooth, Wi-Fi or Zigbee connection.
Description  translated from Chinese

手机红外成像系统 Mobile infrared imaging system

技术领域 Technical Field

[0001] 本发明属于医疗器械装置领域,具体涉及一种手机红外成像系统。 [0001] The present invention belongs to the field of medical devices unit, in particular to a mobile phone infrared imaging system. 背景技术 Background

[0002] 随着现代科学技术的进步,人类获取了越来越多和越来越完善的检测自身疾病的系统,其中热方法的有效利用更促进了这一领域的长足进展。 [0002] With the progress of modern science and technology, human access to more and more and more of their disease and improve the detection system, which method is more efficient use of the heat contributed to considerable progress in this area.

[0003] 近年来,随着计算机、微系统技术以及大容量微存储器技术与传感器技术,加上无线通信技术的飞速发展,使得便携化红外成像产品以及远程监测不再成为一件难事。 [0003] In recent years, as computer, microsystems technology and high-capacity micro memory technology and sensor technology, coupled with the rapid development of wireless communication technology, making portable infrared imaging products, as well as remote monitoring will no longer be a problem. 尽管市场上已存在便携化红外成像产品,但其开发技术复杂,而且设备往往采用成像、操作及显示一体化设计,极大的增加了开发成本,尚不能实现个人家庭应用的普适化。 Despite the presence on the market portable infrared imaging products, but its development technology complex, and often use imaging equipment, operation and display integrated design, greatly increasing the cost of development, yet not achieve universal application of individual households. 同时现有设备也缺乏无线通讯功能,无法完成像手机那样的数据传输、远程控制乃至接受远程指导等功能,因而在推广应用方面存在一定局限性。 At the same time the existing equipment is also a lack of wireless communication, can not be completed as mobile as data transmission, remote control and even accept remote guidance and other functions, and thus there are some limitations in the promotion of applications.

发明内容 DISCLOSURE

[0004] 为了克服上述现有技术存在的不足,本发明的目的在于提供一种手机红外成像系统,通过红外成像器同内含红外成像处理模块的手机无线连接或有线连接,而手机同与其适配的无线远程通讯模块无线连接构成手机红外成像系统,其价格低廉,可实现以往摄像装置及常规大型红外诊断设备所能完成的功能;另外建立在当前电子电路集成化及手机模块开发技术的基础之上,具有携带方便,使用灵活的特点;还具有用途广泛的优点,该手机红外成像系统可以用于个人及家庭进行日常生活的生命体征监测,还可实现家庭环境的监测,既使在暗夜无光时依然能进行生命体征监测。 [0004] In order to overcome the shortcomings of the prior art described above, the object of the present invention is to provide a mobile phone infrared imaging system with embedded mobile wireless infrared image processing module or wired connection via infrared imaging devices, and mobile phones with its proper wireless remote communication module connected to form a wireless phone with the infrared imaging system, its low price, can be realized in the past large-scale conventional infrared imaging device and diagnostic equipment can be completed features; create another based on current electronic integrated circuits and mobile phone module development technology top, portable, flexible features; also has the advantages of a wide range of uses, the phone infrared imaging systems can be used for personal and family vital signs monitoring of daily life, but also to achieve the monitoring of a family environment, even in the dark still able to monitor the vital signs when light.

[0005] 为了达到上述目的,本发明所采用的技术方案是: [0005] In order to achieve the above object, the technical scheme of the present invention is used is:

[0006] 一种手机红外成像系统,包括红外成像器1,该红外成像器1同内含红外成像处理模块10的手机9无线连接或有线连接,而手机9同与其适配的无线远程通讯模块11无线连接。 [0006] A mobile phone infrared imaging system, including 1, 1 9 wireless connection with mobile phones or wired infrared imaging processing block 10 of the infrared imaging device which contains an infrared imager, while the phone 9 with its adaptation of wireless remote communication module 11 wireless connection.

[0007] 所述的红外成像器1包括框架式折叠支架16,框架式折叠支架16顶部内表面连接自反馈式机械臂单元15的一端,而自反馈式机械臂单元15的另一端与红外成像模块101 相连接,红外成像模块101的有线口或无线口分别以无线连接或有线连接的方式和手机9 相连接。 [0007] The infrared imaging device 1 includes a frame folding frame 16, frame type folding stand 16 top inner surface of the connecting arm from one end of the feedback unit 15, and the feedback from the other end of the arm unit 15 and the infrared imaging module 101 is connected to port 101 of infrared imaging modules wired or wireless ports are connected to a wireless or wired connection mode and connected phone 9.

[0008] 所述的红外成像模块101包括红外成像镜头及传感器模块2、红外成像数据采集模块3、红外成像数据存储模块4、红外成像控制模块5、通讯模块6,位置控制模块7以及手机控制模块8。 [0008] The infrared imaging module 101 includes an infrared imaging camera and sensor module 2, 3 infrared imaging data acquisition module, data storage module 4 infrared imaging, infrared imaging control module 5, 6 communications module, position control module 7 and mobile control Module 8.

[0009] 所述的红外成像镜头及传感器模块2采用非制冷型焦平面阵列FPA,而其红外成像镜头的透镜采用半导体红外镜头。 [0009] The infrared imaging lens and the sensor module 2 uncooled focal plane array FPA, while the infrared imaging camera lens semiconductor infrared lens.

[0010] 所述的红外成像镜头及传感器模块2采用点阵或者线阵传感器及透镜一体装置。 [0010] The infrared imaging lens and the sensor module 2 dot matrix or line sensor and lens integrated devices.

[0011] 所述的成像控制模块5内设置和对应的红外成像镜头及传感器模块2中的传感器相适配的传感器扫描控制子模块102和执行鲁棒性的红外图像数据插值算法的图像调整子模块103。 [0011] The imaging control module within the 5 settings and the corresponding infrared imaging camera and sensor module 2 sensor adapted the sensor scanning control sub-module 102 and execute robust infrared image data interpolation algorithm for image adjustment sub module 103.

[0012] 所述的手机9与红外成像器1的有线连接方式采用USB连线。 [0012] The mobile phone 9 and infrared imager using a wired connection 1 USB connection.

[0013] 所述的手机9与红外成像器1的无线连接方式为蓝牙、Wi-Fi或者Zigbee连接。 Wireless connection [0013] The mobile phone 9 and infrared imaging device 1 is Bluetooth, Wi-Fi or Zigbee connection.

[0014] 所述的自反馈式机械臂单元15采用连接有万向节的机械臂组成。 [0014] The self-feedback arm unit 15 is connected to a universal joint using a robotic arm components.

[0015] 通过红外成像器1同内含红外成像处理模块10的手机9无线连接或有线连接,而手机9同与其适配的无线远程通讯模块11无线连接构成手机红外成像系统,其价格低廉, 可实现以往摄像装置及常规大型红外诊断设备所能完成的功能;另外建立在当前电子电路集成化及手机模块开发技术的基础之上,具有携带方便,使用灵活的特点;还具有用途广泛的优点,该手机红外成像系统可以用于个人及家庭进行日常生活的生命体征监测,还可实现家庭环境的监测,既使在暗夜无光时依然能进行生命体征监测。 [0015] The infrared imaging device 1 with embedded infrared imaging processing module 10 is connected to the phone 9 wireless or wired, and phone adapter 9 with its wireless remote communications module 11 constituting phone wireless connection infrared imaging system, its low price, can achieve large-scale conventional infrared imaging device and conventional diagnostic equipment can be completed features; in addition based on the current electronic circuit integration and the development of technology over the phone module, are portable, flexible features; also has a wide range of applications advantages The handset infrared imaging system can be used for personal and family vital signs monitoring of daily life, but also to achieve the monitoring of a family environment, can still vital signs monitor even when no light in the dark.

附图说明 Brief Description

[0016] 图1是本发明的手机红外成像系统的结构原理连接示意图。 [0016] FIG. 1 is a schematic arrangement of a mobile phone infrared imaging system of the present invention, connection diagram.

[0017] 图2是本发明的红外成像模块结构示意图。 [0017] FIG. 2 is a schematic view of an infrared imaging module structure of the present invention.

[0018] 图3是本发明的红外成像器示意图。 [0018] FIG. 3 is an infrared imaging device of the present invention. Fig.

[0019] 图4是本发明的成像控制模块示意图。 [0019] FIG. 4 is a schematic view of the imaging control module of the present invention.

具体实施方式 DETAILED DESCRIPTION

[0020] 下面结合附图和实施例对本发明作更详细的说明。 [0020] below in conjunction with the accompanying drawings and the embodiment of the present invention will be described in more detail.

[0021] 实施例1 : [0021] Example 1:

[0022] 如图1所示,手机红外成像系统,包括红外成像器1,该红外成像器1同内含红外成像处理模块10的手机9无线连接或有线连接,而手机9同与其适配的无线远程通讯模块11无线连接。 [0022] As shown, the phone infrared imaging system 1, comprising 1, a wireless connection with the mobile phone 9 or wired infrared imaging processing block 10 of the infrared imaging device contains an infrared imaging device, and a mobile phone with its adaptation 9 wireless remote communications module 11 wireless connection. 如图3所示,所述的红外成像器1包括框架式折叠支架16,框架式折叠支架16顶部内表面连接自反馈式机械臂单元15的一端,而自反馈式机械臂单元15的另一端与红外成像模块101相连接,红外成像模块101的有线口或无线口分别以无线连接或有线连接的方式和手机9相连接。 Shown, said infrared imaging device 1 comprises a folding frame holder 16, frame type folding stand 16 from the top end of the inner surface of the connecting arm feedback unit 15 in FIG. 3, and the feedback from the other end of the arm means 15 connected with infrared imaging module 101, infrared imaging module 101 wired or wireless port mouth are connected to a wireless or wired connection mode and connected phone 9. 如图2所示,所述的红外成像模块101包括红外成像镜头及传感器模块2、红外成像数据采集模块3、红外成像数据存储模块4、红外成像控制模块5、通讯模块6,位置控制模块7以及手机控制模块8。 2, the infrared imaging module 101 includes an imaging lens and an infrared sensor module 2, module 3 infrared imaging data acquisition, data storage module 4 infrared imaging, infrared imaging control module 5, the communication module 6, the position of the control module 7 and phone control module 8. 所述的红外成像镜头及传感器模块2采用非制冷型焦平面阵列FPA,而其红外成像镜头的透镜采用半导体红外镜头。 Said infrared imaging camera and sensor module 2 uncooled focal plane array FPA, while the infrared imaging camera lens semiconductor infrared lens. 如图4所示,所述的成像控制模块5内设置和对应的红外成像镜头及传感器模块2中的传感器相适配的传感器扫描控制子模块102和执行鲁棒性的红外图像数据插值算法的图像调整子模块103。 4, the imaging control module 5 is set and the corresponding infrared imaging camera and sensor modules adapted sensor 2 sensor as shown in the sub-scanning control module 102 and execute robust infrared image data interpolation algorithm Image Adjustment sub-module 103. 所述的手机9与红外成像器1的有线连接方式采用USB连线。 The phone 9 infrared imager using a wired connection 1 USB connection. 所述的手机9与红外成像器1 的无线连接方式为蓝牙、Wi-Fi或者Zigbee连接。 The phone 9 and a wireless connection IR imager 1 for Bluetooth, Wi-Fi or Zigbee connection. 所述的自反馈式机械臂单元15采用连接有万向节的机械臂组成。 The self-feedback arm unit 15 is connected to a universal joint using a robotic arm components.

[0023] 实施例2 : [0023] Example 2:

[0024] 如图1所示,手机红外成像系统,包括红外成像器1,该红外成像器1同内含红外成像处理模块10的手机9无线连接或有线连接,而手机9同与其适配的无线远程通讯模块11无线连接。 [0024] As shown, the phone infrared imaging system 1, comprising 1, a wireless connection with the mobile phone 9 or wired infrared imaging processing block 10 of the infrared imaging device contains an infrared imaging device, and a mobile phone with its adaptation 9 wireless remote communications module 11 wireless connection. 如图3所示,所述的红外成像器1包括框架式折叠支架16,框架式折叠支架16顶部内表面连接自反馈式机械臂单元15的一端,而自反馈式机械臂单元15的另一端与红外成像模块101相连接,红外成像模块101的有线口或无线口分别以无线连接或有线连接的方式和手机9相连接。 Shown, said infrared imaging device 1 comprises a folding frame holder 16, frame type folding stand 16 from the top end of the inner surface of the connecting arm feedback unit 15 in FIG. 3, and the feedback from the other end of the arm means 15 connected with infrared imaging module 101, infrared imaging module 101 wired or wireless port mouth are connected to a wireless or wired connection mode and connected phone 9. 如图2所示,所述的红外成像模块101包括红外成像镜头及传感器模块2、红外成像数据采集模块3、红外成像数据存储模块4、红外成像控制模块5、通讯模块6,位置控制模块7以及手机控制模块8。 2, the infrared imaging module 101 includes an imaging lens and an infrared sensor module 2, module 3 infrared imaging data acquisition, data storage module 4 infrared imaging, infrared imaging control module 5, the communication module 6, the position of the control module 7 and phone control module 8. 所述的红外成像镜头及传感器模块2采用点阵或者线阵传感器及透镜一体装置。 Said infrared imaging camera and sensor module 2 dot matrix or line sensor and lens integrated devices. 如图4所示,所述的成像控制模块5内设置和对应的红外成像镜头及传感器模块2中的传感器相适配的传感器扫描控制子模块102和执行鲁棒性的红外图像数据插值算法的图像调整子模块103。 4, the imaging control module 5 is set and the corresponding infrared imaging camera and sensor modules adapted sensor 2 sensor as shown in the sub-scanning control module 102 and execute robust infrared image data interpolation algorithm Image Adjustment sub-module 103. 所述的手机9与红外成像器1的有线连接方式采用USB连线。 The phone 9 infrared imager using a wired connection 1 USB connection. 所述的手机9与红外成像器1的无线连接方式为蓝牙、Wi-Fi或者Zigbee连接。 The phone 9 and a wireless connection IR imager 1 for Bluetooth, Wi-Fi or Zigbee connection. 所述的自反馈式机械臂单元15采用连接有万向节的机械臂组成。 The self-feedback arm unit 15 is connected to a universal joint using a robotic arm components.

[0025] 本发明的工作原理为:先将红外成像器1的框架式折叠支架16设置在所能检测到需要检测的人体部位的范围内,随后启动自反馈式机械臂单元15对红外成像模块101进行成像过程的初步焦距调焦智能化操作,待初步焦距调焦完成后红外成像镜头及传感器模块2的红外成像镜头对需要检测的人体部位进行实时检测并将该人体部位的位置信息反馈给位置控制模块7,接着根据该位置信息进一步启动自反馈式机械臂单元15对红外成像模块101进行校准成像过程焦距调焦智能化操作,待校准焦距调焦完成后调用红外成像模块101的红外成像控制模块5对需要检测的人体部位控制红外成像镜头及传感器模块2进行扫描,扫描后的数据发送到红外成像数据采集模块3进行模数转化,模数转化后的数据发送到红外成像数据存储模块4,再经由手机控制模块8操纵通讯模块6将模数转化后的数据发送到手机9的红外成像处理模块10中进行红外成像处理,经过红外成像处理后的数据通过无线发射方式发送到无线远程通讯模块11,再通过无线远程通讯模块11转发到预设的位置进行处理。 [0025] The present invention works as follows: the first infrared imaging frame folded stent 1 16 is disposed within the range that can be detected by the human body to be detected, and then start the self-feedback arm unit 15 Infrared Imaging Module 101 initial focal length of the imaging process focusing intelligent operation until after the completion of the initial focal length of the focusing lens and the sensor module infrared imaging infrared imaging lens 2 on the need to detect the human body in real-time detection and location information feedback to the body parts Position control module 7, followed by self-feedback arm unit 15 infrared imaging module 101 to calibrate the imaging process intelligence operation according to the focal length of the focus position information further and invokes infrared imaging infrared imaging module 101. Upon completion of the calibration focal length Focus The control module 5 pairs of human body parts to be detected and the sensor control module infrared imaging lens 2 is scanned, the scanned data is sent to the infrared imaging data acquisition module 3 analog to digital conversion, analog to digital conversion of data after the data is sent to the infrared imaging storage module 4, 6 and then transmitted via a data modulo transformed cell phone control module 8 to manipulate the communication module to the phone infrared imaging processing block 9 of 10 in infrared imaging, infrared imaging processing after data is transmitted to the wireless remote mode via wireless transmission communication module 11, and then through the wireless remote communication module 11 is forwarded to the default location for processing.

[0026] 通过红外成像器1同内含红外成像处理模块10的手机9无线连接或有线连接,而手机9同与其适配的无线远程通讯模块11无线连接构成手机红外成像系统,其价格低廉, 可实现以往摄像装置及常规大型红外诊断设备所能完成的功能;另外建立在当前电子电路集成化及手机模块开发技术的基础之上,具有携带方便,使用灵活的特点;还具有用途广泛的优点,该手机红外成像系统可以用于个人及家庭进行日常生活的生命体征监测,还可实现家庭环境的监测,既使在暗夜无光时依然能进行生命体征监测。 [0026] The infrared imaging device 1 with embedded infrared imaging processing module 10 is connected to the phone 9 wireless or wired, and phone adapter 9 with its wireless remote communications module 11 constituting phone wireless connection infrared imaging system, its low price, can achieve large-scale conventional infrared imaging device and conventional diagnostic equipment can be completed features; in addition based on the current electronic circuit integration and the development of technology over the phone module, are portable, flexible features; also has a wide range of applications advantages The handset infrared imaging system can be used for personal and family vital signs monitoring of daily life, but also to achieve the monitoring of a family environment, can still vital signs monitor even when no light in the dark.

5 5

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Classifications
International ClassificationH04M1/725, A61B5/00
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