WO2012163134A1 - Temperature measurement system and method based on family gateway - Google Patents

Abstract

A temperature measurement system and method based on family gateway are provided by the invention. Wherein the temperature measurement system comprises: a family gateway, the family gateway comprises: an infrared temperature detection module is configured to detect body temperature for user; an Open Service Gateway Initiative (OSGi) object internet service module is configured to encapsulate the temperature data detected by the infrared temperature detection module using M2M format and to send the encapsulated data. The technical solution of the invention can effectively save the detection time and implement easily.

Description

TECHNICAL FIELD The present invention relates to the field of communications, and in particular to a home gateway based temperature measurement system and method. BACKGROUND OF THE INVENTION At present, the family property communication business based on the actual home-based gateway is still limited, including: home automation, family medical services, etc. Currently, the business is still basically in a pilot state, and there is no large-scale deployment. In the related art, based on the human body temperature measurement service in the family medical service, the general business development idea is to transmit the temperature data on the thermometer to the short-range wireless technology (such as Zigbee, Z-Wave, 433MHz band private wireless technology). The home gateway is reported to the corresponding home medical service platform (ie, the third-party application platform) through the operator's Machine to Machine (M2M) IoT service support platform. The M2M service system of the operator can support the M2M terminal (including the home IoT gateway) to interface with the M2M IoT service support platform, and deploy the specific third-party application system and other related telecommunication support systems. The specific application of the IoT family. The operator's M2M IoT service support platform mainly completes terminal access control, terminal management, provides service capabilities for third-party services, management of industry applications, etc. Among them, terminal management includes card management, terminal information management, and terminal events. Reporting, terminal fault detection and management, terminal parameter configuration, terminal remote management, terminal parameter query, terminal remote wakeup, terminal remote detection, terminal remote software upgrade, operation task management, etc. The requirements for the M2M IoT service support platform mainly include: a) achieving unified access and management of terminals; b) completing unified management of services; c) meeting access to third-party systems; d) providing rapid service customization capabilities; ) Provide customer and partner operations management. The third-party application platform is a business system that completes one or multiple business functions based on the acquisition, transmission, and other capabilities of the IoT terminal, including industry systems built by government and enterprises, industrial application systems for cooperative operations, and telecom operations. Commercial self-operated application system. The third-party application system released by the telecom operator accesses the M2M service support platform of the operator through the standard interface. The application system built by the government and enterprise customers can be selected through the M2M service support platform and the M2M service support platform. However, a thermometer is used to measure the temperature of the home user, and then the temperature data on the thermometer is transmitted to the home gateway through some short-range wireless technology and reported to the corresponding home medical service platform through the operator's M2M IoT service support platform (ie, a third party) Application platform), there are problems such as slow detection time and complex implementation. SUMMARY OF THE INVENTION The present invention provides a temperature measurement system and method based on a home gateway to solve at least the human body temperature measurement service based on the home object connection system in the related art, which has a slow detection time and a complicated implementation problem. According to one aspect of the invention, a home gateway based temperature measurement system is provided. The home gateway-based temperature measurement system according to the present invention includes: a home gateway; the home gateway includes: an infrared temperature detection module configured to detect a user's body temperature through infrared rays; an Open Service Gateway Initiative (OSGi) The IOT service module is configured to encapsulate the temperature data detected by the infrared temperature detecting module, and send the packaged temperature data to perform subsequent processing. The home gateway further includes: a temperature detecting switch module configured to activate or deactivate the infrared temperature detecting module. The infrared temperature detecting module is further configured to: when determining that the detected temperature data is in an abnormal range, send the alarm information to the home medical service platform via the machine-to-machine M2M IoT service support platform by using the OSGi component of the infrared body temperature detecting service, And/or transmitting alarm information to the display device. The temperature measuring system further includes: a display device connected to the home gateway, configured to display temperature data and/or alarm information from the infrared temperature detecting module. The above display device is a digital photo frame or a mobile terminal. The above system further includes: an M2M IoT service support platform and a home medical service platform; an M2M IoT service support platform, configured to transparently transmit temperature data from the OSGi IoT service module package; and a home medical service platform, configured to receive M2M The temperature data transparently transmitted by the IoT service support platform sends an alarm message to the user equipment corresponding to the temperature data when determining that the received temperature data is in an abnormal range, and/or sends the alarm information from the infrared temperature detecting module to the User equipment corresponding to the alarm information. The home medical service platform is further configured to transmit temperature data that the user needs to download to the user equipment corresponding to the user in response to the user's operation. According to another aspect of the present invention, a home gateway based temperature measuring method is provided. The home gateway-based temperature measurement method according to the present invention is applied to a system including a home gateway, the method comprising: the home gateway detecting the user's body temperature by infrared rays; the home gateway encapsulating the detected temperature data, and packaging the package The temperature data is sent to perform subsequent processing. When the home gateway detects the user's body temperature by infrared rays, the method further includes: when the home gateway determines that the detected temperature data is in an abnormal range, the alarm information is sent to the machine through the OSGi component of the infrared service temperature detecting service open service gateway platform The machine M2M IoT service support platform is sent to the home medical service platform, and/or the alarm information is transmitted to the display device. After the home gateway detects the user's body temperature by infrared rays, the method further includes at least one of the following: the display device receives the packaged temperature data from the home gateway, and displays the information; the display device receives the alarm information from the home gateway, And display it. After the home gateway sends the encapsulated temperature data, the method further includes: the home medical service platform receives the temperature data transparently transmitted through the M2M IoT service support platform; and the home medical service platform determines that the received temperature data is in an abnormal range The user equipment corresponding to the temperature data sends the alarm information, and/or sends the alarm information from the infrared temperature detecting module to the user equipment corresponding to the alarm information. After the home medical service platform receives the temperature data transparently transmitted through the M2M IoT service support platform, the method further includes: the home medical service platform transmitting the temperature data that the user needs to download to the user equipment corresponding to the user in response to the operation of the user. Through the invention, the home user can perform temperature detection through the infrared body temperature detecting module of the home gateway, and send the detected temperature data to the home medical service platform through the M2M Internet of Things service supporting platform. The utility model solves the human body temperature measurement service based on the family object connection system in the related art, and has the problems of slow detection time and complicated implementation, thereby effectively saving detection time and being easy to implement. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawing: 1 is a block diagram showing the structure of a home gateway based temperature measuring system according to an embodiment of the present invention; FIG. 2 is a block diagram showing a structure of a home gateway based temperature measuring system according to a preferred embodiment of the present invention; A flowchart of a home gateway based temperature measurement method; and FIG. 4 is a flow chart of a home gateway based temperature measurement method in accordance with a preferred embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. 1 is a block diagram showing the structure of a home gateway based temperature measuring system according to an embodiment of the present invention. As shown in FIG. 1, the home gateway based temperature measurement system includes: a home gateway 10. The home gateway 10 may further include: an infrared temperature detecting module 100 configured to detect a user's body temperature by infrared rays; and an OSGi object processing service module 102 configured to encapsulate the temperature data detected by the infrared temperature detecting module, and The packaged temperature data is sent to perform subsequent processing. In the related art, the user's body temperature is detected by using a common body temperature detection method, and then the temperature data on the thermometer is transmitted to the home gateway by using short-range wireless technology, and reported to the corresponding family through the operator's M2M Internet of Things service support platform. Medical business platform (ie third-party application platform). The home gateway-based temperature measurement system shown in FIG. 1 enables the home user to perform temperature detection through the infrared body temperature detection module of the home object gateway, and the infrared body temperature detection method has the characteristics of fast detection time compared with the commonly used body temperature detection mode. The utility model solves the human body temperature measurement service based on the family object connection system in the related art, and has the problems of slow detection time and complicated implementation, thereby effectively saving detection time and being easy to implement. The home gateway 10 is responsible for managing devices in the home network, and the home gateway 10 directly detects the body temperature of the human body through the infrared temperature detection interface, and interacts with the M2M Internet of Things service support platform 12 through the access telecommunication network. The main function of the home gateway 10 is to obtain temperature data (for example, a current temperature value or a temperature statistical value of a certain period of time), package the temperature data according to the telecommunication operator's Internet of Things platform and the terminal specification, and pass the encapsulated temperature data to the M2M. The IoT business support platform is reported to the home medical service platform, and can also be transmitted to the display device for local display. Preferably, the home gateway 10 further includes: a temperature detecting switch module 104 configured to enable or disable the infrared temperature detecting module 100. Preferably, the infrared temperature detecting module 100 is further configured to send the alarm information to the home through the M2M Internet of Things service support platform by determining an OSGi component of the infrared body temperature detecting service when determining that the detected temperature data is in an abnormal range. The medical service platform, and/or transmitting alert information to the display device. Preferably, the temperature measuring system further includes: a display device 16 connected to the home gateway 10, configured to display temperature data and/or alarm information from the infrared temperature detecting module. In a preferred implementation, the display device 16 may be a digital photo frame (which may be configured with a touch function), a mobile terminal (eg, a mobile phone), etc., and the main functions are display of temperature data and display of temperature alarm information. At the same time, the temperature detecting switch module can also be disposed on the display device 16, which can simplify the hardware switch design of the home object gateway. Preferably, the temperature measurement system further includes: an M2M Internet of Things service support platform 12 and a home medical service platform 14. The M2M IoT service support platform 12 is configured to transparently transmit temperature data encapsulated from the OSGi IoT service module. The home medical service platform 14 is configured to receive the temperature data transparently transmitted by the M2M IoT service support platform 12. And sending the alarm information to the user equipment corresponding to the temperature data when the received temperature data is in the abnormal range, and/or sending the alarm information from the infrared temperature detecting module to the user equipment corresponding to the alarm information. Preferably, the home medical service platform 14 is further configured to transmit the temperature data that the user needs to download to the user equipment corresponding to the user in response to the operation of the user. The home medical service platform can record and count the temperature data collected by the home object gateway, and can download at the user's request or actively push the abnormal data to the related bound home user device when the temperature data is abnormal (for example, Mobile phone). The above preferred embodiment will be described below in conjunction with FIG. 2 is a block diagram showing the structure of a home gateway based temperature measuring system in accordance with a preferred embodiment of the present invention. As shown in FIG. 2, the temperature measurement system includes: a home gateway 10 and a display device 16 at a terminal layer; an M2M Internet of Things service support platform 12 and a home medical service platform 14 at an application layer, wherein the M2M Internet of Things service support platform 12 and the home gateway 10 are connected at the network layer through a bearer network. The home gateway 10 may further include the following modules: (1) Infrared temperature detection module 100 The main function of the infrared temperature detection module is to quickly detect the body temperature of the human body through infrared rays. The physical form is directly embedded in the hardware of the household IoT gateway or implemented in the same way as the USB Dongle. The driver software is passed to OSGi's IoT business module. (2) Temperature detection switch module 102 The main function of the temperature detection switch module is to start the temperature measurement, which may be a switch newly added to the IoT gateway or a multiplexing function with other existing switches, or may be implemented by software.

(3) OSGi IoT Business Module 104

The OSGi IoT service module resides in the software platform of the home IoT gateway. The main function is to collect the temperature data of the infrared temperature detection module and package it according to the M2M package format and transmit it to the M2M IoT service support platform and the home medical service platform. 3 is a flow chart of a home gateway based temperature measurement method in accordance with an embodiment of the present invention. The above temperature measurement method can be applied to a system including: a home gateway, an M2M Internet of Things service support platform, and a home medical service platform. As shown in FIG. 3, the above temperature measurement method mainly includes the following processing: Step S302: The home gateway detects the user's body temperature by infrared rays; Step S304: The home gateway encapsulates the detected temperature data, and encapsulates the temperature data. Send to perform subsequent processing. The home gateway-based temperature measurement method shown in FIG. 3 can enable the home user to perform temperature detection through the infrared body temperature detection module of the home object gateway, and the infrared body temperature detection method has the characteristics of fast detection time compared with the commonly used body temperature detection mode. The utility model solves the human body temperature measurement service based on the family object connection system in the related art, and has the problems of slow detection time and complicated implementation, thereby effectively saving detection time and being easy to implement. In a preferred implementation, a temperature detecting switch module for turning on or off the infrared temperature detecting module may also be disposed in the home gateway. When temperature detection is required, turn on the infrared temperature detection module and turn off the infrared temperature detection module when temperature detection is not required. Preferably, when the home gateway detects the user's body temperature by infrared rays, the following processing may be further included: the home gateway detects the OSGi of the service through the infrared body temperature when determining that the detected temperature data is in an abnormal range. A bundle sends the alarm information to the home medical service platform via the M2M IoT service support platform, and/or transmits the alarm information to the display device. Preferably, after the home gateway detects the user's body temperature by infrared rays, the method may further include at least one of the following: (1) the display device receives the packaged temperature data from the home gateway, and displays the data;

(2) The display device receives the alarm information from the home gateway and displays it. Preferably, after the home gateway encapsulates and sends the detected temperature data in the M2M format, the following processing is further included:

(1) The home medical service platform receives temperature data transparently transmitted through the M2M Internet of Things service support platform; (2) the home medical service platform sends a user equipment corresponding to the temperature data when determining that the received temperature data is in an abnormal range The alarm information, and/or the alarm information from the infrared temperature detecting module is sent to the user equipment corresponding to the alarm information. Preferably, after the home medical service platform receives the temperature data transparently transmitted through the M2M Internet of Things service supporting platform, the method further includes: the home medical service platform transmitting the temperature data that the user needs to download to the corresponding user according to the operation of the user. User equipment. The above preferred embodiment will be described below in conjunction with FIG. 4 is a flow chart of a home gateway based temperature measurement method in accordance with a preferred embodiment of the present invention. As shown in FIG. 4, the home gateway-based temperature measurement method mainly includes the following processing: Step S402: The home gateway starts normally, and interfaces with the M2M Internet of Things service support platform, and starts corresponding driver of the infrared temperature detection module and corresponding OSGi. Business bundle module. Step S404, in response to the user operation, starting the infrared temperature detecting module. In a specific implementation process, the user initiates through a temperature detection switch provided on the home Internet gateway or through a software interface of the home media screen. Step S406, the infrared temperature detecting module detects the temperature of the human body. In the specific implementation process, the user who needs to measure the body temperature goes to the vicinity of the home object gateway temperature detection module to prepare for rapid body temperature measurement, and the home object gateway temperature detection module performs rapid body temperature measurement on the user. Step S408, the temperature detecting service bundle module corresponding to the OSGi in the infrared temperature detecting module detects the latest human body temperature value and saves it. Step S410, the OSGi module transmits the data to the connected display device for display, and simultaneously encapsulates the temperature data in the M2M format to the M2M IoT service support platform and the third-party service platform (ie, the above-mentioned home medical service platform). Step S412: If the third-party service platform detects the data abnormality, the alarm information is sent to the corresponding service user and other bound home users. In the temperature measurement method shown in FIG. 4, there is a third-party service platform that detects whether the temperature data is abnormal. In a specific implementation process, the infrared temperature detection module in the home gateway can also detect whether the temperature data is abnormal, and generate an alarm information when the abnormality occurs. The third-party service platform sends the alarm information to the corresponding service user and other bound home users. In summary, with the above embodiments provided by the present invention, the home user can perform temperature detection through the infrared body temperature detecting module of the home object gateway, and the infrared body temperature detecting mode has the characteristics of detecting time faster than the commonly used body temperature detecting mode. The utility model solves the human body temperature measurement service based on the family object connection system in the related art, and has the problems of slow detection time and complicated implementation, thereby effectively saving detection time and being easy to implement. Moreover, when the temperature is abnormal, the alarm information can be sent to the relevant user, which greatly improves the user experience. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device so that they may be stored in the storage device by the computing device, or they may be separately fabricated into individual integrated circuit modules, or Multiple modules or steps are made into a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim A home gateway-based temperature measurement system, comprising: a home gateway; the home gateway includes: an infrared temperature detection module configured to detect a user's body temperature through infrared rays; an open service gateway platform OSGi an objection service module, setting The temperature data detected by the infrared temperature detecting module is encapsulated, and the packaged temperature data is transmitted to perform subsequent processing. 2. The system according to claim 1, wherein the home gateway further comprises:  The temperature detecting switch module is configured to activate or deactivate the infrared temperature detecting module. 3. The system according to claim 1, wherein  The infrared temperature detecting module is further configured to: when determining that the detected temperature data is in an abnormal range, send the alarm information to the home medical service platform via the machine-to-machine M2M IoT service support platform by using the OSGi component of the infrared body temperature detecting service. And/or transmitting the alert information to the display device. 4. The system of claim 3, wherein the temperature measurement system further comprises:  The display device is coupled to the home gateway and configured to display temperature data and/or alarm information from the infrared temperature detection module. 5. The system according to claim 4, wherein the display device is a digital photo frame or a mobile terminal. The system according to claim 1, wherein the system further comprises: an M2M Internet of Things service support platform and a home medical service platform;  The M2M IoT service support platform is configured to transparently transmit temperature data encapsulated from the OSGi IoT service module; The home medical service platform is configured to receive the temperature data transparently transmitted by the M2M IoT service support platform, and send the alarm information to the user equipment corresponding to the temperature data when determining that the received temperature data is in an abnormal range, and/or The alarm information from the infrared temperature detecting module is sent to the user equipment corresponding to the alarm information. The system according to claim 6, wherein the home medical service platform is further configured to transmit the temperature data that the user needs to download to the user equipment corresponding to the user in response to the operation of the user. 8. A home gateway-based temperature measurement method, applied to a system including a home gateway, comprising: the home gateway detecting a user's body temperature through infrared rays;  The home gateway encapsulates the detected temperature data and transmits the encapsulated temperature data to perform subsequent processing. The method according to claim 8, wherein when the home gateway detects the user's body temperature by infrared rays, the method further includes:  The home gateway sends the alarm information to the home medical service platform via the machine-to-machine M2M IoT service support platform through the OSGi component of the open service gateway platform of the infrared body temperature detection service when determining that the detected temperature data is in an abnormal range, and / or transmitting the alarm information to the display device. 10. The method according to claim 9, wherein after the home gateway detects the user's body temperature by infrared rays, the method further includes at least one of the following:  The display device receives the encapsulated temperature data from the home gateway and displays the data;  The display device receives the alarm information from the home gateway and displays it. The method according to claim 9, wherein after the home gateway sends the encapsulated temperature data, the method further includes:  The home medical service platform receives temperature data transparently transmitted through the M2M Internet of Things service support platform;  The home medical service platform sends the alarm information to the user equipment corresponding to the temperature data when determining that the received temperature data is in an abnormal range, and/or sends the alarm information from the infrared temperature detecting module to the alarm information. User equipment. The method according to claim 11, wherein after the home medical service platform receives the temperature data transparently transmitted through the M2M Internet of Things service supporting platform, the method further includes:  The home medical service platform transmits the temperature data that the user needs to download to the user equipment corresponding to the user in response to the operation of the user.