CN107360201B - System and method for applying color information to biological monitoring - Google Patents

Abstract

The invention provides a system and a method for applying color information to biological monitoring, wherein the system comprises a detection end and a remote end, and the detection end comprises: a sensor; the host computer is provided with a sensor signal receiving module, a calculating module and a first communication module which are sequentially connected, wherein the sensor signal receiving module receives a detection signal output by a sensor and transmits the detection signal to the calculating module to calculate and generate a code signal, the calculating module transmits the code signal to the first communication module, and the first communication module is used for transmitting the code signal to a remote end; the remote terminal is provided with a second communication module, an analysis module and a response module which are sequentially connected. By adopting the system and the method for applying color information to biological monitoring, disclosed by the invention, the code signal indicating the color and the code signal indicating the call are only adopted for transmission, so that the privacy of the aged can be well protected, especially in the case that the monitored living things are the aged, and the resistance of the aged can be reduced.

Description

System and method for applying color information to biological monitoring

Technical Field

The invention relates to the field of Internet of things, in particular to a system and a method for applying color information to biological monitoring.

Background

At present, the development of the internet of things technology is that products based on the vertical application of the internet of things technology are more and more, and the internet of things technology is also more and more widely used in the pension service and the home system. The patent publication with the patent number of CN201510024249 discloses an intelligent home care service system based on the Internet of things, which comprises front-end equipment, a cloud server and a control terminal, and is characterized in that the front-end equipment is connected with the cloud server through a gateway; the cloud server is connected with the control terminal through a network; the front-end equipment is used for collecting daily life data of the old; the cloud server is used for storing the data acquired by the front-end equipment and processing data information according to machine learning; and the control terminal inquires daily life data of the old through the cloud server and receives emergency information sent by the cloud server.

The following technical problems exist in the technology: the data collected by the front-end equipment are all transmitted to the cloud server through the network, so that hidden dangers are caused to the living habit, privacy and the like of a cared person, and secondly, the daily life data of the old can be queried through cloud service as a final control end, so that the cared person may not need detailed data, certain data redundancy is caused, and the cared person cannot respond intuitively and quickly. In addition, the front-end equipment is not accurate for the acquisition of life data habits of the old.

Disclosure of Invention

Aiming at the problems existing in the prior art, the system for applying color information to biological monitoring is simple, feasible, friendly to use, convenient, fast and convenient and reasonable to display, and has important significance.

In order to solve the above problems, the present invention provides a system for applying color information to biological monitoring, comprising a detection end and a remote end, wherein the detection end is used for detecting the status of a monitored organism, the remote end is used for prompting a monitor of the status of the monitored organism, and the detection end is connected with the remote end through a wireless network and performs data transmission, and the detection end comprises:

the sensor is used for sensing whether the monitored organism is in a detection range and outputting a detection signal;

the host is provided with a sensor signal receiving module, a calculating module and a first communication module which are sequentially connected, wherein the sensor signal receiving module receives a detection signal output by the sensor and transmits the detection signal to the calculating module to calculate and generate a code signal, the calculating module transmits the code signal to the first communication module, and the first communication module is used for transmitting the code signal to the remote end;

the remote terminal is provided with a second communication module, an analysis module and a response module which are sequentially connected, and the second communication module is connected with the first communication module in a wireless way and is used for receiving the code signals; the analysis module is used for analyzing the code signal and generating a corresponding excitation signal; the response module responds according to the excitation signal.

Preferably, the remote terminal is an LED device, a smart phone or a computer.

Preferably, the host computer is provided with an ISM band wireless communication receiving module, the ISM band wireless communication receiving module is configured to receive ISM band wireless communication signals and transmit the ISM band wireless communication signals to the computing module for computing, the detecting end is further provided with a mobile device, and the mobile device is connected with the ISM band wireless communication receiving module through ISM band wireless communication means and continuously broadcasts first ISM band wireless communication signals to the ISM band wireless communication receiving module.

Preferably, the detection end further comprises a calling device, the calling device is connected with the ISM band wireless communication receiving module through ISM band wireless communication means, and when the calling device is triggered, a second ISM band wireless communication signal is sent to the ISM band wireless communication receiving module.

Preferably, the code signal is a code signal indicating a color and/or a code signal indicating a call.

Preferably, the ISM band wireless communication signal is a bluetooth signal or an ISM band wireless communication signal with center frequency of 433MHz, 450MHz, 470MHz, 868MHz, 915MHz, 2.4GHz, etc.

The invention also provides a method for applying color information to biological monitoring, which is based on the system for applying color information to biological monitoring and comprises the following steps:

step one, the computing module generates a detection signal-time distribution list and a deviation value-color distribution list according to the number of detection signals received in a preset time interval;

step two, after the computing module receives the detection signal, carrying out statistical analysis with the detection signal-time distribution list, wherein the statistical analysis comprises statistical analysis methods such as comparison, calculation and the like, calculating a deviation value of the signal in the same time as the history on the detection signal-time distribution list, and generating a code signal indicating color according to the deviation value-color distribution list;

step three, the code signal indicating the color generated in the step two is transmitted to the remote end through the first communication module;

and step four, the second communication module of the remote end receives the code signal, the analysis module is used for analyzing the code signal and generating a corresponding excitation signal, and the response module changes the color indicated by the code signal according to the excitation signal.

Preferably, the first step includes the steps of:

step 1.1, the calculation module counts the number of detection signals received in a preset time segment;

step 1.2, the calculation module calculates the distribution of the detection signal-time received by each time segment of each day in a plurality of days according to the results in a plurality of steps 1.1, and generates a detection signal-time distribution list;

step 1.3, the calculation module compares the distribution of the currently received detection signal-time with the detection signal-time distribution list in the step two, divides a deviation interval with deviation, and calculates a deviation value;

step 1.4, the computing module sets a deviation value-color distribution list corresponding to the deviation value and indicating code signals of different colors, and returns to step 1.1, which is a self-learning and self-adapting process, and the detecting signal-time distribution list and the deviation value-color distribution list are continuously adjusted, learned and updated in the repeated execution of steps 1.1-1.4.

Preferably, the method further comprises the steps of:

when the mobile equipment is not in the ISM frequency band wireless communication signal receiving range of the host, the calculation module starts timing when judging that the first ISM frequency band wireless communication signal is interrupted, after the preset time is reached, the calculation module generates a code signal corresponding to the indication color and transmits the code signal to the remote end through the first communication module, the second communication module receives the code signal, the analysis module is used for analyzing the code signal and generating a corresponding excitation signal, and the response module responds correspondingly.

Preferably, the method further comprises the steps of:

when the calling device is triggered, the calling device sends a second ISM frequency band wireless communication signal to the ISM frequency band wireless communication receiving module, the computing module sends a code signal indicating a call to be transmitted to the remote end through the first communication module, the second communication module receives the code signal, the analyzing module is used for analyzing the code signal and generating a corresponding excitation signal, and the responding module responds correspondingly.

Compared with the prior art, the system for applying color information to biological monitoring only adopts the code signal indicating the color and the code signal indicating the call for transmission, so that privacy of the aged can be well protected, and the resistance of the aged can be reduced. In addition, the remote end only has color change or call request, so that complicated monitoring procedures are reduced, and the time cost and the resource cost can be utilized more reasonably and conveniently. The system for applying color information to biological monitoring functionally covers monitoring whether the monitored living things are in a certain range, whether the monitored living things leave or need to be contacted or resorted, completely meets the detection requirement, and the information is not uploaded, so that the risk of revealing privacy is reduced to the greatest extent.

Drawings

FIG. 1 is a block diagram of a system for applying color information to biological monitoring according to the present invention,

FIG. 2 is a flow chart of a method for applying color information to biological monitoring according to the present invention,

fig. 3 is a detailed flowchart of step 1 in fig. 2.

Detailed Description

The structure and operation of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, a system for applying color information to biological monitoring of the present invention includes a detection end 1 and a remote end 2, which are mainly used for detecting daily activities and outgoing conditions of elderly people living alone, and further can be expanded to detect conditions of other living things, wherein the detection end 1 is placed in a residence of the monitored elderly people, and the remote end 2 is placed at one end of a monitor, so as to facilitate the monitor to check and understand the daily activity conditions of the monitored people, and in this embodiment, the monitored living things are illustrated by the elderly people.

The detection terminal 1 comprises a sensor 12, wherein the sensor 12 is placed in a range where the monitored old people frequently move, such as living rooms, hallways and the like in a residence, and the sensor 12 is used for detecting whether the old people are in the range where the old people frequently move or pass through, and sending a sensor signal if the old people are detected to be in the range.

The host 11 is configured to receive the sensor signal, perform calculation processing on the signal, generate a code signal, and send the code signal to the remote terminal 2. The host 11 is provided with a sensor signal receiving module 111, a calculating module 113 and a first communication module 114 which are sequentially connected, wherein the sensor signal receiving module 111 is connected with the sensor 12 and is used for receiving a sensor signal, the calculating module 113 carries out calculation analysis on the sensor signal and generates code signals which indicate different colors, and the first communication module 114 transmits the code signals to the remote end 2 according to the MQTT protocol through a wireless network.

In addition, preferably, the detection end 1 further includes a mobile device 13 having an ISM band wireless communication signal transmitting function, in this embodiment, the mobile device 13 is a portable key fob, and is hung on a key of the monitored elderly, and the host 11 includes an ISM band wireless communication receiving module 112, and after the mobile device 13 is paired with the ISM band wireless communication receiving module 112, the mobile device 13 continuously transmits a first ISM band wireless communication signal to the ISM band wireless communication receiving module 112, and if the elderly is out, the mobile device 13 is disconnected from the ISM band wireless communication receiving module 112, and the first ISM band wireless communication signal is disconnected. The ISM band wireless communication receiving module 112 is connected to the calculating module 113, and is configured to transmit the first ISM band wireless communication signal, where the calculating module 113 calculates, according to the duration and the off time of the first ISM band wireless communication signal, a corresponding code signal, and transmits the code signal to the remote terminal 2 through the first communication module 114 according to the MQTT protocol via the wireless network. In this embodiment, the ISM band wireless communication receiving module is a bluetooth module, and the mobile device 13 has a bluetooth signal transmitting function.

Preferably, besides bluetooth connection, the mobile device and the calling device may also be connected with the host by using wireless communication means with ISM frequency bands of 433MHz, 450MHz, 470MHz, 868MHz, 915MHz, 2.4GHz, etc.

The above code signals are all code signals indicating colors, namely, the remote terminal 2 is indicated to display different colors so as to represent different states of the old people.

In addition, as a preferred embodiment, the detection terminal 1 further includes a calling device 14, in which the calling device 14 is a button having a bluetooth signal transmission function, and when the monitored elderly need to contact a caretaker or ask for help, the button is directly pressed, the calling device 14 is connected to the ISM band wireless communication receiving module 112 of the host in a pairing manner, and when the button is pressed, a calling signal, that is, a second ISM band wireless communication signal (similarly, a bluetooth signal in the present embodiment), is transmitted, and the calculating module 113 converts the calling signal into a code signal indicating a call, and transmits the code signal to the remote terminal 2 through the first communication module 114 according to the MQTT protocol via the wireless network.

The remote end 2 comprises a second communication module 21, which is connected with the first communication module 114 through a wireless network and is used for receiving the two code signals; the analysis module 22 is connected with the second communication module 21, and the analysis module 22 is used for analyzing the code signal; and a response module 23 connected to the parsing module 22. Preferably, in this embodiment, the remote terminal 2 is an LED device, the response module 23 is an LED lamp capable of displaying multiple different colors, and the analysis module 22 generates excitation signals of LED lamps of various colors after analyzing the code signals indicating the colors, so that the response module 23 lights up the LED lamp light of the corresponding color.

In addition, the remote end 2 may be a smart phone or a computer, the second communication module 21 is a communication module of the smart phone or the computer, the analysis module 22 and the response module 23 are hardware devices of the smart phone or the computer, the response module 23 may represent a change of an APP icon thereof, and when the analysis module 22 analyzes the code signal indicating the color, the APP icon thereof is changed.

In addition, when the remote terminal 2 is a smart phone, the parsing module 22 can parse the code signal indicating the call, that is, directly achieve the purpose of the call.

In addition, the invention also provides a method for applying color information to biological monitoring, which is based on the system for applying color information to biological monitoring, and is characterized by comprising the following steps:

step S1, the calculating module 113 generates a detecting signal-time distribution list and a deviation value-color distribution list according to the number of detecting signals received in a predetermined time interval, for example, the time interval is 1 minute-1 hour;

step S2, after the sensor 12 receives the detection signal, the detection signal is transmitted to the calculation module 113 through the sensor signal receiving module 111, the calculation module 113 compares the detection signal with the detection signal-time distribution list after receiving the detection signal, calculates the deviation value of the signal in the same time as the history on the detection signal-time distribution list, and generates a code signal indicating the color according to the deviation value-color distribution list;

step three S3, transmitting the code signal indicating the color generated in step two to the remote terminal 2 through the first communication module 114;

in step four S4, the second communication module 21 of the remote terminal 2 receives the code signal, the analysis module 22 is configured to analyze the code signal and generate a corresponding excitation signal, and the response module 23 changes the color indicated by the code signal, which specifically includes the color corresponding to the LED lamp being turned on, the icon of the smart phone changing APP, or the change corresponding to the PC terminal.

The step S1 specifically includes the following steps:

step 1.1 s1.1, after the sensor 12 receives the detection signal, the detection signal is transmitted to the calculating module 113 through the sensor signal receiving module 111, and the calculating module 113 counts the number of detection signals received in a preset first time segment, where the first time segment may be selected from 1 minute to 1 hour.

Step 1.2 s1.2, the calculating module 113 calculates the distribution of the detection signal-time received by each time segment of each day in a plurality of days according to the results in the first step, and generates a detection signal-time distribution list, and since the calculating module 113 is always in an accumulated self-learning and self-adapting state, the number of days can be 1-30 days of samples or more.

In step 1.3 s1.3, the calculating module 113 performs analysis and comparison on the currently received detection signal-time and the detection signal-time distribution list in step two, and divides a deviation interval with deviation, and calculates a deviation value, and similarly, since the calculating module 113 is in a self-learning and self-adapting state, the deviation interval is also continuously adjusted and changed.

In step 1.4s1.4, the calculating module 113 sets a list of offset values-colors of the code signals indicating different colors corresponding to the offset values, as shown in table one. For example, the deviation interval is mapped to a deviation value ranging from 1 to 100, the color indicated by the code signal is green when the deviation value is from 1 to 50 times, the color indicated by the code signal is yellow when the deviation value is from 50 to 70 times, and the color indicated by the code signal is red when the deviation value is from 70 to 100. The darker the color, the higher the deviation value, and the more pronounced the change or difference in the activity state of the monitored organism from the historical time. Of course, two or more different color schemes may be employed.

Deviation value	Color of
		1～50	Green colour
50～70	Yellow colour
		70～100	Red color

List one

And then returning to the step 1.1S 1.1, and repeatedly executing the steps 1.1S 1.1 to 1.4S 1.4, thereby realizing a self-learning and self-adapting process and correcting the detection signal-time distribution list and the deviation value-color distribution list.

Preferably, the method further comprises the steps of:

when the mobile device 13 is not in the ISM band wireless communication signal (e.g. bluetooth signal) receiving range of the host 1, the calculating module 113 starts timing when judging that the first ISM band wireless communication signal (e.g. bluetooth signal) is interrupted, after reaching a preset time (e.g. 2 hours), the calculating module 113 generates a code signal corresponding to the indication color, and transmits the code signal to the remote end 2 through the first communication module 114, the second communication module 21 receives the code signal, the analyzing module 22 is used for analyzing the code signal, generating a corresponding excitation signal, and the responding module 23 responds correspondingly. The color represents the caretaker leaving the residence for a long period of time, giving a reminder.

Preferably, the method further comprises the steps of:

when the calling device 14 is triggered, the calling device 14 sends a second ISM band wireless communication signal (also a bluetooth signal) to the ISM band wireless communication receiving module 112, the computing module 113 sends a code signal indicating a call according to the second ISM band wireless communication signal to the remote terminal 2 through the first communication module 114, the second communication module 21 receives the code signal, the analyzing module 22 is configured to analyze the code signal and generate a corresponding excitation signal, and the responding module 23 responds accordingly, where the remote terminal 2 is preferably a smart phone, and the smart phone will accept the call.

Compared with the prior art, the system and the detection method for applying color information to biological monitoring only adopt the code signal indicating the color and the code signal indicating the call for transmission, so that privacy of the aged can be well protected, especially in the case that the monitored living things are the aged, and the resistance of the aged can be reduced. In addition, the remote end only has color change or call request, so that complicated monitoring procedures are reduced, and the time cost and the resource cost can be utilized more reasonably and conveniently. The system for applying color information to biological monitoring functionally covers monitoring whether the monitored living things are in a certain range, whether the monitored living things leave or need to be contacted or resorted to, completely meets the detection requirement, and the information is not uploaded, so that the risk of revealing privacy is reduced to the greatest extent.

The above is only a schematic description of the present invention, and it should be appreciated by those skilled in the art that many modifications can be made to the present invention without departing from the working principles of the present invention, which falls within the scope of the present invention.

Claims (10)

1. The utility model provides an application color information is in biological monitoring's system, its characterized in that includes detection end and remote end, the detection end is used for detecting the state of being monitored living beings, remote end is used for the suggestion to the monitor is monitored the state of living beings, the detection end with remote end is connected and carries out data transmission through wireless network, wherein, the detection end includes:

the sensor is used for sensing whether the monitored organism is in a detection range and outputting a detection signal;

the host is provided with a sensor signal receiving module, a calculating module and a first communication module which are sequentially connected, wherein the sensor signal receiving module receives a detection signal output by the sensor and transmits the detection signal to the calculating module to calculate and generate an indication color code signal, the calculating module transmits the code signal to the first communication module, and the first communication module is used for transmitting the code signal to the remote end;

the remote terminal is provided with a second communication module, an analysis module and a response module which are sequentially connected, and the second communication module is connected with the first communication module in a wireless way and is used for receiving the code signals; the analysis module is used for analyzing the code signal and generating a corresponding excitation signal; the response module responds according to the excitation signal.

2. The system for applying color information to biological monitoring according to claim 1, wherein the remote terminal is an LED device, a smart phone or a computer.

3. The system for applying color information to biological monitoring as claimed in claim 2, wherein the host computer is provided with an ISM band wireless communication receiving module, the ISM band wireless communication receiving module is configured to receive ISM band wireless communication signals and transmit the ISM band wireless communication signals to the computing module for computation and analysis, the detection end is further provided with a mobile device, the mobile device is provided with an ISM band wireless communication transmitting function, and the mobile device is connected with the ISM band wireless communication receiving module in a pairing manner, and continuously broadcasts first ISM band wireless communication signals to the ISM band wireless communication receiving module.

4. The system for applying color information to biological monitoring as in claim 3, wherein the detection end further comprises a calling device, the calling device has an ISM band wireless communication transmitting function, and is coupled to the ISM band wireless communication receiving module in a pairing manner, and when the calling device is triggered, a second ISM band wireless communication signal is sent to the ISM band wireless communication receiving module.

5. The system for applying color information to biological monitoring as defined in claim 4, wherein the code signal is further a code signal indicating a call.

6. The system for applying color information to biological monitoring as claimed in claim 5, wherein the ISM band wireless communication signal is a bluetooth signal or an ISM band wireless communication signal with center frequency of 433MHz, 450MHz, 470MHz, 868MHz, 915MHz, 2.4 GHz.

7. A method for applying color information to biological monitoring, comprising the steps of:

step one, the computing module generates a detection signal-time distribution list and a deviation value-color distribution list according to the number of detection signals received in a preset time interval;

step two, after the computing module receives the detection signal, comparing the detection signal with the detection signal-time distribution list, computing a deviation value of the signal in the same time as the history on the detection signal-time distribution list, and generating a code signal indicating color according to the deviation value-color distribution list;

step three, the code signal indicating the color generated in the step two is transmitted to the remote end through the first communication module;

and step four, the second communication module of the remote end receives the code signal, the analysis module is used for analyzing the code signal and generating a corresponding excitation signal, and the response module changes the color indicated by the code signal according to the excitation signal.

8. The method for applying color information to biological monitoring as defined in claim 7, wherein said step one comprises the steps of:

step 1.1, the calculation module counts the number of detection signals received in a preset time segment;

step 1.2, the calculation module calculates the distribution of the detection signal-time received by each time segment of each day in a plurality of days according to the results in a plurality of steps 1.1, and generates a detection signal-time distribution list;

step 1.3, the calculation module compares the distribution of the currently received detection signal-time with the detection signal-time distribution list in the step two, divides a deviation interval with deviation, and calculates a deviation value;

step 1.4, the computing module sets a deviation value-color distribution list of the code signals indicating different colors corresponding to the deviation value, and returns to step 1.1.

9. The method for applying color information to biological monitoring as defined in claim 8, further comprising the steps of:

when the mobile equipment is not in the ISM frequency band wireless communication signal receiving range of the host, the calculation module starts timing when judging that the first ISM frequency band wireless communication signal is interrupted, after the preset time is reached, the calculation module generates a code signal corresponding to the indication color and transmits the code signal to the remote end through the first communication module, the second communication module receives the code signal, the analysis module is used for analyzing the code signal and generating a corresponding excitation signal, and the response module responds correspondingly.

10. The method for applying color information to biological monitoring as defined in claim 9, further comprising the steps of:

when the calling device is triggered, the calling device sends a second ISM frequency band wireless communication signal to the ISM frequency band wireless communication receiving module, the computing module sends a code signal indicating a call to be transmitted to the remote end through the first communication module, the second communication module receives the code signal, the analyzing module is used for analyzing the code signal and generating a corresponding excitation signal, and the responding module responds correspondingly.