CN104983408A

CN104983408A - Accidental coma diagnosis method and system

Info

Publication number: CN104983408A
Application number: CN201510469184.0A
Authority: CN
Inventors: 邹复民; 蒋新华; 张茂林; 廖律超; 赖宏图; 徐翔; 朱铨; 方卫东; 甘振华; 郑鸿杰; 陈子标; 邓艳玲; 葛祥海; 张美润
Original assignee: Fujian University of Technology
Current assignee: Fujian University of Technology
Priority date: 2015-08-04
Filing date: 2015-08-04
Publication date: 2015-10-21
Anticipated expiration: 2035-08-04
Also published as: CN104983408B

Abstract

The invention relates to an accidental coma diagnosis method and system. The method includes the following steps that: pulse signals and body temperature signals are detected periodically, and whether a monitored object has worn a wearable device is judged according to the pulse signals and body temperature signals; if the monitored object does not wear the wearable device, warning signals are emitted; if the monitored object has worn the wearable device, whether feature signals exist in a preset first time duration is detected; if feature signals exist, it is judged that the monitored object is normal; if feature signals do not exist, whether the pulse signals are normal is judged; if the pulse signals are normal, the period of pulse detection is shortened; if the pulse signals are abnormal, a stimulating mechanism is started, and whether feature signals exist in a preset second time duration is detected; if feature signals exist, it is judged that the monitored object is normal; and if feature signals do not exist, warning signals are emitted.

Description

A kind of unexpected stupor diagnostic method and system

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of unexpected stupor diagnostic method and system.

Background technology

Aged tendency of population has become the subject matter of society, and the construction of intelligent endowment system is with perfect extremely urgent; In addition along with youthful operating pressure increases and the speeding of rhythm of life, the often easily treatment of carelessness to old man.And the fortuitous event such as cerebral thrombosis, myocardial infarction occurs often to cause unexpected stupor in daily life, if fail to be processed timely, easily to cause that sb.'s illness took a turn for the worse even dead.

Application number be 201510001120.8 patent document disclose a kind of alarm method fallen down for human body, smart mobile phone and Wearable wrist-watch is utilized to realize, when the acceleration transducer in smart mobile phone detects the acceleration meeting and fall down feature, the acceleration value detected with Wearable wrist-watch compares, when error is no more than 10%, thinks and may fall down accident; When the height change numerical value that height sensor detects is greater than the threshold value of setting, think that human body is in the state of falling down; When Wearable wrist-watch detects the acceleration rate threshold of the later acceleration value of falling over of human body lower than setting, think that human body lies in a comatose condition or arm loses mobility; When the height change numerical value that height sensor detects is greater than height change threshold value, after waiting for a period of time, if highly also do not recover normal value, when the acceleration value simultaneously detected is lower than acceleration rate threshold, sends and fall down alarm.

But such scheme cannot be suitable for non-stupor situation of falling down in situation, unexpected stupor in such as sleep procedure, or be sitting on sofa and see that TV is surprisingly gone into a coma.

Summary of the invention

Technical problem to be solved by this invention is: how in real time, definitely monitoring human whether go into a coma, preventing unexpected stupor from causing life danger.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is:

A kind of unexpected diagnostic method of going into a coma, comprising:

Periodically detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals; Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal;

If monitoring target does not wear wearable device, then send warning signal;

If monitoring target wears wearable device, then detect in the first preset time period whether have characteristic signal;

If there is characteristic signal, then judge that monitoring target is normal;

If without characteristic signal, then judge that whether pulse signal is normal;

If pulse signal is normal, then shorten the cycle of pulse detection;

If pulse signal is abnormal, then opens and stimulate mechanism, and judge whether have characteristic signal in the second preset time period;

If there is characteristic signal, then judge that monitoring target is normal;

If without characteristic signal, then send warning signal.

The beneficial effect of above-mentioned unexpected stupor diagnostic method is: periodically detect temperature signals and pulse signal, the body temperature of real-time monitor and detection object and pulse information, and judge whether monitoring target wears wearable device according to temperature signals and pulse signal, prevent wearable device accidental from causing diagnosis inaccurate; Confirming characteristic signal is detected on the basis that monitoring target has worn wearable device, do not detect that characteristic signal then detects pulse signal further, if pulse signal is abnormal, apply stimulate and again detect characteristic signal, erroneous judgement is produced when preventing monitoring target normally but characteristic signal do not detected, and detect that namely characteristic signal judges that monitoring target is normal, do not restart and stimulate mechanism, then send warning signal when being applied with and stimulating but characteristic signal do not detected yet, prevent monitoring target from surprisingly going into a coma and cause life danger.

A kind of unexpected diagnostic system of going into a coma, comprising:

According to temperature signals, monitoring module, for periodically detecting temperature signals, and judges whether monitoring target wears wearable device; Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal;

First detection module, for detecting in the first preset time period whether have characteristic signal;

First judge module, for judging that whether pulse signal is normal;

Stimulating module, stimulates mechanism for opening;

Second judge module, for judging whether have characteristic signal in the second preset time period;

First determination module, for judging that whether monitoring target is normal;

Alarm module, for sending warning signal.

The beneficial effect of above-mentioned unexpected stupor diagnostic system is: monitoring module periodically detects temperature signals and pulse signal, the body temperature of real-time monitor and detection object and pulse information, and judge whether monitoring target wears wearable device according to temperature signals and pulse signal, prevent wearable device accidental from causing diagnosis inaccurate; By the characteristic signal in detection first preset time period, first detection module judges that whether detected object is normal; Do not detect by the first judge module, characteristic signal then judges that whether pulse signal is normal; When pulse signal is abnormal, stimulating module is opened stimulates mechanism, applies to stimulate to monitoring target, thus the second judge module can to judge in the second preset time period whether existing characteristics signal further; Alarm module sends warning signal according to the characteristic signal abnormal conditions in the second preset time period, can notify that related personnel processes in abnormal cases in time, avoid causing life danger.

Accompanying drawing explanation

Fig. 1 is the flow chart of the embodiment of the present invention one unexpected stupor diagnostic method;

Fig. 2 is the embodiment of the present invention two " periodically detect temperature signals, and judge whether monitoring target has been worn wearable device and upgraded current body temperature value according to the pulse signal existed according to temperature signals " particular flow sheet;

Fig. 3 is the embodiment of the present invention three " periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal " particular flow sheet;

Fig. 4 is that the embodiment of the present invention four is gone into a coma diagnostic system structure chart;

Fig. 5 is the embodiment of the present invention five monitoring module structure chart.

Label declaration:

1, monitoring module; 111, the second detection module; 112, the 3rd judge module; 113, the 3rd detection module; 114, the first logging modle; 115, the second logging modle; 116, the 4th judge module; 117, the second determination module; 121, the 4th detection module; 122, the 3rd logging modle; 123, the 4th logging modle; 125, the 3rd determination module; 2, the 6th judge module; 3, the 7th judge module; 4, adjusting module; 5, first detection module; 6, the first judge module; 7, stimulating module; 8, the second judge module; 9, the first determination module; 10, alarm module.

Detailed description of the invention

By describing technology contents of the present invention in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with embodiment.

The design of most critical of the present invention is: periodically detect pulse signal and temperature signals, and judges that whether monitoring target is normal by detecting characteristic signal, and applies stimulation when can't detect characteristic signal to monitoring target, again detects whether existing characteristics signal.

Please refer to Fig. 1,

A kind of unexpected diagnostic method of going into a coma, comprising:

S1, periodicity detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals; Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal;

If S2 monitoring target does not wear wearable device, then send warning signal;

If S3 monitoring target wears wearable device, then detect in the first preset time period whether have characteristic signal;

If S4 has characteristic signal, then judge that monitoring target is normal;

If S5 is without characteristic signal, then judge that whether pulse signal is normal;

If S6 pulse signal is normal, then shorten the cycle of pulse detection;

If S7 pulse signal is abnormal, then opens and stimulate mechanism, and judge whether have characteristic signal in the second preset time period;

If S8 has characteristic signal, then judge that monitoring target is normal;

If S9 is without characteristic signal, then send warning signal.

Further, described " periodically detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals " is specially:

S111, detection temperature signals, judge whether the temperature signals change detected exceedes preset value;

If S112 does not exceed preset value, then detect end;

If S113 exceedes preset value, then detect and whether there is pulse signal;

If S114 exists pulse signal, then judge that monitoring target wears wearable device, and record current body temperature;

If S115 does not exist pulse signal, then record detects number of times;

S116, judge detect number of times whether be greater than preset times;

If S117 is greater than preset times, then judge that monitoring target does not wear wearable device;

If S118 is not more than preset times, then again detect whether there is pulse signal.

From foregoing description, judge whether monitoring target has worn wearable device by detection temperature signals and pulse signal, prevent wearable device accidental from causing diagnosis inaccurate; Meanwhile, only detect that temperature signals is abnormal and just detect pulse signal, in the normal situation of body temperature situation, directly judge that monitoring target wears wearable device, saves energy consumption.

Further, described " periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal " is specially:

Whether S121, detection exist pulse signal;

If S122 exists pulse signal, judge that monitoring target wears wearable device, and detect and record current body temperature;

If S123 does not exist pulse signal, record detection number of times;

S124, judge detect number of times whether be greater than preset times;

If S125 is greater than preset times, then judge that monitoring target does not wear wearable device;

If S126 is not more than preset times, then again detect whether there is pulse signal.

Whether there is pulse by detection and judge whether monitoring target wears wearable device, judge process is not only simple but also accurate, record temperature signals when pulse being detected simultaneously, real-time update temperature signals, and judge whether to need cycle detection according to detection number of times, avoid unnecessary energy loss.

Further, " detect in the first preset time period and whether have characteristic signal " before also comprise:

Judge whether to be in sleep pattern;

If be in sleep pattern, record the some length of one's sleep, and obtain the current sleep time period according to putting the length of one's sleep and being accustomed to sleep duration; The first preset time period is adjusted within the current sleep time period;

If be not in sleep pattern, then judge whether current time is in the custom section length of one's sleep;

If be in the custom section length of one's sleep, adjust the first preset time period;

If be not in the custom section length of one's sleep, do not change the first preset time period duration.

According to whether be in sleep pattern, the length of one's sleep section adjust the first preset time period, make sense cycle more reasonable.

A kind of unexpected diagnostic system of going into a coma, comprising:

According to temperature signals, monitoring module 1, for periodically detecting temperature signals, and judges whether monitoring target wears wearable device; Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal;

First detection module 5, for detecting in the first preset time period whether have characteristic signal;

First judge module 6, for judging that whether pulse signal is normal;

Stimulating module 7, stimulates mechanism for opening;

Second judge module 8, for judging whether have characteristic signal in the second preset time period;

First determination module 9, for judging that whether monitoring target is normal;

Alarm module 10, for sending warning signal.

The beneficial effect of above-mentioned unexpected stupor diagnostic system is: monitoring module 1 periodically detects temperature signals and pulse signal, the body temperature of real-time monitor and detection object and pulse information, and judge whether monitoring target wears wearable device according to temperature signals and pulse signal, prevent wearable device accidental from causing diagnosis inaccurate; By the characteristic signal in detection first preset time period, first detection module 5 judges that whether detected object is normal; And judge that whether pulse signal is normal by the first judge module 6; When pulse signal is abnormal, stimulating module 7 is opened stimulates mechanism, applies to stimulate to monitoring target, thus the second judge module 8 can to judge in the second preset time period whether existing characteristics signal further; Alarm module 10 sends warning signal according to the characteristic signal abnormal conditions in the second preset time period, can notify that related personnel processes in abnormal cases in time, avoid causing life danger.

Second detection module 111, for detecting temperature signals;

3rd judge module 112, for judging whether the temperature signals change detected exceedes preset value;

3rd detection module 113, for detecting whether there is pulse signal;

First logging modle 114, for recording current body temperature;

Second logging modle 115, for recording detection number of times;

4th judge module 116, for judging whether detect number of times is greater than preset times;

Second determination module 117, for judging whether monitoring target wears wearable device.

From foregoing description, second detection module 111 detects temperature signals and judges that temperature signals change is whether abnormal by the 3rd judge module 112 thus judge whether monitoring target wears wearable device, and detected by the 3rd detection module 113 and whether there is pulse signal and judge whether monitoring target wears wearable device, prevent monitoring target from not wearing wearable device but wearable device is in one has the environment measuring of temperature to cause erroneous judgement to temperature signal.

Further, described monitoring module also comprises:

4th detection module 121, for detecting whether there is pulse signal;

3rd logging modle 122, for detecting and record temperature signals;

4th logging modle 123, for recording detection number of times;

5th judge module 124, for judging whether detect number of times is greater than preset times;

3rd determination module 125, for judging whether monitoring target wears wearable device.

From foregoing description, whether the 4th detection module 121 detects exists pulse signal, and judge whether monitoring target wears wearable device by the 3rd determination module 125, judge process is not only simple but also accurate, simultaneously by the 3rd logging modle record temperature signals, real-time update temperature signals, and judge whether to need cycle detection according to detection number of times, avoid unnecessary workload.

Further, described unexpected stupor diagnostic system also comprises:

6th judge module 2, is in sleep pattern for judging whether;

7th judge module 3, for judging whether current time is in the custom section length of one's sleep;

Adjusting module 4, for adjusting the duration of the first preset time period.

From foregoing description, judge sleep pattern by the 6th judge module 2, the 7th judge module 3 judges whether current time is in the duration of adjustment the first preset time period in the custom section length of one's sleep, makes sense cycle more reasonable.

Please refer to Fig. 1, embodiments of the invention one are:

A kind of unexpected diagnostic method of going into a coma, comprising:

S1, periodicity detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals; Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal; Within the T1 time period, detect temperature signals, and judge whether Lee has worn wearable device according to temperature signals; Within the T2 time period, detect pulse signal, and judge whether Lee has worn wearable device according to temperature signals;

If S2 monitoring target does not wear wearable device, then send warning signal; If it is determined that go out Lee not wear wearable device, then send warning signal, notify that management personnel scene confirms the situation of Lee;

If S3 monitoring target wears wearable device, judge whether to be in sleep pattern; If be in sleep pattern, record the some length of one's sleep, and obtain the current sleep time period according to putting the length of one's sleep and being accustomed to sleep duration; The first preset time period is adjusted within the current sleep time period; If be not in sleep pattern, then judge whether current time is in the custom section length of one's sleep; If be in the custom section length of one's sleep, adjust the first preset time period; If be not in the custom section length of one's sleep, do not change the first preset time period duration; Detect in the first preset time period and whether have characteristic signal; If Lee has worn wearable device, then judge whether it presses sleep key, if press sleep key, switch to sleep pattern, then record current time, be assumed to be point in evening 10, and the custom of usually sleeping 8 hours in conjunction with Lee, then adjust at 10 o'clock in the evening same day to the first preset time period T3 in second day time period of 6; Preferably, the interval of T3 is lengthened; If do not press sleep key, but current time, such as 4:00 AM is in and the custom section length of one's sleep at 10 o'clock in evening in 6, then adjusted the first preset time period T3 of current detection to second day; Preferably, the interval of T3 is lengthened; If do not press sleep key and current time is not in custom length of one's sleep section, then do not change the first preset time period T3; Detect in the first preset time period and whether have characteristic signal, preferably, characteristic signal is the acceleration signal that acceleration transducer gathers;

If S4 has characteristic signal, then judge that monitoring target is normal; Such as Lee normally walks, and obviously can characteristic signal be detected, then judge that Lee is normal;

If S5 is without characteristic signal, then judge that whether pulse signal is normal; If S6 pulse signal is normal, then shorten the cycle of pulse detection;

If S7 pulse signal is abnormal, then opens and stimulate mechanism, and judge whether have characteristic signal in the second preset time period; If the pulse signal of Lee is abnormal, some pinpricks is applied to Lee, such as vibrates; And within the T3 time period, detect whether have characteristic signal;

If S8 has characteristic signal, then judge that monitoring target is normal;

If S9 is without characteristic signal, then send warning signal; If detect that the pulse signal of Lee is abnormal, then send warning signal, notify that medical personnel carry out scene and confirm.

Please refer to Fig. 2, embodiments of the invention two are:

Periodically detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals; Idiographic flow comprises:

Detect temperature signals, judge whether the temperature signals change detected exceedes preset value; If do not exceed preset value, then detect end, wait for that next cycle detects temperature signals; If exceed preset value, then detect and whether there is pulse signal; If there is pulse signal, then judge that monitoring target wears wearable device, and record current body temperature; If there is not pulse signal, then record detects number of times; Judge whether detect number of times is greater than preset times; If be greater than preset times, then judge that monitoring target does not wear wearable device; If be not more than preset times, then again detect whether there is pulse signal; The wearable device that Lee wears is every T1 time detecting temperature signals, and judge whether change exceedes preset value compared with the temperature signals that the temperature signals that detects and the last time are detected, such as preset value is 1 degree, the temperature signals that the last time detects is 37 degree, and the temperature signals that this detects is 37.5 degree, then temperature check terminates, and carries out temperature signals detection again after waiting for the T1 time; If this temperature signals detected is 35 degree, then detects and whether there is pulse signal, if there is pulse signal, judge that Lee has worn this wearable device, and to upgrade current temperature value be 35 degree; If there is not pulse signal, then record detects number of times, supposes that preset times is 15, and this detection number of times is 14, then again detect whether there is pulse signal, if this detects number of times is 16, then judges that Lee does not wear this wearable device;

Please refer to Fig. 3, embodiments of the invention three are:

Periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal, idiographic flow is:

Detect and whether there is pulse signal; If there is pulse signal, judge that monitoring target wears wearable device, and detect and record temperature signals, wait for that next cycle detects pulse signal; If there is not pulse signal, record detection number of times; Judge whether detect number of times is greater than preset times; If be greater than preset times, then judge that monitoring target does not wear wearable device; If be not more than preset times, then again detect whether there is pulse signal; The wearable device that Lee wears, every T2 time detecting pulse signal, if there is pulse signal, then judges that Lee has worn this wearable device, and detects and record the current body temperature of Lee, carry out pulse signal detection again after waiting for the T2 time; If there is not pulse signal, then record detects number of times, supposes that preset times is 15, and this detection number of times is 14, then again detect whether there is pulse signal, if this detects number of times is 16, then judges that Lee does not wear this wearable device;

Please refer to Fig. 4, embodiments of the invention four are:

A kind of unexpected diagnostic system of going into a coma, comprising:

6th judge module 2, is in sleep pattern for judging whether;

Adjusting module 4, for adjusting the duration of the first preset time period;

Second judge module 8, for judging that whether pulse signal is normal;

Stimulating module 7, stimulates mechanism for opening;

First judge module 6, for judging whether have characteristic signal in the second preset time period;

Alarm module 10, for sending warning signal.

Please refer to Fig. 5, embodiments of the invention five are:

Monitoring module, comprising:

Second detection module 111, for detecting temperature signals;

3rd detection module 113, for detecting whether there is pulse signal;

First logging modle 114, for recording current body temperature;

Second logging modle 115, for recording detection number of times;

4th detection module 121, for detecting whether there is pulse signal;

3rd logging modle 122, for detecting and record temperature signals;

4th logging modle 123, for recording detection number of times;

3rd determination module 125, for judging whether monitoring target wears wearable device.This programme realizes unexpected diagnosis of going into a coma by wearable device.

In sum, unexpected stupor diagnostic method provided by the invention and system, wearable device is utilized to realize, periodically temperature signals and pulse signal is detected by monitoring module, and judge that whether monitoring target is normal according to temperature signals and pulse signal, prevent wearable device accidental from causing diagnosis inaccurate; When confirming that monitoring target has worn wearable device, judge that whether monitoring target is normal by detecting characteristic signal, and detect pulse signal further when abnormal conditions being detected, open when detecting that pulse signal is abnormal and stimulate mechanism, if still can't detect characteristic signal after applying stimulates, alarm notification medical personnel check, both ensure that the accuracy of diagnosis, and turn avoid erroneous judgement and cause unnecessary workload, save resource.

The foregoing is only embodiments of the invention; not thereby the scope of the claims of the present invention is limited; every equivalents utilizing description of the present invention and accompanying drawing content to do, or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present invention.

Claims

1. accident is gone into a coma a diagnostic method, it is characterized in that, comprising:

If monitoring target does not wear wearable device, then send warning signal;

If there is characteristic signal, then judge that monitoring target is normal;

If pulse signal is normal, then shorten the cycle of pulse detection;

If there is characteristic signal, then judge that monitoring target is normal;

If without characteristic signal, then send warning signal.

2. accident according to claim 1 is gone into a coma diagnostic method, it is characterized in that, described " periodically detect temperature signals, and judge whether monitoring target wears wearable device according to temperature signals " is specially:

Detect temperature signals, judge whether the temperature signals change detected exceedes preset value;

If do not exceed preset value, then judge that monitoring target wears wearable device, detects and terminates;

If exceed preset value, then detect and whether there is pulse signal;

If there is pulse signal, then judge that monitoring target wears wearable device, and record current body temperature;

If there is not pulse signal, then record detects number of times;

Judge whether detect number of times is greater than preset times;

If be greater than preset times, then judge that monitoring target does not wear wearable device;

If be not more than preset times, then again detect whether there is pulse signal.

3. accident according to claim 1 is gone into a coma diagnostic method, it is characterized in that, described " periodically detect pulse signal, and judge whether monitoring target wears wearable device according to pulse signal " is specially:

Detect and whether there is pulse signal;

If there is pulse signal, judge that monitoring target wears wearable device, and detect and record current body temperature;

If there is not pulse signal, record detection number of times;

Judge whether detect number of times is greater than preset times;

4. accident according to claim 1 is gone into a coma diagnostic method, it is characterized in that, also comprises before " detect in the first preset time period and whether have characteristic signal ":

Judge whether to be in sleep pattern;

If be not in the custom section length of one's sleep, do not change preset time period duration.

5. accident is gone into a coma a diagnostic system, it is characterized in that, comprising:

First judge module, for judging that whether pulse signal is normal;

Stimulating module, stimulates mechanism for opening;

Alarm module, for sending warning signal.

6. accident according to claim 5 is gone into a coma diagnostic system, and it is characterized in that, described monitoring module comprises:

Second detection module, for detecting temperature signals;

3rd judge module, for judging whether the temperature signals change detected exceedes preset value;

3rd detection module, for detecting whether there is pulse signal;

First logging modle, for recording current body temperature;

Second logging modle, for recording detection number of times;

4th judge module, for judging whether detect number of times is greater than preset times;

Second determination module, for judging whether monitoring target wears wearable device.

7. accident according to claim 5 is gone into a coma diagnostic system, and it is characterized in that, described monitoring module also comprises:

4th detection module, for detecting whether there is pulse signal;

3rd logging modle, for detecting and record temperature signals;

4th logging modle, for recording detection number of times;

5th judge module, for judging whether detect number of times is greater than preset times;

3rd determination module, for judging whether monitoring target wears wearable device.

8. accident according to claim 5 is gone into a coma diagnostic system, it is characterized in that, also comprises:

6th judge module, is in sleep pattern for judging whether;

7th judge module, for judging whether current time is in the custom section length of one's sleep;

Adjusting module, for adjusting the duration of the first preset time period.