CN101656969B

CN101656969B - Radiation warning method, device and system

Info

Publication number: CN101656969B
Application number: CN 200810118661
Authority: CN
Inventors: 骆晓亮; 于川; 常嘉岳
Original assignee: China Mobile Communications Group Co Ltd
Current assignee: China Mobile Communications Group Co Ltd
Priority date: 2008-08-21
Filing date: 2008-08-21
Publication date: 2013-01-23
Anticipated expiration: 2028-08-21
Also published as: CN101656969A

Abstract

The invention discloses a radiation warning method, which comprises the following steps: detecting the signal transmission power of a mobile terminal; comparing the acquired signal transmission power and a preset power threshold value; and when the acquired signal transmission power is greater than the preset power threshold value, warning a user of the mobile terminal. Therefore, the user can timely know that the user is in an environment full of radiation, so the user can instantly take corresponding measures for protection to furthest reduce the damage of the radiation to the body. The invention simultaneously discloses a mobile terminal, a base station and a communication system.

Description

Radiation-oriented early warning method, device and system

Technical Field

The present invention relates to the field of communications, and in particular, to a method, an apparatus, and a system for radiation-based early warning.

Background

With the development of communication technology and the improvement of living standard of people, mobile phones have gradually become an indispensable communication tool in people's life. The radio frequency circuit in the mobile phone needs to use high-strength transmitting power to send the mobile phone signal so as to overcome the attenuation of the signal in the long-distance transmission process in order to ensure that the mobile phone signal can still be correctly demodulated after reaching a base station through long-distance transmission when a user is positioned at the edge of a cell of the base station for communication; on the other hand, when the battery of the mobile phone is about to run out, or when the base station signal is weak, for the same reason, the rf circuit inside the mobile phone also needs to transmit the mobile phone signal with high transmission power. Because the distance between the mobile phone and the brain is very close in the using process, when the transmitting power of the mobile phone signal reaches a certain intensity, strong induced current can be generated in the brain by strong electromagnetic wave radiation of the mobile phone signal, the physiology of the brain, the vegetative nerve and the endocrine are interfered, the electrophysiology of the heart can be interfered by the mobile phone placed in front of the chest, and lesions can be generated over time.

At present, the existing radiation protection method for the mobile phone adopts some technical means to reduce the harm of the electromagnetic wave radiation of the mobile phone to human bodies. For example, the body separation mechanism is to split the mobile phone into an independent rf module and a host part, and place the rf module with radiation at a location far from the brain (e.g., in a pocket of clothes or a satchel); for another example, radiation shielding materials have been added to cellular phones to reduce radiation. However, in some specific areas or under certain characteristic conditions (for example, a user is located at the edge of a cell of a base station, the power of a mobile phone is insufficient, and the like), due to the large transmission power of the mobile phone, the radiation of the mobile phone to a human body cannot be reduced below a safety value even if the radiation protection technology is used. Therefore, there is a need to provide a new method to protect people from the radiation of mobile phones.

Disclosure of Invention

The embodiment of the invention provides a radiation-oriented early warning method, a radiation-oriented early warning device and a radiation-oriented early warning system, which are used for effectively reminding a user when the signal radiation of a mobile terminal exceeds a set threshold.

The embodiment of the invention provides the following specific technical scheme:

a method of early warning for radiation;

detecting signal emission power of the mobile terminal;

comparing the obtained signal transmitting power with a preset power threshold value;

when the obtained signal transmitting power is determined to be larger than a preset power threshold value, the mobile terminal sends out an early warning signal;

monitoring the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold, further judging whether the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold and exceeds the set threshold T to close the threshold, if so, stopping sending the early warning signal, and re-detecting the signal transmitting power of the mobile terminal, otherwise, re-detecting the signal transmitting power of the mobile terminal.

A mobile terminal, comprising:

the detection unit is used for detecting the signal emission power of the mobile terminal;

the comparison unit is used for comparing the obtained signal transmitting power with a preset power threshold value;

the processing unit is used for sending out an early warning signal when the comparison unit determines that the obtained signal transmitting power is larger than a preset power threshold value;

and after the processing unit sends out the early warning signal, monitoring the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold, further judging the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold, and if the signal transmitting power of the mobile terminal does exceed the set threshold, closing the threshold, if so, stopping sending the early warning signal, and re-detecting the signal transmitting power of the mobile terminal, otherwise, re-detecting the signal transmitting power of the mobile terminal.

A base station, comprising:

the detection unit is used for detecting the signal emission power of the mobile terminal in the jurisdiction range of the base station;

the processing unit is used for informing the mobile terminal to send out an early warning signal when the comparison unit determines that the obtained signal transmission power is greater than a preset power threshold value;

and after the processing unit informs the mobile terminal to send out the early warning signal, monitoring the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold, further judging the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold, and whether the signal transmitting power of the mobile terminal exceeds the set threshold T to close the threshold, if so, stopping sending the early warning signal, and detecting the signal transmitting power of the mobile terminal again, otherwise, detecting the signal transmitting power of the mobile terminal again.

A communication system, comprising:

the base station is used for detecting the signal transmitting power of the mobile terminal in the jurisdiction range of the base station, comparing the obtained signal transmitting power with a preset power threshold value, notifying the mobile terminal to perform early warning on a user when the obtained signal transmitting power is determined to be larger than the preset power threshold value, monitoring the maintaining time T2 when the signal transmitting power of the mobile terminal does not exceed the set threshold value after notifying the mobile terminal to perform early warning on the user, further judging the maintaining time T2 when the signal transmitting power of the mobile terminal does not exceed the set threshold value, and whether the signal transmitting power exceeds the set threshold value T to close the threshold value, if so, stopping sending the early warning signal, and re-detecting the signal transmitting power of the mobile terminal, otherwise, re-detecting the signal transmitting power of the mobile terminal;

and the mobile terminal is used for receiving the notification of the base station, sending out an early warning signal according to a preset mode and stopping sending out the early warning signal.

In the embodiment of the invention, the base station or the mobile terminal detects the signal transmitting power of the mobile terminal, compares the obtained signal transmitting power with the preset power threshold value, and sends out the early warning signal by the mobile terminal when the obtained signal transmitting power is determined to be larger than the preset power threshold value. Therefore, the user can timely know that the user is in a high radiation environment, so that corresponding measures can be immediately taken for protection, and further physical damage caused by radiation is reduced to the minimum.

Drawings

FIG. 1A is a diagram of a functional architecture of a handset in an embodiment of the invention;

FIG. 1B is a block diagram of a communication system architecture in an embodiment of the present invention;

FIG. 1C is a functional block diagram of a base station according to an embodiment of the present invention;

FIG. 2 is a flow chart of a first method for monitoring the signal transmission power of a mobile phone and pre-warning a user in an embodiment of the present invention;

fig. 3 and fig. 4 are flow charts of a second method for monitoring the signal transmission power of the mobile phone and warning the user.

Detailed Description

In order to effectively send out an early warning to a user when the mobile terminal is in a high radiation state, in the embodiment of the invention, the signal transmission power of the mobile terminal is detected, the obtained signal transmission power is compared with a preset power threshold value, and when the obtained signal transmission power is determined to be larger than the preset power threshold value, the mobile terminal sends out an early warning signal. Therefore, the user can timely know that the user is in a high radiation environment, and can immediately take corresponding protective measures to minimize physical damage caused by radiation.

In practical application, the functional entity for executing the method may be a base station on a network side, or may be a mobile terminal itself, and the mobile terminal may be a mobile functional entity such as a mobile phone, a PDA, a notebook computer, and the like.

The following describes preferred embodiments of the present invention in detail with reference to the drawings, taking a mobile terminal as an example.

In the first case, the detection of the signal transmission power of the mobile phone can be performed by the mobile phone itself, as shown in fig. 1A, in this embodiment, the mobile phone 10 includes a detecting unit 100, a comparing unit 101, and a processing unit 102; wherein,

a detecting unit 100, configured to detect a signal transmission power of the mobile phone 10;

the comparison unit 101 is configured to compare the obtained signal transmission power with a preset power threshold, and send a comparison result to the processing unit 102;

and the processing unit 102 is configured to send an early warning signal when the comparing unit 101 determines that the obtained signal transmission power is greater than a preset power threshold.

In the second case, the detection of the signal transmission power of the handset can be performed by the base station on the network side, as shown in fig. 1B, in this embodiment, the communication system includes the handset 10 and the base station 20, wherein,

the base station 20 is configured to detect the signal transmission power of the mobile phone 10 in its jurisdiction range, compare the obtained signal transmission power with a preset power threshold, and notify the mobile phone 10 to perform an early warning on its user when it is determined that the obtained signal transmission power is greater than the preset power threshold;

and the mobile phone 10 is used for receiving the notification of the base station 20 and sending out an early warning signal according to a preset mode.

Referring to fig. 1C, in the present embodiment, the base station 20 includes a detecting unit 200, a comparing unit 201, and a processing unit 202; wherein,

a detecting unit 200, configured to detect the signal transmitting power of the mobile phone 10 in the jurisdiction of the base station 20;

a comparing unit 201, configured to compare the obtained signal transmission power with a preset power threshold;

the processing unit 202 is configured to send an early warning signal when the comparing unit 201 determines that the obtained signal transmission power is greater than a preset power threshold.

Based on the above system architecture, referring to fig. 2, in this embodiment, the detailed flow of monitoring the signal transmission power of the mobile phone 10 and performing radiation alarm is as follows:

step 200: the handset 10 detects its own signal transmission power P.

Step 210: the mobile phone 10 determines whether the signal transmission power P exceeds a predetermined power threshold, i.e. P > P_{Threshold (THD)}Is there a If yes, go to step 220; otherwise, go to step 260.

In this embodiment, P is obtained by the formula (1)_{Threshold (THD)}Wherein P is_{Threshold (THD)}The unit of (a) is W, d is the preset distance from the mobile phone to the center of the head of a person, the unit is meter, pi is the circumferential ratio, 0.4 is the preset radiation index of the mobile phone to the human body, and the unit is W/m²In the present embodiment, the radiation index is set to 0.4, and in another case, if the user using the mobile phone is a pregnant woman or a child, the value may be set to W/m²。

P_{Threshold (THD)}＝0.4(4π*d²) Formula (1)

Step 220: the handset 10 further determines the local timer T_KWhether or not it has alreadyIf yes, go to step 240; otherwise, step 230 is performed.

Step 230: the mobile phone 10 starts the timer T_KAnd a maintaining time T1 for monitoring that the own signal transmission power exceeds the set threshold, and then the step 240 is performed.

Step 240: the mobile phone 10 determines whether the holding time T1 for which the own signal transmission power exceeds the set threshold T_{Starting threshold}I.e. T1 > T_{Starting threshold}Is there a If yes, go to step 250; otherwise, return to step 200. In this embodiment, T is a national standard_{Starting threshold}Set to 6 minutes.

Step 250: the mobile phone 10 starts the radiation alarm system and reminds the user of protection in a set mode.

After the mobile phone 10 starts the radiation alarm system, the user may be prompted for radiation protection in various manners, such as voice prompt, caption prompt, alarm prompt, etc., so as to prompt the user that the signal transmission power of the mobile phone 10 is in a high radiation state, and the user should use the earphone to make a call as much as possible, or end the current call as soon as possible.

On the other hand, after the mobile phone 10 starts the radiation alarm system, the timer T is turned off_K。

Step 260: the mobile phone 10 further determines whether the radiation alarm system is activated, if so, proceeds to step 270; otherwise, return to step 200.

Step 270: the handset 10 starts a timer Tg and monitors the holding time T2 when its own signal transmission power does not exceed a set threshold.

When the radiation alarm system is activated and the signal transmission power of the mobile phone 10 drops below the preset threshold, the mobile phone 10 needs to start the timer Tg to monitor the maintaining time T2 when the signal transmission power of the mobile phone 10 does not exceed the preset threshold, and the radiation alarm system is turned off when the time T2 reaches a certain time.

Step 280: the mobile phone 10 further determines whether the self signal transmission power does not exceed the holding time T2 of the set threshold, and whether the self signal transmission power exceeds the set threshold T_{Closing threshold}I.e. T2 > T_{Closing threshold}Is there a If yes, go to step 290; otherwise, return to step 200.

In this embodiment, T is assumed in combination with the provisions of the relevant national standards_{Closing threshold}＝1min。

Step 290: the handset 10 turns off its own radiation alarm system and then returns to step 200.

The handset 10 turns off the timer Tg at the same time as its own radiation alarm system.

In another case, the operation flow described in steps 200 to 290 may also be completed by the base station 20 on the network side, that is, the base station 20 monitors the signal transmission power of the mobile phone 10, and when it is determined that the signal transmission power exceeds the preset power threshold, the user is prompted in a set manner (e.g., short message prompt, voice prompt, etc.). In the following description, taking a mobile phone 10 and a base station 20 as an example, referring to fig. 3, in this embodiment, a detailed flow of monitoring the signal transmission power of the mobile phone 10 and informing the mobile phone 10 to perform a radiation alarm to the user by the base station 20 is as follows:

step 300: the base station 20 detects the signal transmission power P of the mobile phone 10 in its own jurisdiction.

Step 310: the base station 20 determines whether the signal transmission power P of the mobile phone exceeds a set power threshold, i.e. P > P_{Threshold (THD)}Is there a If yes, go to step 320; otherwise, go to step 360.

Step 320: the base station 20 further determines a local timer T_KIf so, go to step 340; otherwise, go to step 330.

Step 330: the base station 20 starts a timer T_KA maintenance time T1 for monitoring the signal transmission power of the handset 10 exceeding a set threshold,step 340 is then performed.

Step 340: the base station 20 determines whether the holding time T1 for the signal transmission power of the mobile phone 10 to exceed the set threshold exceeds the set threshold T_{Starting threshold}I.e. T1 > T_{Starting threshold}Is there a If yes, go to step 350; otherwise, return to step 300. In this embodiment, T is a national standard_{Starting threshold}Set to 6 minutes.

Step 350: the base station 20 notifies the mobile phone 10 to start the radiation alarm system, so that the mobile phone 10 reminds the user of protection in a set mode.

Similarly, after the mobile phone 10 starts the radiation alarm system, the user may be prompted for radiation protection in various manners, such as voice prompt, subtitle prompt, and alarm prompt, so as to prompt the user that the signal transmission power of the mobile phone 10 is in a high radiation state, and the user should use the earphone to make a call as much as possible, or end the current call as soon as possible.

Step 360: the base station 20 further determines whether the radiation alarm system of the mobile phone 10 is activated, if yes, go to step 370; otherwise, proceed to step 300.

Step 370: the base station 20 starts a timer Tg and monitors the signal transmission power of the handset 10 for a holding time T2 when the signal transmission power does not exceed a set threshold.

In this embodiment, when the radiation alarm system of the mobile phone 10 is started and the signal transmission power of the mobile phone 10 drops below the preset threshold, the base station 20 needs to start the timer Tg to monitor the maintaining time T2 when the signal transmission power of the mobile phone 10 does not exceed the preset threshold, and notify the mobile phone 10 to turn off the radiation alarm system when the time T2 reaches a certain time.

Step 380: the base station 20 further determines whether the signal transmission power of the mobile phone 10 does not exceed the retention time T2 of the set threshold, and exceeds the set threshold T_{Closing threshold}I.e. T2 > T_{Closing threshold}Is there a If yes, go to step 390; otherwise, return to step 300.

Step 390: the base station 20 informs the handset 10 to turn off the radiation alarm system and then returns to step 300.

Based on the above embodiments, referring to fig. 4, in this embodiment, the mobile phone 10 receives the instruction of turning on/off the radiation operating system downloaded by the base station 20, and executes the following corresponding operations:

step 400: the handset 10 receives the indication information sent by the base station 20.

Step 410: the mobile phone 10 judges whether the received indication information is used for starting a radiation alarm system or closing the radiation alarm system; if "on", go to step 420; if "off", proceed to step 430.

Step 420: the mobile phone 10 starts the radiation alarm system and reminds the user of protection in a set manner.

Similarly, the reminding mode adopted by the mobile phone 10 can be, but is not limited to, the following: voice prompts, caption prompts, audible alerts, and the like.

Step 430: the handset 10 turns off the radiation alarm system.

In the above embodiment, only the mobile phone 10 is taken as an example for explanation, and for other mobile terminals with signal radiation, the technical solution provided in the embodiment of the present invention is also applicable, and is not described herein again.

On the other hand, besides the base station 20, the network side may also execute the operation flows of steps 300 to 390 by other functional entities, for example, an MSC, or a specially configured functional entity, which is not described herein again.

In summary, by adopting the technical scheme provided by the embodiment of the invention, when the mobile terminal is in a high radiation state, the user can be reminded in a most direct early warning manner, so that the user can take corresponding measures in time to reduce the damage of radiation to the user.

It will be apparent to those skilled in the art that various changes and modifications may be made in the embodiments of the present invention without departing from the spirit and scope of the invention. Thus, provided that such modifications and variations in the embodiments of the present invention fall within the scope of the claims of the present invention and their equivalents, the embodiments of the present invention are intended to include such modifications and variations as well.

Claims

1. A method of providing early warning of radiation, comprising the steps of:

detecting signal emission power of the mobile terminal;

monitoring the maintaining time T2 when the signal transmitting power of the mobile terminal does not exceed the set threshold value, and further judging the mobile terminalThe maintaining time T2 when the signal transmitting power of the terminal does not exceed the set threshold value or not_{Closing threshold}If so, stopping sending the early warning signal and detecting the signal emission power of the mobile terminal again, otherwise, detecting the signal emission power of the mobile terminal again.

2. The warning method of claim 1, wherein formula P is used_{Threshold (THD)}＝a(4π*d²) And setting the power threshold value, wherein a is a preset radiation index, d is the distance between a preset mobile terminal and the central position of the head of the user, and pi is the circumferential rate.

3. The warning method of claim 1, wherein after determining that the obtained signal transmission power is greater than a preset power threshold, performing the steps of:

monitoring the maintaining time that the signal transmitting power of the mobile terminal is greater than a preset power threshold value;

comparing the maintaining time with a preset time period threshold value;

and when the maintaining time is determined to be larger than a preset time period threshold value, the mobile terminal sends out an early warning signal.

4. The early warning method according to any one of claims 1 to 3, wherein the mobile terminal detects its own signal transmission power, compares the obtained signal transmission power with a preset power threshold, and sends out the early warning signal in a preset manner when it is determined that the obtained signal transmission power is greater than the preset power threshold; or, the base station to which the mobile terminal belongs currently detects the signal transmission power of the mobile terminal, compares the obtained signal transmission power with a preset power threshold value, and informs the mobile terminal to send out an early warning signal according to a preset mode when the obtained signal transmission power is determined to be larger than the preset power threshold value.

5. The warning method of claim 4, wherein the predetermined manner comprises a voice prompt, a caption prompt, an alarm prompt or a short message prompt.

6. A mobile terminal, comprising:

after the processing unit sends out the early warning signal, the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold is monitored, and whether the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold is further judged_{Closing threshold}If so, stopping sending the early warning signal and detecting the signal emission power of the mobile terminal again, otherwise, detecting the signal emission power of the mobile terminal again.

7. The mobile terminal of claim 6, wherein when the comparing unit determines that the obtained signal transmission power is greater than a preset power threshold, the processing unit monitors a holding time during which the signal transmission power of the mobile terminal is greater than the preset power threshold, compares the holding time with a preset time period threshold, and sends an early warning signal when determining that the holding time is greater than the preset time period threshold.

8. The mobile terminal according to claim 6 or 7, wherein the processing unit sends the warning signal by means of voice prompt, caption prompt, alarm prompt or short message prompt.

9. A base station, comprising:

after the processing unit informs the mobile terminal to send out the early warning signal, the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold is monitored, and whether the maintaining time T2 that the signal transmitting power of the mobile terminal does not exceed the set threshold is further judged_{Closing threshold}If so, stopping sending the early warning signal and detecting the signal emission power of the mobile terminal again, otherwise, detecting the signal emission power of the mobile terminal again.

10. The base station of claim 9, wherein when the comparing unit determines that the obtained signal transmission power is greater than a preset power threshold, the processing unit monitors a maintaining time that the signal transmission power of the mobile terminal is greater than the preset power threshold, compares the maintaining time with a preset time period threshold, and notifies the mobile terminal to send an early warning signal when the maintaining time is greater than the preset time period threshold.

11. A communication system, comprising:

a base station for detecting the signal transmitting power of the mobile terminal in the jurisdiction range of the base station, comparing the obtained signal transmitting power with a preset power threshold value, informing the mobile terminal to send an early warning signal when the obtained signal transmitting power is determined to be larger than the preset power threshold value, and monitoring the signal transmission of the mobile terminal after informing the mobile terminal to early warn the user of the mobile terminalThe maintaining time T2 when the emission power does not exceed the set threshold, further determine whether the signal emission power of the mobile terminal does not exceed the maintaining time T2 when the emission power exceeds the set threshold, and the signal emission power exceeds the set threshold T_{Closing threshold}If so, stopping sending the early warning signal and detecting the signal emission power of the mobile terminal again, otherwise, detecting the signal emission power of the mobile terminal again;

12. The communication system of claim 11, wherein the base station monitors a maintaining time that the signal transmission power of the mobile terminal is greater than a preset power threshold when determining that the obtained signal transmission power is greater than the preset power threshold, compares the maintaining time with a preset time period threshold, and notifies the mobile terminal to send an early warning signal when determining that the maintaining time is greater than the preset time period threshold.

13. The communication system according to claim 11 or 12, wherein the mobile terminal sends the warning signal by means of voice prompt, caption prompt, alarm sound prompt or short message prompt.