CN113015252A - Method and system for recording stress urinary incontinence frequency by using server - Google Patents

Abstract

The invention discloses a method for recording stress urinary incontinence frequency by using a server, which comprises the following steps: collecting stress urinary incontinence frequency information by a first mobile terminal, collecting stress urinary incontinence frequency information by a second mobile terminal and collecting stress urinary incontinence frequency information by a third mobile terminal; transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information; transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information; transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information; in response to receiving a scheduling request sent by a first mobile terminal, sending, by a relay mobile terminal, first sidelink control information to the first mobile terminal; and sending the second side link control information to the second mobile terminal by the relay mobile terminal in response to receiving the scheduling request sent by the second mobile terminal.

Description

Method and system for recording stress urinary incontinence frequency by using server

Technical Field

The present invention relates to the technical field of stress incontinence treatment, and more particularly, to a method and system for recording stress incontinence frequency using a server.

Background

Stress Urinary Incontinence (SUI) refers to involuntary leakage of urine from the external orifice of the urethra when abdominal pressure increases, such as sneezing or coughing.

Prior art CN207168495U discloses a stress urinary incontinence prediction device and system, comprising: the system comprises a vaginal myoelectricity acquisition probe, a signal amplifier, a signal processor, an information input terminal, a prediction analyzer and a display; the vaginal myoelectricity acquisition probe is used for acquiring an intra-vaginal myoelectricity signal; the signal amplifier is used for amplifying the myoelectric signal to obtain an amplified myoelectric signal; the signal processor is used for extracting a characteristic value from the amplified myoelectric signal; the prediction analyzer is used for performing prediction analysis on the basic information and the characteristic value input by the information input terminal to obtain a risk degree grade; the display is used for displaying the risk degree grade.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide a method and a system for recording the frequency of stress urinary incontinence by using a server, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a method for recording frequency of stress urinary incontinence using a server, wherein the method for recording frequency of stress urinary incontinence using a server comprises the steps of:

collecting stress urinary incontinence frequency information by a first mobile terminal, collecting stress urinary incontinence frequency information by a second mobile terminal and collecting stress urinary incontinence frequency information by a third mobile terminal;

transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

in response to receiving a scheduling request sent by a first mobile terminal, sending, by a relay mobile terminal, first sidelink control information to the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

in response to receiving a scheduling request sent by a second mobile terminal, sending, by a relay mobile terminal, second sidelink control information to the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

in response to receiving the first sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the second sidelink control information;

in response to receiving the third sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, a scheduling request sent by a second mobile terminal and a scheduling request sent by a third mobile terminal, multicasting, by a relay mobile terminal, combined side link control information to the first mobile terminal, the second mobile terminal and the third mobile terminal, wherein the combined side link control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first side link resource to the first mobile terminal, the second subfield indicates a second side link resource to the second mobile terminal, and the third subfield indicates a third side link resource to the third mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the combined sidelink control information;

in response to receiving the combined sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal and a scheduling request sent by a second mobile terminal, multicasting second combined sidelink control information to the first mobile terminal and the second mobile terminal by a relay mobile terminal, wherein the second combined sidelink control information at least comprises a first sub-field and a second sub-field, the first sub-field indicates a first sidelink resource to the first mobile terminal, and the second sub-field indicates a second sidelink resource to the second mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

in response to receiving the third sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, a scheduling request sent by a second mobile terminal and a scheduling request sent by a third mobile terminal, multicasting third combined sidelink control information to the first mobile terminal, the second mobile terminal and the third mobile terminal by a relay mobile terminal, wherein the third combined sidelink control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the third set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, multicasting fourth combined side link control information to the first mobile terminal group by a relay mobile terminal, wherein the first mobile terminal group comprises the first mobile terminal, a fourth mobile terminal and a fifth mobile terminal, the first mobile terminal, the fourth mobile terminal and the fifth mobile terminal have the same group identifier, and the fourth combined side link control information comprises the group identifier and a side link resource used for the first mobile terminal group to transmit data;

determining, by the first mobile terminal, whether a group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by the fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by the fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

if the fourth combined side link control information comprises the group identifier, the first mobile terminal contends for a side link resource for the first mobile terminal group to transmit data;

if the first mobile terminal successfully contends for a side link resource for the first mobile terminal group to transmit data, sending, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal;

in response to receiving the stress urinary incontinence frequency information, transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server;

if the fourth combined side link control information is judged to include the group identifier, the second mobile terminal ignores the fourth combined side link control information;

the third mobile terminal ignores the fourth combined side link control information if it is judged that the group identifier is included in the fourth combined side link control information.

The invention provides a system for recording stress urinary incontinence frequency by using a server, which is characterized in that the system for recording the stress urinary incontinence frequency by using the server comprises:

means for collecting stress urinary incontinence frequency information by a first mobile terminal, stress urinary incontinence frequency information by a second mobile terminal, and stress urinary incontinence frequency information by a third mobile terminal;

means for transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by a relay mobile terminal, first sidelink control information to a first mobile terminal in response to receiving a scheduling request transmitted by the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

means for transmitting, by the relay mobile terminal, second sidelink control information to the second mobile terminal in response to receiving the scheduling request transmitted by the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

means for transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the first sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the second sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, combined side link control information to the first mobile terminal, the second mobile terminal, and the third mobile terminal in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the combined side link control information includes at least a first subfield, a second subfield, and a third subfield, wherein the first subfield indicates first side link resources to the first mobile terminal, the second subfield indicates second side link resources to the second mobile terminal, and the third subfield indicates third side link resources to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, second combined sidelink control information to the first mobile terminal and the second mobile terminal in response to receiving a scheduling request sent by the first mobile terminal and a scheduling request sent by the second mobile terminal, wherein the second combined sidelink control information includes at least a first subfield and a second subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal and the second subfield indicates a second sidelink resource to the second mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, third combined sidelink control information to the first mobile terminal, the second mobile terminal, and the third mobile terminal in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the third combined sidelink control information includes at least a first subfield, a second subfield, and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the third set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, fourth combined side link control information to a first mobile terminal group in response to receiving a scheduling request sent by a first mobile terminal, wherein the first mobile terminal group includes the first mobile terminal, a fourth mobile terminal, and a fifth mobile terminal, wherein the first mobile terminal, the fourth mobile terminal, and the fifth mobile terminal have the same group identifier, and wherein the fourth combined side link control information includes the group identifier and a side link resource for the first mobile terminal group to transmit data;

means for determining, by the first mobile terminal, whether a group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by the fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by the fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for contending, by the first mobile terminal, for a sidelink resource for the group of the first mobile terminal to transmit data if it is determined that the group identifier is included in the fourth combined sidelink control information;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal if the first mobile terminal successfully contends for a sidelink resource for data transmission by the first group of mobile terminals;

means for transmitting, by the relay mobile terminal, stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information;

means for ignoring, by the second mobile terminal, the fourth combined side link control information if it is determined that the group identifier is included in the fourth combined side link control information;

means for ignoring the fourth combined side link control information by the third mobile terminal if it is judged that the group identifier is included in the fourth combined side link control information.

Compared with the prior art, the invention has the advantage that the accurate recording of the occurrence time and frequency of the stress urinary incontinence is crucial to the relief and treatment of the stress urinary incontinence. Traditional recording requires patients to perform autonomously, but practical experience shows that many patients are completely unaware of the fact that they have urinary incontinence, which results in the inability to accurately record the time of urinary incontinence, and that many patients are reluctant to accurately record relevant information for various reasons. In order to overcome the defects of the prior art, the application provides a method and a system for recording the frequency of stress urinary incontinence by using a server.

Drawings

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:

step 101: collecting stress urinary incontinence frequency information by a first mobile terminal, collecting stress urinary incontinence frequency information by a second mobile terminal and collecting stress urinary incontinence frequency information by a third mobile terminal;

step 102: transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

step 103: transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

step 104: transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

step 105: in response to receiving a scheduling request sent by a first mobile terminal, sending, by a relay mobile terminal, first sidelink control information to the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

step 106: in response to receiving a scheduling request sent by a second mobile terminal, sending, by a relay mobile terminal, second sidelink control information to the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

step 107: transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

step 108: in response to receiving the first sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

step 109: transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the second sidelink control information;

step 110: in response to receiving the third sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, a scheduling request sent by a second mobile terminal and a scheduling request sent by a third mobile terminal, multicasting, by a relay mobile terminal, combined side link control information to the first mobile terminal, the second mobile terminal and the third mobile terminal, wherein the combined side link control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first side link resource to the first mobile terminal, the second subfield indicates a second side link resource to the second mobile terminal, and the third subfield indicates a third side link resource to the third mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the combined sidelink control information;

in response to receiving the combined sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal and a scheduling request sent by a second mobile terminal, multicasting second combined sidelink control information to the first mobile terminal and the second mobile terminal by a relay mobile terminal, wherein the second combined sidelink control information at least comprises a first sub-field and a second sub-field, the first sub-field indicates a first sidelink resource to the first mobile terminal, and the second sub-field indicates a second sidelink resource to the second mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

in response to receiving the third sidelink control information, transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, a scheduling request sent by a second mobile terminal and a scheduling request sent by a third mobile terminal, multicasting third combined sidelink control information to the first mobile terminal, the second mobile terminal and the third mobile terminal by a relay mobile terminal, wherein the third combined sidelink control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

in response to receiving the combined sidelink control information, transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the third set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

and in response to receiving the stress urinary incontinence frequency information, sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

In a preferred embodiment, the method for recording the frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by a first mobile terminal, multicasting fourth combined side link control information to the first mobile terminal group by a relay mobile terminal, wherein the first mobile terminal group comprises the first mobile terminal, a fourth mobile terminal and a fifth mobile terminal, the first mobile terminal, the fourth mobile terminal and the fifth mobile terminal have the same group identifier, and the fourth combined side link control information comprises the group identifier and a side link resource used for the first mobile terminal group to transmit data;

determining, by the first mobile terminal, whether a group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by the fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by the fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

if the fourth combined side link control information comprises the group identifier, the first mobile terminal contends for a side link resource for the first mobile terminal group to transmit data;

if the first mobile terminal successfully contends for a side link resource for the first mobile terminal group to transmit data, sending, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal;

in response to receiving the stress urinary incontinence frequency information, transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server;

if the fourth combined side link control information is judged to include the group identifier, the second mobile terminal ignores the fourth combined side link control information;

the third mobile terminal ignores the fourth combined side link control information if it is judged that the group identifier is included in the fourth combined side link control information.

The invention provides a system for recording stress urinary incontinence frequency by using a server, which is characterized in that the system for recording the stress urinary incontinence frequency by using the server comprises:

means for collecting stress urinary incontinence frequency information by a first mobile terminal, stress urinary incontinence frequency information by a second mobile terminal, and stress urinary incontinence frequency information by a third mobile terminal;

means for transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by a relay mobile terminal, first sidelink control information to a first mobile terminal in response to receiving a scheduling request transmitted by the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

means for transmitting, by the relay mobile terminal, second sidelink control information to the second mobile terminal in response to receiving the scheduling request transmitted by the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

means for transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the first sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the second sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, combined side link control information to the first mobile terminal, the second mobile terminal, and the third mobile terminal in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the combined side link control information includes at least a first subfield, a second subfield, and a third subfield, wherein the first subfield indicates first side link resources to the first mobile terminal, the second subfield indicates second side link resources to the second mobile terminal, and the third subfield indicates third side link resources to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the second set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, second combined sidelink control information to the first mobile terminal and the second mobile terminal in response to receiving a scheduling request sent by the first mobile terminal and a scheduling request sent by the second mobile terminal, wherein the second combined sidelink control information includes at least a first subfield and a second subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal and the second subfield indicates a second sidelink resource to the second mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, third side link control information to the third mobile terminal in response to receiving the scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, third combined sidelink control information to the first mobile terminal, the second mobile terminal, and the third mobile terminal in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the third combined sidelink control information includes at least a first subfield, a second subfield, and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the first set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the third set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

In a preferred embodiment, a system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, fourth combined side link control information to a first mobile terminal group in response to receiving a scheduling request sent by a first mobile terminal, wherein the first mobile terminal group includes the first mobile terminal, a fourth mobile terminal, and a fifth mobile terminal, wherein the first mobile terminal, the fourth mobile terminal, and the fifth mobile terminal have the same group identifier, and wherein the fourth combined side link control information includes the group identifier and a side link resource for the first mobile terminal group to transmit data;

means for determining, by the first mobile terminal, whether a group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by the fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by the fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for contending, by the first mobile terminal, for a sidelink resource for the group of the first mobile terminal to transmit data if it is determined that the group identifier is included in the fourth combined sidelink control information;

means for transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal if the first mobile terminal successfully contends for a sidelink resource for data transmission by the first group of mobile terminals;

means for transmitting, by the relay mobile terminal (via the base station), the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information;

means for ignoring, by the second mobile terminal, the fourth combined side link control information if it is determined that the group identifier is included in the fourth combined side link control information;

means for ignoring the fourth combined side link control information by the third mobile terminal if it is judged that the group identifier is included in the fourth combined side link control information.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. A method for recording stress urinary incontinence frequency using a server, the method for recording stress urinary incontinence frequency using a server comprising the steps of:

collecting stress urinary incontinence frequency information by a first mobile terminal, collecting stress urinary incontinence frequency information by a second mobile terminal and collecting stress urinary incontinence frequency information by a third mobile terminal;

transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

transmitting, by the third mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

in response to receiving a scheduling request sent by the first mobile terminal, sending, by a relay mobile terminal, first sidelink control information to the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

sending, by a relay mobile terminal, second sidelink control information to the second mobile terminal in response to receiving a scheduling request sent by the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

transmitting, by a relay mobile terminal, third side link control information to the third mobile terminal in response to receiving a scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the first sidelink control information;

sending, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the second sidelink control information;

in response to receiving the third sidelink control information, transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

2. The method of recording frequency of stress urinary incontinence using a server according to claim 1, wherein the method of recording frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal and a scheduling request sent by the third mobile terminal, multicasting, by a relay mobile terminal, combined side link control information to the first mobile terminal, the second mobile terminal and the third mobile terminal, wherein the combined side link control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first side link resource to the first mobile terminal, the second subfield indicates a second side link resource to the second mobile terminal, and the third subfield indicates a third side link resource to the third mobile terminal;

transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and responding to the received stress urinary incontinence frequency information, and sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

3. The method of recording frequency of stress urinary incontinence using a server according to claim 2, wherein the method of recording frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by the first mobile terminal and a scheduling request sent by the second mobile terminal, multicasting, by a relay mobile terminal, second combined sidelink control information to the first mobile terminal and the second mobile terminal, wherein the second combined sidelink control information at least comprises a first subfield and a second subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, and the second subfield indicates a second sidelink resource to the second mobile terminal;

transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by a second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

transmitting, by a relay mobile terminal, third side link control information to the third mobile terminal in response to receiving a scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates a third side link resource to the third mobile terminal;

transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

and responding to the received stress urinary incontinence frequency information, and sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

4. The method of recording frequency of stress urinary incontinence using a server according to claim 3, wherein the method of recording frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal and a scheduling request sent by the third mobile terminal, multicasting third combined sidelink control information to the first mobile terminal, the second mobile terminal and the third mobile terminal by a relay mobile terminal, wherein the third combined sidelink control information at least comprises a first subfield, a second subfield and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

transmitting, by the first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on the second set of symbols and the first set of subcarriers in response to receiving the combined sidelink control information;

transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

and responding to the received stress urinary incontinence frequency information, and sending the stress urinary incontinence frequency information to the server by the relay mobile terminal.

5. The method of recording frequency of stress urinary incontinence using a server according to claim 4, wherein the method of recording frequency of stress urinary incontinence using a server comprises the steps of:

in response to receiving a scheduling request sent by the first mobile terminal, multicasting fourth combined side link control information to a first mobile terminal group by a relay mobile terminal, wherein the first mobile terminal group comprises the first mobile terminal, a fourth mobile terminal and a fifth mobile terminal, the first mobile terminal, the fourth mobile terminal and the fifth mobile terminal have the same group identifier, and the fourth combined side link control information comprises the group identifier and a side link resource for the first mobile terminal group to transmit data;

determining, by the first mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by a fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

determining, by a fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

if the fourth combined side link control information comprises the group identifier, the first mobile terminal contends for the side link resource for the first mobile terminal group to transmit data;

if the first mobile terminal successfully contends for the side link resource for the data transmission of the first mobile terminal group, sending stress urinary incontinence frequency information to the relay mobile terminal by the first mobile terminal;

in response to receiving the stress urinary incontinence frequency information, transmitting, by a relay mobile terminal, the stress urinary incontinence frequency information to the server;

if the fourth combined side link control information comprises the group identifier, the second mobile terminal ignores the fourth combined side link control information;

and if the fourth combined side link control information comprises the group identifier, the third mobile terminal ignores the fourth combined side link control information.

6. A system for recording frequency of stress urinary incontinence using a server, the system for recording frequency of stress urinary incontinence using a server comprising:

means for collecting stress urinary incontinence frequency information by a first mobile terminal, stress urinary incontinence frequency information by a second mobile terminal, and stress urinary incontinence frequency information by a third mobile terminal;

means for transmitting, by the first mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by the second mobile terminal, a scheduling request to the relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by a third mobile terminal, a scheduling request to a relay mobile terminal in response to receiving the stress urinary incontinence frequency information;

means for transmitting, by a relay mobile terminal, first sidelink control information to the first mobile terminal in response to receiving a scheduling request transmitted by the first mobile terminal, wherein the first sidelink control information indicates a first sidelink resource to the first mobile terminal;

means for transmitting, by a relay mobile terminal, second sidelink control information to the second mobile terminal in response to receiving a scheduling request transmitted by the second mobile terminal, wherein the second sidelink control information indicates second sidelink resources to the second mobile terminal;

means for transmitting, by a relay mobile terminal, third side link control information to a third mobile terminal in response to receiving a scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates third side link resources to the third mobile terminal;

means for transmitting, by a first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the first sidelink control information;

means for transmitting, by a second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the second sidelink control information;

means for transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap.

7. The system for recording the frequency of stress urinary incontinence using a server according to claim 6, wherein said system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, combined side link control information to the first, second, and third mobile terminals in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the combined side link control information includes at least a first subfield indicating first side link resources to the first mobile terminal, a second subfield indicating second side link resources to the second mobile terminal, and a third subfield indicating third side link resources to the third mobile terminal;

means for transmitting, by a first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by the second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by a relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

8. The system for recording the frequency of stress urinary incontinence using a server according to claim 7, wherein said system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, second combined sidelink control information to the first mobile terminal and a second mobile terminal in response to receiving a scheduling request sent by the first mobile terminal and a scheduling request sent by the second mobile terminal, wherein the second combined sidelink control information includes at least a first subfield and a second subfield, wherein the first subfield indicates first sidelink resources to the first mobile terminal and the second subfield indicates second sidelink resources to the second mobile terminal;

means for transmitting, by a first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by a second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a second set of subcarriers in response to receiving the combined sidelink control information, wherein the first set of subcarriers and the second set of subcarriers partially overlap;

means for transmitting, by a relay mobile terminal, third side link control information to a third mobile terminal in response to receiving a scheduling request transmitted by the third mobile terminal, wherein the third side link control information indicates third side link resources to the third mobile terminal;

means for transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a third set of subcarriers in response to receiving the third sidelink control information, wherein the first set of subcarriers, the second set of subcarriers, and the third set of subcarriers partially overlap;

means for transmitting, by a relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

9. The system for recording the frequency of stress urinary incontinence using a server according to claim 8, wherein said system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, third combined sidelink control information to the first mobile terminal, a second mobile terminal, and a third mobile terminal in response to receiving a scheduling request sent by the first mobile terminal, a scheduling request sent by the second mobile terminal, and a scheduling request sent by the third mobile terminal, wherein the third combined sidelink control information includes at least a first subfield, a second subfield, and a third subfield, wherein the first subfield indicates a first sidelink resource to the first mobile terminal, the second subfield indicates a second sidelink resource to the second mobile terminal, and the third subfield indicates a third sidelink resource to the third mobile terminal;

means for transmitting, by a first mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a first set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by a second mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a second set of symbols and a first set of subcarriers in response to receiving the combined sidelink control information;

means for transmitting, by a third mobile terminal, stress urinary incontinence frequency information to the relay mobile terminal on a third set of symbols and a first set of subcarriers in response to receiving the combined side link control information;

means for transmitting, by a relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information.

10. The system for recording the frequency of stress urinary incontinence using a server according to claim 9, wherein said system for recording the frequency of stress urinary incontinence using a server comprises:

means for multicasting, by a relay mobile terminal, fourth combined sidelink control information to a first mobile terminal group in response to receiving a scheduling request sent by the first mobile terminal, wherein the first mobile terminal group includes a first mobile terminal, a fourth mobile terminal, and a fifth mobile terminal, wherein the first mobile terminal, the fourth mobile terminal, and the fifth mobile terminal have a same group identifier, and wherein the fourth combined sidelink control information includes the group identifier and a sidelink resource for data transmission by the first mobile terminal group;

means for determining, by the first mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by a fourth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for determining, by a fifth mobile terminal, whether the group identifier is included in the fourth combined side link control information in response to receiving the fourth combined side link control information;

means for contending, by the first mobile terminal, for the sidelink resource for the group transmission of data by the first mobile terminal if it is determined that the fourth combined sidelink control information includes the group identifier;

means for sending, by the first mobile terminal, stress urinary incontinence frequency information to the relaying mobile terminal if the first mobile terminal successfully contends for the sidelink resource for the data transmitted by the first group of mobile terminals;

means for transmitting, by a relay mobile terminal, the stress urinary incontinence frequency information to the server in response to receiving the stress urinary incontinence frequency information;

means for ignoring, by the second mobile terminal, the fourth combined side link control information if it is determined that the group identifier is included in the fourth combined side link control information;

means for ignoring the fourth combined side link control information by a third mobile terminal if it is determined that the group identifier is included in the fourth combined side link control information.

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