CN112423396A

CN112423396A - Wireless terminal-based intelligent pediatric emergency pre-examination triage system

Info

Publication number: CN112423396A
Application number: CN202011271420.5A
Authority: CN
Inventors: 彭静; 张芳芳; 杨丹
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-02-26

Abstract

The invention discloses a pediatric intelligent emergency pre-examination triage system based on a wireless terminal, which comprises: a unit for generating a triage information upload request message by a medical center server; a unit for transmitting a triage information upload request message to the base station by the medical center server; means for transmitting, by a base station to a relay node, a first PDCCH message over a first set of symbols of a first subframe and a first frequency band in response to receiving a triage information upload request message; means for receiving, by the relay node, a first PDSCH message transmitted by the base station on first PDSCH resources in response to receiving the first PDCCH message; means for determining, by the relay node, time-frequency resources for the relay node to communicate with the mobile terminal in response to receiving the first PDCCH message; means for transmitting, by the relay node, a second PDCCH message to the mobile terminal on the third set of symbols and the second set of subcarriers of the first subframe in response to determining the time-frequency resources for the relay node to communicate with the mobile terminal.

Description

Wireless terminal-based intelligent pediatric emergency pre-examination triage system

Technical Field

The invention relates to the technical field of pediatric emergency treatment, in particular to a pediatric intelligent emergency treatment pre-examination triage system based on a wireless terminal.

Background

The infectious disease pre-examination and diagnosis system means that the medical institution effectively controls the epidemic situation of infectious diseases, prevents cross infection in the medical institution, and carries out related infectious disease screening, examination and shunt system in advance for patients who come for diagnosis according to related regulations.

The prior art CN111599456A is an infectious disease intelligent pre-inspection classifier and a pre-inspection method thereof, relating to the field of infectious disease pre-inspection. The triage machine comprises a processor, and a memory, a face recognition module, an infrared temperature measurement module, a display screen module, a network module and a printing module which are respectively connected with the processor; the processor is also connected with a background. This branch diagnosis machine carries out patient's identification through face identification technique, detect patient's body temperature through infrared temperature measurement module, transfer patient's health sign indicating number and infectious disease detection information through the network module, through transferring the infectious disease auxiliary problem in the memory, show to the patient through the display screen module, it is normal when patient's body temperature, have green health sign indicating number, infectious disease testing result is negative and the auxiliary problem is normal, the printing module shows the current sign indicating number of seeing a doctor of green, the patient carries the current sign indicating number and sees a doctor.

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 pediatric intelligent emergency treatment pre-examination triage system based on a wireless terminal, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a wireless terminal based intelligent pediatric emergency pre-examination triage system, which is characterized in that the wireless terminal based intelligent pediatric emergency pre-examination triage system comprises:

a unit for generating a triage information upload request message by a medical center server;

a unit for transmitting a triage information upload request message to the base station by the medical center server;

means for transmitting, by a base station to a relay node, a first PDCCH message on a first symbol set of a first subframe and a first frequency band in response to receiving a triage information upload request message, wherein the first PDCCH message indicates, to the relay node, a first PDSCH resource to transmit the first PDSCH message, wherein the first frequency band includes a first subcarrier set and a second subcarrier set, wherein the first PDSCH resource occupies a second symbol set in the first subframe in a time domain and occupies the first subcarrier set in a frequency domain;

means for receiving, by a relay node, a first PDSCH message sent by a base station on a first PDSCH resource in response to receiving the first PDCCH message, wherein the first PDSCH message includes a triage information upload request message;

means for determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the first PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the first PDCCH message;

means for transmitting, by the relay node, a second PDCCH message to the mobile terminal on a third set of symbols of the first subframe and a second set of subcarriers in response to determining the time-frequency resources for the relay node to communicate with the mobile terminal, wherein the second PDCCH message indicates to the mobile terminal a second PDSCH resource to transmit the second PDSCH message, wherein the third set of symbols of the first subframe is a subset of the second set of symbols of the first subframe, wherein the second PDSCH resource occupies a fourth set of symbols in the first subframe in a time domain and occupies the second set of subcarriers in a frequency domain, wherein the fourth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for receiving, by the mobile terminal, a second PDSCH message transmitted by the base station on a second PDSCH resource in response to receiving the second PDCCH message, wherein the second PDSCH message includes a triage information upload request message.

In a preferred embodiment, the wireless terminal based intelligent pediatric emergency pre-examination triage system comprises:

means for determining, by the mobile terminal, a PUCCH resource for transmitting feedback information and a scheduling request in response to receiving a second PDCCH message, wherein the PUCCH resource for transmitting feedback information and a scheduling request is indicated in the second PDCCH message;

means for transmitting, by the mobile terminal, an ACK message to the relay node on a fifth set of symbols of the first subframe and the second set of subcarriers in response to determining the PUCCH resources for transmitting feedback information and scheduling requests, wherein the fifth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for transmitting, by the mobile terminal, a scheduling request to the relay node on a sixth set of symbols of the first subframe and the second set of subcarriers in response to determining the PUCCH resources for transmitting the feedback information and the scheduling request, wherein the sixth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for transmitting, by the relay node, a scheduling request to the base station on a first set of symbols and a first frequency band of a second subframe in response to receiving an ACK message transmitted by the mobile terminal and the scheduling request, wherein the scheduling request is transmitted on a second PUCCH resource indicated in the first PDCCH message;

means for transmitting, by the base station, a third PDCCH message to the relay node on the first set of symbols of a third subframe and a first frequency band in response to receiving the scheduling request, wherein the third PDCCH message indicates to the relay node a third PDSCH resource for transmitting the third PDSCH message, wherein the first frequency band comprises a first set of subcarriers and a second set of subcarriers, wherein the third PDSCH resource occupies the second set of symbols in the third subframe in a time domain and occupies the first set of subcarriers in a frequency domain;

means for determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the third PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the third PDCCH message.

means for transmitting, by the relay node, a fourth PDCCH message to the mobile terminal on a third set of symbols of a third subframe and a second set of subcarriers in response to determining the time-frequency resources for the relay node to communicate with the mobile terminal, wherein the fourth PDCCH message indicates to the mobile terminal a first PUSCH resource to transmit the first PUSCH message, wherein the third set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first PUSCH resource occupies the fourth set of symbols in the third subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first set of subcarriers in the third subframe have different bandwidth widths from the first set of subcarriers in the first subframe, the second set of subcarriers in the third subframe have different bandwidth widths from the second set of subcarriers in the first subframe, wherein the number of OFDM symbols in the third set of symbols in the third subframe is different from the number of OFDM symbols in the third set of symbols in the first subframe, and the number of OFDM symbols in the fourth set of symbols in the third subframe is different from the number of OFDM symbols in the fourth set of symbols in the first subframe;

means for transmitting, by the mobile terminal, a first PUSCH message to the relay node on a first PUSCH resource in response to receiving the fourth PDCCH message, wherein the first PUSCH message includes emergency triage information;

means for transmitting, by the relay node, a second scheduling request to the base station on the first frequency band and the first set of symbols of the fourth subframe in response to receiving the emergency triage information, wherein the second scheduling request is transmitted on a third PUCCH resource indicated in the third PDCCH message.

means for transmitting, by the base station, a fifth PDCCH message to the relay node over a first set of symbols of a fifth subframe and a first frequency band in response to receiving the second scheduling request, wherein the fifth PDCCH message indicates to the relay node a second PUSCH resource for transmitting a second PUSCH message, wherein the first frequency band comprises a first set of subcarriers and a second set of subcarriers, wherein the second PUSCH resource occupies the second set of symbols in the fifth subframe in a time domain and occupies the first set of subcarriers in a frequency domain;

means for determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the fifth PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the fifth PDCCH message;

means for transmitting, by the relay node, a sixth PDCCH message to the mobile terminal on a third set of symbols of a fifth subframe and a second set of subcarriers in response to determining the time-frequency resources for the relay node to communicate with the mobile terminal, wherein the sixth PDCCH message indicates to the mobile terminal a third PUSCH resource to transmit a third PUSCH message, wherein the third set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein the third PUSCH resource occupies a fourth set of symbols in the fifth subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein a bandwidth width of the first set of subcarriers in the fifth subframe is different from a bandwidth width of both the first set of subcarriers in the first subframe and the first set of subcarriers in the third subframe, the bandwidth width of the second subcarrier set in the fifth subframe is different from the bandwidth width of the second subcarrier set in the first subframe and the bandwidth width of the second subcarrier set in the third subframe, wherein the number of the OFDM symbols in the third symbol set in the fifth subframe is different from the number of the OFDM symbols in the third symbol set in the first subframe and the number of the OFDM symbols in the third symbol set in the third subframe, and the number of the OFDM symbols in the fourth symbol set in the fifth subframe is different from the number of the OFDM symbols in the fourth symbol set in the first subframe and the number of the OFDM symbols in the fourth symbol set in the third subframe.

means for transmitting, by the relay node, the emergency triage information to the base station on the second PUSCH resource in response to receiving the fifth PDCCH message.

The present invention provides a non-transitory computer-readable storage medium having stored thereon processor-executable code that, when executed, is capable of causing a processor to:

generating triage information uploading request information by a medical center server;

the medical center server sends the triage information uploading request message to the base station;

in response to receiving the triage information upload request message, transmitting, by the base station, a first PDCCH message to the relay node on a first symbol set and a first frequency band of a first subframe, wherein the first PDCCH message indicates, to the relay node, a first PDSCH resource to transmit the first PDSCH message, wherein the first frequency band includes a first subcarrier set and a second subcarrier set, wherein the first PDSCH resource occupies the second symbol set in the first subframe in a time domain and occupies the first subcarrier set in a frequency domain;

in response to receiving the first PDCCH message, receiving, by the relay node, a first PDSCH message sent by the base station on a first PDSCH resource, wherein the first PDSCH message comprises a triage information uploading request message;

in response to receiving the first PDCCH message, determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the first PDCCH message;

in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a second PDCCH message to the mobile terminal on a third set of symbols of the first subframe and a second set of subcarriers, wherein the second PDCCH message indicates to the mobile terminal a second PDSCH resource to transmit the second PDSCH message, wherein the third set of symbols of the first subframe is a subset of the second set of symbols of the first subframe, wherein the second PDSCH resource occupies a fourth set of symbols in the first subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

and responding to the second PDCCH message, and receiving a second PDSCH message sent by the base station on a second PDSCH resource by the mobile terminal, wherein the second PDSCH message comprises a triage information uploading request message.

In a preferred embodiment, the code, when executed, is capable of causing a processor to:

determining, by the mobile terminal, a PUCCH resource for transmitting the feedback information and the scheduling request in response to receiving the second PDCCH message, wherein the PUCCH resource for transmitting the feedback information and the scheduling request is indicated in the second PDCCH message;

transmitting, by the mobile terminal, an ACK message to the relay node on a fifth set of symbols of the first subframe and the second set of subcarriers in response to determining the PUCCH resources for transmitting the feedback information and the scheduling request, wherein the fifth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

transmitting, by the mobile terminal, a scheduling request to the relay node on a sixth set of symbols of the first subframe and the second set of subcarriers in response to determining the PUCCH resources for transmitting the feedback information and the scheduling request, wherein the sixth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

in response to receiving an ACK message sent by the mobile terminal and a scheduling request, sending, by the relay node, the scheduling request to the base station on a first symbol set and a first frequency band of a second subframe, wherein the scheduling request is sent on a second PUCCH resource, wherein the second PUCCH resource is indicated in the first PDCCH message;

in response to receiving the scheduling request, transmitting, by the base station, a third PDCCH message to the relay node on the first symbol set and the first frequency band of the third subframe, wherein the third PDCCH message indicates to the relay node a third PDSCH resource for transmitting the third PDSCH message, wherein the first frequency band includes the first subcarrier set and the second subcarrier set, wherein the third PDSCH resource occupies the second symbol set in the third subframe in the time domain and occupies the first subcarrier set in the frequency domain;

in response to receiving the third PDCCH message, determining, by the relay node, time-frequency resources for the relay node to communicate with the mobile terminal, wherein the time-frequency resources for the relay node to communicate with the mobile terminal are indicated in the third PDCCH message.

in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a fourth PDCCH message to the mobile terminal on a third set of symbols of a third subframe and a second set of subcarriers, wherein the fourth PDCCH message indicates to the mobile terminal a first PUSCH resource to transmit the first PUSCH message, wherein the third set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first PUSCH resource occupies the fourth set of symbols in the third subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first set of subcarriers in the third subframe has a different bandwidth width than the first set of subcarriers in the first subframe, the second set of subcarriers in the third subframe has a different bandwidth width than the second set of subcarriers in the first subframe, wherein the number of OFDM symbols in the third set of symbols in the third subframe is different from the number of OFDM symbols in the third set of symbols in the first subframe, and the number of OFDM symbols in the fourth set of symbols in the third subframe is different from the number of OFDM symbols in the fourth set of symbols in the first subframe;

responding to the received fourth PDCCH message, and sending a first PUSCH message to the relay node by the mobile terminal on a first PUSCH resource, wherein the first PUSCH message comprises emergency diagnosis information;

in response to receiving the emergency triage information, transmitting, by the relay node, a second scheduling request to the base station on the first symbol set and the first frequency band of the fourth subframe, wherein the second scheduling request is transmitted on a third PUCCH resource, wherein the third PUCCH resource is indicated in the third PDCCH message.

in response to receiving the second scheduling request, transmitting, by the base station, a fifth PDCCH message to the relay node on a first symbol set and a first frequency band of a fifth subframe, wherein the fifth PDCCH message indicates to the relay node a second PUSCH resource for transmitting the second PUSCH message, wherein the first frequency band comprises the first subcarrier set and a second subcarrier set, wherein the second PUSCH resource occupies the second symbol set in the fifth subframe in a time domain and occupies the first subcarrier set in a frequency domain;

in response to receiving the fifth PDCCH message, determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the fifth PDCCH message;

in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a sixth PDCCH message to the mobile terminal on a third set of symbols and a second set of subcarriers of a fifth subframe, wherein the sixth PDCCH message indicates to the mobile terminal a third PUSCH resource to transmit a third PUSCH message, wherein the third set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein the third PUSCH resource occupies a fourth set of symbols in the fifth subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein a bandwidth width of the first set of subcarriers in the fifth subframe is different from a bandwidth width of the first set of subcarriers in the first subframe and a bandwidth width of the first set of subcarriers in the third subframe, and a bandwidth width of the second set of subcarriers in the fifth subframe is different from a bandwidth width of the second set of subcarriers and the first subframe and the second set of subcarriers and the second subcarrier The bandwidth widths of the second set of subcarriers in the third subframe are different, wherein the number of OFDM symbols in the third set of symbols in the fifth subframe is different from the number of OFDM symbols in the third set of symbols in the first subframe and the number of OFDM symbols in the third set of symbols in the third subframe, and the number of OFDM symbols in the fourth set of symbols in the fifth subframe is different from the number of OFDM symbols in the fourth set of symbols in the first subframe and the number of OFDM symbols in the fourth set of symbols in the third subframe.

and transmitting, by the relay node, the emergency triage information to the base station on the second PUSCH resource in response to receiving the fifth PDCCH message.

Compared with the prior art, the invention has the following advantages that the related requirements indicate that doctors in departments of medical institutions pay attention to inquire about epidemiological history and occupational history of patients during treatment, and the patients who come for diagnosis are pre-checked for infectious diseases by combining chief complaints, medical history, symptoms, signs and the like of the patients. If the patient is an infectious disease patient or suspected infectious disease patient, the patient should be diagnosed in an infectious disease department or a diagnosis point, and necessary disinfection measures should be taken at the diagnosis part. Aiming at the requirements, pre-examination departments are placed outside wards and outpatient buildings (most hospitals build temporary tents as pre-examination places) at present in all hospitals, for a special department of pediatrics, the infant resistance is poor, if the outdoor pre-examination time is too long, the infant illness state is aggravated, or at least family members are irritated, and doctor-patient disputes are easily caused. According to the system, parents can start to fill in necessary information of the infants when queuing and paying, and doctors can start to perform preliminary diagnosis according to the information filled in advance by the parents, so that the pre-inspection speed is accelerated, and the outdoor waiting time of patients is shortened.

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. 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: generating triage information uploading request information by a medical center server; the triage information can be any information that is helpful for the pre-examination, such as patient age, sex, chief complaint, symptom, body temperature, etc.;

step 102: the medical center server sends the triage information uploading request message to the base station;

step 103: in response to receiving the triage information upload request message, transmitting, by the base station, a first PDCCH message to the relay node on a first symbol set and a first frequency band of a first subframe, wherein the first PDCCH message indicates, to the relay node, a first PDSCH resource to transmit the first PDSCH message, wherein the first frequency band includes a first subcarrier set and a second subcarrier set, wherein the first PDSCH resource occupies the second symbol set in the first subframe in a time domain and occupies the first subcarrier set in a frequency domain;

step 104: in response to receiving the first PDCCH message, receiving, by the relay node, a first PDSCH message sent by the base station on a first PDSCH resource, wherein the first PDSCH message comprises a triage information uploading request message;

step 105: in response to receiving the first PDCCH message, determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the first PDCCH message;

step 106: in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a second PDCCH message to the mobile terminal on a third set of symbols of the first subframe and a second set of subcarriers, wherein the second PDCCH message indicates to the mobile terminal a second PDSCH resource to transmit the second PDSCH message, wherein the third set of symbols of the first subframe is a subset of the second set of symbols of the first subframe, wherein the second PDSCH resource occupies a fourth set of symbols in the first subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

step 107: and responding to the second PDCCH message, and receiving a second PDSCH message sent by the base station on a second PDSCH resource by the mobile terminal, wherein the second PDSCH message comprises a triage information uploading request message.

The invention provides a wireless terminal-based intelligent pediatric emergency treatment pre-examination triage system, which is characterized by comprising the following components:

and transmitting, by the relay node, the emergency triage information to the base station on the second PUSCH resource in response to receiving the fifth PDCCH message. After receiving the emergency triage information, the base station can send the information to the server, and the server sends the information to a desktop computer of a doctor, and even can automatically perform pre-inspection by the server based on an artificial intelligence algorithm, so that the pre-inspection speed is greatly improved.

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

1. A wireless terminal based intelligent pediatric emergency treatment pre-examination triage system is characterized by comprising

means for transmitting, by a medical center server, the triage information upload request message to a base station;

means for transmitting, by a base station to a relay node, a first PDCCH message on a first symbol set of a first subframe and a first frequency band in response to receiving the triage information upload request message, wherein the first PDCCH message indicates to the relay node a first PDSCH resource to transmit a first PDSCH message, wherein the first frequency band includes a first subcarrier set and a second subcarrier set, wherein the first PDSCH resource occupies a second symbol set in the first subframe in a time domain and occupies the first subcarrier set in a frequency domain;

means for receiving, by a relay node, a first PDSCH message transmitted by a base station on the first PDSCH resource in response to receiving the first PDCCH message, wherein the first PDSCH message includes the triage information upload request message;

means for determining, by a relay node, time-frequency resources for the relay node to communicate with a mobile terminal in response to receiving the first PDCCH message, wherein the time-frequency resources for the relay node to communicate with the mobile terminal are indicated in the first PDCCH message;

means for transmitting, by the relay node, a second PDCCH message to the mobile terminal on a third set of symbols of a first subframe and a second set of subcarriers in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, wherein the second PDCCH message indicates to the mobile terminal second PDSCH resources to transmit a second PDSCH message, wherein the third set of symbols of the first subframe is a subset of the second set of symbols of the first subframe, wherein the second PDSCH resources occupy a fourth set of symbols in the first subframe in a time domain and occupy the second set of subcarriers in a frequency domain, wherein the fourth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for receiving, by the mobile terminal, a second PDSCH message transmitted by the base station on the second PDSCH resource in response to receiving the second PDCCH message, wherein the second PDSCH message includes the triage information upload request message.

2. The wireless terminal-based pediatric intelligent emergency pre-screening triage system according to claim 1, wherein the wireless terminal-based pediatric intelligent emergency pre-screening triage system comprises:

means for determining, by a mobile terminal, a PUCCH resource for transmitting feedback information and a scheduling request in response to receiving the second PDCCH message, wherein the PUCCH resource for transmitting feedback information and a scheduling request is indicated in the second PDCCH message;

means for transmitting, by a mobile terminal, an ACK message to the relay node on a fifth set of symbols of a first subframe and a second set of subcarriers in response to determining PUCCH resources for transmitting feedback information and scheduling requests, wherein the fifth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for transmitting, by a mobile terminal, a scheduling request to the relay node on a sixth set of symbols of a first subframe and a second set of subcarriers in response to determining a PUCCH resource for transmitting feedback information with the scheduling request, wherein the sixth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

means for transmitting, by a relay node, a scheduling request to a base station on a first set of symbols and a first frequency band of a second subframe in response to receiving an ACK message transmitted by the mobile terminal and the scheduling request, wherein the scheduling request is transmitted on a second PUCCH resource indicated in the first PDCCH message;

means for transmitting, by a base station to a relay node, a third PDCCH message on a first frequency band and a first symbol set of a third subframe in response to receiving the scheduling request, wherein the third PDCCH message indicates to the relay node a third PDSCH resource for transmitting the third PDSCH message, wherein the first frequency band comprises a first subcarrier set and a second subcarrier set, wherein the third PDSCH resource occupies a second symbol set in the third subframe in a time domain and occupies the first subcarrier set in a frequency domain;

3. The wireless terminal-based pediatric intelligent emergency pre-screening triage system according to claim 2, wherein the wireless terminal-based pediatric intelligent emergency pre-screening triage system comprises:

means for transmitting, by the relay node, a fourth PDCCH message to the mobile terminal on a third set of symbols of a third subframe and a second set of subcarriers in response to determining the time-frequency resources for the relay node to communicate with the mobile terminal, wherein the fourth PDCCH message indicates to the mobile terminal a first PUSCH resource to transmit a first PUSCH message, wherein the third set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first PUSCH resource occupies the fourth set of symbols in the third subframe in the time domain and the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first set of subcarriers in the third subframe has a different bandwidth width than the first set of subcarriers in the first subframe, a second set of subcarriers in the third subframe has a different bandwidth width than a second set of subcarriers in the first subframe, wherein a number of OFDM symbols in a third set of symbols in the third subframe is different from a number of OFDM symbols in a third set of symbols in the first subframe, and a number of OFDM symbols in a fourth set of symbols in the third subframe is different from a number of OFDM symbols in a fourth set of symbols in the first subframe;

means for transmitting, by a mobile terminal, a first PUSCH message to the relay node on the first PUSCH resource in response to receiving the fourth PDCCH message, wherein the first PUSCH message includes emergency triage information;

means for transmitting, by a relay node, a second scheduling request to a base station on a first frequency band and a first set of symbols of a fourth subframe in response to receiving the emergency triage information, wherein the second scheduling request is transmitted on a third PUCCH resource indicated in the third PDCCH message.

4. The wireless terminal-based pediatric intelligent emergency triage system according to claim 3, wherein the wireless terminal-based pediatric intelligent emergency triage system:

means for transmitting, by a base station, a fifth PDCCH message to a relay node on a first set of symbols of a fifth subframe and a first frequency band in response to receiving the second scheduling request, wherein the fifth PDCCH message indicates to the relay node a second PUSCH resource for transmitting a second PUSCH message, wherein the first frequency band comprises a first set of subcarriers and a second set of subcarriers, wherein the second PUSCH resource occupies the second set of symbols in the fifth subframe in a time domain and occupies the first set of subcarriers in a frequency domain;

means for transmitting, by the relay node, a sixth PDCCH message to the mobile terminal on a third set of symbols of a fifth subframe and a second set of subcarriers in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, wherein the sixth PDCCH message indicates to the mobile terminal a third PUSCH resource to transmit a third PUSCH message, wherein the third set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein the third PUSCH resource occupies a fourth set of symbols in the fifth subframe in the time domain and occupies a second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein a bandwidth width of a first set of subcarriers in the fifth subframe is different from a bandwidth width of both the first set of subcarriers in the first subframe and the first set of subcarriers in the third subframe, the bandwidth width of the second set of subcarriers in the fifth subframe is different from the bandwidth width of the second set of subcarriers in the first subframe and the bandwidth width of the second set of subcarriers in the third subframe, wherein the number of OFDM symbols in the third set of symbols in the fifth subframe is different from the number of OFDM symbols in the third set of symbols in the first subframe and the number of OFDM symbols in the third set of symbols in the third subframe, and the number of OFDM symbols in the fourth set of symbols in the fifth subframe is different from the number of OFDM symbols in the fourth set of symbols in the first subframe and the number of OFDM symbols in the fourth set of symbols in the third subframe.

5. The wireless terminal-based pediatric intelligent emergency pre-screening triage system according to claim 4, wherein the wireless terminal-based pediatric intelligent emergency pre-screening triage system comprises:

means for transmitting, by a relay node, the emergency triage information to the base station on the second PUSCH resource in response to receiving the fifth PDCCH message.

6. A non-transitory computer-readable storage medium having stored thereon processor-executable code, the code when executed capable of causing a processor to:

the medical center server sends the triage information uploading request message to a base station;

in response to receiving the triage information upload request message, transmitting, by a base station, a first PDCCH message to a relay node on a first symbol set and a first frequency band of a first subframe, wherein the first PDCCH message indicates to the relay node a first PDSCH resource for transmitting the first PDSCH message, wherein the first frequency band includes a first subcarrier set and a second subcarrier set, wherein the first PDSCH resource occupies a second symbol set in the first subframe in a time domain and occupies the first subcarrier set in a frequency domain;

receiving, by a relay node, a first PDSCH message sent by a base station on the first PDSCH resource in response to receiving the first PDCCH message, wherein the first PDSCH message comprises the triage information upload request message;

determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the first PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the first PDCCH message;

in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a second PDCCH message to the mobile terminal on a third set of symbols of a first subframe and a second set of subcarriers, wherein the second PDCCH message indicates to the mobile terminal a second PDSCH resource to transmit the second PDSCH message, wherein the third set of symbols of the first subframe is a subset of the second set of symbols of the first subframe, wherein the second PDSCH resource occupies a fourth set of symbols in the first subframe in the time domain and occupies the second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

and responding to the second PDCCH message, and receiving a second PDSCH message sent by the base station on the second PDSCH resource by the mobile terminal, wherein the second PDSCH message comprises the triage information uploading request message.

7. The non-transitory computer-readable storage medium of claim 6 having stored thereon processor-executable code that, when executed, is capable of causing a processor to:

determining, by the mobile terminal, a PUCCH resource for transmitting feedback information and a scheduling request in response to receiving the second PDCCH message, wherein the PUCCH resource for transmitting feedback information and a scheduling request is indicated in the second PDCCH message;

transmitting, by a mobile terminal, an ACK message to the relay node on a fifth set of symbols of a first subframe and a second set of subcarriers in response to determining a PUCCH resource for transmitting feedback information and a scheduling request, wherein the fifth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

transmitting, by a mobile terminal, a scheduling request to the relay node on a sixth set of symbols of a first subframe and a second set of subcarriers in response to determining a PUCCH resource for transmitting feedback information with the scheduling request, wherein the sixth set of symbols of the first subframe is a subset of the second set of symbols of the first subframe;

transmitting, by a relay node, a scheduling request to a base station on a first set of symbols and a first frequency band of a second subframe in response to receiving an ACK message transmitted by the mobile terminal and the scheduling request, wherein the scheduling request is transmitted on a second PUCCH resource indicated in the first PDCCH message;

in response to receiving the scheduling request, transmitting, by the base station, a third PDCCH message to the relay node on a first set of symbols of a third subframe and a first frequency band, wherein the third PDCCH message indicates to the relay node a third PDSCH resource for transmitting the third PDSCH message, wherein the first frequency band comprises a first set of subcarriers and a second set of subcarriers, wherein the third PDSCH resource occupies the second set of symbols in the third subframe in a time domain and occupies the first set of subcarriers in a frequency domain;

determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the third PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the third PDCCH message.

8. The non-transitory computer-readable storage medium of claim 7 having stored thereon processor-executable code that, when executed, is capable of causing a processor to:

in response to determining time-frequency resources for a relay node to communicate with a mobile terminal, transmitting, by the relay node, a fourth PDCCH message to the mobile terminal on a third set of symbols of a third subframe and a second set of subcarriers, wherein the fourth PDCCH message indicates to the mobile terminal a first PUSCH resource to transmit a first PUSCH message, wherein the third set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein the first PUSCH resource occupies a fourth set of symbols in the third subframe in a time domain and occupies a second set of subcarriers in a frequency domain, wherein the fourth set of symbols of the third subframe is a subset of the second set of symbols of the third subframe, wherein a first set of subcarriers in the third subframe has a different bandwidth width than a first set of subcarriers in the first subframe, and a second set of subcarriers in the third subframe has a different bandwidth width than a second set of subcarriers in the first subframe Wherein a number of OFDM symbols in a third set of symbols in the third subframe is different from a number of OFDM symbols in a third set of symbols in the first subframe, and a number of OFDM symbols in a fourth set of symbols in the third subframe is different from a number of OFDM symbols in a fourth set of symbols in the first subframe;

responding to the received fourth PDCCH message, and sending a first PUSCH message to the relay node by the mobile terminal at the first PUSCH resource, wherein the first PUSCH message comprises emergency diagnosis information;

transmitting, by the relay node, a second scheduling request to the base station on the first frequency band and the first set of symbols of a fourth subframe in response to receiving the emergency triage information, wherein the second scheduling request is transmitted on a third PUCCH resource indicated in the third PDCCH message.

9. The non-transitory computer-readable storage medium of claim 8 having stored thereon processor-executable code that, when executed, is capable of causing a processor to:

in response to receiving the second scheduling request, transmitting, by the base station, a fifth PDCCH message to the relay node on a first set of symbols of a fifth subframe and a first frequency band, wherein the fifth PDCCH message indicates to the relay node a second PUSCH resource for transmitting a second PUSCH message, wherein the first frequency band comprises a first set of subcarriers and a second set of subcarriers, wherein the second PUSCH resource occupies the second set of symbols in the fifth subframe in a time domain and occupies the first set of subcarriers in a frequency domain;

determining, by the relay node, a time-frequency resource for the relay node to communicate with the mobile terminal in response to receiving the fifth PDCCH message, wherein the time-frequency resource for the relay node to communicate with the mobile terminal is indicated in the fifth PDCCH message;

in response to determining time-frequency resources for the relay node to communicate with the mobile terminal, transmitting, by the relay node, a sixth PDCCH message to the mobile terminal on a third set of symbols of a fifth subframe and a second set of subcarriers, wherein the sixth PDCCH message indicates to the mobile terminal a third PUSCH resource to transmit a third PUSCH message, wherein the third set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein the third PUSCH resource occupies a fourth set of symbols in the fifth subframe in the time domain and occupies a second set of subcarriers in the frequency domain, wherein the fourth set of symbols of the fifth subframe is a subset of the second set of symbols of the fifth subframe, wherein a bandwidth width of a first set of subcarriers in the fifth subframe is different from a bandwidth width of both the first set of subcarriers in the first subframe and the first set of subcarriers in the third subframe, the bandwidth width of the second set of subcarriers in the fifth subframe is different from the bandwidth width of the second set of subcarriers in the first subframe and the bandwidth width of the second set of subcarriers in the third subframe, wherein the number of OFDM symbols in the third set of symbols in the fifth subframe is different from the number of OFDM symbols in the third set of symbols in the first subframe and the number of OFDM symbols in the third set of symbols in the third subframe, and the number of OFDM symbols in the fourth set of symbols in the fifth subframe is different from the number of OFDM symbols in the fourth set of symbols in the first subframe and the number of OFDM symbols in the fourth set of symbols in the third subframe.

10. The non-transitory computer-readable storage medium of claim 9 having stored thereon processor-executable code that, when executed, is capable of causing a processor to:

transmitting, by a relay node, the emergency triage information to the base station on the second PUSCH resource in response to receiving the fifth PDCCH message.