CN111916209B - Cerebral apoplexy patient early warning system - Google Patents

Abstract

The invention discloses a cerebral apoplexy patient early warning system, which comprises: a unit for generating a patient information uploading command by the early warning center server, wherein the patient information uploading command comprises a destination terminal identity identifier; a unit for transmitting the generated patient information upload command to a base station by the pre-warning center server, wherein the base station communicates with the first relay node; means for, if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, not sending any message regarding congestion to the base station by the first relay node; and if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion relief report to the base station, wherein the first transmission channel congestion relief report includes an identity identifier of the first mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the second relay node.

Description

Cerebral apoplexy patient early warning system

Technical Field

The present invention relates to the field of cerebral apoplexy prevention and treatment technologies, and in particular, to a cerebral apoplexy patient early warning system and a computer readable storage medium.

Background

"cerebral stroke" (cerebralstroke) is also known as "stroke", "cerebrovascular accident" (cerebralvascular accident, CVA). Is an acute cerebrovascular disease, which is a group of diseases that causes brain tissue injury due to sudden rupture of cerebral vessels or failure of blood to flow into the brain due to vessel occlusion, and includes ischemic and hemorrhagic strokes.

The prior art CN110428901A discloses a cerebral apoplexy onset risk prediction system and application. The present invention provides, first of all, the use of a composition of reagent materials and/or instrumentation that takes the following risk factor information of an individual for the preparation of a predictive system for assessing the risk of developing cerebral stroke in an individual: age, sex, whether smoking, blood pressure level and treatment, whether diabetes, habitat, and blood lipid measurements in the fasting state.

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 of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide a cerebral apoplexy patient early warning system and a computer readable storage medium, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a cerebral apoplexy patient early warning system, which is characterized in that the cerebral apoplexy patient early warning system comprises:

a unit for generating a patient information uploading command by the early warning center server, wherein the patient information uploading command comprises a destination terminal identity identifier;

a unit for transmitting the generated patient information upload command to a base station by the pre-warning center server, wherein the base station communicates with the first relay node;

means for transmitting, by the base station, a patient information upload command to the first relay node at a first frequency;

means for determining, by the first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

a unit for buffering, by the first relay node, the patient information upload command in a buffer for the second relay node in order to transmit the patient information upload command to the second relay node, in response to determining that the destination terminal of the patient information upload command is the first mobile terminal;

means for determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining space of the buffer in response to the buffer for the second relay node buffering the patient information upload command;

Means for sending, by the first relay node, a first transport channel congestion report to the base station if it is determined that the remaining storage space of the buffer for the second relay node is less than the lower limit of the remaining storage space of the buffer, wherein the first transport channel congestion report comprises an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

means for transmitting, by the base station, a patient information upload command for the first mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion report, wherein the second frequency is lower than the first frequency;

a unit for continuously monitoring, by the first relay node, a remaining storage space of the buffer for the second relay node in response to sending the first transport channel congestion report to the base station, and judging, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining storage space of the buffer;

means for, if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, not sending any message regarding congestion to the base station by the first relay node;

And if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion relief report to the base station, wherein the first transmission channel congestion relief report includes an identity identifier of the first mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the second relay node.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the first mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion relief report;

means for transmitting, by the second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

a unit for transmitting, by the first mobile terminal, patient basic information to the second relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the second relay node, the patient basic information to the first relay node;

And means for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-warning center server.

In a preferred embodiment, the stroke patient early warning system comprises:

means for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that a remaining storage space of the buffer for the second relay node is less than a buffer remaining space lower limit and before transmitting the first transmission channel congestion relief report to the base station;

a unit for buffering, by the first relay node, the patient information upload command in a buffer for the third relay node in order to transmit the patient information upload command to the third relay node, in response to determining that the destination terminal of the patient information upload command is the second mobile terminal or the third mobile terminal;

means for determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer in response to the buffer for the third relay node uploading the patient information command;

And if the remaining storage space of the buffer for the third relay node is determined to be less than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

A unit for continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node in response to sending the second transport channel congestion report to the base station, and judging, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer;

if it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the third relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion relief report to the base station, wherein the second transmission channel congestion relief report includes an identity of the second mobile terminal, an identity of the third mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion relief report;

Means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at the first frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion relief report;

in response to receiving the patient information upload command, transmitting, by the third relay node, the patient information upload command to the second mobile terminal;

a unit for transmitting, by the second mobile terminal, patient basic information to the third relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the third relay node, the patient basic information to the first relay node;

and means for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-warning center server.

The present invention provides a computer readable storage medium comprising computer executable code, the code comprising code that when executed causes a processor to:

Code for generating, by the pre-alarm center server, a patient information upload command, wherein the patient information upload command includes a destination terminal identity identifier;

code for transmitting, by the pre-warning center server, the generated patient information upload command to a base station, wherein the base station communicates with the first relay node;

code for transmitting, by the base station, a patient information upload command to the first relay node at a first frequency;

code for determining, by the first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

in response to determining that the destination terminal of the patient information upload command is the first mobile terminal, buffering, by the first relay node, the patient information upload command in a buffer for the second relay node to send the patient information upload command to the second relay node;

in response to a patient information upload command being buffered to a buffer for the second relay node, determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining space of the buffer;

if it is determined that the remaining storage space of the buffer for the second relay node is less than the buffer remaining space lower limit, transmitting, by the first relay node, a first transmission channel congestion report to the base station, wherein the first transmission channel congestion report includes an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

In response to receiving the first transmission channel congestion report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands for the first mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to sending the first transport channel congestion report to the base station, continuously monitoring, by the first relay node, a remaining storage space of the buffer for the second relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining storage space of the buffer;

if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion relief report to the base station, wherein the first transmission channel congestion relief report includes an identity identifier of the first mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the second relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the first transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands for the first mobile terminal to the first relay node at the first frequency;

code for transmitting, by the second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

code for transmitting, by the first mobile terminal, patient base information to the second relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the second relay node, the patient basic information to the first relay node;

and code for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-alarm center server.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

Code for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that a remaining storage space of the buffer for the second relay node is less than a buffer remaining space lower limit and before sending the first transmission channel congestion relief report to the base station;

in response to determining that the destination terminal of the patient information upload command is the second mobile terminal or the third mobile terminal, buffering, by the first relay node, the patient information upload command in a buffer for the third relay node to send the patient information upload command to the third relay node;

in response to a patient information upload command being buffered to a buffer for the third relay node, determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer;

and if the remaining storage space of the buffer for the third relay node is determined to be less than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands for the second mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to sending the second transport channel congestion report to the base station, continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer;

If it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the third relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion relief report to the base station, wherein the second transmission channel congestion relief report includes an identity of the second mobile terminal, an identity of the third mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands for the second mobile terminal to the first relay node at the first frequency;

In response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at the first frequency;

code for transmitting, by the third relay node, the patient information upload command to the second mobile terminal in response to receiving the patient information upload command;

code for transmitting, by the second mobile terminal, patient base information to the third relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the third relay node, the patient basic information to the first relay node;

and code for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-alarm center server.

Compared with the prior art, the invention has the advantages that the cerebral apoplexy is a very serious disease, and the cerebral apoplexy always causes serious consequences, but if the cerebral apoplexy can be prevented in advance or actively intervened in the early stage of the cerebral apoplexy, the damage of the cerebral apoplexy can be generally minimized. The literature mentioned in the background art is that China authoritative cerebral apoplexy hospitals propose a cerebral apoplexy prediction method, but the prediction method does not give a way how to effectively collect data. It is known that many patients do not pay attention to monitoring of basic physical parameters such as blood pressure at all, and some patients even do not know that their own blood pressure is abnormal before the illness occurs, so that the method in the background art has difficulty in the implementation process, and in addition, the feedback frequency of certain parameters greatly influences the prediction result, so how to improve the data feedback efficiency is an important problem. Aiming at the problems in the prior art, the invention provides a cerebral apoplexy patient early warning system and a computer readable storage medium, and aims to improve the frequency and timeliness of data feedback so as to improve early warning accuracy.

Drawings

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

Fig. 2 is a schematic block diagram according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention. As shown, the system of the present invention comprises a base station, a server, a relay node and a mobile terminal, wherein as shown, the second relay node is located at four floors of a hospital building and basically provides services for the mobile terminals at four floors of the hospital, and the third relay node is located at two floors of the hospital building and basically provides services for the mobile terminals at two floors and one floor of the hospital.

Fig. 2 is a schematic block diagram according to an embodiment of the present invention. As shown, the system of the present invention includes:

Unit 101: a unit for generating a patient information uploading command by the early warning center server, wherein the patient information uploading command comprises a destination terminal identity identifier;

unit 102: a unit for transmitting the generated patient information upload command to a base station by the pre-warning center server, wherein the base station communicates with the first relay node;

unit 103: means for transmitting, by the base station, a patient information upload command to a first relay node (e.g., an IAB node) at a first frequency;

unit 104: means for determining, by the first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

unit 105: a unit for buffering, by the first relay node, the patient information upload command in a buffer for the second relay node in order to transmit the patient information upload command to the second relay node, in response to determining that the destination terminal of the patient information upload command is the first mobile terminal;

unit 106: means for determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining space of the buffer in response to the buffer for the second relay node buffering the patient information upload command;

Unit 107: means for sending, by the first relay node, a first transport channel congestion report to the base station if it is determined that the remaining storage space of the buffer for the second relay node is less than the lower limit of the remaining storage space of the buffer, wherein the first transport channel congestion report comprises an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

unit 108: means for transmitting, by the base station, a patient information upload command for the first mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion report, wherein the second frequency is lower than the first frequency;

unit 109: a unit for continuously monitoring, by the first relay node, a remaining storage space of the buffer for the second relay node in response to sending the first transport channel congestion report to the base station, and judging, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining storage space of the buffer;

unit 110: means for, if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, not sending any message regarding congestion to the base station by the first relay node;

Unit 111: and if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion relief report to the base station, wherein the first transmission channel congestion relief report includes an identity identifier of the first mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the second relay node.

The mobile terminal of this application can follow cerebral apoplexy early warning device (like the device that prior art CN109480780A disclosed) and receive information, and cerebral apoplexy early warning device includes: the system comprises an image acquisition module, a physiological index acquisition module, a main control module, an image processing module, a risk assessment module, a warning module, a data storage module and a display module. The device in the prior art automatically generates the risk probability of the target crowd suffering from cerebral apoplexy by adopting the XGBoost method, can more efficiently and conveniently perform community health census, and can help doctors to evaluate the risk of the target crowd suffering from cerebral apoplexy more simply and rapidly; health screening can be motivated to discover potential stroke users faster, and to alert earlier to treat more effectively.

An automatic cerebral stroke prediction method is in the prior art, for example, CN111243696a can be exemplified, which discloses an automatic cerebral stroke onset detection method, comprising the following steps: acquiring a pathological data set of a cerebral apoplexy patient, wherein the pathological data set comprises a plurality of pathological parameters associated with the patient; screening out parameters which are obviously related to cerebral apoplexy recurrence from a pathological data set of each cerebral apoplexy patient and determining the parameters as a pathological data subset; updating a pathological data subset of each cerebral apoplexy patient based on the inpatient registration record, physical examination, outpatient review and other modes; and comparing and analyzing the pathological data subsets of each cerebral apoplexy patient with the recurrence prediction model in real time to obtain corresponding risk grades, and informing the cerebral apoplexy patient of timely previous re-diagnosis based on the risk grades.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the first mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion relief report;

Means for transmitting, by the second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

a unit for transmitting, by the first mobile terminal, patient basic information to the second relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the second relay node, the patient basic information to the first relay node;

and means for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-warning center server.

In a preferred embodiment, the stroke patient early warning system comprises:

means for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that a remaining storage space of the buffer for the second relay node is less than a buffer remaining space lower limit and before transmitting the first transmission channel congestion relief report to the base station;

a unit for buffering, by the first relay node, the patient information upload command in a buffer for the third relay node in order to transmit the patient information upload command to the third relay node, in response to determining that the destination terminal of the patient information upload command is the second mobile terminal or the third mobile terminal;

Means for determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer in response to the buffer for the third relay node uploading the patient information command;

and if the remaining storage space of the buffer for the third relay node is determined to be less than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

A unit for continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node in response to sending the second transport channel congestion report to the base station, and judging, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer; it should be noted that the lower limit of the remaining space of the buffer may be determined by those skilled in the art according to a well-known method, for example, a network optimization person may test the buffer overflowed by data (i.e. lost packets) to determine a general relationship or an empirical relationship between the probability of packet loss (or the amount of packet loss) and the remaining space of the buffer, and then determine the lower limit of the remaining space of the buffer according to the tolerance degree for packet loss. For example, when the remaining space of the buffer is only 10%, for example, the network optimization personnel can always test that the packet loss rate reaches 50% without changing the network transmission parameters, and when the remaining space of the buffer is 30%, the network optimization personnel can always test that the packet loss rate reaches 5% without changing the network transmission parameters, and if the network optimization personnel considers that the packet loss rate reaches 5% as satisfactory according to the user requirements, the lower limit of the remaining space of the buffer is determined to be 30% of the remaining space of the buffer.

If it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the third relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion relief report to the base station, wherein the second transmission channel congestion relief report includes an identity of the second mobile terminal, an identity of the third mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the stroke patient early warning system comprises:

means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion relief report;

means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at the first frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion relief report;

In response to receiving the patient information upload command, transmitting, by the third relay node, the patient information upload command to the second mobile terminal;

a unit for transmitting, by the second mobile terminal, patient basic information to the third relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the third relay node, the patient basic information to the first relay node;

and means for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-warning center server. It will be appreciated by those skilled in the art that the buffer space in the first relay node may be divided into a plurality of buffer subspaces, each subspace constituting a buffer, each buffer being for one other relay node or mobile terminal. Of course, if the communication between the relay node and another relay node is completely disconnected, the relay node may of course free up the corresponding de-buffer subspace.

The present invention provides a computer readable storage medium comprising computer executable code, the code comprising code that when executed causes a processor to:

Code for generating, by the pre-alarm center server, a patient information upload command, wherein the patient information upload command includes a destination terminal identity identifier;

code for transmitting, by the pre-warning center server, the generated patient information upload command to a base station, wherein the base station communicates with the first relay node;

code for transmitting, by the base station, a patient information upload command to the first relay node at a first frequency;

code for determining, by the first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

in response to determining that the destination terminal of the patient information upload command is the first mobile terminal, buffering, by the first relay node, the patient information upload command in a buffer for the second relay node to send the patient information upload command to the second relay node;

in response to a patient information upload command being buffered to a buffer for the second relay node, determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining space of the buffer;

if it is determined that the remaining storage space of the buffer for the second relay node is less than the buffer remaining space lower limit, transmitting, by the first relay node, a first transmission channel congestion report to the base station, wherein the first transmission channel congestion report includes an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

In response to receiving the first transmission channel congestion report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands for the first mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to sending the first transport channel congestion report to the base station, continuously monitoring, by the first relay node, a remaining storage space of the buffer for the second relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a lower limit of the remaining storage space of the buffer;

if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion relief report to the base station, wherein the first transmission channel congestion relief report includes an identity identifier of the first mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the second relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the first transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands for the first mobile terminal to the first relay node at the first frequency;

code for transmitting, by the second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

code for transmitting, by the first mobile terminal, patient base information to the second relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the second relay node, the patient basic information to the first relay node;

and code for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-alarm center server.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

Code for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that a remaining storage space of the buffer for the second relay node is less than a buffer remaining space lower limit and before sending the first transmission channel congestion relief report to the base station;

in response to determining that the destination terminal of the patient information upload command is the second mobile terminal or the third mobile terminal, buffering, by the first relay node, the patient information upload command in a buffer for the third relay node to send the patient information upload command to the third relay node;

in response to a patient information upload command being buffered to a buffer for the third relay node, determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer;

and if the remaining storage space of the buffer for the third relay node is determined to be less than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands for the second mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to sending the second transport channel congestion report to the base station, continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a lower limit of the remaining storage space of the buffer;

If it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the third relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a second transmission channel congestion relief report to the base station, wherein the second transmission channel congestion relief report includes an identity of the second mobile terminal, an identity of the third mobile terminal, a congestion relief indication, and the remaining storage space of the buffer for the third relay node.

In a preferred embodiment, the computer-readable storage medium includes computer-executable code, the code comprising code that when executed causes a processor to:

in response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands for the second mobile terminal to the first relay node at the first frequency;

In response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at the first frequency;

code for transmitting, by the third relay node, the patient information upload command to the second mobile terminal in response to receiving the patient information upload command;

code for transmitting, by the second mobile terminal, patient base information to the third relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by the third relay node, the patient basic information to the first relay node;

and code for transmitting, by the first relay node, the patient basic information to the base station in response to receiving the patient basic information, and transmitting, by the base station, the patient basic information to the pre-alarm center server.

It will be appreciated by those skilled in the art that 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 flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations 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 are 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 the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various 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. The utility model provides a cerebral apoplexy patient early warning system which characterized in that, cerebral apoplexy patient early warning system includes:

A unit for generating a patient information uploading command by the early warning center server, wherein the patient information uploading command comprises a destination terminal identity identifier;

a unit for transmitting the generated patient information upload command to a base station by the pre-warning center server, wherein the base station communicates with the first relay node;

means for transmitting, by a base station, the patient information upload command to the first relay node at a first frequency;

means for determining, by a first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

a unit for buffering, by a first relay node, the patient information upload command in a buffer for a second relay node in order to transmit the patient information upload command to the second relay node, in response to determining that the destination terminal of the patient information upload command is a first mobile terminal;

a unit for determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a buffer remaining space lower limit in response to buffering the patient information upload command to the buffer for the second relay node;

Means for sending, by a first relay node, a first transport channel congestion report to the base station if it is determined that the remaining storage space of the buffer for the second relay node is less than a lower limit of the remaining storage space of the buffer, wherein the first transport channel congestion report includes an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

means for transmitting, by a base station, a patient information upload command for the first mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion report, wherein the second frequency is lower than the first frequency;

means for continuously monitoring, by a first relay node, a remaining storage space of the buffer for a second relay node in response to sending the first transport channel congestion report to the base station, and determining, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a buffer remaining space lower limit;

Means for, if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, not sending any message regarding congestion to the base station by the first relay node;

and if the remaining storage space of the buffer for the second relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, sending, by the first relay node, a first transmission channel congestion release report to the base station, wherein the first transmission channel congestion release report includes an identity identifier of the first mobile terminal, a congestion release indication, and the remaining storage space of the buffer for the second relay node.

2. The stroke patient pre-warning system of claim 1, wherein the stroke patient pre-warning system comprises:

means for transmitting, by a base station, a patient information upload command for the first mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the first mobile terminal in response to receiving the first transmission channel congestion relief report;

Means for transmitting, by a second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

means for transmitting, by a first mobile terminal, patient basic information to the second relay node in response to receiving the patient information upload command;

means for transmitting, by a second relay node, the patient basic information to the first relay node in response to receiving the patient basic information;

and means for transmitting, by a first relay node, the patient basic information to the base station and transmitting, by the base station, the patient basic information to the pre-warning center server in response to receiving the patient basic information.

3. The stroke patient pre-warning system of claim 2, wherein the stroke patient pre-warning system comprises:

means for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that the remaining storage space of the buffer for the second relay node is smaller than a buffer remaining space lower limit and before transmitting the first transmission channel congestion relief report to the base station;

In response to determining that the destination terminal of the patient information upload command is a second mobile terminal or a third mobile terminal, buffering, by a first relay node, the patient information upload command in a buffer for a third relay node so as to transmit the patient information upload command to the third relay node;

a unit for determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a buffer remaining space lower limit in response to buffering the patient information upload command to the buffer for the third relay node;

and if the remaining storage space of the buffer for the third relay node is determined to be smaller than the lower limit of the remaining storage space of the buffer, sending, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

4. The stroke patient pre-warning system of claim 3, wherein the stroke patient pre-warning system comprises:

Means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at a second frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion report, wherein the second frequency is lower than the first frequency;

means for continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node in response to sending the second transport channel congestion report to the base station, and determining, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a buffer remaining space lower limit;

means for, if it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, not sending any message regarding congestion to the base station by the first relay node;

And if the remaining storage space of the buffer for the third relay node is determined to be greater than the lower limit of the remaining storage space of the buffer, sending, by the first relay node, a second transmission channel congestion release report to the base station, wherein the second transmission channel congestion release report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, a congestion release indication, and the remaining storage space of the buffer for the third relay node.

5. The stroke patient pre-warning system of claim 4, wherein the stroke patient pre-warning system comprises:

means for transmitting, by the base station, a patient information upload command for the second mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the second mobile terminal in response to receiving the second transmission channel congestion relief report;

means for transmitting, by the base station, a patient information upload command for the third mobile terminal to the first relay node at a first frequency if the base station still has a patient information upload command to be transmitted to the third mobile terminal in response to receiving the second transmission channel congestion relief report;

Means for transmitting, by a third relay node, the patient information upload command to the second mobile terminal in response to receiving the patient information upload command;

means for transmitting, by a second mobile terminal, patient basic information to the third relay node in response to receiving the patient information upload command;

means for transmitting, by a third relay node, the patient basic information to the first relay node in response to receiving the patient basic information;

and means for transmitting, by a first relay node, the patient basic information to the base station and transmitting, by the base station, the patient basic information to the pre-warning center server in response to receiving the patient basic information.

6. A computer-readable storage medium comprising computer-executable code, the code comprising code that when executed causes a processor to:

code for generating, by the alert center server, a patient information upload command, wherein the patient information upload command includes a destination terminal identity identifier;

code for transmitting, by the pre-warning center server, the generated patient information upload command to a base station, wherein the base station communicates with the first relay node;

Code for transmitting, by a base station, the patient information upload command to the first relay node at a first frequency;

code for determining, by a first relay node, a destination terminal identity of the patient information upload command in response to receiving the patient information upload command;

in response to determining that the destination terminal of the patient information upload command is a first mobile terminal, buffering, by a first relay node, the patient information upload command in a buffer for a second relay node to send the patient information upload command to the second relay node;

code for determining, by the first relay node, whether a remaining storage space of the buffer for the second relay node is greater than a buffer remaining space lower limit in response to buffering the patient information upload command to the buffer for the second relay node;

if the remaining storage space of the buffer for the second relay node is less than the lower limit of the remaining storage space of the buffer, transmitting, by the first relay node, a first transmission channel congestion report to the base station, wherein the first transmission channel congestion report includes an identity identifier of the first mobile terminal and the remaining storage space of the buffer for the second relay node;

In response to receiving the first transmission channel congestion report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to sending the first transport channel congestion report to the base station, continuously monitoring, by a first relay node, a remaining storage space of the buffer for a second relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the second relay node is greater than a buffer remaining space lower limit;

if it is determined that the remaining storage space of the buffer for the second relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the second relay node is judged to be greater than the lower limit of the remaining storage space of the buffer, transmitting a first transmission channel congestion relief report to the base station by the first relay node, wherein the first transmission channel congestion relief report comprises an identity identifier of the first mobile terminal, a congestion relief indication and the remaining storage space of the buffer for the second relay node.

7. The computer-readable storage medium of claim 6, wherein the computer-readable storage medium comprises computer-executable code comprising code that, when executed, is capable of causing a processor to:

in response to receiving the first transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the first mobile terminal, sending, by the base station, the patient information upload commands for the first mobile terminal to the first relay node at a first frequency;

code for transmitting, by a second relay node, the patient information upload command to the first mobile terminal in response to receiving the patient information upload command;

code for transmitting, by a first mobile terminal, patient basic information to the second relay node in response to receiving the patient information upload command;

code for transmitting, by a second relay node, the patient basic information to the first relay node in response to receiving the patient basic information;

and code for transmitting, by the first relay node, the patient basic information to the base station and transmitting, by the base station, the patient basic information to the pre-warning center server in response to receiving the patient basic information.

8. The computer-readable storage medium of claim 7, wherein the computer-readable storage medium comprises computer-executable code comprising code that, when executed, is capable of causing a processor to:

code for determining, by the first relay node, a destination terminal identity of the patient information upload command if the patient information upload command is received by the first relay node after determining that the remaining storage space of the buffer for the second relay node is less than a buffer remaining space lower limit and before sending the first transmission channel congestion relief report to the base station;

in response to determining that the destination terminal of the patient information upload command is a second mobile terminal or a third mobile terminal, buffering, by a first relay node, the patient information upload command in a buffer for a third relay node so as to send the patient information upload command to the third relay node;

in response to caching the patient information upload command to the buffer for the third relay node, determining, by the first relay node, whether a remaining storage space of the buffer for the third relay node is greater than a lower limit of a remaining space of the buffer;

And if the remaining storage space of the buffer for the third relay node is less than the lower limit of the remaining storage space of the buffer, sending, by the first relay node, a second transmission channel congestion report to the base station, wherein the second transmission channel congestion report includes an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, and the remaining storage space of the buffer for the third relay node.

9. The computer-readable storage medium of claim 8, wherein the computer-readable storage medium comprises computer-executable code comprising code that, when executed, is capable of causing a processor to:

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands to the second mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

in response to receiving the second transmission channel congestion report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at a second frequency, wherein the second frequency is lower than the first frequency;

In response to sending the second transport channel congestion report to the base station, continuously monitoring, by the first relay node, a remaining storage space of the buffer for the third relay node, and determining, by the first relay node, whether the remaining storage space of the buffer for the third relay node is greater than a buffer remaining space lower limit;

if it is determined that the remaining storage space of the buffer for the third relay node is still less than the buffer remaining space lower limit, the first relay node does not send any message regarding congestion to the base station;

and if the remaining storage space of the buffer for the third relay node is judged to be greater than the lower limit of the remaining storage space of the buffer, sending a second transmission channel congestion relief report to the base station by the first relay node, wherein the second transmission channel congestion relief report comprises an identity identifier of the second mobile terminal, an identity identifier of the third mobile terminal, a congestion relief instruction and the remaining storage space of the buffer for the third relay node.

10. The computer-readable storage medium of claim 9, wherein the computer-readable storage medium comprises computer-executable code comprising code that, when executed, is capable of causing a processor to:

In response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the second mobile terminal, sending, by the base station, the patient information upload commands for the second mobile terminal to the first relay node at a first frequency;

in response to receiving the second transmission channel congestion relief report, if the base station still has patient information upload commands to be sent to the third mobile terminal, sending, by the base station, the patient information upload commands for the third mobile terminal to the first relay node at a first frequency;

code for transmitting, by a third relay node, the patient information upload command to the second mobile terminal in response to receiving the patient information upload command;

code for transmitting, by a second mobile terminal, patient basic information to the third relay node in response to receiving the patient information upload command;

in response to receiving the patient basic information, transmitting, by a third relay node, the patient basic information to the first relay node;

And code for transmitting, by the first relay node, the patient basic information to the base station and transmitting, by the base station, the patient basic information to the pre-warning center server in response to receiving the patient basic information.

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