CN113316186A - Child blood testing method and system based on new-generation communication technology - Google Patents

Abstract

The invention discloses a child blood testing method based on a new generation communication technology, which comprises the following steps: collecting blood test information of children by a mobile terminal; responding to the collected blood test information of the children, and establishing double connection between the mobile terminal and the first base station and between the mobile terminal and the second base station; monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing a dual connection with the first base station and the second base station; determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by the third base station based on the reference signal transmitted by the third base station; in response to determining the first signal quality and the second signal quality, determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and the second signal quality is greater than a second signal quality threshold.

Description

Child blood testing method and system based on new-generation communication technology

Technical Field

The invention relates to the technical field of child blood testing, in particular to a child blood testing method and system based on a new-generation communication technology.

Background

Clinical blood tests can be divided into general blood tests, laboratory tests for hemolytic anemia, cytological tests for bone marrow, blood grouping and cross matching tests.

CN109477148A discloses a method for assisting in the determination of the hematologic stage of acute lymphoblastic leukemia (childhood ALL) in children and a pharmaceutical product for in vitro diagnosis that can be used in the method. The invention relates to a method for assisting in judging the hematological stage of childhood ALL, which comprises the following steps: (1) obtaining an amount of mRNA of Wilms' tumor-1 gene (WT1) in at least one biological sample of peripheral blood and bone marrow fluid of a subject; (2) obtaining the amount of GAPDH mRNA in the same sample; and (3) calculating an index value necessary for assisting the determination based on the ratio of the amount of WT1 mRNA to the amount of GAPDH mRNA obtained in each of the steps (1) and (2).

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

Disclosure of Invention

The invention aims to provide a method and a system for testing the blood of children based on a new generation communication technology, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a method for testing blood of children based on a new generation communication technology, which is characterized in that the method for testing blood of children based on the new generation communication technology comprises the following steps:

collecting blood test information of children by a mobile terminal;

responding to the collected blood test information of the children, and establishing dual connection between the mobile terminal and a first base station and a second base station, wherein the first base station is a macro base station, and the second base station is a small cell base station;

monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing a dual connection with the first base station and the second base station;

determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and the second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in the system information of the first base station and the second signal quality threshold is indicated in the system information of the first base station;

if the first signal quality is judged to be lower than the first signal quality threshold and the second signal quality is judged to be higher than the second signal quality threshold, sending a measurement report to the first base station by the mobile terminal, wherein the measurement report indicates a third base station to the first base station;

transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

sending, by the first base station, a data caching command to the second base station in response to receiving the measurement report;

sending, by the mobile terminal, child blood test information to the first base station and the second base station in response to sending the measurement report to the first base station;

in response to receiving the data buffering command and in response to receiving the child blood test information, storing, by the second base station, the received child blood test information into a handover buffer of the second base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

in response to receiving the base station adding request, the third base station sends a base station adding confirmation message to the first base station under the condition that the third base station load is not judged (meanwhile, resources used for the mobile terminal to transmit data are not reserved), wherein the base station adding confirmation message comprises messages required for randomly accessing the third base station;

in response to receiving the base station addition confirmation message, sending, by the first base station, an RRC connection reconfiguration message to the mobile terminal, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

continuing, by the mobile terminal, to listen for the reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message, and continuing, by the mobile terminal, to determine a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

transmitting, by the mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

in response to receiving the data buffering command and in response to receiving the additional child blood test information, storing, by the second base station, the received additional child blood test information into a handover buffer of the second base station;

determining, by the mobile terminal, whether a second signal quality of a reference signal transmitted by a third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional child blood test information to the second base station during a time period when it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

in response to receiving the data buffering command and in response to continuing to receive additional child blood test information, storing, by the second base station, the received additional child blood test information into a handover buffer of the second base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is judged to be greater than the third signal quality threshold, the mobile terminal sends a random access lead code to the third base station;

in response to receiving the random access lead code sent by the mobile terminal, the third base station judges whether the load of the third base station is greater than a load threshold or not;

if the load of the third base station is judged to be larger than the load threshold, the third base station sends a load overrun notice to the first base station;

forwarding, by the first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

in response to receiving a notification that the mobile terminal gives up random access to the third base station, sending, by the second base station, the child blood test information buffered in the handover buffer to the first base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server by the first base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the load of the third base station is judged to be smaller than the load threshold, the third base station sends a random access response to the mobile terminal;

completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

sending, by the mobile terminal, a notification to the second base station to disconnect the RRC connection in response to completing the random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

sending, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to sending the notification of the disconnection of the RRC connection to the second base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server by the third base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is always smaller than the third signal quality threshold within the preset time, sending a base station addition failure notice to the first base station by the mobile terminal;

sending, by the first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

responding to the received cache message forwarding message, and sending the child blood test information cached in the switching cache to the first base station by the second base station;

in response to receiving the child blood test information cached in the switching buffer sent by the second base station, sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

disconnecting, by the mobile terminal, the RRC connection with the second base station in response to sending the base station addition failure notification to the first base station;

instructing, by the first base station to the mobile terminal, the fourth base station to transmit the resource of the synchronization signal block in response to receiving the base station addition failure notification;

in response to receiving an indication of resources on which the fourth base station transmits the synchronization signal block, listening by the mobile terminal for a reference signal transmitted by the fourth base station.

The invention provides a children blood test system based on a new generation communication technology, which is characterized by comprising the following components:

means for collecting child blood test information by a mobile terminal;

means for establishing, by the mobile terminal, dual connectivity with a first base station and a second base station in response to collecting the child blood test information, wherein the first base station is a macro base station and the second base station is a small cell base station;

means for monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing dual connectivity with the first base station and the second base station;

means for determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by a third base station based on the reference signal transmitted by the third base station;

means for determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and whether the second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in the system information of the first base station and the second signal quality threshold is indicated in the system information of the first base station;

means for sending, by the mobile terminal, a measurement report to the first base station if the first signal quality is determined to be below a first signal quality threshold and the second signal quality is determined to be greater than a second signal quality threshold, wherein the measurement report indicates the third base station to the first base station;

means for transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

means for transmitting, by the first base station, a data buffering command to the second base station in response to receiving the measurement report;

means for transmitting, by the mobile terminal, child blood test information to the first base station and the second base station in response to transmitting the measurement report to the first base station;

means for storing, by the second base station, the received child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the child blood test information.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

a unit for responding to the received base station adding request, and sending a base station adding confirmation message to the first base station by the third base station under the condition of not judging the load of the third base station, wherein the base station adding confirmation message comprises a message required for randomly accessing the third base station;

means for sending, by the first base station, an RRC connection reconfiguration message to the mobile terminal in response to receiving the base station addition confirmation message, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

means for continuing, by the mobile terminal, to listen for a reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message, and continuing, by the mobile terminal, to determine a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

means for transmitting, by the mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

means for storing, by the second base station, the received additional child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the additional child blood test information;

means for determining, by the mobile terminal, whether a second signal quality of a reference signal transmitted by a third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional child blood test information to the second base station during a time period when it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

means for storing, by the second base station, the received additional child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to continuing to receive the additional child blood test information.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

means for sending, by the mobile terminal, a random access preamble to the third base station if it is determined that a second signal quality of a reference signal sent by the third base station is greater than a third signal quality threshold;

a unit for responding to the received random access lead code sent by the mobile terminal, and judging whether the load of the third base station is larger than a load threshold by the third base station;

a unit for sending a load overrun notification to the first base station by the third base station if the load of the third base station is judged to be greater than the load threshold;

means for forwarding, by the first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

means for, in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

means for sending, by the second base station, the child blood test information buffered in the handover buffer to the first base station in response to receiving a notification to the mobile terminal to relinquish random access to the third base station;

and a unit for responding to the received child blood test information buffered in the switching buffer sent by the second base station, and sending the child blood test information buffered in the switching buffer to the blood test center server by the first base station.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

a unit for sending a random access response to the mobile terminal by the third base station if it is determined that the load of the third base station is less than the load threshold;

means for completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

means for transmitting, by the mobile terminal, a notification to the second base station to disconnect the RRC connection in response to completing the random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

means for sending, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to sending the notification to the second base station to disconnect the RRC connection;

and a unit for responding to the received child blood test information buffered in the switching buffer sent by the second base station, and sending the child blood test information buffered in the switching buffer to the blood test center server by the third base station.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

means for sending, by the mobile terminal, a base station addition failure notification to the first base station if a second signal quality of a reference signal sent by a third base station is consistently less than a third signal quality threshold within a predetermined time;

means for sending, by the first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

a unit for transmitting the child blood test information buffered in the handover buffer to the first base station by the second base station in response to receiving the buffer message forwarding message;

a unit for responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

means for disconnecting, by the mobile terminal, the RRC connection with the second base station in response to sending the base station addition failure notification to the first base station;

means for indicating, by the first base station to the mobile terminal, resources of a synchronization signal block transmitted by a fourth base station in response to receiving the base station addition failure notification;

means for monitoring, by the mobile terminal, a reference signal transmitted by a fourth base station in response to receiving an indication of resources on which the fourth base station transmits a synchronization signal block.

Compared with the prior art, the method and the system for testing the blood of the children have the advantages that the intelligent hospital needs to integrate a computer technology, a big data technology, a communication technology and a sensor technology, and the method and the system for testing the blood of the children based on the new generation of communication technology are provided for meeting the requirement of the intelligent hospital technology on the communication technology.

Drawings

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

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

Detailed Description

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

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

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

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

step 101: collecting blood test information of children by a mobile terminal;

step 102: responding to the collected blood test information of the children, and establishing dual connection between the mobile terminal and a first base station and a second base station, wherein the first base station is a macro base station, and the second base station is a small cell base station;

step 103: monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing a dual connection with the first base station and the second base station;

step 104: determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

step 105: determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and the second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in the system information of the first base station and the second signal quality threshold is indicated in the system information of the first base station;

step 106: if the first signal quality is judged to be lower than the first signal quality threshold and the second signal quality is judged to be higher than the second signal quality threshold, sending a measurement report to the first base station by the mobile terminal, wherein the measurement report indicates a third base station to the first base station;

step 107: transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

step 108: sending, by the first base station, a data caching command to the second base station in response to receiving the measurement report;

step 109: sending, by the mobile terminal, child blood test information to the first base station and the second base station in response to sending the measurement report to the first base station;

step 110: in response to receiving the data buffering command and in response to receiving the child blood test information, storing, by the second base station, the received child blood test information into a handover buffer of the second base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

in response to receiving the base station adding request, the third base station sends a base station adding confirmation message to the first base station under the condition that the load of the third base station is not judged, wherein the base station adding confirmation message comprises a message required for randomly accessing the third base station;

in response to receiving the base station addition confirmation message, sending, by the first base station, an RRC connection reconfiguration message to the mobile terminal, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

continuing, by the mobile terminal, to listen for the reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message, and continuing, by the mobile terminal, to determine a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

transmitting, by the mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

in response to receiving the data buffering command and in response to receiving the additional child blood test information, storing, by the second base station, the received additional child blood test information into a handover buffer of the second base station;

determining, by the mobile terminal, whether a second signal quality of a reference signal transmitted by a third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional child blood test information to the second base station during a time period when it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

in response to receiving the data buffering command and in response to continuing to receive additional child blood test information, storing, by the second base station, the received additional child blood test information into a handover buffer of the second base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is judged to be greater than the third signal quality threshold, the mobile terminal sends a random access lead code to the third base station;

in response to receiving the random access lead code sent by the mobile terminal, the third base station judges whether the load of the third base station is greater than a load threshold or not;

if the load of the third base station is judged to be larger than the load threshold, the third base station sends a load overrun notice to the first base station;

forwarding, by the first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

in response to receiving a notification that the mobile terminal gives up random access to the third base station, sending, by the second base station, the child blood test information buffered in the handover buffer to the first base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server by the first base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the load of the third base station is judged to be smaller than the load threshold, the third base station sends a random access response to the mobile terminal;

completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

sending, by the mobile terminal, a notification to the second base station to disconnect the RRC connection in response to completing the random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

sending, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to sending the notification of the disconnection of the RRC connection to the second base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server by the third base station.

In a preferred embodiment, the method for testing the blood of the child based on the new generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is always smaller than the third signal quality threshold within the preset time, sending a base station addition failure notice to the first base station by the mobile terminal;

sending, by the first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

responding to the received cache message forwarding message, and sending the child blood test information cached in the switching cache to the first base station by the second base station;

in response to receiving the child blood test information cached in the switching buffer sent by the second base station, sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

disconnecting, by the mobile terminal, the RRC connection with the second base station in response to sending the base station addition failure notification to the first base station;

instructing, by the first base station to the mobile terminal, the fourth base station to transmit the resource of the synchronization signal block in response to receiving the base station addition failure notification;

in response to receiving an indication of resources on which the fourth base station transmits the synchronization signal block, listening by the mobile terminal for a reference signal transmitted by the fourth base station.

The invention provides a children blood test system based on a new generation communication technology, which is characterized by comprising the following components:

means for collecting child blood test information by a mobile terminal;

means for establishing, by the mobile terminal, dual connectivity with a first base station and a second base station in response to collecting the child blood test information, wherein the first base station is a macro base station and the second base station is a small cell base station;

means for monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing dual connectivity with the first base station and the second base station;

means for determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by a third base station based on the reference signal transmitted by the third base station;

means for determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and whether the second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in the system information of the first base station and the second signal quality threshold is indicated in the system information of the first base station;

means for sending, by the mobile terminal, a measurement report to the first base station if the first signal quality is determined to be below a first signal quality threshold and the second signal quality is determined to be greater than a second signal quality threshold, wherein the measurement report indicates the third base station to the first base station;

means for transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

means for transmitting, by the first base station, a data buffering command to the second base station in response to receiving the measurement report;

means for transmitting, by the mobile terminal, child blood test information to the first base station and the second base station in response to transmitting the measurement report to the first base station;

means for storing, by the second base station, the received child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the child blood test information.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

a unit for responding to the received base station adding request, and sending a base station adding confirmation message to the first base station by the third base station under the condition of not judging the load of the third base station, wherein the base station adding confirmation message comprises a message required for randomly accessing the third base station;

means for sending, by the first base station, an RRC connection reconfiguration message to the mobile terminal in response to receiving the base station addition confirmation message, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

means for continuing, by the mobile terminal, to listen for a reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message, and continuing, by the mobile terminal, to determine a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

means for transmitting, by the mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

means for storing, by the second base station, the received additional child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the additional child blood test information;

means for determining, by the mobile terminal, whether a second signal quality of a reference signal transmitted by a third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional child blood test information to the second base station during a time period when it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

means for storing, by the second base station, the received additional child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to continuing to receive the additional child blood test information.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

means for sending, by the mobile terminal, a random access preamble to the third base station if it is determined that a second signal quality of a reference signal sent by the third base station is greater than a third signal quality threshold;

a unit for responding to the received random access lead code sent by the mobile terminal, and judging whether the load of the third base station is larger than a load threshold by the third base station;

a unit for sending a load overrun notification to the first base station by the third base station if the load of the third base station is judged to be greater than the load threshold;

means for forwarding, by the first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

means for, in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

means for sending, by the second base station, the child blood test information buffered in the handover buffer to the first base station in response to receiving a notification to the mobile terminal to relinquish random access to the third base station;

and a unit for responding to the received child blood test information buffered in the switching buffer sent by the second base station, and sending the child blood test information buffered in the switching buffer to the blood test center server by the first base station.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

a unit for sending a random access response to the mobile terminal by the third base station if it is determined that the load of the third base station is less than the load threshold;

means for completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

means for transmitting, by the mobile terminal, a notification to the second base station to disconnect the RRC connection in response to completing the random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

means for sending, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to sending the notification to the second base station to disconnect the RRC connection;

and a unit for responding to the received child blood test information buffered in the switching buffer sent by the second base station, and sending the child blood test information buffered in the switching buffer to the blood test center server by the third base station.

In a preferred embodiment, the child blood test system based on the new generation communication technology comprises:

means for sending, by the mobile terminal, a base station addition failure notification to the first base station if a second signal quality of a reference signal sent by a third base station is consistently less than a third signal quality threshold within a predetermined time;

means for sending, by the first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

a unit for transmitting the child blood test information buffered in the handover buffer to the first base station by the second base station in response to receiving the buffer message forwarding message;

a unit for responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

means for disconnecting, by the mobile terminal, the RRC connection with the second base station in response to sending the base station addition failure notification to the first base station;

means for indicating, by the first base station to the mobile terminal, resources of a synchronization signal block transmitted by a fourth base station in response to receiving the base station addition failure notification;

means for monitoring, by the mobile terminal, a reference signal transmitted by a fourth base station in response to receiving an indication of resources on which the fourth base station transmits a synchronization signal block.

In the prior art, when a small cell base station (i.e., a non-anchor base station and a source base station in a handover process) in a dual connectivity scenario is handed over, a macro base station needs to send a handover request to a target base station, and then the target base station needs to reserve resources to a mobile terminal for data transmission, the resources are not used until the mobile terminal randomly accesses the target base station and is disconnected from the source base station, and then a time point between a resource reservation time point and a time point when the resources are actually used is defined as a resource idle time by an applicant of the present application. If the mobile terminal starts random access to the target base station immediately after receiving the RRC connection reconfiguration message, the resource idle time of the part of resources is short, and the resource waste can be accepted. However, in the small cell base station scenario, it is not desirable that the mobile terminal randomly accesses the target base station immediately after receiving the RRC connection reconfiguration message, but it is desirable that the mobile terminal can determine again whether the link quality between the target base station and the mobile terminal meets the requirement, and then perform handover. Such a design results in resource idle time being greatly lengthened, which results in a waste of reserved resources. Secondly, the current communication method indicates that the target base station must first determine whether the load of the mobile terminal can be accepted, and then can send a handover confirmation message to the macro base station to start handover, but the load of the target base station changes with time, and although the load of the target base station is large when handover is requested, when the mobile terminal actually performs handover, the load of the target base station may be already small, which wastes handover timing. In addition, in the current communication method, before performing handover, the mobile terminal continuously sends data to the source base station (i.e. soft handover), and then the source base station sends the part of data to the macro base station (dual-connection operation), the applicant finds that, for time-insensitive information, the operation greatly wastes the bandwidth of the backhaul connection between the macro base station and the small cell base station, and the problem is highlighted after 5G large-scale internet of things is deployed. The present application provides a solution to such technical problems.

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

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

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

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

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

Claims (10)

1. A child blood testing method based on a new generation communication technology is characterized by comprising the following steps:

collecting blood test information of children by a mobile terminal;

responding to the collected blood test information of the children, and establishing dual connection between the mobile terminal and a first base station and a second base station, wherein the first base station is a macro base station, and the second base station is a small cell base station;

monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing a dual connection with the first base station and the second base station;

determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by the third base station based on the reference signal transmitted by the third base station;

determining, by the mobile terminal, whether the first signal quality is below a first signal quality threshold and whether the second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in the system information of the first base station and the second signal quality threshold is indicated in the system information of the first base station;

sending, by a mobile terminal, a measurement report to the first base station if the first signal quality is determined to be below a first signal quality threshold and the second signal quality is determined to be greater than a second signal quality threshold, wherein the measurement report indicates a third base station to the first base station;

transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

transmitting, by the first base station, a data buffering command to the second base station in response to receiving the measurement report;

sending, by a mobile terminal, child blood test information to the first base station and a second base station in response to sending a measurement report to the first base station;

in response to receiving the data buffering command and in response to receiving the child blood test information, storing, by a second base station, the received child blood test information into a handover buffer of the second base station.

2. The method for testing the blood of the child based on the new-generation communication technology as claimed in claim 1, wherein the method for testing the blood of the child based on the new-generation communication technology comprises the following steps:

in response to receiving the base station adding request, a third base station sends a base station adding confirmation message to the first base station under the condition that the load of the third base station is not judged, wherein the base station adding confirmation message comprises a message required for randomly accessing the third base station;

sending, by a first base station, an RRC connection reconfiguration message to the mobile terminal in response to receiving the base station addition confirmation message, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

continuing, by the mobile terminal, to listen for the reference signal transmitted by the third base station and continuing, by the mobile terminal, to determine a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message;

transmitting, by the mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

in response to receiving the data buffering command and in response to receiving the additional child blood test information, storing, by a second base station, the received additional child blood test information into a handover buffer of the second base station;

determining, by the mobile terminal, whether a second signal quality of a reference signal transmitted by the third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional pediatric blood test information to the second base station during a time period when it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

in response to receiving the data buffering command and in response to continuing to receive the additional child blood test information, storing, by a second base station, the received additional child blood test information into a handover buffer of the second base station.

3. The method for testing the blood of the child based on the new-generation communication technology as claimed in claim 2, wherein the method for testing the blood of the child based on the new-generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is judged to be greater than a third signal quality threshold, a random access lead code is sent to the third base station by the mobile terminal;

in response to receiving a random access preamble sent by the mobile terminal, a third base station judges whether the load of the third base station is greater than a load threshold;

if the load of the third base station is judged to be greater than the load threshold, the third base station sends a load overrun notice to the first base station;

forwarding, by the first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

sending, by the second base station, the child blood test information buffered in the handover buffer to the first base station in response to receiving a notification to the mobile terminal to relinquish random access to the third base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to a blood test center server by the first base station.

4. The method for testing the blood of the child based on the new-generation communication technology as claimed in claim 3, wherein the method for testing the blood of the child based on the new-generation communication technology comprises the following steps:

if the load of the third base station is judged to be smaller than the load threshold, the third base station sends a random access response to the mobile terminal;

completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

sending, by the mobile terminal, a notification to the second base station to disconnect the RRC connection in response to completing the random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

sending, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to sending the notification of the disconnection of the RRC connection to the second base station;

and responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to a blood test center server by the third base station.

5. The method for testing the blood of the child based on the new-generation communication technology as claimed in claim 4, wherein the method for testing the blood of the child based on the new-generation communication technology comprises the following steps:

if the second signal quality of the reference signal sent by the third base station is always smaller than the third signal quality threshold within the preset time, sending a base station addition failure notice to the first base station by the mobile terminal;

sending, by the first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

responding to the received cache message forwarding message, and sending the child blood test information cached in the switching cache to the first base station by the second base station;

in response to receiving the child blood test information cached in the switching buffer sent by the second base station, sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

disconnecting, by a mobile terminal, an RRC connection with the second base station in response to sending a base station addition failure notification to the first base station;

instructing, by the first base station to the mobile terminal, a fourth base station to transmit resources of a synchronization signal block in response to receiving the base station addition failure notification;

in response to receiving an indication of resources on which the fourth base station transmits the synchronization signal block, listening by the mobile terminal for a reference signal transmitted by the fourth base station.

6. A new-generation communication technology-based children blood testing system, which is characterized by comprising:

means for collecting child blood test information by a mobile terminal;

means for establishing, by the mobile terminal, a dual connection with a first base station and a second base station in response to collecting the child blood test information, wherein the first base station is a macro base station and the second base station is a small cell base station;

means for monitoring, by the mobile terminal, a reference signal transmitted by the second base station and a reference signal transmitted by a third base station in response to establishing dual connectivity with the first base station and the second base station;

means for determining, by the mobile terminal, a first signal quality of a reference signal transmitted by the second base station based on the reference signal transmitted by the second base station, and determining, by the mobile terminal, a second signal quality of a reference signal transmitted by a third base station based on the reference signal transmitted by the third base station;

means for determining, by a mobile terminal, whether a first signal quality is below a first signal quality threshold and a second signal quality is greater than a second signal quality threshold in response to determining the first signal quality and the second signal quality, wherein the first signal quality threshold is indicated in system information of the first base station and the second signal quality threshold is indicated in system information of the first base station;

means for sending, by a mobile terminal, a measurement report to the first base station if the first signal quality is determined to be below a first signal quality threshold and the second signal quality is determined to be greater than a second signal quality threshold, wherein the measurement report indicates a third base station to the first base station;

means for transmitting, by the first base station, a base station addition request to the third base station in response to receiving the measurement report;

means for transmitting, by a first base station, a data buffering command to the second base station in response to receiving the measurement report;

means for transmitting, by a mobile terminal, child blood test information to the first base station and a second base station in response to transmitting a measurement report to the first base station;

means for storing, by a second base station, the received child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the child blood test information.

7. The new-generation communication technology-based pediatric blood testing system of claim 6, wherein the new-generation communication technology-based pediatric blood testing system comprises:

a unit configured to, in response to receiving the base station addition request, send, by a third base station, a base station addition acknowledgement message to the first base station without determining a load of the third base station, where the base station addition acknowledgement message includes a message required for randomly accessing the third base station;

means for sending, by a first base station, an RRC connection reconfiguration message to the mobile terminal in response to receiving the base station addition confirmation message, wherein the RRC connection reconfiguration message includes the base station addition confirmation message;

means for continuing, by the mobile terminal, to listen for a reference signal transmitted by the third base station and to determine, by the mobile terminal, a second signal quality of the reference signal transmitted by the third base station based on the reference signal transmitted by the third base station in response to receiving the RRC connection reconfiguration message;

means for transmitting, by a mobile terminal, additional child blood test information to the second base station in response to receiving the RRC connection reconfiguration message;

means for storing, by a second base station, the received additional child blood test information into a handover buffer of the second base station in response to receiving the data buffering command and in response to receiving the additional child blood test information;

means for determining, by a mobile terminal, whether a second signal quality of a reference signal transmitted by the third base station is greater than a third signal quality threshold, wherein the third signal quality threshold is indicated in the RRC connection reconfiguration message, wherein the mobile terminal continues to transmit additional pediatric blood test information to the second base station during a time period in which it is determined whether the second signal quality of the reference signal transmitted by the third base station is greater than the third signal quality threshold;

means for storing, by a second base station, the received additional child blood test information in a handover buffer of the second base station in response to receiving the data buffering command and in response to continuing to receive the additional child blood test information.

8. The new-generation communication technology-based pediatric blood testing system of claim 7, wherein the new-generation communication technology-based pediatric blood testing system comprises:

means for sending, by the mobile terminal, a random access preamble to the third base station if it is determined that a second signal quality of a reference signal sent by the third base station is greater than a third signal quality threshold;

a unit for responding to the received random access lead code sent by the mobile terminal, and judging whether the load of the third base station is larger than a load threshold by the third base station;

a unit configured to send a load overrun notification to the first base station by the third base station if it is determined that the load of the third base station is greater than a load threshold;

means for forwarding, by a first base station, the load overrun notification to the mobile terminal in response to receiving the load overrun notification;

means for, in response to receiving the load overrun notification, relinquishing, by the mobile terminal, random access to the third base station, and notifying, by the mobile terminal to the second base station, the mobile terminal to relinquish random access to the third base station;

means for sending, by a second base station, the child blood test information buffered in the handover buffer to the first base station in response to receiving a notification for the mobile terminal to relinquish random access to the third base station;

and the first base station is used for responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server.

9. The new-generation communication technology-based pediatric blood testing system of claim 8, wherein the new-generation communication technology-based pediatric blood testing system comprises:

a unit for sending a random access response to the mobile terminal by the third base station if the load of the third base station is judged to be less than the load threshold;

means for completing, by the mobile terminal, random access to the third base station in response to receiving the random access response;

means for sending, by a mobile terminal, a notification to the second base station to disconnect an RRC connection in response to completing random access to the third base station, wherein the notification to disconnect the RRC connection includes an indication of an identity of the third base station;

means for transmitting, by the second base station to the third base station, the child blood test information buffered in the handover buffer in response to transmitting the notification to disconnect the RRC connection to the second base station;

and the third base station is used for responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to the blood test center server.

10. The new-generation communication technology-based pediatric blood testing system of claim 9, wherein the new-generation communication technology-based pediatric blood testing system comprises:

means for sending, by a mobile terminal, a base station addition failure notification to the first base station if a second signal quality of a reference signal sent by the third base station is consistently less than the third signal quality threshold within a predetermined time;

means for transmitting, by a first base station, a cache message forwarding message to the second base station in response to receiving the base station addition failure notification;

means for sending, by a second base station, the child blood test information buffered in the handover buffer to the first base station in response to receiving the buffered message forwarding message;

a unit for responding to the received child blood test information cached in the switching buffer sent by the second base station, and sending the child blood test information cached in the switching buffer to a blood test center server by the first base station;

means for disconnecting, by a mobile terminal, an RRC connection with the second base station in response to sending a base station addition failure notification to the first base station;

means for indicating, by the first base station to the mobile terminal, a resource for a fourth base station to transmit a synchronization signal block in response to receiving the base station addition failure notification;

means for monitoring, by the mobile terminal, a reference signal transmitted by a fourth base station in response to receiving an indication of resources on which the fourth base station transmits a synchronization signal block.

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