CN111465055B - Method and system for transmitting data mining algorithm controlled switching message - Google Patents
Method and system for transmitting data mining algorithm controlled switching message Download PDFInfo
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- H04W28/02—Traffic management, e.g. flow control or congestion control
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- H04W74/0833—Random access procedures, e.g. with 4-step access
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Abstract
The invention discloses a method for transmitting a controlled switching message of a data mining algorithm, which comprises the following steps: generating a data mining algorithm inquiry message by the mobile terminal; monitoring, by the mobile terminal, system information transmitted by the first base station; if the RSRP of the reference signal sent by the first base station is judged to be larger than the RSRP threshold value used for the first base station, the mobile terminal sends a random access lead code to the first base station; sending, by the first base station, a random access response to the mobile terminal; transmitting, by the mobile terminal, an RRC connection setup request message to the first base station on the resource indicated by the first uplink grant; transmitting, by the first base station, an RRC connection setup grant message to the mobile terminal; sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant; sending a data mining algorithm inquiry message to a data mining control center server by a first base station; sending a data mining control instruction to a base station by a data mining control center server; and sending a data mining control instruction to the mobile terminal by the first base station.
Description
Technical Field
The present invention relates to the field of data mining technologies, and in particular, to a method and a system for transmitting a data mining algorithm controlled handover message.
Background
Data mining refers to the process of algorithmically searching a large amount of data for information hidden therein. Data mining is generally related to computer science and achieves this through many methods such as statistics, online analytical processing, intelligence retrieval, machine learning, expert systems (relying on past rules of thumb), and pattern recognition.
The prior art CN106021590B discloses a hypergraph-based multi-ant-colony parallel combination clustering method, and belongs to the technical field of data mining. Aiming at the rapid and accurate clustering of high-dimensional mass data, the improved information entropy-based single ant colony clustering algorithm is combined with the hypergraph, the main idea is that different ant colonies adopt the improved information entropy-based single ant colony clustering algorithm to independently and parallelly work, clustering result combination is carried out through the hypergraph to obtain different similar matrixes, then information exchange and mutual cooperation are carried out, and the single ant colony clustering process is corrected by utilizing the similar matrixes; and finally obtaining the optimal clustering result through repeated iteration.
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 transmitting a data mining algorithm controlled switching message, which can overcome the defects of the prior art.
In order to achieve the above object, the present invention provides a method for transmitting a data mining algorithm controlled handover message, comprising the following steps:
generating a data mining algorithm inquiry message by the mobile terminal;
monitoring system information sent by a first base station by a mobile terminal, wherein the system information at least comprises an RSRP threshold value used for the first base station;
in response to the generation of the data mining algorithm query message, the mobile terminal judges whether the RSRP of the reference signal sent by the first base station is greater than the RSRP threshold value for the first base station;
if the RSRP of the reference signal sent by the first base station is judged to be larger than the RSRP threshold value used for the first base station, the mobile terminal sends a random access lead code to the first base station;
transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
in response to receiving the random access response, the mobile terminal sends an RRC connection establishment request message to the first base station on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer status report;
in response to receiving the RRC connection setup request message, sending, by the first base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant;
in response to receiving the data mining algorithm query message, sending, by the first base station, the data mining algorithm query message to the data mining control center server;
in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
in response to receiving the data mining control instruction, sending, by the first base station, the data mining control instruction to the mobile terminal, and sending, by the first base station, a third uplink grant to the mobile terminal.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
in response to receiving the data mining control instruction, sending, by the mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant;
in response to sending the data mining control command reception confirmation message to the first base station, disconnecting, by the mobile terminal, the RRC connection with the first base station to enter an RRC idle state;
after receiving the data mining control instruction, the mobile terminal generates a data mining algorithm inquiry message again and monitors RSRP of a reference signal sent by the first base station;
judging whether the RSRP of the reference signal sent by the first base station is smaller than the RSRP threshold value used for the first base station or not by the mobile terminal;
if the RSRP of the reference signal sent by the first base station is judged to be smaller than the RSRP threshold value used for the first base station, the mobile terminal judges whether a base station list with high priority is included in the system information;
if the system information comprises a base station list with high priority, the mobile terminal sends a random access lead code to the first base station;
in response to receiving the random access preamble, a random access response is transmitted by the first base station to the mobile terminal, wherein the random access response includes the first uplink grant.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
responding to the received random access response, and sending an RRC connection recovery request message to the first base station by the mobile terminal on the resource indicated by the first uplink authorization, wherein the RRC connection recovery request message comprises a buffer state report;
sending, by the first base station, an RRC connection recovery grant message to the mobile terminal in response to receiving the RRC connection recovery request message, wherein the RRC connection recovery grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection recovery grant message, sending, by the mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant, wherein the base station measurement report includes RSRP of a reference signal sent by the first base station;
in response to receiving the base station measurement report, transmitting, by the first base station, a base station measurement report reception acknowledgement message to the mobile terminal;
in response to receiving the measurement report reception confirmation message, the RRC connection with the first base station is disconnected by the mobile terminal to enter an RRC idle state.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
transmitting, by the mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
transmitting, by the second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
in response to receiving the random access response, the mobile terminal sends an RRC connection establishment request message to the second base station on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer status report;
in response to receiving the RRC connection setup request message, sending, by the second base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant;
in response to receiving the data mining algorithm query message, sending, by the second base station, the data mining algorithm query message to the data mining control center server;
in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
in response to receiving the data mining control command, sending, by the second base station, the data mining control command to the mobile terminal, and sending, by the second base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant;
in response to transmitting the control instruction reception confirmation message to the second base station, the RRC connection with the second base station is disconnected by the mobile terminal to enter an RRC idle state.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
if the system information does not comprise the base station list with high priority, the mobile terminal acquires the RSRP compensation value contained in the system information;
in response to the RSRP compensation value included in the acquired system information, the mobile terminal monitors reference signals sent by other base stations;
disconnecting, by the mobile terminal, the RRC connection with the first base station if the RSRP of the reference signal transmitted by the third base station is greater than the RSRP of the reference signal transmitted by the first base station and the difference between the RSRP of the reference signal transmitted by the third base station and the RSRP of the reference signal transmitted by the first base station is greater than or equal to the RSRP compensation value;
transmitting, by the mobile terminal, a random access preamble to the third base station in response to the RRC connection with the first base station being broken;
transmitting, by the third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response includes the first uplink grant;
responding to the received random access response, and sending an RRC connection establishment request message to the third base station by the mobile terminal on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer state report;
in response to receiving the RRC connection setup request message, sending, by the third base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant;
in response to receiving the data mining algorithm query message, sending, by the third base station, the data mining algorithm query message to the data mining control center server;
in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
in response to receiving the data mining control command, sending, by the third base station, the data mining control command to the mobile terminal, and sending, by the third base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant;
in response to transmitting the control instruction reception confirmation message to the third base station, the RRC connection with the third base station is disconnected by the mobile terminal to enter an RRC idle state.
The invention provides a transmission system of a data mining algorithm controlled switching message, which comprises:
means for generating, by a mobile terminal, a data mining algorithm query message;
the method comprises the steps that a mobile terminal monitors system information sent by a first base station, wherein the system information at least comprises an RSRP threshold value used for the first base station;
means for determining, by the mobile terminal, whether an RSRP of a reference signal sent by the first base station is greater than an RSRP threshold value for the first base station in response to generating the data mining algorithm query message;
means for sending, by the mobile terminal, a random access preamble to the first base station if it is determined that the RSRP of the reference signal sent by the first base station is greater than an RSRP threshold for the first base station;
means for transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the first base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a data mining algorithm inquiry message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the first base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the first base station, the data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the first base station, a third uplink grant to the mobile terminal.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, an RRC connection with the first base station to enter an RRC idle state in response to sending a data mining control instruction reception confirmation message to the first base station;
the mobile terminal generates a data mining algorithm inquiry message again after receiving the data mining control instruction and monitors RSRP of a reference signal sent by the first base station;
means for determining, by the mobile terminal, whether an RSRP of a reference signal sent by the first base station is less than an RSRP threshold for the first base station;
means for determining, by the mobile terminal, whether a list of base stations with a high priority is included in the system information if it is determined that the RSRP of the reference signal sent by the first base station is less than the RSRP threshold value for the first base station;
means for transmitting, by the mobile terminal, a random access preamble to the first base station if it is determined that the system information includes a list of base stations having a high priority;
means for transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, an RRC connection recovery request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection recovery request message includes a buffer status report;
means for transmitting, by the first base station, an RRC connection resume grant message to the mobile terminal in response to receiving the RRC connection resume request message, wherein the RRC connection resume grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant in response to receiving the RRC connection recovery grant message, wherein the base station measurement report includes an RSRP of a reference signal transmitted by the first base station;
means for transmitting, by the first base station to the mobile terminal, a base station measurement report reception acknowledgement message in response to receiving the base station measurement report;
means for disconnecting, by the mobile terminal, the RRC connection with the first base station to enter an RRC idle state in response to receiving the measurement report reception confirmation message.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
means for transmitting, by the second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the second base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the second base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the second base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the second base station, a data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the second base station, a third uplink grant to the mobile terminal;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, the RRC connection with the second base station to enter an RRC idle state in response to sending the control instruction reception confirmation message to the second base station.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
a unit for acquiring, by the mobile terminal, an RSRP offset value included in the system information if it is determined that the system information does not include the base station list having the high priority;
a unit for monitoring reference signals sent by other base stations by the mobile terminal in response to acquiring the RSRP compensation value included in the system information;
means for disconnecting, by the mobile terminal, the RRC connection with the first base station if the RSRP of the reference signal sent by the third base station is greater than the RSRP of the reference signal sent by the first base station and a difference between the RSRP of the reference signal sent by the third base station and the RSRP of the reference signal sent by the first base station is greater than or equal to an RSRP compensation value;
means for transmitting, by the mobile terminal, a random access preamble to a third base station in response to the RRC connection with the first base station being broken;
means for transmitting, by the third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response includes the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the third base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the third base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a data mining algorithm inquiry message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the third base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the third base station, a data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the third base station, a third uplink grant to the mobile terminal;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, the RRC connection with the third base station to enter an RRC idle state in response to sending the control instruction reception confirmation message to the third base station.
Compared with the prior art, the invention has the following advantages: data mining technology has been widely applied to recommendation systems of various APPs, for example, many online shopping APPs have largely used recommendation systems, and many streaming media APPs have also largely used recommendation systems. It is well known that one of the cores of the recommendation system is a recommendation algorithm, and the suitability of the recommendation algorithm directly influences the suitability of the recommendation result. The recommendation algorithms can be generally divided into a limited number of categories, which have different recommendation accuracy for different application scenarios, and the effect of each sub-category of the algorithms in each category is not different greatly. In order to further improve the data mining effect, it is necessary to perform the data mining from a viewpoint other than the algorithm design. The invention provides a transmission method and a transmission system for controlled switching messages of a data mining algorithm, wherein a plurality of data mining algorithms provide a concept of a self-adaptive switching recommendation algorithm at present, the self-adaptive switching algorithm means that the types and contents of data collected by a terminal are different after the algorithm is switched, if the same data is transmitted invariably all the time, the waste of the data and the low efficiency of the transmission are inevitably caused, the method allows the terminal to adjust the frequency, the type and other transmission details of the provided data at any time according to the difference of the algorithms, the control granularity of the data mining is improved, and better technical effects are obtained.
Drawings
FIG. 1 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 flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method for transmitting the data mining algorithm controlled handover message of the present invention comprises the following steps:
step 101: generating a data mining algorithm query message by the mobile terminal (the data mining algorithm query message may be, for example, a simple query as to whether a change in the kind of information collected is required, whether additional information needs to be collected, or whether any information is not required);
step 102: monitoring system information sent by a first base station by a mobile terminal, wherein the system information at least comprises an RSRP threshold value used for the first base station;
step 103: in response to the generation of the data mining algorithm query message, the mobile terminal judges whether the RSRP of the reference signal sent by the first base station is greater than the RSRP threshold value for the first base station;
step 104: if the RSRP of the reference signal sent by the first base station is judged to be larger than the RSRP threshold value used for the first base station, the mobile terminal sends a random access lead code to the first base station;
step 105: transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
step 106: in response to receiving the random access response, the mobile terminal sends an RRC connection establishment request message to the first base station on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer status report;
step 107: in response to receiving the RRC connection setup request message, sending, by the first base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
step 108: in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant;
step 109: in response to receiving the data mining algorithm query message, sending, by the first base station, the data mining algorithm query message to the data mining control center server;
step 110: in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
step 111: in response to receiving the data mining control instruction, sending, by the first base station, the data mining control instruction to the mobile terminal, and sending, by the first base station, a third uplink grant to the mobile terminal.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
in response to receiving the data mining control instruction, sending, by the mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant;
in response to sending the data mining control command reception confirmation message to the first base station, disconnecting, by the mobile terminal, the RRC connection with the first base station to enter an RRC idle state;
after receiving the data mining control instruction, the mobile terminal generates a data mining algorithm inquiry message again and monitors RSRP of a reference signal sent by the first base station;
judging whether the RSRP of the reference signal sent by the first base station is smaller than the RSRP threshold value used for the first base station or not by the mobile terminal;
if the RSRP of the reference signal sent by the first base station is judged to be smaller than the RSRP threshold value used for the first base station, the mobile terminal judges whether a base station list with high priority is included in the system information;
if the system information comprises a base station list with high priority, the mobile terminal sends a random access lead code to the first base station;
in response to receiving the random access preamble, a random access response is transmitted by the first base station to the mobile terminal, wherein the random access response includes the first uplink grant.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
responding to the received random access response, and sending an RRC connection recovery request message to the first base station by the mobile terminal on the resource indicated by the first uplink authorization, wherein the RRC connection recovery request message comprises a buffer state report;
sending, by the first base station, an RRC connection recovery grant message to the mobile terminal in response to receiving the RRC connection recovery request message, wherein the RRC connection recovery grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection recovery grant message, sending, by the mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant, wherein the base station measurement report includes RSRP of a reference signal sent by the first base station;
in response to receiving the base station measurement report, transmitting, by the first base station, a base station measurement report reception acknowledgement message to the mobile terminal;
in response to receiving the measurement report reception confirmation message, the RRC connection with the first base station is disconnected by the mobile terminal to enter an RRC idle state.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
transmitting, by the mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
transmitting, by the second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
in response to receiving the random access response, the mobile terminal sends an RRC connection establishment request message to the second base station on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer status report;
in response to receiving the RRC connection setup request message, sending, by the second base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant;
in response to receiving the data mining algorithm query message, sending, by the second base station, the data mining algorithm query message to the data mining control center server;
in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
in response to receiving the data mining control command, sending, by the second base station, the data mining control command to the mobile terminal, and sending, by the second base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant;
in response to transmitting the control instruction reception confirmation message to the second base station, the RRC connection with the second base station is disconnected by the mobile terminal to enter an RRC idle state.
In a preferred embodiment, the method for transmitting the data mining algorithm controlled handover message includes the following steps:
if the system information does not comprise the base station list with high priority, the mobile terminal acquires the RSRP compensation value contained in the system information;
in response to the RSRP compensation value included in the acquired system information, the mobile terminal monitors reference signals sent by other base stations;
disconnecting, by the mobile terminal, the RRC connection with the first base station if the RSRP of the reference signal transmitted by the third base station is greater than the RSRP of the reference signal transmitted by the first base station and the difference between the RSRP of the reference signal transmitted by the third base station and the RSRP of the reference signal transmitted by the first base station is greater than or equal to the RSRP compensation value;
transmitting, by the mobile terminal, a random access preamble to the third base station in response to the RRC connection with the first base station being broken;
transmitting, by the third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response includes the first uplink grant;
responding to the received random access response, and sending an RRC connection establishment request message to the third base station by the mobile terminal on the resource indicated by the first uplink authorization, wherein the RRC connection establishment request message comprises a buffer state report;
in response to receiving the RRC connection setup request message, sending, by the third base station, an RRC connection setup grant message to the mobile terminal, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection setup grant message, sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant;
in response to receiving the data mining algorithm query message, sending, by the third base station, the data mining algorithm query message to the data mining control center server;
in response to receiving the data mining algorithm inquiry message, determining a data mining algorithm by the data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an instruction for the determined data mining algorithm;
in response to receiving the data mining control command, sending, by the third base station, the data mining control command to the mobile terminal, and sending, by the third base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant;
in response to transmitting the control instruction reception confirmation message to the third base station, the RRC connection with the third base station is disconnected by the mobile terminal to enter an RRC idle state.
The invention provides a transmission system of a data mining algorithm controlled switching message, which is characterized by comprising the following steps:
means for generating, by a mobile terminal, a data mining algorithm query message;
the method comprises the steps that a mobile terminal monitors system information sent by a first base station, wherein the system information at least comprises an RSRP threshold value used for the first base station;
means for determining, by the mobile terminal, whether an RSRP of a reference signal sent by the first base station is greater than an RSRP threshold value for the first base station in response to generating the data mining algorithm query message;
means for sending, by the mobile terminal, a random access preamble to the first base station if it is determined that the RSRP of the reference signal sent by the first base station is greater than an RSRP threshold for the first base station;
means for transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the first base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a data mining algorithm inquiry message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the first base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the first base station, the data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the first base station, a third uplink grant to the mobile terminal.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, an RRC connection with the first base station to enter an RRC idle state in response to sending a data mining control instruction reception confirmation message to the first base station;
the mobile terminal generates a data mining algorithm inquiry message again after receiving the data mining control instruction and monitors RSRP of a reference signal sent by the first base station;
means for determining, by the mobile terminal, whether an RSRP of a reference signal sent by the first base station is less than an RSRP threshold for the first base station;
means for determining, by the mobile terminal, whether a list of base stations with a high priority is included in the system information if it is determined that the RSRP of the reference signal sent by the first base station is less than the RSRP threshold value for the first base station;
means for transmitting, by the mobile terminal, a random access preamble to the first base station if it is determined that the system information includes a list of base stations having a high priority;
means for transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, an RRC connection recovery request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection recovery request message includes a buffer status report;
means for transmitting, by the first base station, an RRC connection resume grant message to the mobile terminal in response to receiving the RRC connection resume request message, wherein the RRC connection resume grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant in response to receiving the RRC connection recovery grant message, wherein the base station measurement report includes an RSRP of a reference signal transmitted by the first base station;
means for transmitting, by the first base station to the mobile terminal, a base station measurement report reception acknowledgement message in response to receiving the base station measurement report;
means for disconnecting, by the mobile terminal, the RRC connection with the first base station to enter an RRC idle state in response to receiving the measurement report reception confirmation message.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
means for transmitting, by the mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
means for transmitting, by the second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the second base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the second base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for sending, by the mobile terminal, a data mining algorithm query message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the second base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the second base station, a data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the second base station, a third uplink grant to the mobile terminal;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, the RRC connection with the second base station to enter an RRC idle state in response to sending the control instruction reception confirmation message to the second base station.
In a preferred embodiment, the data mining algorithm controlled handover message transmission system comprises:
a unit for acquiring, by the mobile terminal, an RSRP offset value included in the system information if it is determined that the system information does not include the base station list having the high priority;
a unit for monitoring reference signals sent by other base stations by the mobile terminal in response to acquiring the RSRP compensation value included in the system information;
means for disconnecting, by the mobile terminal, the RRC connection with the first base station if the RSRP of the reference signal sent by the third base station is greater than the RSRP of the reference signal sent by the first base station and a difference between the RSRP of the reference signal sent by the third base station and the RSRP of the reference signal sent by the first base station is greater than or equal to an RSRP compensation value;
means for transmitting, by the mobile terminal, a random access preamble to a third base station in response to the RRC connection with the first base station being broken;
means for transmitting, by the third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response includes the first uplink grant;
means for sending, by the mobile terminal, an RRC connection setup request message to the third base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by the third base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
means for transmitting, by the mobile terminal, a data mining algorithm inquiry message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for sending, by the third base station, a data mining algorithm query message to the data mining control center server in response to receiving the data mining algorithm query message;
a unit for determining a data mining algorithm by the data mining control center server in response to receiving the data mining algorithm query message, and sending a data mining control command to the base station by the data mining control center server, wherein the data mining control command includes an indication of the determined data mining algorithm;
means for transmitting, by the third base station, a data mining control instruction to the mobile terminal in response to receiving the data mining control instruction, and transmitting, by the third base station, a third uplink grant to the mobile terminal;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by the mobile terminal, the RRC connection with the third base station to enter an RRC idle state in response to sending the control instruction reception confirmation message to the third base station.
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 (2)
1. A transmission method of a data mining algorithm controlled switching message is characterized by comprising the following steps:
generating a data mining algorithm inquiry message by the mobile terminal;
monitoring, by a mobile terminal, system information sent by a first base station, wherein the system information at least comprises an RSRP threshold value for the first base station;
in response to generating the data mining algorithm query message, determining, by the mobile terminal, whether an RSRP of a reference signal sent by the first base station is greater than an RSRP threshold value for the first base station; if the RSRP of the reference signal sent by the first base station is judged to be larger than the RSRP threshold value used for the first base station, the mobile terminal sends a random access lead code to the first base station;
transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant; in response to receiving the random access response, sending, by the mobile terminal, an RRC connection setup request message to the first base station on the resource indicated by the first uplink grant, wherein the RRC connection setup request message includes a buffer status report;
sending, by a first base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
sending, by the mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
in response to receiving the data mining algorithm query message, sending, by the first base station, the data mining algorithm query message to a data mining control center server;
in response to receiving the data mining algorithm query message, determining a data mining algorithm by a data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an indication of the determined data mining algorithm;
in response to receiving the data mining control instruction, sending, by the first base station, the data mining control instruction to the mobile terminal, and sending, by the first base station, a third uplink grant to the mobile terminal;
the transmission method of the data mining algorithm controlled switching message comprises the following steps:
in response to receiving the data mining control instruction, sending, by the mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant;
in response to sending a data mining control command reception confirmation message to the first base station, disconnecting, by a mobile terminal, an RRC connection with the first base station to enter an RRC idle state;
after receiving the data mining control instruction, the mobile terminal generates a data mining algorithm inquiry message again and monitors RSRP of a reference signal sent by the first base station;
judging whether the RSRP of the reference signal sent by the first base station is smaller than the RSRP threshold value used for the first base station or not by the mobile terminal;
if the RSRP of the reference signal sent by the first base station is judged to be smaller than the RSRP threshold value used for the first base station, the mobile terminal judges whether a base station list with high priority is included in the system information;
if the system information comprises a base station list with high priority, the mobile terminal sends a random access lead code to the first base station;
transmitting, by the first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
the transmission method of the data mining algorithm controlled switching message comprises the following steps:
in response to receiving the random access response, sending, by the mobile terminal, an RRC connection recovery request message to the first base station on the resource indicated by the first uplink grant, wherein the RRC connection recovery request message includes a buffer status report;
sending, by a first base station, an RRC connection recovery grant message to the mobile terminal in response to receiving the RRC connection recovery request message, wherein the RRC connection recovery grant message includes a second uplink grant for the mobile terminal to perform uplink transmission;
in response to receiving the RRC connection resumption grant message, sending, by a mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant, wherein the base station measurement report includes RSRP of a reference signal sent by the first base station;
sending, by the first base station to the mobile terminal, a base station measurement report reception acknowledgement message in response to receiving the base station measurement report;
in response to receiving the measurement report reception confirmation message, disconnecting, by the mobile terminal, the RRC connection with the first base station to enter an RRC idle state;
the transmission method of the data mining algorithm controlled switching message comprises the following steps:
transmitting, by the mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
transmitting, by a second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant; in response to receiving the random access response, sending, by the mobile terminal, an RRC connection setup request message to the second base station on the resource indicated by the first uplink grant, wherein the RRC connection setup request message includes a buffer status report;
sending, by a second base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission; sending, by the mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
in response to receiving the data mining algorithm query message, sending, by the second base station, the data mining algorithm query message to a data mining control center server;
in response to receiving the data mining algorithm query message, determining a data mining algorithm by a data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an indication of the determined data mining algorithm;
in response to receiving the data mining control instruction, sending, by the second base station, the data mining control instruction to the mobile terminal, and sending, by the second base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant; in response to sending a control instruction reception confirmation message to the second base station, disconnecting, by the mobile terminal, the RRC connection with the second base station to enter an RRC idle state; the transmission method of the data mining algorithm controlled switching message comprises the following steps:
if the system information does not comprise a base station list with high priority, the mobile terminal acquires the RSRP compensation value contained in the system information;
in response to the RSRP compensation value included in the system information, monitoring reference signals sent by other base stations by the mobile terminal;
disconnecting, by the mobile terminal, the RRC connection with the first base station if the RSRP of the reference signal sent by the third base station is greater than the RSRP of the reference signal sent by the first base station and the difference between the RSRP of the reference signal sent by the third base station and the RSRP of the reference signal sent by the first base station is greater than or equal to the RSRP offset value;
transmitting, by the mobile terminal, a random access preamble to a third base station in response to the RRC connection with the first base station being broken;
transmitting, by a third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant; in response to receiving the random access response, sending, by the mobile terminal, an RRC connection setup request message to the third base station on the resource indicated by the first uplink grant, wherein the RRC connection setup request message includes a buffer status report;
sending, by a third base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for the mobile terminal to perform uplink transmission; sending, by the mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
in response to receiving the data mining algorithm query message, sending, by a third base station, the data mining algorithm query message to a data mining control center server;
in response to receiving the data mining algorithm query message, determining a data mining algorithm by a data mining control center server, and sending a data mining control instruction to the base station by the data mining control center server, wherein the data mining control instruction comprises an indication of the determined data mining algorithm;
in response to receiving the data mining control instruction, sending, by the third base station, the data mining control instruction to the mobile terminal, and sending, by the third base station, a third uplink grant to the mobile terminal;
in response to receiving the data mining control instruction, sending, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant; in response to sending a control instruction reception acknowledgement message to the third base station, disconnecting, by the mobile terminal, the RRC connection with the third base station to enter an RRC idle state.
2. A system for transmitting a data mining algorithm controlled handover message, the system comprising:
means for generating, by a mobile terminal, a data mining algorithm query message;
means for listening, by a mobile terminal, for system information transmitted by a first base station, wherein the system information includes at least an RSRP threshold value for the first base station;
means for determining, by a mobile terminal, whether an RSRP of a reference signal sent by the first base station is greater than an RSRP threshold value for the first base station in response to generating the data mining algorithm query message;
means for sending, by a mobile terminal, a random access preamble to a first base station if it is determined that an RSRP of a reference signal sent by the first base station is greater than an RSRP threshold for the first base station;
means for transmitting, by a first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
means for sending, by a mobile terminal, an RRC connection setup request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by a first base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for uplink transmission by the mobile terminal;
means for sending, by a mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the first base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for transmitting, by a first base station, a data mining algorithm query message to a data mining control center server in response to receiving the data mining algorithm query message;
means for determining, by a data mining control center server, a data mining algorithm in response to receiving the data mining algorithm query message, and sending, by the data mining control center server, a data mining control instruction to the base station, wherein the data mining control instruction includes an indication of the determined data mining algorithm;
means for transmitting, by the first base station, the data mining control instruction to the mobile terminal and for transmitting, by the first base station, a third uplink grant to the mobile terminal in response to receiving the data mining control instruction;
the transmission system of the data mining algorithm controlled switching message comprises:
means for transmitting, by a mobile terminal, a data mining control instruction reception acknowledgement message to the first base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by a mobile terminal, an RRC connection with the first base station to enter an RRC idle state in response to sending a data mining control instruction reception confirmation message to the first base station;
after receiving the data mining control instruction, the mobile terminal generates a data mining algorithm query message again and monitors RSRP of a reference signal sent by the first base station;
means for determining, by a mobile terminal, whether an RSRP of a reference signal sent by the first base station is less than an RSRP threshold value for the first base station;
means for determining, by a mobile terminal, whether a list of base stations with a high priority is included in the system information if it is determined that the RSRP of the reference signal sent by the first base station is less than an RSRP threshold for the first base station;
means for transmitting, by a mobile terminal, a random access preamble to the first base station if it is determined that the system information includes a list of base stations with high priority;
means for transmitting, by a first base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
the transmission system of the data mining algorithm controlled switching message comprises:
means for transmitting, by a mobile terminal, an RRC connection recovery request message to the first base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection recovery request message includes a buffer status report;
means for transmitting, by a first base station, an RRC connection resume grant message to the mobile terminal in response to receiving the RRC connection resume request message, wherein the RRC connection resume grant message includes a second uplink grant for uplink transmission by the mobile terminal;
means for transmitting, by a mobile terminal, a base station measurement report to the first base station on a resource indicated by the second uplink grant in response to receiving the RRC connection resume grant message, wherein the base station measurement report includes RSRP of a reference signal transmitted by the first base station;
means for transmitting, by the first base station to the mobile terminal, a base station measurement report reception acknowledgement message in response to receiving the base station measurement report;
means for disconnecting, by a mobile terminal, an RRC connection with the first base station to enter an RRC idle state in response to receiving the measurement report reception confirmation message;
the transmission system of the data mining algorithm controlled switching message comprises:
means for transmitting, by a mobile terminal, a random access preamble to a second base station in the list of base stations with high priority in response to breaking the RRC connection with the first base station;
means for transmitting, by a second base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
means for sending, by a mobile terminal, an RRC connection setup request message to the second base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by a second base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for uplink transmission by the mobile terminal;
means for sending, by a mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the second base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for transmitting, by the second base station, the data mining algorithm query message to a data mining control center server in response to receiving the data mining algorithm query message;
means for determining, by a data mining control center server, a data mining algorithm in response to receiving the data mining algorithm query message, and sending, by the data mining control center server, a data mining control instruction to the base station, wherein the data mining control instruction includes an indication of the determined data mining algorithm;
means for transmitting, by the second base station, the data mining control instruction to the mobile terminal and for transmitting, by the second base station, a third uplink grant to the mobile terminal in response to receiving the data mining control instruction;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the second base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by a mobile terminal, an RRC connection with the second base station to enter an RRC idle state in response to sending a control instruction reception confirmation message to the second base station;
the transmission system of the data mining algorithm controlled switching message comprises:
a unit configured to, if it is determined that the system information does not include a base station list with a high priority, obtain, by the mobile terminal, an RSRP offset value included in the system information;
a unit for monitoring reference signals sent by other base stations by the mobile terminal in response to acquiring the RSRP compensation value included in the system information;
means for disconnecting, by a mobile terminal, an RRC connection with the first base station if an RSRP of a reference signal transmitted by a third base station is greater than an RSRP of a reference signal transmitted by the first base station and a difference between the RSRP of the reference signal transmitted by the third base station and the RSRP of the reference signal transmitted by the first base station is greater than or equal to the RSRP compensation value;
means for transmitting, by a mobile terminal, a random access preamble to a third base station in response to breaking the RRC connection with the first base station;
means for transmitting, by a third base station, a random access response to the mobile terminal in response to receiving the random access preamble, wherein the random access response comprises a first uplink grant;
means for sending, by a mobile terminal, an RRC connection setup request message to the third base station on the resource indicated by the first uplink grant in response to receiving the random access response, wherein the RRC connection setup request message includes a buffer status report;
means for transmitting, by a third base station, an RRC connection setup grant message to the mobile terminal in response to receiving the RRC connection setup request message, wherein the RRC connection setup grant message includes a second uplink grant for uplink transmission by the mobile terminal;
means for sending, by the mobile terminal, the data mining algorithm inquiry message and an RRC connection release request message to the third base station on the resource indicated by the second uplink grant in response to receiving the RRC connection setup grant message;
means for transmitting, by a third base station, the data mining algorithm query message to a data mining control center server in response to receiving the data mining algorithm query message;
means for determining, by a data mining control center server, a data mining algorithm in response to receiving the data mining algorithm query message, and sending, by the data mining control center server, a data mining control instruction to the base station, wherein the data mining control instruction includes an indication of the determined data mining algorithm;
means for transmitting, by a third base station, the data mining control instruction to the mobile terminal and a third uplink grant to the mobile terminal in response to receiving the data mining control instruction;
means for transmitting, by the mobile terminal, a control instruction reception acknowledgement message to the third base station in the resource indicated by the third uplink grant in response to receiving the data mining control instruction;
means for disconnecting, by a mobile terminal, an RRC connection with the third base station to enter an RRC idle state in response to sending a control instruction reception confirmation message to the third base station.
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