CN112423349A - New energy big data platform data cleaning method and system - Google Patents
New energy big data platform data cleaning method and system Download PDFInfo
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- H04W36/06—Reselecting a communication resource in the serving access point
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
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Abstract
The invention discloses a new energy big data platform data cleaning method, which comprises the following steps: generating a data cleaning instruction by the mobile terminal; establishing an RRC connection with the base station by the second mobile terminal; continuously monitoring, by the second mobile terminal, for a synchronization signal transmitted by the base station in response to establishing the RRC connection with the base station; in response to monitoring the synchronization signal transmitted by the base station, determining, by the second mobile terminal, whether the signal strength of the synchronization signal transmitted on the second transmit beam is greater than the signal strength of the synchronization signal transmitted on the first transmit beam; if the signal intensity of the synchronous signal sent on the second transmitting wave beam is judged to be larger than that of the synchronous signal sent on the first transmitting wave beam, the second mobile terminal sends PUCCH information to the base station; in response to receiving the PUCCH message, determining, by the base station, whether a beam index of the second transmission beam is included in the PUCCH message.
Description
Technical Field
The invention relates to the technical field of big data, in particular to a new energy big data platform data cleaning method and system.
Background
Big data (big data), an IT industry term, refers to a data set that cannot be captured, managed, and processed with a conventional software tool within a certain time range, and is a massive, high-growth-rate, diversified information asset that needs a new processing mode to have stronger decision-making power, insight discovery power, and process optimization capability.
The prior art CN109033330A discloses a big data cleaning method, a device and a server, the invention is applied to a big data platform, firstly reading the pre-stored unstructured data; then, according to a preset business rule, primary data cleaning is carried out on unstructured data to obtain structured data corresponding to the unstructured data, and the structured data are imported into a data warehouse; extracting structured data required by the data analysis service from the data warehouse; and finally, carrying out secondary data cleaning on the structured data, and importing the cleaned data into a database.
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 new energy big data platform data cleaning method and system, which can overcome the defects of the prior art.
In order to achieve the purpose, the invention provides a new energy big data platform data cleaning method which is characterized by comprising the following steps:
generating a data cleaning instruction by the mobile terminal;
establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
continuously listening, by the second mobile terminal, for a synchronization signal transmitted by the base station in response to establishing the RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
in response to monitoring the synchronization signal transmitted by the base station, determining, by the second mobile terminal, whether the signal strength of the synchronization signal transmitted on the second transmit beam is greater than the signal strength of the synchronization signal transmitted on the first transmit beam;
if the signal intensity of the synchronous signal sent on the second transmitting beam is judged to be larger than that of the synchronous signal sent on the first transmitting beam, the second mobile terminal sends a PUCCH message to the base station, wherein the PUCCH message comprises the beam index of the second transmitting beam;
in response to receiving the PUCCH message, determining, by the base station, whether a beam index of a second transmit beam is included in the PUCCH message;
in response to the determination that the PUCCH message includes the beam index of the second transmission beam, the base station determines a manner in which the base station transmits the beam switching indication;
if the mode that the base station sends the beam switching indication is judged to be the first sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first sending beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDSCH message;
attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
in response to not receiving the first PDSCH message correctly, a NACK message is transmitted by the second mobile terminal to the base station.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
in response to receiving the NACK message, transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
if the first PDCCH message is not received, the second mobile terminal does not send any message to the base station;
if the base station cannot receive the ACK message or the NACK message within a predetermined time after transmitting the first PDCCH message to the second mobile terminal, transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmission beam, wherein the second PDCCH message includes an indication of a resource used for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
attempting, by the second mobile terminal, to receive a second PDSCH message in response to receiving the second PDCCH message;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, the base station begins transmitting a message to the second mobile terminal using the second transmit beam.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
if the mode that the base station sends the beam switching indication is judged to be the second sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first transmitting beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDCCH message;
attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
transmitting, by the second mobile terminal to the base station, a NACK message in response to not correctly receiving the first PDSCH message;
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
in response to receiving the NACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
sending a side link resource scheduling request to the base station by the second mobile terminal;
in response to receiving the sidelink resource scheduling request, the base station transmits a sidelink resource indication to the second mobile terminal by using a second transmitting beam, wherein the sidelink resource indication comprises an indication of sidelink resources and configuration of a sidelink resource LBT mode, and the sidelink resources comprise time-frequency resources on a plurality of component carriers;
in response to receiving the side link resource indication sent by the base station, the second mobile terminal judges the LBT mode indicated by the configuration of the side link resource LBT mode;
if the side link resource LBT mode is judged to be the first LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
if LBT on a first subcarrier set of a first component carrier is successful, sending a data washing instruction uploading command to a mobile terminal on a second subcarrier set of the first component carrier by a second mobile terminal, wherein the first subcarrier set is associated with the second subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station;
if the side link resource LBT mode is judged to be the second LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier and the second subcarrier set of the second component carrier at the same time;
if LBT is successful on a first subcarrier set of a first component carrier and a second subcarrier set of a second component carrier at the same time, sending a data washing instruction uploading command to the mobile terminal by a second mobile terminal on a third subcarrier set of the first component carrier and a fourth subcarrier set of the second component carrier at the same time, wherein the first subcarrier set is associated with the third subcarrier set, and the second subcarrier set is associated with the fourth subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
if the side link resource LBT mode is judged to be the third LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
if LBT is successful on a first subcarrier set of a first component carrier, sending a data washing instruction uploading command to the mobile terminal by a second mobile terminal on a second subcarrier set of the first component carrier and on a third subcarrier set of a second component carrier simultaneously, wherein the first subcarrier set is associated with the second subcarrier set, and the first subcarrier set is associated with the third subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
The invention provides a new energy big data platform data cleaning system which is characterized by comprising the following components:
means for generating a data cleansing instruction by a mobile terminal;
means for establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
means for continuously listening, by a second mobile terminal, for a synchronization signal transmitted by a base station in response to establishing an RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
means for determining, by the second mobile terminal, whether a signal strength of the synchronization signal transmitted on the second transmit beam is greater than a signal strength of the synchronization signal transmitted on the first transmit beam in response to monitoring the synchronization signal transmitted by the base station;
means for transmitting, by the second mobile terminal, a PUCCH message to the base station if it is determined that the signal strength of the synchronization signal transmitted on the second transmission beam is greater than the signal strength of the synchronization signal transmitted on the first transmission beam, wherein the PUCCH message includes a beam index of the second transmission beam;
means for determining, by the base station, whether a beam index of a second transmit beam is included in the PUCCH message in response to receiving the PUCCH message;
means for determining, by the base station, a manner in which the base station transmits the beam switch indication in response to determining that the beam index of the second transmit beam is included in the PUCCH message;
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that the manner in which the base station transmits the beam switching indication is the first transmission manner, wherein the first PDCCH message includes an indication of a resource used to transmit a first PDSCH message, and wherein the beam switching indication is included in the first PDSCH message;
means for attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by the second mobile terminal to the base station, a NACK message in response to the first PDSCH message not being received correctly.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
for initiating, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam in response to receiving the NACK message, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission for the beam switch indication;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by the base station, sending a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for the second mobile terminal not to send any message to the base station if the first PDCCH message is not received;
means for transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam if the base station cannot receive the ACK message or the NACK message within a predetermined time after transmitting the first PDCCH message to the second mobile terminal, wherein the second PDCCH message includes an indication of resources used to transmit a second PDSCH message, wherein the second PDSCH message includes a retransmission for the beam switching indication;
means for attempting, by the second mobile terminal, to receive a second PDSCH message in response to receiving the second PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that a manner in which the base station transmits the beam switching indication is the second transmission manner, wherein the first PDCCH message includes an indication of a resource used to transmit the first PDSCH message, and the beam switching indication is included in the first PDCCH message;
means for attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by the second mobile terminal to the base station, a NACK message in response to not receiving the first PDSCH message correctly;
means for starting, by the base station, sending a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for initiating, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the NACK message.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for transmitting a sidelink resource scheduling request by a second mobile terminal to a base station;
means for transmitting, by the base station, a sidelink resource indication to the second mobile terminal using the second transmit beam in response to receiving the sidelink resource scheduling request, wherein the sidelink resource indication includes an indication of sidelink resources and a configuration of a sidelink resource LBT mode, wherein the sidelink resources include time-frequency resources on a plurality of component carriers;
means for determining, by the second mobile terminal, an LBT mode indicated by the configuration of the LBT mode for the sidelink resource in response to receiving the sidelink resource indication sent by the base station;
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if the side link resource LBT mode is determined to be a first LBT mode;
means for sending, by the second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a second set of subcarriers of the first component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
the unit is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform by the base station;
means for performing LBT on a first set of subcarriers of a first component carrier and a second set of subcarriers of a second component carrier by a second mobile terminal simultaneously if it is determined that the LBT scheme of the sidelink resource is a second LBT scheme;
means for transmitting, by the second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a third set of subcarriers of the first component carrier and on a fourth set of subcarriers of the second component carrier simultaneously if LBT on both the first set of subcarriers of the first component carrier and the second set of subcarriers of the second component carrier is successful, wherein the first set of subcarriers is associated with the third set of subcarriers and the second set of subcarriers is associated with the fourth set of subcarriers;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if it is determined that the sidelink resource LBT mode is a third LBT mode;
means for transmitting, by the second mobile terminal, a data washing instruction upload command simultaneously on a second set of subcarriers of the first component carrier and on a third set of subcarriers of the second component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers and the first set of subcarriers is associated with the third set of subcarriers;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
Compared with the prior art, the method has the following advantages that with the development of wireless communication technology, the future big data technology is necessarily deeply integrated with 5G related technologies such as the Internet of things, D2D, URLLC, millimeter waves and eMBB. According to the research of the inventor, the published documents of the prior art combining the big data platform control technology and the advanced communication technology are less, the research in the field is not deep, and the field is expected to become the key field of the necessary standard patents, so that the related technology needs to be developed in the field firstly. Aiming at the requirements of the prior art, a new energy big data platform data cleaning method and system are provided.
Drawings
FIG. 1 is a flow diagram of a method according to an embodiment of the invention.
Fig. 2 is a schematic diagram of a system architecture according to an embodiment of the present 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 of the present invention comprises the steps of:
step 101: generating a data cleaning instruction by the mobile terminal (the concept and specific operation of data cleaning can be referred to the documents introduced in the background art);
step 102: establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
step 103: continuously listening, by the second mobile terminal, for a synchronization signal transmitted by the base station in response to establishing the RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
step 104: in response to monitoring the synchronization signal transmitted by the base station, determining, by the second mobile terminal, whether the signal strength of the synchronization signal transmitted on the second transmit beam is greater than the signal strength of the synchronization signal transmitted on the first transmit beam;
step 105: if the signal intensity of the synchronous signal sent on the second transmitting beam is judged to be larger than that of the synchronous signal sent on the first transmitting beam, the second mobile terminal sends a PUCCH message to the base station, wherein the PUCCH message comprises the beam index of the second transmitting beam;
step 106: in response to receiving the PUCCH message, determining, by the base station, whether a beam index of a second transmit beam is included in the PUCCH message;
step 107: in response to the determination that the PUCCH message includes the beam index of the second transmission beam, the base station determines a manner in which the base station transmits the beam switching indication;
step 108: if the mode that the base station sends the beam switching indication is judged to be the first sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first sending beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDSCH message;
step 109: attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
step 110: sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
step 111: in response to not receiving the first PDSCH message correctly, a NACK message is transmitted by the second mobile terminal to the base station.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
in response to receiving the NACK message, transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
if the first PDCCH message is not received, the second mobile terminal does not send any message to the base station;
if the base station cannot receive the ACK message or the NACK message within a predetermined time after transmitting the first PDCCH message to the second mobile terminal, transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmission beam, wherein the second PDCCH message includes an indication of a resource used for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
attempting, by the second mobile terminal, to receive a second PDSCH message in response to receiving the second PDCCH message;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, the base station begins transmitting a message to the second mobile terminal using the second transmit beam.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
if the mode that the base station sends the beam switching indication is judged to be the second sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first transmitting beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDCCH message;
attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
sending, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
transmitting, by the second mobile terminal to the base station, a NACK message in response to not correctly receiving the first PDSCH message;
in response to receiving the ACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam;
in response to receiving the NACK message, starting, by the base station, sending a message to the second mobile terminal using the second transmit beam.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
sending a side link resource scheduling request to the base station by the second mobile terminal;
in response to receiving the side link resource scheduling request, transmitting, by the base station, a side link resource indication to the second mobile terminal using a second transmission beam, wherein the side link resource indication includes an indication of a side link resource and a configuration of a side link resource LBT (also called terms: listen before talk, etc.), and wherein the side link resource includes time-frequency resources on a plurality of component carriers;
in response to receiving the side link resource indication sent by the base station, the second mobile terminal judges the LBT mode indicated by the configuration of the side link resource LBT mode;
if the side link resource LBT mode is judged to be the first LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
if LBT on a first subcarrier set of a first component carrier is successful, sending a data washing instruction uploading command to a mobile terminal on a second subcarrier set of the first component carrier by a second mobile terminal, wherein the first subcarrier set is associated with the second subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station;
if the side link resource LBT mode is judged to be the second LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier and the second subcarrier set of the second component carrier at the same time;
if LBT is successful on a first subcarrier set of a first component carrier and a second subcarrier set of a second component carrier at the same time, sending a data washing instruction uploading command to the mobile terminal by a second mobile terminal on a third subcarrier set of the first component carrier and a fourth subcarrier set of the second component carrier at the same time, wherein the first subcarrier set is associated with the third subcarrier set, and the second subcarrier set is associated with the fourth subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
In a preferred embodiment, the new energy big data platform data cleaning method comprises the following steps:
if the side link resource LBT mode is judged to be the third LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
if LBT is successful on a first subcarrier set of a first component carrier, sending a data washing instruction uploading command to the mobile terminal by a second mobile terminal on a second subcarrier set of the first component carrier and on a third subcarrier set of a second component carrier simultaneously, wherein the first subcarrier set is associated with the second subcarrier set, and the first subcarrier set is associated with the third subcarrier set;
in response to receiving the data cleaning instruction uploading command, the mobile terminal sends a data cleaning instruction to the second mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
The invention provides a new energy big data platform data cleaning system which is characterized by comprising the following components:
means for generating a data cleansing instruction by a mobile terminal;
means for establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
means for continuously listening, by a second mobile terminal, for a synchronization signal transmitted by a base station in response to establishing an RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
means for determining, by the second mobile terminal, whether a signal strength of the synchronization signal transmitted on the second transmit beam is greater than a signal strength of the synchronization signal transmitted on the first transmit beam in response to monitoring the synchronization signal transmitted by the base station;
means for transmitting, by the second mobile terminal, a PUCCH message to the base station if it is determined that the signal strength of the synchronization signal transmitted on the second transmission beam is greater than the signal strength of the synchronization signal transmitted on the first transmission beam, wherein the PUCCH message includes a beam index of the second transmission beam;
means for determining, by the base station, whether a beam index of a second transmit beam is included in the PUCCH message in response to receiving the PUCCH message;
means for determining, by the base station, a manner in which the base station transmits the beam switch indication in response to determining that the beam index of the second transmit beam is included in the PUCCH message;
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that the manner in which the base station transmits the beam switching indication is the first transmission manner, wherein the first PDCCH message includes an indication of a resource used to transmit a first PDSCH message, and wherein the beam switching indication is included in the first PDSCH message;
means for attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by the second mobile terminal to the base station, a NACK message in response to the first PDSCH message not being received correctly.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
for initiating, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam in response to receiving the NACK message, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission for the beam switch indication;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by the base station, sending a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for the second mobile terminal not to send any message to the base station if the first PDCCH message is not received;
means for transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam if the base station cannot receive the ACK message or the NACK message within a predetermined time after transmitting the first PDCCH message to the second mobile terminal, wherein the second PDCCH message includes an indication of resources used to transmit a second PDSCH message, wherein the second PDSCH message includes a retransmission for the beam switching indication;
means for attempting, by the second mobile terminal, to receive a second PDSCH message in response to receiving the second PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that a manner in which the base station transmits the beam switching indication is the second transmission manner, wherein the first PDCCH message includes an indication of a resource used to transmit the first PDSCH message, and the beam switching indication is included in the first PDCCH message;
means for attempting, by the second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by the second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by the second mobile terminal to the base station, a NACK message in response to not receiving the first PDSCH message correctly;
means for starting, by the base station, sending a message to the second mobile terminal using the second transmit beam in response to receiving the ACK message;
means for initiating, by the base station, transmission of a message to the second mobile terminal using the second transmit beam in response to receiving the NACK message.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for transmitting a sidelink resource scheduling request by a second mobile terminal to a base station;
means for transmitting, by the base station, a sidelink resource indication to the second mobile terminal using the second transmit beam in response to receiving the sidelink resource scheduling request, wherein the sidelink resource indication includes an indication of sidelink resources and a configuration of a sidelink resource LBT mode, wherein the sidelink resources include time-frequency resources on a plurality of component carriers;
means for determining, by the second mobile terminal, an LBT mode indicated by the configuration of the LBT mode for the sidelink resource in response to receiving the sidelink resource indication sent by the base station;
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if the side link resource LBT mode is determined to be a first LBT mode;
means for sending, by the second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a second set of subcarriers of the first component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
the unit is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform by the base station;
means for performing LBT on a first set of subcarriers of a first component carrier and a second set of subcarriers of a second component carrier by a second mobile terminal simultaneously if it is determined that the LBT scheme of the sidelink resource is a second LBT scheme;
means for transmitting, by the second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a third set of subcarriers of the first component carrier and on a fourth set of subcarriers of the second component carrier simultaneously if LBT on both the first set of subcarriers of the first component carrier and the second set of subcarriers of the second component carrier is successful, wherein the first set of subcarriers is associated with the third set of subcarriers and the second set of subcarriers is associated with the fourth set of subcarriers;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
In a preferred embodiment, the new energy big data platform data cleaning system comprises:
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if it is determined that the sidelink resource LBT mode is a third LBT mode;
means for transmitting, by the second mobile terminal, a data washing instruction upload command simultaneously on a second set of subcarriers of the first component carrier and on a third set of subcarriers of the second component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers and the first set of subcarriers is associated with the third set of subcarriers; it should be understood by those skilled in the art that "the first set of subcarriers is associated with the second set of subcarriers" means that the first set of subcarriers has a one-to-one correspondence relationship with the second set of subcarriers, and once LBT succeeds on the first set of subcarriers, the terminal may determine the positions of the second set of subcarriers according to the one-to-one correspondence relationship between the first set of subcarriers and the second set of subcarriers, where the correspondence relationship may be recorded in a mapping table, and the mapping table may be sent in system information or other control information; of course, other similar features should also be explained in this way, which is not described in the present application;
a unit for sending a data cleansing instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleansing instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
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.
Are described for purposes of illustration and example. 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 new energy big data platform data cleaning method is characterized by comprising the following steps:
generating a data cleaning instruction by the mobile terminal;
establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
continuously listening, by a second mobile terminal, for a synchronization signal transmitted by a base station in response to establishing an RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
in response to monitoring the synchronization signal transmitted by the base station, determining, by the second mobile terminal, whether the signal strength of the synchronization signal transmitted on the second transmit beam is greater than the signal strength of the synchronization signal transmitted on the first transmit beam;
if the signal intensity of the synchronous signal sent on the second transmitting beam is judged to be larger than that of the synchronous signal sent on the first transmitting beam, a PUCCH message is sent to the base station by the second mobile terminal, wherein the PUCCH message comprises the beam index of the second transmitting beam;
determining, by a base station, whether a beam index of the second transmit beam is included in the PUCCH message in response to receiving the PUCCH message;
in response to determining that the PUCCH message includes the beam index of the second transmit beam, determining, by a base station, a manner in which the base station transmits a beam switching indication;
if the mode that the base station sends the beam switching indication is judged to be the first sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first sending beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDSCH message;
attempting, by a second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
sending, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
transmitting, by a second mobile terminal, a NACK message to the base station in response to not receiving the first PDSCH message correctly.
2. The new energy big data platform data cleaning method according to claim 1, wherein the new energy big data platform data cleaning method comprises the following steps:
in response to receiving the ACK message, beginning, by the base station, to send a message to the second mobile terminal using a second transmit beam;
in response to receiving the NACK message, transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmit beam, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
sending, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, beginning, by the base station, to send a message to the second mobile terminal using a second transmit beam;
if the first PDCCH message is not received, the second mobile terminal does not send any message to the base station;
transmitting, by the base station, a second PDCCH message to the second mobile terminal using a second transmission beam if the base station cannot receive an ACK message or a NACK message within a predetermined time after transmitting the first PDCCH message to the second mobile terminal, wherein the second PDCCH message includes an indication of resources used for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switching indication;
attempting, by a second mobile terminal, to receive the second PDSCH message in response to receiving the second PDCCH message;
sending, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
in response to receiving the ACK message, starting, by the base station, to send a message to the second mobile terminal using a second transmit beam.
3. The new energy big data platform data cleaning method according to claim 2, wherein the new energy big data platform data cleaning method comprises the following steps:
if the mode of the base station for sending the beam switching indication is judged to be a second sending mode, the base station sends a first PDCCH message to the second mobile terminal by using a first transmitting beam, wherein the first PDCCH message comprises an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDCCH message;
attempting, by a second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
sending, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
transmitting, by a second mobile terminal to the base station, a NACK message in response to not receiving the first PDSCH message correctly;
in response to receiving the ACK message, beginning, by the base station, to send a message to the second mobile terminal using a second transmit beam;
in response to receiving the NACK message, starting, by the base station, sending a message to the second mobile terminal using a second transmit beam.
4. The new energy big data platform data cleaning method according to claim 3, wherein the new energy big data platform data cleaning method comprises the following steps:
sending a side link resource scheduling request to the base station by a second mobile terminal;
in response to receiving the side link resource scheduling request, transmitting, by a base station, a side link resource indication to the second mobile terminal using a second transmission beam, wherein the side link resource indication includes an indication of side link resources and a configuration of a side link resource LBT manner, and the side link resources include time-frequency resources on a plurality of component carriers;
in response to receiving a side link resource indication sent by the base station, judging, by the second mobile terminal, an LBT mode indicated by the configuration of the side link resource LBT mode;
if the side link resource LBT mode is judged to be the first LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
sending, by a second mobile terminal, a data cleansing instruction upload command to a mobile terminal on a second set of subcarriers of a first component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers;
responding to the received data cleaning instruction uploading command, and sending the data cleaning instruction to the second mobile terminal by the mobile terminal;
responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station;
if the side link resource LBT mode is judged to be a second LBT mode, LBT is carried out on a first subcarrier set of a first component carrier and a second subcarrier set of a second component carrier simultaneously by a second mobile terminal;
sending, by a second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a third set of subcarriers of a first component carrier and on a fourth set of subcarriers of a second component carrier simultaneously if LBT on the first set of subcarriers of the first component carrier and the second set of subcarriers of the second component carrier simultaneously succeeds, wherein the first set of subcarriers is associated with the third set of subcarriers and the second set of subcarriers is associated with the fourth set of subcarriers;
responding to the received data cleaning instruction uploading command, and sending the data cleaning instruction to the second mobile terminal by the mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
5. The new energy big data platform data cleaning method according to claim 4, wherein the new energy big data platform data cleaning method comprises the following steps:
if the side link resource LBT mode is judged to be the third LBT mode, the second mobile terminal carries out LBT on the first subcarrier set of the first component carrier;
sending, by a second mobile terminal, a data washing instruction upload command to a mobile terminal simultaneously on a second set of subcarriers of a first component carrier and on a third set of subcarriers of a second component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers and the first set of subcarriers is associated with the third set of subcarriers;
responding to the received data cleaning instruction uploading command, and sending the data cleaning instruction to the second mobile terminal by the mobile terminal;
and responding to the received data cleaning instruction, and sending the data cleaning instruction to the new energy big data platform by the base station.
6. The utility model provides a big data platform data cleaning system of new forms of energy which characterized in that, big data platform data cleaning system of new forms of energy includes:
means for generating a data cleansing instruction by a mobile terminal;
means for establishing, by a second mobile terminal, an RRC connection with a base station, wherein the base station is transmitting a message to the second mobile terminal using a first transmit beam;
means for continuously listening, by a second mobile terminal, for a synchronization signal transmitted by a base station in response to establishing an RRC connection with the base station, wherein the synchronization signal is transmitted by the base station on a plurality of transmit beams;
means for determining, by the second mobile terminal, whether a signal strength of the synchronization signal transmitted on the second transmit beam is greater than a signal strength of the synchronization signal transmitted on the first transmit beam in response to monitoring the synchronization signal transmitted by the base station;
means for transmitting, by a second mobile terminal, a PUCCH message to the base station if it is determined that a signal strength of a synchronization signal transmitted on a second transmit beam is greater than a signal strength of a synchronization signal transmitted on a first transmit beam, wherein the PUCCH message includes a beam index of the second transmit beam;
means for determining, by a base station, whether a beam index of the second transmit beam is included in the PUCCH message in response to receiving the PUCCH message;
means for determining, by a base station, a manner in which the base station transmits a beam switching indication in response to determining that the PUCCH message includes the beam index of the second transmit beam;
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that the manner in which the base station transmits the beam switching indication is the first transmission manner, wherein the first PDCCH message includes an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDSCH message;
means for attempting, by a second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by a second mobile terminal to the base station, a NACK message in response to not receiving the first PDSCH message correctly.
7. The new energy big data platform data cleaning system according to claim 6, wherein the new energy big data platform data cleaning system comprises:
for initiating, by the base station, transmission of a message to the second mobile terminal using a second transmit beam in response to receiving the ACK message;
means for transmitting, by a base station, a second PDCCH message to the second mobile terminal using a second transmit beam in response to receiving the NACK message, wherein the second PDCCH message includes an indication of resources for transmitting a second PDSCH message, wherein the second PDSCH message includes a retransmission of the beam switch indication;
means for transmitting, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by a base station, transmission of a message to the second mobile terminal using a second transmit beam in response to receiving the ACK message;
means for transmitting, by the second mobile terminal, a first PDCCH message to the base station if the first PDCCH message is received;
means for transmitting, by a base station, a second PDCCH message to the second mobile terminal using a second transmit beam if the base station cannot receive an ACK message or a NACK message within a predetermined time after transmitting a first PDCCH message to the second mobile terminal, wherein the second PDCCH message includes an indication of resources used to transmit a second PDSCH message, wherein the second PDSCH message includes a retransmission for the beam switching indication;
means for attempting, by a second mobile terminal, to receive the second PDSCH message in response to receiving the second PDCCH message;
means for transmitting, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the second PDSCH message;
means for starting, by the base station, transmission of a message to the second mobile terminal using a second transmit beam in response to receiving the ACK message.
8. The new energy big data platform data washing system of claim 7, wherein the new energy big data platform data washing system comprises:
means for transmitting, by the base station, a first PDCCH message to the second mobile terminal using a first transmit beam if it is determined that a manner in which the base station transmits a beam switching indication is a second transmission manner, wherein the first PDCCH message includes an indication of resources used for transmitting a first PDSCH message, and the beam switching indication is included in the first PDCCH message;
means for attempting, by a second mobile terminal, to receive the first PDSCH message in response to receiving the first PDCCH message;
means for transmitting, by a second mobile terminal, an ACK message to the base station in response to correctly receiving the first PDSCH message;
means for transmitting, by a second mobile terminal to the base station, a NACK message in response to not receiving the first PDSCH message correctly;
means for starting, by a base station, transmission of a message to the second mobile terminal using a second transmit beam in response to receiving the ACK message;
means for starting, by a base station, transmission of a message to the second mobile terminal using a second transmit beam in response to receiving the NACK message.
9. The new energy big data platform data washing system of claim 8, wherein the new energy big data platform data washing system comprises:
means for transmitting a sidelink resource scheduling request by a second mobile terminal to the base station;
means for transmitting, by a base station, a sidelink resource indication to the second mobile terminal using a second transmit beam in response to receiving the sidelink resource scheduling request, wherein the sidelink resource indication comprises an indication of sidelink resources and a configuration of a sidelink resource LBT mode, wherein the sidelink resources comprise time-frequency resources on a plurality of component carriers;
means for determining, by a second mobile terminal, an LBT mode indicated by the configuration for the LBT mode for sidelink resources in response to receiving the indication for sidelink resources sent by the base station;
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if it is determined that the sidelink resource LBT mode is a first LBT mode;
means for sending, by a second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a second set of subcarriers of a first component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers;
a unit for sending the data cleaning instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleaning instruction upload command;
a unit for sending the data cleansing instruction to the new energy big data platform by a base station in response to receiving the data cleansing instruction;
means for performing LBT on a first set of subcarriers of a first component carrier and a second set of subcarriers of a second component carrier by a second mobile terminal simultaneously if it is determined that the side link resource LBT mode is a second LBT mode;
means for transmitting, by a second mobile terminal, a data cleansing instruction upload command to the mobile terminal on a third set of subcarriers of a first component carrier and on a fourth set of subcarriers of a second component carrier simultaneously if LBT on the first set of subcarriers of the first component carrier and the second set of subcarriers of the second component carrier is successful, wherein the first set of subcarriers is associated with the third set of subcarriers and the second set of subcarriers is associated with the fourth set of subcarriers;
a unit for sending the data cleaning instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleaning instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
10. The new energy big data platform data cleaning system according to claim 9, wherein the new energy big data platform data cleaning system comprises:
means for performing LBT on a first set of subcarriers of a first component carrier by a second mobile terminal if it is determined that the sidelink resource LBT mode is a third LBT mode;
means for transmitting, by a second mobile terminal, a data washing instruction upload command to the mobile terminal simultaneously on a second set of subcarriers of a first component carrier and on a third set of subcarriers of a second component carrier if LBT on the first set of subcarriers of the first component carrier is successful, wherein the first set of subcarriers is associated with the second set of subcarriers, and the first set of subcarriers is associated with the third set of subcarriers;
a unit for sending the data cleaning instruction to the second mobile terminal by the mobile terminal in response to receiving the data cleaning instruction upload command;
and the base station is used for responding to the received data cleaning instruction and sending the data cleaning instruction to the new energy big data platform.
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