CN112104994A - Method, system and non-transitory computer-readable storage medium for acquiring logistics information for big data analysis - Google Patents
Method, system and non-transitory computer-readable storage medium for acquiring logistics information for big data analysis Download PDFInfo
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- H—ELECTRICITY
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- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/30—Services specially adapted for particular environments, situations or purposes
- H04W4/35—Services specially adapted for particular environments, situations or purposes for the management of goods or merchandise
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/0408—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/046—Wireless resource allocation based on the type of the allocated resource the resource being in the space domain, e.g. beams
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
- H04W72/1263—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
- H04W72/1268—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows of uplink data flows
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
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Abstract
The invention discloses a method for acquiring logistics information for big data analysis, which comprises the following steps: collecting logistics information for big data analysis by a first mobile terminal; establishing a communication connection with a base station by a first mobile terminal; transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station; receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam on a first CORESET in response to transmitting a scheduling request to the base station for a first period of time; in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station; during the second time period, in response to transmitting the scheduling request to the base station, receiving, by the first mobile terminal, on the first CORESET, a first PDCCH message transmitted by the base station using the first sub-transmit beam, and receiving, by the first mobile terminal, on the second CORESET, a second PDCCH message transmitted by the base station using the second sub-transmit beam.
Description
Technical Field
The present invention relates to the field of intelligent logistics technology, and more particularly, to a method, system and non-transitory computer-readable storage medium for obtaining logistics information for big data analysis.
Background
The intelligent logistics is realized by using an integrated intelligent technology, so that the logistics system can simulate the intelligence of people and has the capabilities of thinking, sensing, learning, reasoning and judging and automatically solving certain problems in the logistics.
Prior art CN110349351A discloses an unlocking method and system for a logistics object management device, the method includes: acquiring a first dynamic password input by a user; the first dynamic password is generated by the server according to the first system time of the server; acquiring at least one second system time of the logistics object management equipment; calculating at least one second dynamic password according to the at least one second system time; and if a second dynamic password matched with the first dynamic password exists, unlocking the logistics object management equipment.
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
It is an object of the present invention to provide a method, system and non-transitory computer-readable storage medium for obtaining logistics information for big data analysis, which overcome the drawbacks of the prior art.
In order to achieve the above object, the present invention provides a method for acquiring logistics information for big data analysis, which is characterized in that the method for acquiring logistics information for big data analysis comprises the following steps:
collecting logistics information for big data analysis by a first mobile terminal;
establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of sending a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
during a fourth time period, in response to transmitting a scheduling request to the base station, receiving, by the first mobile terminal, a first PDCCH message on a first CORESET transmitted by the base station using the first transmit beam, and receiving, by the first mobile terminal, a second PDCCH message on a second CORESET transmitted by the base station using the second transmit beam, wherein the first PDCCH message has an allocation of a first PUSCH resource therein, and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resource therein and the second DCI message has an allocation of the second PUSCH resource therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station can send messages to the first mobile terminal and the second mobile terminal by using a first transmission beam and a second transmission beam, wherein the first transmission beam comprises a first sub-transmission beam and a second sub-transmission beam, and the second transmission beam comprises a third sub-transmission beam and a fourth sub-transmission beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting the scheduling request to the base station during a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET and a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the third DCI message has an allocation of a third PUSCH resource therein and the fourth DCI message has an allocation of a fourth PUSCH resource therein;
transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
in response to receiving the fourth DCI message, transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the base station.
The invention provides a system for acquiring logistics information for big data analysis, which is characterized by comprising the following steps:
a unit for collecting logistics information for big data analysis by a first mobile terminal;
means for establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of transmitting a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
means for transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by the first mobile terminal to the base station, logistics information for big data analysis on a first PUSCH resource in response to receiving the first PDCCH message and the second PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first PDCCH message has an allocation of the first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message and the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fourth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resources therein and the second DCI message has an allocation of the second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
the method comprises the steps of collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
means for establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station is capable of sending messages to the first mobile terminal and the second mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
means for transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting a scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third time period, and receiving, by the second mobile terminal, a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET, wherein the third DCI message has an allocation for a third PUSCH resource therein and the fourth DCI message has an allocation for a fourth PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the base station in response to receiving the fourth DCI message.
The present invention provides a non-transitory computer-readable storage medium having stored therein processor-executable code, which when executed by a processor, is capable of causing the processor to:
collecting logistics information for big data analysis by a first mobile terminal;
establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of sending a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
during a fourth time period, in response to transmitting a scheduling request to the base station, receiving, by the first mobile terminal, a first PDCCH message on a first CORESET transmitted by the base station using the first transmit beam, and receiving, by the first mobile terminal, a second PDCCH message on a second CORESET transmitted by the base station using the second transmit beam, wherein the first PDCCH message has an allocation of a first PUSCH resource therein, and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resource therein and the second DCI message has an allocation of the second PUSCH resource therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station can send messages to the first mobile terminal and the second mobile terminal by using a first transmission beam and a second transmission beam, wherein the first transmission beam comprises a first sub-transmission beam and a second sub-transmission beam, and the second transmission beam comprises a third sub-transmission beam and a fourth sub-transmission beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting the scheduling request to the base station during a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET and a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the third DCI message has an allocation of a third PUSCH resource therein and the fourth DCI message has an allocation of a fourth PUSCH resource therein;
transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
in response to receiving the fourth DCI message, transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the base station.
Compared with the prior art, the method has the advantages that the improvement of the service level of the current logistics industry mainly depends on the improvement of the logistics speed, and under the conditions that the vehicle technology cannot realize qualitative leap and the urban road traffic condition cannot be controlled, the improvement of the logistics efficiency through the technologies such as path planning, large data path optimization and the like is the inevitable development trend of the current technology; in addition, logistics company managers can not accurately monitor the working time and working efficiency of each logistics worker, and monitoring of managers on related personnel can be improved through big data analysis. In order to meet data required by functions of path planning, big data path optimization, real-time monitoring and the like, a method for uploading relevant data at a high speed needs to be provided.
Drawings
Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.
FIG. 2 is a flow diagram of a method according to an embodiment of the invention.
Detailed Description
The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.
Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.
Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention. As shown, the mobile terminal may be a vehicle-mounted mobile terminal, the mobile terminal may transmit a message to the base station, and the base station may transmit the message to the server.
FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:
step 101: collecting logistics information for big data analysis by a first mobile terminal; the logistics information can be state information of express delivery personnel, vehicle position information, destination information and the like;
step 102: establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of sending a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam; it will be appreciated by those skilled in the art that the first transmit beam and the second transmit beam have different beam directions and that the beam directions are changed based on beam forming techniques and antenna array techniques, and that the first sub-transmit beam has a narrower beam width than the first transmit beam and therefore a higher energy density in the transmit direction.
Step 103: transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
step 104: receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
step 105: in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
step 106: receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
step 107: in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
step 108: receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein; allocation (allocation) for the first PUSCH resource, i.e. assignment (assignment) for the first PUSCH resource;
step 109: in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
during a fourth time period, in response to transmitting a scheduling request to the base station, receiving, by the first mobile terminal, a first PDCCH message on a first CORESET transmitted by the base station using the first transmit beam, and receiving, by the first mobile terminal, a second PDCCH message on a second CORESET transmitted by the base station using the second transmit beam, wherein the first PDCCH message has an allocation of a first PUSCH resource therein, and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resource therein and the second DCI message has an allocation of the second PUSCH resource therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station can send messages to the first mobile terminal and the second mobile terminal by using a first transmission beam and a second transmission beam, wherein the first transmission beam comprises a first sub-transmission beam and a second sub-transmission beam, and the second transmission beam comprises a third sub-transmission beam and a fourth sub-transmission beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting the scheduling request to the base station during a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, the method for acquiring logistics information for big data analysis comprises the following steps:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET and a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the third DCI message has an allocation of a third PUSCH resource therein and the fourth DCI message has an allocation of a fourth PUSCH resource therein;
transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
in response to receiving the fourth DCI message, transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the base station.
The invention provides a system for acquiring logistics information for big data analysis, which is characterized by comprising the following steps:
a unit for collecting logistics information for big data analysis by a first mobile terminal;
means for establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of transmitting a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
means for transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by the first mobile terminal to the base station, logistics information for big data analysis on a first PUSCH resource in response to receiving the first PDCCH message and the second PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first PDCCH message has an allocation of the first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message and the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fourth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resources therein and the second DCI message has an allocation of the second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
the method comprises the steps of collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
means for establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station is capable of sending messages to the first mobile terminal and the second mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
means for transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting a scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on a first PUSCH resource to a base station in response to receiving a first PDCCH message;
means for receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second PDCCH message.
In a preferred embodiment, the system for acquiring logistics information for big data analysis comprises:
means for receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
means for transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station in response to receiving the second DCI message;
means for receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third time period, and receiving, by the second mobile terminal, a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET, wherein the third DCI message has an allocation for a third PUSCH resource therein and the fourth DCI message has an allocation for a fourth PUSCH resource therein;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
means for transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the base station in response to receiving the fourth DCI message.
The present invention provides a non-transitory computer-readable storage medium having stored therein processor-executable code, which when executed by a processor, is capable of causing the processor to:
collecting logistics information for big data analysis by a first mobile terminal;
establishing a communication connection with a base station by a first mobile terminal, wherein the base station is capable of sending a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of the first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
during a fourth time period, in response to transmitting a scheduling request to the base station, receiving, by the first mobile terminal, a first PDCCH message on a first CORESET transmitted by the base station using the first transmit beam, and receiving, by the first mobile terminal, a second PDCCH message on a second CORESET transmitted by the base station using the second transmit beam, wherein the first PDCCH message has an allocation of a first PUSCH resource therein, and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a sixth time period, wherein the first DCI message has an allocation of the first PUSCH resource therein and the second DCI message has an allocation of the second PUSCH resource therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in a seventh time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, in an eighth time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station can send messages to the first mobile terminal and the second mobile terminal by using a first transmission beam and a second transmission beam, wherein the first transmission beam comprises a first sub-transmission beam and a second sub-transmission beam, and the second transmission beam comprises a third sub-transmission beam and a fourth sub-transmission beam;
transmitting, by the first mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
transmitting, by the second mobile terminal, a scheduling request to the base station in response to establishing the communication connection with the base station;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET in response to transmitting the scheduling request to the base station during a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station;
receiving, by the second mobile terminal, a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
in response to receiving the second PDCCH message, transmitting, by the second mobile terminal, logistics information for big data analysis on a second PUSCH resource to the base station.
In a preferred embodiment, a non-transitory computer readable storage medium has stored therein processor executable code that, when executed by a processor, is capable of causing the processor to:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by the first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET and a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the third DCI message has an allocation of a third PUSCH resource therein and the fourth DCI message has an allocation of a fourth PUSCH resource therein;
transmitting, by the second mobile terminal, logistics information for big data analysis on a third PUSCH resource to the base station in response to receiving the third DCI message;
in response to receiving the fourth DCI message, transmitting, by the second mobile terminal, logistics information for big data analysis on a fourth PUSCH resource to the 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 (9)
1. A method for acquiring logistics information for big data analysis is characterized by comprising the following steps:
collecting logistics information for big data analysis by a first mobile terminal;
establishing, by a first mobile terminal, a communication connection with a base station, wherein the base station is capable of sending messages to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
transmitting, by a first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal to the base station on the first PUSCH resource, logistics information for big data analysis in response to receiving the first PDCCH message and the second PDCCH message;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by a first mobile terminal, logistics information for big data analysis to the base station on the first PUSCH resource.
2. The method for acquiring logistics information for big data analysis according to claim 1, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fourth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
transmitting, by the first mobile terminal to the base station on the second PUSCH resource, logistics information for big data analysis in response to receiving the second PDCCH message;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station during a fifth time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a second PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
in response to receiving the second PDCCH message, transmitting, by the first mobile terminal, logistics information for big data analysis to the base station on the second PUSCH resource.
3. The method for acquiring logistics information for big data analysis according to claim 2, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second transmit beam on the first CORESET in response to transmitting the scheduling request to the base station, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
4. The method for acquiring logistics information for big data analysis according to claim 3, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam and a second DCI message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a first CORESET and receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first transmit beam and a second DCI message transmitted by the base station using the second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
in response to receiving the second DCI message, transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station.
5. The method for acquiring logistics information for big data analysis according to claim 4, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
collecting logistics information for big data analysis by a first mobile terminal and a second mobile terminal;
establishing a communication connection with a base station by a first mobile terminal and a second mobile terminal, wherein the base station can send messages to the first mobile terminal and the second mobile terminal by using a first transmission beam and a second transmission beam, wherein the first transmission beam comprises a first sub-transmission beam and a second sub-transmission beam, and the second transmission beam comprises a third sub-transmission beam and a fourth sub-transmission beam;
transmitting, by a first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
transmitting, by a second mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
receiving, by a second mobile terminal, a second PDCCH message transmitted by a base station using a second transmit beam on a second CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
transmitting, by a second mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second PDCCH message.
6. The method for acquiring logistics information for big data analysis according to claim 5, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using a first sub-transmit beam on a first CORESET in response to transmitting a scheduling request to the base station during a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
receiving, by a second mobile terminal, a second PDCCH message transmitted by the base station using a second sub-transmit beam on a second CORESET in response to transmitting a scheduling request to the base station for a second time period, wherein the second PDCCH message has an allocation of a second PUSCH resource therein;
transmitting, by a second mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second PDCCH message.
7. The method for acquiring logistics information for big data analysis according to claim 6, wherein the method for acquiring logistics information for big data analysis comprises the steps of:
receiving, by the first mobile terminal, a first DCI message transmitted by the base station using the first sub-transmit beam on the first CORESET and a second DCI message transmitted by the base station using the second sub-transmit beam on the first CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first DCI message has an allocation of first PUSCH resources therein and the second DCI message has an allocation of second PUSCH resources therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first DCI message;
transmitting, by the first mobile terminal, logistics information for big data analysis on the second PUSCH resource to the base station in response to receiving the second DCI message;
receiving, by the second mobile terminal, a third DCI message transmitted by the base station using the third sub-transmit beam on a second CORESET and a fourth DCI message transmitted by the base station using a fourth sub-transmit beam on the second CORESET in response to transmitting the scheduling request to the base station in a third time period, wherein the third DCI message has an allocation of a third PUSCH resource therein and the fourth DCI message has an allocation of a fourth PUSCH resource therein;
transmitting, by a second mobile terminal, logistics information for big data analysis on the third PUSCH resource to the base station in response to receiving the third DCI message;
transmitting, by a second mobile terminal, logistics information for big data analysis on the fourth PUSCH resource to the base station in response to receiving the fourth DCI message.
8. A system for acquiring logistics information for big data analysis, the system for acquiring logistics information for big data analysis comprising:
a unit for collecting logistics information for big data analysis by a first mobile terminal;
means for establishing, by a first mobile terminal, a communication connection with a base station, wherein the base station is capable of transmitting a message to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
means for transmitting, by a first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
means for receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message and the second PDCCH message;
means for receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
means for transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message and the second PDCCH message.
9. A non-transitory computer-readable storage medium having stored therein processor-executable code that, when executed by a processor, is capable of causing the processor to:
collecting logistics information for big data analysis by a first mobile terminal;
establishing, by a first mobile terminal, a communication connection with a base station, wherein the base station is capable of sending messages to the first mobile terminal using a first transmit beam and a second transmit beam, wherein the first transmit beam comprises a first sub-transmit beam and a second sub-transmit beam, wherein the second transmit beam comprises a third sub-transmit beam and a fourth sub-transmit beam;
transmitting, by a first mobile terminal, a scheduling request to the base station in response to establishing a communication connection with the base station;
receiving, by a first mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam over a first CORESET in response to transmitting a scheduling request to the base station for a first period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal, logistics information for big data analysis on the first PUSCH resource to the base station in response to receiving the first PDCCH message;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first sub-transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using the second sub-transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a second time period, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
transmitting, by a first mobile terminal to the base station on the first PUSCH resource, logistics information for big data analysis in response to receiving the first PDCCH message and the second PDCCH message;
receiving, by the first mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam on a first CORESET and a second PDCCH message transmitted by the base station using a second transmit beam on a second CORESET in response to transmitting the scheduling request to the base station for a third period of time, wherein the first PDCCH message has an allocation of a first PUSCH resource therein and the second PDCCH message has an allocation of a first PUSCH resource therein;
in response to receiving the first PDCCH message and the second PDCCH message, transmitting, by a first mobile terminal, logistics information for big data analysis to the base station on the first PUSCH resource.
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