CN112887918A - Transmission method and system for preventive medicine public health strategy based on Internet of things - Google Patents
Transmission method and system for preventive medicine public health strategy based on Internet of things Download PDFInfo
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- CN112887918A CN112887918A CN202110084668.9A CN202110084668A CN112887918A CN 112887918 A CN112887918 A CN 112887918A CN 202110084668 A CN202110084668 A CN 202110084668A CN 112887918 A CN112887918 A CN 112887918A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/029—Location-based management or tracking services
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H70/00—ICT specially adapted for the handling or processing of medical references
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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
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
Abstract
The invention discloses a transmission method and a system of preventive medicine public health strategies based on the Internet of things, wherein the transmission method comprises the following steps: collecting, by a first mobile terminal, information for formulating a public health policy; establishing a communication connection with a base station by a first mobile terminal; receiving, by the first mobile terminal from the base station, a first core set configuration for the first mobile terminal in response to establishing the communication connection with the base station; monitoring, by the first mobile terminal, a first DCI sent by the base station to the first mobile terminal in the first CORESET resource in response to receiving the first CORESET configuration; monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at the first symbol in response to monitoring for the first DCI transmitted by the base station to the first mobile terminal in the first CORESET resource; in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
Description
Technical Field
The invention relates to the technical field of preventive medicine, in particular to a transmission method and a transmission system of preventive medicine public health strategies based on the Internet of things.
Background
Preventive medicine is differentiated from a medical science system, and is a science for researching and preventing and eliminating diseases, studying sanitation, strengthening physique, improving and creating production environment and living conditions which are beneficial to health.
Prior art CN108446839A discloses a rating scale for preventive medical professional public health PBL courses. Firstly, performing literature analysis and expert interview; determining an item pool; generating an initial scale; and performing field evaluation on the initial scale, wherein the field evaluation comprises item analysis, reliability analysis and exploratory factor analysis to obtain a final scale.
The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.
Disclosure of Invention
The invention aims to provide a transmission method and a transmission system of preventive medicine public health strategies based on the Internet of things, which can overcome the defects of the prior art.
In order to achieve the purpose, the invention provides a transmission method of preventive medicine public health strategies based on the Internet of things, which comprises the following steps:
collecting, by a first mobile terminal, information for formulating a public health policy;
establishing a communication connection with a base station by a first mobile terminal;
receiving, by the first mobile terminal, a first CORESET configuration for the first mobile terminal from the base station in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources include a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
in response to receiving the first CORESET configuration, monitoring, by the first mobile terminal, first DCI transmitted by the base station to the first mobile terminal in first CORESET resources, wherein in the frequency domain, the first DCI occupies a first subset of a first set of subcarriers, and in the time domain, the first DCI occupies a first set of symbols, wherein in the first CORESET resources, the base station further transmits second DCI to the second mobile terminal, wherein in the frequency domain, the second DCI occupies a second subset of the first set of subcarriers, and in the time domain, the second DCI occupies a subset of the first set of symbols, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers;
in response to monitoring a first DCI transmitted by a base station to a first mobile terminal in a first CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a first symbol set, wherein the downlink data occupies a second subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps with the second subcarrier set, wherein an information upload command is included in the downlink data;
in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps:
receiving, by the first mobile terminal, a second CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources include the first set of subcarriers in the frequency domain and the first set of symbols in the time domain;
in response to receiving the second CORESET configuration, monitoring, by the first mobile terminal, third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, wherein the third DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the third DCI occupies the first set of symbols in the time domain, wherein the base station further transmits second DCI to the second mobile terminal in the second CORESET resource, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers, and wherein the third DCI indicates a time-frequency position of the second DCI to the first mobile terminal;
in response to monitoring third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at the first symbol, wherein the first symbol is a first symbol of the first set of symbols, wherein the resource for transmitting the downlink data comprises a second set of symbols comprising a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion does not overlap with the first combination of symbols, wherein in the first portion the set of subcarriers used for transmitting the downlink data does not overlap with the first subset of the first set of subcarriers and the set of subcarriers of the downlink data does not overlap with the second subset of the first set of subcarriers, wherein in the frequency domain the second portion occupies the second set of subcarriers, wherein the first set of subcarriers partially overlaps with the second set of subcarriers, wherein, the downlink data comprises an information uploading command;
in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps:
receiving, by the first mobile terminal, a third CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources include the first set of subcarriers in the frequency domain and the first set of symbols in the time domain;
transmitting, by the base station, a fourth CORESET configuration to the second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers does not overlap the second set of subcarriers, and wherein the number of symbols included in the first set of symbols is less than the number of symbols included in the second set of symbols;
monitoring, by the first mobile terminal, fourth DCI sent by the base station to the first mobile terminal in a third CORESET resource in response to receiving the third CORESET configuration, wherein the fourth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fourth DCI occupies the first set of symbols in the time domain, wherein the base station sends the second DCI to the second mobile terminal in the fourth CORESET resource;
in response to monitoring a fourth DCI transmitted by the base station to the first mobile terminal in the third CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a second symbol set, wherein the downlink data occupies the second subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps with the second subcarrier set, wherein the downlink data includes an information upload command;
in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps:
receiving, by the first mobile terminal, a fifth CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise the first set of subcarriers in the frequency domain and the fifth CORESET resources comprise the first set of symbols in the time domain;
transmitting, by the base station, a sixth CORESET configuration to the second mobile terminal, wherein the sixth CORESET configuration indicates a sixth CORESET resource to the second mobile terminal, wherein the sixth CORESET resource includes a second set of subcarriers in a frequency domain, and the sixth CORESET resource includes a second set of symbols in a time domain, and wherein the first set of subcarriers does not overlap with the second set of subcarriers;
monitoring, by the first mobile terminal, fifth DCI sent by the base station to the first mobile terminal in a fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fifth DCI occupies the first set of symbols in the time domain, wherein the base station sends second DCI to the second mobile terminal in a sixth CORESET resource;
in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, monitoring, by the first mobile terminal, a first portion of downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a first set of symbols, wherein the first portion of the downlink data occupies a third set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the third set of subcarriers, wherein the downlink data includes an information upload command.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps:
monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the second symbol is a first symbol of a first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in the frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap;
monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station starting at a third symbol in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the third symbol is a first symbol after a second set of symbols, wherein the third portion of downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps the fifth set of subcarriers;
in response to receiving the first portion, the second portion, and the third portion of the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
The invention also provides a transmission system of preventive medicine public health strategies based on the Internet of things, which comprises the following components:
means for collecting, by a first mobile terminal, information for instituting a public health policy;
means for establishing a communication connection with a base station by a first mobile terminal;
means for receiving, by the first mobile terminal from the base station, a first CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for monitoring, by the first mobile terminal, first DCI transmitted by the base station to the first mobile terminal in first CORESET resources in response to receiving the first CORESET configuration, wherein the first DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the first DCI occupies a first set of symbols in a time domain, wherein the base station further transmits second DCI to the second mobile terminal in the first CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers;
means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring for first DCI transmitted by the base station to the first mobile terminal in the first CORESET resource, wherein the first symbol is the first symbol after the end of the first set of symbols, wherein the downlink data occupies a second set of subcarriers in the frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein the downlink data includes an information upload command;
means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises:
means for receiving, by the first mobile terminal from the base station, a second CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for monitoring, by the first mobile terminal, third DCI transmitted by the base station to the first mobile terminal in second CORESET resources in response to receiving the second CORESET configuration, wherein the third DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the third DCI occupies a first set of symbols in the time domain, wherein the base station further transmits second DCI to the second mobile terminal in the second CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and wherein the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers, and wherein the third DCI indicates a time-frequency location of the second DCI to the first mobile terminal;
means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring third DCI transmitted by the base station to the first mobile terminal in a second CORESET resource, wherein the first symbol is a first symbol of a first set of symbols, wherein the resources for transmitting the downlink data include a second set of symbols including a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion does not overlap with the first combination of symbols, wherein, in the first portion, the set of subcarriers used for transmitting the downlink data does not overlap with a first subset of the first set of subcarriers and the set of subcarriers of the downlink data does not overlap with a second subset of the first set of subcarriers, wherein, in the frequency domain, the second portion occupies the second set of subcarriers, wherein, the first subcarrier set and the second subcarrier set are partially overlapped, wherein downlink data comprises an information uploading command;
means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises:
means for receiving, by the first mobile terminal from the base station, a third CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for transmitting, by the base station, a fourth CORESET configuration to the second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers does not overlap the second set of subcarriers, and wherein a number of symbols included in the first set of symbols is less than a number of symbols included in the second set of symbols;
means for monitoring, by the first mobile terminal, fourth DCI sent by the base station to the first mobile terminal in a third CORESET resource in response to receiving the third CORESET configuration, wherein the fourth DCI occupies a first subset of the first set of subcarriers in the frequency domain and the fourth DCI occupies the first set of symbols in the time domain, wherein the base station sends the second DCI to the second mobile terminal in the fourth CORESET resource;
means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring fourth DCI transmitted by the base station to the first mobile terminal in a third CORESET resource, wherein the first symbol is a first symbol after an end of a second set of symbols, wherein the downlink data occupies the second set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein the downlink data includes an information upload command;
means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises:
means for receiving, by the first mobile terminal from the base station, a fifth CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for transmitting, by the base station, a sixth CORESET configuration to the second mobile terminal, wherein the sixth CORESET configuration indicates a sixth CORESET resource to the second mobile terminal, wherein the sixth CORESET resource includes a second set of subcarriers in the frequency domain, and the sixth CORESET resource includes a second set of symbols in the time domain, and wherein the first set of subcarriers does not overlap with the second set of subcarriers;
means for monitoring, by the first mobile terminal, a fifth DCI sent by the base station to the first mobile terminal in a fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fifth DCI occupies the first set of symbols in the time domain, and wherein the base station sends a second DCI to the second mobile terminal in a sixth CORESET resource;
means for monitoring, by the first mobile terminal, a first portion of downlink data transmitted by the base station beginning at a first symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the first symbol is the first symbol after the end of the first set of symbols, wherein the first portion of the downlink data occupies a third set of subcarriers in the frequency domain, wherein the first set of subcarriers partially overlaps the third set of subcarriers, wherein the downlink data includes an information upload command.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises:
means for monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the second symbol is a first symbol of a first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in the frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap;
means for monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station beginning at a third symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the third symbol is the first symbol after a second set of symbols, wherein the third portion of downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps with the fifth set of subcarriers;
means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
Compared with the prior art, the invention has the following advantages: generally, prevention and control of diseases require support of a large amount of real-time data, how fast the movement trajectory of a patient is grasped determines the quality of the disease prevention effect, and the faster the movement trajectory of the patient is grasped, the more effective the prevention of spread of diseases can be achieved. In order to effectively monitor the action track of the patient, the action track needs to be realized by means of the characteristics of mobility of a wireless terminal and wireless communication, and aiming at the requirements of the prior art, the transmission method and the transmission system for the preventive medicine public health strategy based on the Internet of things are provided.
Drawings
Fig. 1 is a schematic structural diagram of a transmission system for preventive medicine public health policy based on internet of things according to an embodiment of the present invention.
Fig. 2 is a flowchart of a transmission method of preventive medicine public health policy based on internet of things according to an embodiment of the present invention.
Detailed Description
The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.
Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.
Example 1:
fig. 1 is a schematic structural diagram of a transmission system for preventive medicine public health policy based on internet of things according to an embodiment of the present invention.
Fig. 2 is a flowchart of a transmission method of preventive medicine public health policy based on internet of things according to an embodiment of the present invention. As shown in the figure, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps:
step 101: collecting, by a first mobile terminal, information for formulating a public health policy;
step 102: establishing a communication connection with a base station by a first mobile terminal;
step 103: receiving, by the first mobile terminal, a first CORESET configuration for the first mobile terminal from the base station in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources include a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
step 104: in response to receiving the first CORESET configuration, monitoring, by the first mobile terminal, first DCI transmitted by the base station to the first mobile terminal in first CORESET resources, wherein in the frequency domain, the first DCI occupies a first subset of a first set of subcarriers, and in the time domain, the first DCI occupies a first set of symbols, wherein in the first CORESET resources, the base station further transmits second DCI to the second mobile terminal, wherein in the frequency domain, the second DCI occupies a second subset of the first set of subcarriers, and in the time domain, the second DCI occupies a subset of the first set of symbols, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers;
step 105: in response to monitoring a first DCI transmitted by a base station to a first mobile terminal in a first CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a first symbol set, wherein the downlink data occupies a second subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps with the second subcarrier set, wherein an information upload command is included in the downlink data;
step 106: in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps: receiving, by the first mobile terminal, a second CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources include the first set of subcarriers in the frequency domain and the first set of symbols in the time domain; in response to receiving the second CORESET configuration, monitoring, by the first mobile terminal, third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, wherein the third DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the third DCI occupies the first set of symbols in the time domain, wherein the base station further transmits second DCI to the second mobile terminal in the second CORESET resource, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers, and wherein the third DCI indicates a time-frequency position of the second DCI to the first mobile terminal; in response to monitoring third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at the first symbol, wherein the first symbol is a first symbol of the first set of symbols, wherein the resource for transmitting the downlink data comprises a second set of symbols comprising a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion does not overlap with the first combination of symbols, wherein in the first portion the set of subcarriers used for transmitting the downlink data does not overlap with the first subset of the first set of subcarriers and the set of subcarriers of the downlink data does not overlap with the second subset of the first set of subcarriers, wherein in the frequency domain the second portion occupies the second set of subcarriers, wherein the first set of subcarriers partially overlaps with the second set of subcarriers, wherein, the downlink data comprises an information uploading command; in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station. As will be understood by those skilled in the art from the description of fig. 1 herein, the base station, after receiving the information for instituting a public health policy, will also transmit the information for instituting a public health policy to a preventive medicine public health center.
Example 2:
in a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps: receiving, by the first mobile terminal, a third CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources include the first set of subcarriers in the frequency domain and the first set of symbols in the time domain; transmitting, by the base station, a fourth CORESET configuration to the second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers does not overlap the second set of subcarriers, and wherein the number of symbols included in the first set of symbols is less than the number of symbols included in the second set of symbols; monitoring, by the first mobile terminal, fourth DCI sent by the base station to the first mobile terminal in a third CORESET resource in response to receiving the third CORESET configuration, wherein the fourth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fourth DCI occupies the first set of symbols in the time domain, wherein the base station sends the second DCI to the second mobile terminal in the fourth CORESET resource; in response to monitoring a fourth DCI transmitted by the base station to the first mobile terminal in the third CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a second symbol set, wherein the downlink data occupies the second subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps with the second subcarrier set, wherein the downlink data includes an information upload command; in response to receiving the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps: receiving, by the first mobile terminal, a fifth CORESET configuration for the first mobile terminal from the base station in response to establishing the communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise the first set of subcarriers in the frequency domain and the fifth CORESET resources comprise the first set of symbols in the time domain; transmitting, by the base station, a sixth CORESET configuration to the second mobile terminal, wherein the sixth CORESET configuration indicates a sixth CORESET resource to the second mobile terminal, wherein the sixth CORESET resource includes a second set of subcarriers in a frequency domain, and the sixth CORESET resource includes a second set of symbols in a time domain, and wherein the first set of subcarriers does not overlap with the second set of subcarriers; monitoring, by the first mobile terminal, fifth DCI sent by the base station to the first mobile terminal in a fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fifth DCI occupies the first set of symbols in the time domain, wherein the base station sends second DCI to the second mobile terminal in a sixth CORESET resource; in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, monitoring, by the first mobile terminal, a first portion of downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol after an end of a first set of symbols, wherein the first portion of the downlink data occupies a third set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the third set of subcarriers, wherein the downlink data includes an information upload command.
In a preferred embodiment, the transmission method of the preventive medicine public health policy based on the internet of things comprises the following steps: monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the second symbol is a first symbol of a first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in the frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap; monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station starting at a third symbol in response to monitoring a fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the third symbol is a first symbol after a second set of symbols, wherein the third portion of downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps the fifth set of subcarriers; in response to receiving the first portion, the second portion, and the third portion of the downlink data, information for formulating a public health policy is transmitted by the first mobile terminal to the base station.
Example 3:
the invention provides a transmission system of preventive medicine public health strategies based on the Internet of things, which comprises the following components: means for collecting, by a first mobile terminal, information for instituting a public health policy; means for establishing a communication connection with a base station by a first mobile terminal; means for receiving, by the first mobile terminal from the base station, a first CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain; means for monitoring, by the first mobile terminal, first DCI transmitted by the base station to the first mobile terminal in first CORESET resources in response to receiving the first CORESET configuration, wherein the first DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the first DCI occupies a first set of symbols in a time domain, wherein the base station further transmits second DCI to the second mobile terminal in the first CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers; means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring for first DCI transmitted by the base station to the first mobile terminal in the first CORESET resource, wherein the first symbol is the first symbol after the end of the first set of symbols, wherein the downlink data occupies a second set of subcarriers in the frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein the downlink data includes an information upload command; means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises: means for receiving, by the first mobile terminal from the base station, a second CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain; means for monitoring, by the first mobile terminal, third DCI transmitted by the base station to the first mobile terminal in second CORESET resources in response to receiving the second CORESET configuration, wherein the third DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the third DCI occupies a first set of symbols in the time domain, wherein the base station further transmits second DCI to the second mobile terminal in the second CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and wherein the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap the second subset of the first set of subcarriers, and wherein the third DCI indicates a time-frequency location of the second DCI to the first mobile terminal; means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring third DCI transmitted by the base station to the first mobile terminal in a second CORESET resource, wherein the first symbol is a first symbol of a first set of symbols, wherein the resources for transmitting the downlink data include a second set of symbols including a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion does not overlap with the first combination of symbols, wherein, in the first portion, the set of subcarriers used for transmitting the downlink data does not overlap with a first subset of the first set of subcarriers and the set of subcarriers of the downlink data does not overlap with a second subset of the first set of subcarriers, wherein, in the frequency domain, the second portion occupies the second set of subcarriers, wherein, the first subcarrier set and the second subcarrier set are partially overlapped, wherein downlink data comprises an information uploading command; means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
Example 4:
in a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises: means for receiving, by the first mobile terminal from the base station, a third CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain; means for transmitting, by the base station, a fourth CORESET configuration to the second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers does not overlap the second set of subcarriers, and wherein a number of symbols included in the first set of symbols is less than a number of symbols included in the second set of symbols; means for monitoring, by the first mobile terminal, fourth DCI sent by the base station to the first mobile terminal in a third CORESET resource in response to receiving the third CORESET configuration, wherein the fourth DCI occupies a first subset of the first set of subcarriers in the frequency domain and the fourth DCI occupies the first set of symbols in the time domain, wherein the base station sends the second DCI to the second mobile terminal in the fourth CORESET resource; means for monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring fourth DCI transmitted by the base station to the first mobile terminal in a third CORESET resource, wherein the first symbol is a first symbol after an end of a second set of symbols, wherein the downlink data occupies the second set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein the downlink data includes an information upload command; means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises: means for receiving, by the first mobile terminal from the base station, a fifth CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain; means for transmitting, by the base station, a sixth CORESET configuration to the second mobile terminal, wherein the sixth CORESET configuration indicates a sixth CORESET resource to the second mobile terminal, wherein the sixth CORESET resource includes a second set of subcarriers in the frequency domain, and the sixth CORESET resource includes a second set of symbols in the time domain, and wherein the first set of subcarriers does not overlap with the second set of subcarriers; means for monitoring, by the first mobile terminal, a fifth DCI sent by the base station to the first mobile terminal in a fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of the first set of subcarriers in the frequency domain, and the fifth DCI occupies the first set of symbols in the time domain, and wherein the base station sends a second DCI to the second mobile terminal in a sixth CORESET resource; means for monitoring, by the first mobile terminal, a first portion of downlink data transmitted by the base station beginning at a first symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the first symbol is the first symbol after the end of the first set of symbols, wherein the first portion of the downlink data occupies a third set of subcarriers in the frequency domain, wherein the first set of subcarriers partially overlaps the third set of subcarriers, wherein the downlink data includes an information upload command.
In a preferred embodiment, the internet of things-based preventive medicine public health policy transmission system comprises: means for monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the second symbol is a first symbol of a first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in the frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap; means for monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station beginning at a third symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in a fifth CORESET resource, wherein the third symbol is the first symbol after a second set of symbols, wherein the third portion of downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps with the fifth set of subcarriers; means for transmitting, by the first mobile terminal to the base station, information for formulating a public health policy in response to receiving the downlink data.
As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.
Claims (10)
1. The transmission method of the preventive medicine public health strategy based on the Internet of things is characterized by comprising the following steps of:
collecting, by a first mobile terminal, information for formulating a public health policy;
establishing a communication connection with a base station by a first mobile terminal;
receiving, by a first mobile terminal, a first CORESET configuration for the first mobile terminal from the base station in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
in response to receiving the first CORESET configuration, monitoring, by a first mobile terminal, first DCI sent by a base station to the first mobile terminal in the first CORESET resource, wherein the first DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the first DCI occupies a first set of symbols in a time domain, wherein the base station further sends second DCI to the second mobile terminal in the first CORESET resource, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers;
monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring a first DCI transmitted by the base station to the first mobile terminal in the first CORESET resource, wherein the first symbol is a first symbol after an end of the first symbol set, wherein the downlink data occupies a second subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps with the second subcarrier set, and wherein an information upload command is included in the downlink data;
transmitting, by the first mobile terminal to the base station, the information for formulating the public health policy in response to receiving the downlink data.
2. The internet of things-based preventive medicine public health policy transmission method according to claim 1, comprising the steps of:
receiving, by a first mobile terminal, a second CORESET configuration for the first mobile terminal from the base station in response to establishing a communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
in response to receiving the second CORESET configuration, monitoring, by the first mobile terminal, third DCI sent by the base station to the first mobile terminal in the second CORESET resource, wherein the third DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the third DCI occupies a first set of symbols in a time domain, wherein the base station further sends second DCI to the second mobile terminal in the second CORESET resource, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and wherein the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers, and wherein the third time-frequency DCI indicates a location of the second DCI to the first mobile terminal;
in response to monitoring third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol, wherein the first symbol is a first symbol of the first set of symbols, wherein the resource for transmitting the downlink data comprises a second set of symbols comprising a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion is non-overlapping with the first symbol combination, wherein in the first portion, the set of subcarriers used for transmitting the downlink data does not overlap with a first subset of the first set of subcarriers and the set of subcarriers of the downlink data does not overlap with a second subset of the first set of subcarriers, wherein, in the frequency domain, the second part occupies a second set of subcarriers, wherein the first set of subcarriers partially overlaps with the second set of subcarriers, and wherein the downlink data comprises an information upload command;
transmitting, by the first mobile terminal to the base station, the information for formulating the public health policy in response to receiving the downlink data.
3. The internet of things-based preventive medicine public health policy transmission method according to claim 2, comprising the steps of:
receiving, by a first mobile terminal, a third CORESET configuration for the first mobile terminal from the base station in response to establishing a communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
transmitting, by a base station, a fourth CORESET configuration to a second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers and the second set of subcarriers do not overlap, and a number of symbols included in the first set of symbols is less than a number of symbols included in the second set of symbols;
in response to receiving the third CORESET configuration, monitoring, by the first mobile terminal, fourth DCI sent by the base station to the first mobile terminal in the third CORESET resource, wherein the fourth DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the fourth DCI occupies a first set of symbols in a time domain, wherein the base station sends second DCI to the second mobile terminal in the fourth CORESET resource;
monitoring, by the first mobile terminal, downlink data transmitted by the base station starting at a first symbol in response to monitoring a fourth DCI transmitted by the base station to the first mobile terminal in the third CORESET resource, wherein the first symbol is a first symbol after an end of the second set of symbols, wherein the downlink data occupies a second set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps with the second set of subcarriers, wherein an information upload command is included in the downlink data;
transmitting, by the first mobile terminal to the base station, the information for formulating the public health policy in response to receiving the downlink data.
4. The internet of things-based preventive medicine public health policy transmission method according to claim 3, comprising the steps of:
receiving, by a first mobile terminal from the base station, a fifth CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
transmitting, by a base station, a sixth CORESET configuration to a second mobile terminal, wherein the sixth CORESET configuration indicates sixth CORESET resources to the second mobile terminal, wherein the sixth CORESET resources comprise a second set of subcarriers in a frequency domain, and the sixth CORESET resources comprise a second set of symbols in a time domain, wherein the first set of subcarriers and the second set of subcarriers do not overlap;
monitoring, by a first mobile terminal, fifth DCI sent by a base station to the first mobile terminal in a fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the fifth DCI occupies a first set of symbols in a time domain, and wherein the base station sends second DCI to the second mobile terminal in the sixth CORESET resource;
in response to monitoring a fifth DCI sent by the base station to the first mobile terminal in the fifth CORESET resource, the first mobile terminal monitors a first portion of downlink data sent by the base station starting at a first symbol, wherein the first symbol is a first symbol after the end of the first symbol set, wherein the first portion of the downlink data occupies a third subcarrier set in a frequency domain, wherein the first subcarrier set partially overlaps the third subcarrier set, and wherein an information upload command is included in the downlink data.
5. The internet of things-based preventive medicine public health policy transmission method according to claim 4, comprising the steps of:
monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in the fifth CORESET resource, wherein the second symbol is a first symbol of the first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in a frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap;
monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station starting at a third symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in the fifth CORESET resource, wherein the third symbol is a first symbol after the second set of symbols, wherein the third portion of the downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps the fifth set of subcarriers;
transmitting, by the first mobile terminal to the base station, the information for formulating a public health policy in response to receiving the first, second, and third portions of the downlink data.
6. An internet of things-based transmission system of preventive medicine public health policies, comprising:
means for collecting, by a first mobile terminal, information for instituting a public health policy;
means for establishing a communication connection with a base station by a first mobile terminal;
means for receiving, by a first mobile terminal from the base station, a first CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the first CORESET configuration indicates first CORESET resources to the first mobile terminal, wherein the first CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for monitoring, by a first mobile terminal, first DCI transmitted by a base station to the first mobile terminal in the first CORESET resources in response to receiving the first CORESET configuration, wherein the first DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the first DCI occupies a first set of symbols in a time domain, wherein the base station further transmits second DCI to the second mobile terminal in the first CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers;
means for monitoring, by a first mobile terminal, downlink data transmitted by a base station starting at a first symbol in response to monitoring first DCI transmitted by the base station to the first mobile terminal in the first CORESET resources, wherein the first symbol is a first symbol after an end of the first set of symbols, wherein the downlink data occupies a second set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein an information upload command is included in the downlink data;
means for transmitting, by a first mobile terminal to the base station, the information for formulating a public health policy in response to receiving the downlink data.
7. The internet of things-based preventive medicine public health policy transmission system according to claim 6, comprising:
means for receiving, by a first mobile terminal from the base station, a second CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the second CORESET configuration indicates second CORESET resources to the first mobile terminal, wherein the second CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for monitoring, by a first mobile terminal, third DCI sent by a base station to the first mobile terminal in the second CORESET resources in response to receiving the second CORESET configuration, wherein the third DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the third DCI occupies a first set of symbols in a time domain, wherein the base station further sends second DCI to the second mobile terminal in the second CORESET resources, wherein the second DCI occupies a second subset of the first set of subcarriers in the frequency domain, and wherein the second DCI occupies a subset of the first set of symbols in the time domain, wherein the first subset of the first set of subcarriers does not overlap with the second subset of the first set of subcarriers, and wherein the third DCI indicates a time-frequency location of the second DCI to the first mobile terminal;
means for monitoring, by a first mobile terminal, downlink data transmitted by a base station starting at a first symbol in response to monitoring third DCI transmitted by the base station to the first mobile terminal in the second CORESET resource, wherein the first symbol is a first symbol of the first set of symbols, wherein a resource for transmitting downlink data includes a second set of symbols comprising a first portion and a second portion, wherein the first portion overlaps with the first set of symbols and the second portion is non-overlapping with the first symbol combination, wherein in the first portion, a set of subcarriers used for transmitting the downlink data does not overlap with a first subset of the first set of subcarriers and a set of subcarriers of the downlink data does not overlap with a second subset of the first set of subcarriers, wherein, in the frequency domain, the second part occupies a second set of subcarriers, wherein the first set of subcarriers partially overlaps with the second set of subcarriers, and wherein the downlink data comprises an information upload command;
means for transmitting, by a first mobile terminal to the base station, the information for formulating a public health policy in response to receiving the downlink data.
8. The internet of things-based preventive medicine public health policy transmission system according to claim 7, comprising:
means for receiving, by a first mobile terminal from the base station, a third CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the third CORESET configuration indicates third CORESET resources to the first mobile terminal, wherein the third CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for transmitting, by a base station, a fourth CORESET configuration to a second mobile terminal, wherein the fourth CORESET configuration indicates fourth CORESET resources to the second mobile terminal, wherein the fourth CORESET resources include a second set of subcarriers in a frequency domain, and the fourth CORESET resources include a second set of symbols in a time domain, wherein the first set of subcarriers does not overlap with the second set of subcarriers, and wherein the number of symbols included in the first set of symbols is less than the number of symbols included in the second set of symbols;
means for monitoring, by a first mobile terminal, fourth DCI sent by a base station to the first mobile terminal in the third CORESET resources in response to receiving the third CORESET configuration, wherein the fourth DCI occupies a first subset of a first set of subcarriers in a frequency domain and the fourth DCI occupies a first set of symbols in a time domain, wherein the base station sends second DCI to the second mobile terminal in the fourth CORESET resources;
means for monitoring, by a first mobile terminal, downlink data transmitted by a base station starting at a first symbol in response to monitoring fourth DCI transmitted by the base station to the first mobile terminal in the third CORESET resource, wherein the first symbol is a first symbol after an end of the second set of symbols, wherein the downlink data occupies a second set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the second set of subcarriers, wherein an information upload command is included in the downlink data;
means for transmitting, by a first mobile terminal to the base station, the information for formulating a public health policy in response to receiving the downlink data.
9. The internet of things-based preventive medicine public health policy transmission system according to claim 8, comprising:
means for receiving, by a first mobile terminal from the base station, a fifth CORESET configuration for the first mobile terminal in response to establishing a communication connection with the base station, wherein the fifth CORESET configuration indicates fifth CORESET resources to the first mobile terminal, wherein the fifth CORESET resources comprise a first set of subcarriers in a frequency domain and a first set of symbols in a time domain;
means for transmitting, by a base station, a sixth CORESET configuration to a second mobile terminal, wherein the sixth CORESET configuration indicates sixth CORESET resources to the second mobile terminal, wherein the sixth CORESET resources include a second set of subcarriers in a frequency domain, and the sixth CORESET resources include a second set of symbols in a time domain, and wherein the first set of subcarriers and the second set of subcarriers do not overlap;
means for monitoring, by a first mobile terminal, fifth DCI sent by a base station to the first mobile terminal in the fifth CORESET resource in response to receiving the fifth CORESET configuration, wherein the fifth DCI occupies a first subset of a first set of subcarriers in a frequency domain, and the fifth DCI occupies a first set of symbols in a time domain, and wherein the base station sends second DCI to the second mobile terminal in the sixth CORESET resource;
means for monitoring, by the first mobile terminal, a first portion of downlink data transmitted by the base station starting at a first symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in the fifth CORESET resource, wherein the first symbol is the first symbol after the end of the first set of symbols, wherein the first portion of the downlink data occupies a third set of subcarriers in a frequency domain, wherein the first set of subcarriers partially overlaps the third set of subcarriers, and wherein the downlink data includes an information upload command.
10. The internet of things-based preventive medicine public health policy transmission system according to claim 9, comprising:
means for monitoring, by the first mobile terminal, a second portion of downlink data transmitted by the base station starting at a second symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in the fifth CORESET resource, wherein the second symbol is a first symbol of the first set of symbols, wherein the second portion of the downlink data occupies a fourth set of subcarriers in a frequency domain, wherein the first set of subcarriers and the fourth set of subcarriers do not overlap;
means for monitoring, by the first mobile terminal, a third portion of downlink data transmitted by the base station starting at a third symbol in response to monitoring fifth DCI transmitted by the base station to the first mobile terminal in the fifth CORESET resource, wherein the third symbol is a first symbol after the second set of symbols, wherein the third portion of the downlink data occupies a fifth set of subcarriers in the frequency domain, wherein the second set of subcarriers partially overlaps with the fifth set of subcarriers;
means for transmitting, by a first mobile terminal to the base station, the information for formulating a public health policy in response to receiving the downlink data.
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