CN112423332A - Newborn information acquisition method and system based on block chain system - Google Patents
Newborn information acquisition method and system based on block chain system Download PDFInfo
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- CN112423332A CN112423332A CN202011287036.4A CN202011287036A CN112423332A CN 112423332 A CN112423332 A CN 112423332A CN 202011287036 A CN202011287036 A CN 202011287036A CN 112423332 A CN112423332 A CN 112423332A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/08—Testing, supervising or monitoring using real traffic
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/60—Protecting data
- G06F21/62—Protecting access to data via a platform, e.g. using keys or access control rules
- G06F21/6218—Protecting access to data via a platform, e.g. using keys or access control rules to a system of files or objects, e.g. local or distributed file system or database
- G06F21/6245—Protecting personal data, e.g. for financial or medical purposes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/60—Protecting data
- G06F21/64—Protecting data integrity, e.g. using checksums, certificates or signatures
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0002—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission rate
- H04L1/0003—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission rate by switching between different modulation schemes
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- H—ELECTRICITY
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- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- 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
- H04W72/20—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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Abstract
The invention discloses a newborn information acquisition method based on a block chain system, which comprises the following steps: receiving, by a mobile terminal, neonate information; establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonate information; monitoring, by the mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by the base station in response to establishing a communication connection with the base station; determining, by the mobile terminal, a first signal strength of the first CSI-RS signal and a second signal strength of the second CSI-RS signal in response to monitoring the first CSI-RS signal and the second CSI-RS signal transmitted by the base station; determining, by the mobile terminal, whether the first signal strength is greater than the second signal strength in response to determining the first signal strength of the first CSI-RS signal and the second signal strength of the second CSI-RS signal; and if the first signal strength is larger than the second signal strength, sending an indication of the first CSI-RS signal to the base station by the mobile terminal, and simultaneously sending a first sounding reference signal to the base station by the mobile terminal by using a transmission beam of the first mobile terminal.
Description
Technical Field
The present invention relates to the field of intelligent medical technology, and more particularly, to a method and system for acquiring information of a newborn baby based on a block chain system.
Background
The newborn information includes the name of the newborn, the home address, the name of the parent, the contact information, and so on, and the newborn information is important information for the hospital to contact the parent.
The prior art CN111223541A discloses a method, an apparatus and a terminal device for matching newborn information, the method includes: acquiring first record information of a first neonate and second record information of a second neonate; respectively calculating identity contact ratio, name contact ratio and birth information contact ratio of the first neonate and the second neonate according to the first record information and the second record information; and obtaining a matching result of the first record information and the second record information based on the identity contact ratio, the name contact ratio, the birth information contact ratio and a preset threshold value.
The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.
Disclosure of Invention
The invention aims to provide a method and a system for acquiring newborn information based on a block chain system, which can overcome the defects of the prior art.
In order to achieve the above object, the present invention provides a method for acquiring newborn baby information based on blockchain system, which is characterized in that the method for acquiring newborn baby information based on blockchain system comprises the following steps:
receiving, by a mobile terminal, neonate information;
establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonate information;
monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first RB set in a frequency domain and a first symbol set in a time domain, wherein the second CSI-RS resource occupies a second RB set in the frequency domain and the first symbol set in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
determining, by the mobile terminal, a first signal strength of the first CSI-RS signal and a second signal strength of the second CSI-RS signal in response to monitoring the first CSI-RS signal and the second CSI-RS signal transmitted by the base station;
determining, by the mobile terminal, whether the first signal strength is greater than the second signal strength in response to determining the first signal strength of the first CSI-RS signal and the second signal strength of the second CSI-RS signal;
if the first signal strength is judged to be greater than the second signal strength, sending, by the mobile terminal, an indication of the first CSI-RS signal to the base station, simultaneously sending, by the mobile terminal, a first sounding reference signal to the base station using a transmission beam of the first mobile terminal, and sending, by the mobile terminal, a second sounding reference signal to the base station using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, wherein the second sounding reference signal is sent on a second sounding reference signal resource, and wherein the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed;
and if the first signal strength is judged to be smaller than the second signal strength, sending an indication of a second CSI-RS signal to the base station by the mobile terminal, simultaneously sending a first sounding reference signal to the base station by the mobile terminal by using a transmission beam of the first mobile terminal, and sending a second sounding reference signal to the base station by the mobile terminal by using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, the second sounding reference signal is sent on a second sounding reference signal resource, and the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by the base station, whether the first sounding reference signal strength is greater than the second sounding reference signal strength in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the first MCS, sending, by the base station to the mobile terminal, a first MCS indication and an indication of a transmit beam for the first mobile terminal using the first transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam in response to receiving the first MCS and an indication of the transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has the same direction as the transmit beam of the first mobile terminal;
in response to determining the second MCS, sending, by the base station, a second MCS indication and an indication of a transmit beam for the second mobile terminal to the mobile terminal using the first transmit beam;
in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal, receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by the base station, whether the first sounding reference signal strength is greater than the second sounding reference signal strength in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the third MCS, sending, by the base station, a third MCS indication and an indication of the transmit beam for the first mobile terminal to the mobile terminal using the second transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam of the first mobile terminal in response to receiving the third MCS and the indication of the transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has the same direction as the transmit beam of the first mobile terminal;
in response to determining the fourth MCS, sending, by the base station, a fourth MCS indication and an indication of a transmit beam for the second mobile terminal to the mobile terminal using the second transmit beam;
in response to receiving the fourth MCS and the indication of the transmit beam for the first mobile terminal, receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam for a second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the first MCS and the transmit beam of the first mobile terminal at a second symbol set of the first slot in response to receiving, using the receive beam of the first mobile terminal, the first PDCCH message and the first MCS indication transmitted by the base station using the first transmit beam;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
in response to receiving the first PDCCH message and the second MCS indication sent by the base station using the first transmit beam using the receive beam of the second mobile terminal, sending, by the mobile terminal, the neonatal information to the base station using the transmit beam and the second MCS of the second mobile terminal at the second set of symbols of the first slot.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the transmit beam of the first mobile terminal and the third MCS in the second set of symbols of the first slot in response to receiving the first PDCCH message and the third MCS indication transmitted by the base station using the receive beam of the first mobile terminal;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the transmit beam of the second mobile terminal and the fourth MCS in the second set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
The invention provides a block chain system-based neonate information acquisition system, which is characterized by comprising the following components:
means for receiving, by a mobile terminal, neonate information;
means for establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonate information;
means for monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first set of RBs in a frequency domain and occupies a first set of symbols in a time domain, wherein the second CSI-RS resource occupies a second set of RBs in the frequency domain and occupies the first set of symbols in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
means for determining, by a mobile terminal, a first signal strength of a first CSI-RS signal and a second signal strength of a second CSI-RS signal in response to monitoring the first CSI-RS signal and the second CSI-RS signal transmitted by a base station;
means for determining, by the mobile terminal, whether the first signal strength is greater than the second signal strength in response to determining the first signal strength of the first CSI-RS signal and the second signal strength of the second CSI-RS signal;
means for transmitting, by the mobile terminal, an indication of the first CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, if the first signal strength is determined to be greater than the second signal strength, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource;
means for transmitting, by the mobile terminal, an indication of a second CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource, if the first signal strength is determined to be less than the second signal strength.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for determining, by a base station, a first sounding reference signal strength of a first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by the base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of the second sounding reference signal in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by the base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by the base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by the base station, a first MCS indication and an indication of a transmit beam for the first mobile terminal to the mobile terminal using the first transmit beam in response to determining the first MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam in response to receiving the first MCS and an indication of the transmit beam for the first mobile terminal, wherein the receive beam for the first mobile terminal has a same direction as the transmit beam for the first mobile terminal;
means for transmitting, by the base station to the mobile terminal using the first transmit beam, a second MCS indication and an indication of a transmit beam for the second mobile terminal in response to determining the second MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by the base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of the second sounding reference signal in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by the base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by the base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by the base station, a third MCS indication to the mobile terminal using the second transmit beam and an indication of the transmit beam for the first mobile terminal in response to determining the third MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam in response to receiving the third MCS and the indication of the transmit beam for the first mobile terminal using the receive beam for the first mobile terminal, wherein the receive beam for the first mobile terminal has the same direction as the transmit beam for the first mobile terminal;
means for transmitting, by the base station, a fourth MCS indication to the mobile terminal using the second transmit beam and an indication of a transmit beam for the second mobile terminal in response to determining the fourth MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam in response to receiving the fourth MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving, by the base station, the first PDCCH message transmitted using the first transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the first mobile terminal and the first MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the first mobile terminal and the first MCS indication;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the second MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the first transmit beam and the second MCS indication using the receive beam of the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving, by the base station, the first PDCCH message transmitted using the second transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the first mobile terminal and the third MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the third MCS indication using the receive beam of the first mobile terminal;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the fourth MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
Compared with the prior art, the method has the advantages that the newborn information is important for establishing the connection between hospitals and infant families, parents are required to accurately fill in the newborn information by all hospitals, the current information filling mode is mainly a written form filling mode, the mode is convenient and feasible, but the information such as the telephone and the address of the infant families is extremely easy to steal, even if doctors and nurses are honest and reliable, the paper form can be contacted by any personnel in the hospitals, the condition that all hospital staff do not reveal information is almost impossible to realize is ensured, and the reason why many newborn parents receive advertisement promotion telephones continuously is also considered. In order to prevent leakage, the newborn information can be saved by means of a blockchain system, and because the method leaves no paper trace all the way, and the blockchain system has a strong security mechanism, all the data access has traces and can be circulated, and under the combined action of the mechanisms, the newborn information collection system based on the blockchain generally has no leakage problem. In view of the needs in the art, the present application provides a specific method for transferring newborn information to a blockchain system.
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.
Fig. 3 is a schematic diagram of an apparatus according to an embodiment of the present invention.
Detailed Description
The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.
Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.
Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.
FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:
step 101: receiving, by a mobile terminal, neonate information;
step 102: establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonate information;
step 103: monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first RB set in a frequency domain and a first symbol set in a time domain, wherein the second CSI-RS resource occupies a second RB set in the frequency domain and the first symbol set in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
step 104: determining, by the mobile terminal, a first signal strength of the first CSI-RS signal and a second signal strength of the second CSI-RS signal in response to monitoring the first CSI-RS signal and the second CSI-RS signal transmitted by the base station;
step 105: determining, by the mobile terminal, whether the first signal strength is greater than the second signal strength in response to determining the first signal strength of the first CSI-RS signal and the second signal strength of the second CSI-RS signal;
step 106: if the first signal strength is judged to be greater than the second signal strength, sending, by the mobile terminal, an indication of the first CSI-RS signal to the base station, simultaneously sending, by the mobile terminal, a first sounding reference signal to the base station using a transmission beam of the first mobile terminal, and sending, by the mobile terminal, a second sounding reference signal to the base station using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, wherein the second sounding reference signal is sent on a second sounding reference signal resource, and wherein the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed;
step 107: and if the first signal strength is judged to be smaller than the second signal strength, sending an indication of a second CSI-RS signal to the base station by the mobile terminal, simultaneously sending a first sounding reference signal to the base station by the mobile terminal by using a transmission beam of the first mobile terminal, and sending a second sounding reference signal to the base station by the mobile terminal by using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, the second sounding reference signal is sent on a second sounding reference signal resource, and the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by the base station, whether the first sounding reference signal strength is greater than the second sounding reference signal strength in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the first MCS, sending, by the base station to the mobile terminal, a first MCS indication and an indication of a transmit beam for the first mobile terminal using the first transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam using a receive beam of the first mobile terminal in response to receiving a first MCS and an indication of the transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has a same direction as the transmit beam of the first mobile terminal;
in response to determining the second MCS, sending, by the base station, a second MCS indication and an indication of a transmit beam for the second mobile terminal to the mobile terminal using the first transmit beam;
in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal, receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by the base station, whether the first sounding reference signal strength is greater than the second sounding reference signal strength in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the third MCS, sending, by the base station, a third MCS indication and an indication of the transmit beam for the first mobile terminal to the mobile terminal using the second transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam of the first mobile terminal in response to receiving the third MCS and the indication of the transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has the same direction as the transmit beam of the first mobile terminal;
in response to determining the fourth MCS, sending, by the base station, a fourth MCS indication and an indication of a transmit beam for the second mobile terminal to the mobile terminal using the second transmit beam;
in response to receiving the fourth MCS and the indication of the transmit beam for the first mobile terminal, receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam for a second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the first MCS and the transmit beam of the first mobile terminal at a second symbol set of the first slot in response to receiving, using the receive beam of the first mobile terminal, the first PDCCH message and the first MCS indication transmitted by the base station using the first transmit beam;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
in response to receiving the first PDCCH message and the second MCS indication sent by the base station using the first transmit beam using the receive beam of the second mobile terminal, sending, by the mobile terminal, the neonatal information to the base station using the transmit beam and the second MCS of the second mobile terminal at the second set of symbols of the first slot.
In a preferred embodiment, the method for acquiring information of a newborn based on a blockchain system comprises the following steps:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the transmit beam of the first mobile terminal and the third MCS in the second set of symbols of the first slot in response to receiving the first PDCCH message and the third MCS indication transmitted by the base station using the receive beam of the first mobile terminal;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the transmit beam of the second mobile terminal and the fourth MCS in the second set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
The invention provides a block chain system-based neonate information acquisition system, which is characterized by comprising the following components:
means for receiving, by a mobile terminal, neonate information;
means for establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonate information;
means for monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first set of RBs in a frequency domain and occupies a first set of symbols in a time domain, wherein the second CSI-RS resource occupies a second set of RBs in the frequency domain and occupies the first set of symbols in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
means for determining, by a mobile terminal, a first signal strength of a first CSI-RS signal and a second signal strength of a second CSI-RS signal in response to monitoring the first CSI-RS signal and the second CSI-RS signal transmitted by a base station;
means for determining, by the mobile terminal, whether the first signal strength is greater than the second signal strength in response to determining the first signal strength of the first CSI-RS signal and the second signal strength of the second CSI-RS signal;
means for transmitting, by the mobile terminal, an indication of the first CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, if the first signal strength is determined to be greater than the second signal strength, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource;
means for transmitting, by the mobile terminal, an indication of a second CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource, if the first signal strength is determined to be less than the second signal strength.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for determining, by a base station, a first sounding reference signal strength of a first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by the base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of the second sounding reference signal in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by the base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by the base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by the base station, a first MCS indication and an indication of a transmit beam for the first mobile terminal to the mobile terminal using the first transmit beam in response to determining the first MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam in response to receiving the first MCS and an indication of the transmit beam for the first mobile terminal, wherein the receive beam for the first mobile terminal has a same direction as the transmit beam for the first mobile terminal;
means for transmitting, by the base station to the mobile terminal using the first transmit beam, a second MCS indication and an indication of a transmit beam for the second mobile terminal in response to determining the second MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for determining, by the base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of the second sounding reference signal in response to receiving the indication of the second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by the base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of the second sounding reference signal in response to determining the first sounding reference signal strength of the first sounding reference signal and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by the base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by the base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by the base station, a third MCS indication to the mobile terminal using the second transmit beam and an indication of the transmit beam for the first mobile terminal in response to determining the third MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam in response to receiving the third MCS and the indication of the transmit beam for the first mobile terminal using the receive beam for the first mobile terminal, wherein the receive beam for the first mobile terminal has the same direction as the transmit beam for the first mobile terminal;
means for transmitting, by the base station, a fourth MCS indication to the mobile terminal using the second transmit beam and an indication of a transmit beam for the second mobile terminal in response to determining the fourth MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam in response to receiving the fourth MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for the second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving, by the base station, the first PDCCH message transmitted using the first transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the first mobile terminal and the first MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the first mobile terminal and the first MCS indication;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the second MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the first transmit beam and the second MCS indication using the receive beam of the second mobile terminal.
In a preferred embodiment, the system for acquiring information of a newborn based on the blockchain system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving, by the base station, the first PDCCH message transmitted using the second transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the first mobile terminal and the third MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the third MCS indication using the receive beam of the first mobile terminal;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the fourth MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
Fig. 3 is a schematic diagram of an apparatus according to an embodiment of the present invention. As shown in the drawings, the base station and the mobile terminal of the present invention have their own beams, respectively, the base station has a first transmission beam, a second transmission beam, and the mobile terminal has a transmission beam of a first mobile terminal, a transmission beam of a second mobile terminal. Furthermore, for the reason of beam reciprocity, the base station uses a first transmit beam during transmission and correspondingly uses a first receive beam during reception, wherein the first transmit beam and the first receive beam have the same direction (i.e. use the same precoding matrix). The specific beamforming technique is per se prior art and the application does not give any detailed description of how to shape the beam specifically.
As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.
Claims (10)
1. A method for acquiring newborn information based on a blockchain system is characterized by comprising the following steps:
receiving, by a mobile terminal, neonate information;
establishing, by the mobile terminal, a communication connection with the base station in response to receiving the neonatal information;
monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first RB set in a frequency domain and a first symbol set in a time domain, wherein the second CSI-RS resource occupies a second RB set in the frequency domain and a first symbol set in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
in response to monitoring a first CSI-RS signal and a second CSI-RS signal transmitted by a base station, determining, by a mobile terminal, a first signal strength of the first CSI-RS signal and a second signal strength of the second CSI-RS signal;
determining, by a mobile terminal, whether a first signal strength of the first CSI-RS signal is greater than a second signal strength of a second CSI-RS signal in response to determining the first signal strength and the second signal strength;
if the first signal strength is judged to be greater than the second signal strength, sending, by the mobile terminal, an indication of a first CSI-RS signal to the base station, and simultaneously sending, by the mobile terminal, a first sounding reference signal to the base station using a transmission beam of the first mobile terminal, and sending, by the mobile terminal, a second sounding reference signal to the base station using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, wherein the second sounding reference signal is sent on a second sounding reference signal resource, and wherein the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed;
and if the first signal strength is judged to be smaller than the second signal strength, sending an indication of a second CSI-RS signal to the base station by the mobile terminal, simultaneously sending a first sounding reference signal to the base station by the mobile terminal by using a transmission beam of the first mobile terminal, and sending a second sounding reference signal to the base station by the mobile terminal by using a transmission beam of the second mobile terminal, wherein the first sounding reference signal is sent on a first sounding reference signal resource, the second sounding reference signal is sent on a second sounding reference signal resource, and the first sounding reference signal resource and the second sounding reference signal resource are frequency division multiplexed.
2. The blockchain system-based neonatal information acquisition method of claim 1, wherein the blockchain system-based neonatal information acquisition method comprises the steps of:
determining, by a base station, a first sounding reference signal strength of a first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by a base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of a second sounding reference signal in response to determining the first sounding reference signal strength and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the first MCS, sending, by the base station to the mobile terminal, a first MCS indication and an indication of a transmit beam for the first mobile terminal using a first transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a first transmit beam in response to receiving the first MCS and an indication of the transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has the same direction as the transmit beam of the first mobile terminal;
in response to determining the second MCS, sending, by the base station to the mobile terminal, a second MCS indication and an indication of a transmit beam for the second mobile terminal using the first transmit beam;
in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal, receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam using a receive beam of a second mobile terminal having the same direction as the transmit beam of the second mobile terminal.
3. The blockchain system-based neonatal information acquisition method as claimed in claim 2, wherein the blockchain system-based neonatal information acquisition method comprises the steps of:
determining, by a base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
determining, by a base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of a second sounding reference signal in response to determining the first sounding reference signal strength and the second sounding reference signal strength of the second sounding reference signal;
determining, by the base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
determining, by the base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
in response to determining the third MCS, sending, by the base station to the mobile terminal, a third MCS indication and an indication of the transmit beam for the first mobile terminal using the second transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam of a first mobile terminal in response to receiving the third MCS and an indication of a transmit beam of the first mobile terminal, wherein the receive beam of the first mobile terminal has a same direction as the transmit beam of the first mobile terminal;
in response to determining the fourth MCS, sending, by the base station to the mobile terminal, a fourth MCS indication and an indication of a transmit beam for the second mobile terminal using the second transmit beam;
receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam using a receive beam of a second mobile terminal having the same direction as the transmit beam of the second mobile terminal in response to receiving the fourth MCS and the indication of the transmit beam of the first mobile terminal.
4. The blockchain system-based neonatal information acquisition method as claimed in claim 3, wherein the blockchain system-based neonatal information acquisition method comprises the steps of:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal to the base station, the neonatal information using the transmit beam of the first mobile terminal and the first MCS at the second symbol set of the first slot in response to receiving the first PDCCH message and the first MCS indication transmitted by the base station using the receive beam of the first mobile terminal;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
in response to receiving, using a receive beam of a second mobile terminal, a first PDCCH message and a second MCS indication sent by the base station using a first transmit beam, sending, by the mobile terminal, neonatal information to the base station using a transmit beam of the second mobile terminal and a second MCS at a second set of symbols of the first slot.
5. The blockchain system-based neonatal information acquisition method of claim 4, wherein the blockchain system-based neonatal information acquisition method comprises the steps of:
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal;
transmitting, by the mobile terminal to the base station, the neonatal information using the transmit beam of the first mobile terminal and the third MCS at the second set of symbols of the first slot in response to receiving the first PDCCH message and the third MCS indication transmitted by the base station using the receive beam of the first mobile terminal;
receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
transmitting, by the mobile terminal, the neonatal information to the base station using the transmit beam of the second mobile terminal and the fourth MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
6. A system for acquiring newborn information based on blockchain system, comprising:
means for receiving, by a mobile terminal, neonate information;
means for establishing, by a mobile terminal, a communication connection with a base station in response to receiving the neonatal information;
means for monitoring, by a mobile terminal, a first CSI-RS signal and a second CSI-RS signal transmitted by a base station in response to establishing a communication connection with the base station, wherein the first CSI-RS signal is transmitted on a first CSI-RS resource, and the second CSI-RS signal is transmitted on a second CSI-RS resource, wherein the first CSI-RS resource occupies a first set of RBs in a frequency domain and a first set of symbols in a time domain, wherein the second CSI-RS resource occupies a second set of RBs in the frequency domain and a first set of symbols in the time domain, wherein the first CSI-RS signal is transmitted by the base station using a first transmission beam, and wherein the second CSI-RS signal is transmitted by the base station using a second transmission beam;
means for determining, by a mobile terminal, a first signal strength of a first CSI-RS signal and a second signal strength of a second CSI-RS signal transmitted by a base station in response to monitoring the first CSI-RS signal and the second CSI-RS signal;
means for determining, by a mobile terminal, whether a first signal strength of the first CSI-RS signal is greater than a second signal strength of a second CSI-RS signal in response to determining the first signal strength and the second signal strength;
means for transmitting, by the mobile terminal, an indication of a first CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource, if the first signal strength is determined to be greater than the second signal strength;
means for transmitting, by the mobile terminal, an indication of a second CSI-RS signal to the base station, while transmitting, by the mobile terminal, a first sounding reference signal to the base station using a transmit beam of the first mobile terminal, and transmitting, by the mobile terminal, a second sounding reference signal to the base station using a transmit beam of the second mobile terminal, wherein the first sounding reference signal is transmitted on a first sounding reference signal resource, wherein the second sounding reference signal is transmitted on a second sounding reference signal resource, wherein the first sounding reference signal resource is frequency division multiplexed with the second sounding reference signal resource, if the first signal strength is determined to be less than the second signal strength.
7. The system of claim 6, wherein the system comprises:
means for determining, by a base station, a first sounding reference signal strength of a first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a first CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by a base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of a second sounding reference signal in response to determining the first sounding reference signal strength and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by a base station, a first MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by a base station, a second MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by a base station to the mobile terminal, a first MCS indication and an indication of a transmit beam for a first mobile terminal using a first transmit beam in response to determining the first MCS;
means for receiving, by a mobile terminal, a first PDCCH message transmitted by a base station using a first transmit beam in response to receiving the first MCS and an indication of the transmit beam for the first mobile terminal, wherein the receive beam for the first mobile terminal has a same direction as the transmit beam for the first mobile terminal;
means for transmitting, by the base station to the mobile terminal using the first transmit beam, a second MCS indication and an indication of a transmit beam for a second mobile terminal in response to determining the second MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using the first transmit beam in response to receiving the second MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for a second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
8. The system of claim 7, wherein the system comprises:
means for determining, by a base station, a first sounding reference signal strength of the first sounding reference signal and a second sounding reference signal strength of a second sounding reference signal in response to receiving an indication of a second CSI-RS signal, the first sounding reference signal, and the second sounding reference signal;
means for determining, by a base station, whether a first sounding reference signal strength of the first sounding reference signal is greater than a second sounding reference signal strength of a second sounding reference signal in response to determining the first sounding reference signal strength and the second sounding reference signal strength of the second sounding reference signal;
means for determining, by a base station, a third MCS based on the first sounding reference signal strength if the first sounding reference signal strength is greater than the second sounding reference signal strength;
means for determining, by a base station, a fourth MCS based on the second sounding reference signal strength if the first sounding reference signal strength is less than the second sounding reference signal strength;
means for transmitting, by the base station, a third MCS indication to the mobile terminal using the second transmit beam and an indication of the transmit beam for the first mobile terminal in response to determining the third MCS;
means for receiving, by a mobile terminal, a first PDCCH message transmitted by a base station using a second transmit beam in response to receiving the third MCS and an indication of a transmit beam of a first mobile terminal, wherein the receive beam of the first mobile terminal has a same direction as the transmit beam of the first mobile terminal;
means for transmitting, by the base station to the mobile terminal using the second transmit beam, a fourth MCS indication and an indication of a transmit beam for the second mobile terminal in response to determining the fourth MCS;
means for receiving, by the mobile terminal, a first PDCCH message transmitted by the base station using a second transmit beam in response to receiving the fourth MCS and the indication of the transmit beam for the first mobile terminal using a receive beam for a second mobile terminal, wherein the receive beam for the second mobile terminal has the same direction as the transmit beam for the second mobile terminal.
9. The system of claim 8, wherein the system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the first mobile terminal at a first set of symbols of a first slot in response to receiving, by the base station, the first PDCCH message transmitted using the first transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by a mobile terminal to a base station, neonatal information using a transmit beam of a first mobile terminal and a first MCS at a second symbol set of a first slot in response to receiving a first PDCCH message and a first MCS indication transmitted by the base station using the first transmit beam using a receive beam of the first mobile terminal;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the first transmit beam using the receive beam of the second mobile terminal at a first set of symbols of a first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the second MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the first transmit beam and the second MCS indication using the receive beam of the second mobile terminal.
10. The system of claim 9, wherein the system comprises:
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the first mobile terminal at the first set of symbols of the first slot in response to receiving, by the base station, the first PDCCH message transmitted using the second transmit beam using the receive beam of the first mobile terminal;
means for transmitting, by the mobile terminal to the base station, the newborn information using the transmit beam of the first mobile terminal and the third MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the third MCS indication using the receive beam of the first mobile terminal;
means for receiving, by the mobile terminal, a downlink data message transmitted by the base station using the second transmit beam using the receive beam of the second mobile terminal at the first set of symbols of the first slot in response to receiving the first PDCCH message transmitted by the base station using the receive beam of the second mobile terminal;
means for transmitting, by the mobile terminal, the newborn information to the base station using the transmit beam of the second mobile terminal and the fourth MCS at the second symbol set of the first slot in response to receiving the first PDCCH message transmitted by the base station using the second transmit beam and the fourth MCS indication using the receive beam of the second mobile terminal.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113194546A (en) * | 2021-04-04 | 2021-07-30 | 北京贝耀信科技有限公司 | Operation big data transmission method and system of power grid node equipment |
CN114362786A (en) * | 2022-01-19 | 2022-04-15 | 张涵 | Block chain information rapid analysis system based on multi-channel data transmission |
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2020
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113194546A (en) * | 2021-04-04 | 2021-07-30 | 北京贝耀信科技有限公司 | Operation big data transmission method and system of power grid node equipment |
CN113194546B (en) * | 2021-04-04 | 2023-12-15 | 山西昊翔能源集团有限公司 | Operation big data transmission method and system of power grid node equipment |
CN114362786A (en) * | 2022-01-19 | 2022-04-15 | 张涵 | Block chain information rapid analysis system based on multi-channel data transmission |
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