CN111601397A - Method and system for sending transaction information to block chain system based on mobile terminal - Google Patents

Abstract

The invention discloses a method for sending transaction information to a blockchain system based on a mobile terminal, which comprises the following steps: acquiring transaction information of a user by a mobile terminal; continuously listening, by the mobile terminal, for a plurality of times, a synchronization signal transmitted by the base station, wherein the base station transmits at least a first synchronization signal using a first transmit beam in a first time slot, a second synchronization signal using a second transmit beam in a second time slot, and a third synchronization signal using a third transmit beam in a third time slot; determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal; comparing, by the mobile terminal, the quality of the first synchronization signal, the quality of the second synchronization signal, and the quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal.

Description

Method and system for sending transaction information to block chain system based on mobile terminal

Technical Field

The present invention relates to the field of blockchain technology, and more particularly, to a method and system for sending transaction information to a blockchain system based on a mobile terminal.

Background

Blockchains are a term of art in information technology. In essence, the system is a shared database, and the data or information stored in the shared database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance', and the like. Based on the characteristics, the block chain technology lays a solid 'trust' foundation, creates a reliable 'cooperation' mechanism and has wide application prospect.

The prior art CN108959945B discloses a medical data sharing method and apparatus based on a block chain, a computer readable medium and an electronic device. The medical data sharing method comprises the following steps: constructing a block chain network by taking a plurality of medical data sharing parties as block chain link points; acquiring medical data uploaded by block link points in the block chain network; storing the medical data into the blockchain network to share the medical data in the blockchain network.

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 sending transaction information to a blockchain system based on a mobile terminal, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a method for sending transaction information to a blockchain system based on a mobile terminal, which is characterized in that the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

acquiring transaction information of a user by a mobile terminal;

the method comprises the steps that a mobile terminal continuously listens for a synchronous signal sent by a base station for multiple times, wherein the base station sends a first synchronous signal by using a first transmitting beam at least in a first time slot, sends a second synchronous signal by using a second transmitting beam in a second time slot and sends a third synchronous signal by using a third transmitting beam in a third time slot, wherein the second time slot is a time slot next to the first time slot, and the third time slot is a time slot next to the second time slot;

determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal;

comparing, by the mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving a first synchronization signal, a second synchronization signal, and a third synchronization signal, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks exist in each system information message;

and in response to sending the first system information block to the mobile terminal, sending a system information message to the mobile terminal by the base station on a time-frequency resource used for sending the system information message, wherein on a first subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a first transmission beam, on a second subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a second transmission beam, and on a third subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a third transmission beam, wherein the second subframe is a subframe immediately following the first subframe, and the third subframe is a subframe immediately following the second subframe.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the quality of the first synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a first subframe of time-frequency resources used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a second subframe and a third subframe of the time-frequency resources used for sending the system information message;

if the quality of the second synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a second subframe of the time-frequency resource used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a first subframe and a third subframe of the time-frequency resource used for sending the system information message;

if the quality of the third synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a third subframe of the time-frequency resource used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on the first subframe and the second subframe of the time-frequency resource used for sending the system information message;

determining, by the mobile terminal, resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and a pattern of listening for the random access response in response to receiving all the system information, wherein the resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and the pattern of listening for the random access response are indicated in the system information.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the random access lead code is judged to be sent only once, the mobile terminal sends the random access lead code to the base station on the resource for sending the random access lead code;

attempting, by the mobile terminal, to receive a random access response within a random access response reception window in response to transmitting the random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in the system information;

responding to the random access response monitored, and continuing to finish the random access by the mobile terminal;

in response to the completion of the random access, the mobile terminal sends the transaction information of the user to the base station and the base station sends the received transaction information of the user to the blockchain system;

if the random access preamble is judged to need to be sent for multiple times, the mobile terminal sends a first random access preamble to the base station on the resource for sending the random access preamble at least at a first time and sends a second random access preamble to the base station on the resource for sending the random access preamble at a second time;

in response to sending the first random access preamble and the second random access preamble, continuing, by the mobile terminal, to determine a mode of monitoring for a random access response;

if the mode for monitoring the random access response is judged to be the first mode, the mobile terminal tries to receive the random access response to the first random access preamble code and the random access response to the second random access preamble code in a first random access response receiving window, wherein the first random access response receiving window is started after the mobile terminal sends the first random access preamble code to the base station, and the length of the first random access response receiving window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the mode for monitoring the random access response is judged to be the second mode, the mobile terminal tries to receive the random access response to the first random access preamble and the random access response to the second random access preamble in a second random access response receiving window, wherein the second random access response receiving window is started after the mobile terminal sends the second random access preamble to the base station, and the length of the second random access response receiving window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the mode for monitoring the random access response is judged to be the third mode, the mobile terminal tries to receive the random access response to the first random access lead code in a third random access response receiving window, wherein the third random access response receiving window is started after the mobile terminal sends the first random access lead code to the base station;

if the mode for monitoring the random access response is judged to be the third mode, the mobile terminal tries to receive the random access response to the second random access preamble code in a fourth random access response receiving window, wherein the fourth random access response receiving window is started after the mobile terminal sends the second random access preamble code to the base station, and the third random access response receiving window and the fourth random access response receiving window have an overlapping part, wherein the mobile terminal tries to receive the random access response to the first random access preamble code and the random access response to the second random access preamble code simultaneously in the overlapping part;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

The invention provides a system for sending transaction information to a blockchain system based on a mobile terminal, which is characterized in that the system for sending the transaction information to the blockchain system based on the mobile terminal comprises:

a unit for acquiring transaction information of a user by a mobile terminal;

means for listening, by a mobile terminal, for a synchronization signal transmitted by a base station a plurality of times in succession, wherein the base station transmits a first synchronization signal using a first transmit beam in at least a first time slot, transmits a second synchronization signal using a second transmit beam in a second time slot, and transmits a third synchronization signal using a third transmit beam in a third time slot, wherein the second time slot is a time slot immediately following the first time slot, and the third time slot is a time slot immediately following the second time slot;

means for determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal;

means for comparing, by the mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

means for receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving a first synchronization signal, a second synchronization signal, and a third synchronization signal, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks are present in each system information message;

means for transmitting, by a base station, a system information message to a mobile terminal on a time-frequency resource for transmitting the system information message in response to transmitting a first system information block to the mobile terminal, wherein the base station transmits the system information message to the mobile terminal using a first transmit beam on a first subframe of the time-frequency resource for transmitting the system information message, transmits the system information message to the mobile terminal using a second transmit beam on a second subframe of the time-frequency resource for transmitting the system information message, and transmits the system information message to the mobile terminal using a third transmit beam on a third subframe of the time-frequency resource for transmitting the system information message, wherein the second subframe is a subframe immediately following the first subframe and the third subframe is a subframe immediately following the second subframe.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a first subframe of time-frequency resources for transmitting the system information message if it is judged that the quality of the first synchronization signal is the highest, wherein the mobile terminal does not receive the system information message transmitted on a second subframe and a third subframe of the time-frequency resources for transmitting the system information message;

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a second subframe of time-frequency resources for transmitting the system information message if it is judged that the quality of the second synchronization signal is the highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the third subframe of the time-frequency resources for transmitting the system information message;

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a third subframe of time-frequency resources for transmitting the system information message if it is determined that the quality of the third synchronization signal is highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the second subframe of the time-frequency resources for transmitting the system information message;

means for determining, by the mobile terminal, resources for transmitting the random access preamble, a number of times the random access preamble is transmitted, and a pattern of listening for the random access response in response to receiving all system information, wherein the resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and the pattern of listening for the random access response are indicated in the system information.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for transmitting, by the mobile terminal, the random access preamble to the base station on a resource for transmitting the random access preamble if it is determined that the random access preamble is transmitted only once;

means for attempting, by the mobile terminal, to receive a random access response within a random access response reception window in response to transmitting the random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in the system information;

means for continuing to complete random access by the mobile terminal in response to monitoring the random access response;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access;

means for transmitting, by the mobile terminal, a first random access preamble on a resource for transmitting random access preambles to the base station at least a first time and a second random access preamble on a resource for transmitting random access preambles to the base station at a second time if it is determined that the random access preambles need to be transmitted multiple times;

means for continuing, by the mobile terminal, to determine a mode of monitoring for a random access response in response to transmitting the first random access preamble and the second random access preamble;

means for attempting, by the mobile terminal, to receive a random access response for a first random access preamble and a random access response for a second random access preamble within a first random access response reception window if the mode of listening for the random access response is determined to be the first mode, wherein the first random access response reception window is started after the mobile terminal transmits the first random access preamble to the base station, wherein a length of the first random access response reception window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble and a random access response for the second random access preamble within a second random access response receive window if the mode of listening for the random access response is determined to be the second mode, wherein the second random access response receive window is started after the mobile terminal transmits the second random access preamble to the base station, wherein a length of the second random access response receive window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble within a third random access response receive window if the mode of monitoring for the random access response is determined to be a third mode, wherein the third random access response receive window begins after the mobile terminal transmits the first random access preamble to the base station;

means for attempting, by the mobile terminal, to receive a random access response for the second random access preamble within a fourth random access response reception window if the mode of listening for the random access response is determined to be the third mode, wherein the fourth random access response reception window is started after the mobile terminal transmits the second random access preamble to the base station, wherein there is an overlapping portion of the third random access response reception window and the fourth random access response reception window, wherein the mobile terminal attempts to receive the random access response for the first random access preamble and the random access response for the second random access preamble simultaneously in the overlapping portion;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

Compared with the prior art, the invention has the advantages that the block chain is a decentralized database system in nature, the core of the block chain is the data stored by the user since the database system is, and the physical location of the data storage is widely distributed since the block chain is a decentralized database, thereby generating the problem of how to transmit the data from one place to another place which is far away. With the development of the technology, the network topology is more and more complex, and in order to realize the advantage of convenient deployment, it is necessary to integrate the block chain technology and the wireless data to realize a block chain application system based on wireless transmission. In order to solve the problems in the prior art, the application provides a method and a system for sending transaction information to a blockchain system based on a mobile terminal.

Drawings

Fig. 1 is a system configuration diagram 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 timing diagram of receiving a synchronization signal according to an embodiment of the present invention.

Fig. 4 is a timing diagram of a received system information message according to an embodiment of the present invention.

Fig. 5 is a timing diagram of receiving a random access response 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 system configuration diagram according to an embodiment of the present invention. As shown, the system of the present invention includes a mobile terminal, a base station, and a blockchain system, and the mobile terminal can transmit information to the blockchain system via the base station.

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: acquiring transaction information of a user by a mobile terminal;

step 102: the method comprises the steps that a mobile terminal continuously listens for a synchronous signal sent by a base station for multiple times, wherein the base station sends a first synchronous signal by using a first transmitting beam at least in a first time slot, sends a second synchronous signal by using a second transmitting beam in a second time slot and sends a third synchronous signal by using a third transmitting beam in a third time slot, wherein the second time slot is a time slot next to the first time slot, and the third time slot is a time slot next to the second time slot; the transmitted waves are formed by beam forming and antenna array technologies, the details of the technologies belong to the prior art, and are not described in detail in the application, although the application only lists three transmitted beams, as long as the system allows, the base station can transmit 4, 5, n beams, and the relationship between the beams and the synchronization signals can be analogized according to the content disclosed in the application;

step 103: determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal; the signal strength metric may be RSRP, RSRQ, RSSI, or a combination of the foregoing metrics, and the method of the present application can be true even though the specific type of signal strength metric is not limited;

step 104: comparing, by the mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

step 105: receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving a first synchronization signal, a second synchronization signal, and a third synchronization signal, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks exist in each system information message; generally, a first system information block refers to information necessary for establishing RRC connection between a terminal and a base station, and unnecessary information for accessing the base station may be sent in a system information message, and currently, some enterprises participating in standard formulation consider that SIB 1 and some SIB 2 messages in LTE belong to "information necessary for establishing RRC connection between the terminal and the base station", and other system information may be sent in the system information message.

Step 106: and in response to sending the first system information block to the mobile terminal, sending a system information message to the mobile terminal by the base station on a time-frequency resource used for sending the system information message, wherein on a first subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a first transmission beam, on a second subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a second transmission beam, and on a third subframe of the time-frequency resource used for sending the system information message, the base station sends the system information message to the mobile terminal by using a third transmission beam, wherein the second subframe is a subframe immediately following the first subframe, and the third subframe is a subframe immediately following the second subframe.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the quality of the first synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a first subframe of time-frequency resources used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a second subframe and a third subframe of the time-frequency resources used for sending the system information message;

if the quality of the second synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a second subframe of the time-frequency resource used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a first subframe and a third subframe of the time-frequency resource used for sending the system information message;

if the quality of the third synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a third subframe of the time-frequency resource used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on the first subframe and the second subframe of the time-frequency resource used for sending the system information message;

determining, by the mobile terminal, resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and a pattern of listening for the random access response in response to receiving all the system information, wherein the resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and the pattern of listening for the random access response are indicated in the system information.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the random access lead code is judged to be sent only once, the mobile terminal sends the random access lead code to the base station on the resource for sending the random access lead code;

attempting, by the mobile terminal, to receive a random access response within a random access response reception window in response to transmitting the random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in the system information;

responding to the random access response monitored, and continuing to finish the random access by the mobile terminal;

in response to the completion of the random access, the mobile terminal sends the transaction information of the user to the base station and the base station sends the received transaction information of the user to the blockchain system;

if the random access preamble is judged to need to be sent for multiple times, the mobile terminal sends a first random access preamble to the base station on the resource for sending the random access preamble at least at a first time and sends a second random access preamble to the base station on the resource for sending the random access preamble at a second time;

in response to sending the first random access preamble and the second random access preamble, continuing, by the mobile terminal, to determine a mode of monitoring for a random access response;

if the mode for monitoring the random access response is judged to be the first mode, the mobile terminal tries to receive the random access response to the first random access preamble code and the random access response to the second random access preamble code in a first random access response receiving window, wherein the first random access response receiving window is started after the mobile terminal sends the first random access preamble code to the base station, and the length of the first random access response receiving window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the mode for monitoring the random access response is judged to be the second mode, the mobile terminal tries to receive the random access response to the first random access preamble and the random access response to the second random access preamble in a second random access response receiving window, wherein the second random access response receiving window is started after the mobile terminal sends the second random access preamble to the base station, and the length of the second random access response receiving window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

In a preferred embodiment, the method for sending transaction information to the blockchain system based on the mobile terminal comprises the following steps:

if the mode for monitoring the random access response is judged to be the third mode, the mobile terminal tries to receive the random access response to the first random access lead code in a third random access response receiving window, wherein the third random access response receiving window is started after the mobile terminal sends the first random access lead code to the base station;

if the mode for monitoring the random access response is judged to be the third mode, the mobile terminal tries to receive the random access response to the second random access preamble code in a fourth random access response receiving window, wherein the fourth random access response receiving window is started after the mobile terminal sends the second random access preamble code to the base station, and the third random access response receiving window and the fourth random access response receiving window have an overlapping part, wherein the mobile terminal tries to receive the random access response to the first random access preamble code and the random access response to the second random access preamble code simultaneously in the overlapping part;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

The invention provides a system for sending transaction information to a blockchain system based on a mobile terminal, which is characterized in that the system for sending the transaction information to the blockchain system based on the mobile terminal comprises:

a unit for acquiring transaction information of a user by a mobile terminal;

means for listening, by a mobile terminal, for a synchronization signal transmitted by a base station a plurality of times in succession, wherein the base station transmits a first synchronization signal using a first transmit beam in at least a first time slot, transmits a second synchronization signal using a second transmit beam in a second time slot, and transmits a third synchronization signal using a third transmit beam in a third time slot, wherein the second time slot is a time slot immediately following the first time slot, and the third time slot is a time slot immediately following the second time slot;

means for determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal;

means for comparing, by the mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

means for receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving a first synchronization signal, a second synchronization signal, and a third synchronization signal, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks are present in each system information message;

means for transmitting, by a base station, a system information message to a mobile terminal on a time-frequency resource for transmitting the system information message in response to transmitting a first system information block to the mobile terminal, wherein the base station transmits the system information message to the mobile terminal using a first transmit beam on a first subframe of the time-frequency resource for transmitting the system information message, transmits the system information message to the mobile terminal using a second transmit beam on a second subframe of the time-frequency resource for transmitting the system information message, and transmits the system information message to the mobile terminal using a third transmit beam on a third subframe of the time-frequency resource for transmitting the system information message, wherein the second subframe is a subframe immediately following the first subframe and the third subframe is a subframe immediately following the second subframe.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a first subframe of time-frequency resources for transmitting the system information message if it is judged that the quality of the first synchronization signal is the highest, wherein the mobile terminal does not receive the system information message transmitted on a second subframe and a third subframe of the time-frequency resources for transmitting the system information message;

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a second subframe of time-frequency resources for transmitting the system information message if it is judged that the quality of the second synchronization signal is the highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the third subframe of the time-frequency resources for transmitting the system information message;

a unit for receiving, by the mobile terminal, the system information message transmitted by the base station only on a third subframe of time-frequency resources for transmitting the system information message if it is determined that the quality of the third synchronization signal is highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the second subframe of the time-frequency resources for transmitting the system information message;

means for determining, by the mobile terminal, resources for transmitting the random access preamble, a number of times the random access preamble is transmitted, and a pattern of listening for the random access response in response to receiving all system information, wherein the resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and the pattern of listening for the random access response are indicated in the system information.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for transmitting, by the mobile terminal, the random access preamble to the base station on a resource for transmitting the random access preamble if it is determined that the random access preamble is transmitted only once;

means for attempting, by the mobile terminal, to receive a random access response within a random access response reception window in response to transmitting the random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in the system information;

means for continuing to complete random access by the mobile terminal in response to monitoring the random access response;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access;

means for transmitting, by the mobile terminal, a first random access preamble on a resource for transmitting random access preambles to the base station at least a first time and a second random access preamble on a resource for transmitting random access preambles to the base station at a second time if it is determined that the random access preambles need to be transmitted multiple times;

means for continuing, by the mobile terminal, to determine a mode of monitoring for a random access response in response to transmitting the first random access preamble and the second random access preamble;

means for attempting, by the mobile terminal, to receive a random access response for a first random access preamble and a random access response for a second random access preamble within a first random access response reception window if the mode of listening for the random access response is determined to be the first mode, wherein the first random access response reception window is started after the mobile terminal transmits the first random access preamble to the base station, wherein a length of the first random access response reception window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble and a random access response for the second random access preamble within a second random access response receive window if the mode of listening for the random access response is determined to be the second mode, wherein the second random access response receive window is started after the mobile terminal transmits the second random access preamble to the base station, wherein a length of the second random access response receive window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

In a preferred embodiment, a system for sending transaction information to a blockchain system based on a mobile terminal comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble within a third random access response receive window if the mode of monitoring for the random access response is determined to be a third mode, wherein the third random access response receive window begins after the mobile terminal transmits the first random access preamble to the base station;

means for attempting, by the mobile terminal, to receive a random access response for the second random access preamble within a fourth random access response reception window if the mode of listening for the random access response is determined to be the third mode, wherein the fourth random access response reception window is started after the mobile terminal transmits the second random access preamble to the base station, wherein there is an overlapping portion of the third random access response reception window and the fourth random access response reception window, wherein the mobile terminal attempts to receive the random access response for the first random access preamble and the random access response for the second random access preamble simultaneously in the overlapping portion;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for transmitting, by the mobile terminal to the base station and transmitting, by the base station to the blockchain system, the received transaction information of the user in response to completion of the random access.

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 sending transaction information to a blockchain system based on a mobile terminal is characterized in that the method for sending the transaction information to the blockchain system based on the mobile terminal comprises the following steps:

acquiring transaction information of a user by a mobile terminal;

continuously listening, by a mobile terminal, a synchronization signal transmitted by a base station a plurality of times, wherein the base station transmits a first synchronization signal using a first transmission beam at least in a first time slot, transmits a second synchronization signal using a second transmission beam in a second time slot, and transmits a third synchronization signal using a third transmission beam in a third time slot, wherein the second time slot is a time slot immediately following the first time slot, and the third time slot is a time slot immediately following the second time slot;

determining, by the mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal;

comparing, by the mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving the first, second, and third synchronization signals, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks exist in each system information message;

transmitting, by a base station, a system information message to the mobile terminal on a time-frequency resource for transmitting system information messages in response to transmitting a first system information block to the mobile terminal, wherein, on a first subframe of time-frequency resources for transmitting system information messages, the base station transmits system information messages to the mobile terminal using a first transmit beam, on a second subframe of the time-frequency resource used for transmitting the system information message, the base station transmits the system information message to the mobile terminal by using a second transmission beam, on a third subframe of time-frequency resources used for transmitting system information messages, the base station transmits system information messages to the mobile terminal using a third transmit beam, wherein the second subframe is a subframe immediately following the first subframe, and the third subframe is a subframe immediately following the second subframe.

2. The mobile terminal-based method for sending transaction information to the blockchain system according to claim 1, wherein the mobile terminal-based method for sending transaction information to the blockchain system comprises the steps of:

if the quality of the first synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a first subframe of time-frequency resources used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a second subframe and a third subframe of the time-frequency resources used for sending the system information message;

if the quality of the second synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a second subframe of the time-frequency resource used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on a first subframe and a third subframe of the time-frequency resource used for sending the system information message;

if the quality of the third synchronization signal is judged to be the highest, the mobile terminal receives the system information message sent by the base station only on a third subframe of time-frequency resources used for sending the system information message, wherein the mobile terminal does not receive the system information message sent on the first subframe and the second subframe of the time-frequency resources used for sending the system information message;

determining, by the mobile terminal, resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and a pattern of listening for the random access response in response to receiving all system information, wherein the resources for transmitting the random access preamble, the number of times the random access preamble is transmitted, and the pattern of listening for the random access response are indicated in the system information.

3. The mobile terminal-based method for sending transaction information to the blockchain system according to claim 2, wherein the mobile terminal-based method for sending transaction information to the blockchain system comprises the steps of:

if the random access lead code is judged to be sent only once, the mobile terminal sends the random access lead code to the base station on the resource for sending the random access lead code;

attempting, by the mobile terminal, to receive a random access response within a random access response reception window in response to transmitting the random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in the system information;

responding to the random access response monitored, and continuing to finish random access by the mobile terminal;

in response to completion of the random access, sending, by the mobile terminal, transaction information of the user to the base station and sending, by the base station, the received transaction information of the user to the blockchain system;

if the random access preamble is judged to need to be sent for multiple times, the mobile terminal sends a first random access preamble to the base station on the resource for sending the random access preamble at least a first time and sends a second random access preamble to the base station on the resource for sending the random access preamble at a second time;

continuing, by the mobile terminal, to determine a mode of monitoring for a random access response in response to transmitting the first random access preamble and the second random access preamble;

attempting, by the mobile terminal, to receive a random access response for a first random access preamble and a random access response for a second random access preamble within a first random access response reception window if it is determined that the mode of monitoring for the random access response is the first mode, wherein the first random access response reception window is started after the mobile terminal transmits the first random access preamble to the base station, wherein a length of the first random access response reception window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

4. The mobile terminal-based method for sending transaction information to the blockchain system according to claim 3, wherein the mobile terminal-based method for sending transaction information to the blockchain system comprises the steps of:

if the mode for monitoring the random access response is judged to be the second mode, the mobile terminal tries to receive the random access response to the first random access preamble code and the random access response to the second random access preamble code in a second random access response receiving window, wherein the second random access response receiving window is started after the mobile terminal sends the second random access preamble code to the base station, and the length of the second random access response receiving window is indicated in the system information;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

5. The mobile terminal-based method for sending transaction information to the blockchain system according to claim 4, wherein the mobile terminal-based method for sending transaction information to the blockchain system comprises the steps of:

if the mode for monitoring the random access response is judged to be a third mode, the mobile terminal tries to receive the random access response to the first random access lead code in a third random access response receiving window, wherein the third random access response receiving window is started after the mobile terminal sends the first random access lead code to the base station;

attempting, by the mobile terminal, to receive a random access response for the second random access preamble within a fourth random access response reception window if the mode of monitoring for the random access response is determined to be the third mode, wherein the fourth random access response reception window is started after the mobile terminal transmits the second random access preamble to the base station, wherein there is an overlapping portion of the third random access response reception window and the fourth random access response reception window, wherein the mobile terminal attempts to receive the random access response for the first random access preamble and the random access response for the second random access preamble simultaneously in the overlapping portion;

continuing, by the mobile terminal, to complete random access in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

and responding to the completion of the random access, sending the transaction information of the user to the base station by the mobile terminal and sending the received transaction information of the user to the blockchain system by the base station.

6. A system for sending transaction information to a blockchain system based on a mobile terminal is characterized in that the system for sending transaction information to the blockchain system based on the mobile terminal comprises:

a unit for acquiring transaction information of a user by a mobile terminal;

means for listening, by a mobile terminal, for a synchronization signal transmitted by a base station a plurality of times in succession, wherein the base station transmits a first synchronization signal using a first transmit beam in at least a first time slot, a second synchronization signal using a second transmit beam in a second time slot, and a third synchronization signal using a third transmit beam in a third time slot, wherein the second time slot is a time slot immediately following the first time slot, and the third time slot is a time slot immediately following the second time slot;

means for determining, by a mobile terminal, a signal strength metric of the first synchronization signal, a signal strength metric of the second synchronization signal, and a signal strength metric of the third synchronization signal in response to receiving the first synchronization signal, the second synchronization signal, and the third synchronization signal;

means for comparing, by a mobile terminal, a quality of the first synchronization signal, a quality of the second synchronization signal, and a quality of the third synchronization signal based on the signal strength metric of the first synchronization signal, the signal strength metric of the second synchronization signal, and the signal strength metric of the third synchronization signal;

means for receiving, by a mobile terminal, a first system information block broadcasted by a base station in response to receiving the first, second, and third synchronization signals, wherein the first system information block indicates to the mobile terminal time-frequency resources for transmitting system information messages, wherein the first system information block indicates to the mobile terminal that a plurality of system information blocks exist in each system information message;

means for transmitting, by a base station, a system information message to the mobile terminal on a time-frequency resource used to transmit the system information message in response to transmitting a first system information block to the mobile terminal, wherein, on a first subframe of time-frequency resources for transmitting system information messages, the base station transmits system information messages to the mobile terminal using a first transmit beam, on a second subframe of the time-frequency resource used for transmitting the system information message, the base station transmits the system information message to the mobile terminal by using a second transmission beam, on a third subframe of time-frequency resources used for transmitting system information messages, the base station transmits system information messages to the mobile terminal using a third transmit beam, wherein the second subframe is a subframe immediately following the first subframe, and the third subframe is a subframe immediately following the second subframe.

7. The mobile terminal-based system for sending transaction information to a blockchain system as claimed in claim 6, wherein the mobile terminal-based system for sending transaction information to a blockchain system comprises:

means for receiving, by the mobile terminal, the system information message transmitted by the base station only on a first subframe of time-frequency resources for transmitting the system information message if it is determined that the quality of the first synchronization signal is highest, wherein the mobile terminal does not receive the system information message transmitted on a second subframe and a third subframe of the time-frequency resources for transmitting the system information message;

means for receiving, by the mobile terminal, the system information message transmitted by the base station only on a second subframe of time-frequency resources for transmitting the system information message if it is determined that the quality of the second synchronization signal is highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the third subframe of the time-frequency resources for transmitting the system information message;

means for receiving, by the mobile terminal, the system information message transmitted by the base station only on a third subframe of time-frequency resources for transmitting the system information message if it is determined that the quality of the third synchronization signal is highest, wherein the mobile terminal does not receive the system information message transmitted on the first subframe and the second subframe of the time-frequency resources for transmitting the system information message;

means for determining, by the mobile terminal, resources for transmitting a random access preamble, a number of times to transmit the random access preamble, and a pattern of listening for random access responses in response to receiving all system information, wherein the resources for transmitting the random access preamble, the number of times to transmit the random access preamble, and the pattern of listening for random access responses are indicated in the system information.

8. The mobile terminal-based system for sending transaction information to a blockchain system as claimed in claim 7, wherein the mobile terminal-based system for sending transaction information to a blockchain system comprises:

means for transmitting, by a mobile terminal, a random access preamble to the base station on a resource for transmitting the random access preamble if it is determined that the random access preamble is transmitted only once;

means for attempting, by a mobile terminal, to receive a random access response within a random access response reception window in response to transmitting a random access preamble to the base station, wherein the random access response reception window begins after the mobile terminal transmits the random access preamble to the base station, wherein a length of the random access response reception window is indicated in system information;

means for continuing to complete random access by the mobile terminal in response to monitoring the random access response;

means for sending, by the mobile terminal to the base station and sending, by the base station to the blockchain system, the received transaction information for the user in response to completing the random access;

means for transmitting, by a mobile terminal, a first random access preamble on a resource for transmitting random access preambles to the base station at least a first time and a second random access preamble on a resource for transmitting random access preambles to the base station at a second time if it is determined that multiple transmissions of random access preambles are required;

means for continuing, by the mobile terminal, to determine a mode of listening for random access responses in response to transmitting the first and second random access preamble codes;

means for attempting, by the mobile terminal, to receive a random access response for a first random access preamble and a random access response for a second random access preamble within a first random access response reception window if the mode of listening for random access responses is determined to be the first mode, wherein the first random access response reception window begins after the mobile terminal transmits the first random access preamble to the base station, wherein a length of the first random access response reception window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for sending, by the mobile terminal to the base station, the transaction information for the user and sending, by the base station to the blockchain system, the received transaction information for the user in response to completing the random access.

9. The mobile terminal-based system for sending transaction information to a blockchain system as claimed in claim 8, wherein the mobile terminal-based system for sending transaction information to a blockchain system comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble and a random access response for a second random access preamble within a second random access response receive window if the mode of listening for random access responses is determined to be the second mode, wherein the second random access response receive window begins after the mobile terminal transmits the second random access preamble to the base station, wherein a length of the second random access response receive window is indicated in the system information;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for sending, by the mobile terminal to the base station, the transaction information for the user and sending, by the base station to the blockchain system, the received transaction information for the user in response to completing the random access.

10. The mobile terminal-based system for sending transaction information to a blockchain system as claimed in claim 9, wherein the mobile terminal-based system for sending transaction information to a blockchain system comprises:

means for attempting, by the mobile terminal, to receive a random access response for the first random access preamble within a third random access response receive window if the mode of listening for the random access response is determined to be a third mode, wherein the third random access response receive window begins after the mobile terminal transmits the first random access preamble to the base station;

means for attempting, by the mobile terminal, to receive a random access response for a second random access preamble within a fourth random access response reception window if the mode of listening for random access responses is determined to be the third mode, wherein the fourth random access response reception window begins after the mobile terminal transmits the second random access preamble to the base station, wherein there is an overlapping portion of the third random access response reception window and the fourth random access response reception window, wherein the mobile terminal attempts to receive both a random access response for the first random access preamble and a random access response for the second random access preamble in the overlapping portion;

means for continuing completion of random access by the mobile terminal in response to monitoring the random access response to the first random access preamble or the random access response to the second random access preamble;

means for sending, by the mobile terminal to the base station, the transaction information for the user and sending, by the base station to the blockchain system, the received transaction information for the user in response to completing the random access.

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