CN112188587B - Exploration and loss assessment information transmission method and system based on block chain system for insurance industry - Google Patents

Abstract

The invention discloses a block chain system-based exploration loss assessment information transmission method for the insurance industry, which comprises the following steps: collecting survey damage assessment information by the mobile terminal; in response to collecting the survey damage assessment information, sending, by the mobile terminal, the survey damage assessment information to the first relay node; in response to receiving the survey damage assessment information, monitoring, by the first relay node, a relay node probe configuration message sent by a superior relay node; in response to monitoring the relay node detection configuration message, the first relay node continues to monitor a relay node detection request sent by a superior relay node; in response to monitoring the relay node detection request, the first relay node transmits a detection reference signal to the superior relay node at a first time point by using a first transmission beam; in response to transmitting a sounding reference signal to an upper relay node using a first transmit beam at a first point in time, transmitting, by the first relay node, the sounding reference signal to the upper relay node using a second transmit beam at a second point in time.

Description

Block chain system-based exploration loss assessment information transmission method and system for insurance industry

Technical Field

The present invention relates to the field of insurance technologies, and in particular, to a method and a system for transmitting survey damage assessment information based on a blockchain system in the insurance industry.

Background

Wireless communication technology brings new opportunities for the development of the field of financial insurance. New innovations in the area of financial insurance brought by wireless communication technology are being actively explored among insurance enterprises, hardware manufacturers, and communications carriers. Currently, the insurance field is mainly faced with two problems, one is the lack of technical means for effective exploration and damage assessment, and the other is that the traditional "social trust" model is difficult to adapt to the needs of social and economic development. Convergence of wireless communication technology and block chain technology can solve these two main problems. In the aspect of investigation and loss assessment, wireless communication technology terminal equipment is vigorously developed, high-definition image transmission and machine vision intelligent analysis functions of a wireless communication technology are equipped on the terminal equipment, and then a block chain technology is combined, so that data can be transmitted in a real-time and credible mode in a wireless communication technology network environment, and credible interaction of an intelligent terminal is facilitated. In addition, the traceability of the block chain technology enables the insurance business process to be more transparent, and is beneficial to increasing the mutual trust between the insurance company and the client.

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 that is already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide a block chain system-based exploration damage assessment information transmission method and system for the insurance industry, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a method for transmitting survey damage assessment information based on a blockchain system for the insurance industry, which is characterized in that the method for transmitting survey damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

collecting the investigation and loss assessment information by the mobile terminal;

in response to collecting the survey damage assessment information, sending, by the mobile terminal, the survey damage assessment information to the first relay node;

in response to receiving the survey damage assessment information, monitoring, by the first relay node, a relay node probe configuration message sent by a superior relay node;

in response to monitoring the relay node detection configuration message, the first relay node continues to monitor a relay node detection request sent by a superior relay node;

In response to monitoring the relay node detection request, transmitting, by a first relay node, a detection reference signal to a superordinate relay node at a first time point using a first transmission beam, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node detection request is a first time interval, wherein the first time interval is indicated in a relay node detection configuration message;

transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

and in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

in response to receiving a sounding reference signal transmitted by a first relay node using a first transmission beam, a sounding reference signal transmitted by the first relay node using a second transmission beam, and a sounding reference signal transmitted by the first relay node using a third transmission beam, determining, by an upper relay node, a signal strength of the sounding reference signal transmitted using the first transmission beam, a signal strength of the sounding reference signal transmitted using the second transmission beam, and a signal strength of the sounding reference signal transmitted using the third transmission beam;

if the signal strength of the sounding reference signal sent by using the first transmitting beam is judged to be strongest, a superior relay node sends a relay node sounding report to the first relay node, wherein the relay node sounding report comprises an indication of the first transmitting beam;

in response to receiving the relay node probe report, transmitting, by the first relay node, survey damage assessment information to the superordinate relay node using the first transmit beam;

responding to the received exploration loss assessment information, and sending the exploration loss assessment information to the base station by the superior relay node;

In response to receiving the survey damage assessment information, transmitting, by the base station, the survey damage assessment information to the blockchain system;

in response to sending a relay node probe report to a first relay node, sending, by a superior relay node, a relay node measurement configuration message to the first relay node;

in response to receiving the relay node measurement configuration message, transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the first transmission beam at a first time point, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node sounding request is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

And in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

in response to receiving a sounding reference signal transmitted by a first relay node using a first transmission beam, a sounding reference signal transmitted by the first relay node using a second transmission beam, and a sounding reference signal transmitted by the first relay node using a third transmission beam, determining, by an upper relay node, a signal strength of the sounding reference signal transmitted using the first transmission beam, a signal strength of the sounding reference signal transmitted using the second transmission beam, and a signal strength of the sounding reference signal transmitted using the third transmission beam;

If the signal strength of the sounding reference signal sent by using the second transmitting beam is judged to be strongest, the superior relay node sends a second relay node sounding report to the first relay node, wherein the second relay node sounding report comprises an indication of the second transmitting beam;

in response to receiving the second relay node probe report, transmitting, by the first relay node, survey damage assessment information to the superordinate relay node using the second transmit beam;

generating, by the blockchain system, first mobile terminal control information and second mobile terminal control information;

in response to generating the first mobile terminal control information and the second mobile terminal control information, sending, by the blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station;

in response to receiving the first mobile terminal control information and the second mobile terminal control information, the base station sends the first mobile terminal control information and the second mobile terminal control information to a superior relay node;

in response to receiving the first mobile terminal control information and the second mobile terminal control information, the superior relay node sends the first mobile terminal control information to the first relay node in the first PDSCH message, and the superior relay node sends the second mobile terminal control information to the first relay node in the second PDSCH message.

In a preferred embodiment, the method for transmitting damage assessment information based on block chain system for insurance industry comprises the following steps:

in response to successfully receiving the first mobile terminal control information and the second mobile terminal control information, the first relay node sends the first mobile terminal control information and the second mobile terminal control information to the mobile terminal, wherein if the first relay node successfully receives the first mobile terminal control information and the second mobile terminal control information, the first relay node does not send an ACK message to the upper-level relay node;

if the first relay node does not successfully receive the first mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to an upper-level relay node;

if the first relay node is judged to have a scheduling request to be sent to the superior relay node, the first relay node simultaneously sends a NACK message aiming at the control information of the first mobile terminal and the scheduling request to the superior relay node, wherein the NACK message and the scheduling request of the control information of the first mobile terminal are frequency division multiplexed;

if the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to an upper-level relay node;

And if the first relay node is judged to have the scheduling request to be sent to the superior relay node, simultaneously sending a NACK message aiming at the first mobile terminal control information, a NACK message aiming at the second mobile terminal control information and the scheduling request to the superior relay node by the first relay node, wherein the NACK message aiming at the first mobile terminal control information, the NACK message aiming at the second mobile terminal control information and the scheduling request are frequency division multiplexed.

The invention provides an exploration loss assessment information transmission system based on a blockchain system for the insurance industry, which is characterized by comprising the following components:

means for collecting survey damage assessment information by a mobile terminal;

means for transmitting, by the mobile terminal, the survey damage assessment information to the first relay node in response to collecting the survey damage assessment information;

means for monitoring, by the first relay node, a relay node probe configuration message sent by a superior relay node in response to receiving the reconnaissance damage assessment information;

means for continuing, by the first relay node, to monitor a relay node probe request sent by a superordinate relay node in response to monitoring the relay node probe configuration message;

Means for transmitting, by a first relay node, a sounding reference signal to a superordinate relay node at a first time point using a first transmission beam in response to listening for a relay node sounding request, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node sounding request is a first time interval, wherein the first time interval is indicated in a relay node sounding configuration message;

means for transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

means for transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using the third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

means for determining, by an upper relay node, a signal strength of a sounding reference signal transmitted using a first transmission beam, a signal strength of a sounding reference signal transmitted using a second transmission beam, and a signal strength of a sounding reference signal transmitted using a third transmission beam, in response to receiving the sounding reference signal transmitted using the first transmission beam by the first relay node, the sounding reference signal transmitted using the second transmission beam by the first relay node, and the sounding reference signal transmitted using the third transmission beam by the first relay node;

means for sending, by the superordinate relay node, a relay node sounding report to the first relay node if it is determined that the signal strength of the sounding reference signal sent using the first transmit beam is strongest, wherein the relay node sounding report includes an indication for the first transmit beam;

means for transmitting, by the first relay node, in response to receiving the relay node probe report, survey damage assessment information to a superordinate relay node using the first transmit beam;

means for transmitting, by the superior relay node, the survey damage assessment information to the base station in response to receiving the survey damage assessment information;

Means for transmitting, by the base station, the survey damage assessment information to the blockchain system in response to receiving the survey damage assessment information;

means for transmitting, by a superordinate relay node, a relay node measurement configuration message to a first relay node in response to transmitting a relay node probe report to the first relay node;

means for transmitting, by a first relay node, a sounding reference signal to a superordinate relay node using a first transmit beam at a first time point in response to receiving a relay node measurement configuration message, wherein a time interval between the first time point and a time point at which the first relay node receives a relay node sounding request is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

means for transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

Means for transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using the third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

means for determining, by an upper relay node, a signal strength of a sounding reference signal transmitted using a first transmission beam, a signal strength of a sounding reference signal transmitted using a second transmission beam, and a signal strength of a sounding reference signal transmitted using a third transmission beam, in response to receiving the sounding reference signal transmitted using the first transmission beam by the first relay node, the sounding reference signal transmitted using the second transmission beam by the first relay node, and the sounding reference signal transmitted using the third transmission beam by the first relay node;

Means for sending, by the superordinate relay node, a second relay node sounding report to the first relay node if it is determined that the signal strength of the sounding reference signal sent using the second transmit beam is strongest, wherein the second relay node sounding report includes an indication for the second transmit beam;

means for transmitting, by the first relay node, survey damage assessment information to the superordinate relay node using the second transmit beam in response to receiving the second relay node probe report;

means for generating, by a blockchain system, first mobile terminal control information and second mobile terminal control information;

means for transmitting, by the blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station in response to generating the first mobile terminal control information and the second mobile terminal control information;

a unit for transmitting, by the base station, the first mobile terminal control information and the second mobile terminal control information to the upper relay node in response to receiving the first mobile terminal control information and the second mobile terminal control information;

means for transmitting, by the superior relay node, the first mobile terminal control message to the first relay node in a first PDSCH message and transmitting, by the superior relay node, the second mobile terminal control message to the first relay node in a second PDSCH message in response to receiving the first mobile terminal control message and the second mobile terminal control message.

In a preferred embodiment, the system for transmitting damage assessment information based on block chain system for insurance industry comprises:

means for transmitting, by the first relay node, the first mobile terminal control information and the second mobile terminal control information to the mobile terminal in response to successfully receiving the first mobile terminal control information and the second mobile terminal control information, wherein if the first relay node successfully receives the first mobile terminal control information and the second mobile terminal control information, the first relay node does not transmit an ACK message to the upper relay node;

means for determining, by the first relay node, if the first relay node does not successfully receive the first mobile terminal control information, whether the first relay node has a scheduling request to be sent to an upper relay node;

means for simultaneously transmitting, by the first relay node, a NACK message for the first mobile terminal control information and a scheduling request to an upper relay node if it is determined that the first relay node has the scheduling request to be transmitted to the upper relay node, wherein the NACK message for the first mobile terminal control information and the scheduling request are frequency division multiplexed;

Means for determining, by the first relay node, whether the first relay node has a scheduling request to send to an upper-level relay node if the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information;

means for simultaneously transmitting, by the first relay node, a NACK message for the first mobile terminal control information, a NACK message for the second mobile terminal control information, and a scheduling request to the upper relay node if it is determined that the first relay node has the scheduling request to be transmitted to the upper relay node, wherein the NACK message for the first mobile terminal control information, the NACK message for the second mobile terminal control information, and the scheduling request are frequency division multiplexed.

Compared with the prior art, the method has the following advantages that as described in the background, the current vision is that wireless communication technology terminal equipment is vigorously developed in the aspect of investigation and loss assessment, the terminal equipment is provided with a high-definition image transmission and machine vision intelligent analysis function of the wireless communication technology, and the block chain technology is combined, so that data can be transmitted in a real-time and credible mode in a wireless communication technology network environment, and credible interaction of the intelligent terminal is facilitated. However, the prior art does not currently provide a method capable of supporting fast and stable transmission of the aforementioned information, and in order to realize stable and fast transmission of the key information, the present application provides a method and a system for transmitting the damage assessment information based on the blockchain system for the insurance industry.

Drawings

Fig. 1 is a schematic diagram of a system configuration 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 information transmission time structure according to an embodiment of the invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention. As shown in the figure, the system of the present invention includes a mobile terminal, a first relay node, an upper relay node, a base station, and a block chain system. The blockchain system is well known in the art, and will not be described in detail herein.

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: the mobile terminal collects the survey damage assessment information, and in the application scene of motor vehicle insurance, the survey damage assessment information can be, for example, an accident scene photo, a traffic police responsibility admission photo, a vehicle damage position close-up photo, a video recorded by a party, and the like;

step 102: in response to collecting the survey damage assessment information, sending, by the mobile terminal, the survey damage assessment information to the first relay node;

step 103: in response to receiving the survey damage assessment information, monitoring, by the first relay node, a relay node probe configuration message sent by a superior relay node;

step 104: in response to monitoring the relay node detection configuration message, the first relay node continues to monitor a relay node detection request sent by a superior relay node;

step 105: in response to monitoring the relay node probe request, transmitting, by the first relay node, a probe reference signal to the superordinate relay node at a first time point using a first transmission beam, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node probe request is a first time interval, wherein the first time interval is indicated in the relay node probe configuration message;

Step 106: transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

step 107: and in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

in response to receiving the sounding reference signal transmitted by the first relay node using the first transmission beam, the sounding reference signal transmitted by the first relay node using the second transmission beam, and the sounding reference signal transmitted by the first relay node using the third transmission beam, determining, by the upper relay node, a signal strength of the sounding reference signal transmitted using the first transmission beam, a signal strength of the sounding reference signal transmitted using the second transmission beam, and a signal strength of the sounding reference signal transmitted using the third transmission beam, wherein a measure of the signal strength may be RSRP, RSRQ, SINR, etc. of the signal;

If the signal strength of the sounding reference signal sent by using the first transmitting beam is judged to be strongest, a superior relay node sends a relay node sounding report to the first relay node, wherein the relay node sounding report comprises an indication of the first transmitting beam;

in response to receiving the relay node probe report, transmitting, by the first relay node, survey damage assessment information to the superordinate relay node using the first transmit beam;

responding to the received exploration loss assessment information, and sending the exploration loss assessment information to the base station by the superior relay node;

in response to receiving the survey damage assessment information, transmitting, by the base station, the survey damage assessment information to the blockchain system;

in response to sending a relay node detection report to a first relay node, sending, by a superior relay node, a relay node measurement configuration message to the first relay node;

in response to receiving the relay node measurement configuration message, transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the first transmission beam at a first time point, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node sounding request is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

and in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

In response to receiving a sounding reference signal transmitted by a first relay node using a first transmission beam, a sounding reference signal transmitted by the first relay node using a second transmission beam, and a sounding reference signal transmitted by the first relay node using a third transmission beam, determining, by an upper relay node, a signal strength of the sounding reference signal transmitted using the first transmission beam, a signal strength of the sounding reference signal transmitted using the second transmission beam, and a signal strength of the sounding reference signal transmitted using the third transmission beam;

if the signal strength of the sounding reference signal sent by using the second transmitting beam is judged to be strongest, the superior relay node sends a second relay node sounding report to the first relay node, wherein the second relay node sounding report comprises an indication of the second transmitting beam;

in response to receiving the second relay node probe report, transmitting, by the first relay node, survey damage assessment information to the superordinate relay node using the second transmit beam;

generating, by the blockchain system, first mobile terminal control information and second mobile terminal control information;

in response to generating the first mobile terminal control information and the second mobile terminal control information, sending, by the blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station;

In response to receiving the first mobile terminal control information and the second mobile terminal control information, the base station sends the first mobile terminal control information and the second mobile terminal control information to a superior relay node;

in response to receiving the first mobile terminal control information and the second mobile terminal control information, the superior relay node sends the first mobile terminal control information to the first relay node in the first PDSCH message, and the superior relay node sends the second mobile terminal control information to the first relay node in the second PDSCH message.

In a preferred embodiment, the method for transmitting the damage assessment information based on the blockchain system for the insurance industry comprises the following steps:

in response to successfully receiving the first mobile terminal control information and the second mobile terminal control information, the first relay node sends the first mobile terminal control information and the second mobile terminal control information to the mobile terminal, wherein if the first relay node successfully receives the first mobile terminal control information and the second mobile terminal control information, the first relay node does not send an ACK message to the upper-level relay node;

if the first relay node does not successfully receive the first mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to an upper-level relay node;

If the first relay node is judged to have a scheduling request to be sent to the superior relay node, simultaneously sending a NACK message and the scheduling request aiming at the control information of the first mobile terminal to the superior relay node by the first relay node, wherein the NACK message and the scheduling request of the control information of the first mobile terminal are frequency division multiplexed;

if the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to an upper relay node;

and if the first relay node is judged to have the scheduling request to be sent to the superior relay node, simultaneously sending a NACK message aiming at the first mobile terminal control information, a NACK message aiming at the second mobile terminal control information and the scheduling request to the superior relay node by the first relay node, wherein the NACK message aiming at the first mobile terminal control information, the NACK message aiming at the second mobile terminal control information and the scheduling request are frequency division multiplexed.

The invention provides an exploration loss assessment information transmission system based on a blockchain system for the insurance industry, which is characterized by comprising the following components:

Means for collecting survey damage assessment information by a mobile terminal;

means for transmitting, by the mobile terminal, the survey damage assessment information to the first relay node in response to collecting the survey damage assessment information;

means for monitoring, by the first relay node, a relay node probe configuration message sent by a superior relay node in response to receiving the reconnaissance damage assessment information;

means for continuing, by the first relay node, to monitor a relay node probe request sent by a superordinate relay node in response to monitoring the relay node probe configuration message;

means for transmitting, by a first relay node, a sounding reference signal to a superordinate relay node at a first time point using a first transmission beam in response to listening for a relay node sounding request, wherein a time interval between the first time point and a time point at which the first relay node receives the relay node sounding request is a first time interval, wherein the first time interval is indicated in a relay node sounding configuration message;

means for transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

Means for transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using the third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

means for determining, by an upper relay node, a signal strength of a sounding reference signal transmitted using a first transmission beam, a signal strength of a sounding reference signal transmitted using a second transmission beam, and a signal strength of a sounding reference signal transmitted using a third transmission beam, in response to receiving the sounding reference signal transmitted using the first transmission beam by the first relay node, the sounding reference signal transmitted using the second transmission beam by the first relay node, and the sounding reference signal transmitted using the third transmission beam by the first relay node;

Means for sending, by the superordinate relay node, a relay node sounding report to the first relay node if it is determined that the signal strength of the sounding reference signal sent using the first transmit beam is strongest, wherein the relay node sounding report includes an indication for the first transmit beam;

means for transmitting, by the first relay node, in response to receiving the relay node probe report, survey damage assessment information to a superordinate relay node using the first transmit beam;

means for transmitting, by the superior relay node, the survey damage assessment information to the base station in response to receiving the survey damage assessment information;

means for transmitting, by the base station, the survey damage assessment information to the blockchain system in response to receiving the survey damage assessment information;

means for transmitting, by a superordinate relay node, a relay node measurement configuration message to a first relay node in response to transmitting a relay node probe report to the first relay node;

means for transmitting, by a first relay node, a sounding reference signal to a superordinate relay node using a first transmit beam at a first time point in response to receiving a relay node measurement configuration message, wherein a time interval between the first time point and a time point at which the first relay node receives a relay node sounding request is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

means for transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using the second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using the first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

means for transmitting, by the first relay node, the sounding reference signal to the superordinate relay node using the third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using the second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval.

In a preferred embodiment, the system for transmitting damage assessment information based on blockchain system for insurance industry comprises:

Means for determining, by an upper relay node, a signal strength of a sounding reference signal transmitted using a first transmission beam, a signal strength of a sounding reference signal transmitted using a second transmission beam, and a signal strength of a sounding reference signal transmitted using a third transmission beam, in response to receiving the sounding reference signal transmitted using the first transmission beam by the first relay node, the sounding reference signal transmitted using the second transmission beam by the first relay node, and the sounding reference signal transmitted using the third transmission beam by the first relay node;

means for sending, by the superordinate relay node, a second relay node sounding report to the first relay node if it is determined that the signal strength of the sounding reference signal sent using the second transmission beam is strongest, wherein the second relay node sounding report includes an indication for the second transmission beam;

means for transmitting, by the first relay node, in response to receiving the second relay node probe report, survey impairment information to a superordinate relay node using the second transmit beam;

means for generating, by a blockchain system, first mobile terminal control information and second mobile terminal control information;

Means for transmitting, by the blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station in response to generating the first mobile terminal control information and the second mobile terminal control information;

a unit for transmitting, by the base station, the first mobile terminal control information and the second mobile terminal control information to the superordinate relay node in response to receiving the first mobile terminal control information and the second mobile terminal control information;

means for transmitting, by the superior relay node, the first mobile terminal control message to the first relay node in a first PDSCH message and transmitting, by the superior relay node, the second mobile terminal control message to the first relay node in a second PDSCH message in response to receiving the first mobile terminal control message and the second mobile terminal control message.

In a preferred embodiment, the system for transmitting damage assessment information based on block chain system for insurance industry comprises:

means for transmitting, by the first relay node, the first mobile terminal control information and the second mobile terminal control information to the mobile terminal in response to successfully receiving the first mobile terminal control information and the second mobile terminal control information, wherein if the first relay node successfully receives the first mobile terminal control information and the second mobile terminal control information, the first relay node does not transmit an ACK message to the upper relay node;

Means for determining, by the first relay node, if the first relay node does not successfully receive the first mobile terminal control information, whether the first relay node has a scheduling request to be sent to an upper relay node;

means for transmitting, by the first relay node, a NACK message for the first mobile terminal control information and a scheduling request to the superordinate relay node at the same time if it is determined that the first relay node has the scheduling request to be transmitted to the superordinate relay node, wherein the NACK message for the first mobile terminal control information and the scheduling request are frequency division multiplexed;

means for determining, by the first relay node, whether the first relay node has a scheduling request to send to an upper-level relay node if the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information;

means for simultaneously transmitting, by the first relay node, a NACK message for the first mobile terminal control information, a NACK message for the second mobile terminal control information, and a scheduling request to the upper relay node if it is determined that the first relay node has the scheduling request to be transmitted to the upper relay node, wherein the NACK message for the first mobile terminal control information, the NACK message for the second mobile terminal control information, and the scheduling request are frequency division multiplexed.

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 (4)

1. The block chain system-based exploration loss assessment information transmission method for the insurance industry is characterized by comprising the following steps of:

collecting the investigation and loss assessment information by the mobile terminal;

in response to collecting the survey damage assessment information, transmitting, by a mobile terminal, the survey damage assessment information to a first relay node;

in response to receiving the reconnaissance loss assessment information, monitoring, by the first relay node, a relay node detection configuration message sent by a superior relay node;

in response to monitoring the relay node detection configuration message, the first relay node continues to monitor a relay node detection request sent by a superior relay node;

in response to monitoring the relay node probe request, transmitting, by a first relay node, a probe reference signal to the superordinate relay node using a first transmission beam at a first time point, wherein a time interval between the first time point and a time point at which the relay node probe request is received by the first relay node is a first time interval, wherein the first time interval is indicated in the relay node probe configuration message;

Transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using a first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

transmitting, by the first relay node, a sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using a second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval;

in response to receiving the sounding reference signal transmitted by the first relay node using the first transmission beam, the sounding reference signal transmitted by the first relay node using the second transmission beam, and the sounding reference signal transmitted by the first relay node using the third transmission beam, determining, by the upper relay node, a signal strength of the sounding reference signal transmitted using the first transmission beam, a signal strength of the sounding reference signal transmitted using the second transmission beam, and a signal strength of the sounding reference signal transmitted using the third transmission beam;

If the signal strength of a sounding reference signal sent by using a first transmitting beam is judged to be strongest, a superior relay node sends a relay node sounding report to the first relay node, wherein the relay node sounding report comprises an indication of the first transmitting beam;

in response to receiving the relay node probe report, sending, by a first relay node, the survey damage assessment information to the superordinate relay node using a first transmit beam;

in response to receiving the survey damage assessment information, sending, by a superior relay node, the survey damage assessment information to a base station;

in response to receiving the survey damage assessment information, sending, by a base station, the survey damage assessment information to a blockchain system;

sending, by a superior relay node to the first relay node, a relay node measurement configuration message in response to sending a relay node probe report to the first relay node;

in response to receiving the relay node measurement configuration message, transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a first transmission beam at a first time point, wherein a time interval between the first time point and a time point at which the relay node sounding request is received by the first relay node is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message;

If the signal strength of the sounding reference signal sent by using a second transmitting beam is judged to be strongest, a second relay node sounding report is sent to the first relay node by a superior relay node, wherein the second relay node sounding report comprises an indication of the second transmitting beam;

in response to receiving the second relay node sounding report, transmitting, by the first relay node, the survey damage assessment information to the superordinate relay node using a second transmit beam;

generating, by the blockchain system, first mobile terminal control information and second mobile terminal control information;

in response to generating the first mobile terminal control information and the second mobile terminal control information, sending, by a blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station;

in response to receiving the first mobile terminal control information and the second mobile terminal control information, sending, by a base station, the first mobile terminal control information and the second mobile terminal control information to the superior relay node;

in response to receiving the first mobile terminal control information and the second mobile terminal control information, sending, by the superior relay node, the first mobile terminal control information to the first relay node in a first PDSCH message, and sending, by the superior relay node, the second mobile terminal control information to the first relay node in a second PDSCH message.

2. The method of claim 1, wherein the method for transmitting damage assessment information based on blockchain system for insurance industry comprises the steps of:

in response to successfully receiving the first mobile terminal control information and the second mobile terminal control information, the first relay node sends the first mobile terminal control information and the second mobile terminal control information to the mobile terminal, wherein if the first relay node successfully receives the first mobile terminal control information and the second mobile terminal control information, the first relay node does not send an ACK message to the superior relay node;

if the first relay node does not successfully receive the first mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to the superior relay node;

if the first relay node is judged to have the scheduling request to be sent to the superior relay node, simultaneously sending a NACK message aiming at the first mobile terminal control information and the scheduling request to the superior relay node by the first relay node, wherein the NACK message and the scheduling request of the first mobile terminal control information are frequency division multiplexed;

If the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information, the first relay node judges whether the first relay node has a scheduling request to be sent to the superior relay node;

and if the first relay node is judged to have the scheduling request to be sent to the superior relay node, simultaneously sending a NACK message aiming at the first mobile terminal control information, a NACK message aiming at the second mobile terminal control information and the scheduling request to the superior relay node by the first relay node, wherein the NACK message aiming at the first mobile terminal control information, the NACK message aiming at the second mobile terminal control information and the scheduling request are frequency division multiplexed.

3. An exploration damage assessment information transmission system based on a blockchain system for the insurance industry, which is characterized by comprising:

means for collecting survey damage assessment information by a mobile terminal;

means for transmitting, by a mobile terminal, the survey damage assessment information to a first relay node in response to collecting the survey damage assessment information;

Means for monitoring, by a first relay node, a relay node probe configuration message sent by a superior relay node in response to receiving the reconnaissance damage assessment information;

means for continuing, by the first relay node, to listen for a relay node probe request sent by a superordinate relay node in response to listening for the relay node probe configuration message;

means for transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a first transmission beam at a first time point in response to listening to the relay node sounding request, wherein a time interval between the first time point and a time point at which the relay node sounding request is received by the first relay node is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message;

means for transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a second transmission beam at a second point in time in response to transmitting the sounding reference signal to the superordinate relay node using a first transmission beam at the first point in time, wherein a time interval between the second point in time and the first point in time is a second time interval, wherein the second time interval is indicated in the relay node sounding configuration message;

Means for transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a third transmission beam at a third point in time in response to transmitting the sounding reference signal to the superordinate relay node using a second transmission beam at the second point in time, wherein a time interval between the third point in time and the second point in time is a third time interval, wherein the third time interval is indicated in the relay node sounding configuration message, wherein the third time interval is different from the second time interval;

means for determining, by an upper relay node, a signal strength of a sounding reference signal transmitted using a first transmission beam, a signal strength of a sounding reference signal transmitted using a second transmission beam, and a signal strength of a sounding reference signal transmitted using a third transmission beam, in response to receiving the sounding reference signal transmitted using the first transmission beam by the first relay node, the sounding reference signal transmitted using the second transmission beam by the first relay node, and the sounding reference signal transmitted using the third transmission beam by the first relay node;

means for sending, by an upper relay node, a relay node sounding report to a first relay node if it is determined that a signal strength of a sounding reference signal sent using a first transmit beam is strongest, wherein the relay node sounding report includes an indication for the first transmit beam;

Means for transmitting, by a first relay node, the survey impairment information to the superordinate relay node using a first transmit beam in response to receiving the relay node probe report;

means for transmitting, by a superior relay node, the survey damage assessment information to a base station in response to receiving the survey damage assessment information;

means for transmitting, by a base station, the survey impairment information to a blockchain system in response to receiving the survey impairment information;

means for transmitting, by a superordinate relay node, a relay node measurement configuration message to the first relay node in response to transmitting a relay node probe report to the first relay node;

means for transmitting, by a first relay node, a sounding reference signal to the superordinate relay node using a first transmission beam at a first time point in response to receiving the relay node measurement configuration message, wherein a time interval between the first time point and a time point at which the relay node sounding request is received by the first relay node is a first time interval, wherein the first time interval is indicated in the relay node sounding configuration message;

means for sending, by an upper relay node, a second relay node sounding report to the first relay node if it is determined that a signal strength of a sounding reference signal sent using a second transmit beam is strongest, wherein the second relay node sounding report includes an indication for the second transmit beam;

Means for transmitting, by a first relay node, the survey damage assessment information to the superordinate relay node using a second transmit beam in response to receiving the second relay node probe report;

means for generating, by a blockchain system, first mobile terminal control information and second mobile terminal control information;

means for transmitting, by a blockchain system, the first mobile terminal control information and the second mobile terminal control information to the base station in response to generating the first mobile terminal control information and the second mobile terminal control information;

means for transmitting, by a base station, the first mobile terminal control information and the second mobile terminal control information to the superior relay node in response to receiving the first mobile terminal control information and the second mobile terminal control information;

means for sending, by a superior relay node, the first mobile terminal control message to the first relay node in a first PDSCH message and sending, by the superior relay node, the second mobile terminal control message to the first relay node in a second PDSCH message in response to receiving the first mobile terminal control message and the second mobile terminal control message.

4. The blockchain system based exploration damage-assessment information transmission system for the insurance industry of claim 3, wherein said blockchain system based exploration damage-assessment information transmission system for the insurance industry comprises:

means for transmitting, by a first relay node, the first mobile terminal control information and second mobile terminal control information to a mobile terminal in response to successfully receiving the first mobile terminal control information and second mobile terminal control information, wherein if the first relay node successfully receives the first mobile terminal control information and second mobile terminal control information, the first relay node does not transmit an ACK message to the superior relay node;

means for determining, by a first relay node, if the first relay node does not successfully receive the first mobile terminal control information, whether the first relay node has a scheduling request to send to the superordinate relay node;

means for simultaneously transmitting, by a first relay node, a NACK message for the first mobile terminal control information and a scheduling request to the superordinate relay node if it is determined that the first relay node has the scheduling request to transmit to the superordinate relay node, wherein the NACK message for the first mobile terminal control information and the scheduling request are frequency division multiplexed;

Means for determining, by a first relay node, whether the first relay node has a scheduling request to send to the superordinate relay node if the first relay node does not successfully receive the first mobile terminal control information and the second mobile terminal control information;

means for transmitting, by a first relay node, a NACK message for the first mobile terminal control information, a NACK message for the second mobile terminal control information, and a scheduling request to the superordinate relay node simultaneously if it is determined that the first relay node has a scheduling request to transmit to the superordinate relay node, wherein the NACK message for the first mobile terminal control information, the NACK message for the second mobile terminal control information, and the scheduling request are frequency division multiplexed.

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