CN110856277B - Monitoring information transmission method and system for construction of ultra-high large-span welded ball joint net rack of museum - Google Patents

Abstract

The invention discloses a monitoring information transmission method for the construction of a museum ultrahigh large-span welding ball joint net rack, which is characterized by comprising the following steps of: the monitoring information transmission method for the construction of the ultra-high large-span welding ball joint net rack of the museum comprises the following steps: collecting construction monitoring information by a mobile terminal; establishing RRC connection between a mobile terminal and a base station, wherein the mobile terminal and the base station carry out carrier aggregation communication; configuring, by a base station, a mobile terminal to be able to send a scheduling request via a PUCCH channel on a secondary cell, SCell; if the mobile terminal judges that the construction monitoring information needs to be sent to the base station, the mobile terminal generates a scheduling request; transmitting, by the mobile terminal, the generated scheduling request to the base station via a PUCCH channel on the SCell; the scheduling request prohibit transmission timer is started by the mobile terminal in response to transmitting a scheduling request to the base station via the PUCCH channel on the SCell.

Description

Monitoring information transmission method and system for construction of ultra-high large-span welded ball joint net rack of museum

Technical Field

The invention relates to the technical field of welding ball joint net rack construction, in particular to a monitoring information transmission method and a monitoring information transmission system for the construction of an ultrahigh large-span welding ball joint net rack in a museum.

Background

The grid structure is a space structure formed by connecting a plurality of rod pieces through nodes according to a certain grid form. The device has the advantages of small space stress, light weight, high rigidity, good earthquake resistance and the like; can be used as the roof of buildings such as gymnasiums, movie theaters, exhibition halls, waiting halls, stadium stand awnings, hangars, bidirectional large-column-distance workshops and the like. The defects are that the number of the rod pieces converged on the node is large, and the manufacturing and installation are more complicated than the plane structure.

Prior art CN104947942B discloses an installation method, which is performed as follows: calculation and analysis before rotary operation → calculation and control in construction → preparation before lifting of the unit net rack → lifting mode → condition of lifting site → temporary rod support of the unit net rack → stage lifting → accessory installation.

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 monitoring information transmission method and a monitoring information transmission system for the construction of an ultrahigh large-span welding ball joint net rack of a museum, which can overcome the defects of the prior art.

In order to achieve the purpose, the invention provides a monitoring information transmission method for the construction of a museum ultrahigh large-span welding ball joint net rack, which is characterized by comprising the following steps: the monitoring information transmission method for the construction of the ultra-high large-span welding ball joint net rack of the museum comprises the following steps: collecting construction monitoring information by a mobile terminal; establishing RRC connection between a mobile terminal and a base station, wherein the mobile terminal and the base station carry out carrier aggregation communication; configuring, by a base station, a mobile terminal to be able to send a scheduling request via a PUCCH channel on a secondary cell, SCell; if the mobile terminal judges that the construction monitoring information needs to be sent to the base station, the mobile terminal generates a scheduling request; transmitting, by the mobile terminal, the generated scheduling request to the base station via a PUCCH channel on the SCell; starting, by the mobile terminal, a scheduling request prohibit transmission timer in response to transmitting a scheduling request to the base station via the PUCCH channel on the SCell; responding to a scheduling request sent to a base station on an SCell through a PUCCH channel, judging whether the scheduling request in an activated state exists or not by a mobile terminal, and if the scheduling request in the activated state does not exist, clearing a scheduling request counter by the mobile terminal; if the mobile terminal receives an uplink grant, the mobile terminal determining whether uplink resources indicated in the uplink grant are sufficient for transmitting construction monitoring information, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request; and if the uplink resources indicated in the uplink grant are judged to be enough for transmitting the construction monitoring information, the mobile terminal stops the scheduling request forbidding to transmit the timer, records that all scheduling requests are in a deactivated state, and transmits the construction monitoring information to the base station through the uplink shared channel of the SCell on the indicated uplink resources.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps: if the mobile terminal does not receive the uplink grant, the mobile terminal determines whether there are sufficient resources on the PUCCH to resend the scheduling request; if it is determined that there are not enough resources on the PUCCH to retransmit the scheduling request, the following is performed: disconnecting, by the mobile terminal, the RRC connection with the base station; clearing all uplink grants by the mobile terminal; in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal; and recording that all scheduling requests are in a deactivation state by the mobile terminal.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps: if the PUCCH is judged to have enough resources to resend the scheduling request, the mobile terminal judges whether the scheduling request forbidding sending timer is overtime; if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is larger than a scheduling request transmission time threshold value or not; if the count in the scheduling request counter is smaller than the threshold value of the transmission times of the scheduling request, the mobile terminal retransmits the scheduling request to the base station on the PUCCH channel of the SCell; in response to retransmitting the scheduling request to the base station on the PUCCH channel of the SCell, the count in the scheduling request counter is incremented by one by the mobile terminal, and the scheduling request prohibit transmission timer is reset and started.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps: if the scheduling request prohibit sending timer is not overtime, the mobile terminal judges whether the PUCCH has enough resources again at the next transmission time interval TTI to resend the scheduling request; if the PUCCH is judged to have enough resources to resend the scheduling request, the mobile terminal judges whether the scheduling request forbidding sending timer is overtime; if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is larger than a scheduling request transmission time threshold value or not; if the count in the scheduling request counter is smaller than the threshold value of the transmission times of the scheduling request, the mobile terminal retransmits the scheduling request to the base station on the PUCCH channel of the SCell; in response to retransmitting the scheduling request to the base station on the PUCCH channel of the SCell, the count in the scheduling request counter is incremented by one by the mobile terminal, and the scheduling request prohibit transmission timer is reset and started.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps: if the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request, the following operations are carried out: disconnecting, by the mobile terminal, the RRC connection with the base station; clearing all uplink grants by the mobile terminal; in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal; and recording that all scheduling requests are in a deactivation state by the mobile terminal.

The invention provides a monitoring information transmission system for construction of a museum ultrahigh large-span welding ball joint net rack, which is characterized in that: a monitoring information transmission system that is used for museum's super high large-span welding ball node rack to be under construction includes: a unit for collecting construction monitoring information by a mobile terminal; means for establishing an RRC connection by a mobile terminal with a base station, wherein the mobile terminal is in carrier aggregation communication with the base station; means for configuring, by a base station, that a mobile terminal is capable of sending a scheduling request via a PUCCH channel on a secondary cell, SCell; a unit for generating a scheduling request by the mobile terminal if the mobile terminal judges that the construction monitoring information needs to be sent to the base station; means for transmitting, by the mobile terminal, the generated scheduling request to the base station via a PUCCH channel on the SCell; means for starting, by the mobile terminal, a scheduling request prohibit transmission timer in response to transmitting a scheduling request to the base station via the PUCCH channel on the SCell; means for determining, by the mobile terminal, whether there is a scheduling request in an active state in response to sending a scheduling request to the base station on the SCell via the PUCCH channel, and clearing, by the mobile terminal, a scheduling request counter if there is no scheduling request in the active state; means for determining, by the mobile terminal, if the mobile terminal receives an uplink grant, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request, whether uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information; means for stopping, by the mobile terminal, the scheduling request prohibit transmission timer if it is determined that the uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information, and recording, by the mobile terminal, that all scheduling requests are in a deactivated state, and transmitting, by the mobile terminal, the construction monitoring information to the base station through the uplink shared channel of the SCell on the indicated uplink resources.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises: means for determining, by the mobile terminal, if the mobile terminal does not receive the uplink grant, whether there are sufficient resources on the PUCCH to resend the scheduling request; means for, if it is determined that there are insufficient resources on the PUCCH to retransmit the scheduling request: disconnecting, by the mobile terminal, the RRC connection with the base station; clearing all uplink grants by the mobile terminal; in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal; and recording that all scheduling requests are in a deactivation state by the mobile terminal.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises: means for determining, by the mobile terminal, whether a scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request; a unit for judging whether the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request by the mobile terminal if the scheduling request forbidding sending timer is overtime; means for retransmitting, by the mobile terminal, the scheduling request to the base station on a PUCCH channel of the SCell if the count in the scheduling request counter is less than a scheduling request transmission number threshold value; means for incrementing, by the mobile terminal, a count in a scheduling request counter by one and resetting and starting a scheduling request prohibit transmission timer in response to a retransmission of the scheduling request to the base station on a PUCCH channel of the SCell.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises: means for re-determining, by the mobile terminal, if the scheduling request prohibit transmission timer has not timed out, whether there are sufficient resources on the PUCCH to re-transmit the scheduling request at a next transmission time interval TTI; means for determining, by the mobile terminal, whether a scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request; a unit for judging whether the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request by the mobile terminal if the scheduling request forbidding sending timer is overtime; means for retransmitting, by the mobile terminal, the scheduling request to the base station on a PUCCH channel of the SCell if the count in the scheduling request counter is less than a scheduling request transmission number threshold value; means for incrementing, by the mobile terminal, a count in a scheduling request counter by one and resetting and starting a scheduling request prohibit transmission timer in response to a retransmission of the scheduling request to the base station on a PUCCH channel of the SCell.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises: means for, if the count in the scheduling request counter is greater than the scheduling request transmission number threshold value: disconnecting, by the mobile terminal, the RRC connection with the base station; clearing all uplink grants by the mobile terminal; in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal; and recording that all scheduling requests are in a deactivation state by the mobile terminal.

Compared with the prior art, the invention has the following advantages: to build a harmonious society, the country is increasingly emphasizing the importance of construction safety. Once an accident occurs, not only the whole project is affected, but also the related responsible persons are subjected to severe penalties. Under the influence of national policies, the importance of construction safety is increasingly emphasized by various great workers at present. In order to improve the construction safety, each worker generally takes measures such as regular safety education, regular inspection, fine and the like, which have certain effects, but modern management theory actually proves that the measures such as fine and the like are not effective measures, and simultaneously the measures consume a large amount of human resources, meanwhile, the problems of personal committee inspection, namely personal committee inspection, or concealing and not reporting are easy to occur, the manual inspection is difficult to ensure the inspection frequency, and accidents occur between two inspections. In order to ensure that the problem that the inspection is not reported can be concealed and the inspection frequency can be greatly improved, the method of replacing manual inspection by using an unmanned aerial vehicle or a robot is an effective method, and how to report the inspection result of the unmanned aerial vehicle or the robot becomes a problem to be solved urgently. The application provides a monitoring information transmission method for construction of a museum ultrahigh large-span welding ball joint net rack, and the method can ensure that an unmanned aerial vehicle or a robot timely reports a check result to a supervisor.

Drawings

FIG. 1 is a flow diagram of a method according to an embodiment of the invention.

Detailed Description

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

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations such as "comprises" or "comprising", etc., 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 flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:

step 101: collecting construction monitoring information (such as stress information of each structure, construction site photos, dangerous goods data and the like) by a mobile terminal;

step 102: establishing RRC connection between a mobile terminal and a base station, wherein the mobile terminal and the base station carry out carrier aggregation communication;

step 103: configuring, by a base station, a mobile terminal to be able to send a scheduling request via a PUCCH channel on a secondary cell, SCell;

step 104: if the mobile terminal judges that the construction monitoring information needs to be sent to the base station, the mobile terminal generates a scheduling request;

step 105: transmitting, by the mobile terminal, the generated scheduling request to the base station via a PUCCH channel on the SCell;

step 106: starting, by the mobile terminal, a scheduling request prohibit transmission timer in response to transmitting a scheduling request to the base station via the PUCCH channel on the SCell;

step 107: responding to a scheduling request sent to a base station on an SCell through a PUCCH channel, judging whether the scheduling request in an activated state exists or not by a mobile terminal, and if the scheduling request in the activated state does not exist, clearing a scheduling request counter by the mobile terminal;

step 108: if the mobile terminal receives an uplink grant, the mobile terminal determining whether uplink resources indicated in the uplink grant are sufficient for transmitting construction monitoring information, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request;

step 109: and if the uplink resources indicated in the uplink grant are judged to be enough for transmitting the construction monitoring information, the mobile terminal stops the scheduling request forbidding to transmit the timer, records that all scheduling requests are in a deactivated state, and transmits the construction monitoring information to the base station through the uplink shared channel of the SCell on the indicated uplink resources.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps:

if the mobile terminal does not receive the uplink grant, the mobile terminal determines whether there are sufficient resources on the PUCCH to resend the scheduling request;

if it is determined that there are not enough resources on the PUCCH to retransmit the scheduling request, the following is performed:

disconnecting, by the mobile terminal, the RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps:

if the mobile terminal judges that the PUCCH has enough resources to resend the scheduling request, the mobile terminal judges whether a scheduling request forbidding sending timer is overtime or not;

if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is larger than a scheduling request transmission time threshold value or not;

if the count in the scheduling request counter is smaller than the threshold value of the transmission times of the scheduling request, the mobile terminal retransmits the scheduling request to the base station on the PUCCH channel of the SCell;

in response to retransmitting the scheduling request to the base station on the PUCCH channel of the SCell, the count in the scheduling request counter is incremented by one by the mobile terminal, and the scheduling request prohibit transmission timer is reset and started.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps:

if the scheduling request prohibit sending timer is not overtime, the mobile terminal judges again whether the PUCCH has enough resources to resend the scheduling request at the next transmission time interval TTI;

if the PUCCH is judged to have enough resources to resend the scheduling request, the mobile terminal judges whether the scheduling request forbidding sending timer is overtime;

if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is greater than a scheduling request transmission time threshold value or not;

if the count in the scheduling request counter is smaller than the threshold value of the transmission times of the scheduling request, the mobile terminal retransmits the scheduling request to the base station on the PUCCH channel of the SCell;

in response to retransmitting the scheduling request to the base station on the PUCCH channel of the SCell, the count in the scheduling request counter is incremented by one by the mobile terminal, and the scheduling request prohibit transmission timer is reset and started.

In a preferred embodiment, the monitoring information transmission method for the construction of the ultra-high and large-span welded ball node net rack of the museum comprises the following steps:

if the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request, the following operations are carried out:

disconnecting, by the mobile terminal, the RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

The invention provides a monitoring information transmission system for construction of a museum ultrahigh large-span welding ball joint net rack, which is characterized in that: a monitoring information transmission system that is used for museum's super high large-span welding ball node rack to be under construction includes:

a unit for collecting construction monitoring information by a mobile terminal;

means for establishing an RRC connection by a mobile terminal with a base station, wherein the mobile terminal is in carrier aggregation communication with the base station;

means for configuring, by a base station, that a mobile terminal is capable of sending a scheduling request via a PUCCH channel on a secondary cell, SCell;

a unit for generating a scheduling request by the mobile terminal if the mobile terminal judges that the construction monitoring information needs to be sent to the base station;

means for transmitting, by the mobile terminal, the generated scheduling request to the base station via a PUCCH channel on the SCell;

means for starting, by the mobile terminal, a scheduling request prohibit transmission timer in response to transmitting a scheduling request to the base station via the PUCCH channel on the SCell;

a unit for responding to a scheduling request sent to a base station on an SCell via a PUCCH channel, judging whether a scheduling request in an active state exists by a mobile terminal, and clearing a scheduling request counter by the mobile terminal if the scheduling request in the active state does not exist;

means for determining, by the mobile terminal, if the mobile terminal receives an uplink grant, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request, whether uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information;

means for stopping, by the mobile terminal, the scheduling request prohibit transmission timer and recording, by the mobile terminal, that all scheduling requests are in a deactivated state if it is determined that the uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information, and transmitting, by the mobile terminal, the construction monitoring information to the base station through the uplink shared channel of the SCell on the indicated uplink resources.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises:

means for determining, by the mobile terminal, if the mobile terminal does not receive the uplink grant, whether there are sufficient resources on the PUCCH to resend the scheduling request;

means for, if it is determined that there are insufficient resources on the PUCCH to retransmit the scheduling request:

disconnecting, by the mobile terminal, the RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises:

means for determining, by the mobile terminal, whether a scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request;

a unit for judging whether the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request by the mobile terminal if the scheduling request prohibit-from-sending timer has overtime;

means for retransmitting, by the mobile terminal, the scheduling request to the base station on a PUCCH channel of the SCell if the count in the scheduling request counter is less than a scheduling request transmission number threshold value;

means for incrementing, by the mobile terminal, a count in a scheduling request counter by one and resetting and starting a scheduling request prohibit transmission timer in response to a retransmission of the scheduling request to the base station on the PUCCH channel of the SCell.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises:

means for re-determining, by the mobile terminal, if the scheduling request prohibit transmission timer has not timed out, whether there are sufficient resources on the PUCCH to re-transmit the scheduling request at a next transmission time interval TTI;

means for determining, by the mobile terminal, whether a scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request;

a unit for judging whether the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request by the mobile terminal if the scheduling request forbidding sending timer is overtime;

means for retransmitting, by the mobile terminal, the scheduling request to the base station on a PUCCH channel of the SCell if the count in the scheduling request counter is less than a scheduling request transmission number threshold value;

means for incrementing, by the mobile terminal, a count in a scheduling request counter by one and resetting and starting a scheduling request prohibit transmission timer in response to a retransmission of the scheduling request to the base station on a PUCCH channel of the SCell.

In a preferred embodiment, the monitoring information transmission system for the construction of the ultra-high and large-span welding ball node net rack of the museum comprises:

means for, if the count in the scheduling request counter is greater than the scheduling request transmission number threshold value:

disconnecting, by the mobile terminal, the RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing a random access procedure on the PCell by the mobile terminal;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

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 (2)

1. The utility model provides a monitoring information transmission method that is used for construction of museum's super high large-span welding ball node rack which characterized in that:

the monitoring information transmission method for the construction of the ultra-high large-span welding ball joint net rack of the museum comprises the following steps:

collecting construction monitoring information by a mobile terminal;

establishing RRC connection between a mobile terminal and a base station, wherein the mobile terminal and the base station carry out carrier aggregation communication;

configuring, by a base station, the mobile terminal to enable the mobile terminal to send a scheduling request via a PUCCH channel on a secondary cell, SCell;

if the mobile terminal judges that the construction monitoring information needs to be sent to the base station, the mobile terminal generates a scheduling request;

transmitting, by a mobile terminal, the generated scheduling request to the base station on the SCell via a PUCCH channel;

starting, by a mobile terminal, a scheduling request prohibit transmission timer in response to transmitting the scheduling request to the base station on the SCell via a PUCCH channel;

responding to the dispatching request sent to the base station on the SCell through a PUCCH channel, judging whether the dispatching request in the activated state exists or not by the mobile terminal, and clearing a dispatching request counter by the mobile terminal if the dispatching request in the activated state does not exist;

determining, by a mobile terminal, if an uplink grant is received by the mobile terminal, whether uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request;

if the uplink resource indicated in the uplink grant is judged to be enough for transmitting the construction monitoring information, the mobile terminal stops the scheduling request forbidding to transmit the timer, records that all scheduling requests are in a deactivated state, and transmits the construction monitoring information to the base station through an uplink shared channel of the SCell on the indicated uplink resource,

if the mobile terminal does not receive the uplink grant, the mobile terminal determines whether there are sufficient resources on the PUCCH to resend the scheduling request;

if it is determined that there are not enough resources on the PUCCH to retransmit the scheduling request, the following is performed:

disconnecting, by a mobile terminal, an RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing, by the mobile terminal, a random access procedure on the PCell;

recording by the mobile terminal that all scheduling requests are in a deactivated state,

if the PUCCH is judged to have enough resources to resend the scheduling request, the mobile terminal judges whether the scheduling request forbidding sending timer is overtime;

if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is larger than a scheduling request transmission time threshold value or not;

if the count in the scheduling request counter is smaller than a scheduling request transmission frequency threshold value, the mobile terminal retransmits the scheduling request to the base station on a PUCCH (physical uplink control channel) of the SCell;

incrementing, by a mobile terminal, a count in the scheduling request counter by one in response to a retransmission of a scheduling request to the base station on a PUCCH channel of an SCell, and resetting and starting the scheduling request prohibit transmission timer,

if the scheduling request prohibit sending timer is not overtime, the mobile terminal judges again whether the PUCCH has enough resources to resend the scheduling request at the next transmission time interval TTI;

if the PUCCH is judged to have enough resources to resend the scheduling request, the mobile terminal judges whether the scheduling request forbidding sending timer is overtime;

if the scheduling request forbidding sending timer is overtime, the mobile terminal judges whether the count in the scheduling request counter is larger than a scheduling request transmission time threshold value or not;

if the count in the scheduling request counter is smaller than a scheduling request transmission frequency threshold value, the mobile terminal retransmits the scheduling request to the base station on a PUCCH (physical uplink control channel) of the SCell;

incrementing, by a mobile terminal, a count in the scheduling request counter by one in response to a retransmission of a scheduling request to the base station on a PUCCH channel of an SCell, and resetting and starting the scheduling request prohibit transmission timer,

if the count in the scheduling request counter is greater than the threshold value of the transmission times of the scheduling request, the following operations are carried out:

disconnecting, by a mobile terminal, an RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing, by the mobile terminal, a random access procedure on the PCell;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

2. The utility model provides a monitoring information transmission system that is used for construction of museum's super high large-span welding ball node rack which characterized in that:

a monitoring information transmission system for construction of museum's super high large-span welding ball node rack includes:

a unit for collecting construction monitoring information by a mobile terminal;

means for establishing, by a mobile terminal, an RRC connection with a base station, wherein the mobile terminal is in carrier aggregation communication with the base station;

means for configuring, by a base station, the mobile terminal to enable the mobile terminal to send a scheduling request via a PUCCH channel on a secondary cell, SCell;

a unit for generating a scheduling request by the mobile terminal if the mobile terminal judges that the construction monitoring information needs to be sent to the base station;

means for transmitting, by a mobile terminal, the generated scheduling request to the base station on the SCell via a PUCCH channel;

means for starting, by a mobile terminal, a scheduling request prohibit transmission timer in response to transmitting the scheduling request to the base station on the SCell via a PUCCH channel;

means for determining, by the mobile terminal, whether there is a scheduling request in an active state in response to transmitting the scheduling request to the base station on the SCell via a PUCCH channel, and clearing, by the mobile terminal, a scheduling request counter if there is no scheduling request in the active state;

means for determining, by a mobile terminal, if an uplink grant is received by the mobile terminal, whether uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information, wherein the uplink grant is transmitted by the base station in response to receiving the scheduling request;

means for stopping, by the mobile terminal, the scheduling request prohibit transmission timer if it is determined that the uplink resources indicated in the uplink grant are sufficient for transmitting the construction monitoring information, and recording, by the mobile terminal, that all scheduling requests are in a deactivated state, and transmitting, by the mobile terminal, the construction monitoring information to the base station through an uplink shared channel of the SCell on the indicated uplink resources,

means for determining, by the mobile terminal, if the mobile terminal does not receive an uplink grant, whether there are sufficient resources on the PUCCH to resend the scheduling request;

means for, if it is determined that there are insufficient resources on the PUCCH to retransmit the scheduling request:

disconnecting, by a mobile terminal, an RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing, by the mobile terminal, a random access procedure on the PCell;

recording by the mobile terminal that all scheduling requests are in a deactivated state,

means for determining, by the mobile terminal, whether the scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request;

a unit for judging whether the count in the scheduling request counter is greater than a scheduling request transmission number threshold value by the mobile terminal if the scheduling request prohibit-sending timer has timed out;

means for retransmitting, by a mobile terminal, a scheduling request to the base station on a PUCCH channel of an SCell if a count in the scheduling request counter is less than a scheduling request transmission number threshold value;

means for incrementing, by a mobile terminal, a count in the scheduling request counter by one and resetting and starting the scheduling request prohibit transmission timer in response to a retransmission of a scheduling request to the base station on a PUCCH channel of an SCell,

means for re-determining, by the mobile terminal, if the scheduling request prohibit transmission timer has not timed out, whether there are sufficient resources on the PUCCH to re-transmit the scheduling request at a next transmission time interval, TTI;

means for determining, by the mobile terminal, whether the scheduling request prohibit transmission timer has expired if it is determined that there are sufficient resources on the PUCCH to retransmit the scheduling request;

a unit for judging whether the count in the scheduling request counter is greater than a scheduling request transmission number threshold value by the mobile terminal if the scheduling request prohibit-sending timer has timed out;

means for retransmitting, by a mobile terminal, a scheduling request to the base station on a PUCCH channel of an SCell if a count in the scheduling request counter is less than a scheduling request transmission number threshold value;

means for incrementing, by a mobile terminal, a count in the scheduling request counter by one and resetting and starting the scheduling request prohibit transmission timer in response to a retransmission of a scheduling request to the base station on a PUCCH channel of an SCell,

means for, if the count in the scheduling request counter is greater than a scheduling request transmission number threshold value:

disconnecting, by a mobile terminal, an RRC connection with the base station;

clearing all uplink grants by the mobile terminal;

in response to disconnecting the RRC connection with the base station and clearing all uplink grants, re-performing, by the mobile terminal, a random access procedure on the PCell;

and recording that all scheduling requests are in a deactivation state by the mobile terminal.

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