CN110958637A - Quick response method and system for intelligent cell - Google Patents

Abstract

The invention discloses a quick response method for an intelligent cell, which comprises the following steps: collecting cell environment information by a first mobile monitoring terminal; establishing RRC connection between the first mobile monitoring terminal and the base station; transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station; judging whether the first mobile monitoring terminal needs to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station or not by the base station; if the base station judges that the first mobile monitoring terminal is to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station, the base station further judges whether the size of the cell environment information to be sent is larger than a first threshold; and if the size of the cell environment information to be sent is smaller than the first threshold, the base station sends the cell environment information to be sent to the core network.

Description

Quick response method and system for intelligent cell

Technical Field

The invention relates to the technical field of security protection in a fixed area, in particular to a quick response method and a quick response system for an intelligent cell.

Background

The security responsibility in the cell is to serve the owner of the cell to perform the maintenance and security work of the cell. The safety, normal work order, security order and precaution in the fixed area are ensured by the work implementation of security personnel.

Prior art CN106707875B is an intelligent residential district security monitoring management system, networking method and monitoring management method, including the security network, just the security network construct by node device and gateway and form, node and gateway on all be provided with the ZigBee chip for construct the ZigBee star network between the security device, and through network fusion with the monitoring data upload to the intelligence center of every security device, and with a large amount of data storage to the cloud end, construct network system, and this network system accessible third party App is connected to the terminal of owner, makes things convenient for the owner to monitor the residential district.

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 quick response method and a quick response system for an intelligent cell, which can overcome the defects of the prior art.

In order to achieve the above object, the present invention provides a method for fast responding to an intelligent cell, comprising the following steps: collecting cell environment information by a first mobile monitoring terminal; establishing RRC connection between the first mobile monitoring terminal and the base station; transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station; judging whether the first mobile monitoring terminal needs to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station or not by the base station; if the base station judges that the first mobile monitoring terminal is to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station, the base station further judges whether the size of the cell environment information to be sent is larger than a first threshold; if the size of the cell environment information to be sent is smaller than a first threshold, the base station sends the cell environment information to be sent to a core network, wherein the cell environment information is sent to a second mobile monitoring terminal through the core network; and if the size of the cell environment information to be sent is larger than the first threshold, the base station directly sends the cell environment information to be sent to the second mobile monitoring terminal.

In a preferred embodiment, the sending, by the first mobile monitoring terminal, the collected cell environment information to the base station includes the following steps: a first mobile monitoring terminal sends a resource allocation request to a base station; in response to receiving the resource allocation request, transmitting, by the base station, an uplink grant to the first mobile monitoring terminal over the PDCCH channel; in response to receiving the uplink grant, transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on uplink resources indicated by the uplink grant;

and responding to the received collected cell environment information, and sending a confirmation message to the first mobile monitoring terminal by the base station.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: if the size of the cell environment information to be sent is larger than a first threshold, the base station sends a measurement command to a second mobile monitoring terminal on a PDCCH channel; in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, a signal strength from the first mobile monitoring terminal; reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal; the second mobile monitoring terminal sends the link quality report to the base station; judging whether the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is superior to a link quality threshold or not by the base station based on the link quality report; if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH channel; in response to receiving the allocation of the downlink resource, cell environment information transmitted by the base station is received by the second mobile terminal on the allocated downlink resource.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: after the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH, the base station allocates inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal; in response to the received inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource; in response to the received time-frequency resource for the communication between the devices, the first mobile monitoring terminal sends the other part of the subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station; in response to receiving the other part of the information, the base station sends the other part of the information to the second mobile monitoring terminal; and responding to the received other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resource; in response to receiving the negative acknowledgement message, the base station resends the cell environment information to the second mobile monitoring terminal; if the other part of information is not received, the second mobile monitoring terminal sends a negative confirmation message to the base station; and in response to receiving the negative confirmation message, the base station sends another part of information to the second mobile monitoring terminal again.

The invention also provides an intelligent cell quick response system, which comprises: the method comprises the steps of collecting cell environment information by a first mobile monitoring terminal; means for establishing an RRC connection with a base station by a first mobile monitoring terminal; means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station; means for determining, by the base station, whether the first mobile monitoring terminal is to transmit the collected cell environment information to a second mobile monitoring terminal that is communicating with the base station; means for, if the base station determines that the first mobile monitoring terminal is to transmit the collected cell environment information to a second mobile monitoring terminal that is communicating with the base station, further determining, by the base station, whether the size of the cell environment information to be transmitted is greater than a first threshold; a unit for transmitting the cell environment information to be transmitted to a core network by the base station if it is determined that the size of the cell environment information to be transmitted is smaller than a first threshold, wherein the cell environment information is transmitted to the second mobile monitoring terminal via the core network; and a unit, configured to send the cell environment information to be sent directly to the second mobile monitoring terminal by the base station if it is determined that the size of the cell environment information to be sent is greater than the first threshold.

In a preferred embodiment, the smart cell fast response system comprises: means for transmitting, by a first mobile monitoring terminal, a resource allocation request to a base station; means for transmitting, by the base station, an uplink grant to the first mobile monitoring terminal over the PDCCH channel in response to receiving the resource allocation request; means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on uplink resources indicated by the uplink grant in response to receiving the uplink grant; means for transmitting, by the base station, an acknowledgement message to the first mobile monitoring terminal in response to receiving the collected cell environment information.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: if the size of the cell environment information to be sent is larger than a first threshold, the base station sends a measurement command to a second mobile monitoring terminal on a PDCCH channel; in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, a signal strength from the first mobile monitoring terminal; reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal; the second mobile monitoring terminal sends the link quality report to the base station; judging whether the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is superior to a link quality threshold or not by the base station based on the link quality report; if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH channel; in response to receiving the allocation of the downlink resource, cell environment information transmitted by the base station is received by the second mobile terminal on the allocated downlink resource.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: after the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH, the base station allocates inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal; in response to the received inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource; in response to the received time-frequency resource for the communication between the devices, the first mobile monitoring terminal sends the other part of the subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station; in response to receiving the other part of the information, the base station sends the other part of the information to the second mobile monitoring terminal; and responding to the received other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resource; in response to receiving the negative acknowledgement message, the base station resends the cell environment information to the second mobile monitoring terminal; if the other part of information is not received, the second mobile monitoring terminal sends a negative confirmation message to the base station; and in response to receiving the negative confirmation message, the base station sends the other part of information to the second mobile monitoring terminal again.

Compared with the prior art, the invention has the following advantages: with the social progress, people increasingly emphasize the importance of security and privacy, and the basis for ensuring the security and privacy is to ensure that the security and privacy in the home are not violated. At present, the higher the end cell, the more the property company emphasizes the advancement and effectiveness of security, however, the security improvement of the property company generally includes increasing the number of fixed cameras, increasing the number of people to improve patrol density, increasing the number of people monitoring monitors to prevent missing, and the like, which is very costly for the property company, and for business, increasing the number of people does not necessarily improve security, because the improvement of security mainly depends on the quality of people. In order to solve the problems, some prior arts propose that targeted monitoring and monitoring are carried out by using a mode of matching an unmanned aerial vehicle and a mobile terminal (such as ipad), the unmanned aerial vehicle can replace patrol security, the unmanned aerial vehicle cannot have the problem of missing due to the fact that the sensitivity of a detection technology is continuously improved, and once the unmanned aerial vehicle finds the problem, information can be rapidly transmitted to the mobile terminal of cell security through the method provided by the invention. For some text alarm information (for example, if a fire hazard occurs in a cell, only a fire point place needs to be provided), the method of the invention uses a traditional method for transmission, and for streaming media information (for example, if an illegal break-in problem exists, a video needs to be transmitted so as to clearly judge a danger level), the method of the invention can support transmission among devices which do not pass through a core network.

Drawings

Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present invention.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention.

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 first mobile monitoring terminal (e.g., a drone), a second mobile monitoring terminal (e.g., a handheld device of a cell security guard), and a base station, wherein the first mobile monitoring terminal and the second mobile monitoring terminal can communicate with each other, but the communication between the first mobile monitoring terminal and the second mobile monitoring terminal is coordinated by the base station.

FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:

step 101: collecting cell environment information by a first mobile monitoring terminal;

step 102: establishing RRC connection between the first mobile monitoring terminal and the base station;

step 103: transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station;

step 104: judging whether the first mobile monitoring terminal needs to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station or not by the base station;

step 105: if the base station judges that the first mobile monitoring terminal is to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station, the base station further judges whether the size of the cell environment information to be sent is larger than a first threshold;

step 106: if the size of the cell environment information to be sent is smaller than the first threshold, the base station sends the cell environment information to be sent to the core network, wherein the cell environment information is sent to the second mobile monitoring terminal through the core network (the core network addresses according to the context and the IP address of the mobile terminal, and then sends the information to the second mobile monitoring terminal through paging, scheduling and sending processes after addressing, and the transmission mode through the core network is the common communication mode of all 3G and 4G systems nowadays, which belongs to the common general knowledge in the field and is not described in detail herein);

step 107: and if the size of the cell environment information to be sent is larger than the first threshold, the base station directly sends the cell environment information to be sent to the second mobile monitoring terminal.

In a preferred embodiment, the sending, by the first mobile monitoring terminal, the collected cell environment information to the base station includes the following steps: a first mobile monitoring terminal sends a resource allocation request to a base station; in response to receiving the resource allocation request, transmitting, by the base station, an uplink grant to the first mobile monitoring terminal over the PDCCH channel; in response to receiving the uplink grant, transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on the uplink resource indicated by the uplink grant.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: if the size of the cell environment information to be sent is larger than a first threshold, the base station sends a measurement command to a second mobile monitoring terminal on a PDCCH channel; in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, a signal strength from the first mobile monitoring terminal; reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal; the second mobile monitoring terminal sends the link quality report to the base station;

judging whether the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is superior to a link quality threshold or not by the base station based on the link quality report; if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH channel; in response to receiving the allocation of the downlink resource, cell environment information transmitted by the base station is received by the second mobile terminal on the allocated downlink resource.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: after the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH, the base station allocates inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal; in response to the received inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource; in response to the received time-frequency resource for the communication between the devices, the first mobile monitoring terminal sends the other part of the subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station; in response to receiving the other part of the information, the base station sends the other part of the information to the second mobile monitoring terminal; and responding to the received other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resource; in response to receiving the negative acknowledgement message, the base station resends the cell environment information to the second mobile monitoring terminal; if the other part of information is not received, the second mobile monitoring terminal sends a negative confirmation message to the base station; and in response to receiving the negative confirmation message, the base station sends another part of information to the second mobile monitoring terminal again.

The invention also provides an intelligent cell quick response system, which comprises: the method comprises the steps of collecting cell environment information by a first mobile monitoring terminal; means for establishing an RRC connection with a base station by a first mobile monitoring terminal; means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station; means for determining, by the base station, whether the first mobile monitoring terminal is to transmit the collected cell environment information to a second mobile monitoring terminal that is communicating with the base station; means for, if the base station determines that the first mobile monitoring terminal is to transmit the collected cell environment information to a second mobile monitoring terminal that is communicating with the base station, further determining, by the base station, whether the size of the cell environment information to be transmitted is greater than a first threshold; a unit for transmitting the cell environment information to be transmitted to a core network by the base station if it is determined that the size of the cell environment information to be transmitted is smaller than a first threshold, wherein the cell environment information is transmitted to the second mobile monitoring terminal via the core network; and a unit, configured to send the cell environment information to be sent directly to the second mobile monitoring terminal by the base station if it is determined that the size of the cell environment information to be sent is greater than the first threshold.

In a preferred embodiment, the smart cell fast response system comprises: means for transmitting, by a first mobile monitoring terminal, a resource allocation request to a base station; means for transmitting, by the base station, an uplink grant to the first mobile monitoring terminal over the PDCCH channel in response to receiving the resource allocation request; means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on uplink resources indicated by the uplink grant in response to receiving the uplink grant; means for transmitting, by the base station, an acknowledgement message to the first mobile monitoring terminal in response to receiving the collected cell environment information.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: if the size of the cell environment information to be sent is larger than a first threshold, the base station sends a measurement command to a second mobile monitoring terminal on a PDCCH channel; in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, a signal strength from the first mobile monitoring terminal; reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal; the second mobile monitoring terminal sends the link quality report to the base station; judging whether the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is superior to a link quality threshold or not by the base station based on the link quality report; if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH channel; in response to receiving the allocation of the downlink resource, cell environment information transmitted by the base station is received by the second mobile terminal on the allocated downlink resource.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: after the base station allocates downlink resources to the second mobile monitoring terminal on the PDCCH, the base station allocates inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal; in response to the received inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource; in response to the received time-frequency resource for the communication between the devices, the first mobile monitoring terminal sends the other part of the subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station; in response to receiving the other part of the information, the base station sends the other part of the information to the second mobile monitoring terminal; and responding to the received other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

In a preferred embodiment, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, the step of directly transmitting, by the base station, the cell environment information to be transmitted to the second mobile monitoring terminal includes: transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resource; in response to receiving the negative acknowledgement message, the base station resends the cell environment information to the second mobile monitoring terminal; if the other part of information is not received, the second mobile monitoring terminal sends a negative confirmation message to the base station; and in response to receiving the negative confirmation message, the base station sends the other part of information to the second mobile monitoring terminal again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. A quick response method for an intelligent cell is characterized in that: the quick response method for the intelligent cell comprises the following steps:

collecting cell environment information by a first mobile monitoring terminal;

establishing RRC connection between the first mobile monitoring terminal and a base station;

transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station;

determining, by the base station, whether the first mobile monitoring terminal is to send the collected cell environment information to a second mobile monitoring terminal that is communicating with the base station;

if the base station judges that the first mobile monitoring terminal is to send the collected cell environment information to a second mobile monitoring terminal which is communicating with the base station, the base station further judges whether the size of the cell environment information to be sent is larger than a first threshold;

if the size of the cell environment information to be sent is smaller than the first threshold, sending the cell environment information to be sent to a core network by the base station, wherein the cell environment information is sent to the second mobile monitoring terminal through the core network;

and if the size of the cell environment information to be sent is judged to be larger than the first threshold, the base station directly sends the cell environment information to be sent to the second mobile monitoring terminal.

2. The intelligent-cell fast response method of claim 1, wherein: the step of sending the collected cell environment information to the base station by the first mobile monitoring terminal comprises the following steps:

sending a resource allocation request to the base station by the first mobile monitoring terminal;

in response to receiving the resource allocation request, sending, by the base station, an uplink grant to the first mobile monitoring terminal over a PDCCH channel;

in response to receiving the uplink grant, transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on uplink resources indicated by the uplink grant;

sending, by the base station, an acknowledgement message to the first mobile monitoring terminal in response to receiving the collected cell environment information.

3. The intelligent-cell fast response method of claim 2, wherein: wherein, if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

if the size of the cell environment information to be sent is judged to be larger than a first threshold, the base station sends a measurement command to the second mobile monitoring terminal on a PDCCH channel;

in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, signal strength from the first mobile monitoring terminal;

reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal;

sending, by the second mobile monitoring terminal, the link quality report to the base station;

determining, by the base station, whether a link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is better than a link quality threshold based on the link quality report;

if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on a PDCCH (physical Downlink control channel);

receiving, by the second mobile terminal, cell environment information transmitted by the base station on the allocated downlink resource in response to receiving the allocation of the downlink resource.

4. The intelligent-cell fast response method of claim 3, wherein: wherein, if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

allocating, by the base station, inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal after allocating, by the base station, downlink resources to the second mobile monitoring terminal on the PDCCH channel;

in response to receiving the inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource;

in response to receiving the inter-device communication time-frequency resource, the first mobile monitoring terminal sends another part of subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station;

in response to receiving the other part of the information, transmitting, by the base station, the other part of the information to the second mobile monitoring terminal;

and responding to the reception of the other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

5. The intelligent-cell fast response method of claim 3, wherein: if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resources;

in response to receiving the negative acknowledgement message, re-sending, by the base station, cell environment information to the second mobile monitoring terminal;

if the other part of information is not received, sending a negative confirmation message to the base station by the second mobile monitoring terminal;

and in response to receiving the negative acknowledgement message, retransmitting the other part of the information to the second mobile monitoring terminal by the base station.

6. An intelligent cell fast response system, characterized in that: the intelligent cell quick response system comprises:

the method comprises the steps of collecting cell environment information by a first mobile monitoring terminal;

means for establishing an RRC connection with a base station by the first mobile monitoring terminal;

means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station;

means for determining, by the base station, whether the first mobile monitoring terminal is to transmit the collected cell environment information to the second mobile monitoring terminal that is communicating with the base station;

means for, if the base station determines that the first mobile monitoring terminal is to send the collected cell environment information to the second mobile monitoring terminal that is communicating with the base station, further determining, by the base station, whether a size of the cell environment information to be sent is greater than a first threshold;

a unit configured to send, by the base station, cell environment information to be sent to a core network if it is determined that the size of the cell environment information to be sent is smaller than a first threshold, where the cell environment information is sent to the second mobile monitoring terminal via the core network;

and a unit configured to, if it is determined that the size of the cell environment information to be transmitted is greater than the first threshold, directly transmit the cell environment information to be transmitted to the second mobile monitoring terminal by the base station.

7. The intelligent-cell fast response system of claim 6, wherein: the intelligent cell quick response system comprises:

means for transmitting, by the first mobile monitoring terminal, a resource allocation request to the base station;

means for transmitting, by the base station, an uplink grant to the first mobile monitoring terminal over a PDCCH channel in response to receiving the resource allocation request;

means for transmitting, by the first mobile monitoring terminal, the collected cell environment information to the base station on uplink resources indicated by the uplink grant in response to receiving the uplink grant;

means for transmitting, by the base station, an acknowledgement message to the first mobile monitoring terminal in response to receiving the collected cell environment information.

8. The intelligent-cell fast response system of claim 7, wherein: wherein, if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

if the size of the cell environment information to be sent is judged to be larger than a first threshold, the base station sends a measurement command to the second mobile monitoring terminal on a PDCCH channel;

in response to receiving the measurement command, monitoring, by the second mobile monitoring terminal, signal strength from the first mobile monitoring terminal;

reporting, by the second mobile monitoring terminal, link quality based on monitoring signal strength from the first mobile monitoring terminal;

sending, by the second mobile monitoring terminal, the link quality report to the base station;

determining, by the base station, whether a link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is better than a link quality threshold based on the link quality report;

if the link quality between the first mobile monitoring terminal and the second mobile monitoring terminal is judged to be better than the link quality threshold, the base station allocates downlink resources to the second mobile monitoring terminal on a PDCCH (physical Downlink control channel);

receiving, by the second mobile terminal, cell environment information transmitted by the base station on the allocated downlink resource in response to receiving the allocation of the downlink resource.

9. The intelligent-cell fast response system of claim 8, wherein: wherein, if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

allocating, by the base station, inter-device communication time-frequency resources to the first mobile monitoring terminal and the second mobile monitoring terminal after allocating, by the base station, downlink resources to the second mobile monitoring terminal on a PDCCH channel;

in response to receiving the inter-device communication time-frequency resource, the first mobile monitoring terminal sends a part of subsequent cell environment information to be sent to the second mobile monitoring terminal on the inter-device communication time-frequency resource;

in response to receiving the inter-device communication time-frequency resource, the first mobile monitoring terminal sends another part of subsequent cell environment information to be sent to the second mobile monitoring terminal to the base station;

in response to receiving the other part of the information, transmitting, by the base station, the other part of the information to the second mobile monitoring terminal;

and responding to the reception of the other part of information, and sending confirmation information to the base station by the second mobile monitoring terminal.

10. The intelligent-cell fast response system of claim 9, wherein: if the size of the cell environment information to be sent is judged to be larger than the first threshold, the step of directly sending the cell environment information to be sent to the second mobile monitoring terminal by the base station comprises the following steps:

transmitting, by the second mobile monitoring terminal, a negative acknowledgement message to the base station if the cell environment information transmitted by the base station is not received on the allocated downlink resources;

in response to receiving the negative acknowledgement message, re-sending, by the base station, cell environment information to the second mobile monitoring terminal;

if the other part of information is not received, sending a negative confirmation message to the base station by the second mobile monitoring terminal;

and in response to receiving the negative acknowledgement message, retransmitting the other part of the information to the second mobile monitoring terminal by the base station.

Images