CN110213790B - Geographic information transmission method and system for motion monitoring - Google Patents

Abstract

The invention discloses a geographic information transmission method for motion monitoring, comprising the following steps: sending an enhanced cell identification (E-CID) measurement initiation request from an evolved serving mobile location center (E-SMLC) to a base station; To the E-CID measurement initiation request, the base station sends an E-CID measurement initiation response to the E-SMLC, and the base station sends a measurement request message to the first mobile terminal; the first mobile terminal establishes a communication connection with the remote mobile terminal; A mobile terminal forwards the sending measurement request message to the remote mobile terminal; in response to receiving the measurement request message, the remote mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, reference signal Received quality and E-CID message; the remote mobile terminal sends the received power, reference signal received quality and E-CID message to the first mobile terminal; the first mobile terminal forwards the received power, reference signal received quality and E-CID to the base station CID message.

Description

A geographic information transmission method and system for motion monitoring

technical field

The present invention relates to the technical field of motion monitoring, in particular to a method and system for transmitting geographic information for motion monitoring.

Background technique

With the advancement of science and technology, sports health monitoring equipment and monitoring systems are becoming more and more common. More and more sports enthusiasts are no longer limited to the grasp of exercise time and sports performance. They also hope to monitor more sports through sports health monitoring equipment. much information.

The prior art CN105959382B relates to an intelligent motion monitoring device and a monitoring method. The device monitors the motion state of a moving target in a sports field and feeds back the motion state through positioning and communication technology, including: a positioning label for locating the moving target; a micro base station group , installed in the sports field, used to obtain the position information of the positioning tag; the switch, used to receive the position information; the control computer, used to process, calculate and statistically analyze the position information, and obtain the motion information of the moving target; for receiving and displaying motion information; the method includes: controlling the computer to demarcate and save a map depicting the sports field; the positioning label moves with the moving object within the time period during which the moving object moves; controlling the computer to calculate and statistically analyze the motion information of the moving object ; The mobile terminal receives and displays the motion information of the moving target.

The prior art CN106334310B discloses a reentry running movement monitoring and evaluation method and a system thereof, which enables athletes to automatically collect and record information such as the athlete's movement trajectory, speed, acceleration, angular velocity, direction, position, heart rate and other information in real time during the reentry running movement. , and automatically analyze and evaluate the start time, end time, number of reentry runs and the time of each reentry through the monitoring information; in addition, through the full reentry test, different people can be compared under the same number of reentry times and distances. The time used is to analyze the endurance level of different athletes, so as to facilitate the coaches to manage the athletes, formulate targeted training plans, and improve the effect of sports training.

The prior art CN105588577B provides a detection method and device for abnormal step counting of a motion monitoring device, and relates to the field of motion detection, wherein the abnormal step counting detection method includes: acquiring the acceleration within a preset time period of the motion monitoring device signal; perform preprocessing on the acceleration signal to obtain a preprocessed acceleration signal; perform eigenvalue extraction on the preprocessed acceleration signal to obtain at least one eigenvalue; perform sample entropy calculation on the eigenvalue to obtain sample entropy If the sample entropy value is less than or equal to the first preset threshold or greater than or equal to the second preset threshold, it is determined that the data currently recorded by the motion monitoring device is abnormal step counting.

The prior art CN106096230B discloses a reminder method, which can monitor the user's physical fatigue and improve the applicability and intelligence of the wearable device. The method includes: monitoring a first vibration frequency through its own motion, the first vibration frequency The vibration frequency is used to characterize the movement frequency of the user's wearing part; determine the first vibration duration when the first vibration frequency meets the preset vibration frequency range; determine the state of the user according to the first vibration duration and the preset duration; When the vibration duration is greater than or equal to the preset duration, it is determined that the user is in a fatigued state, and a prompt message is sent to remind the event.

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 of ordinary skill in the art.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a geographic information transmission method and system for motion monitoring, which can overcome the shortcomings of the prior art.

In order to achieve the above object, the present invention provides a geographic information transmission method for motion monitoring, and the geographic information transmission method for motion monitoring includes the following steps:

The Evolved Serving Mobile Location Center (E-SMLC) sends an enhanced cell identity (E-CID) measurement initiation request to the base station; in response to receiving the E-CID measurement initiation request, the base station sends an E-CID measurement initiation request to the E-SMLC In response, a measurement request message is sent by the base station to the first mobile terminal at the same time; a communication connection is established between the first mobile terminal and the remote mobile terminal; in response to the successful establishment of a communication connection between the first mobile terminal and the remote mobile terminal, the first mobile terminal will send the The measurement request message is forwarded to the remote mobile terminal; in response to receiving the measurement request message, the remote mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, reference signal received quality and E- CID message, wherein the E-CID message includes at least the time difference results of reception and transmission at the remote mobile terminal; the remote mobile terminal sends the received power, reference signal reception quality and the E-CID message to the first mobile terminal; The terminal forwards the received power, reference signal received quality and E-CID message to the base station; the base station sends the received power, reference signal received quality and E-CID message to the E-SMLC; and the E-SMLC receives the received power, reference signal based on The quality and E-CID messages generate an E-CID measurement report, wherein the E-CID measurement report includes at least the angle of arrival and the timing advance.

In a preferred embodiment, the geographic information transmission method for motion monitoring includes the following steps: before establishing a communication connection between the first mobile terminal and the remote mobile terminal, the base station determines the remote mobile terminal based on the historical geographic location information of the remote mobile terminal. The distance between the terminal and the base station; if the distance is greater than the first threshold, the base station informs the first mobile terminal to initiate communication with the remote mobile terminal; and if the distance is less than the first threshold, the base station prohibits the first mobile terminal from initiating communication with the remote mobile terminal; Communication of mobile terminals.

In a preferred embodiment, the geographic information transmission method for motion monitoring includes the steps of: in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal, sending a measurement request message by the base station to the remote mobile terminal; in response to receiving To the measurement request message, the remote mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the remote Receive and send time difference results at the mobile terminal; the remote mobile terminal sends the received power, reference signal received quality and E-CID message to the base station; the base station sends the received power, reference signal received quality and E-CID message to the E- SMLC; and generating an E-CID measurement report by the E-SMLC based on the received power, reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes an angle of arrival and a timing advance.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: sending a notification message from the first mobile terminal to the remote mobile terminal, wherein the notification message informs the remote mobile terminal that the first mobile terminal can Relaying the message is performed, and the notification message further includes an indication of the first communication resource; and in response to receiving the notification message, the remote mobile terminal sends a response message to the first mobile terminal using the first communication resource.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal further includes the following steps: in response to receiving the response message, the first mobile terminal sends a communication connection establishment message to the remote mobile terminal, wherein the communication The connection establishment message includes an indication of the second communication resource and the third communication resource; in response to receiving the communication connection establishment message, the remote mobile terminal monitors the measurement request message for the second communication resource; in response to receiving the measurement request message, the remote mobile terminal monitors the measurement request message by the remote mobile terminal. The mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the reception and transmission at the remote mobile terminal a time difference result; and sending, by the remote mobile terminal, the received power, reference signal received quality, and E-CID message to the first mobile terminal using the third communication resource.

The present invention also provides a geographic information transmission system for motion monitoring, the geographic information transmission system for motion monitoring includes: an enhanced cell identifier ( E-CID) measurement initiation request unit; for responding to receiving the E-CID measurement initiation request, the base station sends the E-CID measurement initiation response to the E-SMLC, and the base station sends the measurement request message to the first mobile terminal. unit; a unit for establishing a communication connection between the first mobile terminal and the remote mobile terminal; for responding to the successful establishment of a communication connection between the first mobile terminal and the remote mobile terminal, the first mobile terminal forwards the sending measurement request message to the remote mobile terminal A unit for a terminal; a unit for monitoring, by a remote mobile terminal, a reference signal sent by a base station in response to receiving a measurement request message; for generating, by the remote mobile terminal, reference signal received power, reference signal received quality and E based on the reference signal - a unit of CID message, wherein the E-CID message includes at least the time difference result of reception and transmission at the remote mobile terminal; used by the remote mobile terminal to send the received power, reference signal reception quality and the E-CID message to the first mobile terminal a unit for forwarding the received power, reference signal received quality and E-CID message by the first mobile terminal to the base station; for the base station to send the received power, reference signal received quality and E-CID message to the E-SMLC and a unit for generating an E-CID measurement report by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes the angle of arrival and the timing advance.

In a preferred embodiment, the geographic information transmission system for motion monitoring includes: before establishing a communication connection between the first mobile terminal and the remote mobile terminal, the base station determines the remote mobile terminal based on historical geographic location information of the remote mobile terminal. A unit for the distance between the terminal and the base station; a unit for notifying the first mobile terminal by the base station to initiate communication with the remote mobile terminal if the distance is greater than a first threshold; means for inhibiting the first mobile terminal from initiating communication with the remote mobile terminal.

In a preferred embodiment, the geographic information transmission system for motion monitoring includes: a unit for sending a measurement request message from the base station to the remote mobile terminal by the base station in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal; means for monitoring the reference signal sent by the base station by the remote mobile terminal in response to receiving the measurement request message; means for generating, by the remote mobile terminal, the reference signal received power, the reference signal received quality and the E-CID message based on the reference signal , wherein, the E-CID message includes at least the time difference results of reception and transmission at the remote mobile terminal; a unit used by the remote mobile terminal to send the received power, reference signal reception quality and E-CID message to the base station; used by the base station to send means for sending received power, reference signal received quality and E-CID message to E-SMLC; and means for generating E-CID measurement report by E-SMLC based on received power, reference signal received quality and E-CID message, wherein , the E-CID measurement report includes at least the incoming wave angle and the time advance.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: sending a notification message from the first mobile terminal to the remote mobile terminal, wherein the notification message informs the remote mobile terminal that the first mobile terminal can Relaying the message is performed, and the notification message further includes an indication of the first communication resource; and in response to receiving the notification message, the remote mobile terminal sends a response message to the first mobile terminal using the first communication resource.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal further includes the following steps: in response to receiving the response message, the first mobile terminal sends a communication connection establishment message to the remote mobile terminal, wherein the communication The connection establishment message includes an indication of the second communication resource and the third communication resource; in response to receiving the communication connection establishment message, the remote mobile terminal monitors the measurement request message for the second communication resource; in response to receiving the measurement request message, the remote mobile terminal monitors the measurement request message by the remote mobile terminal. The mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the reception and transmission at the remote mobile terminal a time difference result; and sending received power, reference signal received quality, and E-CID messages by the remote mobile terminal to the first mobile terminal using a third communication resource.

Compared with the prior art, the present invention has the following advantages: the current E-CID technology is carried out by relying on the communication between the mobile terminal and the base station, and the current method is suitable for a system such as a mobile phone that has larger transmit power and battery power. However, with the development of mobile terminals, there are more and more mobile smart terminals based on wearable devices. Many sports enthusiasts do not carry mobile phones during exercise, but only carry smart bracelets and other mobile phones. For the terminal, if the smart bracelet is required to communicate with the base station like a mobile phone, the battery power of the smart bracelet will be consumed too fast, which is not conducive to the improvement of user experience; in addition, some sports enthusiasts like to exercise in some remote areas. In remote areas, the distance from the base station is often far, and even ordinary mobile phones cannot maintain high-quality communication with the base station. Aiming at the problems of the prior art, the present application proposes a new geographic information transmission method for motion monitoring. The method of the present invention introduces the method of relay transmission, so that the smart bracelet can not directly transmit information to the base station, The power consumption of the smart bracelet is reduced, and the system efficiency and user experience are improved. Mobile phones that are far away from the base station can maintain the feedback frequency through relay transmission to improve the measurement accuracy. Specifically, the present invention designs "if the distance is greater than the first threshold, the base station will notify the first mobile terminal to initiate communication with the remote mobile terminal; if the distance is less than the first threshold, the base station will prohibit the first mobile terminal from initiating communication with the remote mobile terminal. Through this step, the present invention can realize automatic switching between relay transmission and direct transmission, and improve the flexibility of the system. The present invention successfully integrates the E-CID technology and the relay transmission technology by designing a specific method of "relay transmission".

Description of drawings

FIG. 1 is a flowchart of a geographic information transmission method for motion monitoring according to an embodiment of the present invention.

Detailed ways

The specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the protection scope of the present invention is not limited by the specific embodiments.

Unless expressly stated otherwise, throughout the specification and claims, the term "comprising" or its conjugations such as "comprising" or "comprising" and the like will be understood to include the stated elements or components, and Other elements or other components are not excluded.

FIG. 1 is a flowchart of a geographic information transmission method for motion monitoring according to an embodiment of the present invention. As shown in the figure, the geographic information transmission method for motion monitoring of the present invention comprises the following steps:

Step 101: Send an Enhanced Cell Identifier (E-CID) measurement initiation request to a base station by an Evolved Serving Mobile Location Center (E-SMLC);

Step 102: In response to receiving the E-CID measurement initiation request, the base station sends an E-CID measurement initiation response to the E-SMLC, and simultaneously, the base station sends a measurement request message to the first mobile terminal;

Step 103: establishing a communication connection between the first mobile terminal and the remote mobile terminal;

Step 104: in response to the successful establishment of a communication connection between the first mobile terminal and the remote mobile terminal, the first mobile terminal forwards the sending measurement request message to the remote mobile terminal;

Step 105: in response to receiving the measurement request message, the remote mobile terminal monitors the reference signal sent by the base station;

Step 106: Based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the time difference result of reception and transmission at the remote mobile terminal;

Step 107: The remote mobile terminal sends the received power, reference signal received quality and E-CID message to the first mobile terminal;

Step 108: The first mobile terminal forwards the received power, reference signal received quality and E-CID message to the base station;

Step 109: The base station sends the received power, reference signal received quality and E-CID message to the E-SMLC; and

Step 110: The E-SMLC generates an E-CID measurement report based on the received power, reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes the angle of arrival and the timing advance. E-SMLC is a network component in the standard promulgated by 3GPP, and its functions and uses are known in the art. Content, see also for example "3GPP TSG-RAN2Meeting #97, Athens, Greece, 13-17February 2017, Proposal No. R2-1701037" (downloaded from 3GPP official website)) is an existing standard and prior art in the field, this application It is not an improvement of the E-CID positioning algorithm itself, so this application will not repeat the specific steps and operations of the E-CID positioning algorithm itself.

In a preferred embodiment, the geographic information transmission method for motion monitoring includes the following steps: before establishing a communication connection between the first mobile terminal and the remote mobile terminal, the base station determines the remote mobile terminal based on the historical geographic location information of the remote mobile terminal. The distance between the terminal and the base station; if the distance is greater than the first threshold (the size of the first threshold and the type of base station (macro base station, pico cell base station, etc.), the type of the remote mobile terminal (such as a smart bracelet or a larger battery) Therefore, the application cannot give specific values, but the threshold setting method can be obtained according to the simulation results), then the base station notifies the first mobile terminal to initiate communication with the remote mobile terminal; if the distance is less than the first a threshold, the base station prohibits the first mobile terminal from initiating communication with the remote mobile terminal.

In a preferred embodiment, the geographic information transmission method for motion monitoring includes the steps of: in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal, sending a measurement request message by the base station to the remote mobile terminal; in response to receiving To the measurement request message, the remote mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the remote Receive and send time difference results at the mobile terminal; the remote mobile terminal sends the received power, reference signal received quality and E-CID message to the base station; the base station sends the received power, reference signal received quality and E-CID message to the E- SMLC; and generating an E-CID measurement report by the E-SMLC based on the received power, reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes an angle of arrival and a timing advance.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: sending a notification message from the first mobile terminal to the remote mobile terminal, wherein the notification message informs the remote mobile terminal that the first mobile terminal can Relay the message, the announcement message also includes an indication of the first communication resource; and in response to receiving the announcement message, the remote mobile terminal utilizes the first communication resource (communication resources refer to time and frequency resources, such as in OFDM-based In the system, one or more resource elements (REs) may be allocated to the terminal) to send a response message to the first mobile terminal.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal further includes the following steps: in response to receiving the response message, the first mobile terminal sends a communication connection establishment message to the remote mobile terminal, wherein the communication The connection establishment message includes an indication of the second communication resource and the third communication resource; in response to receiving the communication connection establishment message, the remote mobile terminal monitors the measurement request message for the second communication resource; in response to receiving the measurement request message, the remote mobile terminal monitors the measurement request message by the remote mobile terminal. The mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the reception and transmission at the remote mobile terminal a time difference result; and sending, by the remote mobile terminal, the received power, reference signal received quality, and E-CID message to the first mobile terminal using the third communication resource.

The present invention also provides a geographic information transmission system for motion monitoring, characterized in that: the geographic information transmission system for motion monitoring includes: an Evolved Serving Mobile Location Center (E-SMLC) sends an enhanced A cell identity (E-CID) measurement initiation request unit; used to send an E-CID measurement initiation response to the E-SMLC by the base station in response to receiving the E-CID measurement initiation request, and the base station to send a measurement initiation response to the first mobile terminal at the same time A unit for requesting a message; a unit for establishing a communication connection between the first mobile terminal and the remote mobile terminal; for transmitting the measurement request message by the first mobile terminal in response to the successful establishment of a communication connection between the first mobile terminal and the remote mobile terminal A unit for the remote mobile terminal; a unit for monitoring the reference signal sent by the base station by the remote mobile terminal in response to receiving the measurement request message; for generating the reference signal received power, the reference signal received by the remote mobile terminal based on the reference signal A unit of quality and E-CID message, wherein the E-CID message includes at least the time difference result of reception and transmission at the remote mobile terminal; used by the remote mobile terminal to send the received power, reference signal reception quality and E-CID message to the first A unit of a mobile terminal; a unit for forwarding the received power, reference signal received quality and E-CID message by the first mobile terminal to the base station; for the base station to send the received power, reference signal received quality and E-CID message to A unit of the E-SMLC; and a unit for generating an E-CID measurement report by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report includes at least the angle of arrival, the time advance quantity.

In a preferred embodiment, the geographic information transmission system for motion monitoring includes: before establishing a communication connection between the first mobile terminal and the remote mobile terminal, the base station determines the remote mobile terminal based on historical geographic location information of the remote mobile terminal. A unit for the distance between the terminal and the base station; a unit for notifying the first mobile terminal by the base station to initiate communication with the remote mobile terminal if the distance is greater than a first threshold; means for inhibiting the first mobile terminal from initiating communication with the remote mobile terminal.

In a preferred embodiment, the geographic information transmission system for motion monitoring includes: a unit for sending a measurement request message from the base station to the remote mobile terminal by the base station in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal; means for monitoring the reference signal sent by the base station by the remote mobile terminal in response to receiving the measurement request message; means for generating, by the remote mobile terminal, the reference signal received power, the reference signal received quality and the E-CID message based on the reference signal , wherein, the E-CID message includes at least the time difference results of reception and transmission at the remote mobile terminal; a unit used by the remote mobile terminal to send the received power, reference signal reception quality and E-CID message to the base station; used by the base station to send means for sending received power, reference signal received quality and E-CID message to E-SMLC; and means for generating E-CID measurement report by E-SMLC based on received power, reference signal received quality and E-CID message, wherein , the E-CID measurement report includes at least the incoming wave angle and the time advance.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: sending a notification message from the first mobile terminal to the remote mobile terminal, wherein the notification message informs the remote mobile terminal that the first mobile terminal can Relaying the message is performed, and the notification message further includes an indication of the first communication resource; and in response to receiving the notification message, the remote mobile terminal sends a response message to the first mobile terminal using the first communication resource.

In a preferred embodiment, establishing a communication connection between the first mobile terminal and the remote mobile terminal further includes the following steps: in response to receiving the response message, the first mobile terminal sends a communication connection establishment message to the remote mobile terminal, wherein the communication The connection establishment message includes an indication of the second communication resource and the third communication resource; in response to receiving the communication connection establishment message, the remote mobile terminal monitors the measurement request message for the second communication resource; in response to receiving the measurement request message, the remote mobile terminal monitors the measurement request message by the remote mobile terminal. The mobile terminal monitors the reference signal sent by the base station; based on the reference signal, the remote mobile terminal generates the reference signal received power, the reference signal received quality and the E-CID message, wherein the E-CID message at least includes the reception and transmission at the remote mobile terminal a time difference result; and sending received power, reference signal received quality, and E-CID messages by the remote mobile terminal to the first mobile terminal using a third communication resource.

It should be noted that the method in the embodiment of the present invention may be implemented by a device with a processor, and the device further includes an instruction (software) programmed according to the method of the present invention, and when the software is executed by the processor, The device is capable of implementing the method of the present invention. The programming method is a well-known method in the art, and how to program is not the focus of the present invention. In order to make the description concise, the present invention does not introduce programming details. A processor may be an integrated circuit chip with signal processing capabilities. In the implementation process, each step of the above-mentioned method can be completed by a hardware integrated logic circuit in a processor or an instruction in the form of software. These instructions can be implemented and controlled by a processor therein in cooperation with each other, and are used to execute the methods disclosed in the embodiments of the present invention. The above-mentioned processor may also be a general-purpose processor, a digital signal processor (Digital Signal Processing, DSP), an application specific integrated circuit (application specific integrated circuit), an off-the-shelf programmable gate array (FieldProgrammable Gate Array, FPGA) or other programmable logic devices, Discrete gate or transistor logic devices, discrete hardware components.

Wherein, the above-mentioned general-purpose processor may be a microprocessor or the processor may also be any conventional processor, decoder, and the like. The steps of the method disclosed in conjunction with the embodiments of the present invention may be directly embodied as executed by a hardware processor, or executed by a combination of hardware and software modules in the processor. The software modules may be located in random access memory, flash memory, read-only memory, programmable read-only memory or electrically erasable programmable memory, registers and other storage media mature in the art.

In addition, it should be noted that, in addition to the data bus, the bus system may also include a power bus, a control bus and a status signal bus.

From the description of the above embodiments, those skilled in the art can clearly understand that all or part of the steps in the methods of the above embodiments can be implemented by means of software plus a general hardware platform. Based on this understanding, the technical solutions of the present invention can be embodied in the form of software products in essence or the parts that make contributions to the prior art. The computer software products can be stored in storage media, such as ROM/RAM, magnetic disks, etc. , CD, etc., including several instructions to cause a computer device (which may be a personal computer, a server, or a network communication device such as a media gateway) to perform the methods described in various embodiments or parts of embodiments of the present invention.

It should be noted that each embodiment in this specification is described in a progressive manner, and the same and similar parts between the various embodiments can be referred to each other, and each embodiment focuses on the differences from other embodiments. place. In particular, for the method embodiments and the device embodiments, since they are basically similar to the system embodiments, the descriptions are relatively simple, and reference may be made to some descriptions of the system embodiments for related parts. The device and system embodiments described above are only illustrative, wherein the modules described as separate components may or may not be physically separated, and the components displayed as modules may or may not be physical modules, that is, they may be located in One place, or it can be distributed over multiple network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution in this embodiment. Those of ordinary skill in the art can understand and implement it without creative effort.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. These descriptions are not intended to limit the invention to the precise form disclosed, and obviously many changes and modifications are possible in light of the above teachings. The exemplary embodiments were chosen and described for the purpose of explaining certain principles of the invention and their practical applications, to thereby enable one skilled in the art to make and utilize various exemplary embodiments and various different aspects of the invention. Choose and change. The scope of the invention is intended to be defined by the claims and their equivalents.

Claims (2)

1. a geographic information transmission method for motion monitoring, characterized in that: the geographic information transmission method for motion monitoring comprises the steps: The Evolved Serving Mobile Location Center (E-SMLC) sends an enhanced cell identification (E-CID) measurement initiation request to the base station; the size of the first threshold is related to the type of base station and the type of remote mobile terminal; In response to receiving the E-CID measurement initiation request, the base station sends an E-CID measurement initiation response to the E-SMLC, and at the same time, the base station sends a measurement request message to the first mobile terminal; establishing a communication connection with the remote mobile terminal by the first mobile terminal; In response to the first mobile terminal successfully establishing a communication connection with the remote mobile terminal, the first mobile terminal forwards the sending measurement request message to the remote mobile terminal; in response to receiving the measurement request message, monitoring, by the remote mobile terminal, a reference signal sent by the base station; Based on the reference signal, a reference signal received power, a reference signal received quality and an E-CID message are generated by the remote mobile terminal, wherein the E-CID message at least includes a result of the time difference between reception and transmission at the remote mobile terminal ; sending the received power, reference signal received quality and E-CID message to the first mobile terminal by the remote mobile terminal; forwarding the received power, reference signal received quality and E-CID message by the first mobile terminal to the base station; sending, by the base station, the received power, reference signal received quality, and an E-CID message to the E-SMLC; and An E-CID measurement report is generated by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes an angle of arrival and a timing advance, The geographic information transmission method for motion monitoring further comprises the following steps: Before establishing a communication connection between the first mobile terminal and the remote mobile terminal, the base station determines the distance between the remote mobile terminal and the base station based on the historical geographic location information of the remote mobile terminal; if the distance is greater than a first threshold, notifying the first mobile terminal by the base station to initiate communication with the remote mobile terminal; and If the distance is less than the first threshold, the base station prohibits the first mobile terminal from initiating communication with the remote mobile terminal, The geographic information transmission method for motion monitoring further comprises the following steps: sending, by the base station, the measurement request message to the remote mobile terminal in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal; in response to receiving the measurement request message, monitoring, by the remote mobile terminal, a reference signal sent by the base station; Based on the reference signal, a reference signal received power, a reference signal received quality and an E-CID message are generated by the remote mobile terminal, wherein the E-CID message at least includes a result of the time difference between reception and transmission at the remote mobile terminal ; sending the received power, reference signal received quality and E-CID message to the base station by the remote mobile terminal; sending, by the base station, the received power, reference signal received quality, and an E-CID message to the E-SMLC; and An E-CID measurement report is generated by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes an angle of arrival and a timing advance, Establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: A notification message is sent by the first mobile terminal to the remote mobile terminal, wherein the notification message notifies the remote mobile terminal that the first mobile terminal can relay the message, and the notification message further includes a notification message for the first mobile terminal. an indication of a communication resource; and in response to receiving the announcement message, sending a response message by the remote mobile terminal to the first mobile terminal using the first communication resource, Establishing a communication connection between the first mobile terminal and the remote mobile terminal also includes the following steps: In response to receiving the response message, a communication connection establishment message is sent by the first mobile terminal to the remote mobile terminal, wherein the communication connection establishment message includes an indication of a second communication resource and a third communication resource; in response to receiving the communication connection establishment message, listening by the remote mobile terminal for the measurement request message for the second communication resource; in response to receiving the measurement request message, monitoring, by the remote mobile terminal, a reference signal sent by the base station; Based on the reference signal, a reference signal received power, a reference signal received quality and an E-CID message are generated by the remote mobile terminal, wherein the E-CID message at least includes a result of the time difference between reception and transmission at the remote mobile terminal ;as well as The received power, reference signal received quality and E-CID message are sent by the remote mobile terminal to the first mobile terminal using the third communication resource. 2. A geographic information transmission system for motion monitoring, characterized in that: the geographic information transmission system for motion monitoring comprises: A unit for sending an Enhanced Cell Identity (E-CID) measurement initiation request to the base station by the Evolved Serving Mobile Location Center (E-SMLC); the size of the first threshold is related to the type of the base station and the type of the remote mobile terminal; a unit for sending an E-CID measurement initiation response by the base station to the E-SMLC in response to receiving the E-CID measurement initiation request, and simultaneously sending a measurement request message by the base station to the first mobile terminal; a unit for establishing a communication connection between the first mobile terminal and the remote mobile terminal; a unit for forwarding, by the first mobile terminal, the sending measurement request message to the remote mobile terminal in response to the successful establishment of a communication connection between the first mobile terminal and the remote mobile terminal; means for monitoring, by the remote mobile terminal, a reference signal sent by the base station in response to receiving the measurement request message; means for generating, by the remote mobile terminal, a reference signal received power, a reference signal received quality, and an E-CID message based on the reference signal, wherein the E-CID message includes at least the reception at the remote mobile terminal , Send the time difference result; means for transmitting, by the remote mobile terminal, the received power, reference signal received quality and E-CID message to the first mobile terminal; a unit for forwarding the received power, reference signal received quality and E-CID message by the first mobile terminal to the base station; means for transmitting, by the base station, the received power, reference signal received quality, and E-CID message to the E-SMLC; and A unit for generating an E-CID measurement report by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report includes at least an angle of arrival, a timing advance , The geographic information transmission system for motion monitoring further includes: for determining the distance between the remote mobile terminal and the base station by the base station based on the historical geographic location information of the remote mobile terminal before establishing a communication connection between the first mobile terminal and the remote mobile terminal unit; means for notifying, by the base station, the first mobile terminal to initiate communication with the remote mobile terminal if the distance is greater than a first threshold; and means for prohibiting, by the base station, the first mobile terminal from initiating communication with the remote mobile terminal if the distance is less than a first threshold, The geographic information transmission system for motion monitoring further includes: means for sending, by the base station, the measurement request message to the remote mobile terminal in response to prohibiting the first mobile terminal from initiating communication with the remote mobile terminal; means for monitoring, by the remote mobile terminal, a reference signal sent by the base station in response to receiving the measurement request message; means for generating, by the remote mobile terminal, a reference signal received power, a reference signal received quality, and an E-CID message based on the reference signal, wherein the E-CID message includes at least the reception at the remote mobile terminal , Send the time difference result; means for transmitting, by the remote mobile terminal, the received power, reference signal received quality, and E-CID message to the base station; means for transmitting, by the base station, the received power, reference signal received quality, and E-CID message to the E-SMLC; and a unit for generating an E-CID measurement report by the E-SMLC based on the received power, the reference signal reception quality and the E-CID message, wherein the E-CID measurement report at least includes an angle of arrival and a timing advance, Establishing a communication connection between the first mobile terminal and the remote mobile terminal includes the following steps: A notification message is sent by the first mobile terminal to the remote mobile terminal, wherein the notification message notifies the remote mobile terminal that the first mobile terminal can relay the message, and the notification message further includes a notification message for the first mobile terminal. an indication of a communication resource; and in response to receiving the announcement message, sending a response message by the remote mobile terminal to the first mobile terminal using the first communication resource, Establishing a communication connection between the first mobile terminal and the remote mobile terminal also includes the following steps: In response to receiving the response message, a communication connection establishment message is sent by the first mobile terminal to the remote mobile terminal, wherein the communication connection establishment message includes an indication of a second communication resource and a third communication resource; in response to receiving the communication connection establishment message, listening by the remote mobile terminal for the measurement request message for the second communication resource; in response to receiving the measurement request message, monitoring, by the remote mobile terminal, a reference signal sent by the base station; Based on the reference signal, a reference signal received power, a reference signal received quality and an E-CID message are generated by the remote mobile terminal, wherein the E-CID message at least includes a result of the time difference between reception and transmission at the remote mobile terminal ;as well as The received power, reference signal received quality and E-CID message are sent by the remote mobile terminal to the first mobile terminal using the third communication resource.

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