201236493 六、發明說明: 【發明所屬之技術領域] 本發明係關於一種用於行動通信系統用戶端設備記 錄量測資料之方法’特別是利用用戶端設備進行閒置模式 量測記錄並回傳量測資料之技術’藉由改良系統中的量測 δ又疋組態彳S息和位置資訊的標註方式,來有效率地取得閒 置模式量測紀錄’尤其是對周期性的量測而言,避免不必 • 要的量測與位置資訊標註’並減少記憶體和電力的損耗。 【先前技術】 在第四代(4th generation,4G)行動通信技術標準的制 定中,對於基地台(base station或稱為eN〇de B)佈建、營 運# g理自動化的技術是發展的一大重點。因為這類的技 衧將有助於電#公司降低資本支出和營運成本,並讓行動 逋仏網路的管理與優201236493 VI. Description of the Invention: [Technical Field] The present invention relates to a method for recording measurement data of a user equipment of a mobile communication system, in particular, using a user equipment for idle mode measurement recording and return measurement The technology of the data 'effectively obtains the idle mode measurement record by improving the measurement δ in the system and the configuration of the 彳S and position information, especially for periodic measurement, avoiding It is not necessary to • measure and position information 'and reduce the loss of memory and power. [Prior Art] In the development of the fourth generation (4th generation, 4G) mobile communication technology standard, the technology for the construction and operation of the base station (called base station or eN〇de B) is one of the developments. Great focus. Because this kind of technology will help the company to reduce capital expenditures and operating costs, and let the operation and management of the network
目前電信業者為了㈣網路覆蓋空區(αν⑽ge h〇ie) 及進行網路品質優化_imizatiGn),會派出㉟有特製裝 備的車輛沿著事先規劃的路線,針對無線通訊(信號品質) 相關數據進行量測,做為改善 「 。°D質的參考,即所謂的 路測j (drive tests),請參閱 、片生 _ 所不。近年來地球氣 ’、巨幅變化,環境污染問題日益 合 嚴重’而傳統的路測方式 曰生大量的車輛碳排放,顯得十分^ ^ # 跤、、目I丨# 卞刀不裱保。此外,目前 d範圍侷限於道路沿線,對於 丹他區域(如室内、公園 201236493 内)所可能發生的問題則是力有未逮。據此,第三代行動 通訊夥伴合作計畫(Third Generation Partnership Project ,3GPP)標準組織提出了 「路測最小化」 (Minimization of Drive-Tests,MDT)的工作項目,利用用 戶端設備(user equipment,UE)來幫忙獲得電信營運和網 路優化所需要的量測資訊並回傳,來達到路測自動化的目 的’進一步的把對傳統路測的依賴降至最低,請參閱圖二 所示。 當路測最小化的功能啟用時,用戶端設備的量測型態 又可分為兩種類型:連接模式(CONNECTED mode)量測和 閒置模式(IDLE mode)量測。請參照圖三所示,目前在執 行閒置模式量測時,會由基地台端傳送設定組態給處於連 接模式的用戶端設備,待用戶端設備進入閒置模式後,量 測延時(duration)的計時器(timer)啟動,量測程序開始進 行。之後,對於每筆量測所得的參數,用戶端設備會再加 入量測當時的位置資訊(location information)和時間戰記 (timestamp),構成所謂的「量測資料」。在此,「量測參數」 係結合細胞識別碼(cell ID)和通信信號品質相關指標,其 中信號品質指標可以是參考信號接收功率(reference signal received power,RSRP)、訊號干擾雜訊比(signai to interference plus noise ratio,SINR)等。然而,在某些情 況下,電k營運和網路優化所感興趣的是在特定時段的量 201236493 /貝J ”’σ果例如在進行網路能約節約(Network Energy Saving)的深夜時段1分基站由於節能的需求而關閉或 疋進行參數的調正此時整個網路的涵蓋地圖(coverage map)就會有別於白天的情形。又例如在進行故障排除 (trouble shoooting)的時候,需要進行網路交通負載 …一叫的測試,A會需要深夜時段的量測資料,來 鑑定父通負載是否為問題的成因。然而在深夜時段處於連 線模式的用戶端設備為數不多,我們很難在這個時間點找 到足夠樣本數的用戶加入路測功能。因而我們必須要在其 他時段,例如晚上十點前,對於進人連接模式的用戶端設 備進行設定,請參見圖四中的4〇2、4〇3、4〇4三個時間點。 然而如此一來 就會取得許多不必要的量測數據,圖例中 403和404兩個量測起始點更超出原先所需要時段一倍以 上的資料罝,此外,用戶端設備除了儲存量測參數,還需 儲存每筆量測參數所對應之位置資訊和時間戳記。可預見 的是,當採取的是「週㈣」閒置模式量測時,這些做法 將會造成用戶端設備不少額外的記憶體和電力的損耗更 甚者還會造成不愉快的用戶經驗(users, experience)。 由 此可見,上述習用方式仍有諸多缺失,實非一良善之設 計,而亟待加以改良。 所衍生的各項缺 〇孤詣潛心研究 本案發明人鑑於上述習用方式 點,乃亟思加以改良創新,並經多年苦 5 201236493 統用戶端設備 後,終於成功研發完成本❹於行動通信系 記錄量測資料之方法。 y' 【發明内容】 於行動通信系統用 到有效率地獲得量 言主所帶來的記憶體 本發明之目的即在於提供一種用 戶端設備記錄量測資料之方法,藉以達 測紀錄、降低不必要量測與位置資訊標 和電力損耗之目的。 可達成上述發明目的之用於 订動通信系統用戶端設 備記錄量測資料之方法,係指一 ^ θ 檀用戶端設備執行間置模 式置測之記錄方法;主要係由(1) 匕3 $測起始時間的組 L信息:由基地台端傳送給處於 得抵式的用戶端設備, 來對用戶端設備進行閒置模式 ^ j的相關設定,讓用戶端 。又備在其間置模式時依此進杆旦、目丨 此進仃里測、以及(2)用戶端設備 上之移動性判別單元:暫存和目 月J用戶端所在地理位置有 關之位置資訊,若因為用戶 1有秒勤而導致該筆資料產 生變化,才會將位置資訊標註 对愿之$測參數。當用戶 端設備進入連接模式後,會 交I肘里測貝枓回傳至基地台端, 再由基地台端收集用戶岩 戶而°又備所回報的資料後傳送至後 端營運管理暨維護中摇 k么、谓測無線網路覆蓋空區和 網路優化等目的使用。 【實施方式】 201236493 - 請參考圖六,為本發明取得特定時段閒置模式量測方 法之範例示意圖。由圖中可知,係由基地台端6〇1在數個 不同的時間點602、603和604分別傳送設定組態訊息 605、606和607至數個位於連線模式用戶端設備6〇8 6〇9 和61〇。組態訊息包含了(1)需要記錄的量測標的物 (Measurements t0 be logged)、(2)驅動量測的事件(The triggering of 1〇gging events) ' ⑶總延時(t〇ui • dUrati〇n) ' (4)網路絕對時間戳記(Network absolute time stamp)、以及選擇性設定的參數(5)地區範圍 scope)。本發明在這些參數之外再加入了量測起始時間, 圖中範例的量測起始時間設定讓所有的用戶端設備於凌 晨兩點整開始進行量測,而總延時61 i設定為四個小時, 代表進行電信營運和網路優化需要量測的區間為凌晨兩 點到凌晨六點。用戶端設備608在晚間十點鐘進入連線模 參式時’基地台端於此同時對其進行量測設定。量測起始時 間的數值採相對時間(relative time) ’對於用戶端設備6〇8 而言就是晚間十點至凌晨兩點的時間差,也就是144〇〇 秒。用戶端設備608接收到量測的設定值後,即開啟本地 的計數器(local timer) ’俟計數器的數值達ι44〇〇後才 開始執行閒置模式的量測與記錄。而這144〇〇秒則稱為非 行動期613(inactive duration)。反之,若無取得特定時段 量測的需求’則可以完全省略量測起始時間的設定用戶 7 201236493 端設備會在進入閒置模式後直接執行量測。 開始里/㈣ n统在進行週期性閒置模式量測記 錄時的每筆資料組成之情形,如圖五所示。用戶端設備每 隔一定的量測週期會進行一 +吾:目,丨#也 ^ θ η _人里測並獲得其對應的量測 參數501,並將該量測參數姓果垆 双、·,σ禾& 6主上量測進行時的地理 位置資訊5 0 2 ’如圖五所+。4j» I田aw ot 所不地理位置資訊包含了(1)演 進通用陸地無線接取網路细胎务 J喂細肥王球識別碼(E-TRAN CellAt present, telecom operators will send 35 specially equipped vehicles along the pre-planned route for wireless communication (signal quality) related data for (4) network coverage (αν(10)ge h〇ie) and network quality optimization _imizatiGn). To measure, as a reference to improve the quality of the °D, the so-called drive tests, please refer to, the film _ not. In recent years, the earth's gas, huge changes, environmental pollution problems are increasingly Seriously, the traditional road test method produces a large amount of vehicle carbon emissions, which is very ^ ^ # 跤,, I I丨# 卞刀不裱保. In addition, the current d range is limited to the road along the line, for the Danta area (such as The problem that may arise in indoors and parks 201236493 is that there is no way to get it. According to this, the Third Generation Partnership Project (3GPP) standards organization has proposed "minimization of road test" (Minimization). Work of Drive-Tests (MDT), using user equipment (UE) to help obtain the measurement information needed for telecom operation and network optimization and return it. Achieving the goal of drive test automation' further minimizes dependence on traditional drive tests, see Figure 2. When the minimization function of the drive test is enabled, the measurement type of the user equipment can be divided into two types: CONNECTED mode measurement and IDLE mode measurement. Please refer to FIG. 3, when the idle mode measurement is performed, the configuration is configured by the base station to the user equipment in the connected mode. After the user equipment enters the idle mode, the timing of the measurement delay is measured. The timer starts and the measurement program starts. After that, for each measured parameter, the user equipment adds the location information and the timestamp at the time of the measurement to form a so-called "measurement data". Here, the "measurement parameter" is a combination of a cell identification code (cell ID) and a communication signal quality related indicator, wherein the signal quality indicator may be a reference signal received power (RSRP) or a signal interference noise ratio (signai). To interference plus noise ratio, SINR). However, in some cases, the electric k operation and network optimization are interested in the amount of 201236493 / J J "' σ fruit in a specific period of time, for example, in the midnight period of the network energy saving (Network Energy Saving) The base station is shut down or the parameters are adjusted due to the need of energy saving. At this time, the coverage map of the entire network is different from the daytime situation. For example, when troubleshooting (trouble shoooting), it needs to be performed. Network traffic load... A test called A, will need the measurement data of the late night period to identify whether the parent load is the cause of the problem. However, there are not many user devices in the connection mode in the middle of the night, it is difficult At this point in time, users with enough sample numbers are added to the drive test function. Therefore, we must set the user equipment for entering the connection mode at other time periods, such as ten o'clock in the evening, please refer to 4〇2 in Figure 4. , 4〇3, 4〇4 three time points. However, as a result, many unnecessary measurement data will be obtained. In the legend, the two measurement starting points of 403 and 404 are more than In addition to storing the measurement parameters, the user equipment needs to store the location information and time stamp corresponding to each measurement parameter. It is foreseeable that when the week is taken, (4) When the idle mode is measured, these practices will cause a lot of extra memory and power loss of the user equipment, and even cause unpleasant user experience (users, experience). It can be seen from this that there are still many shortcomings in the above-mentioned methods of use, which is not a good design and needs to be improved. The inventors of this case have studied and researched the above-mentioned methods. In view of the above-mentioned methods, they have improved and innovated, and after years of hard work, they finally successfully developed and completed the record of the mobile communication system. Method of measuring data. y' [Summary of the Invention] The purpose of the present invention is to provide a method for the user terminal to record measurement data in order to provide a method for efficiently measuring the amount of memory. Necessary measurement and location information and power loss purposes. The method for recording the measurement data of the user equipment of the communication system can achieve the above-mentioned object of the invention, and refers to a recording method for performing the inter-mode test of the θ 檀 user device; the main system is (1) 匕3 $ The group L information of the start time is measured: the base station end transmits the information to the user equipment in the offset mode, and the related setting of the idle mode ^ j is performed on the user equipment, so that the user end. Also in the inter-mode mode, according to this, enter the test, and (2) the mobility discriminating unit on the user equipment: temporary location and location information related to the geographic location of the user terminal If the user 1 has a second job and the data changes, the location information will be labeled with the desired parameter. When the client device enters the connection mode, it will transfer the Ibium to the base station, and then collect the user's rock from the base station. Then the data will be sent back to the back-end operation management and maintenance. k, the use of wireless network coverage and network optimization. [Embodiment] 201236493 - Please refer to FIG. 6 , which is a schematic diagram of an example of a method for measuring an idle mode in a specific period of time according to the present invention. As can be seen from the figure, the configuration configuration messages 605, 606 and 607 are transmitted from the base station 6〇1 at a plurality of different time points 602, 603 and 604, respectively, to a plurality of connection mode client devices 6〇8 6〇. 9 and 61〇. The configuration message contains (1) Measurements t0 be logged, and (2) The triggering of 1〇gging events' (3) Total delay (t〇ui • dUrati〇 n) ' (4) Network absolute time stamp (Network absolute time stamp), and selectively set parameters (5) Regional scope scope). The invention adds a measurement start time in addition to these parameters, and the sample measurement start time setting in the figure allows all the user equipments to start measurement at two o'clock in the morning, and the total delay 61 i is set to four. Hours, on behalf of the telecommunications operations and network optimization needs to measure the interval from 2 am to 6 am. When the client device 608 enters the connection mode at ten o'clock in the evening, the base station end is simultaneously measured and set. The relative time of the measurement start time is relative to the user equipment 6〇8, which is the time difference between 10 o'clock and 2 am, which is 144 〇〇 seconds. After receiving the measured set value, the client device 608 starts the local counter (local timer) and the value of the counter reaches ι 44 〇〇 before starting the measurement and recording of the idle mode. This 144 sec is called inactive duration 613 (inactive duration). On the other hand, if the demand for measurement in a specific time period is not taken, the user who completely cuts the measurement start time can be omitted. 7 201236493 The end device will directly perform the measurement after entering the idle mode. At the beginning / (4) The situation of each data composition during the periodic idle mode measurement recording is shown in Figure 5. The user equipment will perform a measurement procedure 501 every time a certain measurement period is performed, and 丨#也^ θ η _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ , σ禾 & 6 The main geographical location of the measurement is 5 0 2 ' as shown in Figure 5. 4j» I Tian aw ot The geographical location information includes (1) the performance of the general land wireless access network fine tires J feed the fine fat king ball identification code (E-TRAN Cell
Global Identifier, ECCIT、、, e β GI)U及(2)衛星導航系統(GlobalGlobal Identifier, ECCIT,,, e β GI)U and (2) satellite navigation system (Global
Navigation Satellite System,丄 m ^ y m GNSS)位置貧訊、(3)若用戶 端設備不支援衛星導航系統而導致前項資訊不可得,則由 射頻指紋(RF Fingerprint)代替。然而,用戶料備的地理 位置並非-直改變的。事實上’對於固定位置或移動性較 低的用戶端設備而言,連續好幾筆量測所在的位置資訊可 犯都疋相同的。圖七為本發明在進行週期性閒置模式量測 記錄所採用的方法,亦為圖六中每筆f料組成之情形,乃 是利用每筆量測參數所對應之位置資訊的關聯性,來降低 儲存資料所需的記憶體空間。星號所代表的是用戶端設備 上移動性的判別單元:紅色的星號7〇2代表用戶端設備位 :有改變的情形;灰色的星號7 〇 i代表用戶端設備的位置 有叉唯有紅色星號的時候,才會加註該筆量測參數 之地理位置資訊7G3 ’灰色星號則是不做任何註記。如此 -來,對於對於固定位置或移動性較低的用戶端設備來 201236493 - 說’我們可以很觀察到圖七中的資料量很明顯的要比圖五 減少很多。 量測程序的最後階段如圖八所示,當後端營運管理暨 維護中心收到用戶端設備的量測資料後,若找不到量測參 數標註的位置資訊,即可判斷該筆量測的位置和前一筆 (前一個週期量測)的位置相同。802、803、804、805這四 筆資料在用戶端設備執行量測時之位置都沒有改變,因此 803、804、805量測參數之位置資訊可直接參考802之量 測資料位置資訊,可以省去記錄803、804 ' 805量測參數 之相對應位置資訊。經比較後可以很清楚的發現,本發明 可以針對滿足特定時間取得閒置模式量測的需求,並有效 率地取得量測結果’大幅減少不必要的量測以及多餘的位 置貝汛標註,降低對於用戶端設備記憶體和電力方面的衝 擊。圖九為本發明用戶端設備實作方式的步驟說明;後端 呂運官理暨維護中心和基站端實作方式的步驟請參閱圖 十。 本發明所提供之一種用於行動通信系統用戶端設備 °己錄置測資料之方法’與其他習用技術相互比較時,更具 有下列之優點:Navigation Satellite System, 丄 m ^ y m GNSS) Location Poor, (3) If the user equipment does not support the satellite navigation system and the previous information is not available, it is replaced by RF Fingerprint. However, the geographical location of the user's equipment is not - straight. In fact, for a fixed-position or low-mobility client device, the location information of several consecutive measurements can be the same. FIG. 7 is a method used in the measurement of the periodic idle mode measurement of the present invention, and is also a case in which each f component in FIG. 6 is composed by using the correlation information of the position information corresponding to each measurement parameter. Reduce the memory space required to store data. The asterisk represents the discriminating unit of the mobility on the user equipment: the red asterisk 7〇2 represents the user equipment device: there is a change situation; the gray asterisk 7 〇i represents the position of the user equipment device has a red asterisk only. At that time, the geographic location information of the measurement parameters will be added. 7G3 'The gray asterisk does not make any notes. So - come, for a fixed location or low mobility client device 201236493 - say 'we can observe that the amount of data in Figure 7 is significantly less than Figure 5. The final stage of the measurement procedure is shown in Figure 8. When the back-end operation management and maintenance center receives the measurement data of the user equipment, if the location information marked by the measurement parameters is not found, the measurement can be judged. The position is the same as the position of the previous stroke (previous period measurement). The four pieces of data of 802, 803, 804, and 805 are not changed when the user equipment performs measurement. Therefore, the position information of the 803, 804, and 805 measurement parameters can directly refer to the position information of the measurement data of 802, which can save Record the corresponding position information of the 803, 804 '805 measurement parameters. After comparison, it can be clearly found that the present invention can meet the requirement of obtaining the idle mode measurement at a specific time, and efficiently obtain the measurement result, which greatly reduces the unnecessary measurement and the redundant position of the annotation, and reduces the Impact on the memory and power of the client device. FIG. 9 is a step-by-step description of the implementation manner of the user equipment of the present invention; FIG. 10 is a step of the steps of the implementation of the back-end Lv Yun government and maintenance center and the base station. The method for the user equipment of the mobile communication system provided by the present invention has the following advantages when compared with other conventional technologies:
1.本發明針對行動通信系統中利用用戶端設備進行 閒置桓"V旦、B丨《X 、二里測記錄時,將對於取得特定時段量測資料的需 、入考里,利用在基地台端發至用戶端設備的組態訊息 201236493 寺門這個參數,可精確地取得特定時間内 避免不必要量測的執行。 中加入量測起始 的間置換式量消| •本發明針對行動 k k糸統中利用用戶端設備進行 閒置模式量測記鈴主 己錄時,將用戶端設備的移動性納入考量, 選擇性的標註每筆眘 θ 聿貝枓$測時的地理位置資訊,可大幅降 低閒置模式量測勃仏 、丁寺,用戶端設備儲存量測資料時所需 的記憶體空間。 3.本發明降低用戶端設備在支援閒置模式量測記錄 斤拉成的衝擊,提升了使用者參與路測功能的意願,因而 、v的減^貫施傳統路測所帶來的車輛排碳量,並大幅 降低電信業者的營運成本。 上列詳細說明係針對本發明之一可行實施例之具體 °兄明’惟該實施例並非用以限制本發明之專利範圍,凡未 脫離本發明技藝精神所為之等效實施或變更,均應包含於 本案之專利範圍中。 知'上所述’本案不但在技術思想上確屬創新,並能較 $用物〇〇增進上述多項功效應以充分符合新穎性及進步 性之法定發明專利要件,爰依法提出申請,懇請 貴局 核准本件發明專利申請案,以勵發明,至感德便。 【圖式簡單說明】 圖一為傳統路測情境之示意圖; 圖二為行動通信系統中利用用戶端設備支援路測目 10 201236493 的之示意圖; 圖三為用戶端設備支援路測目的之狀態圖; 圖四為一般取得特定時段閒置模式量測的方法之示 意圖; 圖五為習知執行週期性閒置模式量測儲存紀錄對應 時間線之示意圖;1. The present invention is directed to the use of a client device for idle communication in a mobile communication system. When a record is recorded in the X and the second measurement, the need for measuring data for a specific time period is entered into the test. The configuration message 201236493 of the station end sent to the client device can accurately obtain the execution of unnecessary measurement within a certain time. Adding the inter-displacement quantity of the measurement start | The present invention considers the mobility of the user-side device when the user equipment is used for the idle mode measurement in the action kk system, and the mobility of the user equipment is taken into consideration. The location information of each mark θ 聿 枓 枓 测 测 测 测 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓 枓3. The invention reduces the impact of the user equipment in supporting the idle mode measurement and recording, and enhances the user's willingness to participate in the road test function. Therefore, the vehicle carbon emission caused by the traditional road test is reduced. Volume and significantly reduce the operating costs of telecom operators. The detailed description above is for the specific embodiment of the present invention. It should be understood that the embodiment is not intended to limit the scope of the invention. It is included in the patent scope of this case. Knowing that 'this case' is not only innovative in terms of technical thinking, but also can enhance the above-mentioned multiple functions compared with the use of materials. It should be in accordance with the statutory invention patents that fully meet the novelty and progressiveness, and apply for it according to law. The bureau approved the application for the invention patent, in order to invent the invention, to the sense of virtue. [Simple diagram of the diagram] Figure 1 is a schematic diagram of a traditional road test situation; Figure 2 is a schematic diagram of a mobile communication system using a user equipment to support the road test 10 201236493; Figure 3 is a state diagram of the user equipment support road test purpose FIG. 4 is a schematic diagram of a method for generally obtaining an idle mode measurement for a specific period of time; FIG. 5 is a schematic diagram of a conventional time line for performing a periodic idle mode measurement storage record;
圖六本發明取得特定時段閒置模式量測的方法之示 意圖; 圖七為本發明提供之執行週期性閒置模式量測儲存 紀錄對應時間線之示意圖; 圖八為本發明提供之執行週期性閒置模式量測之量 測資料儲存範例; 圖九為本發明用戶端設備實作方式的流程圖;以及 圖十為本發明後端營運管理暨維護中心和基站端實 作方式的流程圖。 【主要元件符號說明】 401 基地台端 402 設定參與路測功能組悲:的時間點 403 設定參與路測功能組悲的時間點 404 設定參與路測功能組態的時間點 405 基地台端所發出的設定組態訊息 406 基地台端所發出的設定組態訊息 407 基地台端所發出的設定組態訊息 11 201236493 408 409 410 411 412 501 502 601 602 603 604 605 606 607 608 609 610 611 612 613 701 702 703 801 802 803 804 接收設定組態訊息的用戶端設備 接收設定組態訊息的用戶端設備 接收設定組態訊息的用戶端設備 閒置模式量測執行的延時 進行電信營運和網路優化所需要取得量測的時間區 週期性閒置模式量測之量測參數 週期性閒置模式量測之位置資訊 基地台端 設定參與路測功能組態的時間點 設定參與路測功能組態的時間點 設定參與路測功能組態的時間點 基地台端所發出含量測起始時間的設定組態訊息 基地台端所發出含量測起始時間的設定組態訊息 基地台端所發出含量測起始時間的設定組態訊息 接收包含量測起始時間設定組態訊息的用戶端設備 接收包含量測起始時間設定組態訊息的用戶端設備 接收包含量測起始時間設定組態訊息的用戶端設備 閒置模式量測執行的延時 進行電信營運和網路優化所需要取得量測的時間區 非行動期 用戶端設備位置資訊未改變的情形 用戶端設備位置資訊未改變的情形 週期性閒置模式量測之位置資訊 週期性閒置模式量測之量測參數 週期性閒置模式量測之量測參數 週期性閒置模式量測之量測參數 週期性閒置模式量測之量測參數 201236493 805 週期性閒置模式量測之量測參數FIG. 6 is a schematic diagram of a method for obtaining idle mode measurement in a specific time period according to the present invention; FIG. 7 is a schematic diagram of a time line corresponding to performing periodic idle mode measurement storage records provided by the present invention; FIG. 8 is a flowchart of performing periodic idle mode provided by the present invention; The measurement data storage example of the measurement; FIG. 9 is a flow chart of the implementation manner of the user equipment of the present invention; and FIG. 10 is a flow chart of the implementation manner of the back-end operation management and maintenance center and the base station of the present invention. [Main component symbol description] 401 Base station 402 Set the time point 403 of participation in the road test function group: Set the time point 404 to participate in the road test function group. Set the time point 405 to participate in the configuration of the road test function. Configuration message 406 Setting configuration message sent by the base station 407 Setting configuration message issued by the base station 11 201236493 408 409 410 411 412 501 502 601 602 609 610 611 612 613 701 702 703 801 802 803 804 Receiving the setting configuration message, the client device receiving the setting configuration message receives the delay of the user equipment idle mode measurement execution of the configuration configuration message, and the time required for the telecommunication operation and network optimization Zone periodic idle mode measurement measurement parameter periodic idle mode measurement location information base station setting participation time test function configuration time point setting participation time test function configuration time point setting participation road test function configuration The setting of the content start time set by the base station at the time point is configured to be sent by the base station. Setting of the measurement start time configuration message Setting of the measurement start time sent by the base station Configuration message receiving the measurement start time setting configuration message, the user equipment receives the measurement start time setting configuration message The client device receives the delay of the measurement of the idle mode measurement of the client device including the measurement start time setting configuration message. The time zone in which the telecommunication operation and the network optimization need to obtain the measurement is not changed. The situation where the location information of the user equipment is not changed. The position information of the periodic idle mode measurement. The information of the periodic idle mode measurement. The measurement parameter of the periodic idle mode measurement. The measurement parameter of the periodic idle mode measurement. Measurement parameters of periodic idle mode measurement 201236493 805 Measurement parameters of periodic idle mode measurement
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