200926739 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種用以評估一行動通訊裝置的方法或 系統’尤其係關於一種利用實地測試紀錄(field test logs)與 地理地圖顯示(geographical map representation)以評估行動 通訊裝置的方法與系統。 ❹ 【先前技術】 隨著行動裝置的各種應用不斷地滲透現今社會以及現 代人極度地依仗他們的行動通訊裝置,製造商與消費者均 變得越來越在意這些裝置的品質,如此一來,製造商開始 額外地注重他們的產品在發展階段的真實世界測試環境 (real-world test environment),以進一步減少其產品上市後 可能產生的缺點與小毛病。 ❹ 各階段的真實世界測試環境與態樣現今稱為「實地測 試(field test)」或「實地試驗(field trail)」。在實地測試(試 驗)中’將標為「待測裝置(EUT,Equipment Under Test)」 的行動使用者裝置(UE,User Equipment)沿著測試路徑針 對多種測試條件加以測試,測試路徑係包含一或多個地理 位置。實地測試通常係以駕駛一台裝備著待測行動裝置與 取得測試分析用的測試結果或紀錄的輔助或監控裝置的車 輛來進行,如此一來,可以被清楚理解的是,實地測試亦 200926739 態樣 被稱為「駕歇消m(drivetests)」。例如,假設一條可能的測 試路徑係曲曲折折的穿越紐約市的蘇活區—帶的衔道,又 或者假設另1可能的測試路徑係從舊金山沿著州際公路 101 -直到聖荷西。行動裝置製造商與實地測試服務提供 者(代替其彳物裝置製造商客戶執行實地測試者)循 幾條預定測叫徑,以提供各實地測試間的—些比較基 礎’並重現-些僅會在特定地點出現的行動網路200926739 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD The present invention relates to a method or system for evaluating a mobile communication device, in particular to a field test logs and a geographic map. Representation) to evaluate methods and systems for mobile communication devices. ❹ [Prior Art] As the various applications of mobile devices continue to infiltrate today's society and modern people rely heavily on their mobile communication devices, manufacturers and consumers are becoming more and more concerned about the quality of these devices. Manufacturers are beginning to pay extra attention to the real-world test environment of their products at the development stage to further reduce the shortcomings and minor problems that may arise after their products go on the market.真实 The real-world test environment and patterns at each stage are now called “field tests” or “field trails”. In the field test (test), the user equipment (UE, User Equipment) marked as "Equipment Under Test" is tested along the test path for various test conditions. The test path includes one. Or multiple locations. Field testing is usually carried out by driving a vehicle equipped with a test device to be tested and an auxiliary or monitoring device for obtaining test results or records for test analysis. As a result, it can be clearly understood that the field test is also 200926739. This is called "drivetests". For example, suppose a possible test path is a curved path through the Soho area of New York City, or assume that another possible test path is from San Francisco along Interstate 101 - up to San Jose. Mobile device manufacturers and field test service providers (instead of their physical device manufacturer customers performing field testers) follow several predetermined test paths to provide some comparative basis for each field test and reproduce - some Mobile networks that will appear in specific locations
外第1圖顯示在一地理區域上有兩條示範性測試路徑的 簡化測試路徑圖。此示範測試區域100係包含街道130至 街道139’且示範測試路徑110與12〇係蜿蜒在街道13〇1外 之中,各有起點m與121以及相對應的終點112與122。 在第1圖所示之範例中,亦包含一地理上的位置14〇,待 測裝置在分別沿著路徑110與120進行的實地測試時’,均 在該處發生錯誤。 s 在實地測試中,行動裝置及/或所伴隨的輔助裴置擷取 並儲存有關訊息流量(messaging traffic)的資气、網 資訊(例如所連接的基地台與其相對信號強度)以及-動 置在測試模式中所觸發的行動狀態資訊。但因#Μ%## 息與事件經常迅速地發生,所以儘管只進行幾小時、° 測試仍會記錄到大量的資料,即使是像第^圖這樣巧^ , 測試路徑120仍會產生大量的紀錄資料以待分析,^彳可 9 200926739 以很清楚地發現到,包含進行了許多天的多重實地測試路 徑與多次測試同一路徑的單一個行動裝置測試計劃將會產 生極大量的紀錄資料。比較這極大量的實地測試紀錄以重 現錯誤或圖樣(pattern)將成為令人卻步的繁重工作。 此外,地形、建物或其他公共建設會造成部署在真實 世界的行動網路在網路信號接收與效能上產生極大的差 0 異,因此,擁有實地測試期間精確的地理資訊係非常重要; 例如在位置上的些微誤差會產生極大的測試結果誤差。可 在沿著預定路徑進行實地測試之前,先以文字紀錄待測裝 置的各個測試位置,例如:「台北市中山北路與南京東路的 交叉口」、「新竹縣政府前廣場的正中央」、「高雄市三民路 10號」。這些註記在實地測試時很有幫助,但這樣粗略的 描述仍會使些微的位置誤差造成極大的實地測試結果誤 ❾差。此外,文字敘述在實地測試時是很耗時的,並且稍後 在比對或結果分析時難以進行通盤搜尋。 先前技術指出現今裝配全球導航衛星系統(GNSS, Global Navigation Satellite System) ’ 例如全球定位系統 (GPS,Global Positioning System),的行動裝置可應用在關 於測試位置的問題。在美國專利第7,062,264號中,全球定 位系統的位置訊息係内喪(embedded)於所選定之實地測試 訊息中’並透過無線傳遞方式而傳送至網路,以便更進一 200926739 步地分析以及改進在特定位置上的行動網路效能。另外, 美國專利第7,111,318號則建議將行動裝置量測歷史紀錄 與全球定位系統的位置訊息一起儲存,如此一來在後續的 實地測試中,該資訊就可指導實地測試操作者在一特定地 點該進行哪些測試。然而,上述的專利案均無提及如何解 決大量的測試紀錄資料之問題,以及如何幫助行動裝置製 造商或實地測試服務供應者,在實地測試中根據行動通訊 ❹ 裝置之效能,擷取出有意義的行動通訊裝置評估值。 【發明内容】 因此,本發明的目的之一係在於解決前述實地測試紀 錄資料量龐大的問題,並提供一種方法與系統用以評估一 行動通訊裝置。 依據本發明之一實施例,其提供一種評估一行動通訊 ❹ 裝置的方法,包含:提供具有一内建全球導航衛星系統功 能的一行動裝置;使用該行動裝置在一測試路徑上執行一 實地測試;依據該内建全球導航衛星系統功能對該實地測 試產生一測試紀錄,該測試紀錄包含該行動裝置在該實地 測試期間的至少一狀態訊息與至少一位置訊息;將該測試 紀錄傳輸至一紀錄資料庫;依據該測試路徑之該至少一位 置訊息將該測試路徑顯示在一使用者介面地圖上,以藉此 Λ 在該使用者介面地圖上指示各對應點;以及超連結該使用 11 200926739 者介面地圖上各點與儲存於該紀錄資料庫之該至少一位置Figure 1 below shows a simplified test path diagram with two exemplary test paths on a geographic area. This exemplary test area 100 includes a street 130 to a street 139' and exemplary test paths 110 and 12 are outside the street 13〇1, each having a starting point m and 121 and corresponding ending points 112 and 122. In the example shown in Fig. 1, a geographical position 14 is also included, and the device under test 'has been tested in the field tests along paths 110 and 120, respectively, where an error occurs. s In the field test, the mobile device and/or the accompanying auxiliary device capture and store the information and information about the message traffic (such as the connected base station and its relative signal strength) and Action status information triggered in test mode. However, because #Μ%## information and events often occur quickly, even though only a few hours, the ° test will still record a large amount of data, even if it is as good as the ^ map, the test path 120 will still generate a large number of Recording data to be analyzed, ^彳可9 200926739 It is very clear that a single mobile device test plan containing multiple days of multiple field test paths and multiple tests of the same path will generate a very large amount of recorded data. Comparing this vast amount of field test records to reproduce errors or patterns can be a daunting task. In addition, terrain, buildings, or other public buildings can cause the real-world mobile networks to experience significant differences in network signal reception and performance. Therefore, it is important to have accurate geographic information during field testing; for example, Some slight errors in position can cause significant test result errors. Before performing the field test along the predetermined route, the test positions of the device to be tested can be recorded in words, for example, "the intersection of Zhongshan North Road and Nanjing East Road in Taipei City" and "the center of the front square of Hsinchu County Government". "10 Sanmin Road, Kaohsiung City". These annotations are helpful when testing in the field, but such a rough description still causes a slight positional error to cause a large error in the field test results. In addition, text narratives are time consuming in field testing and it is difficult to perform a general search later in comparison or result analysis. Prior art refers to the problem that today's Global Navigation Satellite System (GNSS), such as the Global Positioning System (GPS), can be applied to test locations. In U.S. Patent No. 7,062,264, the location information of the global positioning system is embedded in the selected field test message and transmitted to the network via wireless transmission for further analysis and improvement in 200926739. Mobile network performance at a specific location. In addition, U.S. Patent No. 7,111,318 proposes to store the mobile device measurement history record together with the global positioning system location information, so that in subsequent field tests, the information can guide the field test operator to a particular What tests should be performed at the location. However, none of the above patents mentions how to solve a large number of test record data, and how to help mobile device manufacturers or field test service providers to extract meaningful meanings based on the performance of mobile communication devices in field tests. Mobile communication device evaluation value. SUMMARY OF THE INVENTION Accordingly, one of the objects of the present invention is to solve the problem of a large amount of the aforementioned field test record data, and to provide a method and system for evaluating a mobile communication device. According to an embodiment of the present invention, there is provided a method of evaluating a mobile communication device, comprising: providing a mobile device having a built-in global navigation satellite system function; using the mobile device to perform a field test on a test path Generating a test record for the field test based on the built-in GNSS function, the test record including at least one status message and at least one location message of the mobile device during the field test; transmitting the test record to a record a database; the test path is displayed on a user interface map according to the at least one location message of the test path, thereby indicating each corresponding point on the user interface map; and the hyperlink is used by 11 200926739 Each point on the interface map and the at least one location stored in the record database
依據本發明之另一實施例,其提供一種用以評估一行 動通訊裝置的系統。該系統包含:一行動裝置,具有一内 建全球導航衛星系統功能,用以依據該内建全球導航衛星 系統功能在由複數個位置組成的一測試路徑上執行一實地 0 測試中,並產生一測試紀錄,該測試紀錄包含該行動裝置 在該實地測試期間至少一狀態訊息與至少一位置訊息;一 紀錄資料庫,用以接收並儲存該測試紀錄;一顯示器,用 以顯示一使用者介面地圖與該紀錄資料庫之内容;一繪圖 工具,用以依據該測試路徑之該至少一位置訊息,將該測 試路徑顯示在一使用者介面地圖上,藉此在該使用者介面 地圖上指示各對應點,其中該至少一位置訊息係儲存在該 _ 紀錄資料庫;以及一超連結’用以超連結該使用者介面地 ❹ 圖上各點與儲存於該紀錄資料庫之該至少一位置訊息。 【實施方式】 本發明為提供更簡便與改良之待測行動裝置評估而著 重於實地測試紀錄的存取與管理。 在後續的說明中,待測裝置(EUT,Equipment Under Test)可為採用「全球移動通訊系統(GSM)」行動電話之手 12 200926739 機或個人數位助理(PDA)、連接3G網路(例如通用移動通訊 系統’ UMTS)的裝置、或可為透過微波存取全球互通 (Wi-Max * Worldwide Interoperability for Microwave Access) 技術連接的裝置。此外,範例中所述之手機會採用一般的 全球定位系統(G P S)功能作為内建的全球導航衛星系統 (GNSS)功能。應當注意到,儘管這些範例為特定技術,但 不應將本發明之應用範圍侷限在這些特定的網路或技術。 © 本發明可應用在透過涵蓋一適當區域之網路來通訊,且内 建對應該區域之位置或定位系統之任何行動裝置,而遵循 相同精神之各種應用或實施例亦應視為落在本發明之範_ 之内。 第2圖係根據本發明之一實施例之實地測試系統的功 能方塊圖。系統200包含一行動通訊裝置210、一全球導 ❹ 航衛星系統214、一行動網路218、一實地測試紀錄220、 一紀錄資料庫230、一緣圖工具240以及一顯示器250。行 動裝置210包含一 GNSS模組212用以從全球導航衛星系 統214接收資料、一行動通訊模組216用以與行動網路218 通訊,以及一處理单元219用以準備實地測試紀錄220。 實地測試紀錄220係由行動裝置210所產生並傳送至紀錄 資料庫230 ’紀錄資料庫230係用以接收並儲存產生自利 用行動裝置210進行實地測試的實地測試紀錄22〇。繪圖 工具240係輕接至紀錄資料庫230 ’並從實地測試紀錄220 13 200926739 直接接收其中之一測試紀錄資料,或者接收紀錄資料庫230 之内容。顯示器250係耦接紀錄資料庫230以及繪圖工具 240,並顯示紀錄資料庫内容260(得自於紀錄資料庫230) 以及由繪圖工具240所產生的一使用者介面地圖270。紀 錄資料庫230之内容260包含一測試紀錄261(得自於實地 測試紀錄220),其在顯示器250上顯示測試紀錄標籤262, 並顯示與行動裝置210之狀態資料訊息264a〜264e交錯之 © 複數個位置訊息263a〜263e。使用者介面地圖270顯示一實 地測試路徑271,其係由測試路徑標籤272所標記。實地 測試路徑271上標有位置點273a〜273e(其組成測試路徑 271),分別對應實地測試紀錄261之位置訊息263a〜263e。 由第二測試路徑標籤277所標記之第二路徑276具有位置 點278a〜278d ’然而第2圖上省略了第二實地測試紀錄以 求說明書簡潔。一路徑超連結(routehyper-link)280係連接 U 第一測試紀錄262與第一測試路經272,而一連串的超連 結係連接使用者介面270之測試路徑271中的各位置點 273a〜273e以及測試紀錄261中相對應的各位置訊息 263a〜263e。顯示器250更包含複數個顯示條件設定 290a〜290d以允許使用者得以選擇欲觀看的測試路徑地圖 與測試紀錄,或甚可選擇可觀看的測試路徑號碼。 請注意到,儘管在此例中表示了 5個位置訊息與5個 交錯的狀態訊息’然而這些數目僅為示範說明之用,且不 14 200926739 應視為本發明之限制。位置訊息與狀態訊息的數目可隨著 測試路徑改變,可從單一個狀態與位置訊息至許多個狀態 與位置訊息,再次強調,儘管在範例中所示之各狀態資料 訊息恰好交錯於兩個位置訊息之間,但不應將本發明侷限 於此,複數個位置訊息可連續地呈現在兩個狀態資料訊息 之間,且複數個狀態資料訊息亦可存在於兩個位置訊息之 間,可依測試路徑而定。 ❹ 第3圖包含了一流程圖300,其顯示本發明利用第2 圖所示之系統的實地測試方法。第3圖之方法的各步驟如 下所示: 步驟310 :提供具有内建全球導航衛星系統功能的行動裝 置。 步驟320 :利用該行動裝置執行實地測試。 步驟330 :在該測試期間,針對各實地測試產生具有狀態 資料與位置訊息之測試紀錄。 步驟340 :將該測試紀錄傳輸至紀錄資料庫。 步驟350 :在使用者介面地圖上顯示該測試路徑。 步驟360 :將使用者介面地圖上各點超連結至該測試紀錄 中該行動裝置之位置訊息。 步驟370 :在測試期間,比較該行動裝置發生狀態錯誤訊 ^ 息之處與參考行動裝置發生狀態錯誤訊息之處 15 200926739 以評估該待測行動裝置。 -定成實質上相同的結果,上述方法的各步驟不 要又斤不的次序執行,且不需連續,亦即,可以插入 =步驟,或可交換、省略上述之任何步驟。上述步驟(亦 即3圖所不之步驟)的各種變化均應視為落在本發明的範 #之内。 依據第3圖,本發明方法係從步驟31〇開始,提供具 有内建全球導般衛星系統(GNSS)功能212 W至少一行動裝 置210例如,該行動裝置可為利用全球移動通訊系統(GSM) 行動電話網路、分碼多工(CDMA)網路、通用移動通訊系統 (UMTS)第3代網路甚或微波存取全球互通(Wi_Max)網路之 行動電話或個人數位助理(PDA)。在範例中所使用的全球導 航衛星系統(GNSS)功能係採用最近越來越熱門的全球定位 系統(GPS)功能。在第3圖之方法的一特定應用中,所提供 的行動裝置210中之一係為「參考行動裝置」;亦即,一個 先刖已由一行動網路操作者確認為在其所操作之行動網路 218中功能正常且行為可預期之行動装置,故可作為其他 行動裝置效能基準的參考。在本發明方法之其他應用中, 步驟310所提供的複數個行動裝置實際上係相同的裝置, 或者是有相同測試模型的裝置以獲得額外的效能基準值 (performance metric)。步驟320接著對所提供的行動裝置執 16 200926739 行一連串的實地測試,實地 開拓的複數個位置所組 係沿著由預先決定或目前 裝置的例子中,利用=考的複數條路徑執行。在參考行動 之第一實地測試係假定订,置在行動網路218上進行 用待測行動農置在行動網=完成’而步驟32G減指示利 置210(與任何辅助志ρ 上進行第二實地測試。行動裝 7稀助或監控敬 測試路徑產生-實地測 料對各實地測。式與各 〇 ^ 、、、、己錄22〇,如步驟330所示。所 有的實地測試一起產生7益& 1複數個測試紀錄220,而各測試 紀錄包含了在測試期間該行動裝置的狀態資料純〜施 與位置訊息263a〜263e。 當實地測試完成且已產生實地測試紀錄22〇時,步驟 340便將實地測試紀豸22〇#送至位在行動裝置21〇之外 的-紀錄資料庫23〇。對於複數個實地測試紀錄細,最好 ❹有-自動化工作流程來將實地測試紀錄22〇傳輸至纪錄資 料庫230,但這並非本發明方法的必要條件或限制❶在步 驟350中,依據儲存在紀錄資料庫230之實地測試紀錄 220,繪圖工具240將測試路徑271與276顯示在顯示器 250的使用者介面地圖270上。應當注意到,步驟35〇可 立即在步驟340之後進行,亦可延遲一段時間之後再進 行,主要是依據行動裝置計劃的實地測試與工作程序而 定。在步驟350中,於使用者介面地圖270上,係利用繪 圖工具240依據位置訊息263a〜263e之内容(座標,例如緯 17 200926739 度與經度)’將實地測試紀錄261中的各位置訊息263a〜263e 描繪至使用者介面地圖270上的對應點273a〜273e以顯示 測試路徑。此步驟亦包含,當標記出測試路徑標籤272與 277時’依據實地測試紀錄261繪製已經歷之測試路徑271 與276。應當注意到’此範例說明了兩條測試路徑,但第2 圖中僅呈現一測試紀錄261 ;對應所缘示之測試路徑276 的第二測試紀錄原應顯示於範例中,但為求簡潔起見,已 © 於第2圖中省略。於步驟350之另一部份’測試路徑271 與276係内插適當的位置訊息263a〜263e所顯示之一線段 或一曲線,以便更加清楚地標示出測試路徑的路線。請注 意到’測試路位271與276可不必完全的顯示在使用者介 面地圖270上,而可依顯示器250與使用者所設定的各種 顯示條件而定’例如,顯示條件設定290a〜290d會依據一 日期或時間範圍、地理區域、特定測試路徑識別螞或測試 ❹ 路徑上具有至少一點之預定狀態訊息(例如狀態錯誤訊息) 之路徑以限制所顯示的測試路徑。同樣地,使用者介面地 圖270具有人機互動功能,並可轉動或拉近畫面,或者提 供任何其他便於檢視之操作。 隨後之步驟(步驟360)建立使用者介面地圖27〇上的各 點273a〜273e以及實地測試紀錄261中與其相對應的位置 . 訊息263a~263e之間的各個超連結283a〜283e。如前所述, 實質上測試路徑276與其餘複數條測試路徑亦採用了相同 18 200926739 的程序’但為求簡潔起見,在此省略該些敘述。超連結 283a〜283e最好是雙向的,這樣的話,使用者可以選擇使用 者介面地圖270上的一點(例如273a),以檢視紀錄資料庫 230之測試紀錄261中相對應的位置資訊與狀態資料(例如 263a),同樣地,可選擇測試紀錄261中的狀態訊息263a 以檢視使用者介面地圖270上相對應的點273a ;亦即,超 連結可雙向運作。 第3圖所示之流程圖中的步驟370係依據各點 273a〜273以評估待測行動裝置210。實地測試紀錄261在 紀錄一台以上的行動裝置210之後可進行比較,例如,比 較使用者介面地圖270上各點273a〜273e (對應待測行動裝 置210之狀態資料263a〜263e與位置訊息264a〜264e)與使 用者介面地圖270上其他點(對應參考行動裝置之狀態資料 與位置訊息)。在另一特殊應用中,步驟370之評估操作包 含了:僅比較待測行動裝置210在使用者介面地圖270上 發生狀態錯誤訊息之處是否實質上等於參考行動裝置在使 用者介面地圖270上發生狀態錯誤訊息之處’以推得待測 行動裝置210與該參考行動裝置在某些效能參數上「一樣 好」的合理結論。 在另一實施例中,上述方法中之步驟370亦可利用一 評估工具718自動進行,如第7圖所示。如此一來,則可 200926739 利用待測裝置702與參考裝置704進行獨立的實地測試 706、708以產生第一與第二紀錄71〇、712,這些紀錄71〇、 712係儲存在耦接評估工具718的紀錄資料庫714中。接 下來’評估工具718便比較待測裝置702發生狀態錯誤訊 息之處與參考行動裝置704發生狀態錯誤訊息之處,以評 估該待測行動裝置,比較結果720係據此產生。例如,評 估工具718可僅比較待測行動裝置210在使用者介面地圖 O 724(顯示於顯示器250)上發生狀態錯誤訊息之處是否實質 上等於參考行動裝置在使用者介面地圖724上發生狀態錯 誤訊息之處。在此例中,若待測裝置702僅在實質上等於 參考行動裝置在使用者介面地圖724上發生狀態錯誤訊息 之處發生狀態錯誤訊息,則判定待測裝置702與該行動網 路係正常運作;然而,若待測裝置702於不同於參考行動 裝置發生狀態錯誤訊息之處發生狀態錯誤訊息,則判定待 q 測裝置702與該行動網路不正常運作。 回到前述之GSM行動電話範例,假設行動裝置210 在實地測試路徑271上之一位置點273c發生了通話中斷錯 誤(記載於對應測試紀錄狀態283c)。步驟370之比較與評 估技術會將該通話中斷錯誤與實質上與位置點273c相同 位置上發生通話中斷錯誤之其他測試紀錄做比較’若先前 的測試紀錄顯示在該處無通話中斷錯誤,或者甚至在與位 « 置點273c相同之位置上呈現更好的行動網路接收信號強 20 200926739 度指標(RSSI ’ receiving signal strength indicator)值,那麼 可在對行動裝置210的評估之中包含行動裝置21〇之信號 接收品質考量。此外,此比較與評估技術可適用於儲存在 紀錄資料庫230之先前測試紀錄’該些紀錄係先前用與行 動裝置210相同模式之裝置在相同的位置點273c上所測 得。 ❺ 在閱讀過本發明之系統、方法與範例之後,熟習此項 技藝者可輕易地推導出其他的應用與實現方式,而這些應 用與實現方式均應隸屬本發明之範疇。 請再次參見第2圖。内建全球導航衛星系統功能的待 測裝置將裝置狀態與資訊流訊息264a〜264e與位置定位訊 息263a〜263e整合在一起。在一行動電話實地測試範例中, 狀態資料訊息264a〜264e包含時間戮記(timestamp)、網路 0 通訊資料、測量資料以及在實地測試期間行動裝置與行動 網路間的信號資訊,而位置訊息263a〜263e則包含時間戳 記與位置資訊(例如經度與緯度)。位置訊息263a〜263e有一 預定的回報頻率(例如十分之一秒回報一次)、或者位置訊 息263a〜263e係經由觸發而回報,抑或是觸發與以預定頻 率回報兩者並行。說的更清楚點,第4圖顯示了本發明實 地測試紀錄之一部分的範例。實地測試紀錄400包含位置 訊息420a〜420i與狀態資料訊息440a〜440j,通常依時間前 21 200926739 後次序排列。位置訊息420a〜420i各包含了對應的時間戳 記410a〜410i,且分別表示一位置點;在此例中,全球定位 系統之位置資訊係表示為對應其相對位置訊息420a〜420i 之緯度與經度的組合(Xa,Ya)〜(Xi,Yi)。例如,位置訊息420c 具有時間戳記410c為「08 : 15 : 20.200」(上午8時15分 20秒200微秒)並報告行動裝置210係處於(Xc,Yc)之位置 上。同樣地,狀態資料訊息440a〜440j各包含了相對應的 〇 時間戳記430a〜430j與在該時間點發生的狀態或事件訊 息,例如,時間戳記430f為「08 : 15 : 20.400」的狀態資 訊440f顯示服務行動網路單元的信號強度報告。在第4圖 之實地測試紀錄400的範例中,各個位置訊息420a〜420i 係間隔100微秒以使行動裝置210在該位置上持續地回 報。如前所述,實地測試紀錄400的範例顯示出一個狀態 資料訊息不一定要剛好在兩個位置訊息之間;可在兩個狀 ❹態資料訊息間連續地報導複數個位置訊息,例如位置訊息 420h與420i。此外’亦可將複數個狀態資料訊息,如44〇g、 440h、440i放在兩個位置訊息之間,如420f與42〇g。這些 訊息的次序係依測試路徑上的裝置活動而定。 第2圖中實地測試紀錄220之一範例係為第4圖所示 之實地測試紀錄400 ’而繪圖工具240便將該測試路徑緣 製到顯示器250的使用者介面地圖270上。第5圖係操取 自第2圖的簡要示意圖,並顯示了本發明中使用者介面地 22 200926739 圖270與實地測試紀錄内容261之間的超連結。為了更進 一步地從使用者的操作角度來討論,僅顯示第一測試路徑 271 ° 就使用者的操作角度來討論,假定該使用者係依照第 3圖所示之方法中步驟370來評估一行動裝置210。本發明 之使用者操作(亦示於第6圖之流程圖600)包含一連串的事 〇 件,如下所述: 步驟610 :尋找目標測試路徑。 子步驟612 :使用者選擇顯示條件設定。 子步驟614 :顯示多個區域/位置/訊息。 子步驟616 :使用者選擇想要的區域/地區。 子步驟618 :使用者選擇目標測試路徑。 © 步驟620 :選擇地圖項目以檢視相應的紀錄項目。 子步驟622 :使用者選擇特定位置訊息。 子步驟624 :顯示器顯示測試紀錄與所選擇的位 置訊息。 子步驟626 :使用者評估旁邊或鄰近位置訊息的 訊息。 - 步驟630 :選擇紀錄項目以檢視相應的地圖項目。 23 200926739 子步驟632 :使用者選擇特定位置訊息。 子步驟634 :顯示器在使用者介面地圖上顯示位 置點。 步驟640 :比較個各行動裝置結果。 子步驟642 :使用者比較其他在附近地區有顯示 的測試路徑(結果)。 ^ 子步驟644 :使用者選擇在位置點旁邊或附近的 〇 點。 子步驟646 :顯示器顯示測試紀錄與所選擇的位 置訊息。 步驟650 :得到結論。 流程圖600包含了 5個主要的步驟:在步驟610中’ ❹ 尋找測試路徑;在步驟620中,在使用者地圖介面270中 選擇一項目以檢視在實地測試紀錄261中相應的紀錄項 目;在步驟630中,在實地測試紀錄261中選擇一項目以 檢視在地圖270中相應的項目;在步驟640中’將行動裝 置210的結果與其他實地測試或實地測試路徑做比較;在 步驟650中,評估所討論之行動裝置。隨後將說明各步驟 係提供了更充分的資訊以協助使用者(或提供一種自動化 人工智能(automated intelligence))評估待測行動裝置210。 24 200926739 在步驟610中’使用者首先尋找目標測試路徑 藉由子步驟612〜618來完成。使用者在子步驟㈣針^ 要被顯示的測試路徑選擇所欲的顯示條件f Ο 290a〜测。例如,這些顯示條件可為日期/時間範圍(在 厕年5月與6月)、〜地理區域或城市(台北市中正區)、 一測試路徑制碼(或多個職路徑朗碼)與特定狀態訊 息(通話中斷事件)。在子步驟614中,系統的顯示琴 顯示與在子步驟612中所狀的顯示條件相符之測試路 徑’可為-條或多條路徑。使用者可從回報的這些相符測 試路徑中選擇-較小的子集合(如子步驟616所述),再選 定一特定目標測試路徑(子步驟618)。 步驟620包含了,顯示器25〇從顯示使用者介面27〇 改變成顯示實地測試紀錄261。在子步驟622中,使用者 選擇顯示在目彳示測武路控(選自子步驟618)上的一特定位 置訊息。於下舉一操作實例,例如實地測試路徑271的位 置點273b係對應一通話中斷事件(如基地台轉移失敗),或 係對應使用者在實地測試期間於該區域發生通話中斷。在 子步驟624中’顯示器250顯示相應的實地測試紀錄261 與所選擇的位置訊息263b,以使得在子步騍626中,使用 者得以評估在位置訊息263a〜263e旁邊或附近的狀態訊息 264a〜264e ’在此’使用者可能發現基地台轉移失敗是因為 接收自行動網路細胞基地台的功率太低了。步驟630包含 25 200926739 了顯示器250從顯示實地測試紀錄261改變成顯示使用者 介面270,實質上,其與上述步驟620之運作相反。在子 步驟632中,使用者自實地測試紀錄261中選擇一特定位 置訊息263d,而在子步驟634中,於使用者介面地圖270 上顯示相應的位置點273d。接著,使用者找到通話中斷狀 態訊息264d,且此狀態訊息係最接近實地測試紀錄261中 的位置訊息263d,而顯示器260在使用者介面地圖270上 ❹ 顯示相應的位置點273d。 在步驟640中,使用者比較目前行動裝置210的結果 與其他實地測試結果,而此一步驟包含子步驟642、644、 646。在子步驟642中,使用者比較在子步驟632中找到的 通話中斷狀態訊息2 64d與所顯示的其他測試路徑(其位置 訊息在位置訊息263d附近的路徑)中所找到的狀態訊息(未 π 圖示或未標號)。接下來,在子步驟644中選擇在位置點In accordance with another embodiment of the present invention, a system for evaluating a line communication device is provided. The system includes: a mobile device having a built-in global navigation satellite system function for performing a field 0 test on a test path consisting of a plurality of locations based on the built-in global navigation satellite system function, and generating a a test record comprising at least one status message and at least one location message of the mobile device during the field test; a record database for receiving and storing the test record; and a display for displaying a user interface map And a content of the record database; a drawing tool for displaying the test path on a user interface map according to the at least one location message of the test path, thereby indicating each corresponding on the user interface map The at least one location information is stored in the _ record database; and a hyperlink is used to hyperlink the points on the user interface map to the at least one location information stored in the record database. [Embodiment] The present invention focuses on access and management of field test records in order to provide a simpler and improved evaluation of a mobile device to be tested. In the following description, the EUT (Equipment Under Test) can be used by the Global System for Mobile Communications (GSM) mobile phone 12 200926739 or personal digital assistant (PDA), connected to a 3G network (such as universal A device of the mobile communication system 'UMTS', or a device that can be connected via Wi-Max* Worldwide Interoperability for Microwave Access technology. In addition, the handsets described in the example will use the general Global Positioning System (G P S) function as a built-in Global Navigation Satellite System (GNSS) function. It should be noted that although these examples are specific technologies, the scope of application of the present invention should not be limited to these specific networks or technologies. © The present invention can be applied to communicate over a network covering a suitable area, and any mobile device corresponding to the location or location system of the area is built in, and various applications or embodiments that follow the same spirit should also be considered as falling in this Within the scope of the invention. Figure 2 is a functional block diagram of a field test system in accordance with an embodiment of the present invention. The system 200 includes a mobile communication device 210, a global navigation satellite system 214, a mobile network 218, a field test record 220, a record database 230, a edge map tool 240, and a display 250. The mobile device 210 includes a GNSS module 212 for receiving data from the global navigation satellite system 214, a mobile communication module 216 for communicating with the mobile network 218, and a processing unit 219 for preparing the field test record 220. The field test record 220 is generated by the mobile device 210 and transmitted to the record database 230. The record database 230 is used to receive and store field test records generated by the mobile device 210 for field testing. The drawing tool 240 is lightly connected to the record database 230' and receives one of the test record data directly from the field test record 220 13 200926739 or receives the contents of the record database 230. The display 250 is coupled to the record database 230 and the drawing tool 240, and displays the record database content 260 (from the record database 230) and a user interface map 270 generated by the drawing tool 240. The content 260 of the record database 230 contains a test record 261 (derived from the field test record 220) which displays the test record label 262 on the display 250 and displays the interleaving with the status data messages 264a-264e of the mobile device 210. Location messages 263a~263e. User interface map 270 displays a physical test path 271 that is marked by test path label 272. The field test path 271 is marked with position points 273a to 273e (which constitute the test path 271) corresponding to the position information 263a to 263e of the field test record 261, respectively. The second path 276, marked by the second test path label 277, has position points 278a-278d'. However, the second field test record is omitted from Figure 2 for a brief description. A pathhyper-link 280 is connected to the U first test record 262 and the first test path 272, and a series of hyperlinks are connected to the respective location points 273a-273e in the test path 271 of the user interface 270 and The corresponding positional messages 263a to 263e in the test record 261 are tested. Display 250 further includes a plurality of display condition settings 290a through 290d to allow the user to select a test path map and test record to view, or optionally a viewable test path number. Please note that although five location messages and five interleaved status messages are shown in this example, however, these numbers are for illustrative purposes only, and not 14 200926739 should be considered as a limitation of the present invention. The number of location and status messages can change from the test path to a single status and location message to a number of status and location messages, again emphasizing that although the status data messages shown in the example are exactly interlaced in two locations Between messages, but the invention should not be limited to this, a plurality of location messages can be continuously presented between two state data messages, and a plurality of state data messages can also exist between two location messages, Depending on the test path. ❹ Figure 3 contains a flow chart 300 showing a field test method of the present invention utilizing the system shown in Figure 2. The steps of the method of Figure 3 are as follows: Step 310: Provide a mobile device with built-in GNSS functionality. Step 320: Perform a field test using the mobile device. Step 330: During the test, a test record with status data and location information is generated for each field test. Step 340: Transfer the test record to the record database. Step 350: Display the test path on the user interface map. Step 360: Hyperlink the points on the user interface map to the location information of the mobile device in the test record. Step 370: During the test, compare the location error message of the mobile device with the status error message of the reference mobile device 15 200926739 to evaluate the mobile device to be tested. - The results are substantially the same, the steps of the above method are not performed in the order of the cumbersome, and need not be continuous, that is, the step can be inserted, or any of the above steps can be exchanged or omitted. Various changes in the above steps (i.e., steps not shown in Fig. 3) should be considered to fall within the scope of the present invention. According to FIG. 3, the method of the present invention begins with step 31, providing at least one mobile device 210 having a built-in global guided satellite system (GNSS) function 212 W, for example, the mobile device can utilize the Global System for Mobile Communications (GSM) Mobile phone network, code division multiplexing (CDMA) network, Universal Mobile Telecommunications System (UMTS) 3rd generation network or even Microwave Access Global Interoperability (Wi_Max) network mobile phone or personal digital assistant (PDA). The Global Navigation Satellite System (GNSS) function used in the example uses the more and more popular Global Positioning System (GPS) function. In a particular application of the method of FIG. 3, one of the provided mobile devices 210 is a "reference mobile device"; that is, a prioritized device has been confirmed by a mobile network operator to operate therein. The mobile device 218 has a functioning and predictable mobile device and can be used as a reference for other mobile device performance benchmarks. In other applications of the method of the present invention, the plurality of mobile devices provided in step 310 are actually the same device, or devices having the same test model to obtain an additional performance metric. Step 320 then performs a series of field tests on the provided mobile device, and the plurality of locations developed in the field are executed along a plurality of paths using the = test in the example of the predetermined or current device. The first field test in the reference action is assumed to be placed on the mobile network 218 for the action to be tested on the mobile network = complete 'and the step 32G minus the indicator 210 (with any auxiliary ρ on the second) Field test. Action Pack 7 Rare or Monitor Jing test path generation - Field test for each field test. Type and each 〇^,,,, have recorded 22〇, as shown in step 330. All field tests together yield 7 benefits & 1 a plurality of test records 220, and each test record contains the status data of the mobile device during the test period - the position information 263a ~ 263e. When the field test is completed and the field test record 22 has been generated, step 340 I will send the field test Ji Yun 22〇# to the record database outside the mobile device 21〇. For a number of field test records, it is best to have an automated workflow to record the field test 22〇 Transfer to the record database 230, but this is not a requirement or limitation of the method of the present invention. In step 350, the drawing tool 240 will test the path based on the field test record 220 stored in the record database 230. 271 and 276 are displayed on the user interface map 270 of the display 250. It should be noted that step 35 can be performed immediately after step 340, or after a delay, mainly based on field testing and work planned by the mobile device. In step 350, on the user interface map 270, each of the field test records 261 is used by the drawing tool 240 based on the contents of the position information 263a-263e (coordinates, such as latitude 17 200926739 degrees and longitude). The location messages 263a-263e are depicted to corresponding points 273a-273e on the user interface map 270 to display the test path. This step also includes "following the test of the field test record 261 when the test path labels 272 and 277 are marked." Paths 271 and 276. It should be noted that 'this example illustrates two test paths, but only one test record 261 is presented in Figure 2; the second test record corresponding to the indicated test path 276 should be shown in the example, However, for the sake of brevity, it has been omitted from Figure 2. In another part of step 350, the test paths 271 and 276 are interpolated to the appropriate position. One of the line segments or a curve displayed by the messages 263a to 263e to more clearly indicate the route of the test path. Please note that the 'test locations 271 and 276 may not need to be completely displayed on the user interface map 270, but may be The display 250 is determined by various display conditions set by the user. For example, the display condition settings 290a to 290d may identify at least one predetermined state message on the path of the anatomy or test 依据 according to a date or time range, a geographical area, or a specific test path. The path (for example, a status error message) to limit the displayed test path. Similarly, the user interface map 270 has human-computer interaction capabilities and can be rotated or zoomed in, or provide any other convenient viewing operation. Subsequent steps (step 360) establish points 273a-273e on the user interface map 27 and corresponding locations in the field test record 261. The hyperlinks 283a-283e between the messages 263a-263e. As previously mentioned, the substantially test path 276 and the remaining plurality of test paths also employ the same procedure of 18 200926739 'but for the sake of brevity, the description is omitted here. The hyperlinks 283a to 283e are preferably bidirectional so that the user can select a point on the user interface map 270 (e.g., 273a) to view the corresponding location information and status data in the test record 261 of the record database 230. (e.g., 263a), likewise, the status message 263a in the test record 261 can be selected to view the corresponding point 273a on the user interface map 270; that is, the hyperlink can operate in both directions. Step 370 in the flowchart shown in Fig. 3 is based on points 273a to 273 to evaluate the mobile device 210 to be tested. The field test record 261 can be compared after recording more than one mobile device 210, for example, comparing points 273a to 273e on the user interface map 270 (corresponding to the status data 263a to 263e and the location message 264a of the mobile device 210 to be tested) 264e) and other points on the user interface map 270 (corresponding to the status data and location information of the reference mobile device). In another particular application, the evaluation operation of step 370 includes comparing only if the state of the error message on the user interface map 270 by the mobile device under test 210 is substantially equal to the occurrence of the reference mobile device on the user interface map 270. The status error message 'sends a reasonable conclusion that the mobile device 210 to be tested is "as good as the reference mobile device" on certain performance parameters. In another embodiment, step 370 of the above method can also be automated using an evaluation tool 718, as shown in FIG. In this way, 200926739 can be used to perform independent field tests 706, 708 with the device under test 702 and the reference device 704 to generate first and second records 71, 712, which are stored in the coupling evaluation tool. 718's record database 714. Next, the evaluation tool 718 compares the status error message of the device under test 702 with the status action message of the reference mobile device 704 to evaluate the mobile device to be tested, and the comparison result 720 is generated accordingly. For example, the evaluation tool 718 can only compare whether the state of the error message generated by the mobile device 210 to be tested on the user interface map O 724 (displayed on the display 250) is substantially equal to the state error of the reference mobile device on the user interface map 724. Where the message is. In this example, if the device under test 702 only generates a status error message substantially equal to a status error message generated by the reference mobile device on the user interface map 724, it is determined that the device under test 702 and the mobile network are functioning normally. However, if the device under test 702 generates a status error message at a different location from the reference mobile device, it is determined that the device 702 and the mobile network are not functioning properly. Returning to the aforementioned GSM mobile phone example, assume that the mobile device 210 has a call interruption error (described in the corresponding test record state 283c) at one of the location points 273c on the field test path 271. The comparison and evaluation technique of step 370 compares the call interruption error with another test record that is substantially in the same position as the location point 273c, if the previous test record shows no call interruption error, or even A better mobile network received signal strength 20 RSSer 'received signal strength indicator value is presented at the same location as the location «point 273c, then the mobile device 21 can be included in the evaluation of the mobile device 210. 〇The signal reception quality considerations. Moreover, this comparison and evaluation technique can be applied to previous test records stored in the record database 230. These records were previously measured at the same location 273c by the same mode as the device 210. ❺ After reading the systems, methods, and examples of the present invention, those skilled in the art can readily devise other applications and implementations that are within the scope of the present invention. Please refer to Figure 2 again. The device under test having the built-in global navigation satellite system function integrates the device status and information stream messages 264a to 264e with the position location messages 263a to 263e. In a mobile phone field test example, status data messages 264a through 264e include timestamps, network 0 communication data, measurement data, and signal information between the mobile device and the mobile network during field testing, and location information. 263a~263e contain timestamps and location information (such as longitude and latitude). The location messages 263a through 263e have a predetermined return frequency (e.g., one tenth of a second is reported once), or the location messages 263a through 263e are rewarded via a trigger, or are triggered in parallel with both at a predetermined frequency. To put it more clearly, Figure 4 shows an example of a portion of the field test record of the present invention. The field test record 400 includes location messages 420a through 420i and status data messages 440a through 440j, which are typically arranged in order of time 21 200926739. The location messages 420a-420i each include corresponding timestamps 410a-410i and represent a location point; in this example, the location information of the global positioning system is represented as latitude and longitude corresponding to the relative location information 420a-420i. Combine (Xa, Ya) ~ (Xi, Yi). For example, the location message 420c has a time stamp 410c of "08:15: 20.200" (8:15:20:200 microseconds) and reports that the mobile device 210 is at (Xc, Yc). Similarly, the status data messages 440a-440j each contain corresponding timestamps 430a-430j and status or event messages occurring at that point in time, for example, status information 440f with timestamp 430f being "08:15: 20.400". Displays the signal strength report for the service mobile network unit. In the example of the field test record 400 of Figure 4, each of the location messages 420a-420i is spaced 100 microseconds to allow the mobile device 210 to continuously report back at that location. As mentioned earlier, the example of the Field Test Record 400 shows that a status data message does not have to be between two location messages; multiple location messages, such as location messages, can be continuously reported between two status data messages. 420h and 420i. In addition, a plurality of status data messages, such as 44〇g, 440h, and 440i, may be placed between two location messages, such as 420f and 42〇g. The order of these messages depends on the device activity on the test path. An example of a field test record 220 in FIG. 2 is the field test record 400' shown in FIG. 4 and the drawing tool 240 routes the test path to the user interface map 270 of the display 250. Figure 5 is a schematic diagram taken from Figure 2 and shows the hyperlink between the user interface 22 200926739 Figure 270 and the field test record content 261 in the present invention. In order to further discuss from the perspective of the user's operation, only the first test path 271 ° is discussed in terms of the user's operating angle, assuming that the user evaluates an action in accordance with step 370 of the method shown in FIG. Device 210. The user operation of the present invention (also shown in flowchart 600 of Figure 6) includes a series of events, as follows: Step 610: Find a target test path. Sub-step 612: The user selects a display condition setting. Sub-step 614: Display multiple regions/locations/messages. Sub-step 616: The user selects the desired area/area. Sub-step 618: The user selects a target test path. © Step 620: Select a map item to view the corresponding recorded item. Sub-step 622: The user selects a particular location message. Sub-step 624: The display displays the test record and the selected location information. Sub-step 626: The user evaluates the message next to or adjacent to the location message. - Step 630: Select a record item to view the corresponding map item. 23 200926739 Sub-step 632: The user selects a specific location message. Sub-step 634, the display displays the location point on the user interface map. Step 640: Compare the results of each mobile device. Sub-step 642: The user compares other test paths (results) that are displayed in the vicinity. ^ Sub-step 644: The user selects a point next to or near the location point. Sub-step 646: The display displays the test record and the selected location information. Step 650: Get the conclusion. Flowchart 600 includes five main steps: ' ❹ looking for a test path in step 610; in step 620, selecting an item in user map interface 270 to view the corresponding recorded item in field test record 261; In step 630, an item is selected in the field test record 261 to view the corresponding item in the map 270; in step 640 'compare the result of the mobile device 210 with other field test or field test path; in step 650, Evaluate the mobile device in question. The steps will be followed to provide more information to assist the user (or to provide an automated automated intelligence) to evaluate the device under test 210. 24 200926739 In step 610, the user first looks for the target test path by sub-steps 612-618. The user selects the desired display condition f Ο 290a~ measured in the sub-step (4) pin test path to be displayed. For example, these display conditions can be date/time range (May and June in the toilet year), ~Geographical area or city (Taipei Zhongzheng District), a test path code (or multiple job path code) and specific Status message (call interruption event). In sub-step 614, the display track of the system displays a test path 'corresponding to the display conditions in sub-step 612' which may be - or more than one path. The user can select from the corresponding test paths of the reward - a smaller subset (as described in sub-step 616) and then select a particular target test path (sub-step 618). Step 620 includes the display 25 changing from displaying the user interface 27 to displaying the field test record 261. In sub-step 622, the user selects a particular location message displayed on the display path (selected from sub-step 618). An operation example is given below, for example, the location point 273b of the field test path 271 corresponds to a call interruption event (e.g., base station transfer failure), or the corresponding user has a call interruption in the area during the field test. In sub-step 624, 'display 250 displays the corresponding field test record 261 and the selected location message 263b such that in sub-step 626, the user can evaluate status message 264a~ next to or near location information 263a-263e~ 264e 'here' users may find that the base station transfer failed because the power received from the mobile network cell base station is too low. Step 630 includes 25 200926739 The display 250 changes from displaying the field test record 261 to displaying the user interface 270, substantially opposite to the operation of step 620 above. In sub-step 632, the user selects a particular location message 263d from the actual test record 261, and in sub-step 634, displays the corresponding location point 273d on the user interface map 270. Next, the user finds the call interruption status message 264d, and the status message is closest to the location message 263d in the field test record 261, and the display 260 displays the corresponding location point 273d on the user interface map 270. In step 640, the user compares the results of the current mobile device 210 with other field test results, and this step includes sub-steps 642, 644, 646. In sub-step 642, the user compares the call interruption status message 2 64d found in sub-step 632 with the displayed other status information (the path of the location message near the location message 263d). Icon or not numbered). Next, in sub-step 644, select the location point.
Q 263d旁邊或鄰近的點,而在子步驟646中,顯示器250顯 示相應的實地測試紀錄與相關的位置訊息。藉由比較與參 考自先前經行動網路操作者在相同行動網路上認可的參考 行動裝置所得的實地測試紀錄(及其他測試紀錄)’使用者 可發現該參考行動裝置亦在同樣的實地測試位置2 7 3 d發 生基地台交接失敗的問題。 在步驟650中,使用者研究目前行動裝置210的結果 26 200926739 與其他結果以根據該些研究結果評估行動裝置210。根據 在範例中所發現的結果,可以很清楚的知道待測行動裝置 210與參考行動裝置在實質上相同的實地測試位置上,具 有相似或實質上相同的問題,則使用者便可斷定係行動網 路有異常問題,而非待測行動裝置210本身異常。 儘管在第6圖中所述之步驟610、620、630、640、650 U 係循序地進行,然而在達成實質上與本發明相同的評估行 動裝置結果的前提下,亦可省略一些步驟、插入一些步驟、 或重新安排步驟的次序。例如,當顯示器250直接在使用 者介面地圖270上顯示各種狀態訊息時,可省略第6圖之 流程圖中的某些步驟,且不會影響結果或者使使用者感到 不便。在另一範例中,若在第一次針對顯示條件設定的搜 尋時產生了過多的測試路徑’則使用者可以選擇更嚴謹的 顯示條件設定以再次進行搜尋。 ❹ 應當注意到,本系統可能有許多不同的實現方式均可 達成實質上相同的結果與功效,這些不同的實現方式可包 含(但不限於)移除或整合不同的元件。例如,繪示於第2 圖之全球導航衛星系統模組212與行動通訊模組216藉由 處理單元219產生單一個實地測試紀錄220 ’但也可直接 讓全球導航衛星系統模組212與行動通訊模組216分別紀 ' 錄訊息至單一個實地測試紀錄220,而不需額外的處理單 27 200926739 元219 、、’己錄貝料庫230可為物件資料庫(structure database)存取控制共用資料夾(access c〇ntr〇iied shared directory)、檔案夾結構(file f〇lder stnjcture)、或其他實現 方式。顯示器與介面有許多種不同的變型,包含可省略部 分控制、標籤(例如測試路徑標籤272與277)、或路徑超連 結280或改變其配置位置,例如,第二測試路徑與其 相應的測試路徑標籤277以及其位置點278a〜278d可以完 ❺全省略(如果使用者希望如此),而這可由顯示條件設定 290a〜290d來控制。測試路徑標籤272本身亦可為一超連 結,例如,未處理過的實地測試紀錄22〇。這些設計變化 應視為本發明範疇内合理的實施例,且仍遵循本發明之精 神。 此外’在參酌第2圖之流程圖與上述之系統、方法以 〇 及本發明所教導之使用者操作之後,熟悉此項技藝者將可 據以推導出其他的應用或實現方式,而這些亦應屬於本 發明之$&_,例如,很明顯地,本發明適用於單一—動裝 置的實地測試評估,亦可適用於多台行動裝置,即複數a 行動裝置,此外,複數台行動裝置(或其實地測試台 不強制要求從本發明中設法擷取出有意義的 羽*叩用途,儘管在 相關的實地測試紀錄中,從多台裝置中用— 〇 ϋίΐ參彳于 裝置是很有用的,然而本發明之系統與方法並、 和 限。如上所述,既然本發明之實現方式本身軻易地提: 28 200926739 ♦多不同的應用,故不再對本發明之設計變化加以贅述。 本發明評估通訊裝置之方法與系統有些優點,如其苛 以很輕易地定位出曾發生過一次或多次通話中斷的位置, 並且可以很輕易地確認該次通話中斷是否為行動網路效能 上之異常現象’此外,可以很容易且快速地自紀錄資料庫 存取特定位置的實地測試紀錄,且該紀錄可以單單從地圖 〇 上的圖形使用者介面(GUI ,Graphical User Interface)存取。 根據本發明,使用者可以不必一筆一筆的閱讀以文字來敘 述的位置訊息’不必以人工的方式徹底搜尋大量的紀錄資 料’取而代之地’首先’可直接在地圖上進行紀錄選擇, 並接著利用路徑超連結存取想要的路徑測試紀錄。在藉由 超連結選定一實地測試紀錄之後,可依據本發明來藉由地 圖上的一全球定位系統座標點與相關的全球定位系統訊息 〇 、、己錄檔案間的超連結,快速且便利地透過階層式存取一特 疋位置附近的實地測試訊息。相較於習知技術,本發明的 使用者亦可在地圖上顯示實地測試紀錄的測試路徑與位 置而這些地理上的訊息將有利於實地測試除錯。 以上所述僅為本發明之較佳實施例,凡依本發明申請 專利範圍所做之均等變化與修飾,皆應屬本發明之涵蓋範 圍。 29 200926739 【圖式簡單說明】 第1圖係為習知技術中在一地理區域上有兩條測試路徑的 簡化測試路徑圖。 第2圖係根據本發明之一實施例之實地測試系統的功能方 塊圖。 第3圖係為本發明實地測試方法的流程圖。 第4圖係為本發明實地測試紀錄之一範例的示意圖。 ❹ 第5圖係為使用者介面地圖與實地測試紀錄内容之間超連 結的示意圖。 第6圖係為本發明之使用者操作的示意圖。 第7圖係為本發明評估工具之一實施例的操作示意圖。 【主要元件符號說明】 100 示範測試區 110 、 120 示範測試路 域 徑 112 、 122 終點 111 、 121 起點 130〜139 街道 140 位置 200 系統 210 行動裝置 212 全球導航衛 214 全球導航衛 星系統模組 星系統 216 行動通訊模 218 行動網路 組 30 200926739 219 處理單元 220 實地測試紀 錄 230 紀錄資料庫 240 繪圖工具 250 顯示器 260 紀錄資料庫 内容 261 測試紀錄 262 測試紀錄標 籤 263a~263e 位置訊息 264a~264e 狀態訊息 270 、 724 使用者介面 地圖 271 、 276 測試路徑 272 ' 277 測試路徑標 籤 273a〜273e、 278a〜278d 位置點 290a〜290d 顯示條件設 定 300 、 600 流程圖 310〜370、 610〜650 步驟 400 實地測試紀 錄 410a〜410i、 430a 〜430j 電子時戳 420a〜420i 位置訊息 440a 〜440j 狀態資料訊 息 702 待測行動裝 置 704 參考行動裝 置 706 、 708 實地測試 31 200926739 710 、 712 紀錄 714 紀錄資料庫 718 評估工具Next to or adjacent to Q 263d, in sub-step 646, display 250 displays the corresponding field test record and associated location information. By comparing the field test records (and other test records) obtained from reference mobile devices approved by the former mobile network operator on the same mobile network, the user can find that the reference mobile device is also in the same field test location. 2 7 3 d The problem of failed handover of the base station occurred. In step 650, the user studies the results of the current mobile device 210 26 200926739 with other results to evaluate the mobile device 210 based on the results of the studies. Based on the results found in the examples, it can be clearly understood that the mobile device under test 210 and the reference mobile device have substantially the same or substantially the same problem at substantially the same physical test position, and the user can determine the action. The network has an abnormal problem, and the mobile device 210 to be tested is abnormal. Although the steps 610, 620, 630, 640, 650 U described in FIG. 6 are performed sequentially, some steps and insertions may be omitted on the premise that the results of the evaluation mobile device substantially the same as the present invention are achieved. Some steps, or reorder the steps. For example, when the display 250 displays various status messages directly on the user interface map 270, some of the steps in the flowchart of Figure 6 may be omitted without affecting the results or making the user feel inconvenience. In another example, if too many test paths are generated during the first search for the display condition settings, the user can select a more stringent display condition setting to perform the search again. ❹ It should be noted that there may be many different implementations of the system that achieve substantially the same results and effects. These different implementations may include, but are not limited to, removing or integrating different components. For example, the GNSS module 212 and the mobile communication module 216, shown in FIG. 2, generate a single field test record 220 by the processing unit 219. However, the GNSS module 212 can also be directly communicated with the mobile communication system. The module 216 records the message to a single field test record 220, without additional processing order 27 200926739 yuan 219, 'the recorded bed library 230 can be the object database access control (shared database) access control shared data Access c〇ntr〇iied shared directory, file structure (file f〇lder stnjcture), or other implementation. There are many different variations of the display and interface, including the possibility of omitting partial controls, tags (such as test path tags 272 and 277), or path hyperlinks 280 or changing their configuration locations, for example, the second test path and its corresponding test path label. 277 and its location points 278a-278d may be completely omitted (if the user wishes), and this may be controlled by display condition settings 290a-290d. The test path label 272 itself may also be a super-connection, for example, an unprocessed field test record 22 〇. These design variations are considered to be reasonable embodiments within the scope of the invention and still follow the spirit of the invention. In addition, after referring to the flowchart of FIG. 2 and the above-described systems and methods for operation by the user taught by the present invention, those skilled in the art will be able to derive other applications or implementations. It should be in the invention of $&_, for example, it is obvious that the present invention is applicable to the field test evaluation of a single-moving device, and can also be applied to a plurality of mobile devices, that is, a plurality of mobile devices, and in addition, a plurality of mobile devices (Or in fact, the test bench is not obliged to try to extract meaningful feathers from the present invention, although it is useful to use a device from multiple devices in the relevant field test records. However, the system and method of the present invention are also limited. As described above, since the implementation of the present invention itself is easily mentioned: 28 200926739 ♦ Many different applications, the design changes of the present invention will not be described again. The method and system of the communication device have some advantages, such as being able to easily locate a position where one or more calls have been interrupted, and can be easily Confirm whether the interruption of the call is an abnormal phenomenon in the performance of the mobile network. In addition, the field test record of the specific location can be easily and quickly taken from the record data inventory, and the record can be simply from the graphical user interface on the map. (GUI, Graphical User Interface) access. According to the present invention, the user can read the positional message in a single sentence without having to read a large amount of the record data in a manual manner. Instead of 'first' can be directly Record selection on the map, and then use the path hyperlink to access the desired path test record. After selecting a field test record by hyperlink, the global positioning system coordinate point on the map can be used in accordance with the present invention. Related Global Positioning System messages, hyperlinks between recorded files, and quick and convenient access to field test messages near a special location through hierarchical access. Compared to prior art, users of the present invention may also Display the test path and location of the field test record on the map and these geographical messages The above description is only for the preferred embodiment of the present invention, and all the equivalent changes and modifications made by the scope of the present invention should be within the scope of the present invention. 29 200926739 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a simplified test path diagram of two test paths in a geographical area in the prior art. Fig. 2 is a functional block diagram of a field test system according to an embodiment of the present invention. 3 is a flow chart of the field test method of the present invention. Fig. 4 is a schematic diagram showing an example of a field test record of the present invention. ❹ Fig. 5 is a schematic diagram of a hyperlink between a user interface map and a field test record content. Fig. 6 is a schematic view showing the operation of the user of the present invention. Fig. 7 is a schematic view showing the operation of an embodiment of the evaluation tool of the present invention. [Main component symbol description] 100 Demonstration test area 110, 120 Demonstration test road path 112, 122 End point 111, 121 Starting point 130~139 Street 140 Position 200 System 210 Mobile device 212 Global navigation satellite 214 Global navigation satellite system module star system 216 Mobile Communication Module 218 Mobile Network Group 30 200926739 219 Processing Unit 220 Field Test Record 230 Record Database 240 Drawing Tool 250 Display 260 Record Database Content 261 Test Record 262 Test Record Label 263a~263e Location Message 264a~264e Status Message 270 724 User Interface Map 271, 276 Test Path 272 '277 Test Path Labels 273a to 273e, 278a to 278d Position Points 290a to 290d Display Condition Settings 300, 600 Flowcharts 310 to 370, 610 to 650 Step 400 Field Test Record 410a ~ 410i, 430a ~ 430j Electronic time stamps 420a ~ 420i Location messages 440a ~ 440j Status data messages 702 Action devices to be tested 704 Reference mobile devices 706, 708 Field test 31 200926739 710, 712 Record 714 Record database 718 Review Tool
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