201137743 六、發明說明: 【發明所屬之技術領域】 子裝置及其服務系統, 精準度需求採用不同的 ,以提高電子裝置接收 本發明有關於一種地理感知電 根據使用者所處的空間環境或定位 疋位方式定位電子裝置的所在位址 到區域資訊的有效性。 _ 【先前技術】 電子裝置已經成為人類生活不可或缺的必需品,並 且,電子裝置很多具備有行動上網的功效,例如:二動電 話、筆電、桌上型電腦…等等。 則,許多針對電子装置的網路服務就此孕運而生,且 網路服務亦可提供具有區域型的網路資料,例如:當地氣 象資料、地標資料(ροι)、鄰近商家的廣告資料…等θ等广 一般查詢區域型之網路資訊的方式,大都透過電子裝 籲置輸入-欲查詢標的之關鍵字及一當地位址,以透過網路 連線至一提供網路服務系統的平台而查詢到當地區域型的 網路資訊’然,採用此方法必須透過使用者於電子裝置上 輸入當地位址文字,若電子裝置的輸入模組不易輸入文 字,例如:行動電話,則此一連串文字所組成的當地位址 將造成使用者輸入上的困擾,且在使用者不清楚當地位址 的情況下亦可能無法進行查詢程序。 或者,為了便利於定位到使用者的所在位址,現今的 網路服務系統已慢慢開始將W3C Geolocation的定位標準 201137743 ^入’㊉選擇以- GPS ^位或-基地台定位方式自動定位 到使:者之電子裝置的使用位址,則使用者只要輸入欲查 詢的標的,即可在一網路服務系統的平台上查詢或接收: 區域,的網路資訊。雖然’現今的網路服務系統已經可以 自動疋位到使用者的使職址,但,仍存在有下列問題·· 1.採用GPS定位方式’必須使用在具有奶接收模組 — 裝置上且電子裝置必須處在室外環境,若移载至 至内二間將造成無法定位的結果,再者,網路應用程式係 ^ GPS在溝通上並不容易,對於一般網路服務開發商的技 術難度非常高,開發的人力成本及時間非—般網路服務開 二—.右電子裝置本身未具有Gps接收模組,而改用基地 口疋位方式,其疋位的誤差往往會差距幾百公尺,定位準 確又不足且網路服務開發商往往無法順利地取得基地台 的位址資料而令開發設計因此造成延容,即使透過管道# :基地台的位址資料 '然’基地台之增台及撤台的位址; 料往往無法立即得知更新,會產生定位失準的情況,網路 服務平台亦可能提供不洽當的區域型網路資訊。 見7符5 W3CGeol〇catic)n定位標準的網路服務系 統往往只具有單—定位方式’例如:GPS定位或基地台定 位之其中—方式’會常常發生^位不到使用者的所在位 址,而令網路資訊無法傳達至電子裝置上。 因此’如何定位到使用者之所在位址,以便利於網路 服務開《商進仃地理定位的開發程序,致使提供區域型的 201137743 網路服務資訊於使用者,將會是本發明欲達到的目標 【發明内容】 本發明主要目的,在於提供一種地理感知電子裝置, 係,供一可用以定位電子裝置所在位址之地理定位模組, 其,入於電子裝置的一劇覽器介面上,藉此,使用者不僅 可得知自己的位址,且便利於網路服務的開發商進行地理 疋位的開發程序。 本發明次要目的’在於提供一種地理感知電子裝置及 其服務系統,其提供的地理定位模組整合有多種定位方 土二可:據電子裝置之使用者所處的空間環境或服務類型 的疋位精準度需求採用不同的定位方式確實定位到電子裝 址,致使服務系統以提供區域型的服務資訊於 其服=又;置:f電子裝置及 服旅#日, 貝者可發佈訊息至—地理感知 各區域二:網===別將各發佈訊息標記在 ㈣播“ 1其他電子裳置的會員者即可透 在位/ °服務平台所提供的區域型網路地圖檢視目前所 在位址之附近區域所發佈的訊息。 π檢視目月』所 1服務系& t目的’在於提供一種地理感知電子裝置及 二=象Γ裝置包括有一追蹤模组,用以登記有至 系統得知好友員會此’使用者即可透過服務 、5 等等人員的最新動向,以利於 201137743 使用者對於人員聯絡、掌控或管理上的便利性 本發明又一目的,在於提供一種地理感知電子裝置及 其服務系統,各電子t置可協助荒集各基地台的訊號資 ,以修正原本建構在服務系統中的基地台資料,藉以提 尚服務系統採用基地台定位方式時的精確度。 為達成上述目的,本發明提供一種地理感知電子裝 置,其^括有一地理定位模組,地理定位模組包括有複數 個了同定位方式的定位器並嵌入在一瀏覽器介面上,選擇 至乂定位器定位電子裝置的所在位址,而擷取產生至少 一對應的定位資料。 本發明又提供一種地理感知服務系統,其包括有:複 個電子裝置,其包括有一具有地理定位模組之瀏覽器介 面及-叮閱模組’以產生定位資料及一訂閱資料;及一地 ^感知服務平台’連線電子裝置,以接收定位資料及訂閱 資料,其包括有:一會員資料庫,記錄有各電子裝置的會 員者帳5虎、定位資料及訂閱資料;—空間伺服器,依據各 ,子裝置之定位資料判別各電子裝置所在位址及其空間區 域丄-資訊資料庫’儲存有複數個區域型服務資訊;及一 運^模組’將各電子裝置所在位址、所處的空間區域及訂 閱f料比對於各區域型服務資訊,所比對出的各區域型服 務負汛傳送至對應的各電子裝置。 本發明又提供一種地理感知服務系統,其包括有:複 =個電子裝置’連線至少一基地台,其包括有:一瀏覽器 ”面’其礙人有—包括GPS/AGPS定位器之地理定位模組, 201137743 GPS/AGPS定位器定位電子裝置的所在位址而擷取產生至少 -定位資料;-訂閱模組’用以提供一訂閱資料;及一‘ 地台訊號冤集模組,用以荒集取得各基地台的一基地台編 碼及其對應的複數個基地台訊號參數;及一地理感知服務 平台’連線電子裝置,以接收定位資料、訂閱資料、基地 台編碼及其基地台訊號參數,其包括有·Ή資料庫, 記錄有各電子裝置的會員者帳號、定位資料及訂閱資料; -空間伺服H,依據各電子裝置之定位資料判別各電子裝 置所在位址及其空間區域,且空間伺服器包括有一基地台 資料庫’用以儲存複數個基地台資料,各基地台資料包: 有-基地台編碼、-涵蓋範圍及其—基地台架設位址;一 貧訊資料庫’儲存有複數個區域型服務資訊;-運算模組, 將各電子裝置所在的空間區域及其訂閱資料比對於各區域 型服務資訊’所比對出的各區域型服務資訊傳送至對應的 各ΪΓ裝置;及一基地台位址統計模組,包括有複數個統 计廣算榼型,利用統計演算模型統計運算各電子裝置所蒐 集到的基地台訊號參數及其蒐集時的所在位址,藉以估算 出各基地台的架設位址及涵蓋範圍,致使更新修正原本建 構在基地台資料庫中所儲存的各基地台資料。 【實施方式】 ^ 2先,請參閱第1圖,為本發明地理感知電子裝置一 較佳貫施例之方塊示意圖。如圖所示,本發明電子裝置10 具有一劇覽器介面1卜且觀器介面11上嵌人有-地理 201137743 定位模組13,地理定位模組13包括有複數個不同定位方 式的定位器13卜133,例如:GPS/AGPS定位器131、基地 台定位II 132及/或WIFI定位n 133。使用者開啟電^裝 置10的瀏覽器介面11,以在定位器131_133中選擇其中 適虽的疋位器定位自己的所在位址,而擷取產生一對應 ^定位資料139。後續,使用者利収位資料139應“ 一符合W3C Geolocation定位標準的網路服務平台上查詢 或接收區域型的服務資訊,或者使用者處在一陌生的地點 需導航服務,則-可提供導航服務的系統平台即可藉由使 用者上傳的定位資料139回傳一相對應的地圖標示或文字 地址,以令使用者清楚得知自己所處的地點。此外,電子 10可為一行動電活、一個人數位助理(PM)、仙或% 等荨具有網路連線功能的裝置。 本發明所提供的地理定位模組13為—程式化的模組 網路服務的開發商只需懂得簡單的程式語法㈣或 Γ :輕易,地理定位模組13嵌入在劉覽器介 罾残°亥'劉覧态’丨面11可為一般電腦系統所使用的瀏 11a Tl chr〇me...##, 吏用在慧型手機系統的_ ’例如:娜仙Μ。、 Android. Widows Mobile^ lPhone... f # ^ ^ ^ , 献4各種定位方式的地理定位模 位功能的咖介面11裝載於電子裝置1〇 使用二Ρ可利用各種定位方式定位目前的所在位址。 备然’採用不同定位方式定位電子裝置10,電 201137743 10也須具備相對的功能配備才能進行地理定位的動作,例 如:採用GPS/AGPS定位方式,電子裝置10須配備有GPS 接收模組接收GPS衛星訊號,以協助Gps/AGps定位器131 進行座標定位而擷取產生一座標的定位資料139;採用基 地台定位方式,電子裝置10則必須有通訊模組,用以與基 地台進行通訊連接,以使得基地台定位器132擷取至少一 基地台編碼的定位資料丨39 ;而採用WIFI定位方式電子 φ裝置10須配備有WIFI模組,用以與無線網路存取點 (Access Point ; AP)進行無線連接,以使得WIFI定位器 133掏取至少一 AP編碼的定位資料139。 又,本發明尚提供兩種定位方式的定位器134、丨35其 分別為一地理位址輸入定位器134及地圖標記定位器 135。右電子裝置10無任何可辅助定位的配備,例如j兇 接收模組、通訊模組或WIFI模組,則使用者可在地理位址 輸入疋位器134的輸入部1341中輸入一地址門牌、一苳叉 • 〇路名、一三角點標號、-電線桿編號、-建築物名稱、 公路里程或-行政區域名稱,以產生地標的定位資料 !39一;或者’使用者大略知道自己的所在位址係可在地圖標 圮足位益135所含的複數個網路地圖1351中選擇其中一進 行:地圖標記1353的動作,如第2圖所示,則地圖標記定 位J 135即可產生地圖標記1353的定位資料1⑽。 另地理疋位模組13尚提供一種利用I ρ的定位方式, IP疋位H 136會擷取電子裝置1〇網路連線Ιρ位址,而產 生一 IP連線位址的定位資料139,而後,藉以ιρ連線位 201137743 址的配置規則’例如··配置國家、城市、連線的ISP機房 座標等等資tfl,即可得知使用者的大約位址。 請參閱第3圖,為本發明地理感知服務系統一較佳實 施例之方塊示意圖’並同時配合參閱第1圖。如圖所示, 本發明服務系統1G0包括有複數個電子裝置1()及__地理感 夫服務平口 20 ’各電子裝置分別連接地理感知服務平 台20,且地理感知服務平台2〇係符合.心 定位標準規範。 承上第1圖所述,具有地理感知功效之電子裝置可 選擇多種定位方式定位目前的所在位址,藉以產生一定位 資料139。此夕卜’電子裝置1〇尚包括有一訂閱模组15,使 用者可透過訂閱模組15輸入一訂閱資料151,且訂閱資料 151係包括有-訂閱的服務類別及一關鍵字,藉以定位資 料139及訂閱資料151而在地理感知服務平台2〇上查詢或 接收到區域型的服務資訊241。之後,地理感知服務平台 20接收電子裝置1〇所提供的定位資料139及訂閱資料 151’以提供使用者取得目前位址附近的各種服務類別的區 域資訊,例如:導航、車隊管理、路徑規劃、相片定位、 人力调度、當地氣象資訊、鄰近商家資訊、搜尋引擎區域 性資訊查詢、區域型廣告發送.··等等,如第4圖圖表所示。 當電子裝置10欲查詢或接收地理感知服務平台2〇上 所提供的各種服務類別的區域資訊時,必須考量各服務類 別之定位精準度要求而採用適當的定位方式定位電子裝置 1〇的所在位址。就定位的精準度而言,㈣佩定位的精 201137743 最南其-人为別為地理位址輸入定位、地圖標記定位、 w?疋位、基地台定位、最後為卟定位。當服務類別需 要间精準度疋位要求時,例如:查詢地標(PGI),則電子農 L 一 知用GPS/AGPS定位、定理位址輸入定位或地圖 才丁疋位等方式疋位自己的位址,傳送高準度的定位資料 139至地理感知服務平台2() ’以避免定位精準度的不足, 而·?也理感知服務平台2〇提供錯誤的區域資訊;反之,若 服f類別對於精準度定位要求不高時,例如:查詢當地氣 象貝机,則此時中、低定位準度的WiFi定位、基地台定位 及IP定位方式也可進一步採用。 _沾^、_採用各種定位方式,也必須同時考量使用者所 ,間環境,例如:GPS/AGPS ^位方式㈣是比較精確 、疋位技術,然,當使用者進人市内林立的樓群之中或室 内的時候’電子裝置1G在接收GPS衛星 隔’GPS/AGPS定位方式在這此環境中就 :::, f采用ί他定位方式替代;或者,❹者進-步進入^201137743 VI. Description of the invention: [Technical field of invention] The sub-device and its service system have different precision requirements to improve the electronic device receiving. The invention relates to a geographical sensing power according to the space environment or location of the user. The clamp mode locates the validity of the location of the electronic device to the regional information. _ [Prior Art] Electronic devices have become an indispensable necessity in human life, and many electronic devices have the effect of mobile Internet access, such as two-way phones, laptops, desktop computers, and so on. Then, many online services for electronic devices are born, and network services can also provide regional network information, such as: local meteorological data, landmark information (ροι), advertising materials of nearby businesses, etc. θ, etc., generally query the regional type of network information, mostly through electronic device input - to query the target keyword and a local address, to connect to a platform providing network service system through the network. Inquire about the local area network information. However, this method must input the local address text on the electronic device through the user. If the input module of the electronic device is not easy to input text, for example, a mobile phone, the series of texts The composition of the local address will cause user input problems, and the user may not be able to perform the inquiry process if the user does not know the local address. Or, in order to facilitate the location of the user's location, today's network service system has slowly begun to automatically locate the W3C Geolocation positioning standard 201137743 into the 'ten selection' - GPS ^ bit or - base station positioning mode By using the address of the electronic device of the user, the user can input or select the network information of the area on the platform of the network service system by inputting the target to be queried. Although 'the current network service system can be automatically clamped to the user's address, there are still the following problems. 1. The GPS positioning method must be used on the device with the milk receiving module. The device must be in an outdoor environment. If it is transferred to the inner two rooms, it will result in the inability to locate. Moreover, the network application system is not easy to communicate with GPS. It is very difficult for general network service developers. High, the development of labor costs and time non-general network services open two.. The right electronic device itself does not have a Gps receiving module, and instead use the base port clamping method, the clamping error often varies by several hundred meters. The positioning is accurate and insufficient, and the network service developers are often unable to obtain the address information of the base station smoothly, so that the development design will cause the extension, even through the pipeline #: the address information of the base station 'always' the addition of the base station And the address of the withdrawal of the station; it is often impossible to immediately know the update, which will result in inaccurate positioning, and the network service platform may also provide unsuitable regional network information. See the 7-bit 5 W3CGeol〇catic) n positioning standard network service system often only has a single-location method 'for example: GPS positioning or base station positioning - the way 'will often occur ^ can not be located at the user's address And the network information cannot be transmitted to the electronic device. Therefore, 'how to locate the user's address, in order to facilitate the network service to open the business development process of the business, so that the provision of regional type 201137743 network service information to users, will be achieved by the present invention. OBJECT OF THE INVENTION The main purpose of the present invention is to provide a geo-aware electronic device for locating a geolocation module of an address of an electronic device, which is placed on a browser interface of the electronic device. In this way, the user can not only know his own address, but also facilitate the development process of the geographic location of the developer of the network service. A secondary object of the present invention is to provide a geographic sensing electronic device and a service system thereof, which provide a geolocation module that integrates multiple positioning methods: according to the space environment or service type of the user of the electronic device. The location accuracy needs to be positioned to the electronic address by different positioning methods, so that the service system can provide regional service information to its service; and: f: electronic device and service travel day, the public can post a message to - Geographical awareness of each area 2: Network === Do not mark each posted message in (4) broadcast "1 Other members of the electronic display can view the current address of the local network map provided by the in-place / ° service platform The information published in the vicinity of the area. π 视目目 ”1 Service & t purpose 'is to provide a geographic sensing electronic device and two = symbol device includes a tracking module for registering to the system to learn friends The user will be able to use the latest trends of the service, 5 and so on, in order to benefit the convenience of the user's contact, control or management for the 201137743. A purpose is to provide a geographic sensing electronic device and a service system thereof, each of which can assist in the signal source of each base station to correct the base station data originally constructed in the service system, thereby providing a base for the service system. In order to achieve the above object, the present invention provides a geo-sensing electronic device, which includes a geolocation module including a plurality of locators of the same positioning mode and embedded in a The browser interface selects the address of the locator to locate the electronic device, and captures at least one corresponding positioning data. The present invention further provides a geographic sensing service system, including: a plurality of electronic devices, including a browser interface having a geolocation module and a reading module to generate positioning data and a subscription data; and a local sensing service platform to connect the electronic device to receive positioning data and subscription data, including : A member database, which records the members of each electronic device, 5 tigers, positioning data and subscription materials; The inter-server determines the location of each electronic device and its spatial area based on the location data of each sub-device. The information database stores a plurality of regional service information; and the first module stores the electronic devices. The address, the spatial area, and the subscription information ratio are transmitted to the corresponding electronic devices for each regional type service information. The present invention further provides a geographic awareness service system. Including: complex = electronic device 'connect at least one base station, which includes: a browser "face" is obstructive - including GPS / AGPS locator geolocation module, 201137743 GPS / AGPS locator positioning The address of the electronic device is captured to generate at least - positioning data; the subscription module is configured to provide a subscription data; and a 'ground signal collection module is configured to obtain a base station of each base station Coding and its corresponding plurality of base station signal parameters; and a geographic sensing service platform 'connected electronic device to receive positioning data, subscription data, base station code and base station signal The number includes a database of members, a member account, a positioning data, and a subscription data of each electronic device; - a space servo H, which determines the address of each electronic device and its spatial area according to the positioning data of each electronic device. And the space server includes a base station database 'for storing a plurality of base station data, each base station data package: having - base station code, - coverage range and - base station erection address; a poor information database A plurality of regional service information is stored; the computing module transmits the regional service information of each electronic device and the subscription information to the corresponding regional service information for each regional service information. a device and a base station address statistics module, including a plurality of statistical calculation types, using a statistical calculation model to statistically calculate the base station signal parameters collected by each electronic device and the address at the time of collection, thereby Estimate the location and coverage of each base station, and update and correct the data of each base station originally stored in the base station database. [Embodiment] ^ 2 First, please refer to FIG. 1 , which is a block diagram of a preferred embodiment of a geo-sensing electronic device of the present invention. As shown in the figure, the electronic device 10 of the present invention has a browser interface 1 and a viewer module 11 is embedded with a geography 201137743 positioning module 13. The geolocation module 13 includes a plurality of locators with different positioning modes. 13 133, for example: GPS/AGPS locator 131, base station positioning II 132 and/or WIFI positioning n 133. The user opens the browser interface 11 of the device 10 to select a suitable location in the locator 131_133 to locate its own address, and to generate a corresponding location data 139. Subsequently, the user's profit-receiving data 139 should be “available on the Internet service platform conforming to the W3C Geolocation positioning standard to query or receive regional service information, or the user needs to navigate the service in a strange location. The system platform of the service can transmit a corresponding map mark or text address by using the location data 139 uploaded by the user, so that the user can clearly know where he is. In addition, the electronic device 10 can be a mobile electric activity. A number of assistants (PM), cents, or %, etc., having a network connection function. The geolocation module 13 provided by the present invention is a developer of a modular network service that requires only a simple understanding. Program grammar (4) or Γ: Easy, geolocation module 13 is embedded in the 览 器 ° ° 亥 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' , 吏 used in the smart phone system _ 'Example: Na Xian Μ., Android. Widows Mobile^ lPhone... f # ^ ^ ^, offer 4 various positioning methods of the geolocation module function of the coffee interface 11 loaded in Electronic device 1〇 The second location can use various positioning methods to locate the current location. It is convenient to use different positioning methods to locate the electronic device 10. The electric 201137743 10 must also have relative functions to perform geolocation operations, for example: GPS/AGPS positioning In a manner, the electronic device 10 is equipped with a GPS receiving module to receive GPS satellite signals to assist the Gps/AGps locator 131 to perform coordinate positioning to generate a target positioning data 139; and using the base station positioning mode, the electronic device 10 must There is a communication module for communicating with the base station, so that the base station locator 132 captures at least one base station coded positioning data 丨39; and the WIFI positioning mode electronic φ device 10 is equipped with a WIFI module. The wireless network access point (AP) is used for wireless connection, so that the WIFI locator 133 retrieves at least one AP-coded positioning data 139. In addition, the present invention provides two positioning methods for the locator 134. And 丨 35 are respectively a geographic address input locator 134 and a map mark locator 135. The right electronic device 10 does not have any auxiliary positioning equipment. For example, if the user receives the module, the communication module or the WIFI module, the user can input an address card, a fork, a road name, and a triangle point in the input unit 1341 of the geographic address input clamp 134. , - pole number, - building name, highway mileage or - administrative area name to generate landmark location information! 39 one; or 'users know a little about their location can be at the place icon 圮 益 135 One of the plurality of network maps 1351 included is selected to perform the action of the map marker 1353. As shown in FIG. 2, the map marker location J 135 can generate the location data 1 (10) of the map marker 1353. In addition, the geographic clamping module 13 further provides a positioning method using I ρ , and the IP H H 136 captures the address of the electronic device 1 〇 network connection , ρ , and generates the positioning data 139 of an IP connection address. Then, by using the configuration rule of ιρ connection line 201137743 'such as · configuration country, city, connected ISP room coordinates, etc. tfl, you can know the approximate address of the user. Please refer to FIG. 3, which is a block diagram of a preferred embodiment of the geographic sensing service system of the present invention, and is also referred to FIG. As shown in the figure, the service system 1G0 of the present invention includes a plurality of electronic devices 1() and __Geographical service flats 20', each of which is connected to the geographic sensing service platform 20, and the geographic sensing service platform 2 is compliant. Heart positioning standard specification. As described in Figure 1, the geographically sensible electronic device can select a plurality of positioning methods to locate the current location, thereby generating a positioning data 139. In addition, the electronic device 1 includes a subscription module 15 through which the user can input a subscription profile 151, and the subscription profile 151 includes a subscription-subscription service category and a keyword to locate the data. 139 and the subscription data 151 are queried or received on the geographic awareness service platform 2A. Thereafter, the geographic awareness service platform 20 receives the location data 139 and the subscription data 151' provided by the electronic device 1 to provide the user with regional information of various service categories near the current address, such as navigation, fleet management, path planning, Photo location, human scheduling, local weather information, proximity to business information, search engine regional information queries, regional advertising, etc., as shown in the chart in Figure 4. When the electronic device 10 wants to query or receive the regional information of various service categories provided on the geographic sensing service platform 2, the positioning accuracy requirements of each service category must be considered, and the location of the electronic device 1 is determined by using an appropriate positioning manner. site. As far as the accuracy of positioning is concerned, (4) the positioning of the fine 201137743, the most south-man-made for the geographic address input positioning, map mark positioning, w? position, base station positioning, and finally positioning. When the service category requires an accuracy requirement, for example, a query landmark (PGI), the electronic farmer knows how to use GPS/AGPS positioning, theorem address input positioning, or map 疋 position. Address, transmit high-precision positioning data 139 to the geographic sensing service platform 2 () 'to avoid the lack of positioning accuracy, and also to understand the service platform 2 〇 provide the wrong regional information; When the accuracy positioning requirement is not high, for example, querying the local weathering machine, the medium and low positioning accuracy of the WiFi positioning, base station positioning and IP positioning mode can be further adopted. _ ^ ^, _ using a variety of positioning methods, must also consider the user's environment, such as: GPS / AGPS ^ bit mode (four) is more accurate, 疋 position technology, of course, when the user enters the city's building In the middle of the group or indoors, 'electronic device 1G is receiving GPS satellite separation' GPS/AGPS positioning method in this environment:::, f is replaced by ί his positioning method; or, the latter enters step by step ^
内Si地下室),電子裝置1〇不僅無法接收GPSInside the Si basement), the electronic device 1〇 is not only unable to receive GPS
::二線訊號接收亦可能產生問題,帽S/AGPS :位、他定位、基地台定位皆無法採行,此時,就只能 k擇地理位址輸入定位、地圖# 等等進行電子裝置1G的定^ 或網^位方式 如=糟由選擇一可運行及適當精準度需求的定位方 ^ ’以確貫定位到電子裝置1G的所在位址 知服務平台20能夠提供正確有用的區域型服務資訊24 = 201137743 使用者。 又’地理感知服務平台20包括有-會員資料庫2卜 -空間:服器22、一運算模組23及一資訊資料庫24。 會貝貧料庫21記錄有各電子裝置1Q的會員者帳號, 使用者可在電子t置1〇上輸人自己的會員者帳號而登入 於地理感知服務平台2G,並同時將定位資料⑶及訂閱資 料151上傳記錄於會員資料庫21中。 空間飼服器22依據各電子裝置1GS位出的定位資料 139 ’即可判別出各電子裝置1()所在位址及其空間區域, 該空間區域係根據電子裝置1〇所在位址所劃分出的一城 鎮、-都市行政區、一地圖區塊、一路段或一里程等區域 單位。 貝讯身料庫24儲存有複數個區域型服務資訊241,各 區域型服務資訊241包括有一服務類別、一空間區域或一 資訊内容,而運算模組23將電子裝置1〇所在位址、所處 的空間區域及訂閱資料丨51比對於各區域型服務資訊 241 ’以將符合於電子褒置10目前位址及訂閱條件的區域 型服務資訊241傳送至電子裝置。 又,電子裝置1 〇尚包括有一發佈模組17,使用者藉 由發佈模組17編輯出一發佈訊息171,並傳送至地理感知 服務平台20 ;而地理感知服務平台2〇尚包括有一地圖伺 服器25 ’其包括有複數個網路地圖251。當地理感知服務 平台20收到發佈者所發佈的訊息171時,於會員資料庫 21中確認發佈者的會員帳號及空間伺服器22中確認發佈 201137743 者的所在位址,之後,在根據發佈者的所在位址於地圖伺 服器25中選擇一相對應的網路地圖251,並將發佈者的所 在位址、發佈者帳號及發佈訊息171標記在此相對應的網 路地圖251上,則其他的電子裝置1〇即可透過地理感知服 務平台20接收附近區域的網路地圖251,以得知目前附近 區域所發佈刊單的訊息171。 例如:如第5圖所示,電子裝置(A)發佈 鲁 走失了’’的訊息171,則地理感知服務平台20根據電子裝 置(A)的所在位址係將電子裝置(A)位址1〇1、發佈者帳號 (A-022)及發佈訊息171標記於一網路地圖251上。而後, 電子裝置(B)的使用者欲檢視目前附近區域所發生的大小 事’亦可將電子裝置(B)之定位資料139及訂閱資料1了1(訂 閱的服務類別為:附近發佈的事情)上傳至地理感知服務平 口 20,則地理感知服務平台2〇之運算模組會依據電子 裝置⑻的會員者帳號(㈣3)、所在位址1()2及其所處的 空間區域1021回傳一相對應的網路地目251,並同時將電 子裝置⑻的會員者帳號(β—013)、位址102及其所處的空 間區域1 〇 21桿gp #娘| @ 0 用㈣可_ 上,則電子裝置⑻的使 而協助電子裝置⑷的使用者尋找失縱中的小狗的事清進 又,電子裝置10尚包括有一追 有至少-追縱對象181的會員者帳曰,用以登記 服務平台20並儲存在A ^,上傳至地理感知 平台-之運算模員可 將&括有追縱對象的所在位 201137743 址及/或所發佈的發佈訊息17丨之查詢結果231回傳至對應 的電子裝置10。 〜 例如··電子裝置(c)的使用者欲追蹤會員者帳號(a_〇22) 動向,可將會員者帳號(A-022)登記於追蹤對象18丨中,並 上傳至地理感知服務平台2〇。則地理感知服務平台別根 據追蹤對象丨81之會員者帳號(A-022)查詢會員資料庫 中所對應記錄的會員資料,即可查詢出會—員者帳號(I!) 所使用的電子裝置⑴之所在位★止m “承德路-段95 ,及/或發佈訊息171 “我家小狗走失了,,,且所查詢 ^的結果231將回傳至電子裝置⑹,而查詢結果231係可 ^擇直接以文子格式作為表示或者如第5圖搭配地圖標示 考。 糟此,會員者登入於地理感知服務平台20即可得知好 ^工或子女…等等人員的最新動向以利於使用者對 、人員聯絡、掌控或管理上的便利性。 使用=本發明電子裝置10之劉覽器介面11尚嵌入有一 139在J理杈組12 ’定理定位模組13所產生的定位資料 用者管理It地理感知服務平台2°之前,會預先擺至於使 否同:上傳卜而使用者管理模組12詢問使用者是 才^^資料139’以經由使用者的用戶授權後, 夢二二料139進一步上傳至地理感知服務平台2。, 糟以保卩早會員者的隱私權。 圖。圖’為本發明空間飼服器-實施例之示意 ’空m司服器22包括有一定位資料分類器 201137743 220 一基地台資料庫221、一無線Ap資料庫222及— 資料庫223。 電子裝置10會透過不同定位器131_136定位出不同資 料類型的定位資料139,則定位資料139在傳送至地理感 知服務平台20後,首先會進入定位資料分類器22〇中進行 分類。分類完成後,可就分類結果直接判定各電子裝置汕 所在位址,或者傳送至記錄有各類型位址相關資料的資料 庫22卜223中進行比對,藉以推估出電子裝置10大約的 在位址。 若定位資料139經判斷為GPS/AGps定位出的一座栌, 則定位資料分類器220將直接以座標作為電子裝置 ^ 在位址。 若定位資料139經判斷為基地台定位出的一基地台編 碼’將傳送至基地台資料庫221進行比對,其基地 包括有-國碼(虹)、-網路碼⑽)、一區域碼(lac口)及二 • ΪΓ(夂Cel1,。基地台資料庫221記錄有複數個 :::貝料’各基地台資料分別包括有一基地台編碼、一 ΐ地圍及其一基地台架設位址。定位資料139之 二也二=於各基地台編碼’可比對出一相對應的基 === 相對應基地台編碼 兩冤千裝置1 〇的所在位址。 若定位資料139經判斷為WiFi定位 將傳送至無線AP資料庫222 ^ ' 記錄有複數個AP資料,各/資料庫222 貝丁寸刀別包括有一 Ap編碼、 15 201137743 AP /函蓋範圍及其一 AP架設位址。定位資料i39之Ap編 碼比對於各AP編碼,可比對出一相對應的AP編碼,則該 相對應AP編碼的AP架設位址將作為電子裝置丨〇的所在位 址。 若定位資料139經判斷為IP定位出的一 ip連線位 址將傳送至IP資料庫223進行比對。ip資料庫223記 錄有複數個I p資料,各I p資料包括有一 I p連線位址及其 一連線機房架設位址。定位資料139之1?連線位址比對於 各1P貝料庫之1P連線位址,可比對出一相對應的IP連線 位址,則該相對應1?連線位址的之連線機房架設位址將作 為電子裝置10的所在位址。 若定位資料139經判斷為地理位址輸入定位所輸入的 一地標,則定位資料分類器220將直接以地標作為電子裝 置10的所在位址,或者進一步將地標的定位資料139轉換 為門牌位址或經緯度座標位址以作為電子裝置1〇的所在 位址。 若定位資料139經判斷為一標記於網路地圖1351上的 地圖私β己1353 (如第2圖所示),則定位資料分類器22〇 將4地圖標記1353轉換為門牌位址或經緯度座標位址以 作為電子裝置10的所在位址。 另外’定位資料分類器220在判別出電子裝置1 〇的所 在^址後’將進一步根據其所在位址為中心點劃分出一空 間=域,例如:一城鎮、一都市行政區、一地圖區塊、— 路1又或一里程等區域單位。當然,空間伺服器22亦可搭配 201137743 地圖伺服器25使用,如第5圖圖示,以將判別出的電子裝 置10所在位址102及其空間區域1〇21標示在一網路地圖 251上,不僅可令使用者清楚自己的所在位址,也令服務 系統100得知使用者座落的區域,以利於傳送正確有用的 區域型服務資訊241。 請參閱第7圖及第8圖,為本發明地理感知電子裝置 及其服務系統又一實施例之方塊示意圖。如圖所示,地理 φ感知服務系統200包括有一地理感知服務平台40及複數個 電子裝置30,各電子裝置3〇分別連接地理感知服務平台 40,且地理感知服務平台4〇係符合W3CGe〇1〇cati〇n定位 標準規範。 電子裝置30包括有一瀏覽器介面31及一訂閱模組 35 /劉覽器’丨面31嵌入有一包括gps/agps定位器331之 地理定位模組33,GPS/AGPS定位器331定位電子裝置3〇 的所在位址而擷取產生至少一座標定位資料339,而訂閱 φ 模組35用以提供一訂閱資料351。 地理感知服務平台40用以提供各種服務類別的區域 f訊i如第4圖所示,其連線各電子裝置30,以接收該座 標之定位資料339及該訂閱資料35卜地理感知服務平台 40包括有一會員資料庫41、一空間飼服器42、一運算模 組43及一資訊資料庫44。 、 會員資料庫41記錄有各電子裝置3〇的會員者帳號, 使用者可在電子裝置30上輸入自己的會員者帳號而登入 於地理感知服務平台4〇,並同時將定位資料挪及訂閱資 17 201137743 料351上傳記錄於會員資料 。 各電子庐罟川—a山 工間和J服器42依據 " 疋位出的座標定位資料339,即可判 置3〇所在位址及其空間區域。資訊資料庫44儲: =數個區域型服務資訊441,各區域型服務資訊::: 括有一服務類別、一空間區域或一 4〇 ^ 貝汛内谷,而運算模組 將電子裝置3〇所在位址、所處的空間區域 35=對於各區域型服務資m441,以將符合於電子=:: The second-line signal reception may also cause problems. The cap S/AGPS: position, his positioning, and base station positioning cannot be adopted. At this time, it is only possible to select the geographic address input location, map #, etc. for the electronic device. 1G's fixed or network mode, such as = bad by selecting a locator that can run and appropriate accuracy requirements ^ to locate the location of the electronic device 1G to ensure that the service platform 20 can provide correct and useful regional type Service Information 24 = 201137743 User. Further, the geographic awareness service platform 20 includes a member database 2 - a space: a server 22, a computing module 23, and an information database 24. The club account 21 records the member account of each electronic device 1Q, and the user can log in to the geographic sensing service platform 2G by inputting his own member account on the electronic t1, and simultaneously locate the location data (3) and The subscription material 151 is uploaded and recorded in the member database 21. The space feeding device 22 can determine the address of each electronic device 1() and its spatial region according to the positioning data 139' of the electronic device 1GS, and the spatial region is divided according to the address of the electronic device 1 A town, a city administrative district, a map block, a road segment, or a mileage and other regional units. The data body 241 includes a plurality of regional service information 241, and each regional service information 241 includes a service category, a space area or a content content, and the computing module 23 places the address of the electronic device 1 The space area and subscription data 丨 51 is transmitted to the electronic device for the regional service information 241 ′ to match the current address and subscription conditions of the electronic device 10 . Moreover, the electronic device 1 includes a publishing module 17, and the user edits a posting message 171 by the publishing module 17 and transmits the message to the geographic sensing service platform 20; and the geographic sensing service platform 2 includes a map server. The device 25' includes a plurality of network maps 251. When the geographic awareness service platform 20 receives the message 171 issued by the publisher, it confirms in the member database 21 that the publisher's member account and the space server 22 confirm the location of the 201137743 person, and then, according to the publisher. The location of the web server 25 selects a corresponding network map 251, and marks the address of the publisher, the publisher account, and the posting message 171 on the corresponding network map 251. The electronic device can receive the network map 251 of the nearby area through the geographic awareness service platform 20 to learn the message 171 of the published order in the nearby area. For example, as shown in FIG. 5, the electronic device (A) issues a message 171 that has been lost, and the geographic sensing service platform 20 addresses the electronic device (A) according to the address of the electronic device (A). 〇 1, the publisher account (A-022) and the posting message 171 are marked on a network map 251. Then, the user of the electronic device (B) wants to check the size of the current area. The location information 139 and the subscription data of the electronic device (B) can also be 1 (subscription service category: things posted nearby) Uploading to the geographic awareness service port 20, the computing module of the geographic sensing service platform 2 will be returned according to the member account of the electronic device (8) ((4) 3), the address 1 () 2 and the spatial area 1021 in which it is located. A corresponding network location 251, and at the same time the electronic device (8) member account number (β-013), address 102 and the space area in which it is located 〇 21 pole gp #娘 | @ 0 with (four) can _ Then, the electronic device (8) assists the user of the electronic device (4) in finding the puppies in the lost position, and the electronic device 10 further includes a member account with at least the tracking object 181 for The registration service platform 20 is stored in A^, and the computing model uploaded to the geographic awareness platform can return the query result 231 of the location of the tracking object and/or the published posting message 17 of the tracking object. To the corresponding electronic device 10. ~ For example, if the user of the electronic device (c) wants to track the member account (a_〇22), the member account (A-022) can be registered in the tracking target 18丨 and uploaded to the geographic awareness service platform. 2〇. Then, the geographic sensing service platform may query the member information of the corresponding record in the member database according to the member account number (A-022) of the tracking target 丨81, and then the electronic device used by the member-member account (I!) can be queried. (1) Position ★ ★ m “Chengde Road – Section 95, and/or release message 171 “My puppy has lost, and the result 231 of the query ^ will be transmitted back to the electronic device (6), and the query result 231 can be ^ Select directly in the text format as a representation or as shown in Figure 5 with a map. In this case, the member can log in to the geographic awareness service platform 20 to know the latest trends of the workers or children, etc., to facilitate user contact, personnel contact, control or management convenience. The display device 11 of the electronic device 10 of the present invention is embedded with a 139 before the positioning data generated by the J's group 12' theorem positioning module 13 manages the It geographic sensing service platform 2°, and is pre-positioned If the user management module 12 asks the user that the information is 139' to be authorized by the user of the user, the dream 139 is further uploaded to the geographic awareness service platform 2. , to protect the privacy of early members. Figure. Figure 'is a schematic view of the space feeding device of the present invention'. The empty m server 22 includes a positioning data classifier 201137743 220, a base station database 221, a wireless data database 222, and a data library 223. The electronic device 10 locates the location data 139 of different data types through different locators 131_136. After the location data 139 is transmitted to the geographic sensing service platform 20, it first enters the location data classifier 22 for classification. After the classification is completed, the location of each electronic device may be directly determined on the classification result, or may be transmitted to the database 22 223 in which the information related to each type of address is recorded for comparison, thereby estimating the approximate presence of the electronic device 10. Address. If the location data 139 is determined to be a frame located by the GPS/AGps, the location data classifier 220 will directly use the coordinates as the electronic device ^ at the address. If the location data 139 is determined to be a base station code that is located by the base station, it will be transmitted to the base station database 221 for comparison, and the base includes - country code (rain), - network code (10), and an area code. (lac mouth) and two • ΪΓ (夂Cel1. The base station database 221 records a plurality of:::bei material' each base station data includes a base station code, a ΐ ΐ 围 and its base gantry The location data 139 bis 2 = 2 in the base station code 'comparable to a corresponding base === corresponding to the base station code two thousand devices 1 〇 where the address. If the location data 139 is judged as WiFi positioning will be transmitted to the wireless AP database 222 ^ ' Recording multiple AP data, each / database 222 Betty inch knife includes an Ap code, 15 201137743 AP / letter cover range and an AP erection address. The IP coding of the data i39 is comparable to the corresponding AP coding for each AP coding, and the AP-addressed AP-addressed address of the AP is used as the address of the electronic device. If the location data 139 is determined to be IP-located one ip connection address will be transmitted The IP database 223 is compared. The ip database 223 records a plurality of Ip data, and each Ip data includes an Ip connection address and a connection room erecting address. The line address ratio is comparable to the 1P connection address of each 1P shell library, and a corresponding IP connection address can be compared. The connection room address of the corresponding 1? connection address will be used as the connection address. The address of the electronic device 10. If the location data 139 is determined to be a landmark input by the geographic address input location, the location data classifier 220 will directly use the landmark as the address of the electronic device 10, or further landmarks. The location data 139 is converted into a house address or a latitude and longitude coordinate address as the address of the electronic device 1 . If the location data 139 is determined to be a map privately labeled 1353 on the network map 1351 (as shown in Figure 2) As shown, the location data classifier 22 converts the 4 map marker 1353 into a house address or a latitude and longitude coordinate address as the address of the electronic device 10. In addition, the 'location data classifier 220 determines the electronic device 1 〇 After the location of the site' Further, according to the address of the location, a space=domain is defined, for example, a town, a city administrative district, a map block, a road 1 or a mileage, etc. Of course, the space server 22 can also Used in conjunction with the 201137743 map server 25, as shown in FIG. 5, the identified address 102 of the electronic device 10 and its spatial area 1〇21 are marked on the network map 251, which not only makes the user clear The address of the location also allows the service system 100 to know the area where the user is located, so as to facilitate the transmission of the correct and useful regional service information 241. Please refer to FIG. 7 and FIG. 8 , which are block diagrams of still another embodiment of a geographic sensing electronic device and a service system thereof according to the present invention. As shown in the figure, the geographic φ sensing service system 200 includes a geographic sensing service platform 40 and a plurality of electronic devices 30, each of which is connected to the geographic sensing service platform 40, and the geographic sensing service platform 4 is compliant with W3CGe 〇 1 〇cati〇n positioning standard specification. The electronic device 30 includes a browser interface 31 and a subscription module 35/viewer 31. The surface 31 is embedded with a geolocation module 33 including a gps/agps locator 331, and the GPS/AGPS locator 331 is positioned to the electronic device. The location of the address is extracted to generate at least one target location data 339, and the subscription φ module 35 is used to provide a subscription profile 351. The geographic sensing service platform 40 is configured to provide regional information of various service categories. As shown in FIG. 4, the electronic device 30 is connected to receive the positioning information 339 of the coordinate and the subscription data 35. The geographic sensing service platform 40 The utility model comprises a member database 41, a space feeding device 42, a computing module 43 and an information database 44. The member database 41 records the member account number of each electronic device. The user can input his/her member account number on the electronic device 30 and log in to the geographic sensing service platform 4〇, and simultaneously transfer the positioning data to the subscription fund. 17 201137743 The material 351 is uploaded and recorded in the member information. Each electronic 庐罟川—a mountain work room and J server 42 can determine the location of the 3 及其 and its spatial area according to the coordinate positioning data 339 of the " 疋 position. Information database 44: = several regional service information 441, regional service information::: include a service category, a space area or a 4 〇 ^ Becko valley, and the computing module will electronic devices 3〇 The address and location of the space 35 = for each regional service m441, to be in compliance with the electronic =
3〇目刖位址及訂閱條件的區域型服務資訊441傳送至電 裝置40。 又,本實施例之空間飼服器42包括有一基地台資料庫 421 ’該基地台資料庫421記錄有複數個基地台資料4211, 各基地台資料42U包括有一基地台編碼、一基地台涵蓋範 圍及其-基地台架設位址。在本實施例中,各基地台資料 4211係可由一基地.台調查行動裝置5〇沿著衔道協助葱集 各基地台相關資訊所建構而成。 ,接續,如第9圖及第10圖所示,為本發明基地台調查 行動裝置之結構示意圖及調查狀態示意圖。基地台調查行 動裝置50包括有一衛星接收器52、一行動通訊接收器54 及一資訊主機56,資訊主機56連接GPS衛星接收器52及 行動通訊接收器54,且基地台調查行動裝置5〇裝載在一 機動車輛58上進行移動。 基地台調查行動裝置50透過機動車輛58行駛於街道 6〇上’當基地台調查行動裝置50運駛至各基地台61、62、 63之涵蓋範圍611、621、631時,即可由行動通訊接收器 18 201137743 54沿途接收各基地台61、62、63之無線訊號,並沿著Gps 衛星接收器52接收GPS訊號,GPS訊號傳送至資訊主機56 進行疋位,以取得一座標521及一行動軌跡,進一步 資訊主機56蒐集可接收到無線訊號的各基地台編碼5〇1, 並根據座標521及行動軌跡601以運算求得各基地台編碼 501所對應的各基地台訊號參數5〇3,且基地台訊號參數 503可包括有一時間先行值(τα)、一訊號來回時間(Rr^)、 φ 一編碼訊號的接收功率(RSCP)、一接收訊號強度(RSS)及/ 或一差分全球定位系統座標(DGPS)。 再度參閱第8圖’地理感知服務平台40尚包括有一基 地〇位址統计模組4 5,基地台位址統計模組4 5包括有複 數個統計演算模型451,統計演算模型451可為CeLL-ID 模型、CeLL-ID+TA模型、RTT模型、Hata傳播模型、Lee,s 傳播模型、最小二乘法最佳化傳播模型或pCM模型等等。 當基地台調查行動裝置50蒐集完各基地台編碼501及其對 • 應的各基地台訊號參數503後,該基地台位址統計模組45 利用其中一或混合式之統計演算模型451統計運算該資訊 主機50所蒐集到的該基地台訊號參數5〇3及其蒐集時的所 在座標521,致使以運算出各基地台的架設位址及劃分出 涵蓋範圍。之後,係將各基地台的架設位址、涵蓋範圍及 其所屬的各基地台編碼501整合成為該基地台資料42Π, 並建構記錄於空間伺服器42之基地台資料庫421中。當 然,本發明另一實施例中,各基地台資料4211也可由電信 業者合作提供,藉以節省建構基地台資料4 211所需的設備 19 201137743 及人力成本。 再者’由於基地台常常發生增台及撤台的情形,以致 基地σ資料庫421所記錄的基地台資料4211往往無法立即 得知更新,若使用者採用如第i圖所示之基地台定位方 式亦可此產生定位失準的情況,而令地理感知服務平台 40提供不洽當的區域型服務資訊441於使用者,因此,在 本實施例之服務系統200中,電子裝置3〇將提供一基地台 反饋機制以協助地理感知服務平台40記錄的基地台資料 4211進行更新維護,其如下所述: 接續,再度參閱第7圖,電子裝置3〇尚包括有一基地 台訊號蒐集模組34,其用以蒐集各基地台的基地台編碼 341及其對應的複數個基地台訊號參數343,基地台訊號參 數343可包括有一時間先行值(1^)、一訊號來回時間 (RTT)、一編碼訊號的接收功率(RSCP)、一接收訊號強度 (R S S)及/或一差分全球定位系統座標(D G P S)等等…。 例如:第11圖所示,假若電子裝置(A)3〇座落在基地 台71、72之涵蓋範圍711、721中,可感測到基地台71、 72所發出的無線訊號而蒐集到基地台71、72的基地台編 碼341及其對應的複數個基地台訊號參數;電子裝置 (B) 30座落在基地台73之涵蓋範圍731中,可感測到基地 台73所發出的無線訊號而蒐集到基地台73的基地台編碼 341及其對應的複數個基地台訊號參數343;而電子裝置 (C) 30座落在基地台74、75、76之涵蓋範圍741、751、761 中,可感測到基地台74、75、76所發出的無線訊號而蒐集 201137743 到基地台74、75、76的基地台編碼341及其對應的複數個 基地台訊號參數343,電子裝置(A)(B)(C)30所蒐集到的各 基地台編碼341及其對應的複數個基地台訊號參數343將 傳送至地理感知服務平台40。 之後,地理感知服務平台40之空間伺服器42會將各 基地台71、72、73、74、75、76所代表的基地台編碼341 比對於原本記錄在基地台資料庫421中的基地台資料4211 之基地台編碼,以確認各基地台的相關資訊是否記錄在基 地台資料庫421中。 經比對後,基地台76的基地台編碼341並未記錄在基 地台資料庫421中,則利用該基地台位址統計模組45之其 中一或混合式之統計演算模型451統計運算該電子裝置 (030蒐集到的基地台76之基地台訊號參數343及其蒐集 時的所在位址,致使以運算出基地台76的架設位址及劃分 出涵蓋範圍,而空間伺服器42將會在基地台資料庫421建 置新增一基地台資料4211,以將基地台76的基地台編碼 341、架設位址及涵蓋範圍761等相關資訊整合在新增的基 地台資料4211中。 另,地理感知服務平台40之空間伺服器42會將電子 裝置(A)(B)(C)30目前所在位址比對於各基地台資料4211 之各個基地台之涵蓋範圍。經比對後,電子裝置(C)30的 所在位址理應感測不到基地台74所發出的無線訊號,然, 電子裝置(C)30確蒐集到基地台74的基地台編碼341及其 對應的複數個基地台訊號參數343,因此,可以斷定基地 21 201137743 台74已經改變其架設位址’此時’基地台位址統計模組 45根據電子裝置(C)30所蒐集到的基地台74之基地台訊號 參數343及其蒐集時的所在位址重新計算基地台74的架設 位址及其涵蓋範圍741,以將基地台74的架設位址及涵蓋 範圍741更新修正於基地台資料4211中。 藉此’藉由各電子裝置30協助蒐集各基地台的訊號資 訊’以修正原本建構在服務系統2〇〇中的基地台資料 4211,藉以提高服務系統2〇〇採用基地台定位方式時的精 確度。 當然,本實施例之電子裝置3〇同樣的具有一使用者管 理模組32,地理定位模組33所產生的定位資料3卯及基 地台訊號蒐集模組34所蒐集到的基地台編碼34卜基地台 汛唬參數343在傳送至地理感知服務平台4〇之前,會預先 擺至於使用者官理模組32中,而使用者管理模組犯詢問 使用者是否同意上傳該定位資料339、基地台編碼341及/ 或基地台訊號參數343,以經由使用者的用戶授權後,才 曰將疋位 > 料339、基地台編碼341及/或基地台訊號參數 進步上傳至地理感知服務平台40,藉以保障會員者 的隱私權以及確認會員者是否願意協助維護更新系統綱 的基地台資料4211。 又本實訑例電子裝置3〇在未協助維護更新系統 、土地σ貝料4211而只用以查詢或接收區域資訊的情況 ^木用GPS/AGPS定位n 331定位方式外,亦可選用其 定位器進行定位’例如:基地台定位器、wIFI定 22 201137743 地圖標記定位器335、 位器333、地理位址輸入定位器334 IP定位器336。 以上所述者 1里句I赞明之列舉實施例而已,並非用 來限定本發明實施之範圍,即 ..^ ^ UL 「依本發明申請專利範圍所 述之形狀、構造、特徵及精神所為 ^ ^ , 顶作所馮之均專變化與修飾,均 應包括於本發明之申請專利範圍内。 【圖式簡單說明】 第1圖:為本發明地理感知電子裝置—較佳實施例之方塊 不意圖。 第2圖:為本發明地圖標記示意圖。 第3圖:為本發明地理感知服務系統-較佳實施例之方塊 示意圖。 第4圖:為本發明地理感知服務系統所提供的服務類別、 定位精準度需求及其定位方式之圖表。 第5圖:為本發明標記树佈訊息及會貝者位址之網路地 圖示意圖。 第6圖:為本發明空_服器之方塊示意圖。 第7圖:本發明地理感知電子|置又—實施例之方塊示意 圖。 第8圖:為本發明地理感知服㈣統又—實施例之方塊示 意圖。 =9圖:為本發明基地台調查行動裝置之結構示意圖。 第1〇圖:為本發·地台調查行較置之調查狀態示意 23 201137743 圖。 第11圖:為本發明電子裝置蒐集各基地台相關資訊之策集 狀態示意圖。 【主要元件符號說明】 10 電子裝置 101 所在位址 1021 空間區域 12 使用者管理模組 131 GPS/AGPS定位器 133 WIFI定位器 1341 輸入部 1351 網路地圖 136 IP定位器 15 訂閱模組 17 發佈模組 18 追蹤模組 20 地理感知服務平台 22 空間伺服器 221 基地台資料庫 223 IP資料庫 231 查詢結果 241 區域型服務資訊 251 網路地圖 31 瀏覽器介面 100 地理感知服務平台 102 所在位址 11 瀏覽器介面 13 地理定位模組 132 基地台定位器 134 地理位址輸入定位巧 135 地圖標記定位器 1353地圖標記 139 定位資料 151 訂閱資料 171 發佈訊息 181 追蹤對象 21 會員資料庫 220 定位資料分類器 222 無線AP資料庫 23 運算模組 24 資訊資料庫 25 地圖伺服器 30 電子裝置 32 使用者管理模組The area type service information 441 of the destination address and the subscription condition is transmitted to the electric device 40. Moreover, the space feeding device 42 of the embodiment includes a base station database 421 'the base station database 421 records a plurality of base station data 4211, and each base station data 42U includes a base station code and a base station coverage. And its base station erected the address. In this embodiment, each base station data 4211 can be constructed by a base station and an investigation mobile device 5〇 along the track to assist the onion collection base station related information. And the continuation, as shown in Fig. 9 and Fig. 10, is a schematic diagram of the structure of the investigation device of the base station of the present invention and a schematic diagram of the investigation state. The base station investigation mobile device 50 includes a satellite receiver 52, a mobile communication receiver 54 and an information communication unit 56. The information host 56 is connected to the GPS satellite receiver 52 and the mobile communication receiver 54, and the base station investigation mobile device 5 is loaded. Movement is made on a motor vehicle 58. The base station investigation mobile device 50 travels on the street 6 via the motor vehicle 58. When the base station investigation mobile device 50 travels to the coverage areas 611, 621, and 631 of the base stations 61, 62, 63, it can be received by the mobile communication. The device 18 receives the wireless signals of the base stations 61, 62, and 63 along the way, and receives the GPS signals along the GPS satellite receiver 52. The GPS signals are transmitted to the information host 56 for clamping to obtain a target 521 and a motion track. The further information host 56 collects the base station codes 5〇1 that can receive the wireless signals, and calculates the base station signal parameters 5〇3 corresponding to the base station codes 501 according to the coordinates 521 and the action track 601, and The base station signal parameter 503 can include a time advance value (τα), a signal round trip time (Rr^), a φ encoded signal received power (RSCP), a received signal strength (RSS), and/or a differential global positioning system. Coordinate (DGPS). Referring again to Figure 8, the geographic awareness service platform 40 further includes a base address statistics module 45. The base station address statistics module 45 includes a plurality of statistical calculation models 451, and the statistical calculation model 451 can be CeLL. -ID model, CeLL-ID+TA model, RTT model, Hata propagation model, Lee, s propagation model, least squares optimized propagation model or pCM model, etc. After the base station investigation mobile device 50 collects the base station code 501 and its corresponding base station signal parameters 503, the base station address statistics module 45 uses one or a mixed statistical calculation model 451 for statistical operations. The base station signal parameter 5〇3 collected by the information host 50 and the coordinates 521 at the time of collection enable the base station to calculate the address of the base station and divide the coverage range. Thereafter, the locating address, the coverage area, and the respective base station codes 501 of the base stations are integrated into the base station data 42Π, and are constructed and recorded in the base station database 421 of the space server 42. Of course, in another embodiment of the present invention, the base station data 4211 can also be provided by the telecommunications industry, thereby saving the equipment 19 201137743 and labor cost required for constructing the base station data 4 211 . Furthermore, because the base station often has the addition and withdrawal of the platform, the base station data 4211 recorded by the base σ database 421 is often unable to immediately know the update, if the user uses the base station positioning as shown in the i-th figure. In this way, the location sensing misalignment may be generated, and the geographic sensing service platform 40 provides the unsuitable regional service information 441 to the user. Therefore, in the service system 200 of the embodiment, the electronic device 3 A base station feedback mechanism is used to assist the base station data 4211 recorded by the geographic awareness service platform 40 for updating and maintaining, as follows: Continuing, referring again to FIG. 7, the electronic device 3 further includes a base station signal collection module 34. It is used to collect the base station code 341 of each base station and its corresponding plurality of base station signal parameters 343. The base station signal parameter 343 may include a time advance value (1^), a signal round trip time (RTT), and an encoding. Received power (RSCP), received signal strength (RSS), and/or a differential global positioning system coordinate (DGPS), etc. For example, as shown in FIG. 11, if the electronic device (A) 3 is located in the coverage areas 711 and 721 of the base stations 71 and 72, the wireless signals transmitted from the base stations 71 and 72 can be sensed and collected. The base station code 341 of the stations 71 and 72 and the corresponding plurality of base station signal parameters; the electronic device (B) 30 is located in the coverage 731 of the base station 73, and can sense the wireless signal sent by the base station 73. And collecting the base station code 341 of the base station 73 and its corresponding plurality of base station signal parameters 343; and the electronic device (C) 30 is located in the coverage areas 741, 751, 761 of the base stations 74, 75, 76, The wireless signals transmitted by the base stations 74, 75, and 76 can be sensed to collect the base station code 341 of the 201137743 to the base stations 74, 75, and 76 and the corresponding plurality of base station signal parameters 343, the electronic device (A) ( B) Each base station code 341 and its corresponding plurality of base station signal parameters 343 collected by (C) 30 will be transmitted to the geographic awareness service platform 40. Thereafter, the space server 42 of the geographic awareness service platform 40 compares the base station code 341 represented by each base station 71, 72, 73, 74, 75, 76 with the base station data originally recorded in the base station database 421. The base station code of 4211 is used to confirm whether the relevant information of each base station is recorded in the base station database 421. After the comparison, the base station code 341 of the base station 76 is not recorded in the base station database 421, and the electronic calculation is performed by using one of the base station address statistics modules 45 or a mixed statistical calculation model 451. The base station signal parameter 343 of the base station 76 collected by the device 030 and the address of the base station 76 collected therein are such that the address of the base station 76 is calculated and the coverage is divided, and the space server 42 will be at the base. A database base unit 421 is added to add a base station data 4211 to integrate the base station code 341, the erection address and the coverage area 761 of the base station 76 into the newly added base station data 4211. The space server 42 of the service platform 40 compares the current address of the electronic device (A) (B) (C) 30 with the coverage of each base station for each base station data 4211. After comparison, the electronic device (C) The address of 30 is supposed to not sense the wireless signal sent by the base station 74. However, the electronic device (C) 30 does collect the base station code 341 of the base station 74 and its corresponding plurality of base station signal parameters 343. So, can It is determined that the base 21 201137743 station 74 has changed its erection address 'this time' the base station address statistics module 45 according to the base station 74 of the base station 74 collected by the electronic device (C) 30 parameter 343 and where it was collected The address recalculates the erection address of the base station 74 and its coverage 741 to update the erection address and coverage 741 of the base station 74 to the base station data 4211. Thereby, the collection is assisted by the electronic devices 30. The signal information of each base station 'corrects the base station data 4211 originally constructed in the service system 2 to improve the accuracy of the service system 2 when using the base station positioning mode. Of course, the electronic device 3 of this embodiment Similarly, there is a user management module 32, the positioning data generated by the geolocation module 33, and the base station code 34 collected by the base station signal collection module 34 are transmitted to the base station parameter 343. Before the geographic awareness service platform 4, it will be placed in the user's official module 32, and the user management module will ask the user whether to agree to upload the positioning data 339, the base The station code 341 and/or the base station signal parameter 343 are uploaded to the geographic awareness service platform 40 by the user's material 339, the base station code 341, and/or the base station signal parameter progress after authorization by the user of the user. In order to protect the privacy of the members and to confirm whether the members are willing to assist in maintaining the base station information 4211 of the updated system. The electronic device 3 is not used to assist in maintaining the update system, the land σBei 4211 and only used Query or receive regional information ^While GPS/AGPS positioning n 331 positioning mode, you can also use its locator to locate 'for example: base station locator, wIFI fixed 22 201137743 map marker locator 335, position 333, The geographic address is input to a locator 334 IP locator 336. The above description of the present invention is not intended to limit the scope of the practice of the present invention, that is, . . . ^ UL "is based on the shape, structure, features and spirit of the scope of the patent application of the present invention. ^, The versatile changes and modifications of the TOP is based on the scope of the patent application of the present invention. [Simplified description of the drawings] Fig. 1 is a block diagram of a geographically-aware electronic device according to the present invention. 2 is a schematic diagram of a map mark of the present invention. Fig. 3 is a block diagram of a preferred embodiment of the geographic awareness service system of the present invention. Fig. 4 is a diagram showing the service categories and positioning precision provided by the geographic awareness service system of the present invention. Figure of the demand and its positioning method. Figure 5: Schematic diagram of the network map of the tag tree information and the address of the person in the present invention. Fig. 6 is a block diagram of the space server of the present invention. The block diagram of the embodiment of the present invention is a block diagram of the embodiment of the present invention. FIG. 8 is a block diagram of the embodiment of the present invention. Schematic diagram of the structure of the mobile device. Figure 1: Survey status of the survey of the local and local surveys. 2011 201143. Fig. 11: Schematic diagram of the collection status of the information about each base station of the electronic device of the present invention [Main component symbol description] 10 Electronic device 101 Address 1021 Space area 12 User management module 131 GPS/AGPS locator 133 WIFI locator 1341 Input unit 1351 Network map 136 IP locator 15 Subscription module 17 Release Module 18 Tracking Module 20 Geographic Awareness Service Platform 22 Space Server 221 Base Station Database 223 IP Library 231 Query Results 241 Area Type Service Information 251 Network Map 31 Browser Interface 100 Geographic Awareness Service Platform 102 Location 11 Browser Interface 13 Geolocation Module 132 Base Station Locator 134 Geographic Address Input Positioning 135 Map Mark Locator 1353 Map Mark 139 Location Data 151 Subscription Information 171 Release Message 181 Tracking Object 21 Member Database 220 Location Data Classifier 222 Wireless AP database 23 computing module 24 information database 25 Map Server 30 Electronics 32 User Management Module
24 地理定位模組 331 GPS/AGPS定位器 基地台定位器 333 WIFI定位器 地理位址輸入定位器 335 地圖標記定位器 IP定位器 339 定位資料 基地台訊號蒐集模組 341 基地台編碼 基地台訊號參數 35 訂閱模組 訂閱資料 40 地理感知服務平台 會員資料庫 42 空間伺服器 基地台資料庫 4211 基地台資料 運算模組 44 資訊資料庫 區域型服務資訊 45 基地台位址統計模組 統計演算模型 50 基地台調查行動裝置 基地台編碼 503 基地台訊號參數 GPS衛星接收器 521 座標 行動通訊接收器 56 資訊主機 機動車輛 60 街道 行動執跡 61 基地台 涵蓋範圍 62 基地台 涵蓋範圍 63 基地台 涵蓋範圍 71 基地台 涵蓋範圍 72 基地台 涵蓋範圍 73 基地台 涵蓋範圍 74 基地台 涵蓋範圍 75 基地台 涵蓋範圍 76 基地台 25 201137743 761 涵蓋範圍24 Geolocation Module 331 GPS/AGPS Locator Base Station Locator 333 WIFI Locator Geographic Address Input Locator 335 Map Marker Locator IP Locator 339 Positioning Data Base Station Signal Collection Module 341 Base Station Code Base Station Signal Parameters 35 Subscription Module Subscription Information 40 Geographic Awareness Service Platform Member Database 42 Space Server Base Station Database 4211 Base Station Data Calculation Module 44 Information Database Area Type Service Information 45 Base Station Address Statistics Module Statistical Calculation Model 50 Base Taiwan investigation mobile device base station code 503 base station signal parameter GPS satellite receiver 521 coordinate mobile communication receiver 56 information host motor vehicle 60 street action obstruction 61 base station coverage 62 base station coverage 63 base station coverage 71 base station Coverage 72 Base station coverage 73 Base station coverage 74 Base station coverage 75 Base station coverage 76 Base station 25 201137743 761 Coverage
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