201224943 六、發明說明: 【發明所屬之技術領域】 本發明係有關於-㈣頻辨識監控系統及其監控 法,尤指一種於射頻辨識監控系、皿工 =鐵’作為快逮檢測系統錯誤之依據之監 錯過程,減少備錯時間之目的,:其: 系、“構簡早,可附加於原射頻辨識監控系統内。 【先前技術】 ^«t,(RFID,Radl0Frequency Identlflcatlon) 波-自動,別物品的技術,由於具有可快速掃 以二大,壽命高、可重復使用、安全保 例如身份識別卡、物業管理系統,以及庫 羊= =理、集裝箱識別,以及公路車輛識別與自動收= Τ二=頻辨識系統而言,其係將射頻辨識標_ :ag)5又置於物品上’再於所需地點設置射頻辨識讀取哭 ,當物品通過或靠近射頻辨識讀取器時,; 輸,取器讀取該射頻辨識標藏,進行無線資料傳 P其採承f辨識讀取器透過無線或有線網路將資料傳輸 J等等’該管理平台通常包括有一電腦裝置及=二 電腦裝置可透過網路接收射頻辨識讀取器所“ 201224943 ::::號,並將結果顯示於 之應用程式或軟體,可透過-伺服=更二 態。 員不态,透過顯不器顯示更新狀 =上述習知射頻辨識系統於運作過程中 , ,, ^ 根本未到達預定地點,或硬體、 發生故障.,或網路連線巾斷 =㈣软體 辨識標籤設置於射頻辨識讀取哭;^未^正確將射頻 環境因素,因而導致讀取圍内,或其他 昌5A机、 益…法5貝取標籤,此時,臣七批又 卻即得知有未能正確讀取標籤的狀況產生::而 =快速:斷影響讀取的原因何在,必須針對各種: 的原因――檢測’因此 m ^ ㈣,均未揭露針對此—問==觀習知 【發明内容】 有鑑於習知技術之缺失,本笋 =辨識監控系統及其監控方法:於射頻辨 以置一檢測用射頻辨識標籤,作為快 哉^系統中 據,達到簡化偵錯過程,減少仲 /、系、、先錯誤之依 木構間早,可附加於原射頻辨識監控系統内。-糸、為 為達到上述目的,本發明描Ψ _ 統,包含: —種射頻辨識監控系 一射頻辨識讀取器,其具有一讀 讀取器係用以讀取位於該讀取範圍 該射頻辨識 料; 之射頻辨識標籤之資 201224943 第一射頻辨識標籤,係設置於該射頻辨識。 讀取範圍内; 飞3取杰之 一第二射頻辨識標籤,係設置於一移動物上, 物係:移動地承載該第二射頻辨識標藏進入或離開, 辨識讀取器之讀取範圍: 射頻 -控制單元’係以網路與該射頻辨識讀取 二控制單元係經由網路連線接收並處 連 取盗所言買取之該第-射頻辨識標鐵 ,辨識項 辨識標籤以及該第二射頻辨識標鐵之資料;=第一射頻 一飼服器’係以網路與該控制單 器係用以儲存該控制單元所 電卜“妾,該伺服 ‘戴之貝科,並提供及更新該 ㈣辨識 之應用程式或軟體。 辨為·-控糸統運作所需 為達到上述目的,本發明 統之監控方法,包含·· 知出—種射頻辨識監控系 由控制單元與一射頻辨識# σ 連線’該射頻辨識讀取器 二取盗進行至少-次網路 與該射頻辨識讀取器網路 =取耗圍,若該控制單元 程’若該控制單元與該射頻辨跑則執行-第-維修流 進行後續步驟; 、識巧取器網路連線成功,則 /由該射頻辨識讀取器對 行至少-次讀取,該第 二射頻辨識標籤之資料進 識讀取器之讀取範圍内,若兮識標籤係設置於該射頻辨 第一射頻辨識標籤之資料,二頻辨識讀取器無法讀取該 射頻辨識讀取器可讀取二: 丁-第二維修流程’ '射頻辨識標籤之資料, 201224943 行後續步驟; 由該射頻辨識讀取器讀取一第二 料,該第二射頻辨識標籤係設置於-移動物上4鐵之資 識讀取器之讀取範圍;頻辨私鐵進入或離開該射頻辨 所續由網路接收並處理該射頻辨識讀取琴 標藏以及該第二射頻辨識標藏之資料;t第—射頻辨識 由該控制單元與一伺服器進行至少—次 =制巧該伺服器網路連線失敗,則執行—第=維: 流程,若該控制單元與該伺服 進:了:=:===_更 【實施方式】 以下將參賴附之_絲描述本發明 效,下圖式所列舉之實施例二 於二二委員瞭解’但本案之技術手段並不限 T參閱第-圖所示,本發明所提供之射頻辨識監控系 ,!;:、t要包含一射頻辨識讀取器10、一第-射頻辨識標 紙20、第一射頻辨識標籤30、一控制單元50以及一伺服 201224943 該移動物4〇可為車辨輛識標麵3〇係設置於一移動物上, 係設置於所需之:^人或動物,該射頻辨識讀取器10 柄地點,例如’該移祕40若是車 物ί〇係設置於汽車經鎖點,該移動 或動物所經過之門口 識讀取器】()係設置於人 識標藏固=器二:匕有-讀取範園,該第-射頻辨 内,該移動物識讀取器Μ之讀取範圍 進入或離開該射__㈣m第二射頻辨識標籤別 單元50 Ζΐ ί _識讀取器10電性連接,該控制 可經由網路70二及一顯示器52’控制單元50 服态bO包括—應用資 ^ 以儲存該控制單元50所接收及=二,服器60係用 射頻辨識監控系統運作胃料,域供及更新 該第一射頻辨識標_ 2Q < 30相同,不同點在於, /、第一射頻辨識標籤 頻辨識讀取器二=戴3?固定設置於該射 識讀取器10可持續續取,:射情况下,該射頻辨 動物4。若移動且 讀取到該第一射頻;識可同時 動物40移動且使Μ二^ 201224943 3〇離開該射頻辨識讀取@ 1〇 讀取器10僅能讀取到該第一射頻辨識:寺’該射頻辨識 常運作之情況下’該射頻辨識讀取器10;掊㈣於系統正 射頻辨識標籤20,並將訊號僂谈 寺項禎取該第一 器60則可透過該控制單5 、 ^工制單元5〇,該伺服 時地進行更新檢查 對5亥射頻辨識讀取器不定 以汽車經鎖系統為例,該射頻 ,票籤2°係設置於汽車經銷點_,★二ί第:射 輸入裝置5卜顯示器52及飼服器6。係,早7^ 50、 總部200,於系統正常運作的情況下,企業 10可持續讀取到該第一射頻辨 "員辛識頃取杰 資料經由網路70傳送至該㈣二’並且將讀取到的 該顯示器52,位於企㈣;= 並將資料顯示於 運作正常,當= 系統 移動物40)到達該汽車經鎖點 1車辅(亦即該 器Π)之讀取範圍時,該㈣=識讀取 第一射頻辨識標籤20與第二射頻辨識標 _讀取到 取到的資料經由網路7〇傳送至該控制^元Μ谁並將所讀 例如,該第-射頻辨識標籤20係針對A品牌』仃比對, ;;=2。儲存有關於該A品牌 號: 專貝枓,而该第二射頻辨識標鐵 虎j格 =:::第:心品牌車輛Si = -之資料第二射頻辨識標籤 車輛’位於該企業總部2°°之監控:員 201224943 須說明的是’該射頻辨識讀取 貝取邊第一射頻辨識標籤3〇 該第-射頻辨識標藏20,可由贫 夺’仍持續讀取 器60對射頻辨識讀取器10的更新工時C =定該飼服 .10秒或20秒,並紀錄更新時間。iu —足時段,例如 • 請同時參閱第-圖及第二圖所示 辨識監控系統之監控方法流程300,其勺八月本發明之射頻 • 斯.由空制單元50與射頻辨識讀取器I。進行至少 Λ網Γ7Τ元50與該射頻辨識讀取器 、稱70連線失敗’則執行—第一維 欠右該控制單元50與該射頻辨識讀取器W之 :f 7G連線成功,則進行後續步驟3〇2。為: 7〇是否無法連線,可將該控制單元50盘 辨識讀取器10進行複數次網路連線,: 紅制單元5G與該射頻辨識讀取器1() 路連丄、、丁第一次網路連線,若該第二次網 ^ :則進❹驟3°2,若該第二次網路 ' 、則進入该第—維修流程400,使用者 連線=定該網路7。連線之次數,以及重複 其包==圖所示’說明本發明之第-維修流請’ 步驟術:檢查該射頻辨識讀取器1〇是否為電源導通狀 201224943 則將^頻辨識讀取1 10為非電源導通狀 感則將遠射頻辨識讀 =狀 4011),使該射頻辨” 電源導通(步驟 態,若該射頻辨,^ f 10處於電源導通狀 則進行後續㈣1Q Μ源導通狀態, 步驟402 :檢查該控制單元 網路7◦連物峰間之 則檢修網路7。連線至正常連線狀‘:,:, 4021) ’若網路7〇連線正常行;^驟 =取⑸◦對第-射頻辨識標S:;=: 1第-祕一Γ讀取之步驟(第二圖所示步驟302)。 4-4修〜程之主要維修項 ^ 對該射頻辨識讀取器1〇之電源導 一了1,一係針 7〇之連線狀態,因為這二項原因是步二該網路 50與射頻辨識讀取器10無法網路連線之主要因^制早70 於完成上述二項檢修後,即可使控制單==通常 取器10之網路70順利連線,儲次 用介員辨識項 際所需增加其他維修項目。 €用者亦可依實 步驟識讀取器10對該第-射頻辨識標鐵 20之資料進行至少-次讀取, = 讀,10是否能夠讀取該第一射頻辨 ^料(步驟3021),若該射頻辨識讀取器師 法碩取該第一射頻辨識標籤2〇之資料,則執、 一第二維修流程5GG,若該射頻辨識讀取器^ 可讀取該第-射頻辨識標籤2〇之資料,則進行 201224943 後續步驟303。 請參閱第四圖所示,說 其包括以下步驟: ° x之第二維修流程500, 步驟5 01 ·•檢杳穿笛一 6 • 二 射頻辨識標籤2〇是否故障,若哕第 —射頻辨識標籤20故障,則争械_/早右4第 射頻辨識標籀' 、戒維修該第一 識標籤20沒有故广广1) ’若該第一射頻辨 步驟502.他* 則進行後續步驟502。 /驟502 .檢查項取該第 • (圖申未示出” .Γ,:識^戴2〇之讀取器天線 線至正常連接若天線鬆動,則檢修天 常,則、隹i步驟5〇2υ ’若天線連接正 、j達仃由该射頻辨識讀取器10續取第__ 頻辨識標籤30之資料之步驟取弟—射 303)。 、 乂驟(第一圖所示步驟 對該第二二:J』〇2〇〇=維立修_有二項’-係針 射頻辨識標籤20之讀取器^ ^料係g讀取該第-是步驟302中導致射頻辨識讀取:動項原因 辨識標籤20之主要因夸,、.Sa# 、…友。貝取该第一射頻 可使射頻辨識讀取器’1〇 = i完成上述二項檢修後,即 20,除此之外,使用者上」硬取該第—射頻辨識標籤 之用者亦可依貫際所需 步驟303 :由該射_ …也、礼項目。 籤30之1〇讀取該第二射頻辨識標 籤30,表二第=讀取_第二射頻辨識標 衣下,亥第二射頻辨識標籤3()尚 射頻辨識讀取器1〇之讀 〜 ,直至1買取到該第二射頻辨識標籤30 ; 201224943 若是忒第二射頻辨識標鐵 讀取器〗0之读敌0已進入该射頻辨識 步驟304 3〇發生轉,可直接對識標籤 進行維修。 亥第一射頻辨識標籤3〇 °玄控制單元5〇經由 辨識讀取器10所读二接收並處理該射頻 視该射頻辨識讀取器1〇 =鐵之貝科, 標籤而定十… 3買取乾圍内之射頻辨識 只有^ ^_識讀取器10讀取範圍内 可經由網路2辨識標藏2〇,則該控制單元50 20之資料…妾收並處理該第一射頻辨識標籤 内有”’二Γ亥射頻辨識讀取器10讀取範圍 頁-亥第-射頻辨識標籤2〇 識標籤30,牌㈣时_ c 第―射頻辨 , 、丨°亥控制早凡50可經由網路7〇接 :並處理該第一射頻辨識標籤 : 步驟305 頻辨識標籤3G之資料。 ^第-射 •路=空制單元5〇與飼服器6〇進行至少一次網 :、並判斷網路連線是否成功(步驟3⑹), d空元5〇與該飼服器6°之網路80連線 ^職行―第三祕流程_,若該控制單 :與該祠服器60之網路80連線成功,則古亥 控制單元5G將所讀取之該第二射 =料傳送並儲存於該飼服器6。之該應用紙資;; 、1中(步驟3052)。為確認網路8〇是否無法 連線’可將該控制單元5〇肖該飼服器6〇進行複 12 201224943 數次網路連線,當該控制單元50與該伺服器6〇 進行第一次網路連線失敗後,則於―段設定之時 間(例如二分鐘)後再進行第二次網路連線,若該 第二次網路連線成功,則由該控制單元⑽將^ 讀取之該第二射頻辨識標籤30之資料傳送並儲 存於該舰H 60,若·二次網路連線失敗, 則進入該第三維修流程。 請參閱第五圖所示,說明本發明 其包括以下步驟·· 牧第二祕如_, 步_ 與該飼服器6〇間之網㈣ 網,若網路8°連線不正常,則檢修 ^連線至正常連線狀態(步驟6011),若網 正常,則該控制單元5〇將所讀取= 第-射頻辨識標籤30之資料 服器60,即可完成該步驟邮。4存於_ 此外,本發明所提供之該射 所示)可設置警示裝置53,該邀=控⑽(儒第圖 單元50,當該控制單元5G㈣ '、置53可連接於該控制 7〇連線失敗,或該射頻辨射頻辨識讀取器Μ之網路 頻辨識標籤20之^料,或^貝取f 1〇無法讀取該第一射 網路失敗時該飼服器6〇之 如,可於該顯示器52發出、 °冬出警不訊號,例 置發出警示,可使管理厂、子矾號,或觸動警鈴等聲光裝 综上所述;Π:逮得知系統異常。 監控方法,於射頻f =提供之射頻辨識監控系統及 貝辨識監控系統中設置-檢測用之射頻辨 201224943 識標籤,作為快速檢測系統錯誤之依據,達到簡化偵錯過 程,減少偵錯時間之目的,且其系統架構簡單,可附加於 原射頻辨識監控系統内。 惟以上所述者,僅為本發明之實施例而已,當不能以 之限定本發明所實施之範圍;除上述車輛配送狀態監控之 外,亦可應用於停車場進出車輛管理9或其他物品追蹤管 理等等,舉凡射頻辨識系統均可適用。即大凡依本發明申 請專利範圍所作之均等變化與修飾,皆應仍屬於本發明專 利涵蓋之範圍内,謹請貴審查委員明鑑,並祈惠准,是 所至禱。 201224943 【圖式簡單說明】 第一圖係係本發明之監控系統架構示意圖。 第二圖係本發明之監控方法流程圖。 第三圖係本發明之第一維修流程圖。 第四圖係本發明之第二維修流程圖。 第五圖係本發明之第三維修流程圖。 【主要元件符號說明】 10-射頻辨識讀取器 20-第一射頻辨識標籤 30-第二射頻辨識標籤 40-移動物 50-控制單元 60-伺服器 7 0、8 0 -網路 100-汽車經銷點 200-企業總部 300-監控方法 301 〜305、3011、3021、3051、3052-步驟 400-第一維修流程 4(Π、402、4011、402卜步驟 500-第二維修流程 5(U、502、5011、502卜步驟 600-第三維修流程 15 201224943 601、6011-步驟201224943 VI. Description of the invention: [Technical field of invention] The present invention relates to a - (four) frequency identification monitoring system and its monitoring method, in particular to a radio frequency identification monitoring system, a dish worker = iron 'as a quick catch detection system error According to the error-monitoring process, the purpose of reducing the error-correcting time is as follows: Its: “Structure is simple and can be attached to the original RF identification monitoring system. [Prior Art] ^«t,(RFID, Radl0Frequency Identlflcatlon) Wave-Auto , the technology of other items, because of the ability to quickly scan the second, high life, reusable, security, such as identification cards, property management systems, as well as library, = container identification, and road vehicle identification and automatic collection = Τ二=frequency identification system, which puts the radio frequency identification mark _:ag)5 on the item again. Then set the radio frequency identification to read and cry at the desired place, when the item passes or approaches the RFID reader. ,; the input, the reader reads the radio frequency identification, the wireless data transmission, the acquisition, the identification reader, the data transmission through the wireless or wired network, etc. The management platform usually includes Computer apparatus and computer apparatus = two RFID reader may receive the "No. 201224943 :::: the web, and the results are shown in the application or software, permeable - = more servo dimorphism. The staff is not in the state, and the update status is displayed through the display device. = The above-mentioned conventional RFID system is in operation, , ^ does not reach the scheduled location at all, or hardware, failure, or network connection = (4) software The identification tag is set to read and cry on the radio frequency identification; ^ is not correct to the RF environment factor, thus causing the reading inside, or other Chang 5A machine, benefit ... 5 to take the label, at this time, the seven batches of the company know There are conditions that fail to read the label correctly:: and = fast: the reason for the impact of the reading is different, must be for various reasons: the detection - therefore m ^ (four), are not disclosed for this - ask == view [Invention] In view of the lack of the prior art, the bamboo shooter=identification monitoring system and its monitoring method: the radio frequency identification tag for detecting the radio frequency is used as a quick-detecting system to achieve a simplified debugging process and reduce The secondary/, system, and first error wood structures are early and can be added to the original RF identification monitoring system. In order to achieve the above object, the present invention includes: a radio frequency identification monitoring system, a radio frequency identification reader having a read reader for reading the radio frequency located in the reading range Identification material; RF identification tag 201224943 The first RFID tag is set in the RF identification. Within the reading range; the second radio frequency identification tag of the fly 3 is set on a moving object, and the system: mobilely carries the second radio frequency identification tag into or out, and recognizes the reading range of the reader. : The radio frequency control unit is configured to receive and connect to the radio frequency identification read control unit via the network connection, and to identify the item identification tag and the second The information of the radio frequency identification standard rail; = the first radio frequency one-feeding device' is a network and the control unit is used to store the control unit's electricity, "妾, the servo 'Daizhi Beike, and provide and update The application or software identified by the (4) identification is determined by the operation of the control system. To achieve the above objectives, the monitoring method of the present invention includes: · knowing - the type of radio frequency identification monitoring system is controlled by the control unit and a radio frequency identification # σ connection 'The RFID reader reads the thief to perform at least the secondary network and the RFID reader network = the power consumption range, if the control unit is executed if the control unit and the radio frequency run - after the - maintenance flow is carried out Step; if the network connection is successful, the RF identification reader reads the line at least once, and the data of the second RF identification tag is within the reading range of the reader. The identification tag is set on the radio frequency identification first radio frequency identification tag, and the two-frequency identification reader cannot read the radio frequency identification reader to read two: D-second maintenance process ''RF identification tag data , 201224943, a subsequent step; reading, by the RFID reader, a second material, the second RFID tag is set on the reading range of the 4 iron reader of the mobile object; the frequency of the private iron Entering or leaving the radio frequency identification to continue receiving and processing the radio frequency identification reading library and the data of the second radio frequency identification tag; t-radio identification is performed by the control unit and a server at least once = If the server network connection fails, execute - the = dimension: process, if the control unit and the servo enter: =:===_ more [implementation] The following will be attached to the _ Silk describes the effect of the present invention, and the second embodiment listed in the following figure The 22nd member understands 'but the technical means of this case is not limited to the T-picture. The radio frequency identification monitoring system provided by the present invention, ::, t must include a radio frequency identification reader 10, a first-radio The identification mark paper 20, the first radio frequency identification tag 30, a control unit 50, and a servo 201224943. The mobile object 4〇 can be disposed on a moving object for the vehicle identification surface, and is set to be required: ^ Person or animal, the location of the RF reader 10 handle, for example, 'If the vehicle is located at the lock point of the car, the mobile or the animal passes through the door reader. Set in the person identification standard = device 2: 匕有-read Fan Park, the first - radio frequency identification, the reading range of the mobile object reader 进入 enters or leaves the __ (four) m second RFID tag The unit 10 is electrically connected to the reader 10, and the control can be controlled via the network 70 and the display 52'. The control unit 50 includes the application information to store the control unit 50 and the second control unit. The server 60 uses the radio frequency identification monitoring system to operate the stomach material, and the domain provides and updates the first shot. The identification mark _ 2Q < 30 is the same, the difference is that /, the first radio frequency identification tag frequency identification reader 2 = wear 3? fixedly set in the radio reader 10 can continue to renew, in the case of shooting, The radio frequency identifies animals 4. If the first radio frequency is moved and read; the animal 40 can be moved at the same time and the ^二^201224943 3〇 leave the radio frequency identification reading @1〇 The reader 10 can only read the first radio frequency identification: the temple 'The RF identification reader 10 is in operation; the radio frequency identification reader 10; (4) is in the system positive radio frequency identification tag 20, and the signal is recorded in the first device 60 through the control unit 5, ^Working unit 5〇, the servo time to update the check to 5 Hai radio frequency identification reader is not determined by the car lock system, the radio frequency, the ticket 2 ° is set at the car dealership _, ★ two : The input device 5 is displayed on the display 52 and the feeder 6. Department, early 7^ 50, headquarters 200, in the case of normal operation of the system, the enterprise 10 can continuously read the first radio frequency identification, and the personnel information is transmitted to the (four) two' via the network 70 and The display 52 to be read is located in the enterprise (4); = and the data is displayed in normal operation, when the system mobile object 40) reaches the reading range of the car through the lock point 1 (ie, the device) , (4) = reading the first radio frequency identification tag 20 and the second radio frequency identification tag _ read to the retrieved data via the network 7 〇 to the control Μ Μ who will read, for example, the first radio The identification tag 20 is for the A brand 仃 对 , , ; == 2. Stored with the A brand number: 枓贝枓, and the second RF identification standard iron tiger j grid =:::第:心 brand vehicle Si = - the information of the second RFID tag vehicle 'located at the corporate headquarters 2 ° °Monitoring: Member 201224943 It should be stated that 'the RF identification reads the first RF identification tag of the beating edge 3〇 The first-RF identification tag 20 can be deprived by the still-reader 60 pairs of RFID readers 10 update working hours C = set the feeding service. 10 seconds or 20 seconds, and record the update time. Iu — foot time, for example • Please also refer to the monitoring method 300 of the identification monitoring system shown in the figure and the second figure. The scooping August radio frequency of the invention is provided by the air unit 50 and the radio frequency identification reader. I. Performing at least Λ Γ Τ Τ 与 与 与 与 与 与 与 射频 射频 称 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 Carry out the next step 3〇2. If: 7〇 is unable to connect, the control unit 50 can recognize the reader 10 to perform multiple network connections: the red unit 5G and the radio frequency identification reader 1 () The first network connection, if the second network ^: then step 3 ° 2, if the second network ', then enter the first - maintenance process 400, the user connection = set the network Road 7. The number of connections, and repeating the package == shown in the figure to illustrate the first maintenance flow of the present invention. Step: Check whether the RFID reader 1 is power-on 201224943 1 10 is the non-power-conducting sense, then the remote radio frequency identification read = shape 4011), so that the radio frequency identification "power supply is turned on (step state, if the radio frequency is recognized, ^ f 10 is in the power-on state, then the subsequent (four) 1Q source conduction state Step 402: Check the network 7 of the control unit network 7 between the peaks of the connection peaks. Connect to the normal connection line ':,:, 4021) 'If the network 7〇 connection is normal; ^ = Take (5) ◦ for the first-RF identification S:; =: 1 The first-secret reading step (step 302 shown in the second figure). 4-4 repair ~ the main maintenance items ^ The radio frequency identification The power supply of the reader 1 is connected to one, and the connection state of the pin 7 is the main reason. Because of the two reasons, the main reason why the network 50 and the RFID reader 10 cannot be connected to the network is ^ After completing the above two maintenance, the system can make the control unit == the network 70 of the normal taker 10 smoothly connected, and the storage member identification item Additional maintenance items need to be added. The user can also read the data of the first radio frequency identification tag 20 at least once, according to the actual reading device 10, = read, 10 can read the first radio frequency Identifying the material (step 3021), if the RFID reader masters the data of the first RFID tag 2〇, then the second maintenance process 5GG, if the RFID reader can be read The data of the first RFID tag 2〇 is carried out in 201224943. Step 303 is as follows. Please refer to the fourth figure, which includes the following steps: ° 2nd maintenance process 500, step 5 01 ·•Checking the flute A 6 • 2 radio frequency identification tag 2〇 is faulty, if the first - radio frequency identification tag 20 is faulty, then the weapon _ / early right 4 the first radio frequency identification tag ', the maintenance of the first identification tag 20 is not so wide 1 'If the first radio frequency identification step 502. he* then proceeds to the next step 502. / Step 502. Check the item to take the number (Fig. not shown). Γ,: Read the antenna antenna Line to normal connection If the antenna is loose, the maintenance is frequent, then, 隹i step 5〇2υ 'If the antenna is connected N, j of the Ding the RFID reader 10 continuously take the first step __ frequency identification tag 30 of the taken data Di - exit 303). Steps (the steps shown in the first figure are for the second two: J) 〇 2 〇〇 = wei Lixiu _ there are two items - the needle of the radio frequency identification tag 20 reader ^ ^ material g read The first is the radio frequency identification reading in step 302: the main cause of the motion identification tag 20 is the main reason, the .Sa#, ... friends. The first radio frequency can be used to make the radio frequency identification reader '1〇= i complete the above After the two repairs, that is, 20, in addition, the user can hardly take the first-RF identification tag, and the user can also follow the steps 303: by the shot _ ..., the ceremony item. 1) reading the second radio frequency identification tag 30, the second reading = the second radio frequency identification tag, the second radio frequency identification tag 3 () is still reading the radio frequency identification reader 1 ~, until 1 buy the second radio frequency identification tag 30; 201224943 If the second radio frequency identification tag reader 00 0 read enemy 0 has entered the radio frequency identification step 304 3 〇 turn, you can directly repair the identification tag. The first radio frequency identification tag 3〇° control unit 5〇 receives and processes the radio frequency via the read reader 10 to read the radio frequency identification read. Take 1〇=Iron Beck, the tag depends on 10... 3Buy the radio frequency identification in the dry circumference only ^ ^_ Reader 10 can read the identification 2 via the network 2 within the reading range, then the control The information of the unit 50 20...receives and processes the first radio frequency identification tag with "'2 Γ 射频 射频 射频 射频 - - - - - - - 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频 射频c------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- 5〇 and the feeding machine 6〇 at least once: and judge whether the network connection is successful (step 3 (6)), d empty 5 〇 and the feeding machine 6 ° network 80 connection line - the first line The third secret process_, if the control list: is successfully connected to the network 80 of the server 60, the Guhai control unit 5G transmits and stores the read second shot material in the feeding device 6 The application paper;;, 1 (step 3052). In order to confirm whether the network 8〇 can not be connected, the control unit 5 can be used to complete the service. 4943 After several network connections, after the first network connection failure between the control unit 50 and the server 6〇, the second network is performed after the time set by the segment (for example, two minutes). Connected, if the second network connection is successful, the control unit (10) transmits and stores the data of the second radio frequency identification tag 30 read by the control unit (10) on the ship H 60, if the secondary network connection If the line fails, the third maintenance process is entered. Referring to the fifth figure, the present invention includes the following steps: · the second secret such as _, step _ and the net of the feeding device (4), If the network 8° connection is abnormal, the maintenance is connected to the normal connection state (step 6011). If the network is normal, the control unit 5 will read the data server of the first-radio identification tag 30. 60, you can complete this step. 4 stored in _ in addition, the present invention provides a warning device 53 can be set, the invitation = control (10) (Russ diagram unit 50, when the control unit 5G (four) ', the set 53 can be connected to the control 7〇 If the connection fails, or the radio frequency identification reader is not able to read the first radio network failure, the feeding device 6 It can be issued on the display 52, and the warning signal is issued in winter. The warning is issued, which can make the sound management of the management factory, the sub-nickname, or the alarm bell, etc.; Π: catch the system abnormality. The method, in the radio frequency identification monitoring system provided by the radio frequency f= and the radio frequency identification 201224943 identification label for the detection and detection system, is used as a basis for quickly detecting the system error, thereby simplifying the debugging process and reducing the time for detecting the error. The system architecture is simple and can be added to the original radio frequency identification monitoring system. However, the above description is only an embodiment of the present invention, and the scope of the present invention cannot be limited thereto; In addition, it can also be applied Parking lot entry and exit vehicle management 9 or other item tracking management, etc., all RF identification systems can be applied. That is, all the equivalent changes and modifications made by the patent application scope of the present invention should still fall within the scope covered by the patent of the present invention. Your review board member's briefing, and praying for the right, is the prayer. 201224943 [Simple diagram of the diagram] The first diagram is a schematic diagram of the monitoring system architecture of the present invention. The second diagram is a flow chart of the monitoring method of the present invention. The first maintenance flowchart of the present invention. The fourth diagram is the second maintenance flowchart of the present invention. The fifth diagram is the third maintenance flowchart of the present invention. [Main Component Symbol Description] 10-Radio Frequency Identification Reader 20 - first radio frequency identification tag 30 - second radio frequency identification tag 40 - mobile object 50 - control unit 60 - server 7 0, 80 - network 100 - car dealership point 200 - corporate headquarters 300 - monitoring method 301 ~ 305, 3011, 3021, 3051, 3052 - step 400 - first maintenance process 4 (Π, 402, 4011, 402, step 500 - second maintenance process 5 (U, 502, 5011, 502, step 600 - third maintenance process 15 201224943 601, 6011-step