TWM255406U - Environmental radiation mobile monitoring system - Google Patents
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- TWM255406U TWM255406U TW93203654U TW93203654U TWM255406U TW M255406 U TWM255406 U TW M255406U TW 93203654 U TW93203654 U TW 93203654U TW 93203654 U TW93203654 U TW 93203654U TW M255406 U TWM255406 U TW M255406U
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M255406 四、創作說明(1) 【新型所屬之技術領域】 本創作係有關一種環境輻射行動監測系統,尤指一種 具有行動輻射監測能力,其利用全球定位系統(G 1 〇 b a 1 Positioning System,GPS)定位,而將環境輻射資料透過 ‘ 封包無線電服務,即時蒐集回傳並彙總於地理資訊系統 、 (Geography I n format i on System, GIS)之技#f 。 【先前技術】 如第4圖所示,係為習用之環境輻射監測系統,由於 早期公眾行動數據網路(如G P R S、C D Μ A等)不發 達,習用環境輻射監測系統之數據貯存與轉傳係利用輻射 _ 偵測器7本身之記憶體儲存,或於偵測現場加裝電腦8 , ' 將偵測資料存入硬碟,再以數據機9傳送。 * 然此一監測系統較不便利,且難以即時回報,對於環 境輻射監測之即時狀況不易掌握,因而有加以改進之必要 〇 現今,由於全球定位系統(G P S )、地理資訊系統 (G I S )及封包無線電服務(G P R S、C D M A、P H S、W C D Μ A等)之技術大幅進步,臻於成熟,傳統 之環境輻射偵測系統著實有改良之必要。如能應用現今G P S與G P R S等技術於環境輻射監測已成趨勢,如此之 ® 運用非但可提升環境輻射監測之行動力,亦可增添資訊之 即時性,因而可以提昇遭逢輻安事件之應變能力。另一方 面,將環境輻射偵測數據與G I S系統之圖形與屬性資訊 結合,可以提昇環境輻射監測之數據處理品質與速度,方M255406 IV. Creation Instructions (1) [Technical Field to which the New Type belongs] This creation relates to an environmental radiation action monitoring system, especially a mobile radiation monitoring capability that uses the Global Positioning System (G 1 〇ba 1 Positioning System, GPS ) Positioning, and the environmental radiation data through the 'packet radio service, real-time collection and transmission back and summarized in Geographic Information System (Geography Informat i on System, GIS) technology #f. [Previous technology] As shown in Figure 4, it is a conventional environmental radiation monitoring system. Due to the underdevelopment of early public action data networks (such as GPRS, CD M A, etc.), data storage and transmission of conventional environmental radiation monitoring systems It is stored in the memory of the radiation detector 7 itself, or a computer 8 is installed at the detection site, and the detection data is stored in the hard disk and then transmitted by the modem 9. * However, this monitoring system is inconvenient and difficult to report in real time. It is not easy to grasp the real-time status of environmental radiation monitoring, so it is necessary to improve it. Today, due to the Global Positioning System (GPS), Geographic Information System (GIS), and packets The technology of radio services (GPRS, CDMA, PHS, WCD M A, etc.) has greatly improved and matured. The traditional environmental radiation detection system really needs to be improved. If current technologies such as G P S and G P R S can be applied to environmental radiation monitoring, then the use of ® can not only enhance the action of environmental radiation monitoring, but also increase the timeliness of information, and thus improve the resilience to radioactive incidents. On the other hand, combining environmental radiation detection data with the graphics and attribute information of the GIS system can improve the quality and speed of data processing for environmental radiation monitoring.
第6頁 M255406 四、創作說明(2) 便輻射偵測資料庫之建立,亦可增進環境輻射監測工作之 效率。 目前,國内行動通訊通話極為便利,且通話範圍涵蓋 率相當廣泛。本創作所建立之系統,可以隨時侬速地到達 指定地點,執行環境輻射監測工作;當任務執行完成’監 測數據也立即回傳整理。如此完成之環境輻射監7則成果比 傳統方式更快速、更即時、地理資訊更清晰。另,方面, 資料之傳遞完全自動化不會發生人為誤差,傳輸過程沒有 人為介入’數據更具公信力。而且透過G I S系統之整 合’對於資料後續之分析與應用,效益將可大為提升。 【新型内容】 本 環境輻 系統及 整地策 衛星的 置與標 以將偵 等為行 時上網 術,< 本 器Η P 以快4 劁作之主 射行動監 封包無線 集環境幸畐 訊號,加 準時間; 測數據與 動通訊之 之功能。 與多個監 創作初步 I c與系 地提供具 測糸統 電服務 射資料 以處理G I S 電子地 一種數 而且, 測點同 之應用 統連結 公信力 ,在於 ,其係 三種技 。G Ρ 後可以 糸統整 圖相互 擔;傳輸 本創作 時通訊 ,係以° Η Ρ 與符合 解決上述 將全球定 術整合為 S系統藉 提供接受 合圖形與 結合;G 技術,撥 之主控中 ,掌握即 普遍使用 I C靈敏 法規要求 之問題而提供一種 位系統、地理資訊 一體,便於 由接受器接 地點之準確 地理屬性資 P R S、C 接完成後即 心整合前述 時息。 的直接輻射 度南穩定性 的偵測數據 快速完 收來自 座標位 料,可DMA 達到隨 二項技 監測儀 佳,可 °如此Page 6 M255406 4. Creation Instructions (2) The establishment of radiation detection database will also improve the efficiency of environmental radiation monitoring. At present, domestic mobile communication calls are extremely convenient, and the call coverage is quite extensive. The system established by this creation can arrive at the designated place at any time and carry out environmental radiation monitoring work; when the task is completed, the monitoring data will be immediately transmitted back and arranged. The 7 results of environmental radiation monitoring completed in this way are faster, more timely, and the geographic information is clearer than traditional methods. On the other hand, the transmission of data is fully automated without human error, and there is no human intervention in the transmission process. The data is more credible. And through the integration of the G I S system, the efficiency of subsequent analysis and application of the data will be greatly improved. [New content] The installation and marking of the environmental radiation system and the land preparation satellites are based on the current Internet access technology. ≪ The main unit of the P 射 P 4 is the main launch operation monitoring packet wireless collection of environmental protection signals. Accurate time; function of measuring data and dynamic communication. Created with a number of supervisors and provided preliminary surveying and electrical services and data to process GIS electronic grounds. Moreover, the same application of measuring points connected with the credibility lies in the fact that it is three technologies. After G P, you can share the entire picture with each other; the communication when transmitting this creative is based on ° Ρ P and the solution. The above mentioned global integration is integrated into the S system by providing acceptance graphics and integration; G technology, in the main control of the dial To grasp the problems that are required by the sensitive regulations of ICs in general, and provide a bit system and geographic information integration, it is convenient to integrate the above-mentioned information with the accurate geographic attributes of the receiver ground point. The detection data of the direct radiation stability is quickly received from the coordinate position material, and DMA can be as good as the two monitors.
第7頁 M255406 四、創作說明(3) 整合之系統,可以隨時到指定之地點,執行環境輻射監 測,並將偵測結果即時回傳,有助於例行巡行輻射監測, 對於輻安事件,更可迅速準確地獲得偵測現場之輻射資 訊。因此,本創作可謂相當具有進步性與新穎性。再者, - 本創作只要利用現有儀器改裝,即可建立移動式環境輻射 、 行動監測系統,節省儀器採購與維持上之人力與物力,可 謂經濟而實用。 本創作之上述及其他目的與優點,不難從下述所選用 實施例之詳細說明與附圖中,獲得深入了解。 當然,本創作在某些另件上,或另件之安排上容許有 · 所不同,但所選用之實施例,則於本說明書中,予以詳細 說明,並於附圖中展示其構造。 【實施方式】 請參閱第1圖與第2圖,圖中所示者為本創作所選用 之貫施例結構’此僅供說明之用’在專利申請上並不受此 種結構之限制。 如第1圖所示,本創作係一種環境輻射行動監測系 統,其執行環境輻射監測與資料蒐集工作,主要係由監測 車1與主控中心2所組成;該等監測車1 ,其上裝載輻射 監測器1 1 、定位系統1 2與數據蒐集傳輸系統1 3 。該 ® 主控中心2則由地理資訊系統2 1與量測管理系統2 2組 成。 該輻射監測器1 1 ,係為Η P I C高壓游離腔,其係 固定於監測車之上,用於監測環境輻射水平。Page 7 M255406 IV. Creation Instructions (3) The integrated system can go to the designated place at any time to perform environmental radiation monitoring and return the detection results in real time, which is helpful for routine radiation monitoring. For radiation safety events, The radiation information at the detection site can be obtained quickly and accurately. Therefore, this creation is quite progressive and novel. Furthermore,-as long as this creation is modified by existing instruments, a mobile environmental radiation and action monitoring system can be established, saving manpower and material resources in instrument procurement and maintenance, which is economical and practical. The above and other objects and advantages of this creation can be easily understood from the detailed description and accompanying drawings of the selected embodiments below. Of course, this creation may differ in some other parts or arrangements of other parts, but the selected embodiment is explained in detail in this specification and its structure is shown in the drawings. [Embodiment] Please refer to FIG. 1 and FIG. 2. The structure shown in the figure is the conventional example structure used for the creation. This is for illustrative purposes only. The patent application is not limited by this structure. As shown in Figure 1, this creation is an environmental radiation action monitoring system that performs environmental radiation monitoring and data collection. It is mainly composed of monitoring vehicles 1 and the main control center 2. These monitoring vehicles 1 are loaded with Radiation monitor 1 1, positioning system 12 and data collection and transmission system 1 3. The ® master control center 2 is composed of geographic information system 21 and measurement management system 22. The radiation monitor 11 is a high pressure free chamber of ΗPIC, which is fixed on a monitoring vehicle for monitoring the level of environmental radiation.
第8頁 M255406 四、創作說明(4) 該定位系統1 2 ,其係固定於監測車之上,為一 G P S接 收儀,用以蒐集監測點之地理與時間資訊。Page 8 M255406 IV. Creation instructions (4) The positioning system 12 is fixed on the monitoring vehicle and is a GPS receiver for collecting geographic and time information of monitoring points.
如第2圖所示,該數據蒐集傳輸系統1 3係以個人數位助 理(PDA) 131為主體,其以RS — 232 PDA 序列連接埠連結該輻射監測器1 1 ,並以雙c F連接埠背 - 匣連結G P S與G P R S兩系統。該個人數位助理1 3 1 使用T C P / I P通訊協定或短訊(S M S )之傳輸模式 與特定主機傳送偵測數據。使用P D Α做為連結儀器,主 要為使整體監測系統更具有行動力,同時節省成本,提高 系統可攜性。另一方面,選用G P R S之行動數據通訊服 春 務,主要必須考量量測環境當地之網路涵蓋與傳輸速率問 題。 該個人數位助理1 3 1内含有適當程式,用以啟動輻 射監測器1 1 、定位系統1 2與G P R S ,並且將蒐集之 量測位置、時間與數據彙總傳回主控中心2或其他需要被 傳送的位置◦另一方面,該個人數位助理1 3 1亦接受主 控中心下達之命令,執行各項量測程序;或對該輻射監測 器1 1進行雙向遠端控制,俾以監控儀器之量測。 該地理資訊系統2 1 ,其位於主控中心2 ,將所有監 測點資料整合,並利用不同圖層展現不同資訊於相關圖資 β 之上。而該量測管理系統2 2 ,則規劃各項量測程序、路 線,並執行監測車輛之監控與派遣任務。 該主控中心2 ,組合地理資訊系統2 1與量測管理系 統2 2 ,提供監測車監控、派遣之管理。在大區域的應用As shown in Figure 2, the data collection and transmission system 1 3 is based on a personal digital assistant (PDA) 131. It connects to the radiation monitor 1 1 with an RS-232 PDA serial port, and uses a dual c F port. The back-box connects GPS and GPRS systems. The personal digital assistant 1 3 1 transmits the detection data to a specific host using a TCP / IP communication protocol or a short message (SMS) transmission mode. The use of P D Α as the connection instrument is mainly to make the overall monitoring system more mobile, at the same time save costs and improve system portability. On the other hand, when choosing the mobile data communication service of G P R S, it is necessary to consider the local network coverage and transmission rate in the measurement environment. The personal digital assistant 1 3 1 contains appropriate programs for activating the radiation monitor 1 1, the positioning system 12 and GPRS, and transmitting the collected measurement position, time and data to the main control center 2 or other needs to be Location of transmission ◦ On the other hand, the personal digital assistant 1 3 1 also accepts orders from the main control center to perform various measurement procedures; or performs two-way remote control of the radiation monitor 11 to monitor the Measure. The geographic information system 21, which is located at the main control center 2, integrates all the monitoring point data and uses different layers to display different information on the related map data β. The measurement management system 22 plans various measurement procedures, routes, and performs monitoring and dispatch tasks for monitoring vehicles. The main control center 2 combines geographic information system 21 and measurement management system 22 to provide monitoring and dispatch management of monitoring vehicles. Application in large area
第9頁 M255406 7、創作說明 場合,主 所構成, 息,區域 功能類似 車1互相 為達 意如第1 測車1依 於適當時 (如量測 號、G P 過個人數 通訊模組 出動載送 時,人員 心2之間 以無線網 握即時訊 本創 游離腔做 性的優點 腔做為劑 所、偵測 劑量率監 (5) 控中心 主監控 監控中 ,區域 連繫訊 上述功 圖。本 主控中 間由個 之時間 S資料 位助理 ’ 時 人員及 與監測 利用G 路技術 息,執 作之優 為連結 夕卜,而 量率監 中心、 測,因 係由一 中心負 心負責 監控中 息。 能,本 創作之 心2下 人數位 間隔與 、以及13 1 傳達主 輻射監 車1構 P R S 迅速傳 行管理 點在於 之試驗 我國環 測儀器 核能電 此本創 個主監 責擔任 顯示所 心亦可 創作之 運作方 達之量 助理1 密度) 監測過 整合G 控中心 測儀器 成無線 行動通 回主控 決策或 採用直 對象, 境輻射 ,我國 腐1都以 作之偵 控中心與多個區域監控中心 與移動監測車互相連繫訊 紀錄的訊息,兩者所提供的 透過主監控中心與移動監測 系統硬 式則為 測路線 3 1啟 。移動 程中需 P R S 2。另 進行移 網路站 訊技術 中心2 緊急應 接輻射 除了儀 偵測規 環境輻 HP I 測數據 體與訊 第3圖 前往量 動規劃 監測點 要傳遞 上網技 一方面 動式輻 ,監測 ,可即 ,方便 變措施 監測器 器本身 範中亦 射偵測 C執行 可以順 號連結方 所示,其 測地點, 之量測程 中之儀器 的訊息’ 術而形成 ,當監測 射偵測作 車1與主 時將監測 主控中心 〇 Η P I C 準確性與 指定使用 系統包括 連續直接 利地分享 式示 中監 並且 序 訊 則透 行動 車1 業 控中 數據 2掌 高壓 穩定 游離 核研 輪射 給各Page 9 M255406 7. Creation description occasions, the main composition, information, and area functions are similar to each other. Car 1 is intended to communicate with each other as in the first test. Car 1 depends on the appropriate time (such as measurement number, GP, personal data communication module, etc.). At the same time, the personnel heart 2 used the wireless network to hold the instant message to create the advantages of the free cavity. The cavity was used as the agent, and the dose rate monitor was detected. (5) The main monitoring center of the control center communicated the above power map. In the middle of the main control, there is a time S data assistant. The personnel and monitoring use G channel technology information. The superiority of the execution is connected to the Xibu, and the rate monitoring center and measurement are controlled by a center. Yes, the number of people in the creative heart 2 and the space between the 13th and 13 1 to communicate the main radiation monitoring car 1 structure PRS rapid transmission management point lies in the test of China's environmental testing equipment nuclear power The heart can also create the operating assistant's volume assistant 1 density) Monitored and integrated the G control center measuring instrument into a wireless action to return to the main control decision or use straight objects, environmental radiation, China ’s rotten The detection and control center is connected with multiple regional monitoring centers and mobile monitoring vehicles. The recorded information is provided by the main monitoring center and the mobile monitoring system. Requires P R S 2 during movement. In addition, the mobile network station technology center 2 emergency response radiation in addition to the instrument to detect the environmental radiation HP I measured data volume and information Figure 3 to the measurement planning monitoring point to pass the Internet technology on the one hand, mobile radiation, monitoring, can That is to say, it is convenient to change the measurement of the monitor itself. The radio detection C can be performed by connecting the numbers shown in the sequence, the measurement location, and the information of the instrument in the measurement process. The main control center will monitor the accuracy of the PIC and the designated use system, including continuous direct and beneficial sharing of the central monitoring system, and the sequence information will be transmitted through the mobile car, 1 industrial control data, and 2 high-pressure stable free nuclear research wheels.
第10頁 M255406 四、創作說明(6) 單位使用,具有一致 要利用現有儀器改裝 系統,節省儀器採購 作整合G 監測中, 並將偵測 透過主控 資訊有效 時到指定 傳回,有 速準確地 之揭示係 數值之變 可信賴之比較基礎。再者,本創作只 ,即可建立移動式環境輻射行動監測 與維持上之人力與物力,可謂經濟而 R S之數據傳輸方式即時且迅速,頻 整,隨需要而增加資料之傳輸速率。 照傳輸之資料ϊ而決定’沒有傳輸貢 支付高昂的行動通訊費用,可謂經濟 實用。 另 寬的指 致於連 料而保 又實惠 綜 技術應 監測之 地理定 ,即可 整合之 ,並將 於輻安 以 限制本 屬本創 由 確可達 申請。 一方面 定亦可 線費用 持連線 〇 上所述 用於環 時間與 位與監 將蒐集 系統, 偵測結 事件, 上所述 創作, 作之範 以上詳Page 10 M255406 IV. Creation instructions (6) Units are used. It is necessary to use existing instruments to modify the system, save instrument procurement for integrated G monitoring, and send the detection back to the designated when the main control information is valid. It is fast and accurate. A reliable basis for the change of the value of the earth's revealing coefficient. Moreover, this creation can only establish the human and material resources for mobile environmental radiation action monitoring and maintenance, which can be described as economical and the RS data transmission method is real-time, rapid, and frequency-efficient, increasing the data transmission rate as needed. According to the information transmitted, it ’s decided that there is no transmission tribute to pay high mobile communication costs, which can be described as economical and practical. Another broad point is that the geography of integrated technology that should be monitored and guaranteed to be affordable and comprehensive should be monitored and integrated, and will be placed in Radan to limit the originality of the original application. On the one hand, it is also possible to maintain online charges. 〇 The above is used to collect time, system, and monitors. The system will collect events, detect end events, and create as described above.
成前述 ,G P 動態調 則是依 並不需 ,本創 境輻射 地點, 測數據 的輻射 可以隨 果即時 更可迅 實施例 故舉凡 嘻。 細說明 目的, P S、 目的在 結果即 中心2 地整合 之地點 助於例 獲得監 用以說 更或等As mentioned above, the dynamic adjustment of G P is not necessary, and the radiation of measured data in this creative environment can be updated in real-time and quickly. Explain the purpose, PS, purpose in the place where the result is the integration of center 2 to help the case to obtain supervision, to say more, etc.
G I S 於確實 時回傳 之地理 展示與 ,執行 行巡行 測現場 明本創Geographical display and presentation of G I S in real time
效元件 及G P 訂出環 主控中 貢訊糸 應用。 環境輻 輻射偵 之輻射 作,並 之置換 R S等 境輻射 心2 〇 統2 1 本創作 射監測 測,對 資訊。 非用以 仍應隸 ,可使熟知本項技藝者明瞭本創作的 實已符合專利法之規定,爰提出專利Effect components and G P ordering ring Gongxun 糸 application in the main control. Environmental radiation Radiation detection of radiation, and replacement of RS, etc. Environmental radiation heart 2 〇 System 2 1 This creation of radiation monitoring, information. If it is not used, it should still be used, so that those skilled in the art can understand that the creation has actually met the requirements of the Patent Law and file a patent.
第11頁 M255406 圖式簡單說明 【圖式簡單說明】 第1圖係本創作之系統硬體與訊號連結示意圖 第2圖係本創作之數據蒐集傳輸系統 第3圖係本創作之運作流程圖 第4圖係習用之輻射監測系統 【圖號說明】 (習用部分) 輻射偵測器7 電腦8 數據機9 (本創作部分) 輻射監測器1 1 數據蒐集傳輸系統1 3 監測車1 定位系統1 2 地理資訊系統2 1 個人數位助理1 3 1 主控中心2 量測管理系統2 2Page 11 M255406 Schematic description [Schematic description] The first diagram is the system hardware and signal connection diagram of this creation. The second diagram is the data collection and transmission system of this creation. The third diagram is the operation flowchart of this creation. Figure 4 is a conventional radiation monitoring system [Description of drawing number] (conventional part) Radiation detector 7 Computer 8 Modem 9 (This creative part) Radiation monitor 1 1 Data collection and transmission system 1 3 Monitoring vehicle 1 Positioning system 1 2 Geographic Information System 2 1 Personal Digital Assistant 1 3 1 Master Control Center 2 Measurement Management System 2 2
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TW93203654U TWM255406U (en) | 2004-03-10 | 2004-03-10 | Environmental radiation mobile monitoring system |
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TW93203654U TWM255406U (en) | 2004-03-10 | 2004-03-10 | Environmental radiation mobile monitoring system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI386678B (en) * | 2009-01-20 | 2013-02-21 | Univ Chienkuo Technology | Method and system for environmental monitoring |
TWI489422B (en) * | 2012-10-26 | 2015-06-21 | Hon Tsai Technology Co Ltd | Patrolling management system |
TWI502561B (en) * | 2014-06-12 | 2015-10-01 | Environmental Prot Administration Executive Yuan Taiwan R O C | Environmental processing and output system, computer program products and methods thereof |
TWI587255B (en) * | 2014-06-12 | 2017-06-11 | Environmental Protection Administration Executive Yuan Taiwan (R O C ) | Surveyed by mobile devices and local survey methods |
-
2004
- 2004-03-10 TW TW93203654U patent/TWM255406U/en not_active IP Right Cessation
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI386678B (en) * | 2009-01-20 | 2013-02-21 | Univ Chienkuo Technology | Method and system for environmental monitoring |
TWI489422B (en) * | 2012-10-26 | 2015-06-21 | Hon Tsai Technology Co Ltd | Patrolling management system |
TWI502561B (en) * | 2014-06-12 | 2015-10-01 | Environmental Prot Administration Executive Yuan Taiwan R O C | Environmental processing and output system, computer program products and methods thereof |
TWI587255B (en) * | 2014-06-12 | 2017-06-11 | Environmental Protection Administration Executive Yuan Taiwan (R O C ) | Surveyed by mobile devices and local survey methods |
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