環境資源報告成果查詢系統

112年度臺南市移動污染源車牌辨識稽查管制計畫

中文摘要 本計畫主要工作內容包含:車牌辨識系統操作維護及通知到檢作業、移動污染源相關宣導、統計分析資料篩選回饋、 研擬科技影像及車牌辨識系統科技化,強化高污染車輛之取締管理等,工作內容摘要如所表一示。計畫執行期程為自112年2月8日起至113年2月7日止,各項工作之分月執行成果如表二所示。 一、 計畫背景 臺南市機車設籍數為135萬5,839輛,應定檢車輛數 93萬 6,331輛,電動機車108年34,777輛至112年61,160輛提升75.9%。柴油車設籍數67,220輛,前三大區域:永康區10,339輛、安南區6,955輛、東區5,345輛,車種以小貨車(43%)最高、其次為小客車(25%)與大貨車(19%)。 二、 工作方法 機車車辨架設位置主要依據環保署每月下放未定檢不準確車籍資料,找出未定檢車輛集中地區,作為架設車辨位置。柴車車辨架設位置主要以工業區周邊道路與柴油車計畫提供之位置架設車辨設備。 三、 成果說明 計畫期程內需完成車牌辨識12萬輛,本計畫共完成車牌辨識120,180輛,機車共76,441輛及柴車43,739輛。計畫期程內需寄發機車定檢通知4.5萬張及柴車到檢通知6,500張,已寄發機車定檢通知4.5萬張與柴車到檢通知6,663張。 機車辨識方面: 目前共完成17 個行政區,以未定檢率來看,前5大行政區,仁德區(9.9%)>東區(7.7%)>玉井區(6.0%)>新市區(5.7%)>關廟區(5.5%)。 以老車未定檢率來看,前5大行政區,仁德區(31.3%)>東區(23.7%)>南區(21.1%)>南化區(13.5%)=關廟區(13.5%)。 以未定檢車流量來看(輛/天),前5大行政區,東區(53)>安南區(31)>仁德區(20)>關廟區(13)=北區(13)。 目前共完成 46 個路段,以未定檢率來看,前5大路段為仁德區中正路二段(12.2%)、東區裕農路(9.5%)、東區東門路二段(7.1%)、仁德區德崙路(6.9%)與東區林森路一段(6.8%)。 以老車未定檢率來看,前 5 大為東區裕農路(65.8%)、仁德區中正路二段(43.4%)、南區灣裡路(21.8%)、仁德區德崙路(21.7%)與仁德區文心路(19.5%)。 以未定檢車流量來看(輛/天),前5大路段為東區東門路二段(93)、東區裕農路(91)、安南區海佃路二段(44)、安南區安中路三段(40)與仁德區中正路二段(38)。 整體來看,安南區與仁德區未定檢車流量較大,針對使用中車輛查核應優先以此2個行政區優先。 柴車辨識方面: 以行政區分類:1-3期車比例較高之前三大區域為山上區37.5%、東區29.4%及佳里區28.0%;1-3期未檢驗車數量較高之區域為,佳里區16輛/天、新營區11輛/天、東區10輛/天。 以路段分類:1-3期車數量較高之前三大區域為,南區中華西路一段40輛/天、南區永成路二段27輛/天、永康區中正北路27輛/天及東區大同路二段 25輛/天。 以未檢驗分類:1-3期車數量較高之前三大區域為南區中華西路一段13輛/天、佳里區南28縣道12輛/天、山上區南178甲11輛/天。 整體來看,山上區南178甲整體未檢驗比例較高(37.6%)且數量較多(11輛/天),而新市區台19甲與仁德區德崙路雖未檢驗比例達40%以上,但數量較少,因此以路段來看,山上區南178甲較能攔查到未檢驗過之老舊柴油車,其次為新營區開元路29.1%(10輛/天) 污染地圖方面: 機車以老舊車輛分布、檢驗濃度及未定檢老車分布進行繪製,柴車以未檢驗車輛依行政區、路段進行分類繪製,以微軟大數據軟體Power Bi進行數據彙整與圖像化呈現,可制定簡單條件切換污染地圖數據。 設備更新方面: 舊車辨在機車辨識正確率約55%、柴車辨識正確率約95%;新車辨在機車辨識正確率約95%、柴車辨識正確率約97%。以機車辨識正確率提升最多(40%)。 通知寄發方面: 機車:使用中車輛回檢率相對較高,應優先針對使用中車輛寄發通知。 柴油車:各車種回檢率平均差異不大,但無車辨之車輛今年度皆無回檢,建議下年度以有車辨之柴車寄發通知。
中文關鍵字 車牌辨識、污染地圖

基本資訊

專案計畫編號 TNEPB-111-AN-31219 經費年度 112 計畫經費 6950 千元
專案開始日期 2023/02/08 專案結束日期 2024/02/07 專案主持人 鍾耀州
主辦單位 臺南市政府環境保護局 承辦人 王秀惠 執行單位 瑩諮科技(股)公司

成果下載

類型 檔名 檔案大小 說明
期末報告 112臺南市車辨計畫-期末定稿.pdf 9MB

112 Tainan City Mobile Pollution Source License Plate Recognition Audit Control Plan

英文摘要 The main work content of this project includes: operation and maintenance of the license plate recognition system and notification of inspections, publicity related to mobile pollution sources, statistical analysis data screening and feedback, development of technological images and technology of the license plate recognition system, strengthening the ban and management of highly polluting vehicles, etc. , the work content is summarized as shown in Table 1. The implementation period of the plan is from February 8, 2020 to February 7, 2013. The monthly implementation results of each work are shown in Table 2. 1. Project background The number of registered motorcycles in Tainan City is 1,355,839, and the number of vehicles that should be regularly inspected is 936,331. There are 328 motorcycle exhaust inspection stations in the jurisdiction. The number of electric motorcycles increased from 34,777 in 2010 to 61,160 in 2012, an increase of 75.9%. There are 67,220 diesel vehicles registered in the top three regions: Yongkang District 10,339 vehicles, Annan District 6,955 vehicles, and Eastern District 5,345 vehicles. The largest vehicle type is small trucks (43%), followed by passenger cars (25%) and large trucks. Trucks (19%). 2. Working methods The locations for erecting motorcycle identification systems are mainly based on the inaccurate vehicle registration data for unregular inspections released by the Environmental Protection Agency every month, and the areas where unregular inspection vehicles are concentrated are identified as locations for erecting vehicle identification systems. The location for erecting diesel vehicle identification equipment is mainly on the roads surrounding the industrial area and at locations provided by the diesel vehicle project. 3. Description of results During the project period, 120,000 vehicles need to undergo license plate recognition. This project has completed license plate recognition on a total of 120,180 vehicles, a total of 76,441 motorcycles and 43,739 diesel vehicles. During the planning period, 45,000 regular inspection notices for locomotives and 6,500 inspection notices for diesel cars need to be sent, and 45,000 regular inspection notices for locomotives and 6,663 inspection notices for diesel cars have been sent. Locomotive identification: A total of 17 administrative districts have been completed so far. In terms of unscheduled inspection rate, the top five administrative districts are Rende District (9.9%)>East District (7.7%)>Yujing District (6.0%)>Xinshi District (5.7%)>Guanmiao District (5.5%). In terms of the unscheduled inspection rate of old cars, the top five administrative districts are Rende District (31.3%)>Eastern District (23.7%)>Southern District (21.1%)>Nanhua District (13.5%)=Guanmiao District (13.5%) . In terms of unregistered traffic volume (vehicles/day), the top five administrative districts are Eastern District (53) > Annan District (31) > Rende District (20) > Guanmiao District (13) = North District (13). A total of 46 road sections have been completed so far. In terms of unscheduled inspection rate, the top five road sections are Section 2 of Zhongzheng Road in Rende District (12.2%), Yunong Road in East District (9.5%), and Section 2 of Dongmen Road in East District (7.1%). , Delun Road in Rende District (6.9%) and a section of Linsen Road in East District (6.8%). In terms of the unscheduled inspection rate of old cars, the top five are Yunong Road in East District (65.8%), Section 2 of Zhongzheng Road in Rende District (43.4%), Wanli Road in South District (21.8%), and Delun Road in Rende District (21.7%) and Wenxin Road, Rende District (19.5%). In terms of unregistered vehicle traffic volume (vehicles/day), the top five road sections are Section 2 of Dongmen Road in East District (93), Yunong Road in East District (91), Section 2 of Haidian Road in Annan District (44), and Section 2 of Annan Road in Annan District. Section 3 of Zhong Road (40) and Section 2 of Zhongzheng Road in Rende District (38). Overall, Annan District and Rende District have a larger flow of unscheduled vehicles, so these two administrative districts should be prioritized for inspections of vehicles in use. Diesel vehicle identification: Classified by administrative region: the first three areas with higher proportion of vehicles in Phases 1-3 are Shan District 37.5%, East District 29.4% and Jiali District 28.0%; the areas with higher number of uninspected vehicles in Phases 1-3 are Jiali District 16 vehicles/day, 11 vehicles/day in Xinying District, and 10 vehicles/day in East District. Classified by road section: The three areas with the highest number of vehicles in Phases 1-3 are: Section 1 of Zhonghua West Road in the Southern District 40 vehicles/day, Section 2 of Yongcheng Road in the South District 27 vehicles/day, and Zhongzheng North Road in Yongkang District 27 vehicles/day and Section 2 of Datong Road in East District, 25 vehicles/day. Classified by uninspected: Phases 1-3 have higher number of vehicles. The previous three major areas are South District Zhonghua West Road Section 13 vehicles/day, Jiali District South 28 County Road 12 vehicles/day, and Shan District South 178A 11 vehicles/day. . Overall, the overall uninspected proportion of South 178A in Shanshan District is higher (37.6%) and the number is larger (11 vehicles/day), while the uninspected proportion of Tai 19A in Xincheng District and Delun Road in Rende District reaches 40 More than %, but the number is small. Therefore, in terms of road sections, the number of uninspected old diesel vehicles in Shan District South 178A is more likely to be detected, followed by Kaiyuan Road in Xinying District at 29.1% (10 vehicles/day) Pollution map: Locomotives are drawn based on the distribution of old vehicles, inspection concentration and distribution of old vehicles that have not been regularly inspected. Diesel vehicles are drawn based on uninspected vehicles and classified according to administrative areas and road sections. Microsoft big data software Power Bi is used for data collection and graphical presentation. It can be formulated Simple conditional switching of pollution map data. Equipment updates: The accuracy of identifying old vehicles is about 55% for locomotives and about 95% for diesel vehicles; the accuracy of identifying new vehicles is about 95% for locomotives and about 97% for diesel vehicles. The accuracy of motorcycle identification has been improved the most (40%). Regarding sending notifications: Locomotives: The return inspection rate of vehicles in use is relatively high, and notifications should be sent to vehicles in use first. Diesel vehicles: There is little difference in the average return inspection rate of each vehicle type. However, vehicles without vehicle identification will not be subject to inspection this year. It is recommended that notifications be sent to diesel vehicles with vehicle identification next year.
英文關鍵字 license plate recognition, pollution map