CN202916993U - GIS-based road live-action image and pavement image acquiring device - Google Patents
GIS-based road live-action image and pavement image acquiring device Download PDFInfo
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- CN202916993U CN202916993U CN 201220526140 CN201220526140U CN202916993U CN 202916993 U CN202916993 U CN 202916993U CN 201220526140 CN201220526140 CN 201220526140 CN 201220526140 U CN201220526140 U CN 201220526140U CN 202916993 U CN202916993 U CN 202916993U
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Abstract
The utility model discloses a GIS-based road live-action image and pavement image acquiring device, which comprises a high-resolution area array CCD (charge coupled device) camera and a linear array CCD camera, a high-speed video image acquisition card of the area array CCD camera , a high-speed video image acquisition card of the linear array CCD camera, a GPS (global position system) receiver, a pile number correcting mileage recorder, laser-supplementing equipment, a power supply device, a high-performance industrial control machine and a detection vehicle. The linear array CCD camera is adopted to acquire a pavement image and provides the base for estimating pavement diseases; and the high-precision GPS receiver and the pile number correcting mileage recorder are used for acquiring the geographical position and the pile number mileage information of the detection vehicle during the image detection, so that image data have geographical attributes; further road digital video image and a GIS device are integrated and the monitoring management on the road properties and the pavement based on GIS and live-action video can be realized.
Description
Technical field
The utility model belongs to transport information automatic acquisition device field.Be particularly related to based on GIS road live-action image and pavement image acquiring device.
Background technology
At present in traditional road live-action harvester, image information does not merge with geography information, most of device just by video camera with highway image information continuous acquisition and store, not only consume storage space very large, nor possesses the geography information that is complementary with image information, image is produced on the road of checking from video that can only be single, can not give with comprehensive road and produce parameter information, also inconvenience new data more, simultaneously can not be just with the application personnel to instant the searching and adding up of Road, do not reach the effective purpose of management of Asset.In addition, traditional road live-action harvester major part all is aimed at Road, and has ignored the collection of information of road surface.
Summary of the invention
The utility model proposes a kind of live-action image based on GIS and pavement image acquiring device, device comprises high resolving power Array CCD Camera and linear array CCD camera, Array CCD Camera High-speed video images capture card, linear array CCD camera High-speed video images capture card, GPS receiver, pile No. correction odometer, laser light filling equipment, electric supply installation and high-performance industrial computer, and inspection vehicle.
The technical solution of the utility model is achieved in that and comprises high resolving power Array CCD Camera and linear array CCD camera, Array CCD Camera High-speed video images capture card, linear array CCD camera High-speed video images capture card, GPS receiver, pile No. correction odometer, laser light filling equipment, electric supply installation, high-performance industrial computer and inspection vehicle, electric supply installation connects the high resolving power Array CCD Camera, Array CCD Camera connects Array CCD Camera high-speed video capture card by the USB2.0 interface, and the high-speed video capture card links to each other with the high-performance industrial computer; Linear array CCD camera connects linear array CCD camera high-speed video capture card by the USB2.0 interface, and linear array CCD camera high-speed video capture card connects the high-performance industrial computer; Electric supply installation links to each other with laser light filling equipment, laser light filling equipment connection linear array ccd video camera; The GPS receiver connects the high-performance industrial computer by USB interface; Electric supply installation is connected pile No. and proofreaies and correct odometer with the inspection vehicle wheel, pile No. is proofreaied and correct odometer and connected high-performance industrial computer and line array CCD High-speed video images capture card.Described pile No. is proofreaied and correct odometer and is comprised photoelectric encoder, CPLD and single-chip microcomputer, and the inspection vehicle wheel connects photoelectric encoder and detects axle, and photoelectric encoder connects CPLD, and CPLD connects single-chip microcomputer, and single-chip microcomputer is connected with industrial computer by serial ports.
The utlity model has following advantage:
1, the utility model has adopted Array CCD Camera and linear array CCD camera to take highway environment and pavement image, and its resolution is high, clear picture;
2, proofread and correct odometer by GPS receiver and pile No. and obtained the geography information such as longitude and latitude and mileage pile No., geography information and image information are organically combined;
3, direct information such as stack gps data, mileage value and image frame number etc. in the header of image, and it is compressed storage together, effectively saved storage space;
4, pile No. is proofreaied and correct mileage in respect of accuracy and the real-time of height, and when gathering, the mileage that is about to handle well according to calculating deposits database in.
5, it is not only simple in structure, with low cost that pile No. is proofreaied and correct odometer, and durable in use, in the time of the record mileage, also can obtain car speed, realizes multi-functional.
Therefore not only comprise cartographic information based on GIS road live-action image and pavement image acquiring device, also comprised the ground image data that meets human vision and memory habit most, so that device is considerable and comprehensive.
Description of drawings
Fig. 1 is the utility model structural representation;
Fig. 2 is that pile No. is proofreaied and correct the odometer structural drawing.
Embodiment
Comprise four high resolving power Array CCD Camera 1, high-resolution linear array CCD camera 2 of special use and battle array ccd video camera high-speed video capture card 3, GPS receiver 4 based on GIS road live-action image and pavement image acquiring device, laser light filling source 5, electric supply installation 6, pile No. are proofreaied and correct odometer 7, linear array CCD camera high-speed video capture card 8, high-performance industrial computer 9 and inspection vehicle 10.
Shown in Fig. 1,2, the high resolving power Array CCD Camera connects Array CCD Camera High-speed video images capture card 3, and area array CCD High-speed video images capture card 3 connects high-performance industrial computer 9; High-resolution linear array CCD video camera 2 connects linear array CCD camera High-speed video images capture card 8, and linear array CCD camera High-speed video images capture card 8 connects high-performance industrial computer 9; Electric supply installation 6 connects laser light filling source 5, and laser light filling source 5 connects high-resolution linear array CCD video camera 2; GPS receiver 4 connects high-performance industrial computer 9 by USB interface; Electric supply installation 6 is connected wheel and is connected pile No. and proofread and correct odometer 7 with inspection vehicle, pile No. is proofreaied and correct odometer 7 and connected high-performance industrial computer 9 and linear array CCD camera High-speed video images capture cards 2; Wherein, the novel odometer of device utility model, namely pile No. is proofreaied and correct odometer 7, and as shown in Figure 2, pile No. is proofreaied and correct odometer 7 and is comprised photoelectric encoder 11, CPLD12 and single-chip microcomputer 13.In the device line, inspection vehicle 15 wheels connect photoelectric encoder 11 and detect axle, and photoelectric encoder 11 connects CPLD12, and CPLD12 connects single-chip microcomputer 13, and single-chip microcomputer 13 is connected with high-performance industrial computer 14 by serial ports.
The various device concrete function is described below:
A. four Array CCD Camera 1 be used for the acquisition testing car the highway environment image of process.
B. the linear array CCD camera 2 main images that gather by highway pavement, and configuration lasing light emitter 5 are used for the light filling at night.
C.GPS receiver 4 is used for gathering latitude and longitude coordinates information, realizes the location of inspection vehicle 10 and road product information of road surface;
D. pile No. correction odometer 7 comprises photoelectric encoder 11, CPLD12 and single-chip microcomputer 13, mileage and the speed of coming collection vehicle to travel by step-by-step counting, and the pulse signal control linear array CCD camera high-speed video capture card 8 triggering linear array CCD cameras 2 that utilize photoelectric encoder 11 to produce carry out image acquisition, realization collection synchronizing function;
E. laser light filling source 5 provides the illumination subsidy for high-resolution linear array CCD video camera 2 specially;
F. video frequency collection card comprises two kinds, be Array CCD Camera High-speed video images capture card 3 and linear array CCD camera High-speed video images capture card 8, image pick-up card 3 is used for controlling the image/video collection of high resolving power Array CCD Camera, and image pick-up card 8 is used for controlling the image/video collection of high-resolution linear array CCD video camera;
G. electric supply installation 6 provides stabilized power source for whole device;
H. high-performance industrial computer 9 is used for installing Array CCD Camera High-speed video images capture card 3, linear array CCD camera High-speed video images capture card 8 and driving and software, is responsible for whole device collecting work.
Claims (1)
1. based on GIS road live-action image and pavement image acquiring device, it is characterized in that: it comprises high resolving power Array CCD Camera and linear array CCD camera, Array CCD Camera High-speed video images capture card, linear array CCD camera High-speed video images capture card, the GPS receiver, pile No. is proofreaied and correct odometer, laser light filling equipment, electric supply installation, high-performance industrial computer and inspection vehicle, electric supply installation connects the high resolving power Array CCD Camera, Array CCD Camera connects Array CCD Camera high-speed video capture card by the USB2.0 interface, and the high-speed video capture card links to each other with the high-performance industrial computer; Linear array CCD camera connects linear array CCD camera high-speed video capture card by the USB2.0 interface, and linear array CCD camera high-speed video capture card connects the high-performance industrial computer; Electric supply installation links to each other with laser light filling equipment, laser light filling equipment connection linear array ccd video camera; The GPS receiver connects the high-performance industrial computer by USB interface; Electric supply installation is connected pile No. and proofreaies and correct odometer with the inspection vehicle wheel, pile No. is proofreaied and correct odometer and connected high-performance industrial computer and line array CCD High-speed video images capture card.
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CN 201220526140 CN202916993U (en) | 2012-10-12 | 2012-10-12 | GIS-based road live-action image and pavement image acquiring device |
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CN 201220526140 CN202916993U (en) | 2012-10-12 | 2012-10-12 | GIS-based road live-action image and pavement image acquiring device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103318087A (en) * | 2013-06-25 | 2013-09-25 | 天津云视科技发展有限公司 | Road traffic markings auto-identification reminder for motor vehicles |
CN103778681A (en) * | 2014-01-24 | 2014-05-07 | 青岛秀山移动测量有限公司 | Vehicle-mounted high-speed road inspection system and data acquisition and processing method |
CN106803345A (en) * | 2015-04-24 | 2017-06-06 | 王栋 | A kind of data processing method of mountainous area highway road test vehicle transverse acceleration signal detecting system |
CN107391753A (en) * | 2017-08-17 | 2017-11-24 | 烟台市公路管理局 | A kind of road production vector quantization data automatic creation system and method based on GIS |
-
2012
- 2012-10-12 CN CN 201220526140 patent/CN202916993U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103318087A (en) * | 2013-06-25 | 2013-09-25 | 天津云视科技发展有限公司 | Road traffic markings auto-identification reminder for motor vehicles |
CN103778681A (en) * | 2014-01-24 | 2014-05-07 | 青岛秀山移动测量有限公司 | Vehicle-mounted high-speed road inspection system and data acquisition and processing method |
CN103778681B (en) * | 2014-01-24 | 2016-03-30 | 青岛秀山移动测量有限公司 | A kind of vehicle-mounted highway cruising inspection system and data acquisition and disposal route |
CN106803345A (en) * | 2015-04-24 | 2017-06-06 | 王栋 | A kind of data processing method of mountainous area highway road test vehicle transverse acceleration signal detecting system |
CN106803345B (en) * | 2015-04-24 | 2020-08-14 | 西安航空学院 | Data processing method of transverse acceleration signal detection system of test vehicle on mountain highway |
CN107391753A (en) * | 2017-08-17 | 2017-11-24 | 烟台市公路管理局 | A kind of road production vector quantization data automatic creation system and method based on GIS |
CN107391753B (en) * | 2017-08-17 | 2018-04-17 | 烟台市公路管理局 | A kind of road production vector quantization data automatic creation system and method based on GIS |
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Addressee: Tianjin Yongqin Technology Development Co., Ltd. Document name: Notification to Go Through Formalities of Registration |
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Granted publication date: 20130501 Termination date: 20131012 |