现代测绘
現代測繪
현대측회
MODECN SUIVEYING AND MAPPING
2014年
4期
14-17
,共4页
王力%李广云%李森%杨凡%李明磊
王力%李廣雲%李森%楊凡%李明磊
왕력%리엄운%리삼%양범%리명뢰
3D激光扫描仪%秒脉冲%时间同步%参数标定
3D激光掃描儀%秒脈遲%時間同步%參數標定
3D격광소묘의%초맥충%시간동보%삼수표정
3D laser scanning%PPS%time synchronization%parameter calibration
移动激光扫描技术是从上世纪90年代初逐步发展起来的一门测绘技术,也是当今测绘界最为前沿的技术之一,可用于工程测量和制图等诸多领域。地面3D激光扫描仪具有测量速度快,精度高等优点。本文以奥地利RIEGL公司的地面三维激光扫描仪VZ400为例,研究将其作为移动测量系统的主要传感器所涉及的关键技术,包括联机控制、时间基准统一和空间基准统一三个方面:解析了激光扫描仪的接口定义,并结合联机控制的开发库---RiVLIB实现的仪器的联机控与数据通信;给出了基于GPS秒脉冲信号的时间同步原理,实现了系统时间基准的传递与统一;分析了移动测量系统中的坐标系,并根据地面三维激光扫描仪的实际情况,构建了单站的参数标定模型。通过本文的研究与实验,使测量系统实现常见移动测量的二维帧扫描模式以及针对重点区域的三维全景扫描模式,同时,当它闲置时还可将激光扫描仪拆卸进行静态的扫描,丰富了系统的测量方式,提高了系统的适应性与使用效率。
移動激光掃描技術是從上世紀90年代初逐步髮展起來的一門測繪技術,也是噹今測繪界最為前沿的技術之一,可用于工程測量和製圖等諸多領域。地麵3D激光掃描儀具有測量速度快,精度高等優點。本文以奧地利RIEGL公司的地麵三維激光掃描儀VZ400為例,研究將其作為移動測量繫統的主要傳感器所涉及的關鍵技術,包括聯機控製、時間基準統一和空間基準統一三箇方麵:解析瞭激光掃描儀的接口定義,併結閤聯機控製的開髮庫---RiVLIB實現的儀器的聯機控與數據通信;給齣瞭基于GPS秒脈遲信號的時間同步原理,實現瞭繫統時間基準的傳遞與統一;分析瞭移動測量繫統中的坐標繫,併根據地麵三維激光掃描儀的實際情況,構建瞭單站的參數標定模型。通過本文的研究與實驗,使測量繫統實現常見移動測量的二維幀掃描模式以及針對重點區域的三維全景掃描模式,同時,噹它閒置時還可將激光掃描儀拆卸進行靜態的掃描,豐富瞭繫統的測量方式,提高瞭繫統的適應性與使用效率。
이동격광소묘기술시종상세기90년대초축보발전기래적일문측회기술,야시당금측회계최위전연적기술지일,가용우공정측량화제도등제다영역。지면3D격광소묘의구유측량속도쾌,정도고등우점。본문이오지리RIEGL공사적지면삼유격광소묘의VZ400위례,연구장기작위이동측량계통적주요전감기소섭급적관건기술,포괄련궤공제、시간기준통일화공간기준통일삼개방면:해석료격광소묘의적접구정의,병결합련궤공제적개발고---RiVLIB실현적의기적련궤공여수거통신;급출료기우GPS초맥충신호적시간동보원리,실현료계통시간기준적전체여통일;분석료이동측량계통중적좌표계,병근거지면삼유격광소묘의적실제정황,구건료단참적삼수표정모형。통과본문적연구여실험,사측량계통실현상견이동측량적이유정소묘모식이급침대중점구역적삼유전경소묘모식,동시,당타한치시환가장격광소묘의탁사진행정태적소묘,봉부료계통적측량방식,제고료계통적괄응성여사용효솔。
Mobile laser scanning technology was gradually developed as a surveying and mapping technology from the early 1990s ,and its also one of the most cutting-edge technologies in the today's field of surveying and mapping ,which can be applied for engineering surveying and mapping ,and many other fields .Terrestrial 3D laser scanner has advantages of high speed of measurement ,high precision and etc .This paper takes Austria 's Company RIEGL's terrestrial 3D laser scanner VZ400 as example ,and study the key technology it involves as the primary sensor of mobile measurement system ,including three aspects of online control ,unity of time reference and unity of spatial reference :parsing the interface definition of laser scanner ,and achieving online control and data communications of instruments with the online-control development library-RiVLIB ;giving the theory of time synchronization based on the signal of pulses per GPS second ,and realizing the transfer and unity of system time reference ;analyzing the coordinate system of mobile measurement system ,and developing the model of single-station parameter calibration according to the actual situation of terrestrial 3D laser scanner . Through research and experiments in this paper , the measurement system can achieve a common mobile measurement in two-dimensional frame scanning mode and measurement in key areas in three -dimensional panorama scanning mode ,and at the meantime ,the laser scanner can also be disassembled for static laser scanning while idle ,which enriched the measurement of system and improved the adaptability and efficiency of the system .