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(Automation of Earth Surface Extracting From Aerial LIDAR)

أتمتة فصل سطح الأرض الطبيعية انطلاقا من غمامة من نقاط الليزر الجوي

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 Publication date 2015
  fields Civil Engineering
and research's language is العربية
 Created by Shamra Editor




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Various methods have been developed to measure the location of physical objects on a landscape with high positional accuracy. A new method that has been gaining popularity is the Airborne Light Detection and Ranging (LiDAR). LiDAR works by scanning a landscape (the combination of ground, buildings, vegetation, etc.,) by multiple passes. In each scan (pass), pulses of laser light are emitted from an airborne platform and their return time is measured, thus enabling the range from the point of emission to the landscape to be determined. The product of airborne laser scanning is a cloud of points located in a 3D space. ALS is capable of delivering clouds of very dense and accurate points that represent the landscape in a relatively short time. However, in spite of the ability to measure objects with high positional accuracy, the automatic detection and interpretation of individual objects in landscapes remains a challenge. An example of such a challenge is the classification of the cloud points produced by ALS. The classification of LiDAR cloud points consists first of all of assigning the points as either object points or bare ground ones. The points labeled object points are then further classified as either buildings or vegetation. As a measurement technique, LiDAR is highly promising, research has been conducted here to automate the detection of bare ground, buildings and vegetation in LiDAR cloud points. In this Research, we describe a new automated scheme that utilizes the so-called “Edge Topology based Iterative Segmentation” (ETIS) model to classify the LiDAR points as ground and objects points. First ground seed points based on edges topology are to be selected and then the initial DTM is to be constructed, the second step is an iterative densification of the DTM using a cloud point segmentation method based on local slope parameter. General ground point filtering parameters have been used was achieved in this method, instead of scene- wise optimization of the parameters, in a way that many groups of benchmark datasets have been without changing the thresholds values. Data provided by the International Society for Photogrammetry and Remote Sensing (ISPRS) commission, have been used to compare the performance of ETIS. The new method is also tested against the 16 other publicized filtering methods. The results indicat that the proposed method is capable of producing a high fidelity terrain model.


Artificial intelligence review:
Research summary
تتناول هذه الأطروحة التي أعدها المهندس حسام سليمان لنيل درجة الدكتوراه في الهندسة المدنية من جامعة دمشق، موضوع أتمتة فصل سطح الأرض الطبيعية باستخدام بيانات الليزر الجوي المحمولة. تركز الدراسة على تطوير نموذج رقمي مؤتمت يعتمد على خوارزمية التجميع التكراري بالاستناد إلى تحليلات طبولوجيا الحواف، بهدف تصنيف غمامة الليزر إلى سطح الأرض الطبيعية وبقية الأجسام مثل العمران والغطاء النباتي. تتضمن الدراسة استنباط نقاط الأرض من الحواف ضمن المشهد وتطبيق مجموعة من تحليلات الجوار الهندسية لاستقراء السطح الأولي للأرض الطبيعية، ثم تجميع المزيد من النقاط إلى هذا السطح الأولي. تم اختبار الخوارزمية المطورة على مجموعة واسعة من المعطيات المتاحة مجاناً على موقع المؤسسة العالمية للمسح والتصوير الجوي ISPRS، وأظهرت النتائج موثوقية كبيرة في اقتطاع سطح الأرض الطبيعية النهائي. تتناول الأطروحة أيضاً مقارنة النتائج مع نتائج حديثة لمجموعة واسعة من الباحثين، وتوضح أن النموذج المقترح ETIS يحقق دقة عالية في تصنيف بيانات الليزر الجوي.
Critical review
دراسة نقدية: تعتبر هذه الأطروحة خطوة مهمة في مجال أتمتة تصنيف بيانات الليزر الجوي، حيث قدمت خوارزمية جديدة تعتمد على تحليلات طبولوجيا الحواف. ومع ذلك، يمكن الإشارة إلى بعض النقاط التي قد تحتاج إلى مزيد من البحث والتطوير. أولاً، على الرغم من أن الخوارزمية أثبتت فعاليتها في مجموعة واسعة من المعطيات، إلا أن هناك حاجة لاختبارها على بيانات أكثر تنوعاً وتعقيداً لضمان تعميم النتائج. ثانياً، يمكن تحسين النموذج من خلال دمج معطيات إضافية مثل الصور الجوية أو البيانات الأرضية لتعزيز دقة التصنيف. ثالثاً، قد يكون من المفيد تطوير واجهة مستخدم تسهل تطبيق الخوارزمية على نطاق أوسع من المستخدمين غير المتخصصين في البرمجة.
Questions related to the research
  1. ما هي التقنية الأساسية المستخدمة في هذه الأطروحة لفصل سطح الأرض الطبيعية؟

    التقنية الأساسية المستخدمة هي الليزر الجوي المحمول (LIDAR) وخوارزمية التجميع التكراري بالاستناد إلى تحليلات طبولوجيا الحواف.

  2. ما هي الخطوات الرئيسية التي تتبعها الخوارزمية المطورة في هذه الأطروحة؟

    تتضمن الخوارزمية استنباط نقاط الأرض من الحواف، تطبيق تحليلات الجوار الهندسية لاستقراء السطح الأولي، ثم تجميع المزيد من النقاط إلى هذا السطح الأولي.

  3. ما هي المعطيات التي تم اختبار الخوارزمية عليها؟

    تم اختبار الخوارزمية على مجموعة واسعة من المعطيات المتاحة مجاناً على موقع المؤسسة العالمية للمسح والتصوير الجوي ISPRS.

  4. ما هي النقاط التي يمكن تحسينها في النموذج المقترح؟

    يمكن تحسين النموذج من خلال اختبار الخوارزمية على بيانات أكثر تنوعاً وتعقيداً، دمج معطيات إضافية مثل الصور الجوية أو البيانات الأرضية، وتطوير واجهة مستخدم تسهل تطبيق الخوارزمية.


References used
Abdeldayem, Z. (2009). Exploitation of a New Filtering Algorithm for Remotely Sensed Lidar Data Using Splines, (PhD Thesis). Abo-Akel, N. A., Zilberstein, O. and Doytsher, Y. (2003). Automatic DTM extraction from dense raw lidar data. Proceedings of FIG working week 2003. April 13-17, Paris, France, 10 pages. Abo-Akel, N. A.,Zilberstein,O. and Doytsher, Y. (2004). A Robust Method Used with Orthogonal Polynomials and Road Network for Automatic Terrain Surface Extraction from LiDAR Data in Urban Areas. International Archives of Photogrammetry and Remote Sensing. 35(B3). Abo-Akel, N. A., Kremeike, K.,Sester, M., and Doytsher, Y. (2005). Dense DTM Generalization Aided by Roads Extracted from LiDAR Data. ISPRS WG III/3, III/4, V/3 Workshop "Laser scanning 2005", Enschede, the Netherlands, September.
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