Alper Akar scite author profile

The main objective of the study was to examine accuracies of DEMs (Digital Elevation Models) with different topographical structures generated by using the Unmanned Aerial Vehicle (UAV) point clouds. Two different terrains with flat and sloping topographical structures were selected for the study, and DEMs of these terrains were generated using eight interpolation techniques (Kriging, Natural Neighbor, Radial Basis Function Triangulation with Linear interpolation, Nearest Neighbor, Invers Distance to a Power, Local Polynomial and Minimum Curvature). The accuracies of DEMs were tested by calculating the statistic methods with the help of the control points obtained by land surveying techniques. At the end of the study, it was observed that in DEMs prepared for both flat (study area 1) and sloping (study area 2) terrains, Kriging interpolation method yields the best results as study area 1 and 2, respectively. In addition, the results were examined using Shapiro-Wilk and ANOVA: Friedman tests. After observing with the Shapiro-Wilk test that the data has a normal distribution, it was statistically determined through the parametric ANOVA: Friedman test that there is no difference between the variables.

show abstract

Prediction of geoid undulations: Random forest versus classic interpolation techniques

Akar

Konakoǧlu

Akar

2022

Concurrency and Computation

View full text Add to dashboard Cite

Local geoid determination studies are commonly carried out today to establish the relationship between the ellipsoidal height (h)$$ (h) $$ determined by satellite geodesy methods and the orthometric height (H)$$ (H) $$ found using geoid undulation (N)$$ (N) $$. The aim of this study was to determine a local geoid using the kriging, local polynomial (LP), and inverse distance to a power (IDP) interpolation methods along with the random forest (RF) regression method and to compare the performance. For the application, 193 Global Navigation Satellite System (GNSS)/leveling points homogeneously distributed over the study area were selected as reference data, and 70 GNSS/leveling points were selected as test data. The results were compared in terms of accuracy using well‐known performance metrics, namely, the root mean square error (RMSE), mean absolute error (MAE), and coefficient of determination (R2) values. According to the results, the highest R2 and the lowest RMSE and MAE values were obtained with the RF regression method. These findings demonstrated the superiority of the RF regression over the classic interpolation methods applied in the local geoid determination for the study area.

show abstract

Local geoid determination using a generalized regression neural network and interpolation methods: A case study in Kars, Turkey

Akar

Konakoǧlu

2020

View full text Add to dashboard Cite

This study aimed to determine the most suitable local geoid model based on 641 GNSS/leveling points within the borders of Kars Province in eastern Turkey using the generalized regression neural network (GRNN), weighted average (WA), multiquadric (MQ), inverse multiquadric (IMQ) function, and local polynomial (LP) method. Among these methods used in local geoid determination, the studies conducted with the GRNN method are very limited in the literature. To test the performance of the model, 169 GNSS/leveling points were selected as test data. When selecting reference points and test points, care was taken to distribute these points homogeneously within the study area. The criteria of root mean square error (RMSE), mean absolute error (MAE), and coefficient of determination (R 2 ) were used to assess the accuracy and error rates of the results achieved using the different methods. According the results of analysis, GRNN method yielded better results than other interpolation methods. These results have showed that GRNN method can be taken into account in modeling various geodesy problems.

show abstract

SenseFly eBeeX İHA İle Üretilen Ortofotonun Konum Doğruluğunun İncelenmesi

Akar

AKAR

BAYATA

2021

View full text Add to dashboard Cite

Son yıllarda insansız hava araçlarının (İHA), hem yüksek konumsal çözünürlükte hem de çok bantlı görüntü sağlaması sayesinde bu araçların kullanımı giderek yaygınlaşmaktadır. Klasik fotogrametrik haritalama yöntemlerine göre İHA’ ların haritalama maliyetinin düşük olması, istenilen zaman ve sıklıkta görüntü elde edilebilmesi, kullanıcılar için bu araçların daha çok tercih edilmesini sağlamaktadır. Bunun yanında günümüzde İHA' lara gerçek zamanlı kinematik (GZK) konumlandırma sistemleri de takılabilmekte ve bu sayede hassas konum bilgisine sahip görüntüler elde edilebilmektedir. Bu da İHA ile üretilen fotogrametrik ürünlerin doğruluğunun, yersel ölçme yöntemleri ile elde edilen sonuçlara daha yakın olmasını mümkün kılmaktadır. Yapılan çalışmada Erzincan Binali Yıldırım Üniversitesi Yalnızbağ Yerleşkesi için SenseFly eBeeX İHA ile üretilen ortofotonun konum doğruluğunun araştırılması amaçlanmıştır. Üretilen ortofotonun konum doğruluğu için çalışma alanına rasgele ve homojen olarak dağılmış 100 nokta, görüntü üzerinde işaretlenmiştir. Bu noktaların hem hâlihazır harita üzerinden hem de ortofoto üzerinden Y ve X koordinatları alınmış ve koordinat farklarından ortofotonun konum doğruluğu hesaplanmıştır. Sonuç olarak üretilen ortofotonun konum doğruluğu Y ve X yönlerinde my = ± 1.0 cm, mx = ± 0.8 cm, yatayda ise mk = ±1.3 cm olarak hesaplanmıştır. Bu sonuç bize üretilen ortofotonun birçok mühendislik projesinde altlık olarak kullanılabileceğini göstermiştir.

show abstract

Improving the accuracy of random forest‐based land‐use classification using fused images and digital surface models produced via different interpolation methods

Akar

2021

Concurrency and Computation

View full text Add to dashboard Cite

Land-use maps produced with high accuracy are extremely important as a basis for better use of the land as they are widely utilized in many areas such as agricultural policies, natural resources management, and environmental operations. This study aimed to produce a high accuracy land-use map using digital surface models (DSMs) produced using different interpolation methods and a random forest (RF) classifier. High spatial resolution Triplesat-2 images, Worldview-2 (WV-2) images, and unmanned aerial vehicle (UAV) images were used in this study. First, DSMs were produced from the point cloud using different interpolation methods. The image fusion process was applied and these fused images were classified using an RF classifier together with the DSMs. Overall results showed that the DSM obtained by the kriging method yielded better results than the other methods by increasing the classification accuracy by 7%-13%. In addition, the McNemar test was applied to the images resulting from the classification of fused images with and without using DSMs to investigate the statistical significance of the differences. McNemar test demonstrated that the 𝜒 2 values were greater than 3.84, which revealed that the DSM produced via kriging interpolation had significantly increased the classification accuracy at a 95% confidence interval.

show abstract

Prediction of geoid undulation using approaches based on GMDH, M5 model tree, MARS, GPR, and IDP

Konakoǧlu

Akar

2022

Acta Geod Geophys

View full text Add to dashboard Cite

Elazığ ve Çevresindeki İllerde Meydana Gelen Tektonik Hareketlerin TUSAGA-Aktif İstasyonlarının Konumlarına Etkisinin Statik Deformasyon Modeller Kullanılarak İncelenmesi

Konakoǧlu

Akar

2021

View full text Add to dashboard Cite

Aktif (TUSAGA-Aktif) projesi, KKTC ve Türkiye dâhil olmak üzere toplam 158 adet sabit istasyon ile kullanıcılarına hizmet vermektedir. Oluşturulan bu GNSS ağı yardımıyla depremlerin neden olduğu hareketler etkin bir şekilde belirlenebilmektedir. Doğu Anadolu Fay Zonu (DAFZ) üzerinde 04 Nisan 2019 (5.2 Mw), 27 Aralık 2019 (4.8 Mw) ve 24 Ocak 2020 (6.5 Mw) tarihlerinde meydana gelen depremlerin, bu fay zonuna yakın ve çevre illerde bulunan TUSAGA-Aktif istasyonlarını etkilediği düşünülmüştür. Bu kapsamda mevcut TUSAGA-Aktif istasyon noktalarından bölgesel bir GNSS ağı (ADY1, ARPK, BING, DIYB, ELAZ, ERGN, MALY, SIV1 ve TNCE) oluşturulmuş ve ağda bulunan istasyonların hareketleri periyodik olarak incelenmiştir. Yer değiştirme miktarlarını ve yönlerini tespit etmek için jeodezik statik deformasyon modellerinden 2 Ölçütü ve IWST (İteratif Ağırlıklı Benzerlik Dönüşümü) kullanılmıştır. Yapılan değerlendirme sonucunda her iki yöntemin birbirlerine yakın sonuçlar verdiği belirlenmiştir. En büyük hareket ELAZ istasyonunda 03 Ocak 2019 ile 25 Ocak 2020 periyotları arasında yatay doğrultuda yaklaşık 5.5 cm (güneybatı), düşey doğrultuda ise yaklaşık 3 cm (yukarı) olarak belirlenmiştir. Diğer TUSAGA-Aktif istasyonlarında özellikle 24 Ocak 2020 tarihinde 6.5 Mw büyüklüğünde meydana gelen depremden etkilendiği ve yatay doğrultuda yaklaşık 1-2 cm' ye varan hareketlerin olduğu tespit edilmiştir.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Alper Akar

Improving classification accuracy of spectrally similar land covers in the rangeland and plateau areas with a combination of WorldView-2 and UAV images

Evaluation of Accuracy of Dems Obtained From Uav-Point Clouds for Different Topographical Areas

Prediction of geoid undulations: Random forest versus classic interpolation techniques

Local geoid determination using a generalized regression neural network and interpolation methods: A case study in Kars, Turkey

SenseFly eBeeX İHA İle Üretilen Ortofotonun Konum Doğruluğunun İncelenmesi

Improving the accuracy of random forest‐based land‐use classification using fused images and digital surface models produced via different interpolation methods

Prediction of geoid undulation using approaches based on GMDH, M5 model tree, MARS, GPR, and IDP

Elazığ ve Çevresindeki İllerde Meydana Gelen Tektonik Hareketlerin TUSAGA-Aktif İstasyonlarının Konumlarına Etkisinin Statik Deformasyon Modeller Kullanılarak İncelenmesi

Contact Info

Product

Resources

About