Analysis of multispectral signatures and investigation of multi-aspect remote sensing techniques

Two major aspects of remote sensing with multispectral scanners (MSS) are investigated. The first, multispectral signature analysis, includes the effects on classification performance of systematic variations found in the average signals received from various ground covers as well as the prediction of these variations with theoretical models of physical processes. The foremost effects studied are those associated with the time of day airborne MSS data are collected. Six data collection runs made over the same flight line in a period of five hours are analyzed, it is found that the time span significantly affects classification performance. Variations associated with scan angle also are studied. The second major topic of discussion is multi-aspect remote sensing, a new concept in remote sensing with scanners. Here, data are collected on multiple passes by a scanner that can be tilted to scan forward of the aircraft at different angles on different passes. The use of such spatially registered data to achieve improved classification of agricultural scenes is investigated and found promising. Also considered are the possibilities of extracting from multi-aspect data, information on the condition of corn canopies and the stand characteristics of forests

The influence of multispectral scanner spatial resolution on forest feature classification

Inappropriate spatial resolution and corresponding data processing techniques may be major causes for non-optimal forest classification results frequently achieved from multispectral scanner (MSS) data. Procedures and results of empirical investigations are studied to determine the influence of MSS spatial resolution on the classification of forest features into levels of detail or hierarchies of information that might be appropriate for nationwide forest surveys and detailed in-place inventories. Two somewhat different, but related studies are presented. The first consisted of establishing classification accuracies for several hierarchies of features as spatial resolution was progressively coarsened from (2 meters) squared to (64 meters) squared. The second investigated the capabilities for specialized processing techniques to improve upon the results of conventional processing procedures for both coarse and fine resolution data

Wheat classification exercise, using 11 June 1973, ERTS MSS data for Fayette County, Illinois (for CITARS task)

The prime emphasis was on classification of pixels in field centers, away from boundary effects. Results were encouraging in both training and test field centers for wheat and other major types of vegetation present. However, the location of fields was found to be a serious problem and it was even more difficult to select field-center pixels for fields of sizes less than 20 acres (or even larger, depending upon field shape) for use in the field-center analysis. The majority of fields in the segment are less than 20 acres in size. ERTS-1 data were received on 12 September 1973. Ground truth information and aerial photography were received on 9 and 15 September. The data were analyzed and processed digitally using the ERIM multispectral software system

Economic evaluation of crop acreage estimation by multispectral remote sensing

The author has identified the following significant results. Photointerpretation of S190A and S190B imagery showed significantly better resolution with the S190B system. A small tendancy to underestimate acreage was observed. This averaged 6 percent and varied with field size. The S190B system had adequate resolution for acreage measurement but the color film did not provide adequate contrast to allow detailed classification of ground cover from imagery of a single date. In total 78 percent of the fields were correctly classified but with 56 percent correct for the major crop, corn

Rancang Bangun Aplikasi MusicMoo dengan Metode MIR (Music Information Retrieval) pada Modul Mood, Genre Recognition, dan Tempo Estimation

Saat ini, metode pemanggilan kembali informasi suatu musik atau yang sering disebut Music Information Retrieval (MIR) telah banyak diterapkan. Contohnya pada suatu aplikasi Shazam ataupun SounHound. Kedua aplikasi ini hanya menangani sebatas suatu lagu berjudul apakah ketika diperdengarkan. Untuk itu, tujuan penelitian ini adalah pengembangan lebih lanjut MIR yang lebih spesifik lagi, yaitu melakukan pemanggilan informasi lagu yang terkait kembali beserta detail lagu di antaranya adalah mood, genre, dan tempo lagu. Penelitian ini memakai ekstraksi fitur berbasis MPEG-7 yang oleh library Java bernama MPEG7AudioEnc. Hasil ekstraksi fitur ini berupa metadata dalam bentuk angka digital yang merepresentasikan karakteristik suatu sinyal pada tiap fiturnya. Setelah fitur didapatkan, tahap berikutnya adalah melakukan pengambilan suatu fitur sesuai dengan masing-masing modul dengan metode Xquery yang diimplementasikan oleh library Java bernama BaseX. Fitur yang diambil dipakai untuk proses pengolahan dengan Discrete Wavelet Transform (DWT) beserta level dekomposisi terbaik oleh library Python bernama Pywt. Setelah fitur-fitur diproses, maka dilakukan penggabungan fitur pada suatu list beserta penyamaan panjang fitur untuk proses klasifikasi. Tahap terakhir adalah melakukan klasifikasi dengan menggunakan Support Vector Machine (SVM). Terdiri dari 2 tahap yaitu tahap training dan prediksi. Hasil akurasi keberhasilan pada penelitian ini untuk modul mood 75%, genre 87,5% dan tempo 80%

Rancang Bangun Aplikasi MusicMoo dengan Metode MIR (Music Information Retrieval) pada Modul Mood, Genre Recognition, dan Tempo Estimation

Saat ini, metode pemanggilan kembali informasi suatu musik atau yang sering disebut Music Information Retrieval (MIR) telah banyak diterapkan. Contohnya pada suatu aplikasi Shazam ataupun SounHound. Kedua aplikasi ini hanya menangani sebatas suatu lagu berjudul apakah ketika diperdengarkan. Untuk itu, tujuan penelitian ini adalah pengembangan lebih lanjut MIR yang lebih spesifik lagi, yaitu melakukan pemanggilan informasi lagu yang terkait kembali beserta detail lagu di antaranya adalah mood, genre, dan tempo lagu. Penelitian ini memakai ekstraksi fitur berbasis MPEG-7 yang oleh library Java bernama MPEG7AudioEnc. Hasil ekstraksi fitur ini berupa metadata dalam bentuk angka digital yang merepresentasikan karakteristik suatu sinyal pada tiap fiturnya. Setelah fitur didapatkan, tahap berikutnya adalah melakukan pengambilan suatu fitur sesuai dengan masing-masing modul dengan metode Xquery yang diimplementasikan oleh library Java bernama BaseX. Fitur yang diambil dipakai untuk proses pengolahan dengan Discrete Wavelet Transform (DWT) beserta level dekomposisi terbaik oleh library Python bernama Pywt. Setelah fitur-fitur diproses, maka dilakukan penggabungan fitur pada suatu list beserta penyamaan panjang fitur untuk proses klasifikasi. Tahap terakhir adalah melakukan klasifikasi dengan menggunakan Support Vector Machine (SVM). Terdiri dari 2 tahap yaitu tahap training dan prediksi. Hasil akurasi keberhasilan pada penelitian ini untuk modul mood 75%, genre 87,5% dan tempo 80%

Pengembangan Metode Analogy Untuk Estimasi Biaya Rancang Bangun Perangkat Lunak

The important aspect of planning and managing software development project is to estimate the cost of a project. There are several methods for estimating the cost of a software development project, and the Analogy method is a method which gives relatively better estimates. This paper shows that the modified Analogy method selects a closer project reference, estimates more accurate project effort and cost. This study enhances the cost estimate technique by including valid and complete cost parameters, therefore the estimate of a project cost is better than the result of the standard Analogy method

Assessment of existing steel frames: Numerical study, pseudo-dynamic testing and influence of masonry infills

Most of existing steel multi-storey frames in Europe have been designed before the introduction of modern seismic design provisions, hence they often exhibit low performance under earthquake loads due to their low lateral resistance and energy dissipation capacity. In addition, such structures often include rigid and brittle masonry infill walls that highly influence their lateral response and distribution of damage pattern. However, current procedures for the assessment of existing steel buildings in Europe, included in the Eurocode 8 – Part 3 (EC8–3), do not provide adequate guidance for the assessment of ‘weak’ steel frame with masonry infill walls. Moreover, most of available modelling approaches of masonry infills formerly developed for reinforced concrete (RC) structures do not properly represent the behaviour of infill walls in steel frames. An improved numerical has to be provided to satisfactorily mimic infill walls' behaviour in steel moment frames. To this end, an experimental and theoretical study was carried out within the framework of HITFRAMES (i.e., HybrId Testing of an Existing Steel Frame with Infills under Multiple EarthquakeS) SERA project. This paper firstly presents the limitations of current EC8–3 by conducting a code-based assessment on a case study steel moment frame using pushover analysis. Three different single strut models, widely used for simulating the presence of masonry infills in RC structures, are considered for the numerical analyses. The paper also presents the results of pseudo-dynamic (PsD) tests performed on a large-scale 3D steel frame with masonry infills. The capability of the different masonry infill models is successively evaluated by comparisons between numerical and experimental results. On the basis of the obtained results, recommendations on how to potentially improve the single strut model for masonry infills surrounded by steel frames are also provided

A New Family of Jumonji C Domain-Containing KDM Inhibitors Inspired by Natural Product Purpurogallin

Aberrant epigenetic modifications are involved in cancer development. Jumonji C domain-containing histone lysine demethylases (KDMs) are found mainly up-regulated in breast, prostate, and colon cancer. Currently, growing interest is focusing on the identification and development of new inhibitors able to block the activity of KDMs and thus reduce tumor progression. KDM4A is known to play a role in several cellular physiological processes, and was recently found overexpressed in a number of pathological states, including cancer. In this work, starting from the structure of purpurogallin 9aa, previously identified as a natural KDM4A inhibitor, we synthesized two main sets of compound derivatives in order to improve their inhibitory activity against KDM4A in vitro and in cells, as well as their antitumor action. Based on the hypothetical biogenesis of the 5-oxo-5H-benzo[7]annulene skeleton of the natural product purpurogallin (Salfeld, 1960; Horner et al., 1961; Dürckheimer and Paulus, 1985; Tanaka et al., 2002; Yanase et al., 2005) the pyrogallol and catechol units were first combined with structural modifications at different positions of the aryl ring using enzyme-mediated oxidative conditions, generating a series of benzotropolone analogs. Two of the synthetic analogs of purpurogallin, 9ac and 9bc, showed an efficient inhibition (50 and 80%) of KDM4A in enzymatic assays and in cells by increasing levels of its specific targets, H3K9me3/2 and H3K36me3. However, these two compounds/derivatives did not induce cell death. We then synthesized a further set of analogs of these two compounds with greater structural diversification. The most potent of these analogs, 9bf, displayed the highest KDM4A inhibitory enzymatic activity in vitro (IC50 of 10.1 and 24.37 μM) in colon cancer cells, and the strongest antitumor action in several solid and hematological human cancer cell lines with no toxic effect in normal cells. Our findings suggest that further development of this compound and its derivatives may lead to the identification of new therapeutic antitumor agents acting through inhibition of KDM4A

Decay Constants of Heavy-Light Mesons

The decay constants of the heavy-light pseudoscalar mesons are studied in a high statistics run using the Wilson action at $\beta=6.0$ and $\beta=6.2$, and the clover action at $\beta=6.0$. The systematics of $O(a)$ discretisation errors are discussed. Our best estimates of the decay constants are: $f_D$ = 218(9) MeV, $f_D/f_{Ds}$ = 1.11(1) and we obtain preliminary values for $f_B$.Comment: at the Dallas Lattice Conference, October 1993. 3 pages in a single postscript file, uuencoded form. Rome Preprint 93/98