Squared Euclidean Distance Research Articles

Determination of Genetic Variation in Piper Species Using 4C Nuclear DNA and RAPD Markers

The present study utilized dominant markers such as Random Amplified Polymorphic DNA (RAPD) for the evaluation of relatedness among 6 Piper species were included in this study and to ensure such technique for claiming intellectual property right (IPR) by the plant breeder. Further, the study also aimed at estimation of the genetic relatedness of these 6 morpho-agronomically contrasting species. Six Piper species were screened using RAPD with decamer primer of arbitrary sequence. Out of 100 primers screened 12 were selected which gave clear and bright fragments. DNA banding patterns generated by RAPD were recorded as ‘1’ for presence of the RAPD marker and ‘0’ for absence. Genetic distance between these 6 species was calculated based on the RAPD data set as per Squared Euclidean distances. Based on the number of bands all the species were grouped into 3 clusters and the dendrogram revealed maximum similarity between P. betel and P. longum and also in between P. nigrum and P. mullesua species, altogether forming one cluster. The standardized method can identify any of the single hybrid or species tested.

A Generalized Squared Euclidean Distance Transform with Voronoi Maps

This document describes the implementation of an algorithm that computes a generalization of the distance transform with the squared euclidean metric.The generalization allows for interesting image operators, e.g. a morphologic dilation with euclidean ball structure elements that can vary in size across the image. Voronoi maps and the standard distance transform can be computed as well.The algorithm is provided as an image processing filter for ITK. Several example programs demonstrate its applications.

RAPD profiling of some elite clones of mandarin orange (Citrus reticulata Blanco) in the North Eastern Himalayan Region of India

SummaryRandomly amplified polymorphic DNA (RAPD) markers were used to estimate the genetic diversity of 25 phenotypically elite, nucellar clones of mandarin orange (Citrus reticulata Blanco), selected from seven locations in three geographically separate states of the North Eastern Himalayan Region of India. The 15 decamer primers generated 106 randomly amplified DNA fragments that were used as the genetic markers. The Squared Euclidean Distance measurement showed 65% maximum and 11% minimum genetic dissimilarity between the plant selections. By Ward’s cluster analysis, the 25 individual plant selections were classified into two major clusters, having 15 and 10 plants each. Plants of one location were distributed within both of the two major clusters. The two major clusters were further divided into two sub-clusters each.The plants collected from three separate locations each were exclusive to these sub-clusters. Results of the analysis indicated the existence of large genetic differences among the plants of different locations and also within a single location of the region. Genetic similarity among the plants taken from geographically separated locations was also evident. The study confirms the existence of wide genetic diversity of mandarin orange plants in the North Eastern Himalyan Region of India that can be used in mandarin orange plant improvement programmes.

Assessment of genetic diversity and identification of core collection in sandalwood germplasm using RAPDs

SummarySandalwood is an economically important aromatic tree belonging to the family Santalaceae. The trees are used mainly for their fragrant heartwood and oil that have immense potential for foreign exchange. Very little information is available on the genetic diversity in this species. Hence studies were initiated and genetic diversity estimated using RAPD markers in 51 genotypes of Santalum album procured from different geographcial regions of India and three exotic lines of S. spicatum from Australia. Eleven selected Operon primers (10mer) generated a total of 156 consistent and unambiguous amplification products ranging from 200bp to 4kb. Rare and genotype specific bands were identified which could be effectively used to distinguish the genotypes. Genetic relationships within the genotypes were evaluated by generating a dissimilarity matrix based on Ward’s method (Squared Euclidean distance). The phenetic dendrogram and the Principal Component Analysis generated, separated the 51 Indian genotypes from the three Australian lines. The cluster analysis indicated that sandalwood germplasm within India constitutes a broad genetic base with values of genetic dissimilarity ranging from 15 to 91%. A core collection of 21 selected individuals revealed the same diversity of the entire population. The results show that RAPD analysis is an efficient marker technology for estimating genetic diversity and relatedness, thereby enabling the formulation of appropriate strategies for conservation, germplasm management, and selection of diverse parents for sandalwood improvement programmes.

Analysis of molecular diversity in guava using RAPD markers

SummaryRandomly amplified polymorphic DNA markers were used to estimate molecular diversity of 41 genotypes of guava consisting of five Psidium species, 23 varieties, 12 selections and a hybrid. PCR amplifiable DNA was isolated using the CTAB method, and 93 amplified fragments were obtained from eight random 10-mer primers. The genetic dissimilarity matrix calculated based on Squared Euclidean Distance revealed maximum genetic distance of 54% between the variety Mirjapur Seedling (P. guajava) and P. quadrangularis, while the minimum distance was only 11% between SWY-1 and GR-1 Navalur selections. Based on Ward's method of cluster analysis, all the individuals on the dendogram were grouped into two major clusters according to their geographical locations and species. The species were interspersed between the varieties. The present studies showed that the genetic base of Indian guava can be rated as low to moderate diversity and also indicated that various triploid seedless cultivars of guava are not genetically identical and have independent origins. All the species used in the study could be subspecies of P. guajava.

Taxonomic Revision of the South American Subspecies of the Turtle Kinosternon scorpioides

Taxonomic Revision of the South American Subspecies of the Turtle Kinosternon scorpioides

Ability of high school pupils to estimate vocational interests: Some influences of demographic factors and context

ABSTRACTThis study examines the influence of demographic factors such as age, sex, and school setting on self-estimate ability. The subjects (N = 1814) in this study were administered an interest inventory (Vocational lnterest Survey) and a self-rating scale (Work Interest Survey). Similarity between self-estimate and measured interest profiles was assessed using the correlation between individual's profiles and the squared Euclidean distance (D2), and its components (elevation, scatter, and shape by scatter). There were significant differences between boys and girls on profile parameters of elevation, the overall distance between profiles, and self-estimate ability. Girls, on the whole, were better able to estimate the pattern of measured interests (0.62), compared to boys (0.55), but the magnitude of this difference between these coefficients (i.e., 0.07) was very small. Age differences between four age groups (14, 15, 16, and those over 16 years) were small. The mean correlation at 14 years was 0.64 compared with 0.57 at 16 years and 0.4 for those over 16 years. Differences between single-sex schools and co-educational schools were the third factor considered. Girls' schools had the highest correlation between the VIS and WIS profiles (0.63), followed by co-educational schools (0.58) and boys' schools had the lowest profile correlation (0.55).

Variational Problems for Determining Optimal Paths of a Moving Facility

This paper is concerned with some variational calculus/optimization problems involving the determination of constrained optimal path functions or routes of a single moving facility, which traverses a region encompassing a set of existing facilities. Situations of this type may involve a reconnaisance plane maintaining a surveillance of certain locations, a patrol car traveling in radio contact with several stations with the possibility of being dispatched to answer service calls originating over several designated regions, or an aircraft determining a flight plan over a region containing enemy missile sites. We formulate the general problem of maximizing total benefits, or maximizing the benefits per unit travel time, subject to constraints on the travel path function. The specific problems analyzed involve a direct distance related benefit (or cost) function, employing rectilinear or squared-Euclidean distance measures, and they constrain the paths to be straight lines between parallel boundaries or across rectangular regions, with both ends free or with one end fixed, or to be general paths between fixed end-points. In each case, the problem is reduced to a finite dimensional optimization problem. Illustrative examples and computational results on a personal computer are provided, and several extensions are proposed for future research.

A squared-euclidean distance location-allocation problem

This article is concerned with the analysis of a squared-Euclidean distance location-allocation problem with balanced transportation constraints, where the costs are directly proportional to distances and the amount shipped. The problem is shown to be equivalent to maximizing a convex quadratic function subject to transportation constraints. A branch-and-bound algorithm is developed that utilizes a specialized, tight, linear programming representation to compute strong upper bounds via a Lagrangian relaxation scheme. These bounds are shown to substantially dominate several other upper bounds that are derived using standard techniques as problem size increases. The special structure of the transportation constraints is used to derive a partitioning scheme, and this structure is further exploited to devise suitable logical tests that tighten the bounds implied by the branching restrictions on the transportation flows. The transportation structure is also used to generate additional cut-set inequalities based on a cycle prevention method which preserves a forest graph for any partial solution. Results of the computational experiments, and a discussion on possible extensions, are also presented.

Trellis codes for the optical direct-detection channel

It is observed that the reduced complexity minimum distance search method of Zehavi and Wolf (1987) can be extended from codes designed using the squared Euclidean distance measure to any measure which is additive over the code branches. C.N. Georghiades (1989) has derived such a metric for codes for the direct-detection optical channel. The search method is applied to find codes for four- and eight-point overlapping pulse position modulation (OPPM), with large minimum distance and a small number of codewords at that distance.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Locating Discontinuities along Ecological Gradients

Cost-efficient ecological and natural resource surveys need: (1) flexible, logistically simple, and statistically sound sampling methods, and (2) sensitive, computationally simple, and ecologically robust data analysis methods. Gradsects (gradient-oriented transects) have recently been shown to be a more efficient sampling method than random sampling using nongradient-oriented transects, especially when surveying large, biologically diverse areas (Gillison and Brewer 1985). If biotic (e.g., vegetation) sampling is oriented along a defined environmental gradient, and the purpose is classification, then simple, efficient analysis techniques are needed. This note briefly reviews appropriate analysis techniques in order to identify ecotones or boundaries along gradsects. If the vegetation survey or resource inventory is made by sampling at fixed intervals along a steep gradient, then the sampling units (e.g., plots, quadrats, lines) may traverse different biotic zones reflecting underlying environmental (e.g., topographic, soil) discontinuities. And, if the data set obtained at each sampling unit is multivariate (e.g., many species are observed), then these data can be used to locate ecotones separating different biotic zones along the gradsect. A simple but robust method for locating the boundaries or ecotones between communities sampled along gradsects is the computation of moving split-window distances, a procedure described by Whittaker (1960) who was working on ... quantitative methods by which relative discontinuities .. might be objectively revealed from the transect tables for his Siskiyou Mountains gradsect data. The basic procedure is: (1) obtain multivariate gradsect data by sampling along a defined gradient; (2) bracket or block a set of sampling positions into a window of preassigned width (i.e., including the data for two or more adjacent sampling positions, as for calculating moving averages; Legendre and Legendre 1983:344); (3) split this window of transect samples into two equal groups; (4) average the data for each variate within each group; (5) compute a distance or dissimilarity between these two groups (Legendre and Legendre 1983:Chapter 6); (6) move the window one position further along the gradsect and compute another distance; and (7) after moving the split-window along the gradsect from one end to the other, with a distance computed for each window midpoint position, plot distances (ordinate) against gradsect positions (abscissa). Sharp, high peaks identify the location of boundaries between adjacent biotic community zones. For continuous gradations the expected graph would be . points generally at the same level, but with some zig-zag up and down due to chance variations in stand composition (Whittaker 1960). As an example, Wierenga et al. (1987) used both squared Euclidean distances (SED) and Hotelling-Lawley trace F values (HLF) with the moving split-window procedure to examine the coincidence of boundaries separating vegetation zones and soil zones along a gradsect in the northern Chihuahuan Desert. Seven vegetation zones were revealed by distance peaks (Fig. 1), which were strongly coincident with eight soil series zones. These results substantiated earlier vegetationsoil studies in the area (Stein and Ludwig 1979). A window width of 10 revealed a smoother pattern of distance peaks, whereas a width of 2 (the SED between adjacent gradsect positions) had greater sample-tosample noise, as expected. Although SED was used, several other distance coefficients were examined and gave similar results. Any one of several association, similarity, distance, or dependence coefficients (Legendre and Legendre 1983:Chapter 6) could have been used. When defining soil zones using HLF, Wierenga et al. (1987) reduced the original data set to a smaller set with principal components analysis, as described by Webster (1973). Relative to the simple computation of SED, the HLF calculation is more powerful, but HLF is more complex and is limited to fewer variables (e.g., principal components) and to wider window widths (Wierenga et al. 1987). Many variables can be used to compute SEDs, with a larger number of variables likely to produce a more accurate distance. If a large number of variables is used to compute HLF, window width must also be large, which may obscure boundaries because the window may include two or more boundaries (Webster 1973). In our analysis, varying window width from 6 to 10 did not appreciably affect the interpretation of boundary locations, only the emphasis of certain peaks. Abrupt shifts in community types are evident as high, narrow peaks (e.g., as between zones 5 and 6 in Fig. 1), whereas gradual ecotone shifts or fuzzy community boundaries are evident by wider and lower SED peaks (e.g., as between zones 3 and 4 in Fig. 1). The technique described above is generally similar, but differs inP detail from, other boundary analysis techniques described in the literature. Beals (1969) used the coefficient of dissimilarity or percentage difference (Legendre and Legendre 1983:201) to compare successive adjacent segments of five samples (a split-window with a window width of 10) for two altitudinal

Location of regional facilities

AbstractIn this paper we consider the single‐facility and multifacility problems of the minisum type of locating facilities on the plane. Both demand locations and the facilities to be located are assumed to have circular shapes, and demand and service is assumed to have a uniform probability density inside each shape. The expected distance between two facilities is calculated. Euclidean and squared‐Euclidean distances are discussed.

NUMERICAL ANALYSIS OF VOLATILE OIL DATA IN SYSTEMATIC STUDIES OF AUSTRALIAN RAINFOREST TREES

SummaryPreparatory to the use of volatile oils in systematic studies of Australian rainforest trees, a number of different techniques for handling volatile oil data are reviewed. Compared are two different schemes of character weighting (unweighted and F‐weighted), three different schemes of standardisation (unstandardised, standardisation by range, standardisation by standard deviation), and three different distance measures (Squared Euclidean Distance, Euclidean Distance, Manhattan Metric distance). It is determined empirically that, for volatile oil data, where weighting is both possible and valid, a combination of standardisation and weighting proves most effective; on the other hand, if weighting is not possible, standardisation should not be undertaken. Euclidean Distance and Manhattan Metric distance prove to be the best distance measures.

Some Properties of the Squared Euclidean Distance Location Problem1

Abstract Three properties of the squared Euclidean distance location problem are presented. Two of the properties are related to the construction of contour lines; the third property concerns the use of the method of successive displacements in solving the multifacility location problem. The properties are proven and example problems are used to illustrate the application of the properties.

A numerical study of the variation in the New Zealand erechtites arguta-scaberula complex (Senecioneae-Compositae)

Summary Thirteen numerical attributes taken from phyllaries, calycule, peduncle and florets were recorded for a sample of 65 specimens representing the New Zealand Erechtites arguta (syn. Senecio glomeratus)—Erechtites scaberula (syn. Senecio hispidulus) complex. The comparative data were subjected to computer analyses using Squared Euclidean Distance (D2 ) and Gower's Index as similarity statistics in conjunction with Nearest. Median and Furthest neighbour and Centroid (C) sorting strategies during the commissioning of ASSORT, a package of interrelated Algol procedures. The resulting agglomerative polythetic classifications conform to a basic structure exemplified by the D2 -C result. Two major groups consisting of four and five subgroups respectively were detected from the computed hierarchy. Thirteen additional characters taken from stem, leaf, involucre, corolla and achenes together with geographical data were used to show that the two major groups and only one subgroup exhibit taxonomic properties. R...