Topics matching edge.remove

Microsoft Edge

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Microsoft Edge is a web browser developed by Microsoft. It was first released for Windows 10 and Xbox One in 2015, then for Android and iOS in 2017,[8][9] and macOS in 2019.[10] Edge includes integration with Cortana and has extensions hosted on the Microsoft Store. Unlike Internet Explorer, Edge does not support the legacy ActiveX and BHO technologies. Originally built with Microsoft's own EdgeHTML and Chakra engines, in 2019 Edge was rebuilt as a Chromium-based browser,[11][12] using the Blink and V8 engines. As part of this change (codenamed Anaheim), Microsoft has made the preview builds of Chromium-based Edge available on Windows 7, 8, 8.1 and macOS, in addition to Windows 10.[13] As of September 2019, only preview builds of Chromium-based Edge are available. According to StatCounter, Edge first managed to get more market share on traditional PCs than Internet Explorer (IE) it was replacing in August 2019 (4th place and IE 5th), with IE's share dropping, while still no single version of Edge is more p

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Flip-flop (electronics)

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An animated interactive SR latch (R1, R2 = 1 kΩ R3, R4 = 10 kΩ). In electronics, a flip-flop or latch is a circuit that has two stable states and can be used to store state information – a bistable multivibrator. The circuit can be made to change state by signals applied to one or more control inputs and will have one or two outputs. It is the basic storage element in sequential logic. Flip-flops and latches are fundamental building blocks of digital electronics systems used in computers, communications, and many other types of systems. Flip-flops and latches are used as data storage elements. A flip-flop is a device which stores a single bit (binary digit) of data; one of its two states represents a "one" and the other represents a "zero". Such data storage can be used for storage of state, and such a circuit is described as sequential logic in electronics. When used in a finite-state machine, the output and next state depend not only on its current input, but also on its current state (and hence, previous

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Digital electronics

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Computer memory

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Edge (wrestler)

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Adam Joseph Copeland (born October 30, 1973)[9] is a Canadian actor and retired professional wrestler, best known for his time with WWE under the ring name Edge. He is a member of the WWE Hall of Fame class of 2012. Copeland was trained by professional wrestlers Sweet Daddy Siki and Ron Hutchison. Throughout the 1990s, he wrestled in various United States independent promotions. During his time in these promotions, he competed in singles and tag team competition, the latter with longtime best friend Jason Reso. In 1997, Copeland signed a developmental deal with the WWF and was rebranded as the storyline brother of Christian, Reso's WWF persona. He made his televised debut the following June under the ring name Edge. In July 1999, he won the WWF Intercontinental Championship at a house show in Toronto, marking his first title reign with the company. Edge and Christian, billed as brothers and later childhood friends in WWF/WWE storylines, went on to win the WWF Tag Team Championship on seven different occasion

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Cutting tool (machining)

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In the context of machining, a cutting tool or cutter is any tool that is used to remove material from the work piece by means of shear deformation. Cutting may be accomplished by single-point or multipoint tools. Single-point tools are used in turning, shaping, planing and similar operations, and remove material by means of one cutting edge. Milling and drilling tools are often multipoint tools. It is a body having teeth or cutting edges on it. Grinding tools are also multipoint tools.[1] Each grain of abrasive functions as a microscopic single-point cutting edge (although of high negative rake angle), and shears a tiny chip. Cutting tool materials must be harder than the material which is to be cut, and the tool must be able to withstand the heat generated in the metal-cutting process. Also, the tool must have a specific geometry, with clearance angles designed so that the cutting edge can contact the workpiece without the rest of the tool dragging on the workpiece surface. The angle of the cutting face is

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Canny edge detector

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The Canny edge detector is an edge detection operator that uses a multi-stage algorithm to detect a wide range of edges in images. It was developed by John F. Canny in 1986. Canny also produced a computational theory of edge detection explaining why the technique works. The Canny edge detector applied to a color photograph of a steam engine. The original image. Development of the Canny algorithm Canny edge detection is a technique to extract useful structural information from different vision objects and dramatically reduce the amount of data to be processed. It has been widely applied in various computer vision systems. Canny has found that the requirements for the application of edge detection on diverse vision systems are relatively similar. Thus, an edge detection solution to address these requirements can be implemented in a wide range of situations. The general criteria for edge detection include: Detection of edge with low error rate, which means that the detection should accurately catch

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Feature detection (computer vision)

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Samsung Galaxy S6

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Samsung Galaxy S6 is a line of Android-based smartphones manufactured, released and marketed by Samsung Electronics. Succeeding the Samsung Galaxy S5, the S6 was not released as a singular model, but instead in two variations unveiled and marketed together—the Galaxy S6 and Galaxy S6 Edge—with the latter differentiated primarily by having a display that is wrapped along the sides of the device. The S6 and S6 Edge were unveiled on March 1, 2015, during the Samsung Unpacked press event at MWC Barcelona, and released April 10, 2015. During the subsequent Samsung Unpacked event on August 13, 2015 (alongside the Galaxy Note 5), Samsung unveiled a third model, the Galaxy S6 Edge+, which features a larger phablet-sized display. Although the overall design of the Galaxy S6 still features characteristics from prior models, its construction was revamped to use a metal unibody frame and glass backing instead of plastic. Samsung also promoted an improved camera, streamlined user interface, support for major wireless cha

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Dijkstra's algorithm

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Dijkstra's algorithm (or Dijkstra's Shortest Path First algorithm, SPF algorithm)[1] is an algorithm for finding the shortest paths between nodes in a graph, which may represent, for example, road networks. It was conceived by computer scientist Edsger W. Dijkstra in 1956 and published three years later.[2][3][4] The algorithm exists in many variants. Dijkstra's original algorithm found the shortest path between two given nodes,[4] but a more common variant fixes a single node as the "source" node and finds shortest paths from the source to all other nodes in the graph, producing a shortest-path tree. For a given source node in the graph, the algorithm finds the shortest path between that node and every other.[5]:196–206 It can also be used for finding the shortest paths from a single node to a single destination node by stopping the algorithm once the shortest path to the destination node has been determined. For example, if the nodes of the graph represent cities and edge path costs represent driving dist

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Routing algorithms

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Graph (abstract data type)

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A directed graph with three vertices (blue circles) and three edges (black arrows). In computer science, a graph is an abstract data type that is meant to implement the undirected graph and directed graph concepts from mathematics; specifically, the field of graph theory. A graph data structure consists of a finite (and possibly mutable) set of vertices (also called nodes or points), together with a set of unordered pairs of these vertices for an undirected graph or a set of ordered pairs for a directed graph. These pairs are known as edges (also called links or lines), and for a directed graph are also known as arrows. The vertices may be part of the graph structure, or may be external entities represented by integer indices or references. A graph data structure may also associate to each edge some edge value, such as a symbolic label or a numeric attribute (cost, capacity, length, etc.). Operations The basic operations provided by a graph data structure G usually include:[1] adjacent(G, x, y): tests

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Median filter

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Example of 3 median filters of varying radiuses applied to the same noisy photograph. The Median Filter is a non-linear digital filtering technique, often used to remove noise from an image or signal. Such noise reduction is a typical pre-processing step to improve the results of later processing (for example, edge detection on an image). Median filtering is very widely used in digital image processing because, under certain conditions, it preserves edges while removing noise (but see discussion below), also having applications in signal processing. Algorithm description The main idea of the median filter is to run through the signal entry by entry, replacing each entry with the median of neighboring entries. The pattern of neighbors is called the "window", which slides, entry by entry, over the entire signal. For 1D signals, the most obvious window is just the first few preceding and following entries, whereas for 2D (or higher-dimensional) data the window must include all entries within a given radius or

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Image noise reduction techniques

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Signal processing

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Edge detection

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Edge detection includes a variety of mathematical methods that aim at identifying points in a digital image at which the image brightness changes sharply or, more formally, has discontinuities. The points at which image brightness changes sharply are typically organized into a set of curved line segments termed edges. The same problem of finding discontinuities in one-dimensional signals is known as step detection and the problem of finding signal discontinuities over time is known as change detection. Edge detection is a fundamental tool in image processing, machine vision and computer vision, particularly in the areas of feature detection and feature extraction.[1] Motivations Canny edge detection applied to a photograph The purpose of detecting sharp changes in image brightness is to capture important events and changes in properties of the world. It can be shown that under rather general assumptions for an image formation model, discontinuities in image brightness are likely to correspond to:[2][3]

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Image processing

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Feature detection (computer vision)

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Stroopwafel

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A stroopwafel (Dutch pronunciation: (listen); literally "syrup waffle") is a wafer cookie made from two thin layers of baked dough joined by a caramel filling.[2][3] First made in the Dutch city of Gouda, stroopwafels are popular throughout the Netherlands and the former Dutch Empire and have arguably become one of the best known Dutch dishes. Description A stroopwafel's wafer layers are made from a stiff dough of flour, butter, brown sugar, yeast, milk, and eggs that has been pressed in a hot waffle iron until crisped.[a] While still warm, the waffles have their edges removed with a cookie cutter, which allows the remaining disc to be easily separated into top and bottom wafers. A caramel filling made from syrup, brown sugar, butter, and cinnamon—also warm—is spread between the wafers before the waffle is reassembled. The caramel sets as it cools, thereby binding the waffle halves together.[2] History Stroopwafels were first made in Gouda either during the late 18th century[4] or the early 19th century[

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Edge of Tomorrow

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Edge of Tomorrow (also known by its marketing tagline Live. Die. Repeat.)[4][nb 1] is a 2014 American science fiction action film starring Tom Cruise and Emily Blunt. Doug Liman directed the film based on a screenplay adapted from the 2004 Japanese light novel All You Need Is Kill by Hiroshi Sakurazaka. The film takes place in a future where most of Europe is invaded by an alien race. Major William Cage (Cruise), a public relations officer with no combat experience, is forced by his superiors to join a landing operation against the aliens. Though Cage is killed in combat, he finds himself in a time loop that sends him back to the day preceding the battle every time he dies, with some memory of events. Cage teams up with Special Forces warrior Rita Vrataski (Blunt) to improve his fighting skills through the repeated days, while looking for a way to defeat the extraterrestrial invaders. In late 2009, 3 Arts Entertainment purchased the rights to the Japanese novel and sold a spec script to the American studio W

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Burr (edge)

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Metal burr extending beyond the edge of the cut piece, view on the cut face (top) and from the bottom (bottom) A burr is a raised edge or small piece of material that remains attached to a workpiece after a modification process.[1] It is usually an unwanted piece of material and is removed with a deburring tool in a process called 'deburring'. Burrs are most commonly created by machining operations, such as grinding, drilling, milling, engraving or turning. It may be present in the form of a fine wire on the edge of a freshly sharpened tool or as a raised portion of a surface; this type of burr is commonly formed when a hammer strikes a surface. Deburring accounts for a significant portion of manufacturing costs. In the printmaking technique of drypoint, burr, which gives a rich fuzzy quality to the engraved line, is highly desirable—the great problem with the drypoint medium is that the burr rapidly diminishes after as few as ten impressions are printed. Types There are three types of burrs that can be

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Kruskal's algorithm

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This algorithm is a minimum-spanning-tree algorithm which finds an edge of the least possible weight that connects any two trees in the forest.[1] It is a greedy algorithm in graph theory as it finds a minimum spanning tree for a connected weighted graph adding increasing cost arcs at each step.[1] This means it finds a subset of the edges that forms a tree that includes every vertex, where the total weight of all the edges in the tree is minimized. If the graph is not connected, then it finds a minimum spanning forest (a minimum spanning tree for each connected component). This algorithm first appeared in Proceedings of the American Mathematical Society, pp. 48–50 in 1956, and was written by Joseph Kruskal.[2] Other algorithms for this problem include Prim's algorithm, Reverse-delete algorithm, and Borůvka's algorithm. Algorithm create a forest F (a set of trees), where each vertex in the graph is a separate tree create a set S containing all the edges in the graph while S is nonempty and F is not ye

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Checker shadow illusion

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The squares marked A and B are the same shade of gray. The checker shadow illusion is an optical illusion published by Edward H. Adelson, Professor of Vision Science at MIT in 1995.[1] Description The image depicts a checkerboard with light and dark squares, partly shadowed by another object. The optical illusion is that the area labeled A appears to be a darker color than the area labeled B. However, within the context of the two-dimensional image, they are of identical brightness, i.e., they would be printed with identical mixtures of ink, or displayed on a screen with pixels of identical colour. [1] Verification A rectangle of the same color has been drawn connecting the two areas of the image. That the two squares are the same color can be proven using any of the following methods: Open the illusion in an image editing program and using the eyedropper tool to verify that the colors are the same. Right-click the image and select "View Image". Now zoom in to the image and hold a finger in front o

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Drill bit

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From top to bottom: Spade, lip and spur (brad point), masonry bit and twist drill bits Drill bit (upper left), mounted on a pistol-grip corded drill. A set of masonry drill bits Drill bits are cutting tools used to remove material to create holes, almost always of circular cross-section. Drill bits come in many sizes and shapes and can create different kinds of holes in many different materials. In order to create holes drill bits are usually attached to a drill, which powers them to cut through the workpiece, typically by rotation. The drill will grasp the upper end of a bit called the shank in the chuck. Drill bits come in standard sizes, described in the drill bit sizes article. A comprehensive drill bit and tap size chart lists metric and imperial sized drill bits alongside the required screw tap sizes. There are also certain specialized drill bits that can create holes with a non-circular cross-section.[1] While the term drill may refer to either a drilling machine or a drill bit while in use in

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HCS clustering algorithm

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The HCS (Highly Connected Subgraphs) clustering algorithm[1] (also known as the HCS algorithm , and other names such as Highly Connected Clusters/Components/Kernels) is an algorithm based on graph connectivity for Cluster analysis, by first representing the similarity data in a similarity graph, and afterwards finding all the highly connected subgraphs as clusters. The algorithm does not make any prior assumptions on the number of the clusters. This algorithm was published by Erez Hartuv and Ron Shamir in 1998. The HCS algorithm gives clustering solution, which is inherently meaningful in the application domain, since each solution cluster must have diameter 2 while a union of two solution clusters will have diameter 3. Similarity Modeling and Preprocessing The goal of cluster analysis is to group elements into disjoint subsets, or clusters, based on similarity between elements, so that elements in the same cluster are highly similar to each other (homogeneity), while elements from different clusters have

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Leading-edge extension

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Aircraft wing leading-edge extensions – annotated A leading-edge extension (LEX) is a small extension to an aircraft wing surface, forward of the leading edge. The primary reason for adding an extension is to improve the airflow at high angles of attack and low airspeeds, to improve handling and delay the stall. A dog tooth can also improve airflow and reduce drag at higher speeds. Leading–edge slat Leading-edge slats deployed on an Airbus A318-100 A leading-edge slat is an aerodynamic surface running spanwise just ahead of the wing leading edge. It creates a leading edge slot between the slat and wing which directs air over the wing surface, helping to maintain smooth airflow at low speeds and high angles of attack. This delays the stall, allowing the aircraft to fly at a higher angle of attack. Slats may be made fixed, or retractable in normal flight to minimize drag. Dogtooth extension Dog tooth on the wing of a Hawker Hunter A dogtooth is a small, sharp zig-zag break in the leading edge of a

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Maximal independent set

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The graph of the cube has six different maximal independent sets (two of them are maximum), shown as the red vertices. In graph theory, a maximal independent set (MIS) or maximal stable set is an independent set that is not a subset of any other independent set. In other words, there is no vertex outside the independent set that may join it because it is maximal with respect to the independent set property. For example, in the graph P 3 {\displaystyle P_{3}} , a path with three vertices a {\displaystyle a} , b {\displaystyle b} , and c {\displaystyle c} , and two edges a b {\displaystyle ab} and b c {\displaystyle bc} , the sets { b } {\displaystyle \{b\}} and { a , c } {\displaystyle \{a,c\}} are both maximally independent. The set { a } {\displaystyle \{a\}} is independent, but is not maximal independent, because it is a subset of the larger independent set { a , c } {\displaystyle \{a,c\}} . In this same graph, the maximal cliques are th

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Mirror's Edge

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Mirror's Edge is a first-person action-adventure platform video game developed by EA DICE and published by Electronic Arts. It was released for the Xbox 360 and PlayStation 3 in November 2008, and in January 2009 for Microsoft Windows. Mirror's Edge is powered by Unreal Engine 3, with the addition of a new lighting solution, developed by Illuminate Labs in association with DICE. Mirror's Edge is set in a quasi-futuristic dystopian society, in which a network of 'runners', including the main character, Faith Connors, act as couriers to transmit messages while evading government surveillance. In the style of a three-dimensional platform game, the player guides Faith over rooftops, across walls, through ventilation shafts, and otherwise within urban environments, negotiating obstacles using movements inspired by parkour. The game has a brightly colored, minimalist style and differs from most previous first-person perspective video games in allowing for a greater freedom of movement with regard to its 3D enviro

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Feedback arc set

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This directed graph has no cycles: it is not possible to get from any vertex (point) back to that same point, following the connections in the direction indicated by the arrows. In graph theory, a directed graph may contain directed cycles, a one-way loop of edges. In some applications, such cycles are undesirable, and we wish to eliminate them and obtain a directed acyclic graph (DAG). One way to do this is simply to drop edges from the graph to break the cycles. A feedback arc set (FAS) or feedback edge set is a set of edges which, when removed from the graph, leave a DAG. Put another way, it's a set containing at least one edge of every cycle in the graph. Closely related are the feedback vertex set, which is a set of vertices containing at least one vertex from every cycle in the directed graph, and the minimum spanning tree, which is the undirected variant of the feedback arc set problem. A minimal feedback arc set (one that can not be reduced in size by removing any edges) has the additional property

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Directed graphs

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K-edge-connected graph

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In graph theory, a connected graph is k-edge-connected if it remains connected whenever fewer than k edges are removed. The edge-connectivity of a graph is the largest k for which the graph is k-edge-connected. Edge connectivity and the enumeration of k-edge-connected graphs was studied by Camille Jordan in 1869.[1] Formal definition A 2-edge-connected graph Let G = ( V , E ) {\displaystyle G=(V,E)} be an arbitrary graph. If subgraph G ′ = ( V , E ∖ X ) {\displaystyle G'=(V,E\setminus X)} is connected for all X ⊆ E {\displaystyle X\subseteq E} where | X |

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EdgeHTML

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EdgeHTML is a proprietary browser engine from Microsoft, originally used in the Edge web browser first introduced in Windows 10 released in 2014. In December 2018, Microsoft announced plans to release Edge rebuilt as a Chromium-based browser,[2][3] using the Blink engine, although EdgeHTML will continue to be available for Universal Windows Platform apps.[4] Usage in Windows EdgeHTML is a fork of Microsoft's Trident that was the engine of the Internet Explorer browser.[5] It was first released as an experimental option in Internet Explorer 11 as part of the Windows 10 Technical Preview build 9879. EdgeHTML is designed as a software component to allow software developers to easily add web browsing functionality to their own applications. It presents a COM interface for accessing and editing web pages in any COM-supported environment, like C++ and .NET. For instance, a web browser control can be added to a C++ program and EdgeHTML can then be used to access the page currently displayed in the web browser and

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Edge contraction

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Contracting the edge between the indicated vertices, resulting in graph G / {uv}. In graph theory, an edge contraction is an operation which removes an edge from a graph while simultaneously merging the two vertices that it previously joined. Edge contraction is a fundamental operation in the theory of graph minors. Vertex identification is a less restrictive form of this operation. Definition The edge contraction operation occurs relative to a particular edge, e. The edge e is removed and its two incident vertices, u and v, are merged into a new vertex w, where the edges incident to w each correspond to an edge incident to either u or v. More generally, the operation may be performed on a set of edges by contracting each edge (in any order).[1] The resulting induced graph if sometimes written as G / e. (Contrast this with G \ e which means removing the edge e.) Contracting an edge without creating multiple edges. As defined below, an edge contraction operation may result in a graph with multiple edge

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Segmental resection

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Segmental resection (or segmentectomy) is a surgical procedure to remove part of an organ or gland, as a sub-type of a resection, which might involve removing the whole body part. It may also be used to remove a tumor and normal tissue around it. In lung cancer surgery, segmental resection refers to removing a section of a lobe of the lung. The resection margin is the edge of the removed tissue; it is important that this shows free of cancerous cells on examination by a pathologist. References  This article incorporates public domain material from the U.S. National Cancer Institute document "Dictionary of Cancer Terms". External links Segmental resection entry in the public domain NCI Dictionary of Cancer Terms

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Signal edge

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Signal edges shown in rectangular pulse amplitude modulation with polar non-return-to-zero, inverted coding waveform In electronics, a signal edge is a transition of a digital signal from low to high (0 to 1) or from high to low (1 to 0): A rising edge (or positive edge) is the low-to-high transition.[1] A falling edge (or negative edge) is the high-to-low transition.[1] In the case of a pulse, which consists of two edges: The leading edge (or front edge) is the first edge of the pulse. The trailing edge (or back edge) is the second edge of the pulse. See also Flip-flop (electronics) Rise time References Berger, Arnold S., Hardware and Computer Organization, p. 32, ISBN 978-0-7506-7886-5

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Safety razor

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A selection of low-cost safety razors A safety razor is a shaving implement with a protective device positioned between the edge of the blade and the skin. The initial purpose of these protective devices was to reduce the level of skill needed for injury-free shaving, thereby reducing the reliance on professional barbers. The term was first used in a patent issued in 1880,[1] for a razor in the basic contemporary configuration with a handle attached at right angles to a head in which a removable blade is placed (although this form predated the patent). Plastic disposable razors and razors with replaceable blade attachments are in common use today. Razors commonly include one to five cutting edges. History Early designs The first step towards a safer-to-use razor was the guard razor – also called a straight safety razor – which added a protective guard to a regular straight razor. The first such razor was most likely invented by French cutler Jean-Jacques Perret circa 1762.[2] The invention was inspired by

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Edge Games

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Edge Games, Inc. is an American video game developer and publisher headquartered in Pasadena, California, best known for the practices of its founder and chief executive officer, Tim Langdell, in enforcing trademarks relating to the word "edge", which sources have described as "litigious".[1][2] Langdell has defended these practices, stating that Edge has only sued two companies since the late 1980s.[3] In 2010, Edge Games sued Electronic Arts for trademark infringement,[4] but eventually settled, with Edge surrendering many of its registrations.[5] The United States Patent and Trademark Office (USPTO) cancelled the trademarks by court order in April 2013.[6] History Edge Games was founded in California in 1990 by Tim Langdell. At that time, it acquired the intellectual property assets of Langdell's former company, Softek Software, itself founded in 1980 in London.[7] Softek's catalog includes several games, such as: Fairlight, released in 1985, and Garfield: Big Fat Hairy Deal, released in 1987. Since the

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Video game publishers

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Edge Foundation, Inc.

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The Edge Foundation, Inc. is an association of science and technology intellectuals created in 1988 as an outgrowth of The Reality Club. Its main activities are reflected on the edge.org website, edited by publisher and businessman John Brockman. The site is a critically noted[2][3][4] online magazine exploring scientific and intellectual ideas. Edge.org A long-running feature on Edge is the Annual Question, which gathers many short essays on topical questions from Brockman's broad network of thought leaders in philosophy and science; these essays are usually published collectively as a book shortly thereafter. Many of the feature articles on Edge are structured as video interviews with a prominent figure in some scientific field (such as Daniel Kahneman or Steven Pinker) discussing his or her recent research or mental preoccupations, in a free-flowing spiel from which the interviewer—often Brockman himself—is largely absent. This is usually accompanied by a full transcript which includes more material tha

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Topological sorting

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In computer science, a topological sort or topological ordering of a directed graph is a linear ordering of its vertices such that for every directed edge uv from vertex u to vertex v, u comes before v in the ordering. For instance, the vertices of the graph may represent tasks to be performed, and the edges may represent constraints that one task must be performed before another; in this application, a topological ordering is just a valid sequence for the tasks. A topological ordering is possible if and only if the graph has no directed cycles, that is, if it is a directed acyclic graph (DAG). Any DAG has at least one topological ordering, and algorithms are known for constructing a topological ordering of any DAG in linear time. Examples The canonical application of topological sorting is in scheduling a sequence of jobs or tasks based on their dependencies. The jobs are represented by vertices, and there is an edge from x to y if job x must be completed before job y can be started (for example, when wash

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Strength of a graph

topic

In the branch of mathematics called graph theory, the strength of an undirected graph corresponds to the minimum ratio edges removed/components created in a decomposition of the graph in question. It is a method to compute partitions of the set of vertices and detect zones of high concentration of edges, and is analogous to graph toughness which is defined similarly for vertex removal. Definitions The strength σ ( G ) {\displaystyle \sigma (G)} of an undirected simple graph G = (V, E) admits the three following definitions: Let Π {\displaystyle \Pi } be the set of all partitions of V {\displaystyle V} , and ∂ π {\displaystyle \partial \pi } be the set of edges crossing over the sets of the partition π ∈ Π {\displaystyle \pi \in \Pi } , then σ ( G ) = min π ∈ Π | ∂ π | | π | − 1 {\displaystyle \displaystyle \sigma (G)=\min _{\pi \in \Pi }{\frac {|\partial \pi |}{|\pi |-1}}} . Also if T {\displaystyle {\mathcal {T}}} is the set of all

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Graeme Edge

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Graeme Charles Edge (born 30 March 1941, in Rocester, Staffordshire) is an English musician, songwriter and poet best known as the drummer, one of the songwriters and the last remaining original member of the English band the Moody Blues. In addition to his work with the Moody Blues, Edge has worked as the bandleader of his own outfit, the Graeme Edge Band. He has contributed his talents to a variety of other projects throughout his career. In 2018, Edge was inducted into the Rock and Roll Hall of Fame as a member of the Moody Blues.[1] Life The Moody Blues (1964-1966) Graeme Edge is one of the original members of The Moody Blues, alongside singer/guitarist Denny Laine, singer/bassist Clint Warwick, singer/keyboardist Mike Pinder and singer/flautist/harmonica player Ray Thomas. Edge provided a foundation for the original R&B and rock-flavoured band fronted by Laine, playing on all their Decca singles, including the UK chart-topping "Go Now" (January 1965), and other 1965 hit songs; "I Don't Want To Go

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Outside Edge

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Outside Edge is a play by Richard Harris about a village cricket team trying to win a game of cricket whilst sorting out their various marital problems. Plot Roger is having trouble getting a team together for the afternoons fixture against the British Railways Maintenance Division Yeading East but this proves to be the least of anyone's worries. Bob is having marriage trouble as he is still doing odd jobs for his ex-wife behind his current wife Ginnie's back. Dennis is also having marital trouble as his wife seems intent on moving house despite the fact they only moved recently. When he finally puts his foot down she sets fire to his new car. Kevin is trying to fight off his over affectionate wife Maggie while at the same time nurse his injured spinning finger and Alex's new girlfriend ends up shutting herself in the toilets having hysterics. Even Roger's seemingly perfect marriage to Miriam hits the skids when she discovers he was playing away from home in more ways than one on a trip to Dorking last year

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Deckle

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Look up deckle in Wiktionary, the free dictionary. This image shows red pigmented flax fiber on a hand paper mould, still contained by a deckle. This sheet is quite thick which is why there is fiber spilling onto the deckle. next it is couched onto felts and pressed. A deckle is a removable wooden frame or "fence" used in manual papermaking. In a related sense, it can also mean deckle edge paper—a type of industrially produced paper with rough cut edges used in the book trade. A handmade piece of flax paper that has been pressed, but hasn't dried yet. Deckle frame In hand papermaking, a deckle is a removable wooden frame or "fence" placed into a mould to keep the paper pulp slurry within the bounds of the wire facing on a mould, and to control the size of the sheet produced. The mould and deckle is dipped into a vat of water and paper pulp that has been beat (fibrillated). The pulp is quickly scooped out of the vat and the mould and deckle is shaken as excess water is drained off. The deckle is then

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Papermaking

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Samsung Experience

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Samsung Experience (stylized as SAMSUNG Experience) is a software overlay for Android "launcher" designed by Samsung for its Galaxy devices. It was introduced in late 2016 on a beta build based on Android Nougat for the Galaxy S7, succeeding TouchWiz.[1] It has been succeeded by One UI based on Android Pie. History TouchWiz was the former name Samsung used for its UI and icons. It was originally released on June 4, 2010, for the Galaxy S smartphone. Reviewers had criticized Samsung for including too many features and bloat, especially in the Galaxy S4, which included what many users called a Samsung "feature creep".[2] In the following years, though, Samsung had incrementally removed the bloatware and extra features, until TouchWiz was no longer recognized as TouchWiz, leading them to rename it.[3] Features Home screen Samsung Experience makes several changes to Android's default homescreen. The apps icon is on the bottom right of the screen instead of the bottom middle, the Google Now search bar is just

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Mobile operating systems

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ThinkCentre Edge

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ThinkCentre Edge all-in-one (AIO) PC The ThinkCentre Edge is a series of desktop computer from Lenovo, designed primarily for home offices and small businesses.[1] The product series features desktops in both tower and All-in-One form factors, designed to save up to 70% desk space as compared to traditional tower desktop PCs.[1] The ThinkCentre Edge desktop series represents the first time the 'Edge' brand has been used for any Lenovo product outside of the ThinkPad product line. The first desktop in the series was the Edge 91z AIO, announced on May 16, 2011.[2] Design According to Paul Scaini, the Segment Manager for the ThinkCentre product line, the ThinkCentre Edge desktops were the result of a large amount of time spent on refining the overall product appearance.[3] The Edge 91z was described in the article as being the epitome of that effort, with its Infinity Glass design.[3] In the article, Paul Scaini also indicated that while appearance was a focus of the ThinkCentre Edge series, it retained the

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Edge of Winter (film)

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Edge of Winter is a 2016 Canadian psychological thriller drama film directed by and written by Rob Connolly and Kyle Mann.[1] It stars Joel Kinnaman, Tom Holland, and Percy Hynes White. The film centres on a recently divorced father, Elliot Baker (Kinnaman), whose angry behaviour slowly controls him while he resides with his two sons (Holland and White) at his cabin in the wilderness. The film was produced by Independent Edge Films in association with JoBro Productions & Film Finance. The film was released to mixed reviews. Plot Divorced Elliot Baker (Joel Kinnaman), who has just lost his job for punching his boss after a workplace accident, jumps at the chance to spend time with his two boys, teenager Bradley (Tom Holland) and younger Caleb (Percy Hynes White). After their mother drops the boys off, they discover Elliot's shotgun in his bedroom. Elliot yells at them, but after seeing them a bit startled, apologises and then decides it'd be a good bonding experience to teach the boys about firearm safe

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Directional Cubic Convolution Interpolation

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Directional Cubic Convolution Interpolation (DCCI) is an edge-directed image scaling algorithm created by Dengwen Zhou and Xiaoliu Shen.[1] By taking into account the edges in an image, this scaling algorithm reduces artifacts common to other image scaling algorithms. For example, staircase artifacts on diagonal lines and curves are eliminated. The algorithm resizes an image to 2x its original dimensions, minus 1. The algorithm The algorithm works in three main steps: Copy the original pixels to the output image, with gaps between the pixels. Calculate the pixels for the diagonal gaps. Calculate the pixels for the remaining horizontal and vertical gaps. Calculating pixels in diagonal gaps Evaluation of diagonal pixels is done on the original image data in a 4×4 region, with the new pixel that is being calculated in the center, in the gap between the original pixels. This can also be thought of as the 7×7 region in the enlarged image centered on the new pixel to calculate, and the original pixels

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Spectral clustering

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An example of two connected graphs In multivariate statistics and the clustering of data, spectral clustering techniques make use of the spectrum (eigenvalues) of the similarity matrix of the data to perform dimensionality reduction before clustering in fewer dimensions. The similarity matrix is provided as an input and consists of a quantitative assessment of the relative similarity of each pair of points in the dataset. In application to image segmentation, spectral clustering is known as segmentation-based object categorization. Definitions Given an enumerated set of data points, the similarity matrix may be defined as a symmetric matrix A {\displaystyle A} , where A i j ≥ 0 {\displaystyle A_{ij}\geq 0} represents a measure of the similarity between data points with indices i {\displaystyle i} and j {\displaystyle j} . The general approach to spectral clustering is to use a standard clustering method (there are many such methods, k-means is discussed below) on relevant eig

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Compton edge

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In spectrophotometry, the Compton edge is a feature of the spectrograph that results from the Compton scattering in the scintillator or detector. When a gamma-ray scatters off the scintillator but escapes, only some fraction of its energy is registered by the detector. The amount of energy deposited in the detector depends on the scattering angle of the photon, leading to a spectrum of energies each corresponding to a different scattering angle. The highest energy that can be deposited, corresponding to full back-scatter, is called the Compton edge. Background Gamma-spectrum of a radioactive Am-Be-source. The photopeak after the Compton edge corresponds to detection of the incident gamma rays. The significantly lower count in the region between the Compton edge and the photopeak reflects the fact that no gamma rays of this energy can be absorbed by the detector. In a Compton scattering process, an incident photon collides with an electron in a material. The amount of energy exchanged varies with angle, a

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List of straight edge bands

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The following is a list of bands that have been associated with the straight edge subculture. Note that not all of these bands have or had all straight edge members, and some of them stopped identifying as such at some point during their careers. List of straight edge bands Band Years active Origin Country Other viewsor scenes Source 7 Seconds 1980-present Nevada (Reno) United States [1] Abhinanda 1992–1999,2004,2009–2010,2012 Umeå Sweden [2] ACxDC 2003-2017 California (Los Angeles) United States Veganism, Satanism [3] AFI 1991–present California (Ukiah) United States Veganism [4] Allegiance 2002–2008 California (San Francisco) United States [5] Arma Angelus 1998–2002 Illinois (Chicago) United States [6] Asunto 1995-present Santiago Chile Veganism [2][7] Bane 1995-2016 Massachusetts (Worcester) United States [8] Battery 1990–1998,2012, 2017 Washington, D.C. United States [9] Bishop 2004-2017 Florida (Fort Lauderdale

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Sharpening

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Sharpening is the process of creating or refining a sharp edge of appropriate shape on a tool or implement designed for cutting. Sharpening is done by grinding away material on the implement with an abrasive substance harder than the material of the implement, followed sometimes by processes to polish the sharp surface to increase smoothness and to correct small mechanical deformations without regrinding. A hand-held tungsten carbide knife sharpener, with a finger guard, can be used for sharpening plain and serrated edges on pocket knives and multi-tools. Tools and materials for sharpening Video: Saw blade sharpening machine There are many ways of sharpening tools. Malleable metal surfaces such as bronze, iron and mild steel may be formed by beating or peening a flat surface into a sharp edge. This process also causes work hardening. An abrasive material may be rubbed against the cutting edge to be sharpened. The most traditional abrasive material is a natural stone such as sandstone or granite. Mo

Samsung Galaxy S7

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Samsung Galaxy S7, Samsung Galaxy S7 Edge and Samsung Galaxy S7 Active are Android-based smartphones manufactured, released and marketed by Samsung Electronics. The S7 series serves as the successor to the Galaxy S6, S6 Edge, S6 Edge+ and S6 Active released in 2015. The S7 and S7 Edge were officially unveiled on 21 February 2016 during a Samsung press conference at Mobile World Congress, with a European and North American release on 11 March 2016.[8][9] The S7 Active was unveiled on 4 June 2016, and released on AT&T in the United States on 10 June 2016.[2] The Galaxy S7 is an evolution of the prior year's model, with upgraded hardware, design refinements, and the restoration of features removed from the Galaxy S6, such as IP certification for water and dust resistance, as well as expandable storage. Succeeding the S6 and S6 Edge+, respectively, the S7 is produced in a standard model with a display size of 5.1-inch (130 mm) as well as an Edge variant whose display is curved along the wide sides of the sc

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Smartphones

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Mobile phones introduced in 2016

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Jagged Edge (film)

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Jagged Edge is a 1985 American neo-noir[1] courtroom drama erotic thriller film written by Joe Eszterhas and directed by Richard Marquand. The film stars Glenn Close, Jeff Bridges, Peter Coyote[2] and Robert Loggia (who was nominated for the Academy Award for Best Supporting Actor for his role).[3][4] Plot An intruder in a black mask ties up San Francisco socialite Paige Forrester at her remote beach house and kills her with a hunting knife. He writes the word "Bitch" on the wall with her blood. Her husband Jack is arrested for her murder by Thomas Krasny, a district attorney. Jack tries to hire high-profile lawyer Teddy Barnes to defend him. Barnes used to work for Krasny, and she is reluctant to take the case, as she stopped working in criminal law after an incident with Krasny. Krasny runs into Barnes. He tells her that "Henry Styles hanged himself in his cell," which distresses her. Barnes visits Sam Ransom, a private detective who used to work for Krasny's office as well. He stopped private investigat

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Films with screenplays by Joe Eszterhas

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American mystery thriller films

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Countersink

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Comparison of countersunk and counterbored holes. A countersink (symbol: ⌵) is a conical hole cut into a manufactured object, or the cutter used to cut such a hole. A common use is to allow the head of a countersunk bolt, screw or rivet, when placed in the hole, to sit flush with or below the surface of the surrounding material (by comparison, a counterbore makes a flat-bottomed hole that might be used with a socket-head capscrew). A countersink may also be used to remove the burr left from a drilling or tapping operation thereby improving the finish of the product and removing any hazardous sharp edges. The basic geometry of a countersink (cutter) inherently can be applied to the plunging applications described above (axial feed only) and also to other milling applications (sideways traversal). Therefore, countersinks overlap in form, function, and sometimes name with chamfering endmills (endmills with angled tips). Regardless of the name given to the cutter, the surface being generated may be a conical ch

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Woodworking

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Human Edge

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Human Edge is a Canadian television series, which airs weekly on TVOntario. The program presents documentary films on social issues by filmmakers such as Michael Moore and Barbara Kopple. It is currently hosted by Ian Brown.

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List of features removed in Windows 10

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Windows 10 is a version of Windows NT and the successor of Windows 8.1. Some features of the operating system were removed in comparison to Windows 8 and Windows 8.1, and further changes in features offered have occurred within subsequent feature updates to Windows 10. Features removed in version 1507/RTM release Windows shell The charms are removed, and replaced with the Action Center.[1][2][3] In Windows Runtime apps, a menu button appears on the title bar that can be used to access the functions that previously required its usage.[4] Users are no longer able to synchronize Start menu layouts across all devices associated with a Microsoft account. A Microsoft developer justified the change by explaining that a user may have different applications they want to emphasize on each device that they use, rather than use the same configuration across each device. The ability to automatically install a Windows app across all devices associated with an account was also removed.[5] Windows Defender could be

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Lists

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Removed features

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Survivor: Edge of Extinction

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Survivor: Edge of Extinction is the 38th season of the American CBS competitive reality television series Survivor. The season featured 14 new contestants competing with four returning players. The season premiered on February 20, 2019 and concluded on May 15, 2019, when Chris Underwood was named the Sole Survivor over Gavin Whitson and Julie Rosenberg by a vote of 9–4–0, becoming the first person in Survivor history to win the game after being voted out in the same season.[2] It was the 12th season to feature returning players and the seventh to be filmed in Fiji. Production This season introduced a new feature wherein contestants who are voted out have an option to take a boat to the titular "Edge of Extinction" rather than leave the game permanently.[3] The Edge of Extinction is a desolate, abandoned beach with even fewer amenities than the main island: contestants on the Edge of Extinction may either wait for an opportunity to re-join the main game or may choose to leave the game at any point by raising

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Stanage Edge

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Stanage Edge, or simply Stanage (from "stone edge") is a gritstone escarpment in the Peak District, England, famous as a location for climbing. The northern part of the edge forms the border between the High Peak of Derbyshire and Sheffield in South Yorkshire. Its highest point is High Neb at 458 metres (1,503 ft) above sea level. Areas of Stanage were quarried in the past to produce grindstones, and some can still be seen on the hillside—carved, but never removed. A paved packhorse road ran along the top of the edge, and remains of it can be seen, as can remains of the Long Causeway, once thought to be a Roman road[1] which works its way over the edge on its route from Templeborough to Brough-on-Noe, crossing Hallam Moor and passing Stanedge Pole (note the slightly different spelling), an ancient waymarker on the route to Sheffield. Some cairns along the top are even older, and there is a well-known cave in the cliff known as Robin Hood's Cave. More recent features include early 20th-century drinking basins

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EDGE species

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Evolutionarily Distinct and Globally Endangered (EDGE) species are animal species which have a high EDGE score, a metric combining endangered conservation status with distinctiveness of taxon. Distinctive species have few closely related species, and EDGE species are often the only surviving member of their genus or even higher taxonomic rank. The extinction of such species would therefore represent a disproportionate loss of unique evolutionary history, biodiversity and potential for future evolution. Some EDGE species, such as elephants and pandas, are well known and already receive considerable conservation attention, but many others, such as the Vaquita (the world’s rarest cetacean)[1] the bumblebee bat (arguably the world’s smallest mammal) and the egg-laying long-beaked echidnas are highly threatened yet remain poorly understood and are frequently overlooked by existing conservation frameworks. Recent research indicates that 70% of the world’s most threatened and evolutionarily distinct mammal species

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EDGE species

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