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The Elo rating system is a method for calculating the relative skill levels of players in two-player games such as chess and Go. Chess is a recreational and competitive Game played between two players. Chess is a recreational and competitive Game played between two players.

"Elo" is often written in capital letters (ELO), but it is not an acronym. Acronyms, initialisms, and alphabetisms are Abbreviations that are formed using the initial components in a phrase or name It is the family name of the system's creator, Arpad Elo (19031992, born as Élő Árpád), a Hungarian-born American physics professor. A family name or last name is a type of Surname and part of a person's name indicating the family to which the person belongs Arpad Emrick Elo (born Élő Árpád Imre, August 25, 1903 in Egyházaskesző, Hungary &ndash November 5, 1992 Year 1903 ( MCMIII) was a Common year starting on Thursday (link will display calendar of the Gregorian calendar or a Common year starting Year 1992 ( MCMXCII) was a Leap year starting on Wednesday (link will display full 1992 Gregorian calendar) Hungary (Magyarország 'mɔɟɔrorsaːg) officially in English the Republic of Hungary ( Magyar Köztársaság, literally Magyar (Hungarian Republic The United States of America —commonly referred to as the Physics (Greek Physis - φύσις in everyday terms is the Science of Matter and its motion.

Elo was originally invented as an improved chess rating system although it is used in many games today. It is also used as a rating system for competitive multi-player play in a number of computer games, and has been adapted to team sports including international football, American college football and basketball, and Major League Baseball. A personal computer Game (also known as a computer game or simply PC game) is a Video game played on a Personal computer, rather

Contents

A statistical system, not a reward system

Arpad Elo was a master-level chess player and an active participant in the United States Chess Federation (USCF) from its founding in 1939. The United States Chess Federation ( USCF) is a non-profit organization the governing Chess organization within the United States, and one of the federations Year 1939 ( MCMXXXIX) was a Common year starting on Sunday (link will display the full calendar of the Gregorian calendar. The USCF used a numerical ratings system, devised by Kenneth Harkness, to allow members to track their individual progress in terms other than tournament wins and losses. Kenneth Harkness (byname of Stanley Edgar; November 12, 1896 - October 4, 1972) was a Chess organizer The Harkness system was reasonably fair, but in some circumstances gave rise to ratings which many observers considered inaccurate. On behalf of the USCF, Elo devised a new system with a more statistical basis. Statistics is a mathematical science pertaining to the collection analysis interpretation or explanation and presentation of Data.

Elo's system substituted statistical estimation for a system of competitive rewards. Rating systems for many sports award points in accordance with subjective evaluations of the 'greatness' of certain achievements. For example, winning an important golf tournament might be worth an arbitrarily chosen five times as many points as winning a lesser tournament.

A statistical endeavor, by contrast, uses a model that relates the game results to underlying variables representing the ability of each player.

Elo's rating system model

Elo's central assumption was that the chess performance of each player in each game is a normally distributed random variable. The normal distribution, also called the Gaussian distribution, is an important family of Continuous probability distributions applicable in many fields A random variable is a rigorously defined mathematical entity used mainly to describe Chance and Probability in a mathematical way Although a player might perform significantly better or worse from one game to the next, Elo assumed that the mean value of the performances of any given player changes only slowly over time. Elo thought of a player's true skill as the mean of that player's performance random variable.

A further assumption is necessary, because chess performance in the above sense is still not measurable. One cannot look at a sequence of moves and say, "That performance is 2039. " Performance can only be inferred from wins, draws and losses. Therefore, if a player wins a game, he is assumed to have performed at a higher level than his opponent for that game. Conversely if he loses, he is assumed to have performed at a lower level. If the game is a draw, the two players are assumed to have performed at nearly the same level.

Elo did not specify exactly how close two performances ought to be to result in a draw as opposed to a win or loss. And while he thought it likely that each player might have a different standard deviation to his performance, he made a simplifying assumption to the contrary. In Probability and Statistics, the standard deviation is a measure of the dispersion of a collection of values

To simplify computation even further, Elo proposed a straightforward method of estimating the variables in his model (i. e. , the true skill of each player). One could calculate relatively easily, from tables, how many games a player is expected to win based on a comparison of his rating to the ratings of his opponents. If a player won more games than he was expected to win, his rating would be adjusted upward, while if he won fewer games than expected his rating would be adjusted downward. Moreover, that adjustment was to be in exact linear proportion to the number of wins by which the player had exceeded or fallen short of his expected number of wins.

From a modern perspective, Elo's simplifying assumptions are not necessary because computing power is inexpensive and widely available. Moreover, even within the simplified model, more efficient estimation techniques are well known. Several people, most notably Mark Glickman, have proposed using more sophisticated statistical machinery to estimate the same variables. On the other hand, the computational simplicity of the Elo system has proven to be one of its greatest assets. With the aid of a pocket calculator, an informed chess competitor can calculate to within one point what his next officially published rating will be, which helps promote a perception that the ratings are fair.

Implementing Elo's scheme

The USCF implemented Elo's suggestions in 1960, and the system quickly gained recognition as being both fairer and more accurate than the Harkness system. Elo's system was adopted by FIDE in 1970. Fédération Internationale des Échecs or World Chess Federation is an international organization that connects the various national Chess federations around the Elo described his work in some detail in the book The Rating of Chessplayers, Past and Present, published in 1978.

Subsequent statistical tests have shown that chess performance is almost certainly not normally distributed. Weaker players have significantly greater winning chances than Elo's model predicts. Therefore, both the USCF and FIDE have switched to formulas based on the logistic distribution. In Probability theory and Statistics, the logistic distribution is a continuous probability distribution However, in deference to Elo's contribution, both organizations are still commonly said to use "the Elo system".

Comparative ratings

The phrase "Elo rating" is often used to mean a player's chess rating as calculated by FIDE. However, this usage is confusing and often misleading, because Elo's general ideas have been adopted by many different organizations, including the USCF (before FIDE), the Internet Chess Club (ICC), Yahoo! Games, and the now defunct Professional Chess Association (PCA). The Internet Chess Club (ICC is a commercial Internet chess server devoted to the play and discussion of Chess and Chess variants ICC currently has over The Professional Chess Association (PCA which existed between 1993 and 1996 was a rival organisation to FIDE, the international Chess organization Each organization has a unique implementation, and none of them precisely follows Elo's original suggestions. It would be more accurate to refer to all of the above ratings as Elo ratings, and none of them as the Elo rating.

Instead one may refer to the organization granting the rating, e. g. "As of August 2002, Gregory Kaidanov had a FIDE rating of 2638 and a USCF rating of 2742. Gregory Kaidanov (Григорий Кайданов born October 11, 1959) is an International Grandmaster of Chess. " It should be noted that the Elo ratings of these various organizations are not always directly comparable. For example, someone with a FIDE rating of 2500 will generally have a USCF rating near 2600 and an ICC rating in the range of 2500 to 3100.

The following analysis of the January 2006 FIDE rating list gives a rough impression of what a given FIDE rating means:

The highest ever FIDE rating was 2851, which Garry Kasparov had on the July 1999 and January 2000 lists.

In the whole history of FIDE rating system, only 48 players (to October 2007), sometimes called "Super-grandmasters", have achieved a peak rating of 2700 or more. The title Grandmaster is awarded to extremely strong Chess masters by the world chess organization FIDE. However, due to ratings inflation, nearly all of these are modern players: all but two of these achieved their peak rating after 1993.

Ratings of computers

Several chess computers are said to perform at a greater strength than any human player, although such claims are difficult to verify. A chess engine is a Computer program that can play the game of Chess. Computers do not receive official FIDE ratings. Matches between computers and top grandmasters under tournament conditions do occur, but are comparatively rare.

As of April 2006, the Hydra supercomputer was possibly the strongest "over the board" chess player in the world; its playing strength is estimated by its creators to be over 3000 on the FIDE scale. Stories without links will be removed'. News stories must be in English Hydra is a chess machine designed by a team with Dr Christian "Chrilly" Donninger, Dr [1] This is consistent with its six game match against Michael Adams in 2005 in which the then seventh-highest-rated player in the world only managed to score a single draw. Michael Adams (born November 17, 1971 in Truro, Cornwall, England, UK) is a British Grandmaster of [2] However, six games are scant statistical evidence and Jeff Sonas suggested that Hydra was only proven to be above 2850 by that single match taken in isolation. [3]

On firmer footing is Rybka. Rybka is a computer Chess engine created by International Master Vasik Rajlich. As of September 2007, Rybka is rated by several lists within 2900-3120, depending on the hardware it is run on and the version of software used. September 2007 is the ninth month of that year It began on a Saturday [4][5][6][7] These lists use Elo formulas and attempt to calibrate to the FIDE scale. Without such calibration, different rating pools are independent, and can only be used for relative comparison within the pool.

Ratings inflation and deflation

The primary goal of Elo ratings is to accurately predict game results between contemporary competitors, and FIDE ratings perform this task relatively well. A secondary, more ambitious goal is to use ratings to compare players between different eras. (See also Greatest chess player of all time. ) It would be convenient if a FIDE rating of 2500 meant the same thing in 2005 that it meant in 1975. If the ratings suffer from inflation, then a modern rating of 2500 means less than a historical rating of 2500, while if the ratings suffer from deflation, the reverse will be true. Unfortunately, even among people who would like ratings from different eras to "mean the same thing", intuitions differ sharply as to whether a given rating should represent a fixed absolute skill or a fixed relative performance.

Those who believe in absolute skill (including FIDE[8]) would prefer modern ratings to be higher on average than historical ratings, if grandmasters nowadays are in fact playing better chess. By this standard, the rating system is functioning perfectly if a modern 2500-rated player and a 2500-rated player of another era would have equal chances of winning, were it possible for them to play. The advent of strong chess computers allows a somewhat objective evaluation of the absolute playing skill of past chess masters, based on their recorded games.

Those who believe in relative performance would prefer the median rating (or some other benchmark rank) of all eras to be the same. By one relative performance standard, the rating system is functioning perfectly if a player in the twentieth percentile of world rankings has the same rating as a player in the twentieth percentile used to have. Ratings should indicate approximately where a player stands in the chess hierarchy of his own era.

The average FIDE rating of top players has been steadily climbing for the past twenty years, which is inflation (and therefore undesirable) from the perspective of relative performance. However, it is at least plausible that FIDE ratings are not inflating in terms of absolute skill. Perhaps modern players are better than their predecessors due to a greater knowledge of openings and due to computer-assisted tactical training.

In any event, both camps can agree that it would be undesirable for the average rating of players to decline at all, or to rise faster than can be reasonably attributed to generally increasing skill. Both camps would call the former deflation and the latter inflation. Not only do rapid inflation and deflation make comparison between different eras impossible, they tend to introduce inaccuracies between more-active and less-active contemporaries.

The most straightforward attempt to avoid rating inflation/deflation is to have each game end in an equal transaction of rating points. If the winner gains N rating points, the loser should drop by N rating points. The intent is to keep the average rating constant, by preventing points from entering or leaving the system.

Unfortunately, this simple approach typically results in rating deflation, as the USCF was quick to discover.

A common misconception is that rating points enter the system every time a previously unrated player gets an initial rating and that likewise rating points leave the system every time someone retires from play. Players generally believe that since most players are significantly better at the end of their careers than at the beginning, that as they tend to take more points away from the system than they brought in, the system deflates as a result. This is a fallacy and is easily shown. If a system is deflated, players will have strengths higher than their ratings. But if they take points out of the system EQUAL TO their strength when they leave the system, no inflation or deflation will result.

Rather, in the "basic form" of the Elo system, the cause of deflation is the fact that players improve. The cause of inflation is that their strength relative to their rating will tend to decline over time with age. Since most players improve early in their career, the system tends to deflate at that time. Inflation doesn't occur until much later in a player's career. Many players will quit before this natural process occurs, which would return points to the system. The net result over time is deflation.

Example

Both of these misconceptions can be shown incorrect via the following example:

Let's consider the following example, which is a little contrived to make it simple. However, the principles remain the same in other pools irrespective of the level of complexity.

Suppose there are four 1500-rated players: A, B, C, D. They are all established players. Their ratings are stable. To make the calculations easy, we will assume that we will calculate rating changes under the old Elo formula with K=32. Suppose that they are the only four players in the rating pool. The average rating of the pool is, therefore, 1500.

Elo recognized that simply having an improving player causes deflation.

Let's suppose that A decides to study for a while. As a result, his strength increases to a degree that on average he scores 3 out of 4 against B, C, and D. These odds represent roughly a 200 rating point spread.

What we would want the pool to do is this: Since B, C, and D are the same strength as before, their ratings should stay at 1500. A should see his rating go toward 1700.

That is, their performances indicate a strength relative to where they started of 1500 for B, C, and D and 1700 for A.

Let's suppose that they play 10 rated games against each opponent (30 total. ) B, C, and D score 50% against each other, but only 25% against A, exactly as outlined above. That means B, C, and D win 12. 5 games each, and A wins 22. 5 games. For example, on average, B wins 5 of the 10 games against C, 5 of the 10 games against D, and 2. 5 of the games against A.

What are their ratings (assuming for ease that we rate this as 1 event) at the end of these encounters? (This example is simplified, but illustrates the point, and the principles hold true even if we treat it as several events. )

The rating formula is:

(W-We) x 32 + Rating old = Rating new,

where W equals the number of wins and We equals the expected number of wins.

Since all players started at 1500, we expect them all to score 50%. The winning expectancy, We, therefore = 15 for all the players.

For B, C, D:

(12. 5-15. 0) x 32 +1500 = 1420

12. 5 points, for B for example, is 5 points against C, 5 against D, and 2. 5 against A.

For A:

(22. 5 - 15. 0) x 32 + 1500 = 1740

What is the average rating of the pool? (1420 + 1420 + 1420 +1740)/4 = 1500.

Hmm. . . exactly the same as before.

Yet, B, C, D are all rated lower than their actual skill level of 1500. And even if A loses his "40 extra" points back to the pool fairly evenly in another series of games, we would see:

A: 1700
B: 1433
C: 1433
D: 1433

That is, 75% of the players in the pool would be deflated, by 67 points each, even though the average rating of the entire pool is unchanged.

Practical approaches

Because of the significant difference in timing of when inflation and deflation occur, and in order to combat deflation, most implementations of Elo ratings have a mechanism for injecting points into the system in order to maintain relative ratings over time. FIDE has two inflationary mechanisms. First, performances below a "ratings floor" are not tracked, so a player with true skill below the floor can only be unrated or overrated, never correctly rated. Second, established and higher-rated players have a lower K-factor. [9] There is no theoretical reason why these should provide a proper balance to an otherwise deflationary scheme; perhaps they over-correct and result in net inflation beyond the playing population's increase in absolute skill. On the other hand, there is no obviously superior alternative. In particular, on-line game rating systems have seemed to suffer at least as many inflation/deflation headaches as FIDE, despite alternative stabilization mechanisms.

Mathematical details

Performance can't be measured absolutely; it can only be inferred from wins and losses. Ratings therefore have meaning only relative to other ratings. Therefore, both the average and the spread of ratings can be arbitrarily chosen. Elo suggested scaling ratings so that a difference of 200 rating points in chess would mean that the stronger player has an expected score of approximately 0. 75, and the USCF initially aimed for an average club player to have a rating of 1500.

A player's expected score is his probability of winning plus half his probability of drawing. Thus an expected score of 0. 75 could represent a 75% chance of winning, 25% chance of losing, and 0% chance of drawing. On the other extreme it could represent a 50% chance of winning, 0% chance of losing, and 50% chance of drawing. The probability of drawing, as opposed to having a decisive result, is not specified in the Elo system. Instead a draw is considered half a win and half a loss.

If Player A has true strength RA and Player B has true strength RB, the exact formula (using the logistic curve) for the expected score of Player A is

E_A = \frac 1 {1 + 10^{(R_B - R_A)/400}}.

Similarly the expected score for Player B is

E_B = \frac 1 {1 + 10^{(R_A - R_B)/400}}.

Note that EA + EB = 1. A logistic function or logistic curve is the most common Sigmoid curve. In practice, since the true strength of each player is unknown, the expected scores are calculated using the player's current ratings.

When a player's actual tournament scores exceed his expected scores, the Elo system takes this as evidence that player's rating is too low, and needs to be adjusted upward. Similarly when a player's actual tournament scores fall short of his expected scores, that player's rating is adjusted downward. Elo's original suggestion, which is still widely used, was a simple linear adjustment proportional to the amount by which a player overperformed or underperformed his expected score. The maximum possible adjustment per game (sometimes called the K-value) was set at K = 16 for masters and K = 32 for weaker players.

Supposing Player A was expected to score EA points but actually scored SA points. The formula for updating his rating is

R_A^\prime = R_A + K(S_A - E_A).

This update can be performed after each game or each tournament, or after any suitable rating period. An example may help clarify. Suppose Player A has a rating of 1613, and plays in a five-round tournament. He loses to a player rated 1609, draws with a player rated 1477, defeats a player rated 1388, defeats a player rated 1586, and loses to a player rated 1720. His actual score is (0 + 0. 5 + 1 + 1 + 0) = 2. 5. His expected score, calculated according the formula above, was (0. 506 + 0. 686 + 0. 785 + 0. 539 + 0. 351) = 2. 867. Therefore his new rating is (1613 + 32· (2. 5 − 2. 867)) = 1601.

Note that while two wins, two losses, and one draw may seem like a par score, it is worse than expected for Player A because his opponents were lower rated on average. Therefore he is slightly penalized. If he had scored two wins, one loss, and two draws, for a total score of three points, that would have been slightly better than expected, and his new rating would have been (1613 + 32· (3 − 2. 867)) = 1617.

This updating procedure is at the core of the ratings used by FIDE, USCF, Yahoo! Games, the ICC, kdice, and FICS. KDice is a browser-based multiplayer strategy game based on Taro Ito's Dice Wars. However, each organization has taken a different route to deal with the uncertainty inherent in the ratings, particularly the ratings of newcomers, and to deal with the problem of ratings inflation/deflation. New players are assigned provisional ratings, which are adjusted more drastically than established ratings, and various methods (none completely successful) have been devised to inject points into the rating system so that ratings from different eras are roughly comparable.

The principles used in these rating systems can be used for rating other competitions—for instance, international football matches. Association football, more commonly known as football or soccer, is a Team sport played between two teams of eleven players and is widely considered

Elo ratings have been also applied to games without the possibility of draws, and to games in which the result can have also a quantity (small/big margin) in addition to the quality (win/loss). See go rating with Elo for more. Skill in the traditional board game Go is measured by a number of different national regional and online ranking and rating systems

Practical issues

Game activity versus protecting one's rating

In general the Elo system has increased the competitive climate for chess and inspired players for further study and improvement of their game. However, in some cases ratings can discourage game activity for players who wish to "protect their rating".

Examples:

  1. They may choose their events or opponents more carefully where possible.
  2. If a player is in a Swiss tournament, and loses a couple of games in a row, they may feel the need to abandon the tournament in order to avoid any further rating "damage". A Swiss system tournament is a commonly used type of Tournament in Chess, bridge, Scrabble, squash, Magic The Gathering
  3. Junior players, who may have high provisional ratings, and who should really be practicing as much as possible, might play less than they would, because of rating concerns.

In these examples, the rating "agenda" can sometimes conflict with the agenda of promoting chess activity and rated games. [10]

Some of the clash of agendas between game activity, and rating concerns is also seen on many servers online which have implemented the Elo system. For example, the higher rated players, being much more selective in who they play, results often in those players lurking around, just waiting for "overvalued" opponents to try and challenge. Such players may feel discouraged of course from playing any significantly lower rated players again for rating concerns. And so, this is one possible anti-activity/ anti-social aspect of the Elo rating system which needs to be understood. The agenda of points scoring can interfere with playing with abandon, and just for fun.

Interesting from the perspective of preserving high Elo ratings versus promoting rated game activity is a recent proposal by British Grandmaster John Nunn regarding qualifiers based on Elo rating for a World championship model. John Denis Martin Nunn (born April 25, 1955 in London) is one of England 's strongest Chess players and once belonged to the world's [11] Nunn highlights in the section on "Selection of players", that players not only be selected by high Elo ratings, but also their rated game activity. Nunn clearly separates the "activity bonus" from the Elo rating, and only implies using it as a tie-breaking mechanism.

The Elo system when applied to casual online servers has at least two other major practical issues that need tackling when Elo is applied to the context of online chess server ratings. These are engine abuse and selective pairing.

Chess engines

The first and most significant issue is players making use of chess engines to inflate their ratings. A chess engine is a Computer program that can play the game of Chess. This is particularly an issue for correspondence chess style servers and organizations, where making use of a wide variety of engines within the same game is entirely possible. Correspondence chess is Chess played by various forms of long-distance correspondence usually through a Correspondence chess server, through email or by This would make any attempts to conclusively prove that someone is cheating quite futile. Blitz servers such as the Free Internet Chess Server or the Internet Chess Club attempt to minimize engine bias by clear indications that engine use is not allowed when logging on to their server. Fast chess, also known as blitz chess, lightning chess, bullet chess and rapid chess, is a type of Chess game in which each side is The Free Internet Chess Server (FICS is a volunteer-run Internet chess server. The Internet Chess Club (ICC is a commercial Internet chess server devoted to the play and discussion of Chess and Chess variants ICC currently has over

Selective pairing

A more subtle issue is related to pairing. When players can choose their own opponents, they can choose opponents with minimal risk of losing, and maximum reward for winning. Such a luxury of being able to hand-pick your opponents is not present in Over-the-Board Elo type calculations, and therefore this may account strongly for the ratings on the ICC using Elo which are well over 2800.

Particular examples of 2800+ rated players choosing opponents with minimal risk and maximum possibility of rating gain include: choosing computers that they know they can beat with a certain strategy; choosing opponents that they think are over-rated; or avoiding playing strong players who are rated several hundred points below them, but may hold chess titles such as IM or GM. In the category of choosing over-rated opponents, new-entrants to the rating system who have played less than 50 games are in theory a convenient target as they may be overrated in their provisional rating. The ICC compensates for this issue by assigning a lower K-factor to the established player if they do win against a new rating entrant. The K-factor is actually a function of the number of rated games played by the new entrant.

Elo therefore must be treated as a bit of fun when applied in the context of online server ratings. Indeed the ability to choose one's own opponents can have great fun value also for spectators watching the very highest rated players. For example they can watch very strong GM's challenge other very strong GMs who are also rated over 3100. Such opposition, which the highest level players online would play in order to maintain their rating, would often be much stronger opponents than if they did play in an Open tournament which is run by Swiss pairings. Additionally it does help ensure that the game histories of those with very high ratings will often be with opponents of similarly high level ratings.

Therefore, Elo ratings online still provide a useful mechanism for providing a rating based on the opponent's rating. Its overall credibility, however, needs to be seen in the context of at least the above two major issues described — engine abuse, and selective pairing of opponents.

The ICC has also recently introduced "auto-pairing" ratings which are based on random pairings, but with each win in a row ensuring a statistically much harder opponent who has also won x games in a row. With potentially hundreds of players involved, this creates some of the challenges of a major large Swiss event which is being fiercely contested, with round winners meeting round winners. This approach to pairing certainly maximizes the rating risk of the higher-rated participants, who may face very stiff opposition from players below 3000 for example. This is a separate rating in itself, and is under "1-minute" and "5-minute" rating categories. Maximum ratings achieved over 2500 are exceptionally rare.

Mathematical issues

There are three main mathematical concerns relating to the original work of Professor Elo, namely the correct curve, the correct K-factor, and the provisional period crude calculations.

Most accurate distribution model

The first major mathematical concern addressed by both FIDE and the USCF was the use of the normal distribution. The normal distribution, also called the Gaussian distribution, is an important family of Continuous probability distributions applicable in many fields They found that this did not accurately represent the actual results achieved by particularly the lower rated players. Instead they switched to a logistical distribution model, which seemed to provide a better fit for the actual results achieved. In Probability theory and Statistics, the logistic distribution is a continuous probability distribution

Most accurate K-factor

The second major concern is the correct "K-factor" used. The chess statistician Jeff Sonas reckons that the original K=10 value (for players rated above 2400) is inaccurate in Elo's work. If the K-factor coefficient is set too large, there will be too much sensitivity to winning, losing or drawing, in terms of the large number of points exchanged. Too low a K-value, and the sensitivity will be minimal, and it would be hard to achieve a significant number of points for winning, etc.

Elo's original K-factor estimation, was based without the benefit of huge databases and statistical evidence. Sonas indicates that a K-factor of 24 (for players rated above 2400) may be more accurate both as a predictive tool of future performance, and also more sensitive to performance. [12]

Certain Internet chess sites seem to avoid a three-level K-factor staggering based on rating range. For example the ICC seems to adopt a global K=32 except when playing against provisionally rated players. The USCF (which makes use of a logistic distribution as opposed to a normal distribution) have staggered the K-factor according to three main rating ranges of:

FIDE uses the following ranges[13]:

In over-the-board chess, the staggering of K-factor is important to ensure minimal inflation at the top end of the rating spectrum. This assumption might in theory apply equally to an online chess server, as well as a standard over-the-board chess organisation such as FIDE or USCF. In theory, it would make it harder for players to get the much higher ratings, if their K-factor sensitivity was lessened from 32 to 16 for example, when they get over 2400 rating. However, the ICC's help on K-factors indicates[14] that it may simply be the choosing of opponents that enables 2800+ players to further increase their rating quite easily. This would seem to hold true, for example, if one analysed the games of a GM on the ICC: one can find a string of games of opponents who are all over 3100. In over-the-board chess, it would only be in very high level all-play-all events that this player would be able to find a steady stream of 2700+ opponents – in at least a category 15+ FIDE event. A category 10 FIDE event would mean players are restricted in rating between 2476 to 2500. However, if the player entered normal Swiss-paired open over-the-board chess tournaments, he would likely meet many opponents less than 2500 FIDE on a regular basis. A single loss or draw against a player rated less than 2500 would knock the GM's FIDE rating down significantly.

Even if the K-factor was 16, and the player defeated a 3100+ player several games in a row, his rating would still rise quite significantly in a short period of time, due to the speed of blitz games, and hence the ability to play many games within a few days. The K-factor would arguably only slow down the increases that the player achieves after each win. The evidence given in the ICC K-factor article relates to the auto-pairing system, where the maximum ratings achieved are seen to be only about 2500. So it seems that random-pairing as opposed to selective pairing is the key for combatting rating inflation at the top end of the rating spectrum, and possibly only to a much lesser extent, a slightly lower K-factor for a player >2400 rating.

Performance rating

A "performance rating" is a hypothetical rating that would result from the games of a single event only. A performance rating for an event is calculated by taking (1) the rating of each player beaten and adding 400, (2) the rating of each player lost to and subtracting 400, (3) the rating of each player drawn, and (4) summing these figures and dividing by the number of games played.

USCF classes of players

The US Chess Federation classifies players in order as shown below: [15]

In general, 1000 is considered a bright beginner. A regular competitive chess player might be rated at approximately 1750.

Additional information about chess categories at the USCF.

FIDE tournament categories

FIDE classifies tournaments into categories according to the average rating of the players. Fédération Internationale des Échecs or World Chess Federation is an international organization that connects the various national Chess federations around the Each category is 25 rating points wide. Category 1 is for an average rating of 2251 to 2275, category 2 is 2276 to 2300, etc.

Elo ratings in other games

National Scrabble organizations compute normally-distributed Elo ratings except in the United Kingdom, where a different system is used. The verb "to scrabble" also means to scratch scramble or scrape about see Wiktionaryscrabble. The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom, the UK or Britain,is a Sovereign state located The North American National Scrabble Association has the largest rated population, numbering over 11,000 as of early 2006. The National Scrabble Association was created in 1978 by Selchow & Righter then the makers of Scrabble, to promote their game Scrabulous also uses the Elo system.

The popular First Internet Backgammon Server calculates ratings based on a modified Elo system. New players are assigned a rating of 1500, with the best humans and bots rating over 2000. The same formula has been adopted by several other backgammon sites, such as DailyGammon, GoldToken and VogClub (Vinco Online Games). Vog sets a new player's rating at 1600.

In other sports, individuals maintain rankings based on the Elo algorithm. These are usually unofficial, not endorsed by the sport's governing body. The World Football Elo Ratings rank national teams in men's football (soccer). The World Football Elo Ratings (Elo is often pronounced E-L-O despite not being an Acronym) is a ranking system for men's national teams in football. Association football, more commonly known as football or soccer, is a Team sport played between two teams of eleven players and is widely considered Jeff Sagarin publishes team rankings for American college football and basketball, with "Elo chess" being one of the two rankings he presents. Jeff Sagarin is an American sports Statistician well-known for his development of a methodology for ranking and rating sports teams in a variety of sports College athletics refers primarily to Sports and athletic competition organized and funded by institutions of tertiary education ( Colleges or universities American football, known in the United States and Canada simply as football, is a competitive Team sport known for mixing strategy with Basketball is a team Sport in which two teams of five active players each try to score points against one another by propelling a ball through a 10 feet (3 m In 2006, Elo ratings were adapted for Major League Baseball teams by Nate Silver of Baseball Prospectus. Nathaniel Read Silver (b 1978, East Lansing, Michigan; now residing in Chicago Illinois) is Managing Partner of Baseball Prospectus Baseball Prospectus, sometimes abbreviated as BP, is a Think tank focusing on Sabermetrics, the statistical analysis of [16] Based on this adaptation, Baseball Prospectus also makes Elo-based Monte Carlo simulations of the odds of whether teams will make the playoffs. Monte Carlo methods are a class of Computational Algorithms that rely on repeated Random sampling to compute their results [17] One of the few Elo-based rankings endorsed by a sport's governing body is the FIFA Women's World Rankings, based on a simplified version of the Elo algorithm, which FIFA uses as its official ranking system for national teams in women's football (soccer). Differences with men's system There are several important distinctions in the FIFA Women's World Rankings formula FIFA Women's World Rankings are only published four times The Fédération Internationale de Football Association (French for International Federation of Association Football)

In the strategy game Tantrix an Elo-rating scored in a tournament changes the overall rating according to the ratio of the games played in the tournament and the overall game count. Tantrix is a hexagonal tile-based Abstract strategy game invented by Mike McManaway from New Zealand. Every year passed, ratings are deweighted until they completely disappear taken over by the new ratings. [18] In the strategy game Arimaa an Elo-type rating system is used. Arimaa is a two-player Abstract strategy Board game that can be played using the same equipment as Chess. In this rating system, however, there is a second parameter "rating uncertainty", which doubles as the K-factor. [19]

Various online roleplaying-games (MMORPGs) use Elo ratings for player-vs-player (PVP) rankings. In Guild Wars, Elo ratings are used to record guild rating gained and lost through Guild versus Guild battles, which are two-team fights. The K-value, as of December 2006, is 30, but will change to 5 shortly into the year 2007. Vendetta Online uses Elo ratings to rank the flight combat skill of players when they have agreed to a 1-on-1 duel. Vendetta Online is a twitch-based, Science fiction massively multiplayer online role-playing game (MMORPG developed by Guild Software World of Warcraft uses the Elo Rating system when teaming up and comparing Arena players. World of Warcraft (commonly acronymed as WoW) is a Massively multiplayer online role-playing game (MMORPG [20]

Trading-card game manufacturers often use Elo ratings for their organized play efforts. The DCI (formerly Duelists' Convocation International) uses Elo ratings for tournaments of Magic: The Gathering and other games of Wizards of the Coast. The DCI (formerly Duelists' Convocation International) is the official sanctioning body for competitive play in Magic The Gathering and various other games This article is somewhat over-complete Please do not add significant new content without first discussing it on the talk page Wizards of the Coast (often referred to as WotC or simply Wizards) is an American publisher of Games primarily based on Fantasy and Pokémon USA uses the Elo system to rank its TCG organised play compeitors. is an affiliate[http //wwwnintendocojp/ir/pdf/2006/061026epdf#page=2] of Nintendo set up as a Marketing and Licensing front for the highly successful Prizes for the top players in various regions include holidays and world championships invites. Similarly, Decipher, Inc. used the Elo system for its ranked games such as Star Trek Customizable Card Game and Star Wars Customizable Card Game. Decipher Inc is an American gaming company based in Norfolk Virginia, USA The Star Trek Customizable Card Game is a Collectible card game based on the Star Trek universe Star Wars Customizable Card Game ( SWCCG) is a customizable card game based on the Star Wars Fictional universe.

FoosballRankings.com has applied the Elo Rating System to the game of foosball by offering a free Elo ranking tool that can be used in Foosball tournaments and leagues. Table football, also known as foosball, table soccer or baby foot, is a table-top game that is based on Association football (soccer The ranking tool can even be modified by the players so that they have more control over the math behind it.

WeeWar uses a modified Elo Rating System to rank the players of its online turn based strategy game. The only difference is that rankings are unaffected by a draw.

TotoScacco uses a modified Elo rating system to rank the players of its guess-the-results game, where one has to predict the results of top chess events.

Other chess rating systems

Other games using Elo (links)

See also

Notes

  1. ^ Lorent's Hydra strength claim" We think we have crossed the 3,000 Elo line,"
  2. ^ ChessBase.com - Chess News - Adams vs Hydra: Man 0.5 – Machine 5.5
  3. ^ ChessBase.com - Chess News - Adams vs Hydra: Man 0.5 – Machine 5.5
  4. ^ http://web.telia.com/~u85924109/ssdf/list.htm
  5. ^ SCCT_Auto232
  6. ^ CEGT Best Versions 40/20 (AMD 4200+)
  7. ^ http://www.computerschach.de/cssrangliste/englisch/erangliste.htm
  8. ^ FIDE Online. FIDE Handbook: Chess rules
  9. ^ FIDE Online. FIDE Handbook: Chess rules
  10. ^ A Parent's Guide to Chess Skittles, Don Heisman, Chesscafe. Chessmetrics is a system for rating Chess players devised by Jeff Sonas. com, August 4, 2002
  11. ^ ChessBase.com - Chess News - The Nunn Plan for the World Chess Championship
  12. ^ A key Sonas article is Jeff Sonas: The Sonas Rating Formula — Better than Elo?
  13. ^ FIDE Online. FIDE Handbook: Chess rules
  14. ^ ICC Help: k-factor
  15. ^ US Chess Federation:
  16. ^ Nate Silver, "We Are Elo?" June 28, 2006. Nathaniel Read Silver (b 1978, East Lansing, Michigan; now residing in Chicago Illinois) is Managing Partner of Baseball Prospectus [1]
  17. ^ Postseason Odds, ELO version
  18. ^ http://tournaments.tantrix.co.uk/ratings/rating.shtml
  19. ^ Arimaa Rating System
  20. ^ World of Warcraft Europe -> The Arena
  21. ^ AOE3 ELO Rating
  22. ^ Duels
  23. ^ Guild ladder - Guild Wars Wiki (GWW)
  24. ^ Guitar Hero Community - Forum Topics
  25. ^ Bungie.net : Bungie Online : Halo 2 Stats Info : Halo 2 Overview
  26. ^ DCI Universal Tournament Rules
  27. ^ defrag.lanparty-nrw.de
  28. ^ Connexion | Facebook
  29. ^ GPGNet / SupCom FAQ
  30. ^ Taikodom Ratings System

References

External links

Arpad Emrick Elo (born Élő Árpád Imre, August 25, 1903 in Egyházaskesző, Hungary &ndash November 5, 1992
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