Menu
Home Explore People Places Arts History Plants & Animals Science Life & Culture Technology
On this page
Robot-sumo
Sport for robits

Robot-sumo is an engineering and robotics competition in which two robots attempt to push each other out of a circular arena, in a similar fashion to the sport of sumo. The robots used in this competition are called "sumo robots", "sumobots" or simply "sumos".

Competitions typically involve autonomously operated wheeled mobile robots. The engineering challenges are for the robot to find its opponent (usually accomplished with infrared or ultra-sonic sensors) and to push it out of the dohyō. A robot should also avoid leaving the arena, usually by means of a sensor that detects the edge. The most common mechanical design is to use a wedge with a blade at the front to lift the opposing robot and push it more easily.

Robot-Sumo originated in Japan in 1989 when FUJISOFT Inc. [jp] organized an experimental robot-sumo tournament, which would later be established as the All Japan Robot Sumo Tournament [jp](Japanese: 全日本ロボット相撲大会 zen'nippon robotto sumou taikai). Since 1998, FUJISOFT has collaborated with more than 30 countries, and robot-sumo has spread and has been one of the most popular robotics competitions in the world, such as in Europe, Mexico and Brazil, with a total of 80,000 people around the world actively developing sumo robots. Currently, the All Japan Robot-Sumo Tournament is hailed as the "World Robot-Sumo Championship".

Although high-performance competitions (events between technical students, universitarians and graduated engineers) require highly complex engineering projects, it is often used as an educational tool for simpler protoypes in schools.

Robot-sumo competitions still hold amateur status, but sumo robots design has been the subject of studies and research in academic environment as well.

Related Image Collections Add Image
Profiles
1 Image
We don't have any YouTube videos related to Robot-sumo yet.
We don't have any PDF documents related to Robot-sumo yet.
We don't have any Books related to Robot-sumo yet.
We don't have any archived web articles related to Robot-sumo yet.

History

Robot-Sumo began in Japan with the All Japan Robot Sumo Tournament [jp] organized by FUJISOFT Inc. [jp] for the first time in 1989 as an experimental tournament, with 33 participants. The first official edition was established in 1990, and, since then, this tournament has been held annually in Tokyo. The competition began with an idea from the president of FUJISOFT Inc., Hiroshi Nozawa, whose goal was to promote his company and recruit excellent human resources. But above all, it was because of his desire to give a dream to the younger people who are responsible for the future of his country, and because of the desire to create an environment to improve the quality of "Monozukuri" in Japan.10 Initially, Robot Sumo only included the class that would be later known as Mega Sumo or Sumo 3kg class.

In 1992, the FUJISOFT tournament was held at the Ryōgoku Kokugikan, where the tournament is still held today. In 1998, the tournament had 2,929 participants.11

Also in 1998, the first Robot-Sumo competition was held outside of Japan, at the ROBOlympics (later renamed RoboGames),12 one of the largest robotics events at the time, held in the USA. This event helped popularize sumo competitions around the world and led to the creation of categories derived from 3kg class, such as LEGO Sumo, Mini Sumo, among others, which further popularized the category as a whole, leading to the emergence of many competitions around the world, such as in Mexico, Europe, and South America.

In 2004, at the 15th edition of the All Japan Robot-Sumo Tournament, the tournament introduced the 10kg class, but it would be discontinued in 2007.13

In 2008, RoboCore organized the first official national robot-sumo tournament in Brazil as part of the expansion of the national robotics competition "Winter Challenge",14 originally a robot combat focused event mainly contested by universitarian teams from the country. In this competition, Sumo 3kg Auto, Sumo 3kg RC and Sumo LEGO classes were held. Until 2019, the Winter or Summer Challenge was the biggest robotics event in Brazil and Latin America, considered the "Brazilian National Robotics Championship" by many.

Also in 2008, with the increasing worldwide popularity of robot-sumo, FUJISOFT held for the first time an edition of the All Japan Robot-Sumo Tournament with international competitors, from United States, Mexico and Singapore.15 Since then, the All Japan became a world championship, with the participation of overseas competitors as “Overseas Representatives”.

In 2010, the Robochallenge, in Romania, hosted a robot-sumo event for the first time.16

In 2013, FUJISOFT held the first official edition of the International Robot-Sumo Tournament 17 (Japanese: 世界大会 sekai taikai), separating from the Japanese national All Japan competition (Japanese: 全国大会 zenkoku taikai), with only the best Japanese (champions, and later runners-up) advancing to the world tournament,1819 with both tournaments being held in the same day, in sequence. In this edition, tournament champions or national representatives from Austria, USA, Baltic States (Estonia, Latvia and Lithuania), Turkey, Mexico and Ecuador participated as overseas representatives.20 The Auto tournament had 16 robots, and the RC tournament, 8 robots, in 2013.21

Between 2013 and 2017, without a massive number of Japanese robots (and with a higher number of non-Japanese robots, with some editions reaching more than 100 robots in a single class), non-Japanese international competitors achieved greater results in the International Tournament. European teams achieved significant results in the 3kg Auto class, including top places and championship titles.22 In 2017, the last edition of the International Robot-Sumo Tournament was marked by Mexican dominance in the Mega Sumo RC class, taking the first three positions and ahead of the Japanese champions.23

In 2018, FUJISOFT reunified the Japanese All Japan competition with the International Tournament into a single tournament, as it was before 2013, retaining the All Japan Robot-Sumo Tournament name and labeling the final stage as the "Grand Final".24 In 2019, the competition was in its 31st edition, and had the participation of more than 20 countries, 104 autonomous robots and 78 radio-controlled robots in the Grand Final.25 With the competition unified again, robots from Japan once again dominated the top positions of the competition in 2018 and 2019.2627

In 2019, FUJISOFT also organized the first Mini-Sumo event in Japan, as a test event (called pre-tournament) in All Japan, only for Auto category.28

In 2020, due to the COVID-19 pandemic in Japan, the 2020 edition (32nd edition) of the All Japan Robot-Sumo Tournament was cancelled.

In Brazil, due to the COVID-19 pandemic, competitions were also canceled. In response, many teams began organizing remote competitions, in which participants controlled ready-made prototypes provided by the organization remotely through the internet. For the Robot Sumo category, the most popular was the Remote Mini Sumo RC class, in which participants controlled ready-made robots just like in a conventional competition, but remotely through the internet with a mobile phone application.29 These competitions attracted not only Brazilian competitors, but also international competitors such as Argentines and Indians.30

In 2021 and 2022, FUJISOFT organized an alternative competition for the 32nd and 33rd editions remotely for high school competitors (Japanese: 高校学校 koukougakkou), which consisted of a sumo robot design contest.3132

In 2022, RoboCore from Brazil remodeled its main and largest robotics competition, the "Winter Challenge", into the "RoboCore Experience" (RCX),33 the largest robot combat event in Latin America. The competition hosts the Mega Sumo, Mini Sumo and LEGO Sumo tournaments, jointly with the Robot Combat, Line Follower, Robot Hockey, Robot Trekking, ArtBot and Robot Soccer competitions.34 The RoboCore Experience is held together with Campus Party Brazil.35 The 2023 RCX had 1330 registered competitors and almost 700 robots in all robotics categories.

In 2022, with the end of the COVID-19 pandemic, FUJISOFT once again organized the All Japan Robot-Sumo Tournament (34th edition), but only for local competitors. In the same event, a new pre-tournament for Mini Sumo class was organized by FUJISOFT.36

In 2023, All Japan, in its 35th edition, returned qualifying participants from overseas competitions for Mega Sumo class, for the first time since 2019. This year, the Mini Sumo tournament was officially added to the All Japan, but only for japanese competitors.37

In 2024, the robot Senju, from the Sumozade-Era Robotics team from Turkey, became the first non-Japanese Mega Sumo champion of the All Japan Robot-Sumo Tournament since the reunification in 2018, winning in the Auto category.38 Also in 2024, the Mini Sumo of All Japan started qualifying overseas competitors as well. Brazilian teams achieved great success, making the Mini Sumo Auto final, and also taking 2nd and 3rd places in Mini Sumo RC in that year.39

Rules and Classes

The principle of a robot-sumo fight consists of two robots competing to push the opponent out of the dohyō. The arena is usually painted with a main color with a contrasting color used to paint a line in the edge (usually, black as the main color and white as the border line color).40

Robot-sumo is usually divided in Autonomous (Auto) category, for robots that operate autonomously, and Radio-controlled (RC) category, for robots operated by a person.41

Matches are typically a series of 3 rounds, with the winner being the one who gets the most round wins. A round usually consists of (1) Positioning, (2) Preparation, and (3) Fight proper. In initial Positioning, a judge signals each operator to position each robot at the same time within the competition's permitted positioning limits. The judge then allows each operator to Prepare to select routines and strategies (in the case of the Auto category) or prepare the remote control (in the case of the RC category). To begin the Fight proper, the judge signals the start of the round according to the competition rules, and the winner of the round is the robot that pushes the opponent out of the arena. In the All Japan Robot Sumo Tournament [jp], the judge, at the start of a fight, usually announces "Hakkeyoi nokotta" (はっきよい 残った), which can be imprecisely translated as "Ready? Go!".42

In general, the rules may vary in some details from tournament to tournament (arena specifications, starting positioning, handling of exceptions, ...) especially in tournaments of a more educational nature, held in educational institutions as a didactic activity. High level competitions tend to follow standardized rules, such as the rules from All Japan Robot Sumo Tournament [jp].

For example, FUJISOFT requires the usage of a standardized remote controller for the judge in Autonomous category in the All Japan Robot Sumo Tournament [jp] and in its qualifiers Overseas Tournaments, so the judge may control the start and the stop of the robots' movements.43 This remote controller uses infrared light with the following specifications: wavelength of 950 nm, service frequency: 38-40 kHz, and any Sony brand remote control can be used for the signal. The activation process works with 3 states: Key 1: Ready; Key 2: Start; Key 3: Stop.

Competitions are usually divided into different weight and size classes. The main standardized classes adopted worldwide are Mega Sumo, which is the original robot-sumo class, and Mini Sumo, the most popular variant.44 Though classes have size limits, robots are usually allowed to expand once the fight starts.45

Mega Sumo

Mega Sumo, also called Standard Class, Sumo 3kg class, or simply Robot-Sumo, is the original class created by FUJISOFT. It is currently the most important class and considered the main event of robot sumo competitions.

In this class, robots are limited in weight to 3 kg and in dimensions to 20 cm x 20 cm, with no height limit. Once the fight starts, the robot is allowed to expand its dimensions.46

In this class, the dohyō should ideally be a 5cm in height circular aluminum structure with a diameter of 154 cm (+/- 50 mm), including the border line, and covered by a black cold-rolled steel (SPCC) sheet located on top.47 The dohyō is made of steel, and the use of magnets is allowed to increase the interaction force between the robot and the arena. Because of this, many robots can achieve normal force values that surpass 100 kgf.48

This class is usually divided in Mega Sumo Auto (Autonomous) and Mega Sumo RC (Radio-controlled).49

Mini Sumo

In the Mini Sumo class (also called Sumo 500g class) robots have a weight limit of up to 500 g and are limited to 10 cm x 10 cm, with no height limit. Once the fight starts, the robot is allowed to expand its size.50

The dohyō should be a 2.5 cm in height circular wooden board with a diameter of 77 cm (including the white border line), covered by a formica laminate located on top. The arena is made of wood, and therefore the robots are not affected by the force of magnets.51

This class is also usually divided in Mini Sumo Auto (Autonomous) and Mini Sumo RC (Radio-controlled).52

Because a Mini robot is more affordable than a 3kg robot (due to material costs and manufacturing dimensions), it is a more popular class and often considered entry-level. Because of this, it has become the most popular robot sumo class in the world. Not an original class from All Japan Robot-Sumo Tournament, the class was added to the event as of 2019, officially introducing the mini sumo in Japan.53

Other Standard Classes

There are also other standardized classes in different competitions around the world.

  • Sumo 10 kg class: up to 10 kg, dimensions of 30 cm x 30 cm, no height limit, steel arena. Class hosted between 2004 and 2007 by All Japan Robot-Sumo Tournament, but currently discontinued.54
  • Micro Sumo: up to 100 g, must fit in a 5 cm cube, wooden arena.55
  • Nano Sumo: up to 50 g, must fit in a 2.5 cm cube, wooden arena.56
  • LEGO Sumo: robots must be made entirely of Lego pieces, wooden arena.57

The Micro and Nano classes are less popular than the Mini and Mega Sumo, but they are held at some relevant events such as RoboGames, RobotChallenge in China, and Robochallenge in Romania.585960

In the LEGO Sumo class, robots must be made entirely of Lego pieces.6162 This class is widely used as an educational tool in schools for teaching robotics.

Minor Variants

Minor regional competitions might host their own classes as well. Internal competitions in schools might also create their own variants for didatic purposes.63

There are also some robot-sumo events with humanoid robots.64

Humanoid robot-sumo

Humanoid robot-sumo is similar to ROBO-ONE events.65 The robots are generally radio-controlled with some degree of autonomy. The mains robotics events with humanoid robot-sumo featured are the RoboGames,66 the chinese RobotChallenge,67 and the romanian Robochallenge.68

Since this variant involves humanoid robots, it does not follow the same principles of design from the robot-sumo created by FUJISOFT for the All Japan Robot-Sumo Tournament. This category also does not have the same prestige as the wheeled standard robot-sumo classes, such as Mega Sumo and Mini Sumo.

Robot design

Standard sumo robots resemble car-like robots, consisting of a chassis with wheels, and usually equipped with sensors, when with some level of autonomy. The use of mechanisms that physically damage the opposing robot is not usually permitted. For majority of the classes, mainly Mega Sumo and Mini Sumo, a robot design project is usually divided in three disciplines: Mechanics, Electronics, and Programming.69

Competitors are encouraged to build their own robots, respecting each competition class' and security rules. In Sumo LEGO, in particular, only Lego pieces must be used to build the robot, mainly using Mindstorms NXT or Mindstorms EV3 robotics kits.7071

A lot of projects employs electronics components and mechanical parts sold in robotics stores. With the popularization of standardized robot-sumo competitions worldwide, mainly Mega Sumo and Mini Sumo, specialized robot-sumo parts stores appeared, such as JSumo 72 and Sumozade,73 both based in Turkey, which even sell complete Mega Sumo and Mini Sumo robot kits.74

Mechanics

The Mechanics consists in the infrastructure that supports and accommodates all the components and systems of the sumobot, including motors, wheels, PCB's, sensors, among others.

A standard sumo robot is wheeled driven robot with a locomotion system. The locomotion system usually consists of driving motors with a coupling system to the wheels, which usually employs a reduction drive system to shift the output speed. Brushed DC motors have been the most employed ones, 75 but there are also robots with brushless DC motors.76 Motors from Maxon or Faulhaber brands have been popular choices among highest level competitors,77 such as robots in the All Japan Robot-Sumo Tournament.

Another commonly employed design for a sumo robot is an angled wedge/ramp in the front of the body. This wedge is usually coupled with a blade with the purpose of invading the opponent from below and lifting it, so it becomes easier to push it out of the arena. 78

For Mega Sumo robots, since magnets play an important role in the dynamics performance, the chassis are usually designed to support the desired number of magnets. A builder might choose between a heavier or a lighter robot based on the number of magnets allocated.7980

Some robot designs also employs peripheral mechanisms. Though classes have dimension limits, they are usually limited to the start of the fight, and once the fight starts, the robot is allowed to expand its size. 81 Examples of these mechanisms are side flags 82 and side wedges,83 which are usually activated with actuators other than the driving motors.

Electronics

In a sumo robot, Electronics may be divided in two main functions: power supply and logic control.84 Sumo robots, in general, employ Lithium polymer batteries to supply energy to the motors and other electronic components.85

Microcontrollers are mainly employed to receive data from sensors and send command to the motors and other actuators based on the programmed control logic. Microcontrollers are usually mounted with a designed PCB for the robot.86

In Autonomous classes, infrared sensors or ultrasonic sensors are usually employed to detect the opponent.87 Sumos also employ sensors to detect the edge (border line), usually with phototransistor reflectance sensors.88

In RC classes, the robots are remotely controlled by an operator. All Japan Robot-Sumo Tournament usually require radio controllers,89 so the robot hardware must be able to receive commands from the controller using a radio signal receiver module.

Programming

The Programming discipline is responsible for the embbeded control system, mainly in the autonomous classes.90 A robot-sumo firmware is responsible monitoring the sensors' data and for controlling the actuators, such as the driving motors.

The robot control system consists in setting the behaviour of the actuators (mainly the motors) based on the feedback of the sensors. Some usual control routines include setting a behaviour while no opponent is detected, such as randomly advancing through the dohyō, and a behaviour when an opponent is detected, such as pursuing it based on the feedback of the detection sensors.

Tournaments

Currently, several Robot-Sumo tournaments are held around the world. Robot-sumo competitions range from simple didatic and educational tournaments within schools to the highest level engineering competitions between high school/university students, graduate engineers and hobbyists.

Competitors are usually organized into teams, consisting of the sumo robots themselves and the members responsible for their creation, operation and maintenance during the event. Robot-sumo tournaments still have amateur status (students and hobbyists), even though some teams from academic institutions might be guided or leaded by a professor from the institute, with this advisoring being commonly included as part of his academic activities.91

Competitions adopt different competition formats, usually knockout bracket competitions, ranging from single elimination systems to tournaments with group stage or double elimination systems. Teams may register more than one robot per event, and confrontations between robots from the same team are possible.9293

As for the highest level competitions, Japan is the world's leading powerhouse in this category, and the All Japan Robot-Sumo Tournament is the most prestigious competition in the world, being considered as the "World Robot-Sumo Championship".94 Originally a tournament for Japan-based builders, FUJISOFT currently approves several tournaments around the world as certified overseas qualifiers for international competitors.95

In Japan, a large portion of the top competitors come from school teams from secondary school, with tournaments being exclusively held for them. Furthermore, the high school regional qualifiers make up a significant portion of the japanese slots for the All Japan Grand Final.96 In 2024, 66 of the 114 slots for japanese competitors were reserved for high schooler's robots.97

Also in Asia, there are also important competitions in China, such as the RobotChallenge,98 and in Mongolia.99

In Europe, the RoboChallenge, in Romania, is the main european robot-sumo event, focused mainly on autonomous sumo.100 Baltic States also organize relevant competitions, such as Robotex.101

In the Americas, the former RoboGames, the largest robotics competition in the world at the time, included several Sumo categories in its program, bringing together international competitors from all over the world.102 Mexico, one of the world powerhouses, especially in Mega Sumo RC and Mini Sumo, hosts several robot-sumo competitions.103 In Brazil, RoboCore hosts and sanctions the main robot competitions of the country, mainly for Robot Combat, but which usually include Robot-Sumo and other events such as Line Follower as well.104

Japan

In Japan, Robot-Sumo is officially sanctioned by FUJISOFT Inc., which organizes the All Japan Robot-Sumo Tournament, the first robot-sumo competition, since 2008 the world's leading competition with robots from over 20 countries participating,105 and currently, considered as the "World Robot-Sumo Championship".106

Robot-sumo in Japan is also particularly popular among students from the secondary school. There are two main tournaments for high schooler's builders: the High Schooler's Robot-Sumo Tournament, organized by FUJISOFT, and the High School Robot-Sumo Championship, organized by AEON Mall, with the support of FUJISOFT, which are also qualifiers to the All Japan Tournament.

All Japan Robot-Sumo Tournament

The All Japan Robot Sumo Tournament [jp] (Japanese: 全日本ロボット相撲大会 zen'nippon robotto sumou taikai), organized by FUJISOFT Inc. [jp], is the official national robot-sumo tournament of Japan. Founded in 1989, the event is the first robot-sumo event ever, introducing the Mega Sumo class. Since the introduction of overseas participants in 2008, it is considered the "World Robot-Sumo Championship" 107 for Mega Sumo, both Auto and RC. Since 2023, it has also been officially hosting Mini-Sumo competitions (Auto and RC).108

Currenlty, the competition is divided into a "Regional Stage" (Japanese: 地区大会 chiku taikai, lit: regional tournament) and the "Grand Final" (Japanese: 全国大会 zenkoku taikai, lit: all country tournament), also called "Final Round". The Regional Stage consists of regional tournaments held in Japan between August and October for participants based in Japan, with the top performers from each tournament qualifying for the Grand Final. The Regional Stage tournaments have usually been the Kantō, Chūgoku-Shikoku, Hokushin'etsu-Tōkai, Tōhoku, Hokkaidō, Kinki and Kyūshū tournaments, though not all of them may be held every edition. The Regional Stage tournaments currently adopt a single-elimination format and are held in a single day.109 The FUJISOFT's "High Schooler's Tournament" and the "High School Championship" Regional Stage tournaments are also part of regional qualifiers for the All Japan Grand Final.110

International representatives may qualify for the Grand Final through international qualifiers tournaments approved by FUJISOFT, in overseas countries such as Mexico, Mongolia and Brazil, among others. These tournaments form the "Overseas Tournaments" qualifiers (Japanese: 海外大会枠 kaigai taikai-waku, lit: overseas tournaments slots).111 The Overseas Tournaments are run by different organizations, so the tournament format varies. In some specific cases, qualification certificates are also issued to some teams as "National Representative", for countries with no teams yet qualified or without any official qualifier tournament.

The Grand Final is held in December in Tokyo, Japan at the Ryōgoku Kokugikan,112 and is held in two days, with the first day labeled "Qualification Session" and the final day as the "Grand Final Session" properly.113 The Grand Final is also a single-elimination knockout tournament.114

Between 2013 and 2017, FUJISOFT split the All Japan Grand Final in the "International Robot-Sumo Tournament", a tournament which functioned as the current Grand Final and a proper world championship in name 115, and the All Japan Tournament properly, which was reserved for japanese competitors and functioned as the japanese qualifier for the International (similar as other overseas tournaments).116117 In 2018, FUJISOFT reunified the competition under the name All Japan Grand Final, which once again functioned as the de facto world championship tournament (even with the "All Japan" in name).118

As of 2024, FUJISOFT initially reserved for the All Japan Grand Final, for each of Mega Sumo categories, Auto and RC, a total of 57 slots for the Regional Stage (including the "High Schooler's Tournament" and the "High School Championship" Regional Stage tournaments) and 40 slots for Overseas Tournaments.119 While all japanese slots were filled, only 26 and 23 slots were filled by overseas representatives for Auto and RC, respectively. That edition had robots from 17 overseas countries qualified.120

High Schooler's Robot-Sumo Tournament

FUJISOFT also organizes the "High Schooler's Robot-Sumo Tournament" (Japanese: 高校生ロボット相撲大会 kōkōsei robotto sumou taikai). The tournament is exclusive for robots developed by students from secondary education in Japan (equivalent to high school) held in parallel with the main All Japan Robot Sumo Tournament [jp]. Like the main All Japan, while initially a Mega Sumo tournament only, the event currently also hosts Mini Sumo tournaments.121122

The tournament also consists of Regional Stage tournaments and a Final tournament, with the Regional Stage tournament being usually held jointly with the All Japan Regional Stage tournaments in the same day, while the Final High Schooler's tournament is usually held separately and earlier, in a different venue.123 The tournaments also adopt single-elimination format, with the final tournament with 32 robots in each Mega Sumo Auto and RC categories.124

The Regional Stage tournaments are also usual qualifiers for the main All Japan Robot-Sumo Tournament Grand Final.125

High School Robot-Sumo Championship

AEON Mall, with the support of FUJISOFT, organizes the "High School Robot-Sumo Championship" (Japanese: 高等学校ロボット相撲選手権 kōtō gakkō robotto sumou senshuken), which is also exclusive to students from secondary education. Initially a Mega Sumo tournament, the event currently also hosts Mini Sumo class tournaments.126

The tournament consists of Regional Stage tournaments only, usually hosted in AEON Mall shopping centres from each host region.127

These Regional Stage tournaments are also usual qualifiers for the main All Japan Robot Sumo Tournament [jp] Grand Final.128

Brazil

Widely known for robot combat competitions, robot-sumo was introduced in Brazil by RoboCore in 2008 129 and has attained increasing attention in the country from 2017 onwards, mainly from teams from the top universities of the country. Robot-Sumo has been added to the main robotics competitions contested by teams of engineering and technology students from institutes at Technical and mainly at Higher Education levels.130 Since these teams are mostly students organizations/clubs or research groups, the rotation of members tend to be high, since the members tend to leave the group after graduation.

The robotics teams from the Polytechnic School of the University of São Paulo (Poli-USP), with their team named "ThundeRatz", Instituto Mauá de Tecnologia, with their team named "Kimauánisso", and Federal University of Rio de Janeiro (UFRJ), with their team named "Minervabots", are among the most prominent and successfull robot-sumo teams in the country.131132

These competitions are also open to teams not directly linked with academic institutions, including independent teams of hobbyists, graduated engineers and professionals. These teams are often made up of former students from those academic institutions teams.133134

Furthermore, international participants, from countries such as Ecuador, France, Mexico, Paraguay and Poland, have already participated.135 Participants from Mexico, one of the robot-sumo world powerhouses, have achieved great success in competitions in Brazil, mainly in Mini Sumo.

RoboCore

RoboCore is an online store, developer and manufacturer of boards and kits in Brazil and an organizer of robotics events.136 RoboCore organizes and supports a number of robotics competitions in Brazil, including in its program Robot Combat, Line Follower, Robot Trekking and Robot-Sumo events, attracting mainly universitarian and technical education level teams.137 The current major RoboCore robotics competition in general is the RoboCore Experience (RCX, and former Winter/Summer Challenge), the largest robot combat competition in Latin America, currently held with Campus Party Brasil.138

Currently, the annual calendar competitions from RoboCore with robot-sumo added to their program are the following:139

The robot-sumo competitions organized or supported by RoboCore are among the most prestigious in the country. RoboCore Experience is the major robotics event in Brazil and considered by many as the brazilian robotics "National Championship". However, the IRONCup, the RSM Challenge and the RoboChallenge Brasil have also become prominent competitions due to their relevance to the brazilian robot-sumo scenario. The RSM has also become prominent as a major international tournament, gathering robots from Latin America countries, such as Mexico, Ecuador, Colombia and so on.140 Besides these events, some special and once a time competitions might be organized as well.

The classes usually included in RoboCore tournaments program are Sumo 3kg (Mega Sumo) Auto and RC, Mini Sumo Auto and RC and LEGO Sumo. In addition, there is usually a separate LEGO Sumo class exclusively for teams formed by elementary and high school students, the LEGO Sumo Junior.141

RoboCore tournaments usually adopt the double-elimination knockout system, in which there is a main bracket (called the "winners' bracket") and a secondary bracket of robots transferred after losing a match in the main bracket (called the "losers' bracket"). Robots that lose in the losers bracket are eliminated from the tournament. The tournament final consists of the winner of the winners' bracket competing against the remaining robot from the losers' bracket. Robot-sumo tournaments from RoboCore usually adopt a "double final" format, in which the robot coming from the losers' bracket must win two matches of the final to become the tournament champion, while the robot coming from the winners' bracket must win only one match. This is due to the principle that for a robot to be eliminated, it must suffer two defeats in the event.

RoboCore calendar robot-sumo events (RCX, IRONCup, RSM Challenge and Robochallenge) have been usually approved by FUJISOFT as "Overseas Tournaments" qualifiers for the All Japan Robot Sumo Tournament [jp] in the Mega Sumo and Mini Sumo classes.142 Thus, these competitions are the main qualification path for teams based in Brazil.

RoboCore also organizes the "RoboCore's Robot History Ranking", a historical ranking of registered and participant robots in RoboCore tournaments, including those in the robot-sumo classes. The system is based on the Elo system that calculates the relative strength between opponents based on the result of each confrontation. The RoboCore system adopts an initial score of 1200,143 but does not exclude inactive robots from the ranking. Since the system is tied to a registered robot, then the ranking is compiled exclusively for each instance registered in the system (this means if a robot is registered with different labels for different tournaments, the ranking will be compiled for each label, as different robots). For robot-sumo, the RoboCore ranking is compiled for the major classes in Brazil: Sumo 3kg Auto, 3kg RC, Mini Auto, Mini RC, LEGO and LEGO Jr., but also for minor classes, such as the remote classes, popular during the COVID-19 pandemic.

Other tournaments in Brazil

Though RoboCore organizes and sanctions a number of events, most of them are hosted in the Southeast region of Brazil, mainly in the São Paulo state. Different academic institutions have also been organizing regional tournaments, mainly in the Northeast and South regions of Brazil.

From 2017 until 2021, Instituto Mauá also organized additional tournaments in São Paulo state in partnership with SESC, from Santo André in the Greater São Paulo, and with Bosch Brazil in Campinas - SP. These tournaments were also added as Overseas Tournament qualifiers for the All Japan Robot-Sumo Tournament.

China

China hosts the RobotChallenge.144

RobotChallenge

The RobotChallenge is "one of the world’s largest artificial intelligent robotic championships" and had the participation of more than 80 countries through the years.145 The competitions hosts a number of robotics competition such as Air Race, Line Follower, Humanoid Sprint and RoboSumo (Robot-Sumo). 146

For Robot-sumo, the competition organizes tournaments for Mega Sumo, Mini Sumo, Micro Sumo, Nano Sumo and Lego Sumo classes. 147 There is also a special class for Humanoid Sumo.

RobotChallenge is also a usual Overseas Tournament qualifier for the All Japan Robot-Sumo Tournament. 148

Mexico

Mexico hosts a number of robot-sumo events. The prominent ones are usual approved Overseas Tournaments qualifiers for the All Japan Robot-Sumo Tournament.149

Mongolia

Mongolia hosts a number of robot-sumo events. The prominent ones are usual approved Overseas Tournaments qualifiers for the All Japan Robot-Sumo Tournament.150

Romania

Romania hosts the Robochallenge.151

Robochallenge

Robochallenge was first organized in 2008, and initially called ROBOT FOTBAL, hosting a Robot Football competition. 152 It currently organizes tournaments of Line Follower, Robot Football, Maze, Robot Combat and Robot-Sumo, among others.153 The competition is held at Politehnica of Bucharest. 154

As of 2024, the robot-sumo classes hosted by Robochallenge Romania are Mega Sumo, Mini Sumo, Micro Sumo, Nano Sumo.155 It also organizes a Humanoid Sumo competition.

Robochallenge is an also usual Overseas Tournament qualifier for the All Japan Robot-Sumo Tournament. 156

United States

The RoboGames is held in the USA,157 which was, until 2016, the largest open robotics competition in the world. 158

RoboGames

Main article: RoboGames

RoboGames is an international robot event contested annually in the USA. The events are divided in categories: Humanoids; Auton. Humanoid Challenges; Combat; Robot Soccer; Open; Jr League; Autonomous Autos; Art Bots; BEAM, and Sumo. 159 It hosted the first robot-sumo event outside Japan, in 1998. 160

As of 2024, RoboGames opened registrations for the following robot-sumo events: Nano 25g (auton), Micro 100g (auton), Mini 500g (auton), Mini 500g (junior class), 1kg (kit-auton), Mega 3kg (R/C), Mega 3kg (auton), 4kg (Humanoid). 161

RoboGames is an also usual Overseas Tournament qualifier for the All Japan Robot-Sumo Tournament. 162

In the media

The popular internet meme "Omae wa mou shindeiru" (お前はもう死んでいる, English: You are already dead), from Japanese manga series Fist of the North Star, has been adapted to robot-sumo fight videos and became viral. A video uploaded on YouTube in 2017 by the user "Sh0gun", named "*teleports behind you*", has gathered more than 63 million visualizations.163

In 2018, Japanese robot-sumo has been the subject of a short video from Great Big Story named "The Freakishly Fast World of Robot Sumo" released on YouTube.164

Since 2019, FUJISOFT has been live transmitting the Regional Stage and the Grand Final tournaments of All Japan Robot-Sumo Tournament on a dedicated Youtube channel.165

Notes

See also

Wikimedia Commons has media related to Robot-sumo.

Tournaments

  • RoboCore Main robotics competitions organizer in Brazil. Hosts the Robocore Experience (RCX), the biggest competition in Latin America, among other tournaments.
  • RoboChallenge Robotics competition held in Bucharest, Romania.

Competitor Teams

Miscellaneous

References

  1. What is Robot-sumo in FSI All Japan Robot-Sumo Tournament https://www.fsi.co.jp/sumo-e/out/outc0000.html

  2. "ThundeRatz | Moai". thunderatz.org. Retrieved 2024-12-31. https://thunderatz.org/projects/robots/moai

  3. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  4. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  5. "About". www.fsi.co.jp. Retrieved 2025-01-22. https://www.fsi.co.jp/sumo/robot/en/about.html#World

  6. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  7. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  8. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  9. Torrico, César R. C.; Leal, André B.; Watanabe, Ana T. Y. (2016-01-01). "Modeling and Supervisory Control of Mobile Robots: A Case of a Sumo Robot". IFAC-PapersOnLine. Cyber-Physical & Human-Systems CPHS 2016. 49 (32): 240–245. doi:10.1016/j.ifacol.2016.12.221. ISSN 2405-8963. https://www.sciencedirect.com/science/article/pii/S2405896316328932

  10. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  11. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  12. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  13. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  14. "RoboCore". https://www.robocore.net/eventos/wc4/0

  15. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  16. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-05. https://robochallenge.ro/history/robochallenge-2010

  17. Originally the "International Robot-Sumo Tournament 2013" was considered a test event, and was originally called the "International Robot-Sumo Pre-Tournament 2013". Currently, It is listed as part of the International Robot-Sumo Tournament without the status of a "test event".

  18. FUJISOFT Inc. "RobotSumo2013_leaflet.pdf" (PDF). https://www.fsi.co.jp/sumo/pdf/RobotSumo2013_leaflet.pdf

  19. FUJISOFT Inc. "World Robot Sumo Championship Notice of the first INTERNATIONAL ROBOT SUMO TOURNAMENT 2014 to be held concurrently with the 26th All Japan Robot-Sumo Tournament" (PDF). https://www.fsi.co.jp/e/press_release/docs/20141114_INTERNATIONAL%20ROBOT%20SUMO.pdf

  20. FUJISOFT Inc. "RobotSumo2013_leaflet.pdf" (PDF). https://www.fsi.co.jp/sumo/pdf/RobotSumo2013_leaflet.pdf

  21. FUJISOFT Inc. "World Robot Sumo Championship Notice of the first INTERNATIONAL ROBOT SUMO TOURNAMENT 2014 to be held concurrently with the 26th All Japan Robot-Sumo Tournament" (PDF). https://www.fsi.co.jp/e/press_release/docs/20141114_INTERNATIONAL%20ROBOT%20SUMO.pdf

  22. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  23. "全日本の部全国大会|第29回|大会結果|ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/29/alljapan/index.html#tab

  24. "第30回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/30/index.html

  25. "全国大会|第31回|大会結果|ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/31/alljapan/index.html

  26. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  27. "Previous Results". www.fsi.co.jp. Retrieved 2025-01-24. https://www.fsi.co.jp/sumo/robot/en/Results.html

  28. "第31回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2025-01-24. https://www.fsi.co.jp/sumo/history/record/31/index.html

  29. Diário TV 2ª Edição | Mogiano desenvolve tecnologia usada em competição de robôs | Globoplay (in Brazilian Portuguese). Retrieved 2025-01-07 – via globoplay.globo.com. https://globoplay.globo.com/v/8966121/

  30. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  31. "第32回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/32/index.html

  32. "第33回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/33/index.html

  33. "HOME". Robocore_XP_CPBR17 (in Portuguese). Retrieved 2024-12-31. https://www.robocoreexperience.com/

  34. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  35. "HOME". Robocore_XP_CPBR17 (in Portuguese). Retrieved 2024-12-31. https://www.robocoreexperience.com/

  36. "第34回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/34/index.html

  37. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  38. "全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". 全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT (in Japanese). Retrieved 2025-01-05. https://robot-sumo.jp/competition-00ac692d-32df-4199-bc13-6397712d5c2c

  39. "全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". 全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT (in Japanese). Retrieved 2025-01-05. https://robot-sumo.jp/competition-00ac692d-32df-4199-bc13-6397712d5c2c

  40. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  41. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  42. "outc0000.html". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo-e/out/outc0000.html

  43. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  44. Unified Robot Sumo Rules (English) http://robogames.net/rules/all-sumo.php

  45. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  46. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  47. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  48. "ThundeRatz | Stonehenge". thunderatz.org. Retrieved 2024-12-31. https://thunderatz.org/projects/robots/stonehenge

  49. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  50. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  51. "Unified Sumo Robot Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/rules/all-sumo.php

  52. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  53. "第34回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/34/index.html

  54. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  55. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  56. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  57. Inatel. "Sumô Lego - Robótica e IA - Inatel". Robótica e IA (in Brazilian Portuguese). Retrieved 2025-01-03. https://inatel.br/robotica/categorias/sumo-lego

  58. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  59. "相扑赛-RobotChallenge". www.robotchallenge.org.cn. Retrieved 2025-01-02. http://www.robotchallenge.org.cn/competition-RobotSumo.html

  60. "Robochallenge - Index". bfrz.ro. Archived from the original on 2022-11-30. Retrieved 2024-12-31. http://web.archive.org/web/20221130072705/http://bfrz.ro/en

  61. Inatel. "Sumô Lego - Robótica e IA - Inatel". Robótica e IA (in Brazilian Portuguese). Retrieved 2025-01-03. https://inatel.br/robotica/categorias/sumo-lego

  62. "ThundeRatz | Time LEGO". thunderatz.org. Retrieved 2025-01-03. https://thunderatz.org/projects/robots/lego

  63. "Home | Lego Sumo Bots". Hackley School. Retrieved 2025-01-25. https://www.legosumobot.com/

  64. Tomas Podrabsky (2013-03-29). Robot Challenge 2013 - Humanoid sumo - CZ. Retrieved 2025-01-20 – via YouTube. https://www.youtube.com/watch?v=G4WZB0KQoMg&feature=youtu.be

  65. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  66. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  67. "首页-RobotChallenge". robotchallenge.org.cn. Retrieved 2024-12-31. http://robotchallenge.org.cn/

  68. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/

  69. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  70. "ThundeRatz | Time LEGO". thunderatz.org. Retrieved 2025-01-03. https://thunderatz.org/projects/robots/lego

  71. Inatel. "Sumô Lego - Robótica e IA - Inatel". Robótica e IA (in Brazilian Portuguese). Retrieved 2025-01-03. https://inatel.br/robotica/categorias/sumo-lego

  72. "JSumo Ultimate Robot Parts & Robot Kits Shop for Winners". www.jsumo.com/. Retrieved 2025-01-03. https://www.jsumo.com/

  73. "Sumozade Robotics | Robot Parts | Robot Kits | Robot Shop". www.sumozade.com. Retrieved 2025-01-03. https://www.sumozade.com/

  74. "Robot Kit Prices | Mini Sumo Robot Kit | Sumo Robot Kits | JSumo". www.jsumo.com/. Retrieved 2025-01-04. https://www.jsumo.com/robot-kits

  75. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  76. "Stonehenge Robot - ThundeRatz Team » JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/thunderatz-team-stonehenge-sumo-robot/

  77. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  78. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  79. "ThundeRatz | Stonehenge". thunderatz.org. Retrieved 2024-12-31. https://thunderatz.org/projects/robots/stonehenge

  80. "ThundeRatz | Moai". thunderatz.org. Retrieved 2024-12-31. https://thunderatz.org/projects/robots/moai

  81. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  82. "Matador Flag System Robot Upgrade Parts Jsumo | JSumo.com". www.jsumo.com/. Retrieved 2025-01-03. https://www.jsumo.com/matador-flag-system

  83. "Instagram". www.instagram.com. Retrieved 2025-01-03. https://www.instagram.com/p/DCXbhKVBDUd/?utm_source=ig_web_copy_link&igsh=MzRlODBiNWFlZA==

  84. "ThundeRatz | Stonehenge". thunderatz.org. Retrieved 2024-12-31. https://thunderatz.org/projects/robots/stonehenge

  85. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  86. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  87. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  88. "Ultimate Robot Parts & Robot Kits Shop for Robot Makers". www.jsumo.com/. Retrieved 2025-01-03. https://www.jsumo.com/qtr-8a-line-sensor-analog

  89. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  90. "How to Make a Sumo Robot, Sumo Robot Parts | JSumo". blog.jsumo.com. Retrieved 2025-01-03. https://blog.jsumo.com/how-to-make-sumo-robot/

  91. apis3. "Equipe Kimauánisso, do Instituto Mauá de Tecnologia, conquista 15 troféus na RoboCore Experience". maua.br (in Brazilian Portuguese). Retrieved 2025-01-06.{{cite web}}: CS1 maint: numeric names: authors list (link) https://maua.br/noticias/press-releases/equipe-kimauanisso-do-instituto-maua-de-tecnologia-conquista-15-trofeus-na-robocore-experience

  92. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  93. "試合のルール|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/rule/index.html#page2

  94. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  95. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  96. "大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2025-01-20. https://www.fsi.co.jp/sumo/history/record/index.html

  97. "12月7日(土)、8日(日)、全日本ロボット相撲大会2024 決勝大会 "世界一のロボット横綱"を目指して、ロボット力士が両国国技館に集結!". プレスリリース・ニュースリリース配信シェアNo.1|PR TIMES (in Japanese). 2024-12-02. Retrieved 2025-01-22. https://prtimes.jp/main/html/rd/p/000000127.000061382.html

  98. "首页-RobotChallenge". robotchallenge.org.cn. Retrieved 2024-12-31. http://robotchallenge.org.cn/

  99. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  100. "Robochallenge - Index". bfrz.ro. Archived from the original on 2022-11-30. Retrieved 2024-12-31. http://web.archive.org/web/20221130072705/http://bfrz.ro/en

  101. "Robotex International - The biggest robotics festival". Robotex International. Retrieved 2025-01-26. https://robotex.international/

  102. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2024-12-31. http://robogames.net/events.php

  103. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  104. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  105. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  106. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  107. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  108. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  109. "ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2025-01-19. https://www.fsi.co.jp/sumo/tournament/index.html#page1

  110. "12月7日(土)、8日(日)、全日本ロボット相撲大会2024 決勝大会 "世界一のロボット横綱"を目指して、ロボット力士が両国国技館に集結!". プレスリリース・ニュースリリース配信シェアNo.1|PR TIMES (in Japanese). 2024-12-02. Retrieved 2025-01-22. https://prtimes.jp/main/html/rd/p/000000127.000061382.html

  111. "ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/tournament/index.html

  112. "ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/index.html

  113. "全日本ロボット相撲大会". YouTube. Retrieved 2025-01-01. https://www.youtube.com/@ROBO-SUMO/streams

  114. "ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2025-01-19. https://www.fsi.co.jp/sumo/tournament/index.html#page1

  115. Originally the "International Robot-Sumo Tournament 2013" was considered a test event, and was originally called the "International Robot-Sumo Pre-Tournament 2013". Currently, It is listed as part of the International Robot-Sumo Tournament without the status of a "test event".

  116. FUJISOFT Inc. "RobotSumo2013_leaflet.pdf" (PDF). https://www.fsi.co.jp/sumo/pdf/RobotSumo2013_leaflet.pdf

  117. FUJISOFT Inc. "World Robot Sumo Championship Notice of the first INTERNATIONAL ROBOT SUMO TOURNAMENT 2014 to be held concurrently with the 26th All Japan Robot-Sumo Tournament" (PDF). https://www.fsi.co.jp/e/press_release/docs/20141114_INTERNATIONAL%20ROBOT%20SUMO.pdf

  118. "第30回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/30/index.html

  119. "ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/tournament/index.html

  120. "12月7日(土)、8日(日)、全日本ロボット相撲大会2024 決勝大会 "世界一のロボット横綱"を目指して、ロボット力士が両国国技館に集結!". プレスリリース・ニュースリリース配信シェアNo.1|PR TIMES (in Japanese). 2024-12-02. Retrieved 2025-01-22. https://prtimes.jp/main/html/rd/p/000000127.000061382.html

  121. "ホーム". 公式)高等学校ロボット相撲選手権 (in Japanese). Retrieved 2025-01-19. https://robot-sumo.net/

  122. "ごあいさつ|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/greeting/index.html

  123. "ロボット相撲大会|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2025-01-19. https://www.fsi.co.jp/sumo/tournament/index.html#page1

  124. "第34回|大会結果|ここに歴史あり|全日本ロボット相撲大会 - ALL JAPAN ROBOT-SUMO TOURNAMENT". www.fsi.co.jp. Retrieved 2024-12-31. https://www.fsi.co.jp/sumo/history/record/34/index.html

  125. "12月7日(土)、8日(日)、全日本ロボット相撲大会2024 決勝大会 "世界一のロボット横綱"を目指して、ロボット力士が両国国技館に集結!". プレスリリース・ニュースリリース配信シェアNo.1|PR TIMES (in Japanese). 2024-12-02. Retrieved 2025-01-22. https://prtimes.jp/main/html/rd/p/000000127.000061382.html

  126. "ホーム". 公式)高等学校ロボット相撲選手権 (in Japanese). Retrieved 2025-01-19. https://robot-sumo.net/

  127. "ホーム". 公式)高等学校ロボット相撲選手権 (in Japanese). Retrieved 2025-01-19. https://robot-sumo.net/

  128. "12月7日(土)、8日(日)、全日本ロボット相撲大会2024 決勝大会 "世界一のロボット横綱"を目指して、ロボット力士が両国国技館に集結!". プレスリリース・ニュースリリース配信シェアNo.1|PR TIMES (in Japanese). 2024-12-02. Retrieved 2025-01-22. https://prtimes.jp/main/html/rd/p/000000127.000061382.html

  129. "RoboCore". https://www.robocore.net/eventos/wc4/0

  130. "Combate de Robôs no Brasil | RoboCore". combatederobos. Retrieved 2025-03-14. https://www.combatederobos.com.br/en

  131. "ThundeRatz participa do Mundial de Robótica no Japão – ESCOLA POLITÉCNICA" (in Brazilian Portuguese). Retrieved 2025-01-19. https://www.poli.usp.br/noticias/2675-thunderatz-participa-do-mundial-de-robotica-no-japao.html

  132. "Instagram - É HOJE! Finalmente chegamos ao Japão para competir na @alljapanrobotsumo !!". www.instagram.com. Retrieved 2025-01-19. https://www.instagram.com/p/DDPfCvzuYFL/

  133. "Time Raijū de Robótica". www.instagram.com. Retrieved 2025-01-21. https://www.instagram.com/raiju.team/

  134. "Equipe Paralela". www.instagram.com. Retrieved 2025-01-21. https://www.instagram.com/equipeparalela/

  135. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  136. RoboCore. "RoboCore // A loja virtual do maker brasileiro". RoboCore (in Brazilian Portuguese). Retrieved 2025-01-01. https://www.robocore.net/quem_somos

  137. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  138. "HOME". Robocore_XP_CPBR17 (in Portuguese). Retrieved 2024-12-31. https://www.robocoreexperience.com/

  139. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  140. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  141. "RoboCore Event Manager". events.robocore.net. Retrieved 2024-12-31. https://events.robocore.net/rcx-cpbr14/entries

  142. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  143. "Robot Ranking". rank.robocore.net. Retrieved 2025-02-25. https://rank.robocore.net/about

  144. "首页-RobotChallenge". robotchallenge.org.cn. Retrieved 2024-12-31. http://robotchallenge.org.cn/

  145. "首页-RobotChallenge". robotchallenge.org.cn. Retrieved 2024-12-31. http://robotchallenge.org.cn/

  146. "首页-RobotChallenge". robotchallenge.org.cn. Retrieved 2024-12-31. http://robotchallenge.org.cn/

  147. "相扑赛-RobotChallenge". www.robotchallenge.org.cn. Retrieved 2025-01-02. http://www.robotchallenge.org.cn/competition-RobotSumo.html

  148. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  149. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  150. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  151. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/

  152. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/history/robochallenge-2008

  153. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/regulation

  154. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/contact

  155. "Robochallenge 2024". robochallenge.ro. Retrieved 2025-01-02. https://robochallenge.ro/regulation

  156. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  157. "RoboGames! (formerly ROBOlympics)". robogames.net. Retrieved 2025-01-03. https://robogames.net/index.php

  158. "Robotics tournament VEX Worlds is named largest in the world after 1,075 teams take part". Guinness World Records. 2016-04-27. Archived from the original on 2024-06-14. Retrieved 2025-01-03. http://web.archive.org/web/20240614003154/https://www.guinnessworldrecords.com/news/2016/4/robotics-tournament-vex-worlds-is-named-largest-in-the-world-after-1-075-teams-ta-426576

  159. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2025-01-03. https://robogames.net/events.php

  160. "About". www.fsi.co.jp. Retrieved 2025-01-03. https://www.fsi.co.jp/sumo/robot/en/about.html

  161. "RoboGames Event Schedule and Rules". robogames.net. Retrieved 2025-01-03. https://robogames.net/events.php

  162. "Instagram - ALL JAPAN ROBOT SUMO". www.instagram.com. Retrieved 2025-01-02. https://www.instagram.com/p/C-X-fwuKRkB/

  163. Sh0gun (2017-06-20). *teleports behind you*. Retrieved 2025-01-04 – via YouTube.{{cite AV media}}: CS1 maint: numeric names: authors list (link) https://www.youtube.com/watch?v=0MW0mDZysxc

  164. Great Big Story (2018-01-24). The Freakishly Fast World of Robot Sumo. Retrieved 2025-01-01 – via YouTube. https://www.youtube.com/watch?v=mS-L2fpV1Is

  165. "全日本ロボット相撲大会". YouTube. Retrieved 2025-01-01. https://www.youtube.com/@ROBO-SUMO/streams