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iRobot Corporation is an American advanced technology company founded in 1990 by three members of MIT's Artificial Intelligence Lab who designed robots for space exploration and military defense.[2] Incorporated in Delaware, the company designs and builds consumer robots for inside and outside of the home, including a range of autonomous home vacuum cleaners (Roomba), floor moppers (Braava), and other autonomous cleaning devices.[3]

iRobot Corporation
S&P 600 Component
ISINUS4627261005 Edit this on Wikidata
Founded1990; 29 years ago (1990), Delaware, U.S.
HeadquartersBedford, Massachusetts, U.S.
Key people
  • Colin Angle
  • (Chairman & CEO)
  • Alison Dean
  • (Executive VP & CFO)
ProductsDomestic robots
Military robots
RevenueIncrease US$ 1.092 billion (2018)
Increase US$ 72.69 million (2017)
Increase US$ 50.96 million (2017)
Total assetsIncrease US$ 691.52 million (2017)
Total equityIncrease US$ 470.33 million (2017)
Number of employees
920 (2017)
Footnotes / references


iRobot was founded in 1990 by Rodney Brooks, Colin Angle and Helen Greiner after working in MIT's Artificial Intelligence Lab.

  • In 1998, the company received a DARPA research contract which led to the development of the PackBot.
  • In September 2002, iRobot unveiled its home robots flagship, the Roomba, which sold a million units by 2004.[4]
  • iRobot began being traded on the NASDAQ in November 2005, under ticker symbol IRBT.
  • On September 17, 2012, iRobot announced that it had acquired Evolution Robotics, manufacturer of automated floor mopper Mint.[5]

iRobot has sold more than 8 million home robots, and has deployed more than 5,000 defense & security robots, as of 2012.[6]

In addition to deployment as bomb-disposal units with the US military in Iraq and Afghanistan, PackBots have been used to gather data in dangerous conditions at the Fukushima Daiichi nuclear disaster site,[7] and an IRobot Seaglider detected underwater pools of oil after the Deepwater Horizon oil spill.[8]

iRobot has been criticized for attempting unregulated use of 6240-6740 MHz band, and asking for an FCC exemption to do so. This band is for use for the lawn mowing robot without needing to use an electronic fence as a boundary marker, instead by using radio beacons. The band falls into a band reserved for radio astronomy use, thus interfering with radio telescope observations of methanol's 6.66852 GHz emissions.[9]

In February 2016, iRobot announced that it would sell its military robotics business to Arlington Capital Partners, in order to focus more on the consumer market.[10]

Current home robotsEdit


Roomba is an automated vacuum cleaning robot first released in 2002. Roomba is powered by a rechargeable battery, and many models are available with a docking station to which the Roomba should return to recharge at the end of its cleaning cycle. They work in conjunction with accessories that use both IR and RF.

The company intentionally allows customers to hack the robot because they want people to experiment and improve the product. The API for the serial has been published and the serial port made easily accessible to make modifications easy to perform.[11]

In 2015 iRobot released an updated Roomba called the Roomba 980 with a camera that maps out a room of its objects. The camera uses VSlam technology to map out a room and the objects in the room to clean an entire floor of a home. The Roomba 980 also includes Carpet boost where the suction is turned up when the Roomba sensor detects itself on carpets or rugs. This was also one of the first Roombas to include Wi-FI connectivity with app control.[12]


Braava is iRobot's Floor Mopping Robot, designed to work on all hard-surface floors. Braava uses disposable or microfiber cleaning cloths for damp and/or dry cleaning. The design was known as the Mint until 2013. It was developed by Evolution Robotics, which was acquired by iRobot in 2012.[13]


Create is a hobby robot, released in 2007. Create offers users the possibility of changing or adapting the robot's functions through experimentation with the basic elements of robotics as well as by adding sensors, grippers, wireless connections, computers, or other hardware.


Mirra is a swimming-pool cleaning robot released in 2013. The Mirra cleans a pool's floor and walls of large and small debris. It is the successor of the Verro.

In DevelopmentEdit


In recent developments, iRobot received FCC approval to move forward with their plans to commercialize a robotic lawn mower capable of using wireless localization technology.[14] In early 2019 iRobot announced the robot is to be branded "Terra". Terra uses mapping (similar to the Roomba i7) to navigate and mow the lawn in a straight-line pattern. It uses smart beacon stakes to localize itself in the yard, and is taught a boundary by the user (where the robot should avoid going, such as a garden). Terra includes Wi-Fi capabilities and a docking station for recharging. Terra will be available as a beta program in 2019 in Germany and the United States.[15]

Discontinued productsEdit


Scooba was iRobot's floor-washing robot. The product became commercially available in limited quantities in late 2005 before a full product release in 2006. Early models required either a special non-bleach cleaning solution or white vinegar to wash hard floors. Newer units could use plain water. Several versions were marketed. iRobot phased out the Scooba line of products in favor of the Braava line of floor moppers in 2016.[16]

Dirt Dog (char)Edit

Dirt Dog was designed for workshop use and was released in 2006. This product picks up small objects such as nuts, bolts, dirt, and debris from a workshop or similar floor. The unit was able to be used on hard floors, shop carpets and industrial floor surfaces. The Dirt Dog was discontinued in late 2010.

My Real BabyEdit

My Real Baby was a robotic toy marketed by iRobot from 2000 and produced in partnership with the toy manufacturer Hasbro. It is no longer in production. This product, which was meant to look like a human infant, employed animatronic facial expressions and was developed from an emotionally expressive and responsive robot developed by iRobot corporation called "IT."


Connect R was made in 2010, unfortunately it did not pass pilot test, and then was never introduced to public.


Verro was a swimming-pool cleaning robot released in April 2007.[17]


Looj was a gutter-cleaning robot released in September 2007, and based on an autonomous version created for a science fair project created by Lucas Garrow in 2004 (Garrow was a finalist in the 2004 The Discovery Channel Young Scientist Challenge (DCYSC)). Looj is not an autonomous robot, but rather a remote-controlled robot patterned after a toy tank with an auger mounted on the front. The robot fits inside most gutters to clean out debris stuck inside them, such as leaves and pine needles. It has long treads on its side which allow it to move inside the gutter. The auger dislodges and removes almost all of the debris inside the gutter by flinging it sideways into the air. Looj also has a detachable handle/remote that is used to carry and operate the robot. It was discontinued in 2017.

Military and policing robotsEdit

A PackBot Scout robot shown with its second pair of treads in the horizontal position. This robot is conducting search and rescue at ground zero after the 9/11 terrorist attacks.

In April 2016, iRobot sold off its Defense & Security unit, with a new company being formed called Endeavor Robotics.[18]

First Generation RobotsEdit

  • Genghis (1991) was iRobot's first robot. It was designed as a test platform for researchers. The robot is currently at the Smithsonian Air and Space Museum
  • Ariel (1996) is a crab-like robot designed to remove mines, both in and out of water.
  • Urbie (1997) was a proof of concept robot designed for urban environments. The platform was designed with two tank-like tracks so it could climb stairs. Urbie was field tested at Fort Benning, Georgia, United States; one model was gifted to a local high school on indefinite loan in 2005. High school students at Columbus High School in Columbus, GA, reconditioned the robot and created a usage manual for future students to continue to benefit from Urbie's list of talents. Urbie is built around a light, machined aluminum chassis. The exterior consists of flat aluminum plates, bent at the front and back, which are attached to the chassis with small hex screws. 2 dc motors power the forward rotating arms, while 2 slightly larger dc motors power the body length treads. From the outside, Urbie is an exact replica of the PackBot Scout. The front compartment holds 2 banks of LEDs, one white light, the other infrared. The center-front compartment holds a video camera and an infrared camera. Both cameras' images are transmitted back to a handheld LCD screen and remote control console via a single antenna. The image that is transmitted back is controlled by a mechanical switch, thrown remotely inside the chassis by a remote controlled actuator. The motors are controlled the same way that a remote control airplane or car is. The ability to reverse the tread direction on both sides gives the robot a 0 degree turn radius. In 2006, the exterior body was refinished, the antennas were repaired (replaced by a fishing pole) and some of the interior electronics were updated. The robot is simply constructed, with basic electronic controls, and is the same physical design as the current PackBots, it only lacks the digital processor.
  • SWARM is an artificial intelligence research project designed to develop algorithms for swarms of hundreds of individual robots. This project is sponsored by DARPA.


  • PackBot is a series of military robots designed for situational awareness, reconnaissance, explosive ordnance disposal and other missions. More than 2000 PackBots are currently on station in Iraq and Afghanistan, with hundreds more on the way.[19]



  • Warrior, currently in development (expected deployment in 2008[20]), is a 250 lb (110 kg) machine that can travel up to 12 miles per hour (19 km/h) through rough terrain and up and down stairs while carrying payloads weighing over 100 pounds (45 kg). Its potential uses include bomb disposal, battlefield casualty extraction and firefighting.[21]


  • R-Gator, a product of a partnership with John Deere Corporation, is a small utility vehicle with a robotics package added. It is capable of autonomous operation including waypoint following with obstacle avoidance, following dismounted infantry and other vehicles and semi-autonomous operation such as teleoperation with obstacle avoidance. Vehicles are currently in production.[22][23]


  • Negotiator is a man-portable civil-response surveillance and reconnaissance robot.[24]


  • Transphibian is a man-portable UUV and bottom crawler that autonomously inserts itself into the water and operates in a shallow area. It is designed for mine detection, harbor defense and surveillance.[25]


  • Chembot is a DARPA-funded prototype of a shape-shifting robot without motors, wheels or any rigid elements. It runs on chemical power and is made using dielectric elastomers, which are extremely flexible and can alter their shape in electric or magnetic fields. Ultimately, the program aims to build a robot that is completely squishy and able to squeeze through a hole 'the size of a 10 pence coin'.[26]


  • Ember is a prototype miniature, tracked robot, weighing around 1 lb and costing so little to make that it is intended to be virtually disposable. Ember moves at walking pace, can right itself when it is turned over and is controlled by a simple touchscreen application on an Apple iPhone. Ember is a military robot designed to boost radio communications and capture video footage to aid infantry warfighters.[26]


AIRarm is an inflatable arm robot developed by iRobot. The inflatable arm uses pumps to inflate the arm. Since the arm uses strings and actuators, no motors were used at the joints.[27]


FirstLook is a small reconnaissance robot weighing 5.2 lb (2.4 kg) with a top speed of 3.8 mph (6.1 km/h) and line-of-sight control range of 200 m (219 yd). It has visible and thermal cameras and infrared sensors to gather and transmit images of buildings, caves, or other locations. It can participate in explosive ordnance disposal by carrying 2.5 lb (1.1 kg) of C4 explosive to an IED. The robot has the ability to mesh together a network of feeds from other robots to extend the range of its sensors. The FirstLook has CBRN detectors and is semi-autonomous, meaning it can perform tasks like course correction and flipping itself over without direct intervention. 100 were bought by JIEDDO in March 2012 and the Pentagon has ordered hundreds more.[28]

Medical RobotsEdit


  • RP-VITA, or Remote Presence Virtual + Independent Telemedicine Assistant, is a medical robot jointly produced with InTouch Health. The robot will be cloud-connected and have access to a patient's medical record, and will also be able to plug in diagnostic devices such as stethoscopes, otoscopes, and ultrasound.[29]

Research and dual-role robotsEdit


  • Ranger is a man-portable UUV that supports technology development related to mine warfare, expeditionary warfare, homeland defense, underwater surveillance / reconnaissance and other missions. Ranger is also suitable for ocean research and commercial applications related to search and survey.[30]


  • Seaglider is a long-range dual-role autonomous underwater vehicle entering production under an exclusive manufacturing agreement from the University of Washington. Capable of operating for months over thousands of kilometers on a single battery charge, networked Seagliders provide scientists and naval intelligence with cost-effective real-time access to oceanographic measurements.[31][32] The Seaglider is also used in military applications where it is more usually designated as an unmanned underwater vehicle.

See alsoEdit


  1. ^ "US SEC: Form 10-K iRobot Corporation". U.S. Securities and Exchange Commission. Retrieved March 9, 2018.
  2. ^ Eng, Dinah (August 14, 2014). "iRobot: From R2-D2 to practical robots." Fortune. Retrieved March 1, 2017
  3. ^ O'Brien, Matt (August 31, 2016). "iRobot CEO says vacuum cleaners clear path to robot future". Associated Press. Retrieved February 24, 2017.
  4. ^ "Archived copy". Archived from the original on 2013-05-12. Retrieved 2013-03-26.CS1 maint: archived copy as title (link)
  5. ^ "Archived copy". Archived from the original on 2012-01-03. Retrieved 2009-11-20.CS1 maint: archived copy as title (link)
  6. ^ "iRobot: Our History". Retrieved 25 May 2015.
  7. ^ Amar Toor. "iRobot Packbots enter Fukushima nuclear plant to gather data, take photos, save lives (video)". Engadget. AOL. Retrieved 25 May 2015.
  8. ^ "iRobot and healthcare". Xconomy. Retrieved 25 May 2015.
  9. ^ Brooks Hays (17 April 2015). "Why astronomers hate the lawn-mowing Roomba". Space Daily.
  10. ^ "iRobot sells off military unit, will stick to friendlier consumer robots". Ars Technica. Retrieved 5 February 2016.
  11. ^ Wright, Mic (2010-10-23). "The Wired Interview: iRobot CEO Colin Angle".
  12. ^ "iRobot Enters the Smart Home with Roomba® 980 Vacuum Cleaning Robot". iRobot MediaKit. Retrieved 2019-02-14.
  13. ^ "iRobot's new mop will jet around your bathroom floors".
  14. ^ "RLA-Y1 Terra T7 Robot Mower by iRobot". Retrieved 2 September 2019.
  15. ^ "Robot Lawn Mower". Retrieved 2019-02-14.
  16. ^ Seitz, Patrick. "IRobot Hopes To Clean Up In Floor-Mopping Business". Investors Business Daily. Retrieved 9 August 2016.
  17. ^ iRobot Verro Pool Cleaning Robot Archived 2007-05-17 at the Wayback Machine
  18. ^
  19. ^ "iRobot Delivers 2,000th PackBot Robot". 2009. Archived from the original on February 26, 2009. Retrieved February 7, 2009.
  20. ^ Rick Aristotle Munarriz (27 October 2006). "Attack of the iRobot". Archived from the original on 1 December 2006. Retrieved 25 May 2015.
  21. ^ Mark Wilson. "iRobot Warrior: If Your House is Really, Really Dirty". Gizmodo. Gawker Media. Retrieved 25 May 2015.
  22. ^ "Government & Military - Federal & Military Sales - John Deere US" (PDF). Archived from the original (PDF) on 27 September 2011. Retrieved 25 May 2015.
  23. ^ "R-Gator unmanned military ground vehicle unveiled". Retrieved 25 May 2015.
  24. ^ "Archived copy". Archived from the original on 2009-02-18. Retrieved 2009-03-11.CS1 maint: archived copy as title (link)
  25. ^ "Archived copy". Archived from the original on 2009-03-17. Retrieved 2009-03-11.CS1 maint: archived copy as title (link)
  26. ^ a b Harris, Mark (2009-05-31). "iRobot where the Terminator is coming to life". The Times. London. Retrieved 2010-05-05.
  27. ^ Ackerman, Evan. "iRobot Developing Inflatable Robot Arms, Inflatable Robots". IEEE Spectrum Automaton. Retrieved 24 August 2012.
  28. ^ Pentagon Orders Hundreds more FirstLook Robots -, 3 January 2014
  29. ^ Halverson, Nic. "Robot Doctor Will Now See You". Discovery News.
  30. ^ "Archived copy". Archived from the original on 2009-03-17. Retrieved 2009-03-11.CS1 maint: archived copy as title (link)
  31. ^ The Christian Science Monitor. "No one lives in this submarine". The Christian Science Monitor. Retrieved 25 May 2015.
  32. ^ Thomas Ricker. "iRobot to convert UW's academic Seaglider into military drone". Engadget. AOL. Retrieved 25 May 2015.

External linksEdit