"We present a fast and precise vision-based software intended for multiple robot localization. The core component of the software is a novel and efficient algorithm for black and white pattern detection. The method is robust to variable lighting conditions, achieves sub-pixel precision and its computational complexity is independent of the processed image size. With off-the-shelf computational equipment and low-cost cameras, the core algorithm is able to process hundreds of images per second while tracking hundreds of objects with millimeter precision. In addition, we present the method\u2019s mathematical model, which allows to estimate the expected localization precision, area of coverage, and processing speed from the camera\u2019s intrinsic parameters and hardware\u2019s processing capacity. The correctness of the presented model and performance of the algorithm in real-world conditions is verified in several experiments. Apart from the method description, we also make its source code public at http://purl.org/robotics/whycon; so, it can be used as an enabling technology for various mobile robotic problems." . . "http://link.springer.com/article/10.1007%2Fs10846-014-0041-x" . . "A Practical Multirobot Localization System" . . "Duckett, T." . "76" . "Krajn\u00EDk, Tom\u00E1\u0161" . "We present a fast and precise vision-based software intended for multiple robot localization. The core component of the software is a novel and efficient algorithm for black and white pattern detection. The method is robust to variable lighting conditions, achieves sub-pixel precision and its computational complexity is independent of the processed image size. With off-the-shelf computational equipment and low-cost cameras, the core algorithm is able to process hundreds of images per second while tracking hundreds of objects with millimeter precision. In addition, we present the method\u2019s mathematical model, which allows to estimate the expected localization precision, area of coverage, and processing speed from the camera\u2019s intrinsic parameters and hardware\u2019s processing capacity. The correctness of the presented model and performance of the algorithm in real-world conditions is verified in several experiments. Apart from the method description, we also make its source code public at http://purl.org/robotics/whycon; so, it can be used as an enabling technology for various mobile robotic problems."@en . . "000344353400011" . "Nitsche, M." . "0921-0296" . "21230" . . "NL - Nizozemsko" . "Van\u011Bk, Petr" . . . "24"^^ . "A Practical Multirobot Localization System" . . "RIV/68407700:21230/14:00217631" . . . . "8"^^ . "A Practical Multirobot Localization System"@en . . "P(7AMB12AR022), P(7E08006), P(GP13-18316P)" . . "A Practical Multirobot Localization System"@en . "P\u0159eu\u010Dil, Libor" . . "Faigl, Jan" . "[1950E6FE6CF4]" . "5"^^ . . "1051" . . . . "Localization; Mobile Robotics; Computer vision; Swarm Robotics"@en . "RIV/68407700:21230/14:00217631!RIV15-MSM-21230___" . . "10.1007/s10846-014-0041-x" . "3-4" . "Mejail, M." . . "Saska, Martin" . . "Journal of Intelligent and Robotic Systems" . .