著者
飛田 和輝 金森 哉吏 大久保 祐人 小川 博教 杉田 澄雄
出版者
一般社団法人 日本機械学会
雑誌
ロボティクス・メカトロニクス講演会講演概要集 2011 (ISSN:24243124)
巻号頁・発行日
pp._1P1-E08_1-_1P1-E08_4, 2011-05-26 (Released:2017-06-19)

We have proposed a new three dimensional environment recognition method using conical scanning distance measurement for 3-D mobile robot that can walk up and down the stairs. This report describes the method to recognize the stair by applying the conical scanning method. The procedures are as follows. 1) Recognizing the positions and postures of multiple regions on 3D-TOF-camera. 2) Linking neighboring regions by using image processing. 3) Extracting the step based on height information. 4) Calculating the position, direction and width of the stair. We devised the algorithm, implemented, and experiments were carried out.
著者
飛田 和輝 大平 貴之 梶谷 誠 金森 哉吏 明 愛国
出版者
公益社団法人 精密工学会
雑誌
精密工学会誌 (ISSN:09120289)
巻号頁・発行日
vol.67, no.1, pp.96-100, 2001-01-05 (Released:2009-04-10)
参考文献数
9
被引用文献数
1 1

In this paper, a new kind of rotary encoder based on magneto-optical storage method is proposed. By using this method, a rotary encoder with small size, high accuracy and high response can be realized. MO encoder is more advantageous than a magnetic scale and optical encoder according to its high response and its high accuracy, respectively. High accuracy can be achieved by rerecording, therefore the error is corrected. Following issues are described: (1) A device for record, playback and evaluation of accuracy of MO encoder has been developed. (2) A necessary condition for record and playback for MO encoder was experimentally derived. (3) The MO encoder made for trial purposes was recorded by 2250 pulses per revolution directly from the referential encoder, as a result, accuracy of 2.5" and reproducibility of 0.079" were achieved.
著者
飛田 和輝 大平 貴之 梶谷 誠 金森 哉吏 明 愛国
出版者
公益社団法人 精密工学会
雑誌
精密工学会誌 (ISSN:09120289)
巻号頁・発行日
vol.67, no.12, pp.1976-1980, 2001-12-05 (Released:2009-04-10)
参考文献数
5
被引用文献数
1 1

The feasibility for fabricating a magneto-optical rotary encoder (MO encoder) has been shown in our previous paper. In this paper, an error corrected recording method to improve accuracy of the MO encoder is described. The recording method utilizes one feature of MO encoder, that is, ability for re-recording. First, an initial recording is made directly from referential encoder to MO encoder and angular errors of the MO encoder are measured. According to the errors, correcting values for canceling the errors are calculated based on Fourier components analysis. Finally, the MO encoder is re-recorded by the correcting values after erasing the initial recording. As the result of experiments, an accuracy of 1.3" for 2250 pulse/rev. and 1.7"for9000 pulse/rev. was achieved by using the error corrected recording method.