Connections between object classification criteria using an ultrasonic bi–sonar system

Adib, F. and Katabi, D. (2013). See through wall with Wi-Fi, ACM SIGCOMM’13, Hong Kong, China, pp. 75–86.Search in Google Scholar

Barshan, B. (1999). Location and curvature estimation of spherical targets using multiple sonar time-of-flight measurements, IEEE Transactions on Instrumentation and Measurement48(6): 1212–1223.10.1109/19.816139Search in Google Scholar

Barshan, B. and Kuc, R. (1990). Differentiating sonar reflections from corners and planes by employing an intelligent sensor, IEEE Transactions on Pattern Analysis and Machine Intelligence12(6): 560 – 569.10.1109/34.56192Search in Google Scholar

Bozma, O. and Kuc, R. (1991). Building a sonar map in a specular environment using a single mobile sensor, IEEE Transactions on Pattern Analysis and Machine Intelligence13(12): 1260–1269.10.1109/34.107000Search in Google Scholar

Brown, M.K. (1985). Feature extraction techniques for recognizing solid objects with an ultrasonic range sensor, IEEE Journal of Robotics and Automation1(4): 191–205.10.1109/JRA.1985.1087022Search in Google Scholar

Heale, A. and Kleeman, L. (2001). Fast target classification using sonar, 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems, Maui, HI, USA, Vol. 3, pp. 1446–1451.Search in Google Scholar

Jackson, J.C., Summan, R., Dobie, G.I., Whiteley, S.M., Pierce, S.G. and Hayward, G. (2013). Time-of-flight measurement techniques for airborne ultrasonic ranging, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control60(2): 343–355.10.1109/TUFFC.2013.257023357908Search in Google Scholar

Kleeman, L. (2002). On-the-fly classifying sonar with accurate range and bearing estimation, IEEE/RSJ International Conference on Intelligent Robots and Systems, Lausanne, Switzerland, Vol. 1, pp. 178–183.Search in Google Scholar

Kleeman, L. (2004). Advanced sonar with velocity compensation, International Journal of Robotics Research23(2): 111–126.10.1177/0278364904041321Search in Google Scholar

Kleeman, L. and Kuc, R. (1994). An optimal sonar array for target localization and classification, IEEE International Conference on Robotics and Automation, San Diego, CA, USA, pp. 3130–3135.Search in Google Scholar

Kleeman, L. and Kuc, R. (1995). Mobile robot sonar for target localization and classification, International Journal of Robotics Research14(4): 295–318.10.1177/027836499501400401Search in Google Scholar

Kreczmer, B. (2010). Objects localization and differentiation using ultrasonic sensors, in H. Yussof (Ed.), Robot Localization and Map Building, InTech, Rijeka, pp. 521–543.10.5772/9271Search in Google Scholar

Kreczmer, B. (2013). Relations between classification criteria of objects recognizable by ultrasonic systems, 16th IEEE International Conference MMAR 2011, Międzyzdroje, Poland, pp. 806–811.Search in Google Scholar

Kuc, R. and Siegel, M. (1987). Physically based simulation model for acoustic sensor robot navigation, IEEE Transactions on Pattern Analysis and Machine IntelligencePAMI-9(6): 766–778.10.1109/TPAMI.1987.4767983Search in Google Scholar

Leonard, J.J. and Durrant-Whyte, H.F. (1991). Mobile robot localization by tracking geometric beacons, IEEE Transactions on Robotics and Automation7(3): 376–382.10.1109/70.88147Search in Google Scholar

Leonard, J.J. and Durrant-Whyte, H.F. (1992). Directed Sonar Sensing for Mobile Robot Navigation, Kluwer Academic Publishers, Boston, MA/London/Dordrecht.10.1007/978-1-4615-3652-9Search in Google Scholar

Möller, M.M. (1995). Autonomous mobility with triaural sonar system, International Symposium on Intelligent Robotic Systems, Pisa, Italy, pp. 25–30.Search in Google Scholar

Nanani, G.K. and Prasad, K.M.V.V. (2013). A study of wi-fi based system for moving object detection through the wall, International Journal of Computer Applications79(7): 15–18.10.5120/13753-1589Search in Google Scholar

Peremans, H., Audenaert, K. and Campenhout, J.M.V. (1993). A high-resolution sensor based on tri-aural perception, IEEE Transactions on Robotics and Automation9(1): 36–48.10.1109/70.210793Search in Google Scholar

Peremans, H., Campengout, J.V. and Levrouw, L. (1991). Steps towards tri-aural perception, in P.S. Schenker (Ed.), Sensor Fusion IV: Control Paradigms and Data Structures, SPIE, Bellingham, WA, pp. 165–176.Search in Google Scholar

Queirós, R., Corrêa Alegria, F., Silva Girão, P. and Cruz Serra, A. (2010). Cross-correlation and sine-fitting techniques for high-resolution ultrasonic ranging, IEEE Transactions on Instrumentation and Measurement59(12): 1–10.10.1109/TIM.2010.2047305Search in Google Scholar

Rencken, W.D., Peremans, H. and Möller, M. (1994). Tri-aural versus conventional sonar localisation and map building, JAS-4 Conference, Karlsruhe, Germany, pp. 398–402.Search in Google Scholar